From 9d7e6097f3f3acf409e0bc684a9f7c7392a4a607 Mon Sep 17 00:00:00 2001 From: Steve Dunham Date: Mon, 17 Mar 2025 18:43:42 -0700 Subject: [PATCH] tco working, update playground to self-hosted newt --- Makefile | 10 +- bootstrap/newt.js | 380 ++++++++++++++++++++++++------------- playground/build | 2 +- playground/src/emul.ts | 220 ++------------------- playground/src/global.d.ts | 2 +- playground/src/preload.ts | 2 - playground/src/worker.ts | 9 +- src/Lib/Compile.newt | 34 +++- src/Lib/CompileExp.newt | 4 +- src/Lib/TCO.newt | 101 ++++++---- src/Main.newt | 5 +- src/Node.newt | 3 +- 12 files changed, 377 insertions(+), 395 deletions(-) diff --git a/Makefile b/Makefile index 0966969..185af6c 100644 --- a/Makefile +++ b/Makefile @@ -1,6 +1,10 @@ OSRCS=$(shell find orig -name "*.idr") SRCS=$(shell find src -name "*.newt") +# Node shaves off 40% of the time. +# RUNJS=bun run +RUNJS=node + .PHONY: all: build/exec/newt build/exec/newt.js build/exec/newt.min.js newt.js @@ -25,13 +29,13 @@ orig_test: build/exec/newt # New version newt.js: ${SRCS} - bun run bootstrap/newt.js src/Main.newt -o newt.js + $(RUNJS) bootstrap/newt.js src/Main.newt -o newt.js newt2.js: newt.js - bun run newt.js src/Main.newt -o newt2.js + $(RUNJS) newt.js src/Main.newt -o newt2.js newt3.js: newt2.js - bun run newt2.js src/Main.newt -o newt3.js + $(RUNJS) newt2.js src/Main.newt -o newt3.js cmp newt2.js newt3.js test: newt.js diff --git a/bootstrap/newt.js b/bootstrap/newt.js index 20cb8cf..7308f5a 100755 --- a/bootstrap/newt.js +++ b/bootstrap/newt.js @@ -1,5 +1,6 @@ "use strict"; -const PiType = (h0, h1) => ({ tag: "PiType", h0, h1 }) +const PiType = (h0, h1) => ({ tag: "PiType", h0, h1 }); +const bouncer = (f,ini) => { let obj = ini; while (obj.tag !== 'return') obj = f(obj); return obj.h0 }; const Lib_Types_errorMsg = ( _$$0 ) => { switch (_$$0.tag) { case "Postpone": return _$$0.h2; case "E": return _$$0.h1; } }; const Lib_Types_Lib_Common_HasFC$20Lib_Common_Error$2CgetFC = ( _$$0 ) => { switch (_$$0.tag) { case "Postpone": return _$$0.h0; case "E": return _$$0.h0; } }; const Lib_Common_MkHasFC = ( h0, h1 ) => ({ tag: "MkHasFC", h0: h0, h1: h1 }); @@ -81,12 +82,14 @@ const Lib_Prettier_Empty = { tag: "Empty" }; const Lib_Prettier_Line = { tag: "Line" }; const Lib_Prettier_Text = ( h0 ) => ({ tag: "Text", h0: h0 }); const Lib_Prettier_Seq = ( h0, h1 ) => ({ tag: "Seq", h0: h0, h1: h1 }); -const Lib_Prettier_noAlt = ( _$$0 ) => { switch (_$$0.tag) { case "Alt": return Lib_Prettier_noAlt(_$$0.h0); case "Seq": return Lib_Prettier_Seq(Lib_Prettier_noAlt(_$$0.h0), Lib_Prettier_noAlt(_$$0.h1)); case "Nest": return Lib_Prettier_noAlt(_$$0.h1); case "Text": return Lib_Prettier_Text(_$$0.h0); case "Line": return Lib_Prettier_Line; case "Empty": return Lib_Prettier_Empty; } }; +const Lib_Prettier_REC_noAlt = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Prettier.noAlt": { const _sc$$0 = arg.h0; switch (_sc$$0.tag) { case "Alt": return { tag: "Lib.Prettier.noAlt", h0: _sc$$0.h0 }; case "Seq": return { tag: "return", h0: Lib_Prettier_Seq(Lib_Prettier_noAlt(_sc$$0.h0), Lib_Prettier_noAlt(_sc$$0.h1)) }; case "Nest": return { tag: "Lib.Prettier.noAlt", h0: _sc$$0.h1 }; case "Text": return { tag: "return", h0: Lib_Prettier_Text(_sc$$0.h0) }; case "Line": return { tag: "return", h0: Lib_Prettier_Line }; case "Empty": return { tag: "return", h0: Lib_Prettier_Empty }; } break; } } }; +const Lib_Prettier_noAlt = ( _$$0 ) => (bouncer(Lib_Prettier_REC_noAlt, { tag: "Lib.Prettier.noAlt", h0: _$$0 })); const Prelude_Lin = ( h0 ) => ({ tag: "Lin", h0: h0 }); const Prelude_Nil = ( h0 ) => ({ tag: "Nil", h0: h0 }); const Prelude__$3A$3A_ = ( h0, h1, h2 ) => ({ tag: "_::_", h0: h0, h1: h1, h2: h2 }); const Prelude_False = { tag: "False" }; -const Prelude__$3C$3E$3E_ = ( a$$0, _$$1, _$$2 ) => { switch (_$$1.tag) { case "_:<_": return Prelude__$3C$3E$3E_(null, _$$1.h1, Prelude__$3A$3A_(null, _$$1.h2, _$$2)); case "Lin": return _$$2; } }; +const Prelude_REC__$3C$3E$3E_ = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Prelude._<>>_": { const _sc$$0 = arg.h1; switch (_sc$$0.tag) { case "_:<_": return { tag: "Prelude._<>>_", h0: null, h1: _sc$$0.h1, h2: Prelude__$3A$3A_(null, _sc$$0.h2, arg.h2) }; case "Lin": return { tag: "return", h0: arg.h2 }; } break; } } }; +const Prelude__$3C$3E$3E_ = ( a$$0, _$$1, _$$2 ) => (bouncer(Prelude_REC__$3C$3E$3E_, { tag: "Prelude._<>>_", h0: a$$0, h1: _$$1, h2: _$$2 })); const Prelude_Just = ( h0, h1 ) => ({ tag: "Just", h0: h0, h1: h1 }); const Lib_Prettier_LINE = ( h0 ) => ({ tag: "LINE", h0: h0 }); const Prelude__$3A$3C_ = ( h0, h1, h2 ) => ({ tag: "_:<_", h0: h0, h1: h1, h2: h2 }); @@ -123,7 +126,8 @@ const Prelude_MkFunctor = ( h0, h1 ) => ({ tag: "MkFunctor", h0: h0, h1: h1 }) const Prelude_Prelude_Functor$20Prelude_Maybe = Prelude_MkFunctor(null, ( a ) => (( b ) => (( eta ) => (( eta1 ) => (Prelude_Prelude_Functor$20Prelude_Maybe$2Cmap(null, null, eta, eta1)))))); const Prelude_map = ( m$$0, _$$1 ) => (( a ) => (( b ) => (_$$1.h1(null)(null)))); const Prelude__$3C$$$3E_ = ( f$$0, _$$1, a$$2, b$$3, _$$4, _$$5 ) => (Prelude_map(null, _$$1)(null)(null)(_$$4)(_$$5)); -const Lib_Prettier_be = ( _$$0, _$$1, _$$2, _$$3, _$$4 ) => { switch (_$$4.tag) { case "_::_": { const _sc$$0 = _$$4.h1; const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "Alt": return Prelude__$3C$$$3E_(null, Prelude_Prelude_Functor$20Prelude_Maybe, null, null, ( eta ) => (Prelude__$3C$3E$3E_(null, _$$1, eta)), Prelude__$3C$7C$3E_(null, Prelude_Prelude_Alternative$20Prelude_Maybe)(null)(Lib_Prettier_be(Prelude_True, Prelude_Lin(null), _$$2, _$$3, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h2, _sc$$1.h0), _$$4.h2)))(Lib_Prettier_be(_$$0, Prelude_Lin(null), _$$2, _$$3, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h2, _sc$$1.h1), _$$4.h2)))); case "Seq": return Lib_Prettier_be(_$$0, _$$1, _$$2, _$$3, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h2, _sc$$1.h0), Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h2, _sc$$1.h1), _$$4.h2))); case "Nest": return Lib_Prettier_be(_$$0, _$$1, _$$2, _$$3, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h2)(_sc$$1.h0), _sc$$1.h1), _$$4.h2)); case "Text": { const sc$$13 = Prelude__$7C$7C_(Prelude_not(_$$0), Prelude__$3C_(null, Prelude_Prelude_Ord$20Prim_Int, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$3)(Prelude_slen(_sc$$1.h0)), _$$2)); switch (sc$$13.tag) { case "False": return Prelude_Nothing(null); case "True": return Lib_Prettier_be(_$$0, Prelude__$3A$3C_(null, _$$1, Lib_Prettier_TEXT(_sc$$1.h0)), _$$2, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$3)(Prelude_slen(_sc$$1.h0)), _$$4.h2); } break; } case "Line": return Lib_Prettier_be(Prelude_False, Prelude__$3A$3C_(null, _$$1, Lib_Prettier_LINE(_sc$$0.h2)), _$$2, _sc$$0.h2, _$$4.h2); case "Empty": return Lib_Prettier_be(_$$0, _$$1, _$$2, _$$3, _$$4.h2); } break; } case "Nil": return Prelude_Just(null, Prelude__$3C$3E$3E_(null, _$$1, Prelude_Nil(null))); } }; +const Lib_Prettier_REC_be = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Prettier.be": { const _sc$$0 = arg.h4; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const _sc$$2 = _sc$$1.h3; switch (_sc$$2.tag) { case "Alt": return { tag: "return", h0: Prelude__$3C$$$3E_(null, Prelude_Prelude_Functor$20Prelude_Maybe, null, null, ( eta ) => (Prelude__$3C$3E$3E_(null, arg.h1, eta)), Prelude__$3C$7C$3E_(null, Prelude_Prelude_Alternative$20Prelude_Maybe)(null)(Lib_Prettier_be(Prelude_True, Prelude_Lin(null), arg.h2, arg.h3, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$1.h2, _sc$$2.h0), _sc$$0.h2)))(Lib_Prettier_be(arg.h0, Prelude_Lin(null), arg.h2, arg.h3, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$1.h2, _sc$$2.h1), _sc$$0.h2)))) }; case "Seq": return { tag: "Lib.Prettier.be", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$1.h2, _sc$$2.h0), Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$1.h2, _sc$$2.h1), _sc$$0.h2)) }; case "Nest": return { tag: "Lib.Prettier.be", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: Prelude__$3A$3A_(null, Prelude__$2C_(null, null, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$1.h2)(_sc$$2.h0), _sc$$2.h1), _sc$$0.h2) }; case "Text": { const sc$$13 = Prelude__$7C$7C_(Prelude_not(arg.h0), Prelude__$3C_(null, Prelude_Prelude_Ord$20Prim_Int, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(arg.h3)(Prelude_slen(_sc$$2.h0)), arg.h2)); switch (sc$$13.tag) { case "False": return { tag: "return", h0: Prelude_Nothing(null) }; case "True": return { tag: "Lib.Prettier.be", h0: arg.h0, h1: Prelude__$3A$3C_(null, arg.h1, Lib_Prettier_TEXT(_sc$$2.h0)), h2: arg.h2, h3: Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(arg.h3)(Prelude_slen(_sc$$2.h0)), h4: _sc$$0.h2 }; } break; } case "Line": return { tag: "Lib.Prettier.be", h0: Prelude_False, h1: Prelude__$3A$3C_(null, arg.h1, Lib_Prettier_LINE(_sc$$1.h2)), h2: arg.h2, h3: _sc$$1.h2, h4: _sc$$0.h2 }; case "Empty": return { tag: "Lib.Prettier.be", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: _sc$$0.h2 }; } break; } case "Nil": return { tag: "return", h0: Prelude_Just(null, Prelude__$3C$3E$3E_(null, arg.h1, Prelude_Nil(null))) }; } break; } } }; +const Lib_Prettier_be = ( _$$0, _$$1, _$$2, _$$3, _$$4 ) => (bouncer(Lib_Prettier_REC_be, { tag: "Lib.Prettier.be", h0: _$$0, h1: _$$1, h2: _$$2, h3: _$$3, h4: _$$4 })); const Prelude_fromMaybe = ( a$$0, _$$1, _$$2 ) => { switch (_$$2.tag) { case "Nothing": return _$$1; case "Just": return _$$2.h1; } }; const Lib_Prettier_best = ( _$$0, _$$1, _$$2 ) => (Prelude_fromMaybe(null, Prelude_Nil(null), Lib_Prettier_be(Prelude_False, Prelude_Lin(null), _$$0, _$$1, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, 0, _$$2), Prelude_Nil(null))))); const Prelude_listToArray = @@ -157,17 +161,21 @@ const Prelude_natToInt = (n) => { return rval }; const Prelude_replicate = (n,c) => c.repeat(Prelude_natToInt(n)); -const Lib_Prettier_layout = ( _$$0, _$$1 ) => { switch (_$$0.tag) { case "_::_": { const _sc$$0 = _$$0.h1; switch (_sc$$0.tag) { case "LINE": return Lib_Prettier_layout(_$$0.h2, Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, _$$1, "\n"), Prelude_replicate(Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(_sc$$0.h0), " "))); case "TEXT": return Lib_Prettier_layout(_$$0.h2, Prelude__$3A$3C_(null, _$$1, _sc$$0.h0)); } break; } case "Nil": return Prelude_fastConcat(Prelude__$3C$3E$3E_(null, _$$1, Prelude_Nil(null))); } }; +const Lib_Prettier_REC_layout = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Prettier.layout": { const _sc$$0 = arg.h0; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "LINE": return { tag: "Lib.Prettier.layout", h0: _sc$$0.h2, h1: Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, arg.h1, "\n"), Prelude_replicate(Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(_sc$$1.h0), " ")) }; case "TEXT": return { tag: "Lib.Prettier.layout", h0: _sc$$0.h2, h1: Prelude__$3A$3C_(null, arg.h1, _sc$$1.h0) }; } break; } case "Nil": return { tag: "return", h0: Prelude_fastConcat(Prelude__$3C$3E$3E_(null, arg.h1, Prelude_Nil(null))) }; } break; } } }; +const Lib_Prettier_layout = ( _$$0, _$$1 ) => (bouncer(Lib_Prettier_REC_layout, { tag: "Lib.Prettier.layout", h0: _$$0, h1: _$$1 })); const Lib_Prettier_render = ( _$$0, _$$1 ) => (Lib_Prettier_layout(Lib_Prettier_best(_$$0, 0, Lib_Prettier_noAlt(_$$1)), Prelude_Lin(null))); const Prelude__$2218_ = ( A$$0, B$$1, C$$2, _$$3, _$$4, _$$5 ) => (_$$3(_$$4(_$$5))); -const Prelude_reverse_go = ( _, _1, _$$2, _$$3 ) => { switch (_$$3.tag) { case "_::_": return Prelude_reverse_go(_, _1, Prelude__$3A$3A_(null, _$$3.h1, _$$2), _$$3.h2); case "Nil": return _$$2; } }; +const Prelude_REC_reverse_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Prelude.reverse.go": { const _sc$$0 = arg.h3; switch (_sc$$0.tag) { case "_::_": return { tag: "Prelude.reverse.go", h0: arg.h0, h1: arg.h1, h2: Prelude__$3A$3A_(null, _sc$$0.h1, arg.h2), h3: _sc$$0.h2 }; case "Nil": return { tag: "return", h0: arg.h2 }; } break; } } }; +const Prelude_reverse_go = ( _, _1, _$$2, _$$3 ) => (bouncer(Prelude_REC_reverse_go, { tag: "Prelude.reverse.go", h0: _, h1: _1, h2: _$$2, h3: _$$3 })); const Prelude_reverse = ( a$$0 ) => (( eta ) => (Prelude_reverse_go(a$$0, null, Prelude_Nil(null), eta))); -const Prelude_Prelude_Functor$20Prelude_List$2Cmap_go = ( _, _1, _2, _3, _4, a$$5, b$$6, _$$7, _$$8, _$$9 ) => { switch (_$$8.tag) { case "_::_": return Prelude_Prelude_Functor$20Prelude_List$2Cmap_go(_, _1, _2, _3, _4, null, null, _$$7, _$$8.h2, Prelude__$3A$3A_(null, _$$7(_$$8.h1), _$$9)); case "Nil": return Prelude_reverse(null)(_$$9); } }; +const Prelude_REC_Prelude_Functor$20Prelude_List$2Cmap_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Prelude.Prelude.Functor Prelude.List,map.go": { const _sc$$0 = arg.h8; switch (_sc$$0.tag) { case "_::_": return { tag: "Prelude.Prelude.Functor Prelude.List,map.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: null, h6: null, h7: arg.h7, h8: _sc$$0.h2, h9: Prelude__$3A$3A_(null, arg.h7(_sc$$0.h1), arg.h9) }; case "Nil": return { tag: "return", h0: Prelude_reverse(null)(arg.h9) }; } break; } } }; +const Prelude_Prelude_Functor$20Prelude_List$2Cmap_go = ( _, _1, _2, _3, _4, a$$5, b$$6, _$$7, _$$8, _$$9 ) => (bouncer(Prelude_REC_Prelude_Functor$20Prelude_List$2Cmap_go, { tag: "Prelude.Prelude.Functor Prelude.List,map.go", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: a$$5, h6: b$$6, h7: _$$7, h8: _$$8, h9: _$$9 })); const Prelude_Prelude_Functor$20Prelude_List$2Cmap = ( a$$0, b$$1, _$$2, _$$3 ) => (Prelude_Prelude_Functor$20Prelude_List$2Cmap_go(a$$0, b$$1, _$$2, _$$3, null, null, null, _$$2, _$$3, Prelude_Nil(null))); const Prelude_Prelude_Functor$20Prelude_List = Prelude_MkFunctor(null, ( a ) => (( b ) => (( eta ) => (( eta1 ) => (Prelude_Prelude_Functor$20Prelude_List$2Cmap(null, null, eta, eta1)))))); const Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29$2C_$2B$2B_ = ( a$$0, _$$1, _$$2 ) => { switch (_$$1.tag) { case "_::_": return Prelude__$3A$3A_(null, _$$1.h1, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_$$1.h2)(_$$2)); case "Nil": return _$$2; } }; const Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29 = ( a ) => (Prelude_MkConcat(null, ( eta ) => (( eta1 ) => (Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29$2C_$2B$2B_(null, eta, eta1))))); -const Prelude_joinBy = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "_::_": { const _sc$$0 = _$$1.h2; switch (_sc$$0.tag) { case "_::_": return Prelude_joinBy(_$$0, Prelude__$3A$3A_(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(_$$1.h1)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(_$$0)(_sc$$0.h1)), _sc$$0.h2)); case "Nil": return _$$1.h1; } break; } case "Nil": return ""; } }; +const Prelude_REC_joinBy = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Prelude.joinBy": { const _sc$$0 = arg.h1; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h2; switch (_sc$$1.tag) { case "_::_": return { tag: "Prelude.joinBy", h0: arg.h0, h1: Prelude__$3A$3A_(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(_sc$$0.h1)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(arg.h0)(_sc$$1.h1)), _sc$$1.h2) }; case "Nil": return { tag: "return", h0: _sc$$0.h1 }; } break; } case "Nil": return { tag: "return", h0: "" }; } break; } } }; +const Prelude_joinBy = ( _$$0, _$$1 ) => (bouncer(Prelude_REC_joinBy, { tag: "Prelude.joinBy", h0: _$$0, h1: _$$1 })); const Prelude_unlines = ( _$$0 ) => (Prelude_joinBy("\n", _$$0)); const Lib_Common_Prelude_Show$20Lib_Common_QName$2Cshow = ( _$$0 ) => { const _sc$$0 = _$$0.h0; switch (_sc$$0.tag) { case "Nil": return _$$0.h1; default: return Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude_joinBy(".", _$$0.h0))(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(".")(_$$0.h1)); } }; const Lib_Common_Prelude_Show$20Lib_Common_QName = Prelude_MkShow(null, Lib_Common_Prelude_Show$20Lib_Common_QName$2Cshow); @@ -194,7 +202,8 @@ const Data_Int_Prelude_Cast$20Prim_Char$20Prim_Int$2Ccast = Prelude_ord; const Data_Int_Prelude_Cast$20Prim_Char$20Prim_Int = Prelude_MkCast(null, null, Data_Int_Prelude_Cast$20Prim_Char$20Prim_Int$2Ccast); const Lib_Common_hexChars = Prelude_unpack("0123456789ABCDEF"); const Prelude_mod = (a,b) => a % b; -const Prelude_getAt = ( a$$0, _$$1, _$$2 ) => { switch (_$$2.tag) { case "_::_": switch (_$$1.tag) { case "S": return Prelude_getAt(null, _$$1.h0, _$$2.h2); case "Z": return Prelude_Just(null, _$$2.h1); } break; case "Nil": return Prelude_Nothing(null); } }; +const Prelude_REC_getAt = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Prelude.getAt": { const _sc$$0 = arg.h2; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = arg.h1; switch (_sc$$1.tag) { case "S": return { tag: "Prelude.getAt", h0: null, h1: _sc$$1.h0, h2: _sc$$0.h2 }; case "Z": return { tag: "return", h0: Prelude_Just(null, _sc$$0.h1) }; } break; } case "Nil": return { tag: "return", h0: Prelude_Nothing(null) }; } break; } } }; +const Prelude_getAt = ( a$$0, _$$1, _$$2 ) => (bouncer(Prelude_REC_getAt, { tag: "Prelude.getAt", h0: a$$0, h1: _$$1, h2: _$$2 })); const Lib_Common_hexDigit = ( _$$0 ) => (Prelude_fromMaybe(null, " ", Prelude_getAt(null, Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(Prelude_mod(_$$0, 16)), Lib_Common_hexChars))); const Prelude_divInt = (x,y) => x / y | 0; const Prelude_Prelude_Div$20Prim_Int$2C_$2F_ = ( _$$0, _$$1 ) => (Prelude_divInt(_$$0, _$$1)); @@ -222,18 +231,21 @@ const Prelude_pack = (cs) => { const Lib_Compile_jsKeywords = Prelude__$3A$3A_(null, "break", Prelude__$3A$3A_(null, "case", Prelude__$3A$3A_(null, "catch", Prelude__$3A$3A_(null, "continue", Prelude__$3A$3A_(null, "debugger", Prelude__$3A$3A_(null, "default", Prelude__$3A$3A_(null, "delete", Prelude__$3A$3A_(null, "do", Prelude__$3A$3A_(null, "else", Prelude__$3A$3A_(null, "finally", Prelude__$3A$3A_(null, "for", Prelude__$3A$3A_(null, "function", Prelude__$3A$3A_(null, "if", Prelude__$3A$3A_(null, "in", Prelude__$3A$3A_(null, "instanceof", Prelude__$3A$3A_(null, "new", Prelude__$3A$3A_(null, "return", Prelude__$3A$3A_(null, "switch", Prelude__$3A$3A_(null, "this", Prelude__$3A$3A_(null, "throw", Prelude__$3A$3A_(null, "try", Prelude__$3A$3A_(null, "typeof", Prelude__$3A$3A_(null, "var", Prelude__$3A$3A_(null, "void", Prelude__$3A$3A_(null, "while", Prelude__$3A$3A_(null, "with", Prelude__$3A$3A_(null, "class", Prelude__$3A$3A_(null, "const", Prelude__$3A$3A_(null, "enum", Prelude__$3A$3A_(null, "export", Prelude__$3A$3A_(null, "extends", Prelude__$3A$3A_(null, "import", Prelude__$3A$3A_(null, "super", Prelude__$3A$3A_(null, "implements", Prelude__$3A$3A_(null, "class", Prelude__$3A$3A_(null, "let", Prelude__$3A$3A_(null, "package", Prelude__$3A$3A_(null, "private", Prelude__$3A$3A_(null, "protected", Prelude__$3A$3A_(null, "public", Prelude__$3A$3A_(null, "static", Prelude__$3A$3A_(null, "yield", Prelude__$3A$3A_(null, "null", Prelude__$3A$3A_(null, "true", Prelude__$3A$3A_(null, "false", Prelude__$3A$3A_(null, "String", Prelude__$3A$3A_(null, "Number", Prelude__$3A$3A_(null, "Array", Prelude__$3A$3A_(null, "BigInt", Prelude_Nil(null)))))))))))))))))))))))))))))))))))))))))))))))))); const Prelude_Prelude_Eq$20Prim_String$2C_$3D$3D_ = ( _$$0, _$$1 ) => (Prelude_jsEq(null, _$$0, _$$1)); const Prelude_Prelude_Eq$20Prim_String = Prelude_MkEq(null, ( eta ) => (( eta1 ) => (Prelude_Prelude_Eq$20Prim_String$2C_$3D$3D_(eta, eta1)))); -const Prelude_elem = ( a$$0, _$$1, _$$2, _$$3 ) => { switch (_$$3.tag) { case "_::_": { const sc$$7 = Prelude__$3D$3D_(null, _$$1)(_$$2)(_$$3.h1); switch (sc$$7.tag) { case "False": return Prelude_elem(null, _$$1, _$$2, _$$3.h2); case "True": return Prelude_True; } break; } case "Nil": return Prelude_False; } }; +const Prelude_REC_elem = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Prelude.elem": { const _sc$$0 = arg.h3; switch (_sc$$0.tag) { case "_::_": { const sc$$7 = Prelude__$3D$3D_(null, arg.h1)(arg.h2)(_sc$$0.h1); switch (sc$$7.tag) { case "False": return { tag: "Prelude.elem", h0: null, h1: arg.h1, h2: arg.h2, h3: _sc$$0.h2 }; case "True": return { tag: "return", h0: Prelude_True }; } break; } case "Nil": return { tag: "return", h0: Prelude_False }; } break; } } }; +const Prelude_elem = ( a$$0, _$$1, _$$2, _$$3 ) => (bouncer(Prelude_REC_elem, { tag: "Prelude.elem", h0: a$$0, h1: _$$1, h2: _$$2, h3: _$$3 })); const Lib_Compile_jsIdent = ( _$$0 ) => { const sc$$2 = Prelude_elem(null, Prelude_Prelude_Eq$20Prim_String, _$$0, Lib_Compile_jsKeywords); switch (sc$$2.tag) { case "False": return Lib_Prettier_text(Prelude_pack(Lib_Compile_jsIdent_fix(_$$0, null, Prelude_unpack(_$$0)))); case "True": return Lib_Prettier_text(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("$")(_$$0)); } }; const Lib_Compile_expToDoc_entry = ( _, _1, _2, _$$3 ) => (Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Compile_jsIdent(_$$3.h2))(Prelude__$3C$2B$3E_(null, Lib_Prettier_Prelude_Semigroup$20Lib_Prettier_Doc)(Lib_Prettier_text(":"))(Lib_Compile_expToDoc(_$$3.h3)))); const Lib_Prettier_Alt = ( h0, h1 ) => ({ tag: "Alt", h0: h0, h1: h1 }); const Lib_Prettier__$3C$2B$2F$3E_ = ( _$$0, _$$1 ) => (Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(_$$0)(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Prettier_Alt(Lib_Prettier_text(" "), Lib_Prettier_line))(_$$1))); const Lib_Prettier_folddoc = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "_::_": { const _sc$$0 = _$$1.h2; switch (_sc$$0.tag) { case "Nil": return _$$1.h1; default: return _$$0(_$$1.h1)(Lib_Prettier_folddoc(_$$0, _$$1.h2)); } break; } case "Nil": return Lib_Prettier_Empty; } }; -const Lib_Common_quoteString_encode = ( _, _1, _$$2, _$$3 ) => { switch (_$$2.tag) { case "_::_": { const _sc$$0 = _$$2.h1; switch (_sc$$0) { case "\"": return Lib_Common_quoteString_encode(_, _1, _$$2.h2, Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, _$$3, "\\"), "\"")); case "\n": return Lib_Common_quoteString_encode(_, _1, _$$2.h2, Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, _$$3, "\\"), "n")); case "\\": return Lib_Common_quoteString_encode(_, _1, _$$2.h2, Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, _$$3, "\\"), "\\")); default: { const v = Prelude_cast(null, null, Data_Int_Prelude_Cast$20Prim_Char$20Prim_Int)(_$$2.h1); const sc$$8 = Prelude__$3C_(null, Prelude_Prelude_Ord$20Prim_Int, v, 32); switch (sc$$8.tag) { case "False": return Lib_Common_quoteString_encode(_, _1, _$$2.h2, Prelude__$3A$3C_(null, _$$3, _$$2.h1)); case "True": return Lib_Common_quoteString_encode(_, _1, _$$2.h2, Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, _$$3, "\\"), "u"), Lib_Common_hexDigit(Data_Int_div(v, 4096))), Lib_Common_hexDigit(Data_Int_div(v, 256))), Lib_Common_hexDigit(Data_Int_div(v, 16))), Lib_Common_hexDigit(v))); } break; } } break; } case "Nil": return Prelude__$3C$3E$3E_(null, _$$3, Prelude__$3A$3A_(null, "\"", Prelude_Nil(null))); } }; +const Lib_Common_REC_quoteString_encode = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Common.quoteString.encode": { const _sc$$0 = arg.h2; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1) { case "\"": return { tag: "Lib.Common.quoteString.encode", h0: arg.h0, h1: arg.h1, h2: _sc$$0.h2, h3: Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, arg.h3, "\\"), "\"") }; case "\n": return { tag: "Lib.Common.quoteString.encode", h0: arg.h0, h1: arg.h1, h2: _sc$$0.h2, h3: Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, arg.h3, "\\"), "n") }; case "\\": return { tag: "Lib.Common.quoteString.encode", h0: arg.h0, h1: arg.h1, h2: _sc$$0.h2, h3: Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, arg.h3, "\\"), "\\") }; default: { const v = Prelude_cast(null, null, Data_Int_Prelude_Cast$20Prim_Char$20Prim_Int)(_sc$$0.h1); const sc$$8 = Prelude__$3C_(null, Prelude_Prelude_Ord$20Prim_Int, v, 32); switch (sc$$8.tag) { case "False": return { tag: "Lib.Common.quoteString.encode", h0: arg.h0, h1: arg.h1, h2: _sc$$0.h2, h3: Prelude__$3A$3C_(null, arg.h3, _sc$$0.h1) }; case "True": return { tag: "Lib.Common.quoteString.encode", h0: arg.h0, h1: arg.h1, h2: _sc$$0.h2, h3: Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, arg.h3, "\\"), "u"), Lib_Common_hexDigit(Data_Int_div(v, 4096))), Lib_Common_hexDigit(Data_Int_div(v, 256))), Lib_Common_hexDigit(Data_Int_div(v, 16))), Lib_Common_hexDigit(v)) }; } break; } } break; } case "Nil": return { tag: "return", h0: Prelude__$3C$3E$3E_(null, arg.h3, Prelude__$3A$3A_(null, "\"", Prelude_Nil(null))) }; } break; } } }; +const Lib_Common_quoteString_encode = ( _, _1, _$$2, _$$3 ) => (bouncer(Lib_Common_REC_quoteString_encode, { tag: "Lib.Common.quoteString.encode", h0: _, h1: _1, h2: _$$2, h3: _$$3 })); const Lib_Common_quoteString = ( _$$0 ) => (Prelude_pack(Lib_Common_quoteString_encode(_$$0, null, Prelude_unpack(_$$0), Prelude__$3A$3C_(null, Prelude_Lin(null), "\"")))); const Lib_Prettier_commaSep = ( eta ) => (Lib_Prettier_folddoc(( a ) => (( b ) => (Lib_Prettier__$3C$2B$2F$3E_(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(a)(Lib_Prettier_text(",")), b))), eta)); const Lib_Prettier_Nest = ( h0, h1 ) => ({ tag: "Nest", h0: h0, h1: h1 }); const Lib_Prettier_nest = ( eta ) => (( eta1 ) => (Lib_Prettier_Nest(eta, eta1))); -const Lib_Prettier_flatten = ( _$$0 ) => { switch (_$$0.tag) { case "Alt": return Lib_Prettier_flatten(_$$0.h0); case "Seq": return Lib_Prettier_Seq(Lib_Prettier_flatten(_$$0.h0), Lib_Prettier_flatten(_$$0.h1)); case "Nest": return Lib_Prettier_flatten(_$$0.h1); case "Text": return Lib_Prettier_Text(_$$0.h0); case "Line": return Lib_Prettier_Text(" "); case "Empty": return Lib_Prettier_Empty; } }; +const Lib_Prettier_REC_flatten = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Prettier.flatten": { const _sc$$0 = arg.h0; switch (_sc$$0.tag) { case "Alt": return { tag: "Lib.Prettier.flatten", h0: _sc$$0.h0 }; case "Seq": return { tag: "return", h0: Lib_Prettier_Seq(Lib_Prettier_flatten(_sc$$0.h0), Lib_Prettier_flatten(_sc$$0.h1)) }; case "Nest": return { tag: "Lib.Prettier.flatten", h0: _sc$$0.h1 }; case "Text": return { tag: "return", h0: Lib_Prettier_Text(_sc$$0.h0) }; case "Line": return { tag: "return", h0: Lib_Prettier_Text(" ") }; case "Empty": return { tag: "return", h0: Lib_Prettier_Empty }; } break; } } }; +const Lib_Prettier_flatten = ( _$$0 ) => (bouncer(Lib_Prettier_REC_flatten, { tag: "Lib.Prettier.flatten", h0: _$$0 })); const Lib_Prettier_group = ( _$$0 ) => (Lib_Prettier_Alt(Lib_Prettier_flatten(_$$0), _$$0)); const Lib_Prettier_bracket = ( _$$0, _$$1, _$$2 ) => (Lib_Prettier_group(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Prettier_text(_$$0))(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Prettier_nest(2)(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Prettier_line)(_$$1)))(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Prettier_line)(Lib_Prettier_text(_$$2)))))); const Lib_Compile_expToDoc = ( _$$0 ) => { switch (_$$0.tag) { case "Raw": return Lib_Prettier_text(_$$0.h0); case "Dot": return Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Compile_expToDoc(_$$0.h0))(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Prettier_text("."))(Lib_Compile_jsIdent(_$$0.h1))); case "Index": return Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Compile_expToDoc(_$$0.h0))(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Prettier_text("("))(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Compile_expToDoc(_$$0.h1))(Lib_Prettier_text(" :: Nil)")))); case "JUndefined": return Lib_Prettier_text("null"); case "JLam": { const _sc$$0 = _$$0.h1; switch (_sc$$0.tag) { case "JReturn": return Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Prelude__$3C$2B$3E_(null, Lib_Prettier_Prelude_Semigroup$20Lib_Prettier_Doc)(Prelude__$3C$2B$3E_(null, Lib_Prettier_Prelude_Semigroup$20Lib_Prettier_Doc)(Prelude__$3C$2B$3E_(null, Lib_Prettier_Prelude_Semigroup$20Lib_Prettier_Doc)(Lib_Prettier_text("("))(Lib_Prettier_commaSep(Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(Lib_Compile_jsIdent)(_$$0.h0))))(Lib_Prettier_text(") =>")))(Lib_Prettier_text("(")))(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Compile_expToDoc(_sc$$0.h0))(Lib_Prettier_text(")"))); default: return Prelude__$3C$2B$3E_(null, Lib_Prettier_Prelude_Semigroup$20Lib_Prettier_Doc)(Prelude__$3C$2B$3E_(null, Lib_Prettier_Prelude_Semigroup$20Lib_Prettier_Doc)(Prelude__$3C$2B$3E_(null, Lib_Prettier_Prelude_Semigroup$20Lib_Prettier_Doc)(Lib_Prettier_text("("))(Lib_Prettier_commaSep(Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(Lib_Compile_jsIdent)(_$$0.h0))))(Lib_Prettier_text(") =>")))(Lib_Prettier_bracket("{", Lib_Compile_stmtToDoc(null, _$$0.h1), "}")); } break; } case "Var": return Lib_Compile_jsIdent(_$$0.h0); case "Apply": { const _sc$$0 = _$$0.h0; switch (_sc$$0.tag) { case "JLam": return Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Prettier_text("("))(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Compile_expToDoc(_$$0.h0))(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Prettier_text(")"))(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Prettier_text("("))(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Prettier_nest(2)(Lib_Prettier_commaSep(Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(Lib_Compile_expToDoc)(_$$0.h1))))(Lib_Prettier_text(")")))))); default: return Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Compile_expToDoc(_$$0.h0))(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Prettier_text("("))(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Prettier_nest(2)(Lib_Prettier_commaSep(Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(Lib_Compile_expToDoc)(_$$0.h1))))(Lib_Prettier_text(")")))); } break; } case "LitInt": return Lib_Prettier_text(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(_$$0.h0)); case "LitString": return Lib_Prettier_text(Lib_Common_quoteString(_$$0.h0)); case "LitObject": return Prelude__$3C$2B$3E_(null, Lib_Prettier_Prelude_Semigroup$20Lib_Prettier_Doc)(Prelude__$3C$2B$3E_(null, Lib_Prettier_Prelude_Semigroup$20Lib_Prettier_Doc)(Lib_Prettier_text("{"))(Lib_Prettier_folddoc(( a ) => (( e ) => (Lib_Prettier__$3C$2B$2F$3E_(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(a)(Lib_Prettier_text(", ")), e))), Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Lib_Compile_expToDoc_entry(_$$0, _$$0.h0, null, eta)))(_$$0.h0))))(Lib_Prettier_text("}")); case "LitArray": return Prelude_fatalError(null, "TODO - LitArray to doc"); } }; @@ -251,26 +263,33 @@ const Lib_Common_Prelude_Ord$20Lib_Common_QName$2Ccompare = ( _$$0, _$$1 ) => { const Lib_Common_Prelude_Ord$20Lib_Common_QName = Prelude_MkOrd(null, ( eta ) => (( eta1 ) => (Lib_Common_Prelude_Ord$20Lib_Common_QName$2Ccompare(eta, eta1)))); const Prelude__$2F$3D_ = ( a$$0, _$$1, _$$2, _$$3 ) => (Prelude_not(Prelude__$3D$3D_(null, _$$1)(_$$2)(_$$3))); const Prelude__$3C$3D_ = ( a$$0, _$$1, _$$2, _$$3 ) => (Prelude__$2F$3D_(null, Prelude_Prelude_Eq$20Prelude_Ordering, Prelude_compare(null, _$$1)(_$$2)(_$$3), Prelude_GT)); -const Data_SortedMap_lookupT23 = ( h$$0, k$$1, v$$2, _$$3, _$$4, _$$5 ) => { switch (_$$5.tag) { case "Node3": { const sc$$14 = Prelude__$3C$3D_(null, _$$3, _$$4, _$$5.h4); switch (sc$$14.tag) { case "False": { const sc$$15 = Prelude__$3C$3D_(null, _$$3, _$$4, _$$5.h6); switch (sc$$15.tag) { case "False": return Data_SortedMap_lookupT23(null, null, null, _$$3, _$$4, _$$5.h7); case "True": return Data_SortedMap_lookupT23(null, null, null, _$$3, _$$4, _$$5.h5); } break; } case "True": return Data_SortedMap_lookupT23(null, null, null, _$$3, _$$4, _$$5.h3); } break; } case "Node2": { const sc$$12 = Prelude__$3C$3D_(null, _$$3, _$$4, _$$5.h4); switch (sc$$12.tag) { case "False": return Data_SortedMap_lookupT23(null, null, null, _$$3, _$$4, _$$5.h5); case "True": return Data_SortedMap_lookupT23(null, null, null, _$$3, _$$4, _$$5.h3); } break; } case "Leaf": { const sc$$10 = Prelude_compare(null, _$$3)(_$$5.h2)(_$$4); switch (sc$$10.tag) { case "EQ": return Prelude_Just(null, Prelude__$2C_(null, null, _$$5.h2, _$$5.h3)); default: return Prelude_Nothing(null); } break; } } }; +const Data_SortedMap_REC_lookupT23 = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Data.SortedMap.lookupT23": { const _sc$$0 = arg.h5; switch (_sc$$0.tag) { case "Node3": { const sc$$14 = Prelude__$3C$3D_(null, arg.h3, arg.h4, _sc$$0.h4); switch (sc$$14.tag) { case "False": { const sc$$15 = Prelude__$3C$3D_(null, arg.h3, arg.h4, _sc$$0.h6); switch (sc$$15.tag) { case "False": return { tag: "Data.SortedMap.lookupT23", h0: null, h1: null, h2: null, h3: arg.h3, h4: arg.h4, h5: _sc$$0.h7 }; case "True": return { tag: "Data.SortedMap.lookupT23", h0: null, h1: null, h2: null, h3: arg.h3, h4: arg.h4, h5: _sc$$0.h5 }; } break; } case "True": return { tag: "Data.SortedMap.lookupT23", h0: null, h1: null, h2: null, h3: arg.h3, h4: arg.h4, h5: _sc$$0.h3 }; } break; } case "Node2": { const sc$$12 = Prelude__$3C$3D_(null, arg.h3, arg.h4, _sc$$0.h4); switch (sc$$12.tag) { case "False": return { tag: "Data.SortedMap.lookupT23", h0: null, h1: null, h2: null, h3: arg.h3, h4: arg.h4, h5: _sc$$0.h5 }; case "True": return { tag: "Data.SortedMap.lookupT23", h0: null, h1: null, h2: null, h3: arg.h3, h4: arg.h4, h5: _sc$$0.h3 }; } break; } case "Leaf": { const sc$$10 = Prelude_compare(null, arg.h3)(_sc$$0.h2)(arg.h4); switch (sc$$10.tag) { case "EQ": return { tag: "return", h0: Prelude_Just(null, Prelude__$2C_(null, null, _sc$$0.h2, _sc$$0.h3)) }; default: return { tag: "return", h0: Prelude_Nothing(null) }; } break; } } break; } } }; +const Data_SortedMap_lookupT23 = ( h$$0, k$$1, v$$2, _$$3, _$$4, _$$5 ) => (bouncer(Data_SortedMap_REC_lookupT23, { tag: "Data.SortedMap.lookupT23", h0: h$$0, h1: k$$1, h2: v$$2, h3: _$$3, h4: _$$4, h5: _$$5 })); const Data_SortedMap_lookupMap = ( k$$0, v$$1, _$$2, _$$3, _$$4 ) => { switch (_$$4.tag) { case "MapOf": return Data_SortedMap_lookupT23(null, null, null, _$$2, _$$3, _$$4.h3); case "EmptyMap": return Prelude_Nothing(null); } }; -const Prelude_mapMaybe = ( a$$0, b$$1, _$$2, _$$3 ) => { switch (_$$3.tag) { case "_::_": { const sc$$7 = _$$2(_$$3.h1); switch (sc$$7.tag) { case "Nothing": return Prelude_mapMaybe(null, null, _$$2, _$$3.h2); case "Just": return Prelude__$3A$3A_(null, sc$$7.h1, Prelude_mapMaybe(null, null, _$$2, _$$3.h2)); } break; } case "Nil": return Prelude_Nil(null); } }; +const Prelude_REC_mapMaybe = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Prelude.mapMaybe": { const _sc$$0 = arg.h3; switch (_sc$$0.tag) { case "_::_": { const sc$$7 = arg.h2(_sc$$0.h1); switch (sc$$7.tag) { case "Nothing": return { tag: "Prelude.mapMaybe", h0: null, h1: null, h2: arg.h2, h3: _sc$$0.h2 }; case "Just": return { tag: "return", h0: Prelude__$3A$3A_(null, sc$$7.h1, Prelude_mapMaybe(null, null, arg.h2, _sc$$0.h2)) }; } break; } case "Nil": return { tag: "return", h0: Prelude_Nil(null) }; } break; } } }; +const Prelude_mapMaybe = ( a$$0, b$$1, _$$2, _$$3 ) => (bouncer(Prelude_REC_mapMaybe, { tag: "Prelude.mapMaybe", h0: a$$0, h1: b$$1, h2: _$$2, h3: _$$3 })); const Lib_Compile_JConst = ( h0, h1 ) => ({ tag: "JConst", h0: h0, h1: h1 }); const Lib_Compile_JReturn = ( h0 ) => ({ tag: "JReturn", h0: h0 }); const Lib_Compile_MkEnv = ( h0, h1 ) => ({ tag: "MkEnv", h0: h0, h1: h1 }); const Lib_Compile_emptyJSEnv = Lib_Compile_MkEnv(Prelude_Nil(null), 0); +const Lib_Compile_termToJS_go = ( _, _1, _2, _3, _4, _5, _6, e$$7, _$$8, _$$9, _$$10 ) => (bouncer(Lib_Compile_REC_termToJS, { tag: "Lib.Compile.termToJS.go", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _5, h6: _6, h7: e$$7, h8: _$$8, h9: _$$9, h10: _$$10 })); const Lib_Compile__jsenv = ( _$$0 ) => (_$$0.h0); const Lib_Compile_JLam = ( h0, h1 ) => ({ tag: "JLam", h0: h0, h1: h1 }); const Lib_Compile_push = ( _$$0, _$$1 ) => (Lib_Compile_MkEnv(Prelude__$3A$3A_(null, _$$1, _$$0.h0), _$$0.h1)); -const Lib_Compile_freshName_free = ( _, _1, _2, _$$3, _$$4 ) => { switch (_$$3.tag) { case "_::_": { const _sc$$0 = _$$3.h1; switch (_sc$$0.tag) { case "Var": { const sc$$9 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$0.h0)(_$$4); switch (sc$$9.tag) { case "False": return Lib_Compile_freshName_free(_, _1, _2, _$$3.h2, _$$4); case "True": return Prelude_False; } break; } default: return Lib_Compile_freshName_free(_, _1, _2, _$$3.h2, _$$4); } break; } case "Nil": return Prelude_True; } }; -const Lib_Compile_freshName_free_go = ( _, _1, _2, _3, _$$4, _$$5 ) => { const nm$27 = Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(_$$4))(""))(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(_$$5)))(""); const sc$$7 = Lib_Compile_freshName_free(_, _1, _2, Lib_Compile__jsenv(_1), nm$27); switch (sc$$7.tag) { case "False": return Lib_Compile_freshName_free_go(_, _1, _2, _3, _$$4, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$5)); case "True": return nm$27; } }; +const Lib_Compile_REC_freshName_free = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Compile.freshName.free": { const _sc$$0 = arg.h3; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "Var": { const sc$$9 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$1.h0)(arg.h4); switch (sc$$9.tag) { case "False": return { tag: "Lib.Compile.freshName.free", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: _sc$$0.h2, h4: arg.h4 }; case "True": return { tag: "return", h0: Prelude_False }; } break; } default: return { tag: "Lib.Compile.freshName.free", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: _sc$$0.h2, h4: arg.h4 }; } break; } case "Nil": return { tag: "return", h0: Prelude_True }; } break; } } }; +const Lib_Compile_freshName_free = ( _, _1, _2, _$$3, _$$4 ) => (bouncer(Lib_Compile_REC_freshName_free, { tag: "Lib.Compile.freshName.free", h0: _, h1: _1, h2: _2, h3: _$$3, h4: _$$4 })); +const Lib_Compile_REC_freshName_free_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Compile.freshName.free.go": { const nm$27 = Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(arg.h4))(""))(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(arg.h5)))(""); const sc$$7 = Lib_Compile_freshName_free(arg.h0, arg.h1, arg.h2, Lib_Compile__jsenv(arg.h1), nm$27); switch (sc$$7.tag) { case "False": return { tag: "Lib.Compile.freshName.free.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(arg.h5) }; case "True": return { tag: "return", h0: nm$27 }; } break; } } }; +const Lib_Compile_freshName_free_go = ( _, _1, _2, _3, _$$4, _$$5 ) => (bouncer(Lib_Compile_REC_freshName_free_go, { tag: "Lib.Compile.freshName.free.go", h0: _, h1: _1, h2: _2, h3: _3, h4: _$$4, h5: _$$5 })); const Lib_Compile_freshName = ( _$$0, _$$1 ) => { const sc$$4 = Lib_Compile_freshName_free(_$$0, _$$1, null, Lib_Compile__jsenv(_$$1), _$$0); switch (sc$$4.tag) { case "False": return Lib_Compile_freshName_free_go(_$$0, _$$1, null, null, _$$0, 1); case "True": return _$$0; } }; const Lib_Compile_freshName$27 = ( _$$0, _$$1 ) => { const nm$27 = Lib_Compile_freshName(_$$0, _$$1); const env$27 = Lib_Compile_push(_$$1, Lib_Compile_Var(nm$27)); return Prelude__$2C_(null, null, nm$27, env$27); }; -const Lib_Compile_freshNames_go = ( _, _1, _2, _$$3, _$$4, _$$5 ) => { switch (_$$3.tag) { case "_::_": { const sc$$9 = Lib_Compile_freshName$27(_$$3.h1, _$$4); return Lib_Compile_freshNames_go(_, _1, _2, _$$3.h2, sc$$9.h3, Prelude__$3A$3C_(null, _$$5, sc$$9.h2)); break; } case "Nil": return Prelude__$2C_(null, null, Prelude__$3C$3E$3E_(null, _$$5, Prelude_Nil(null)), _$$4); } }; +const Lib_Compile_REC_freshNames_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Compile.freshNames.go": { const _sc$$0 = arg.h3; switch (_sc$$0.tag) { case "_::_": { const sc$$9 = Lib_Compile_freshName$27(_sc$$0.h1, arg.h4); return { tag: "Lib.Compile.freshNames.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: _sc$$0.h2, h4: sc$$9.h3, h5: Prelude__$3A$3C_(null, arg.h5, sc$$9.h2) }; break; } case "Nil": return { tag: "return", h0: Prelude__$2C_(null, null, Prelude__$3C$3E$3E_(null, arg.h5, Prelude_Nil(null)), arg.h4) }; } break; } } }; +const Lib_Compile_freshNames_go = ( _, _1, _2, _$$3, _$$4, _$$5 ) => (bouncer(Lib_Compile_REC_freshNames_go, { tag: "Lib.Compile.freshNames.go", h0: _, h1: _1, h2: _2, h3: _$$3, h4: _$$4, h5: _$$5 })); const Lib_Compile_freshNames = ( _$$0, _$$1 ) => (Lib_Compile_freshNames_go(_$$0, _$$1, null, _$$0, _$$1, Prelude_Lin(null))); const Lib_Compile_termToJS_etaExpand = ( _, _1, _2, _3, _4, _5, _6, _7, _$$8, _$$9, _$$10, _$$11 ) => { switch (_$$9.tag) { case "S": { const nm$27 = Lib_Compile_freshName("eta", _$$8); const env$27 = Lib_Compile_push(_$$8, Lib_Compile_Var(nm$27)); return Lib_Compile_JLam(Prelude__$3A$3A_(null, nm$27, Prelude_Nil(null)), Lib_Compile_JReturn(Lib_Compile_termToJS_etaExpand(_, _1, _2, _3, _4, _5, _6, _7, Lib_Compile_push(_$$8, Lib_Compile_Var(nm$27)), _$$9.h0, Prelude__$3A$3C_(null, _$$10, Lib_Compile_Var(nm$27)), _$$11))); break; } case "Z": return Lib_Compile_Apply(_$$11, Prelude__$3C$3E$3E_(null, _$$10, Prelude_Nil(null))); } }; const Lib_Compile_termToJS_etaExpand_argsToJS = ( _, _1, _2, _3, _4, _5, _6, _7, _8, e$$9, _$$10, _$$11, _$$12, _$$13 ) => { switch (_$$11.tag) { case "_::_": return Lib_Compile_termToJS(null, _1, _$$11.h1, ( x$27 ) => (Lib_Compile_termToJS_etaExpand_argsToJS(_, _1, _2, _3, _4, _5, _6, _7, _8, null, _$$10, _$$11.h2, Prelude__$3A$3C_(null, _$$12, x$27), _$$13))); case "Nil": return _$$13(Lib_Compile_termToJS_etaExpand(_, _1, _2, _3, _4, _5, _6, _7, _1, Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(_6), _$$12, _$$10)); } }; const Lib_Compile_Dot = ( h0, h1 ) => ({ tag: "Dot", h0: h0, h1: h1 }); -const Lib_Compile_mkEnv = ( _$$0, _$$1, _$$2, _$$3 ) => { switch (_$$3.tag) { case "_::_": return Lib_Compile_mkEnv(_$$0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$1), Lib_Compile_push(_$$2, Lib_Compile_Dot(Lib_Compile_Var(_$$0), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("h")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(_$$1)))(""))), _$$3.h2); case "Nil": return _$$2; } }; +const Lib_Compile_REC_mkEnv = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Compile.mkEnv": { const _sc$$0 = arg.h3; switch (_sc$$0.tag) { case "_::_": return { tag: "Lib.Compile.mkEnv", h0: arg.h0, h1: Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(arg.h1), h2: Lib_Compile_push(arg.h2, Lib_Compile_Dot(Lib_Compile_Var(arg.h0), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("h")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(arg.h1)))(""))), h3: _sc$$0.h2 }; case "Nil": return { tag: "return", h0: arg.h2 }; } break; } } }; +const Lib_Compile_mkEnv = ( _$$0, _$$1, _$$2, _$$3 ) => (bouncer(Lib_Compile_REC_mkEnv, { tag: "Lib.Compile.mkEnv", h0: _$$0, h1: _$$1, h2: _$$2, h3: _$$3 })); const Lib_Compile_JConAlt = ( h0, h1, h2 ) => ({ tag: "JConAlt", h0: h0, h1: h1, h2: h2 }); const Lib_Compile_JDefAlt = ( h0, h1 ) => ({ tag: "JDefAlt", h0: h0, h1: h1 }); const Lib_Compile_LitString = ( h0 ) => ({ tag: "LitString", h0: h0 }); @@ -286,24 +305,34 @@ const Lib_Compile_JLet = ( h0, h1 ) => ({ tag: "JLet", h0: h0, h1: h1 }); const Lib_Compile_JAssign = ( h0, h1 ) => ({ tag: "JAssign", h0: h0, h1: h1 }); const Lib_Compile_JUndefined = { tag: "JUndefined" }; const Lib_Compile_LitObject = ( h0 ) => ({ tag: "LitObject", h0: h0 }); -const Lib_Compile_termToJS_go = ( _, _1, _2, _3, _4, _5, _6, e$$7, _$$8, _$$9, _$$10 ) => { switch (_$$8.tag) { case "_::_": return Lib_Compile_termToJS(null, _1, _$$8.h1, ( t$27 ) => (Lib_Compile_termToJS_go(_, _1, _2, _3, _4, _5, _6, null, _$$8.h2, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$9)(1), ( args ) => (_$$10(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("h")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(_$$9)))(""), t$27), args)))))); case "Nil": return _$$10(Prelude_Nil(null)); } }; const Lib_Compile_Raw = ( h0 ) => ({ tag: "Raw", h0: h0 }); -const Lib_Compile_termToJS = ( e$$0, _$$1, _$$2, _$$3 ) => { switch (_$$2.tag) { case "CRaw": return _$$3(Lib_Compile_Raw(_$$2.h0)); case "CConstr": return Lib_Compile_termToJS_go(e$$0, _$$1, _$$2, _$$3, _$$2.h0, _$$2.h1, null, null, _$$2.h1, 0, ( args ) => (_$$3(Lib_Compile_LitObject(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, "tag", Lib_Compile_LitString(_$$2.h0)), args))))); case "CErased": return _$$3(Lib_Compile_JUndefined); case "CLetRec": { const _sc$$0 = _$$2.h1; switch (_sc$$0.tag) { case "CErased": return Lib_Compile_termToJS(null, Lib_Compile_push(_$$1, Lib_Compile_JUndefined), _$$2.h2, _$$3); default: { const nm$27 = Lib_Compile_freshName(_$$2.h0, _$$1); const env$27 = Lib_Compile_push(_$$1, Lib_Compile_Var(nm$27)); const sc$$9 = Lib_Compile_termToJS(null, env$27, _$$2.h1, ( eta ) => (Lib_Compile_JAssign(nm$27, eta))); switch (sc$$9.tag) { case "JAssign": return Lib_Compile_JSnoc(null, Lib_Compile_JConst(nm$27, sc$$9.h1), Lib_Compile_termToJS(null, env$27, _$$2.h2, _$$3)); default: return Lib_Compile_JSnoc(null, Lib_Compile_JLet(nm$27, sc$$9), Lib_Compile_termToJS(null, env$27, _$$2.h2, _$$3)); } break; } } break; } case "CLet": { const _sc$$0 = _$$2.h1; switch (_sc$$0.tag) { case "CBnd": { const sc$$8 = Prelude_getAt(null, Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(_sc$$0.h0), Lib_Compile__jsenv(_$$1)); switch (sc$$8.tag) { case "Nothing": return Prelude_fatalError(null, "bad bounds"); case "Just": return Lib_Compile_termToJS(null, Lib_Compile_push(_$$1, sc$$8.h1), _$$2.h2, _$$3); } break; } default: { const nm$27 = Lib_Compile_freshName(_$$2.h0, _$$1); const env$27 = Lib_Compile_push(_$$1, Lib_Compile_Var(nm$27)); const sc$$9 = Lib_Compile_termToJS(null, _$$1, _$$2.h1, ( eta ) => (Lib_Compile_JAssign(nm$27, eta))); switch (sc$$9.tag) { case "JAssign": return Lib_Compile_JSnoc(null, Lib_Compile_JConst(nm$27, sc$$9.h1), Lib_Compile_termToJS(null, env$27, _$$2.h2, _$$3)); default: return Lib_Compile_JSnoc(null, Lib_Compile_JLet(nm$27, sc$$9), Lib_Compile_termToJS(null, env$27, _$$2.h2, _$$3)); } break; } } break; } case "CLit": return _$$3(Lib_Compile_litToJS(_$$2.h0)); case "CMeta": return _$$3(Lib_Compile_LitString(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("META ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(_$$2.h0)))(""))); case "CRef": return _$$3(Lib_Compile_Var(_$$2.h0)); case "CCase": return Lib_Compile_termToJS(null, _$$1, _$$2.h0, ( $$case ) => { switch ($$case.tag) { case "Var": return Lib_Compile_termToJS_termToJSAlt_maybeCaseStmt(e$$0, _$$1, _$$2, _$$3, _$$2.h0, _$$2.h1, null, null, _$$1, $$case.h0, _$$2.h1); default: { const nm = Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("_sc$")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(Lib_Compile__depth(_$$1))))(""); const env$27 = Lib_Compile_MkEnv(Lib_Compile__jsenv(_$$1), Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(Lib_Compile__depth(_$$1))); return Lib_Compile_JSnoc(null, Lib_Compile_JConst(nm, $$case), Lib_Compile_termToJS_termToJSAlt_maybeCaseStmt(e$$0, _$$1, _$$2, _$$3, _$$2.h0, _$$2.h1, null, null, env$27, nm, _$$2.h1)); break; } } }); case "CApp": return Lib_Compile_termToJS(null, _$$1, _$$2.h0, ( t$27 ) => (Lib_Compile_termToJS_etaExpand_argsToJS(e$$0, _$$1, _$$2, _$$3, _$$2.h0, _$$2.h1, _$$2.h2, null, null, null, t$27, _$$2.h1, Prelude_Lin(null), _$$3))); case "CFun": { const sc$$6 = Lib_Compile_freshNames(_$$2.h0, _$$1); return _$$3(Lib_Compile_JLam(sc$$6.h2, Lib_Compile_termToJS(null, sc$$6.h3, _$$2.h1, Lib_Compile_JReturn))); break; } case "CLam": { const sc$$6 = Lib_Compile_freshName$27(_$$2.h0, _$$1); return _$$3(Lib_Compile_JLam(Prelude__$3A$3A_(null, sc$$6.h2, Prelude_Nil(null)), Lib_Compile_termToJS(null, sc$$6.h3, _$$2.h1, Lib_Compile_JReturn))); break; } case "CBnd": { const sc$$5 = Prelude_getAt(null, Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(_$$2.h0), Lib_Compile__jsenv(_$$1)); switch (sc$$5.tag) { case "Nothing": return Prelude_fatalError(null, "Bad bounds"); case "Just": return _$$3(sc$$5.h1); } break; } } }; +const Lib_Compile_REC_termToJS = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Compile.termToJS": { const _sc$$0 = arg.h2; switch (_sc$$0.tag) { case "CRaw": return { tag: "return", h0: arg.h3(Lib_Compile_Raw(_sc$$0.h0)) }; case "CConstr": return { tag: "Lib.Compile.termToJS.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: _sc$$0.h0, h5: _sc$$0.h1, h6: null, h7: null, h8: _sc$$0.h1, h9: 0, h10: ( args ) => (arg.h3(Lib_Compile_LitObject(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, "tag", Lib_Compile_LitString(_sc$$0.h0)), args)))) }; case "CErased": return { tag: "return", h0: arg.h3(Lib_Compile_JUndefined) }; case "CLetRec": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "CErased": return { tag: "Lib.Compile.termToJS", h0: null, h1: Lib_Compile_push(arg.h1, Lib_Compile_JUndefined), h2: _sc$$0.h2, h3: arg.h3 }; default: { const nm$27 = Lib_Compile_freshName(_sc$$0.h0, arg.h1); const env$27 = Lib_Compile_push(arg.h1, Lib_Compile_Var(nm$27)); const sc$$9 = Lib_Compile_termToJS(null, env$27, _sc$$0.h1, ( eta ) => (Lib_Compile_JAssign(nm$27, eta))); switch (sc$$9.tag) { case "JAssign": return { tag: "return", h0: Lib_Compile_JSnoc(null, Lib_Compile_JConst(nm$27, sc$$9.h1), Lib_Compile_termToJS(null, env$27, _sc$$0.h2, arg.h3)) }; default: return { tag: "return", h0: Lib_Compile_JSnoc(null, Lib_Compile_JLet(nm$27, sc$$9), Lib_Compile_termToJS(null, env$27, _sc$$0.h2, arg.h3)) }; } break; } } break; } case "CLet": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "CBnd": { const sc$$8 = Prelude_getAt(null, Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(_sc$$1.h0), Lib_Compile__jsenv(arg.h1)); switch (sc$$8.tag) { case "Nothing": return { tag: "return", h0: Prelude_fatalError(null, "bad bounds") }; case "Just": return { tag: "Lib.Compile.termToJS", h0: null, h1: Lib_Compile_push(arg.h1, sc$$8.h1), h2: _sc$$0.h2, h3: arg.h3 }; } break; } default: { const nm$27 = Lib_Compile_freshName(_sc$$0.h0, arg.h1); const env$27 = Lib_Compile_push(arg.h1, Lib_Compile_Var(nm$27)); const sc$$9 = Lib_Compile_termToJS(null, arg.h1, _sc$$0.h1, ( eta ) => (Lib_Compile_JAssign(nm$27, eta))); switch (sc$$9.tag) { case "JAssign": return { tag: "return", h0: Lib_Compile_JSnoc(null, Lib_Compile_JConst(nm$27, sc$$9.h1), Lib_Compile_termToJS(null, env$27, _sc$$0.h2, arg.h3)) }; default: return { tag: "return", h0: Lib_Compile_JSnoc(null, Lib_Compile_JLet(nm$27, sc$$9), Lib_Compile_termToJS(null, env$27, _sc$$0.h2, arg.h3)) }; } break; } } break; } case "CLit": return { tag: "return", h0: arg.h3(Lib_Compile_litToJS(_sc$$0.h0)) }; case "CMeta": return { tag: "return", h0: arg.h3(Lib_Compile_LitString(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("META ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(_sc$$0.h0)))(""))) }; case "CRef": return { tag: "return", h0: arg.h3(Lib_Compile_Var(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$0.h0))) }; case "CCase": return { tag: "Lib.Compile.termToJS", h0: null, h1: arg.h1, h2: _sc$$0.h0, h3: ( $$case ) => { switch ($$case.tag) { case "Var": return Lib_Compile_termToJS_termToJSAlt_maybeCaseStmt(arg.h0, arg.h1, arg.h2, arg.h3, _sc$$0.h0, _sc$$0.h1, null, null, arg.h1, $$case.h0, _sc$$0.h1); default: { const nm = Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("_sc$")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(Lib_Compile__depth(arg.h1))))(""); const env$27 = Lib_Compile_MkEnv(Lib_Compile__jsenv(arg.h1), Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(Lib_Compile__depth(arg.h1))); return Lib_Compile_JSnoc(null, Lib_Compile_JConst(nm, $$case), Lib_Compile_termToJS_termToJSAlt_maybeCaseStmt(arg.h0, arg.h1, arg.h2, arg.h3, _sc$$0.h0, _sc$$0.h1, null, null, env$27, nm, _sc$$0.h1)); break; } } } }; case "CApp": return { tag: "Lib.Compile.termToJS", h0: null, h1: arg.h1, h2: _sc$$0.h0, h3: ( t$27 ) => (Lib_Compile_termToJS_etaExpand_argsToJS(arg.h0, arg.h1, arg.h2, arg.h3, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, null, null, null, t$27, _sc$$0.h1, Prelude_Lin(null), arg.h3)) }; case "CFun": { const sc$$6 = Lib_Compile_freshNames(_sc$$0.h0, arg.h1); return { tag: "return", h0: arg.h3(Lib_Compile_JLam(sc$$6.h2, Lib_Compile_termToJS(null, sc$$6.h3, _sc$$0.h1, Lib_Compile_JReturn))) }; break; } case "CLam": { const sc$$6 = Lib_Compile_freshName$27(_sc$$0.h0, arg.h1); return { tag: "return", h0: arg.h3(Lib_Compile_JLam(Prelude__$3A$3A_(null, sc$$6.h2, Prelude_Nil(null)), Lib_Compile_termToJS(null, sc$$6.h3, _sc$$0.h1, Lib_Compile_JReturn))) }; break; } case "CBnd": { const sc$$5 = Prelude_getAt(null, Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(_sc$$0.h0), Lib_Compile__jsenv(arg.h1)); switch (sc$$5.tag) { case "Nothing": return { tag: "return", h0: Prelude_fatalError(null, "Bad bounds") }; case "Just": return { tag: "return", h0: arg.h3(sc$$5.h1) }; } break; } } break; } case "Lib.Compile.termToJS.go": { const _sc$$0 = arg.h8; switch (_sc$$0.tag) { case "_::_": return { tag: "Lib.Compile.termToJS", h0: null, h1: arg.h1, h2: _sc$$0.h1, h3: ( t$27 ) => (Lib_Compile_termToJS_go(arg.h0, arg.h1, arg.h2, arg.h3, arg.h4, arg.h5, arg.h6, null, _sc$$0.h2, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(arg.h9)(1), ( args ) => (arg.h10(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("h")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(arg.h9)))(""), t$27), args))))) }; case "Nil": return { tag: "return", h0: arg.h10(Prelude_Nil(null)) }; } break; } } }; +const Lib_Compile_termToJS = ( e$$0, _$$1, _$$2, _$$3 ) => (bouncer(Lib_Compile_REC_termToJS, { tag: "Lib.Compile.termToJS", h0: e$$0, h1: _$$1, h2: _$$2, h3: _$$3 })); const Lib_Compile_maybeWrap = ( _$$0 ) => { switch (_$$0.tag) { case "JReturn": return _$$0.h0; default: return Lib_Compile_Apply(Lib_Compile_JLam(Prelude_Nil(null), _$$0), Prelude_Nil(null)); } }; const Lib_Compile_cexpToDoc = ( _$$0 ) => { const exp = Lib_Compile_maybeWrap(Lib_Compile_termToJS(null, Lib_Compile_emptyJSEnv, _$$0.h3, Lib_Compile_JReturn)); return Lib_Compile_stmtToDoc(null, Lib_Compile_JConst(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$0.h2), exp)); }; -const Data_SortedMap_EmptyMap = ( h0, h1 ) => ({ tag: "EmptyMap", h0: h0, h1: h1 }); -const Prelude_const = ( a$$0, b$$1, _$$2, _$$3 ) => (_$$2); +const Prelude_REC_foldl = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Prelude.foldl": { const _sc$$0 = arg.h4; switch (_sc$$0.tag) { case "_::_": return { tag: "Prelude.foldl", h0: null, h1: null, h2: arg.h2, h3: arg.h2(arg.h3)(_sc$$0.h1), h4: _sc$$0.h2 }; case "Nil": return { tag: "return", h0: arg.h3 }; } break; } } }; +const Prelude_foldl = ( A$$0, B$$1, _$$2, _$$3, _$$4 ) => (bouncer(Prelude_REC_foldl, { tag: "Prelude.foldl", h0: A$$0, h1: B$$1, h2: _$$2, h3: _$$3, h4: _$$4 })); +const Lib_Compile_sortedNames_getBody = ( _, _1, _2, _$$3 ) => { switch (_$$3.tag) { case "CLitAlt": return _$$3.h1; case "CDefAlt": return _$$3.h0; case "CConAlt": return _$$3.h2; } }; +const Lib_Compile_REC_sortedNames_getBody_getNames = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Compile.sortedNames.getBody.getNames": { const _sc$$0 = arg.h5; switch (_sc$$0.tag) { case "CRaw": return { tag: "return", h0: Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_sc$$0.h1)(arg.h4) }; case "CConstr": return { tag: "return", h0: Prelude_foldl(null, null, ( eta ) => (( eta1 ) => (Lib_Compile_sortedNames_getBody_getNames(arg.h0, arg.h1, arg.h2, arg.h3, eta, eta1))), arg.h4, _sc$$0.h1) }; case "CErased": return { tag: "return", h0: arg.h4 }; case "CLetRec": return { tag: "Lib.Compile.sortedNames.getBody.getNames", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: Lib_Compile_sortedNames_getBody_getNames(arg.h0, arg.h1, arg.h2, arg.h3, arg.h4, _sc$$0.h1), h5: _sc$$0.h2 }; case "CLet": return { tag: "Lib.Compile.sortedNames.getBody.getNames", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: Lib_Compile_sortedNames_getBody_getNames(arg.h0, arg.h1, arg.h2, arg.h3, arg.h4, _sc$$0.h1), h5: _sc$$0.h2 }; case "CLit": return { tag: "return", h0: arg.h4 }; case "CMeta": return { tag: "return", h0: arg.h4 }; case "CRef": return { tag: "return", h0: Prelude__$3A$3A_(null, _sc$$0.h0, arg.h4) }; case "CCase": return { tag: "return", h0: Prelude_foldl(null, null, ( eta ) => (( eta1 ) => (Lib_Compile_sortedNames_getBody_getNames(arg.h0, arg.h1, arg.h2, arg.h3, eta, eta1))), arg.h4, Prelude__$3A$3A_(null, _sc$$0.h0, Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Lib_Compile_sortedNames_getBody(arg.h0, arg.h1, arg.h2, eta)))(_sc$$0.h1))) }; case "CApp": return { tag: "return", h0: Prelude_foldl(null, null, ( eta ) => (( eta1 ) => (Lib_Compile_sortedNames_getBody_getNames(arg.h0, arg.h1, arg.h2, arg.h3, eta, eta1))), arg.h4, Prelude__$3A$3A_(null, _sc$$0.h0, _sc$$0.h1)) }; case "CFun": return { tag: "Lib.Compile.sortedNames.getBody.getNames", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: _sc$$0.h1 }; case "CLam": return { tag: "Lib.Compile.sortedNames.getBody.getNames", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: _sc$$0.h1 }; case "CBnd": return { tag: "return", h0: arg.h4 }; } break; } } }; +const Lib_Compile_sortedNames_getBody_getNames = ( _, _1, _2, _3, _$$4, _$$5 ) => (bouncer(Lib_Compile_REC_sortedNames_getBody_getNames, { tag: "Lib.Compile.sortedNames.getBody.getNames", h0: _, h1: _1, h2: _2, h3: _3, h4: _$$4, h5: _$$5 })); +const Prelude_snd = ( a$$0, b$$1, _$$2 ) => (_$$2.h3); +const Data_SortedMap_lookupMap$27 = ( k$$0, v$$1, _$$2, _$$3, _$$4 ) => { switch (_$$4.tag) { case "MapOf": return Prelude__$3C$$$3E_(null, Prelude_Prelude_Functor$20Prelude_Maybe, null, null, ( eta ) => (Prelude_snd(null, null, eta)), Data_SortedMap_lookupT23(null, null, null, _$$2, _$$3, _$$4.h3)); case "EmptyMap": return Prelude_Nothing(null); } }; +const Lib_Common_Prelude_Eq$20Lib_Common_QName$2C_$3D$3D_ = ( _$$0, _$$1 ) => (Prelude__$26$26_(Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_$$0.h1)(_$$1.h1), Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Eq$20Prim_String))(_$$0.h0)(_$$1.h0))); +const Lib_Common_Prelude_Eq$20Lib_Common_QName = Prelude_MkEq(null, ( eta ) => (( eta1 ) => (Lib_Common_Prelude_Eq$20Lib_Common_QName$2C_$3D$3D_(eta, eta1)))); +const Lib_Compile_sortedNames_getBody_getNames_go = ( _, _1, _2, _3, _4, _$$5, _$$6, _$$7 ) => { const sc$$8 = Prelude__$7C$7C_(Prelude_elem(null, Lib_Common_Prelude_Eq$20Lib_Common_QName, _$$7, _$$5), Prelude_elem(null, Lib_Common_Prelude_Eq$20Lib_Common_QName, _$$7, _$$6)); switch (sc$$8.tag) { case "False": { const sc$$9 = Data_SortedMap_lookupMap$27(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, _$$7, _); switch (sc$$9.tag) { case "Nothing": return _$$6; case "Just": return Prelude__$3A$3A_(null, _$$7, Prelude_foldl(null, null, ( eta ) => (( eta1 ) => (Lib_Compile_sortedNames_getBody_getNames_go(_, _1, _2, _3, _4, Prelude__$3A$3A_(null, _$$7, _$$5), eta, eta1))), _$$6, Lib_Compile_sortedNames_getBody_getNames(_, _1, _2, _3, Prelude_Nil(null), sc$$9.h1))); } break; } case "True": return _$$6; } }; +const Lib_Compile_sortedNames = ( _$$0, _$$1 ) => (Lib_Compile_sortedNames_getBody_getNames_go(_$$0, _$$1, null, null, null, Prelude_Nil(null), Prelude_Nil(null), _$$1)); const Data_SortedMap_Leaf = ( h0, h1, h2, h3 ) => ({ tag: "Leaf", h0: h0, h1: h1, h2: h2, h3: h3 }); const Data_SortedMap_MapOf = ( h0, h1, h2, h3 ) => ({ tag: "MapOf", h0: h0, h1: h1, h2: h2, h3: h3 }); const Data_SortedMap_Node2 = ( h0, h1, h2, h3, h4, h5 ) => ({ tag: "Node2", h0: h0, h1: h1, h2: h2, h3: h3, h4: h4, h5: h5 }); const Data_SortedMap_Node3 = ( h0, h1, h2, h3, h4, h5, h6, h7 ) => ({ tag: "Node3", h0: h0, h1: h1, h2: h2, h3: h3, h4: h4, h5: h5, h6: h6, h7: h7 }); const Data_SortedMap_insertT23 = ( h$$0, k$$1, v$$2, _$$3, _$$4, _$$5, _$$6 ) => { switch (_$$6.tag) { case "Node3": { const sc$$15 = Prelude__$3C$3D_(null, _$$3, _$$4, _$$6.h4); switch (sc$$15.tag) { case "False": { const sc$$16 = Prelude__$3C$3D_(null, _$$3, _$$4, _$$6.h6); switch (sc$$16.tag) { case "False": { const sc$$17 = Data_SortedMap_insertT23(null, null, null, _$$3, _$$4, _$$5, _$$6.h7); switch (sc$$17.tag) { case "Right": { const _sc$$0 = sc$$17.h2; const _sc$$1 = _sc$$0.h3; return Prelude_Right(null, null, Prelude__$2C_(null, null, Data_SortedMap_Node2(null, null, null, _$$6.h3, _$$6.h4, _$$6.h5), Prelude__$2C_(null, null, _$$6.h6, Data_SortedMap_Node2(null, null, null, _sc$$0.h2, _sc$$1.h2, _sc$$1.h3)))); break; } case "Left": return Prelude_Left(null, null, Data_SortedMap_Node3(null, null, null, _$$6.h3, _$$6.h4, _$$6.h5, _$$6.h6, sc$$17.h2)); } break; } case "True": { const sc$$17 = Data_SortedMap_insertT23(null, null, null, _$$3, _$$4, _$$5, _$$6.h5); switch (sc$$17.tag) { case "Right": { const _sc$$0 = sc$$17.h2; const _sc$$1 = _sc$$0.h3; return Prelude_Right(null, null, Prelude__$2C_(null, null, Data_SortedMap_Node2(null, null, null, _$$6.h3, _$$6.h4, _sc$$0.h2), Prelude__$2C_(null, null, _sc$$1.h2, Data_SortedMap_Node2(null, null, null, _sc$$1.h3, _$$6.h6, _$$6.h7)))); break; } case "Left": return Prelude_Left(null, null, Data_SortedMap_Node3(null, null, null, _$$6.h3, _$$6.h4, sc$$17.h2, _$$6.h6, _$$6.h7)); } break; } } break; } case "True": { const sc$$16 = Data_SortedMap_insertT23(null, null, null, _$$3, _$$4, _$$5, _$$6.h3); switch (sc$$16.tag) { case "Right": { const _sc$$0 = sc$$16.h2; const _sc$$1 = _sc$$0.h3; return Prelude_Right(null, null, Prelude__$2C_(null, null, Data_SortedMap_Node2(null, null, null, _sc$$0.h2, _sc$$1.h2, _sc$$1.h3), Prelude__$2C_(null, null, _$$6.h4, Data_SortedMap_Node2(null, null, null, _$$6.h5, _$$6.h6, _$$6.h7)))); break; } case "Left": return Prelude_Left(null, null, Data_SortedMap_Node3(null, null, null, sc$$16.h2, _$$6.h4, _$$6.h5, _$$6.h6, _$$6.h7)); } break; } } break; } case "Node2": { const sc$$13 = Prelude__$3C$3D_(null, _$$3, _$$4, _$$6.h4); switch (sc$$13.tag) { case "False": { const sc$$14 = Data_SortedMap_insertT23(null, null, null, _$$3, _$$4, _$$5, _$$6.h5); switch (sc$$14.tag) { case "Right": { const _sc$$0 = sc$$14.h2; const _sc$$1 = _sc$$0.h3; return Prelude_Left(null, null, Data_SortedMap_Node3(null, null, null, _$$6.h3, _$$6.h4, _sc$$0.h2, _sc$$1.h2, _sc$$1.h3)); break; } case "Left": return Prelude_Left(null, null, Data_SortedMap_Node2(null, null, null, _$$6.h3, _$$6.h4, sc$$14.h2)); } break; } case "True": { const sc$$14 = Data_SortedMap_insertT23(null, null, null, _$$3, _$$4, _$$5, _$$6.h3); switch (sc$$14.tag) { case "Right": { const _sc$$0 = sc$$14.h2; const _sc$$1 = _sc$$0.h3; return Prelude_Left(null, null, Data_SortedMap_Node3(null, null, null, _sc$$0.h2, _sc$$1.h2, _sc$$1.h3, _$$6.h4, _$$6.h5)); break; } case "Left": return Prelude_Left(null, null, Data_SortedMap_Node2(null, null, null, sc$$14.h2, _$$6.h4, _$$6.h5)); } break; } } break; } case "Leaf": { const sc$$11 = Prelude_compare(null, _$$3)(_$$4)(_$$6.h2); switch (sc$$11.tag) { case "GT": return Prelude_Right(null, null, Prelude__$2C_(null, null, Data_SortedMap_Leaf(null, null, _$$6.h2, _$$6.h3), Prelude__$2C_(null, null, _$$6.h2, Data_SortedMap_Leaf(null, null, _$$4, _$$5)))); case "EQ": return Prelude_Left(null, null, Data_SortedMap_Leaf(null, null, _$$4, _$$5)); case "LT": return Prelude_Right(null, null, Prelude__$2C_(null, null, Data_SortedMap_Leaf(null, null, _$$4, _$$5), Prelude__$2C_(null, null, _$$4, Data_SortedMap_Leaf(null, null, _$$6.h2, _$$6.h3)))); } break; } } }; const Data_SortedMap_updateMap = ( k$$0, v$$1, _$$2, _$$3, _$$4, _$$5 ) => { switch (_$$5.tag) { case "MapOf": { const sc$$10 = Data_SortedMap_insertT23(null, null, null, _$$2, _$$3, _$$4, _$$5.h3); switch (sc$$10.tag) { case "Right": { const _sc$$0 = sc$$10.h2; const _sc$$1 = _sc$$0.h3; return Data_SortedMap_MapOf(null, null, Prelude_S(_$$5.h2), Data_SortedMap_Node2(null, null, null, _sc$$0.h2, _sc$$1.h2, _sc$$1.h3)); break; } case "Left": return Data_SortedMap_MapOf(null, null, _$$5.h2, sc$$10.h2); } break; } case "EmptyMap": return Data_SortedMap_MapOf(null, null, Prelude_Z, Data_SortedMap_Leaf(null, null, _$$3, _$$4)); } }; -const Data_SortedMap_foldMap = ( a$$0, b$$1, _$$2, _$$3, _$$4, _$$5 ) => { switch (_$$5.tag) { case "_::_": { const _sc$$0 = _$$5.h1; const sc$$13 = Data_SortedMap_lookupMap(null, null, _$$2, _sc$$0.h2, _$$4); switch (sc$$13.tag) { case "Nothing": return Data_SortedMap_foldMap(null, null, _$$2, _$$3, Data_SortedMap_updateMap(null, null, _$$2, _sc$$0.h2, _sc$$0.h3, _$$4), _$$5.h2); case "Just": { const _sc$$1 = sc$$13.h1; return Data_SortedMap_foldMap(null, null, _$$2, _$$3, Data_SortedMap_updateMap(null, null, _$$2, _sc$$0.h2, _$$3(_sc$$1.h3)(_sc$$0.h3), _$$4), _$$5.h2); break; } } break; } case "Nil": return _$$4; } }; -const Data_SortedMap_toList_go = ( _, _1, _2, _3, _4, _5, _6, _7, h$$8, _$$9, _$$10 ) => { switch (_$$9.tag) { case "Node3": return Data_SortedMap_toList_go(_, _1, _2, _3, _4, _5, _6, _7, null, _$$9.h7, Data_SortedMap_toList_go(_, _1, _2, _3, _4, _5, _6, _7, null, _$$9.h5, Data_SortedMap_toList_go(_, _1, _2, _3, _4, _5, _6, _7, null, _$$9.h3, _$$10))); case "Node2": return Data_SortedMap_toList_go(_, _1, _2, _3, _4, _5, _6, _7, null, _$$9.h5, Data_SortedMap_toList_go(_, _1, _2, _3, _4, _5, _6, _7, null, _$$9.h3, _$$10)); case "Leaf": return Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$9.h2, _$$9.h3), _$$10); } }; -const Data_SortedMap_toList = ( k$$0, v$$1, _$$2 ) => { switch (_$$2.tag) { case "MapOf": return Prelude_reverse(null)(Data_SortedMap_toList_go(k$$0, v$$1, _$$2, _$$2.h0, _$$2.h1, _$$2.h2, _$$2.h3, null, null, _$$2.h3, Prelude_Nil(null))); default: return Prelude_Nil(null); } }; -const Lib_Ref2_MkRef = ( h0, h1, h2 ) => ({ tag: "MkRef", h0: h0, h1: h1, h2: h2 }); -const Lib_CompileExp_CErased = { tag: "CErased" }; +const Lib_TCO_tailCallOpt_doUpdate = ( _, _1, _$$2, _$$3 ) => (Data_SortedMap_updateMap(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, _$$3.h2, _$$3.h3, _$$2)); +const Lib_CompileExp_CFun = ( h0, h1 ) => ({ tag: "CFun", h0: h0, h1: h1 }); +const Lib_CompileExp_CRef = ( h0 ) => ({ tag: "CRef", h0: h0 }); +const Lib_Common_QN = ( h0, h1 ) => ({ tag: "QN", h0: h0, h1: h1 }); +const Lib_TCO_bouncer = Lib_Common_QN(Prelude_Nil(null), "bouncer"); +const Lib_CompileExp_CApp = ( h0, h1, h2 ) => ({ tag: "CApp", h0: h0, h1: h1, h2: h2 }); const Lib_Common_range = ( _$$0, _$$1 ) => { const sc$$2 = Prelude__$3C_(null, Prelude_Prelude_Ord$20Prim_Int, _$$0, _$$1); switch (sc$$2.tag) { case "False": return Prelude_Nil(null); case "True": return Prelude__$3A$3A_(null, _$$0, Lib_Common_range(Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0)(1), _$$1)); } }; const Prelude_subInt = (x,y) => x - y; const Prelude_Prelude_Sub$20Prim_Int$2C_$2D_ = ( _$$0, _$$1 ) => (Prelude_subInt(_$$0, _$$1)); @@ -312,17 +341,87 @@ const Prelude_Prelude_Sub$20Prim_Int = Prelude_MkSub(null, ( eta ) => (( eta1 ) const Prelude__$2D_ = ( a$$0, _$$1 ) => (_$$1.h1); const Lib_CompileExp_CBnd = ( h0 ) => ({ tag: "CBnd", h0: h0 }); const Lib_CompileExp_CConstr = ( h0, h1 ) => ({ tag: "CConstr", h0: h0, h1: h1 }); -const Lib_CompileExp_CFun = ( h0, h1 ) => ({ tag: "CFun", h0: h0, h1: h1 }); +const Prelude_REC_length$27_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Prelude.length'.go": { const _sc$$0 = arg.h4; switch (_sc$$0.tag) { case "_::_": return { tag: "Prelude.length'.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: null, h4: _sc$$0.h2, h5: Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(arg.h5)(1) }; case "Nil": return { tag: "return", h0: arg.h5 }; } break; } } }; +const Prelude_length$27_go = ( _, _1, _2, a$$3, _$$4, _$$5 ) => (bouncer(Prelude_REC_length$27_go, { tag: "Prelude.length'.go", h0: _, h1: _1, h2: _2, h3: a$$3, h4: _$$4, h5: _$$5 })); +const Prelude_length$27 = ( a$$0, _$$1 ) => (Prelude_length$27_go(a$$0, _$$1, null, null, _$$1, 0)); +const Lib_TCO_doOptimize_mkWrap = ( _, _1, _$$2, _$$3 ) => { const _sc$$0 = _$$3.h3; switch (_sc$$0.tag) { case "CFun": { const arglen = Prelude_length$27(null, _sc$$0.h0); const arg = Lib_CompileExp_CConstr(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$3.h2), Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( k ) => (Lib_CompileExp_CBnd(Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(arglen)(k))(1))))(Lib_Common_range(0, arglen))); const body = Lib_CompileExp_CApp(Lib_CompileExp_CRef(Lib_TCO_bouncer), Prelude__$3A$3A_(null, Lib_CompileExp_CRef(_$$2), Prelude__$3A$3A_(null, arg, Prelude_Nil(null))), 0); return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _$$3.h2, Lib_CompileExp_CFun(_sc$$0.h0, body))); break; } default: return Lib_Types_error(null, Lib_Common_emptyFC, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("error in mkWrap: ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$3.h2)))(" not a CFun")); } }; +const Prelude_traverse = ( t$$0, _$$1 ) => (( f ) => (( a ) => (( b ) => (( _ ) => (_$$1.h1(null)(null)(null)(_)))))); +const Prelude__$3C$2A$3E_ = ( f$$0, _$$1 ) => (( a ) => (( b ) => (_$$1.h2(null)(null)))); +const Prelude_Prelude_Traversable$20Prelude_List$2Ctraverse = ( f$$0, a$$1, b$$2, _$$3, _$$4, _$$5 ) => { switch (_$$5.tag) { case "_::_": return Prelude__$3C$2A$3E_(null, _$$3)(null)(null)(Prelude__$3C$2A$3E_(null, _$$3)(null)(null)(Prelude_return(null, _$$3)(null)(( eta ) => (( eta1 ) => (Prelude__$3A$3A_(null, eta, eta1)))))(_$$4(_$$5.h1)))(Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(_$$3)(_$$4)(_$$5.h2)); case "Nil": return Prelude_return(null, _$$3)(null)(Prelude_Nil(null)); } }; +const Prelude_MkTraversable = ( h0, h1 ) => ({ tag: "MkTraversable", h0: h0, h1: h1 }); +const Prelude_Prelude_Traversable$20Prelude_List = Prelude_MkTraversable(null, ( f ) => (( a ) => (( b ) => (( _ ) => (( eta ) => (( eta1 ) => (Prelude_Prelude_Traversable$20Prelude_List$2Ctraverse(null, null, null, _, eta, eta1)))))))); +const Lib_CompileExp_CCase = ( h0, h1 ) => ({ tag: "CCase", h0: h0, h1: h1 }); +const Lib_TCO_doOptimize_mkWrap_mkRecName = ( _, _1, _2, _$$3 ) => { switch (_$$3.tag) { case "_::_": { const _sc$$0 = _$$3.h1; return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Common_QN(_sc$$0.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("REC_")(_sc$$0.h1))(""))); break; } case "Nil": return Lib_Types_error(null, Lib_Common_emptyFC, "INTERNAL ERROR: Empty List in doOptimize"); } }; +const Lib_CompileExp_CConAlt = ( h0, h1, h2 ) => ({ tag: "CConAlt", h0: h0, h1: h1, h2: h2 }); +const Lib_CompileExp_CDefAlt = ( h0 ) => ({ tag: "CDefAlt", h0: h0 }); +const Lib_CompileExp_CLitAlt = ( h0, h1 ) => ({ tag: "CLitAlt", h0: h0, h1: h1 }); +const Lib_TCO_rewriteTailCalls_rewriteAlt = ( _, _1, _2, _$$3 ) => { switch (_$$3.tag) { case "CLitAlt": return Lib_CompileExp_CLitAlt(_$$3.h0, Lib_TCO_rewriteTailCalls(_, _$$3.h1)); case "CDefAlt": return Lib_CompileExp_CDefAlt(Lib_TCO_rewriteTailCalls(_, _$$3.h0)); case "CConAlt": return Lib_CompileExp_CConAlt(_$$3.h0, _$$3.h1, Lib_TCO_rewriteTailCalls(_, _$$3.h2)); } }; +const Lib_CompileExp_CLet = ( h0, h1, h2 ) => ({ tag: "CLet", h0: h0, h1: h1, h2: h2 }); +const Lib_CompileExp_CLetRec = ( h0, h1, h2 ) => ({ tag: "CLetRec", h0: h0, h1: h1, h2: h2 }); +const Lib_TCO_rewriteTailCalls = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "CLetRec": return Lib_CompileExp_CLetRec(_$$1.h0, _$$1.h1, Lib_TCO_rewriteTailCalls(_$$0, _$$1.h2)); case "CLet": return Lib_CompileExp_CLet(_$$1.h0, _$$1.h1, Lib_TCO_rewriteTailCalls(_$$0, _$$1.h2)); case "CCase": return Lib_CompileExp_CCase(_$$1.h0, Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Lib_TCO_rewriteTailCalls_rewriteAlt(_$$0, _$$1, null, eta)))(_$$1.h1)); case "CApp": { const _sc$$0 = _$$1.h0; switch (_sc$$0.tag) { case "CRef": { const _sc$$1 = _$$1.h2; switch (_sc$$1) { case 0: { const sc$$8 = Prelude_elem(null, Lib_Common_Prelude_Eq$20Lib_Common_QName, _sc$$0.h0, _$$0); switch (sc$$8.tag) { case "False": return Lib_CompileExp_CConstr("return", Prelude__$3A$3A_(null, _$$1, Prelude_Nil(null))); case "True": return Lib_CompileExp_CConstr(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$0.h0), _$$1.h1); } break; } default: return Lib_CompileExp_CConstr("return", Prelude__$3A$3A_(null, _$$1, Prelude_Nil(null))); } break; } default: return Lib_CompileExp_CConstr("return", Prelude__$3A$3A_(null, _$$1, Prelude_Nil(null))); } break; } default: return Lib_CompileExp_CConstr("return", Prelude__$3A$3A_(null, _$$1, Prelude_Nil(null))); } }; +const Lib_TCO_doOptimize_mkWrap_mkRecName_mkAlt = ( _, _1, _2, _3, _$$4, _$$5 ) => { const _sc$$0 = _$$5.h3; return Lib_CompileExp_CConAlt(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$5.h2), _sc$$0.h2, Lib_TCO_rewriteTailCalls(_$$4, _sc$$0.h3)); }; +const Prelude_fst = ( a$$0, b$$1, _$$2 ) => (_$$2.h2); +const Lib_TCO_doOptimize_mkWrap_mkRecName_mkAlt_splitFun = ( _, _1, _2, _3, _4, _$$5 ) => { const _sc$$0 = _$$5.h3; switch (_sc$$0.tag) { case "CFun": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _$$5.h2, Prelude__$2C_(null, null, _sc$$0.h0, _sc$$0.h1))); default: return Lib_Types_error(null, Lib_Common_emptyFC, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("TCO error: ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$5.h2)))(" not a function")); } }; +const Lib_TCO_doOptimize = ( _$$0 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_TCO_doOptimize_mkWrap_mkRecName_mkAlt_splitFun(_$$0, null, null, null, null, eta)))(_$$0), ( splitFuns ) => { const nms = Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_fst(null, null, eta)))(_$$0); const alts = Prelude__$3A$3A_(null, Lib_CompileExp_CConAlt("return", Prelude__$3A$3A_(null, "rval", Prelude_Nil(null)), Lib_CompileExp_CBnd(0)), Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Lib_TCO_doOptimize_mkWrap_mkRecName_mkAlt(_$$0, null, null, null, nms, eta)))(splitFuns)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_TCO_doOptimize_mkWrap_mkRecName(_$$0, null, null, nms), ( recName ) => { const recfun = Lib_CompileExp_CFun(Prelude__$3A$3A_(null, "arg", Prelude_Nil(null)), Lib_CompileExp_CCase(Lib_CompileExp_CBnd(0), alts)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_TCO_doOptimize_mkWrap(_$$0, null, recName, eta)))(_$$0), ( wrapped ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, recName, recfun), wrapped)))); }); })); +const Prelude_flip = ( a$$0, b$$1, c$$2, _$$3, _$$4, _$$5 ) => (_$$3(_$$5)(_$$4)); +const Lib_TCO_tailCallOpt_doUpdate_processGroup = ( _, _1, _2, _$$3, _$$4 ) => { const pairs = Prelude_mapMaybe(null, null, ( eta ) => (Prelude_flip(null, null, null, ( eta ) => (( eta1 ) => (Data_SortedMap_lookupMap(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, eta, eta1))), _$$3, eta)), _$$4); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_TCO_doOptimize(pairs), ( updates ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_foldl(null, null, ( eta ) => (( eta1 ) => (Lib_TCO_tailCallOpt_doUpdate(_, _1, eta, eta1))), _$$3, updates)))); }; +const Prelude_foldlM = ( m$$0, a$$1, e$$2, _$$3, _$$4, _$$5, _$$6 ) => (Prelude_foldl(null, null, ( ma ) => (( b ) => (Prelude__$3E$3E$3D_(null, null, null, _$$3, ma, ( eta ) => (Prelude_flip(null, null, null, _$$4, b, eta))))), Prelude_pure(null, _$$3)(null)(_$$5), _$$6)); +const Data_Graph_MkTState = ( h0, h1, h2, h3, h4 ) => ({ tag: "MkTState", h0: h0, h1: h1, h2: h2, h3: h3, h4: h4 }); +const Data_Graph__out = ( k$$0, _$$1 ) => (_$$1.h2); +const Data_Graph__index = ( k$$0, _$$1 ) => (_$$1.h3); +const Data_Graph__name = ( k$$0, _$$1 ) => (_$$1.h1); +const Data_Graph__onStack = ( k$$0, _$$1 ) => (_$$1.h5); +const Data_Graph__lowLink = ( k$$0, _$$1 ) => (_$$1.h4); +const Data_Graph_strongConnect_min = ( _, _1, _2, _3, _4, _5, _$$6, _$$7 ) => { const sc$$8 = Prelude__$3C_(null, Prelude_Prelude_Ord$20Prim_Int, _$$6, _$$7); switch (sc$$8.tag) { case "False": return _$$7; case "True": return _$$6; } }; +const Data_Graph_MkTV = ( h0, h1, h2, h3, h4, h5 ) => ({ tag: "MkTV", h0: h0, h1: h1, h2: h2, h3: h3, h4: h4, h5: h5 }); +const Data_Graph_strongConnect_min_splitComp_updateNode = ( _, _1, _2, _3, _4, _5, _6, _7, _$$8, _$$9, _$$10 ) => { const sc$$16 = Data_SortedMap_lookupMap$27(null, null, _2, _$$9, _$$8.h4); switch (sc$$16.tag) { case "Nothing": return _$$8; case "Just": return Data_Graph_MkTState(null, _$$8.h1, _$$8.h2, _$$8.h3, Data_SortedMap_updateMap(null, null, _2, _$$9, _$$10(sc$$16.h1), _$$8.h4)); } }; +const Data_Graph_strongConnect_min_splitComp_updateNode_updateLowLink = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _$$9, _$$10, _$$11 ) => (Data_Graph_strongConnect_min_splitComp_updateNode(_, _1, _2, _3, _4, _5, _6, _7, _$$9, _$$10, ( vt ) => (Data_Graph_MkTV(null, Data_Graph__name(null, vt), Data_Graph__out(null, vt), Data_Graph__index(null, vt), Data_Graph_strongConnect_min(_, _1, _2, _3, _4, _5, Data_Graph__lowLink(null, vt), _$$11), Data_Graph__onStack(null, vt))))); +const Data_Graph__graph = ( k$$0, _$$1 ) => (_$$1.h4); +const Prelude_Prelude_Eq$20Prim_Int$2C_$3D$3D_ = ( _$$0, _$$1 ) => (Prelude_jsEq(null, _$$0, _$$1)); +const Prelude_Prelude_Eq$20Prim_Int = Prelude_MkEq(null, ( eta ) => (( eta1 ) => (Prelude_Prelude_Eq$20Prim_Int$2C_$3D$3D_(eta, eta1)))); +const Data_Graph_strongConnect_min_splitComp_updateNode_updateLowLink_offStack_doEdge = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _$$11, _$$12 ) => { const sc$$13 = Data_SortedMap_lookupMap$27(null, null, _2, _$$12, Data_Graph__graph(null, _$$11)); switch (sc$$13.tag) { case "Just": { const sc$$16 = Data_Graph__onStack(null, sc$$13.h1); switch (sc$$16.tag) { case "False": { const sc$$17 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(Data_Graph__index(null, sc$$13.h1))(0); switch (sc$$17.tag) { case "False": return _$$11; case "True": { const st$27 = Data_Graph_strongConnect(null, _1, _2, _$$11, sc$$13.h1); const sc$$19 = Data_SortedMap_lookupMap$27(null, null, _2, _$$12, Data_Graph__graph(null, st$27)); switch (sc$$19.tag) { case "Just": return Data_Graph_strongConnect_min_splitComp_updateNode_updateLowLink(_, _1, _2, _3, _4, _5, _6, _7, _8, st$27, Data_Graph__name(null, _4), Data_Graph__lowLink(null, sc$$19.h1)); default: return st$27; } break; } } break; } case "True": return Data_Graph_strongConnect_min_splitComp_updateNode_updateLowLink(_, _1, _2, _3, _4, _5, _6, _7, _8, _$$11, Data_Graph__name(null, _4), Data_Graph__index(null, sc$$13.h1)); } break; } default: return _$$11; } }; +const Data_Graph__result = ( k$$0, _$$1 ) => (_$$1.h3); +const Data_Graph__lastIndex = ( k$$0, _$$1 ) => (_$$1.h1); +const Prelude__$3E_ = ( a$$0, _$$1, _$$2, _$$3 ) => (Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prelude_Ordering)(Prelude_compare(null, _$$1)(_$$2)(_$$3))(Prelude_GT)); +const Data_Graph_strongConnect_min_splitComp_updateNode_updateLowLink_offStack = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _$$10, _$$11 ) => (Data_Graph_strongConnect_min_splitComp_updateNode(_, _1, _2, _3, _4, _5, _6, _7, _$$10, _$$11, ( vt ) => (Data_Graph_MkTV(null, Data_Graph__name(null, vt), Data_Graph__out(null, vt), Data_Graph__index(null, vt), Data_Graph__lowLink(null, vt), Prelude_False)))); +const Data_Graph__stack = ( k$$0, _$$1 ) => (_$$1.h2); +const Data_Graph_REC_strongConnect_min_splitComp = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Data.Graph.strongConnect.min.splitComp": { const _sc$$0 = arg.h8; switch (_sc$$0.tag) { case "_::_": { const sc$$12 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prelude_Ordering)(Prelude_compare(null, arg.h2)(_sc$$0.h1)(Data_Graph__name(null, arg.h4)))(Prelude_EQ); switch (sc$$12.tag) { case "False": return { tag: "Data.Graph.strongConnect.min.splitComp", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: Prelude__$3A$3A_(null, _sc$$0.h1, arg.h7), h8: _sc$$0.h2 }; case "True": return { tag: "return", h0: Prelude__$2C_(null, null, Prelude__$3A$3A_(null, _sc$$0.h1, arg.h7), _sc$$0.h2) }; } break; } case "Nil": return { tag: "return", h0: Prelude__$2C_(null, null, arg.h7, Prelude_Nil(null)) }; } break; } } }; +const Data_Graph_strongConnect_min_splitComp = ( _, _1, _2, _3, _4, _5, _6, _$$7, _$$8 ) => (bouncer(Data_Graph_REC_strongConnect_min_splitComp, { tag: "Data.Graph.strongConnect.min.splitComp", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _5, h6: _6, h7: _$$7, h8: _$$8 })); +const Data_Graph_strongConnect_min_splitComp_updateNode_updateLowLink_offStack_doEdge_checkRoot = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _$$12 ) => { const sc$$13 = Data_SortedMap_lookupMap$27(null, null, _2, Data_Graph__name(null, _4), Data_Graph__graph(null, _$$12)); switch (sc$$13.tag) { case "Just": { const sc$$16 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(Data_Graph__lowLink(null, sc$$13.h1))(Data_Graph__index(null, sc$$13.h1)); switch (sc$$16.tag) { case "False": return _$$12; case "True": { const sc$$17 = Data_Graph_strongConnect_min_splitComp(_, _1, _2, _3, _4, _5, _6, Prelude_Nil(null), Data_Graph__stack(null, _$$12)); const st = Prelude_foldl(null, null, ( eta ) => (( eta1 ) => (Data_Graph_strongConnect_min_splitComp_updateNode_updateLowLink_offStack(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, eta, eta1))), _$$12, sc$$17.h2); const sc$$23 = Prelude__$7C$7C_(Prelude__$3E_(null, Prelude_Prelude_Ord$20Prim_Int, Prelude_length$27(null, sc$$17.h2), 1), Prelude_elem(null, _1, Data_Graph__name(null, sc$$13.h1), Data_Graph__out(null, sc$$13.h1))); switch (sc$$23.tag) { case "False": return Data_Graph_MkTState(null, Data_Graph__lastIndex(null, st), sc$$17.h3, Data_Graph__result(null, st), Data_Graph__graph(null, st)); case "True": return Data_Graph_MkTState(null, Data_Graph__lastIndex(null, st), sc$$17.h3, Prelude__$3A$3A_(null, sc$$17.h2, Data_Graph__result(null, st)), Data_Graph__graph(null, st)); } break; } } break; } default: return _$$12; } }; +const Data_Graph_strongConnect = ( k$$0, _$$1, _$$2, _$$3, _$$4 ) => { const index$27 = Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(Data_Graph__lastIndex(null, _$$3))(1); const vtx$27 = Data_Graph_MkTV(null, Data_Graph__name(null, _$$4), Data_Graph__out(null, _$$4), index$27, index$27, Prelude_True); const stack$27 = Prelude__$3A$3A_(null, Data_Graph__name(null, _$$4), Data_Graph__stack(null, _$$3)); const graph$27 = Data_SortedMap_updateMap(null, null, _$$2, Data_Graph__name(null, vtx$27), vtx$27, Data_Graph__graph(null, _$$3)); const st$27 = Data_Graph_MkTState(null, index$27, stack$27, Data_Graph__result(null, _$$3), graph$27); return Data_Graph_strongConnect_min_splitComp_updateNode_updateLowLink_offStack_doEdge_checkRoot(k$$0, _$$1, _$$2, _$$3, _$$4, null, null, null, null, null, null, null, Prelude_foldl(null, null, ( eta ) => (( eta1 ) => (Data_Graph_strongConnect_min_splitComp_updateNode_updateLowLink_offStack_doEdge(k$$0, _$$1, _$$2, _$$3, _$$4, null, null, null, null, null, null, eta, eta1))), st$27, Data_Graph__out(null, _$$4))); }; +const Data_Graph_tarjan_mkVertex_checkVertex = ( _, _1, _2, _3, _4, _5, _$$6, _$$7 ) => { const sc$$8 = Data_SortedMap_lookupMap$27(null, null, _2, _$$7, Data_Graph__graph(null, _$$6)); switch (sc$$8.tag) { case "Just": { const sc$$11 = Prelude__$3E_(null, Prelude_Prelude_Ord$20Prim_Int, Data_Graph__index(null, sc$$8.h1), 0); switch (sc$$11.tag) { case "False": return Data_Graph_strongConnect(null, _1, _2, _$$6, sc$$8.h1); case "True": return _$$6; } break; } default: return _$$6; } }; +const Data_Graph_tarjan_mkVertex = ( _, _1, _2, _3, _4, _$$5 ) => (Prelude__$2C_(null, null, _$$5.h2, Data_Graph_MkTV(null, _$$5.h2, _$$5.h3, 0, 0, Prelude_False))); +const Data_SortedMap_EmptyMap = ( h0, h1 ) => ({ tag: "EmptyMap", h0: h0, h1: h1 }); +const Prelude_const = ( a$$0, b$$1, _$$2, _$$3 ) => (_$$2); +const Data_SortedMap_REC_foldMap = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Data.SortedMap.foldMap": { const _sc$$0 = arg.h5; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const sc$$13 = Data_SortedMap_lookupMap(null, null, arg.h2, _sc$$1.h2, arg.h4); switch (sc$$13.tag) { case "Nothing": return { tag: "Data.SortedMap.foldMap", h0: null, h1: null, h2: arg.h2, h3: arg.h3, h4: Data_SortedMap_updateMap(null, null, arg.h2, _sc$$1.h2, _sc$$1.h3, arg.h4), h5: _sc$$0.h2 }; case "Just": { const _sc$$2 = sc$$13.h1; return { tag: "Data.SortedMap.foldMap", h0: null, h1: null, h2: arg.h2, h3: arg.h3, h4: Data_SortedMap_updateMap(null, null, arg.h2, _sc$$1.h2, arg.h3(_sc$$2.h3)(_sc$$1.h3), arg.h4), h5: _sc$$0.h2 }; break; } } break; } case "Nil": return { tag: "return", h0: arg.h4 }; } break; } } }; +const Data_SortedMap_foldMap = ( a$$0, b$$1, _$$2, _$$3, _$$4, _$$5 ) => (bouncer(Data_SortedMap_REC_foldMap, { tag: "Data.SortedMap.foldMap", h0: a$$0, h1: b$$1, h2: _$$2, h3: _$$3, h4: _$$4, h5: _$$5 })); +const Data_Graph_tarjan = ( k$$0, _$$1, _$$2, _$$3 ) => { const g = Data_SortedMap_foldMap(null, null, _$$2, ( eta ) => (( eta1 ) => (Prelude_const(null, null, eta, eta1))), Data_SortedMap_EmptyMap(null, null), Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Data_Graph_tarjan_mkVertex(k$$0, _$$1, _$$2, _$$3, null, eta)))(_$$3)); return Data_Graph__result(null, Prelude_foldl(null, null, ( eta ) => (( eta1 ) => (Data_Graph_tarjan_mkVertex_checkVertex(k$$0, _$$1, _$$2, _$$3, null, null, eta, eta1))), Data_Graph_MkTState(null, 0, Prelude_Nil(null), Prelude_Nil(null), g), Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_fst(null, null, eta)))(_$$3))); }; +const Data_SortedMap_REC_toList_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Data.SortedMap.toList.go": { const _sc$$0 = arg.h9; switch (_sc$$0.tag) { case "Node3": return { tag: "Data.SortedMap.toList.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: null, h9: _sc$$0.h7, h10: Data_SortedMap_toList_go(arg.h0, arg.h1, arg.h2, arg.h3, arg.h4, arg.h5, arg.h6, arg.h7, null, _sc$$0.h5, Data_SortedMap_toList_go(arg.h0, arg.h1, arg.h2, arg.h3, arg.h4, arg.h5, arg.h6, arg.h7, null, _sc$$0.h3, arg.h10)) }; case "Node2": return { tag: "Data.SortedMap.toList.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: null, h9: _sc$$0.h5, h10: Data_SortedMap_toList_go(arg.h0, arg.h1, arg.h2, arg.h3, arg.h4, arg.h5, arg.h6, arg.h7, null, _sc$$0.h3, arg.h10) }; case "Leaf": return { tag: "return", h0: Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h2, _sc$$0.h3), arg.h10) }; } break; } } }; +const Data_SortedMap_toList_go = ( _, _1, _2, _3, _4, _5, _6, _7, h$$8, _$$9, _$$10 ) => (bouncer(Data_SortedMap_REC_toList_go, { tag: "Data.SortedMap.toList.go", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _5, h6: _6, h7: _7, h8: h$$8, h9: _$$9, h10: _$$10 })); +const Data_SortedMap_toList = ( k$$0, v$$1, _$$2 ) => { switch (_$$2.tag) { case "MapOf": return Prelude_reverse(null)(Data_SortedMap_toList_go(k$$0, v$$1, _$$2, _$$2.h0, _$$2.h1, _$$2.h2, _$$2.h3, null, null, _$$2.h3, Prelude_Nil(null))); default: return Prelude_Nil(null); } }; +const Lib_TCO_tailNames_altTailNames = ( _, _1, _2, _3, _$$4 ) => { switch (_$$4.tag) { case "CLitAlt": return Lib_TCO_tailNames(_$$4.h1); case "CDefAlt": return Lib_TCO_tailNames(_$$4.h0); case "CConAlt": return Lib_TCO_tailNames(_$$4.h2); } }; +const Prelude_Prelude_Monad$20Prelude_List$2Cpure = ( a$$0, _$$1 ) => (Prelude__$3A$3A_(null, _$$1, Prelude_Nil(null))); +const Prelude_Prelude_Monad$20Prelude_List$2Cbind = ( a$$0, b$$1, _$$2, _$$3 ) => { switch (_$$2.tag) { case "_::_": return Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_$$3(_$$2.h1))(Prelude_bind(null, Prelude_Prelude_Monad$20Prelude_List)(null)(null)(_$$2.h2)(_$$3)); case "Nil": return Prelude_Nil(null); } }; +const Prelude_Prelude_Monad$20Prelude_List = Prelude_MkMonad(null, ( a ) => (( b ) => (( eta ) => (( eta1 ) => (Prelude_Prelude_Monad$20Prelude_List$2Cbind(null, null, eta, eta1))))), ( a ) => (( eta ) => (Prelude_Prelude_Monad$20Prelude_List$2Cpure(null, eta)))); +const Prelude_id = ( a$$0, _$$1 ) => (_$$1); +const Prelude_join = ( m$$0, a$$1, _$$2, _$$3 ) => (Prelude__$3E$3E$3D_(null, null, null, _$$2, _$$3, ( eta ) => (Prelude_id(null, eta)))); +const Lib_TCO_REC_tailNames = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.TCO.tailNames": { const _sc$$0 = arg.h0; switch (_sc$$0.tag) { case "CRaw": return { tag: "return", h0: Prelude_Nil(null) }; case "CConstr": return { tag: "return", h0: Prelude_Nil(null) }; case "CErased": return { tag: "return", h0: Prelude_Nil(null) }; case "CLetRec": return { tag: "Lib.TCO.tailNames", h0: _sc$$0.h2 }; case "CLet": return { tag: "Lib.TCO.tailNames", h0: _sc$$0.h2 }; case "CLit": return { tag: "return", h0: Prelude_Nil(null) }; case "CMeta": return { tag: "return", h0: Prelude_Nil(null) }; case "CRef": return { tag: "return", h0: Prelude_Nil(null) }; case "CCase": return { tag: "return", h0: Prelude_join(null, null, Prelude_Prelude_Monad$20Prelude_List, Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Lib_TCO_tailNames_altTailNames(arg.h0, _sc$$0.h0, _sc$$0.h1, null, eta)))(_sc$$0.h1)) }; case "CApp": { const _sc$$1 = _sc$$0.h0; switch (_sc$$1.tag) { case "CRef": { const _sc$$2 = _sc$$0.h2; switch (_sc$$2) { case 0: return { tag: "return", h0: Prelude__$3A$3A_(null, _sc$$1.h0, Prelude_Nil(null)) }; default: return { tag: "return", h0: Prelude__$3A$3A_(null, _sc$$1.h0, Prelude_Nil(null)) }; } break; } default: return { tag: "return", h0: Prelude_Nil(null) }; } break; } case "CFun": return { tag: "Lib.TCO.tailNames", h0: _sc$$0.h1 }; case "CLam": return { tag: "return", h0: Prelude_Nil(null) }; case "CBnd": return { tag: "return", h0: Prelude_Nil(null) }; } break; } } }; +const Lib_TCO_tailNames = ( _$$0 ) => (bouncer(Lib_TCO_REC_tailNames, { tag: "Lib.TCO.tailNames", h0: _$$0 })); +const Prelude_Prelude_Bifunctor$20Prelude__$D7_$2Cbimap = ( a$$0, b$$1, c$$2, d$$3, _$$4, _$$5, _$$6 ) => (Prelude__$2C_(null, null, _$$4(_$$6.h2), _$$5(_$$6.h3))); +const Prelude_MkBifunctor = ( h0, h1 ) => ({ tag: "MkBifunctor", h0: h0, h1: h1 }); +const Prelude_Prelude_Bifunctor$20Prelude__$D7_ = Prelude_MkBifunctor(null, ( a ) => (( b ) => (( c ) => (( d ) => (( eta ) => (( eta1 ) => (( eta2 ) => (Prelude_Prelude_Bifunctor$20Prelude__$D7_$2Cbimap(null, null, null, null, eta, eta1, eta2))))))))); +const Prelude_bimap = ( f$$0, _$$1 ) => (( a ) => (( b ) => (( c ) => (( d ) => (_$$1.h1(null)(null)(null)(null)))))); +const Lib_TCO_tailCallOpt = ( _$$0 ) => { const graph = Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(Prelude_bimap(null, Prelude_Prelude_Bifunctor$20Prelude__$D7_)(null)(null)(null)(null)(( eta ) => (Prelude_id(null, eta)))(Lib_TCO_tailNames))(Data_SortedMap_toList(null, null, _$$0)); const groups = Data_Graph_tarjan(null, Lib_Common_Prelude_Eq$20Lib_Common_QName, Lib_Common_Prelude_Ord$20Lib_Common_QName, graph); return Prelude_foldlM(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, ( eta ) => (( eta1 ) => (Lib_TCO_tailCallOpt_doUpdate_processGroup(_$$0, null, null, eta, eta1))), _$$0, groups); }; +const Lib_Ref2_MkRef = ( h0, h1, h2 ) => ({ tag: "MkRef", h0: h0, h1: h1, h2: h2 }); +const Lib_CompileExp_CErased = { tag: "CErased" }; const Lib_CompileExp_compileDCon = ( _$$0, _$$1 ) => { switch (_$$1) { case 0: return Lib_CompileExp_CConstr(_$$0.h1, Prelude_Nil(null)); default: { const args = Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( k ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("h")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(k)))("")))(Lib_Common_range(0, _$$1)); return Lib_CompileExp_CFun(args, Lib_CompileExp_CConstr(_$$0.h1, Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( k ) => (Lib_CompileExp_CBnd(Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(_$$1)(k))(1))))(Lib_Common_range(0, _$$1)))); break; } } }; -const Lib_CompileExp_CRef = ( h0 ) => ({ tag: "CRef", h0: h0 }); -const Lib_CompileExp_CApp = ( h0, h1, h2 ) => ({ tag: "CApp", h0: h0, h1: h1, h2: h2 }); -const Lib_CompileExp_apply_go = ( _, _1, _2, _3, _4, _$$5, _$$6 ) => { switch (_$$5.tag) { case "CApp": { const _sc$$0 = _$$5.h1; switch (_sc$$0.tag) { case "Nil": { const _sc$$1 = _$$5.h2; switch (_sc$$1) { case 0: return Lib_CompileExp_apply_go(_, _1, _2, _3, _4, _$$5.h0, _$$6); default: switch (_$$6.tag) { case "_::_": return Lib_CompileExp_apply_go(_, _1, _2, _3, _4, Lib_CompileExp_CApp(_$$5, Prelude__$3A$3A_(null, _$$6.h1, Prelude_Nil(null)), 0), _$$6.h2); case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(_$$5); } break; } break; } default: switch (_$$6.tag) { case "_::_": return Lib_CompileExp_apply_go(_, _1, _2, _3, _4, Lib_CompileExp_CApp(_$$5, Prelude__$3A$3A_(null, _$$6.h1, Prelude_Nil(null)), 0), _$$6.h2); case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(_$$5); } break; } break; } default: switch (_$$6.tag) { case "_::_": return Lib_CompileExp_apply_go(_, _1, _2, _3, _4, Lib_CompileExp_CApp(_$$5, Prelude__$3A$3A_(null, _$$6.h1, Prelude_Nil(null)), 0), _$$6.h2); case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(_$$5); } break; } }; +const Lib_CompileExp_REC_apply_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.CompileExp.apply.go": { const _sc$$0 = arg.h5; switch (_sc$$0.tag) { case "CApp": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "Nil": { const _sc$$2 = _sc$$0.h2; switch (_sc$$2) { case 0: return { tag: "Lib.CompileExp.apply.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: _sc$$0.h0, h6: arg.h6 }; default: { const _sc$$3 = arg.h6; switch (_sc$$3.tag) { case "_::_": return { tag: "Lib.CompileExp.apply.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: Lib_CompileExp_CApp(arg.h5, Prelude__$3A$3A_(null, _sc$$3.h1, Prelude_Nil(null)), 0), h6: _sc$$3.h2 }; case "Nil": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(arg.h5) }; } break; } } break; } default: { const _sc$$2 = arg.h6; switch (_sc$$2.tag) { case "_::_": return { tag: "Lib.CompileExp.apply.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: Lib_CompileExp_CApp(arg.h5, Prelude__$3A$3A_(null, _sc$$2.h1, Prelude_Nil(null)), 0), h6: _sc$$2.h2 }; case "Nil": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(arg.h5) }; } break; } } break; } default: { const _sc$$1 = arg.h6; switch (_sc$$1.tag) { case "_::_": return { tag: "Lib.CompileExp.apply.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: Lib_CompileExp_CApp(arg.h5, Prelude__$3A$3A_(null, _sc$$1.h1, Prelude_Nil(null)), 0), h6: _sc$$1.h2 }; case "Nil": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(arg.h5) }; } break; } } break; } } }; +const Lib_CompileExp_apply_go = ( _, _1, _2, _3, _4, _$$5, _$$6 ) => (bouncer(Lib_CompileExp_REC_apply_go, { tag: "Lib.CompileExp.apply.go", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _$$5, h6: _$$6 })); const Prelude_Prelude_Cast$20Prelude_Nat$20Prim_Int$2Ccast = Prelude_natToInt; const Prelude_Prelude_Cast$20Prelude_Nat$20Prim_Int = Prelude_MkCast(null, null, Prelude_Prelude_Cast$20Prelude_Nat$20Prim_Int$2Ccast); -const Lib_CompileExp_apply = ( _$$0, _$$1, _$$2, _$$3 ) => { switch (_$$3.tag) { case "S": switch (_$$1.tag) { case "_::_": return Lib_CompileExp_apply(_$$0, _$$1.h2, Prelude__$3A$3C_(null, _$$2, _$$1.h1), _$$3.h0); case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CApp(_$$0, Prelude__$3C$3E$3E_(null, _$$2, Prelude_Nil(null)), Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(Prelude_cast(null, null, Prelude_Prelude_Cast$20Prelude_Nat$20Prim_Int)(_$$3.h0)))); } break; case "Z": return Lib_CompileExp_apply_go(_$$0, _$$1, _$$2, _$$3, null, Lib_CompileExp_CApp(_$$0, Prelude__$3C$3E$3E_(null, _$$2, Prelude_Nil(null)), 0), _$$1); } }; +const Lib_CompileExp_REC_apply = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.CompileExp.apply": { const _sc$$0 = arg.h3; switch (_sc$$0.tag) { case "S": { const _sc$$1 = arg.h1; switch (_sc$$1.tag) { case "_::_": return { tag: "Lib.CompileExp.apply", h0: arg.h0, h1: _sc$$1.h2, h2: Prelude__$3A$3C_(null, arg.h2, _sc$$1.h1), h3: _sc$$0.h0 }; case "Nil": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CApp(arg.h0, Prelude__$3C$3E$3E_(null, arg.h2, Prelude_Nil(null)), Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(Prelude_cast(null, null, Prelude_Prelude_Cast$20Prelude_Nat$20Prim_Int)(_sc$$0.h0)))) }; } break; } case "Z": return { tag: "return", h0: Lib_CompileExp_apply_go(arg.h0, arg.h1, arg.h2, arg.h3, null, Lib_CompileExp_CApp(arg.h0, Prelude__$3C$3E$3E_(null, arg.h2, Prelude_Nil(null)), 0), arg.h1) }; } break; } } }; +const Lib_CompileExp_apply = ( _$$0, _$$1, _$$2, _$$3 ) => (bouncer(Lib_CompileExp_REC_apply, { tag: "Lib.CompileExp.apply", h0: _$$0, h1: _$$1, h2: _$$2, h3: _$$3 })); const Lib_CompileExp_lamArity = ( _$$0 ) => { switch (_$$0.tag) { case "Lam": return Prelude_S(Lib_CompileExp_lamArity(_$$0.h4)); default: return Prelude_Z; } }; -const Prelude_snd = ( a$$0, b$$1, _$$2 ) => (_$$2.h3); -const Data_SortedMap_lookupMap$27 = ( k$$0, v$$1, _$$2, _$$3, _$$4 ) => { switch (_$$4.tag) { case "MapOf": return Prelude__$3C$$$3E_(null, Prelude_Prelude_Functor$20Prelude_Maybe, null, null, ( eta ) => (Prelude_snd(null, null, eta)), Data_SortedMap_lookupT23(null, null, null, _$$2, _$$3, _$$4.h3)); case "EmptyMap": return Prelude_Nothing(null); } }; const Lib_Ref2_Defs = { tag: "Defs" }; const Data_IORef_primReadIORef = (_, ref) => (w) => Prelude_MkIORes(null, ref[0], w); const Data_IORef_readIORef = ( io$$0, a$$1, _$$2, _$$3 ) => (Prelude_liftIO(null, _$$2)(null)(Data_IORef_primReadIORef(null, _$$3))); @@ -331,11 +430,6 @@ const Lib_CompileExp_arityForName = ( _$$0, _$$1, _$$2 ) => (Prelude__$3E$3E$3D_ const Lib_CompileExp_CLam = ( h0, h1 ) => ({ tag: "CLam", h0: h0, h1: h1 }); const Lib_Types_Prelude_Functor$20Lib_Types_M$2Cmap = ( a$$0, b$$1, _$$2, _$$3 ) => (Lib_Types_MkM(null, ( tc ) => (Prelude__$3E$3E$3D_(null, null, null, Prelude_Prelude_Monad$20Prelude_IO, _$$3.h1(tc), ( $$sc ) => { switch ($$sc.tag) { case "Right": { const _sc$$0 = $$sc.h2; return Prelude_pure(null, Prelude_Prelude_Monad$20Prelude_IO)(null)(Prelude_Right(null, null, Prelude__$2C_(null, null, _sc$$0.h2, _$$2(_sc$$0.h3)))); break; } case "Left": return Prelude_pure(null, Prelude_Prelude_Monad$20Prelude_IO)(null)(Prelude_Left(null, null, $$sc.h2)); } })))); const Lib_Types_Prelude_Functor$20Lib_Types_M = Prelude_MkFunctor(null, ( a ) => (( b ) => (( eta ) => (( eta1 ) => (Lib_Types_Prelude_Functor$20Lib_Types_M$2Cmap(null, null, eta, eta1)))))); -const Prelude_traverse = ( t$$0, _$$1 ) => (( f ) => (( a ) => (( b ) => (( _ ) => (_$$1.h1(null)(null)(null)(_)))))); -const Prelude__$3C$2A$3E_ = ( f$$0, _$$1 ) => (( a ) => (( b ) => (_$$1.h2(null)(null)))); -const Prelude_Prelude_Traversable$20Prelude_List$2Ctraverse = ( f$$0, a$$1, b$$2, _$$3, _$$4, _$$5 ) => { switch (_$$5.tag) { case "_::_": return Prelude__$3C$2A$3E_(null, _$$3)(null)(null)(Prelude__$3C$2A$3E_(null, _$$3)(null)(null)(Prelude_return(null, _$$3)(null)(( eta ) => (( eta1 ) => (Prelude__$3A$3A_(null, eta, eta1)))))(_$$4(_$$5.h1)))(Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(_$$3)(_$$4)(_$$5.h2)); case "Nil": return Prelude_return(null, _$$3)(null)(Prelude_Nil(null)); } }; -const Prelude_MkTraversable = ( h0, h1 ) => ({ tag: "MkTraversable", h0: h0, h1: h1 }); -const Prelude_Prelude_Traversable$20Prelude_List = Prelude_MkTraversable(null, ( f ) => (( a ) => (( b ) => (( _ ) => (( eta ) => (( eta1 ) => (Prelude_Prelude_Traversable$20Prelude_List$2Ctraverse(null, null, null, _, eta, eta1)))))))); const Lib_Types_Prelude_Show$20Lib_Types_Quant$2Cshow = ( _$$0 ) => { switch (_$$0.tag) { case "Many": return ""; case "Zero": return "0 "; } }; const Lib_Types_Prelude_Show$20Lib_Types_Quant = Prelude_MkShow(null, Lib_Types_Prelude_Show$20Lib_Types_Quant$2Cshow); const Lib_Types_parens = ( _$$0, _$$1, _$$2 ) => { const sc$$3 = Prelude__$3C_(null, Prelude_Prelude_Ord$20Prim_Int, _$$0, _$$1); switch (sc$$3.tag) { case "False": return _$$2; case "True": return Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(Lib_Prettier_text("("))(Prelude__$2B$2B_(null, Lib_Prettier_Prelude_Concat$20Lib_Prettier_Doc)(_$$2)(Lib_Prettier_text(")"))); } }; @@ -362,29 +456,18 @@ const Lib_Types_Prelude_Show$20Lib_Types_Tm$2Cshow = ( _$$0 ) => { switch (_$$0. const Lib_Types_Prelude_Show$20Lib_Types_Tm = Prelude_MkShow(null, Lib_Types_Prelude_Show$20Lib_Types_Tm$2Cshow); const Lib_Types_Lib_Common_HasFC$20Lib_Types_Tm$2CgetFC = ( _$$0 ) => { switch (_$$0.tag) { case "Erased": return _$$0.h0; case "Lit": return _$$0.h0; case "LetRec": return _$$0.h0; case "Let": return _$$0.h0; case "Case": return _$$0.h0; case "Pi": return _$$0.h0; case "UU": return _$$0.h0; case "App": return _$$0.h0; case "Lam": return _$$0.h0; case "Meta": return _$$0.h0; case "Ref": return _$$0.h0; case "Bnd": return _$$0.h0; } }; const Lib_Types_Lib_Common_HasFC$20Lib_Types_Tm = Lib_Common_MkHasFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Tm$2CgetFC); -const Lib_Util_funArgs_go = ( _, _1, _$$2, _$$3 ) => { switch (_$$2.tag) { case "App": return Lib_Util_funArgs_go(_, _1, _$$2.h1, Prelude__$3A$3A_(null, _$$2.h2, _$$3)); default: return Prelude__$2C_(null, null, _$$2, _$$3); } }; +const Lib_Util_REC_funArgs_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Util.funArgs.go": { const _sc$$0 = arg.h2; switch (_sc$$0.tag) { case "App": return { tag: "Lib.Util.funArgs.go", h0: arg.h0, h1: arg.h1, h2: _sc$$0.h1, h3: Prelude__$3A$3A_(null, _sc$$0.h2, arg.h3) }; default: return { tag: "return", h0: Prelude__$2C_(null, null, arg.h2, arg.h3) }; } break; } } }; +const Lib_Util_funArgs_go = ( _, _1, _$$2, _$$3 ) => (bouncer(Lib_Util_REC_funArgs_go, { tag: "Lib.Util.funArgs.go", h0: _, h1: _1, h2: _$$2, h3: _$$3 })); const Lib_Util_funArgs = ( _$$0 ) => (Lib_Util_funArgs_go(_$$0, null, _$$0, Prelude_Nil(null))); -const Lib_CompileExp_CCase = ( h0, h1 ) => ({ tag: "CCase", h0: h0, h1: h1 }); -const Lib_CompileExp_CDefAlt = ( h0 ) => ({ tag: "CDefAlt", h0: h0 }); -const Lib_CompileExp_CConAlt = ( h0, h1, h2 ) => ({ tag: "CConAlt", h0: h0, h1: h1, h2: h2 }); -const Lib_CompileExp_CLitAlt = ( h0, h1 ) => ({ tag: "CLitAlt", h0: h0, h1: h1 }); const Prelude_for = ( t$$0, f$$1, _$$2, appf$$3, a$$4, b$$5, _$$6, _$$7 ) => (Prelude_traverse(null, _$$2)(null)(null)(null)(appf$$3)(_$$7)(_$$6)); -const Lib_CompileExp_CLet = ( h0, h1, h2 ) => ({ tag: "CLet", h0: h0, h1: h1, h2: h2 }); -const Lib_CompileExp_CLetRec = ( h0, h1, h2 ) => ({ tag: "CLetRec", h0: h0, h1: h1, h2: h2 }); const Lib_CompileExp_CLit = ( h0 ) => ({ tag: "CLit", h0: h0 }); -const Lib_CompileExp_compileTerm = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "Erased": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CErased); case "Lit": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CLit(_$$1.h1)); case "LetRec": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_compileTerm(_$$0, _$$1.h3), ( t$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_compileTerm(_$$0, _$$1.h4), ( u$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CLetRec(_$$1.h1, t$27, u$27)))))); case "Let": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_compileTerm(_$$0, _$$1.h2), ( t$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_compileTerm(_$$0, _$$1.h3), ( u$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CLet(_$$1.h1, t$27, u$27)))))); case "Case": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_compileTerm(_$$0, _$$1.h1), ( t$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, _$$1.h2, ( $$case ) => { switch ($$case.tag) { case "CaseLit": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_CompileExp_CLitAlt($$case.h0, eta)), Lib_CompileExp_compileTerm(_$$0, $$case.h1)); case "CaseCons": { const _sc$$0 = $$case.h0; return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_CompileExp_CConAlt(_sc$$0.h1, $$case.h1, eta)), Lib_CompileExp_compileTerm(_$$0, $$case.h2)); break; } case "CaseDefault": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, Lib_CompileExp_CDefAlt, Lib_CompileExp_compileTerm(_$$0, $$case.h0)); } }), ( alts$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CCase(t$27, alts$27)))))); case "Pi": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_compileTerm(_$$0, _$$1.h4), ( t$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_compileTerm(_$$0, _$$1.h5), ( u$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CApp(Lib_CompileExp_CRef("PiType"), Prelude__$3A$3A_(null, t$27, Prelude__$3A$3A_(null, Lib_CompileExp_CLam(_$$1.h1, u$27), Prelude_Nil(null))), 0)))))); case "UU": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CRef("U")); case "App": { const sc$$5 = Lib_Util_funArgs(_$$1); const _sc$$0 = sc$$5.h2; switch (_sc$$0.tag) { case "Meta": return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Tm)(_$$1), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Compiling an unsolved meta ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Tm)(_$$1)))("")); case "Ref": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_CompileExp_compileTerm(_$$0, eta)))(sc$$5.h3), ( args$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_arityForName(_$$0, _sc$$0.h0, _sc$$0.h1), ( arity ) => (Lib_CompileExp_apply(Lib_CompileExp_CRef(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$0.h1)), args$27, Prelude_Lin(null), arity))))); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("apply other ")(Lib_Prettier_render(90, Lib_Types_pprint(Prelude_Nil(null), sc$$5.h2))))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_compileTerm(_$$0, sc$$5.h2), ( t$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_CompileExp_compileTerm(_$$0, eta)))(sc$$5.h3), ( args$27 ) => (Lib_CompileExp_apply(t$27, args$27, Prelude_Lin(null), Prelude_Z))))))); } break; } case "Lam": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_CompileExp_CLam(_$$1.h1, eta)), Lib_CompileExp_compileTerm(_$$0, _$$1.h4)); case "Meta": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CRef(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("meta$")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$1.h1)))(""))); case "Ref": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_arityForName(_$$0, _$$1.h0, _$$1.h1), ( arity ) => { switch (arity.tag) { case "S": { const _sc$$0 = arity.h0; switch (_sc$$0.tag) { case "Z": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CRef(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$1.h1))); default: return Lib_CompileExp_apply(Lib_CompileExp_CRef(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$1.h1)), Prelude_Nil(null), Prelude_Lin(null), arity); } break; } default: return Lib_CompileExp_apply(Lib_CompileExp_CRef(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$1.h1)), Prelude_Nil(null), Prelude_Lin(null), arity); } }); case "Bnd": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CBnd(_$$1.h1)); } }; -const Lib_CompileExp_compileFun_go = ( _, _1, _2, _$$3, _$$4 ) => { switch (_$$3.tag) { case "Lam": return Lib_CompileExp_compileFun_go(_, _1, _2, _$$3.h4, Prelude__$3A$3C_(null, _$$4, _$$3.h1)); default: switch (_$$4.tag) { case "Lin": return Lib_CompileExp_compileTerm(_, _$$3); default: return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_CompileExp_CFun(Prelude__$3C$3E$3E_(null, _$$4, Prelude_Nil(null)), eta)), Lib_CompileExp_compileTerm(_, _$$3)); } break; } }; +const Lib_CompileExp_compileTerm = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "Erased": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CErased); case "Lit": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CLit(_$$1.h1)); case "LetRec": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_compileTerm(_$$0, _$$1.h3), ( t$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_compileTerm(_$$0, _$$1.h4), ( u$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CLetRec(_$$1.h1, t$27, u$27)))))); case "Let": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_compileTerm(_$$0, _$$1.h2), ( t$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_compileTerm(_$$0, _$$1.h3), ( u$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CLet(_$$1.h1, t$27, u$27)))))); case "Case": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_compileTerm(_$$0, _$$1.h1), ( t$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, _$$1.h2, ( $$case ) => { switch ($$case.tag) { case "CaseLit": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_CompileExp_CLitAlt($$case.h0, eta)), Lib_CompileExp_compileTerm(_$$0, $$case.h1)); case "CaseCons": { const _sc$$0 = $$case.h0; return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_CompileExp_CConAlt(_sc$$0.h1, $$case.h1, eta)), Lib_CompileExp_compileTerm(_$$0, $$case.h2)); break; } case "CaseDefault": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, Lib_CompileExp_CDefAlt, Lib_CompileExp_compileTerm(_$$0, $$case.h0)); } }), ( alts$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CCase(t$27, alts$27)))))); case "Pi": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_compileTerm(_$$0, _$$1.h4), ( t$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_compileTerm(_$$0, _$$1.h5), ( u$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CApp(Lib_CompileExp_CRef(Lib_Common_QN(Prelude_Nil(null), "PiType")), Prelude__$3A$3A_(null, t$27, Prelude__$3A$3A_(null, Lib_CompileExp_CLam(_$$1.h1, u$27), Prelude_Nil(null))), 0)))))); case "UU": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CRef(Lib_Common_QN(Prelude_Nil(null), "U"))); case "App": { const sc$$5 = Lib_Util_funArgs(_$$1); const _sc$$0 = sc$$5.h2; switch (_sc$$0.tag) { case "Meta": return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Tm)(_$$1), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Compiling an unsolved meta ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Tm)(_$$1)))("")); case "Ref": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_CompileExp_compileTerm(_$$0, eta)))(sc$$5.h3), ( args$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_arityForName(_$$0, _sc$$0.h0, _sc$$0.h1), ( arity ) => (Lib_CompileExp_apply(Lib_CompileExp_CRef(_sc$$0.h1), args$27, Prelude_Lin(null), arity))))); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("apply other ")(Lib_Prettier_render(90, Lib_Types_pprint(Prelude_Nil(null), sc$$5.h2))))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_compileTerm(_$$0, sc$$5.h2), ( t$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_CompileExp_compileTerm(_$$0, eta)))(sc$$5.h3), ( args$27 ) => (Lib_CompileExp_apply(t$27, args$27, Prelude_Lin(null), Prelude_Z))))))); } break; } case "Lam": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_CompileExp_CLam(_$$1.h1, eta)), Lib_CompileExp_compileTerm(_$$0, _$$1.h4)); case "Meta": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CRef(Lib_Common_QN(Prelude_Nil(null), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("meta$")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$1.h1)))("")))); case "Ref": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_CompileExp_arityForName(_$$0, _$$1.h0, _$$1.h1), ( arity ) => { switch (arity.tag) { case "S": { const _sc$$0 = arity.h0; switch (_sc$$0.tag) { case "Z": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CRef(_$$1.h1)); default: return Lib_CompileExp_apply(Lib_CompileExp_CRef(_$$1.h1), Prelude_Nil(null), Prelude_Lin(null), arity); } break; } default: return Lib_CompileExp_apply(Lib_CompileExp_CRef(_$$1.h1), Prelude_Nil(null), Prelude_Lin(null), arity); } }); case "Bnd": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_CompileExp_CBnd(_$$1.h1)); } }; +const Lib_CompileExp_REC_compileFun_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.CompileExp.compileFun.go": { const _sc$$0 = arg.h3; switch (_sc$$0.tag) { case "Lam": return { tag: "Lib.CompileExp.compileFun.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: _sc$$0.h4, h4: Prelude__$3A$3C_(null, arg.h4, _sc$$0.h1) }; default: { const _sc$$1 = arg.h4; switch (_sc$$1.tag) { case "Lin": return { tag: "return", h0: Lib_CompileExp_compileTerm(arg.h0, arg.h3) }; default: return { tag: "return", h0: Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_CompileExp_CFun(Prelude__$3C$3E$3E_(null, arg.h4, Prelude_Nil(null)), eta)), Lib_CompileExp_compileTerm(arg.h0, arg.h3)) }; } break; } } break; } } }; +const Lib_CompileExp_compileFun_go = ( _, _1, _2, _$$3, _$$4 ) => (bouncer(Lib_CompileExp_REC_compileFun_go, { tag: "Lib.CompileExp.compileFun.go", h0: _, h1: _1, h2: _2, h3: _$$3, h4: _$$4 })); const Lib_CompileExp_compileFun = ( _$$0, _$$1 ) => (Lib_CompileExp_compileFun_go(_$$0, _$$1, null, _$$1, Prelude_Lin(null))); -const Lib_CompileExp_CRaw = ( h0 ) => ({ tag: "CRaw", h0: h0 }); -const Lib_CompileExp_defToCExp = ( _$$0, _$$1 ) => { const _sc$$0 = _$$1.h3; switch (_sc$$0.tag) { case "PrimFn": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _$$1.h2, Lib_CompileExp_CRaw(_sc$$0.h0))); case "PrimTCon": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _$$1.h2, Lib_CompileExp_compileDCon(_$$1.h2, _sc$$0.h0))); case "Fn": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Prelude__$2C_(null, null, _$$1.h2, eta)), Lib_CompileExp_compileFun(_$$0, _sc$$0.h0)); case "DCon": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _$$1.h2, Lib_CompileExp_compileDCon(_$$1.h2, _sc$$0.h0))); case "TCon": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _$$1.h2, Lib_CompileExp_compileDCon(_$$1.h2, _sc$$0.h0))); case "Axiom": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _$$1.h2, Lib_CompileExp_CErased)); } }; +const Lib_CompileExp_CRaw = ( h0, h1 ) => ({ tag: "CRaw", h0: h0, h1: h1 }); +const Lib_CompileExp_defToCExp = ( _$$0, _$$1 ) => { const _sc$$0 = _$$1.h3; switch (_sc$$0.tag) { case "PrimFn": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _$$1.h2, Lib_CompileExp_CRaw(_sc$$0.h0, _sc$$0.h2))); case "PrimTCon": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _$$1.h2, Lib_CompileExp_compileDCon(_$$1.h2, _sc$$0.h0))); case "Fn": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Prelude__$2C_(null, null, _$$1.h2, eta)), Lib_CompileExp_compileFun(_$$0, _sc$$0.h0)); case "DCon": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _$$1.h2, Lib_CompileExp_compileDCon(_$$1.h2, _sc$$0.h0))); case "TCon": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _$$1.h2, Lib_CompileExp_compileDCon(_$$1.h2, _sc$$0.h0))); case "Axiom": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _$$1.h2, Lib_CompileExp_CErased)); } }; const Prelude_mapM = ( m$$0, _$$1, a$$2, b$$3, _$$4, _$$5 ) => { switch (_$$5.tag) { case "_::_": return Prelude__$3E$3E$3D_(null, null, null, _$$1, _$$4(_$$5.h1), ( b ) => (Prelude__$3E$3E$3D_(null, null, null, _$$1, Prelude_mapM(null, _$$1, null, null, _$$4, _$$5.h2), ( bs ) => (Prelude_pure(null, _$$1)(null)(Prelude__$3A$3A_(null, b, bs)))))); case "Nil": return Prelude_pure(null, _$$1)(null)(Prelude_Nil(null)); } }; -const Lib_Compile_getNames_getAltNames = ( _, _1, _2, _3, _4, _5, _$$6, _$$7 ) => { switch (_$$7.tag) { case "CaseLit": return Lib_Compile_getNames(_$$7.h1, _$$6); case "CaseCons": return Lib_Compile_getNames(_$$7.h2, _$$6); case "CaseDefault": return Lib_Compile_getNames(_$$7.h0, _$$6); } }; -const Prelude_foldl = ( A$$0, B$$1, _$$2, _$$3, _$$4 ) => { switch (_$$4.tag) { case "_::_": return Prelude_foldl(null, null, _$$2, _$$2(_$$3)(_$$4.h1), _$$4.h2); case "Nil": return _$$3; } }; -const Lib_Compile_getNames = ( _$$0, _$$1 ) => { switch (_$$0.tag) { case "LetRec": return Lib_Compile_getNames(_$$0.h4, Lib_Compile_getNames(_$$0.h3, _$$1)); case "Let": return Lib_Compile_getNames(_$$0.h3, Lib_Compile_getNames(_$$0.h2, _$$1)); case "Case": return Prelude_foldl(null, null, ( eta ) => (( eta1 ) => (Lib_Compile_getNames_getAltNames(_$$0, _$$1, _$$0.h0, _$$0.h1, _$$0.h2, null, eta, eta1))), _$$1, _$$0.h2); case "Pi": return Lib_Compile_getNames(_$$0.h5, Lib_Compile_getNames(_$$0.h4, _$$1)); case "App": return Lib_Compile_getNames(_$$0.h2, Lib_Compile_getNames(_$$0.h1, _$$1)); case "Lam": return Lib_Compile_getNames(_$$0.h4, _$$1); case "Ref": return Prelude__$3A$3A_(null, _$$0.h1, _$$1); default: return _$$1; } }; -const Lib_Common_Prelude_Eq$20Lib_Common_QName$2C_$3D$3D_ = ( _$$0, _$$1 ) => (Prelude__$26$26_(Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_$$0.h1)(_$$1.h1), Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Eq$20Prim_String))(_$$0.h0)(_$$1.h0))); -const Lib_Common_Prelude_Eq$20Lib_Common_QName = Prelude_MkEq(null, ( eta ) => (( eta1 ) => (Lib_Common_Prelude_Eq$20Lib_Common_QName$2C_$3D$3D_(eta, eta1)))); -const Lib_Compile_sortedNames_go = ( _, _1, _2, _$$3, _$$4, _$$5 ) => { const sc$$6 = Prelude__$7C$7C_(Prelude_elem(null, Lib_Common_Prelude_Eq$20Lib_Common_QName, _$$5, _$$3), Prelude_elem(null, Lib_Common_Prelude_Eq$20Lib_Common_QName, _$$5, _$$4)); switch (sc$$6.tag) { case "False": { const sc$$7 = Data_SortedMap_lookupMap$27(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, _$$5, _); switch (sc$$7.tag) { case "Nothing": return _$$4; case "Just": { const _sc$$0 = sc$$7.h1; switch (_sc$$0.tag) { case "PrimFn": return Prelude__$3A$3A_(null, _$$5, Prelude_foldl(null, null, ( eta ) => (( eta1 ) => (Lib_Compile_sortedNames_go(_, _1, _2, Prelude__$3A$3A_(null, _$$5, _$$3), eta, eta1))), _$$4, _sc$$0.h2)); case "Fn": return Prelude__$3A$3A_(null, _$$5, Prelude_foldl(null, null, ( eta ) => (( eta1 ) => (Lib_Compile_sortedNames_go(_, _1, _2, Prelude__$3A$3A_(null, _$$5, _$$3), eta, eta1))), _$$4, Lib_Compile_getNames(_sc$$0.h0, Prelude_Nil(null)))); default: return Prelude__$3A$3A_(null, _$$5, _$$4); } break; } } break; } case "True": return _$$4; } }; -const Lib_Compile_sortedNames = ( _$$0, _$$1 ) => (Lib_Compile_sortedNames_go(_$$0, _$$1, null, Prelude_Nil(null), Prelude_Nil(null), _$$1)); const Lib_Types_Fn = ( h0 ) => ({ tag: "Fn", h0: h0 }); const Data_IORef_primWriteIORef = (_, ref, a) => (w) => { ref[0] = a @@ -394,8 +477,6 @@ const Data_IORef_writeIORef = ( io$$0, a$$1, _$$2, _$$3, _$$4 ) => (Prelude_lift const Data_IORef_modifyIORef = ( io$$0, a$$1, _$$2, _$$3, _$$4, _$$5 ) => (Prelude_bind(null, _$$2)(null)(null)(Data_IORef_readIORef(null, null, _$$3, _$$4))(( a ) => (Data_IORef_writeIORef(null, null, _$$3, _$$4, _$$5(a))))); const Lib_Ref2_modifyRef = ( io$$0, a$$1, _$$2, l$$3, _$$4, _$$5 ) => (Prelude_liftIO(null, _$$2)(null)(Data_IORef_modifyIORef(null, null, Prelude_Prelude_Monad$20Prelude_IO, Prelude_Prelude_HasIO$20Prelude_IO, _$$4.h2, _$$5))); const Lib_Types_Ref = ( h0, h1 ) => ({ tag: "Ref", h0: h0, h1: h1 }); -const Prelude_length$27_go = ( _, _1, _2, a$$3, _$$4, _$$5 ) => { switch (_$$4.tag) { case "_::_": return Prelude_length$27_go(_, _1, _2, null, _$$4.h2, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$5)(1)); case "Nil": return _$$5; } }; -const Prelude_length$27 = ( a$$0, _$$1 ) => (Prelude_length$27_go(a$$0, _$$1, null, null, _$$1, 0)); const Lib_Types_Bnd = ( h0, h1 ) => ({ tag: "Bnd", h0: h0, h1: h1 }); const Lib_Types_App = ( h0, h1, h2 ) => ({ tag: "App", h0: h0, h1: h1, h2: h2 }); const Lib_LiftWhere_liftWhereTm_apply = ( _, _1, _2, _3, _4, _5, _6, _$$7, _$$8, _$$9 ) => { switch (_$$8) { case 0: return _$$9; default: return Lib_Types_App(_4, Lib_LiftWhere_liftWhereTm_apply(_, _1, _2, _3, _4, _5, _6, _$$7, Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(_$$8)(1), _$$9), Lib_Types_Bnd(_4, Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(_$$7)(_$$8))); } }; @@ -412,37 +493,41 @@ const Lib_Types_LetRec = ( h0, h1, h2, h3, h4 ) => ({ tag: "LetRec", h0: h0, h const Lib_Types_Many = { tag: "Many" }; const Lib_Types_Explicit = { tag: "Explicit" }; const Lib_LiftWhere_liftWhereTm_getName_wrapPi_wrapLam = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _$$12, _$$13 ) => { switch (_$$12.tag) { case "S": return Lib_Types_Lam(_4, "_", Lib_Types_Explicit, Lib_Types_Many, Lib_LiftWhere_liftWhereTm_getName_wrapPi_wrapLam(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _$$12.h0, _$$13)); case "Z": return _$$13; } }; -const Lib_Common_QN = ( h0, h1 ) => ({ tag: "QN", h0: h0, h1: h1 }); const Lib_LiftWhere_liftWhereTm_getName = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _$$10, _$$11 ) => { const qn$27 = Lib_Common_QN(_$$10.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(_$$10.h1)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(".")(_$$11))); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Ref2_getRef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Ref2_Defs, _), ( top ) => { const sc$$16 = Data_SortedMap_lookupMap(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, qn$27, top); switch (sc$$16.tag) { case "Just": return Lib_LiftWhere_liftWhereTm_getName(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _$$10, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(_$$11)("'")); default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(qn$27); } }); }; const Prelude_length = ( a$$0, _$$1 ) => { switch (_$$1.tag) { case "_::_": return Prelude_S(Prelude_length(null, _$$1.h2)); case "Nil": return Prelude_Z; } }; const Lib_LiftWhere_liftWhereTm = ( _$$0, _$$1, _$$2, _$$3 ) => { switch (_$$3.tag) { case "LetRec": { const l = Prelude_length(null, _$$2); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_LiftWhere_liftWhereTm_getName(_$$0, _$$1, _$$2, _$$3, _$$3.h0, _$$3.h1, _$$3.h2, _$$3.h3, _$$3.h4, null, _$$1, _$$3.h1), ( qn ) => { const env$27 = Prelude__$3A$3A_(null, Prelude_Just(null, Prelude__$2C_(null, null, qn, Prelude_S(l))), _$$2); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_LiftWhere_liftWhereTm(_$$0, qn, env$27, _$$3.h3), ( t$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Ref2_modifyRef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Ref2_Defs, _$$0, ( eta ) => (Data_SortedMap_updateMap(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, qn, Lib_Types_Fn(Lib_LiftWhere_liftWhereTm_getName_wrapPi_wrapLam(_$$0, _$$1, _$$2, _$$3, _$$3.h0, _$$3.h1, _$$3.h2, _$$3.h3, _$$3.h4, null, null, null, Prelude_S(l), t$27)), eta))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_LiftWhere_liftWhereTm(_$$0, qn, env$27, _$$3.h4), ( u$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_LetRec(_$$3.h0, _$$3.h1, Lib_Types_Erased(_$$3.h0), Lib_Types_Erased(_$$3.h0), u$27)))))))); }); break; } case "Let": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_LiftWhere_liftWhereTm(_$$0, _$$1, _$$2, _$$3.h2), ( v ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_LiftWhere_liftWhereTm(_$$0, _$$1, Prelude__$3A$3A_(null, Prelude_Nothing(null), _$$2), _$$3.h3), ( sc ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Let(_$$3.h0, _$$3.h1, v, sc)))))); case "Case": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_LiftWhere_liftWhereTm(_$$0, _$$1, _$$2, _$$3.h1), ( t ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_LiftWhere_liftWhereTm_liftWhereAlt(_$$0, _$$1, _$$2, _$$3, _$$3.h0, _$$3.h1, _$$3.h2, null, eta)))(_$$3.h2), ( alts$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Case(_$$3.h0, t, alts$27)))))); case "Pi": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_LiftWhere_liftWhereTm(_$$0, _$$1, _$$2, _$$3.h4), ( t ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_LiftWhere_liftWhereTm(_$$0, _$$1, Prelude__$3A$3A_(null, Prelude_Nothing(null), _$$2), _$$3.h5), ( u ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Pi(_$$3.h0, _$$3.h1, _$$3.h2, _$$3.h3, t, u)))))); case "App": return Prelude__$3C$2A$3E_(null, Lib_Types_Prelude_Applicative$20Lib_Types_M)(null)(null)(Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (( eta1 ) => (Lib_Types_App(_$$3.h0, eta, eta1))), Lib_LiftWhere_liftWhereTm(_$$0, _$$1, _$$2, _$$3.h1)))(Lib_LiftWhere_liftWhereTm(_$$0, _$$1, _$$2, _$$3.h2)); case "Lam": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_Types_Lam(_$$3.h0, _$$3.h1, _$$3.h2, _$$3.h3, eta)), Lib_LiftWhere_liftWhereTm(_$$0, _$$1, Prelude__$3A$3A_(null, Prelude_Nothing(null), _$$2), _$$3.h4)); case "Bnd": { const sc$$7 = Prelude_getAt(null, Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(_$$3.h1), _$$2); switch (sc$$7.tag) { case "Just": { const _sc$$0 = sc$$7.h1; switch (_sc$$0.tag) { case "Just": { const _sc$$1 = _sc$$0.h1; return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_LiftWhere_liftWhereTm_apply(_$$0, _$$1, _$$2, _$$3, _$$3.h0, _$$3.h1, null, Prelude_length$27(null, _$$2), Prelude_cast(null, null, Prelude_Prelude_Cast$20Prelude_Nat$20Prim_Int)(_sc$$1.h3), Lib_Types_Ref(_$$3.h0, _sc$$1.h2))); break; } default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(_$$3); } break; } default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(_$$3); } break; } default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(_$$3); } }; const Lib_LiftWhere_liftWhereFn = ( _$$0, _$$1 ) => { const _sc$$0 = _$$1.h3; switch (_sc$$0.tag) { case "Fn": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_LiftWhere_liftWhereTm(_$$0, _$$1.h2, Prelude_Nil(null), _sc$$0.h0), ( tm$27 ) => (Lib_Ref2_modifyRef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Ref2_Defs, _$$0, ( eta ) => (Data_SortedMap_updateMap(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, _$$1.h2, Lib_Types_Fn(tm$27), eta))))); default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_MkUnit); } }; const Prelude_ignore = ( f, a, _ ) => (Prelude_map(null, _)(null)(null)(( eta ) => (Prelude_const(null, null, Prelude_MkUnit, eta)))); const Lib_LiftWhere_liftWhere = ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Ref2_getRef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Ref2_Defs, _), ( defs ) => (Prelude_ignore(null, null, Lib_Types_Prelude_Functor$20Lib_Types_M)(Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_LiftWhere_liftWhereFn(_, eta)))(Data_SortedMap_toList(null, null, defs)))))); -const Lib_Erasure_eraseSpine = ( _$$0, _$$1, _$$2, ty$$3 ) => { switch (_$$2.tag) { case "_::_": { const _sc$$0 = _$$2.h1; switch (ty$$3.tag) { case "Just": { const _sc$$1 = ty$$3.h1; switch (_sc$$1.tag) { case "Pi": { const _sc$$2 = _sc$$1.h3; switch (_sc$$2.tag) { case "Many": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(_$$0, _sc$$0.h3, Prelude_Nil(null)), ( u ) => (Lib_Erasure_eraseSpine(_$$0, Lib_Types_App(_sc$$0.h2, _$$1, u), _$$2.h2, Prelude_Just(null, _sc$$1.h5)))); case "Zero": { const u = Lib_Types_Erased(Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Tm)(_sc$$0.h3)); return Lib_Erasure_eraseSpine(_$$0, Lib_Types_App(_sc$$0.h2, _$$1, u), _$$2.h2, Prelude_Just(null, _sc$$1.h5)); break; } } break; } default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(_$$0, _sc$$0.h3, Prelude_Nil(null)), ( u ) => (Lib_Erasure_eraseSpine(_$$0, Lib_Types_App(_sc$$0.h2, _$$1, u), _$$2.h2, Prelude_Nothing(null)))); } break; } default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(_$$0, _sc$$0.h3, Prelude_Nil(null)), ( u ) => (Lib_Erasure_eraseSpine(_$$0, Lib_Types_App(_sc$$0.h2, _$$1, u), _$$2.h2, Prelude_Nothing(null)))); } break; } case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(_$$1); } }; +const Lib_Erasure_REC_eraseSpine = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Erasure.eraseSpine": { const _sc$$0 = arg.h2; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const _sc$$2 = arg.h3; switch (_sc$$2.tag) { case "Just": { const _sc$$3 = _sc$$2.h1; switch (_sc$$3.tag) { case "Pi": { const _sc$$4 = _sc$$3.h3; switch (_sc$$4.tag) { case "Many": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(arg.h0, _sc$$1.h3, Prelude_Nil(null)), ( u ) => (Lib_Erasure_eraseSpine(arg.h0, Lib_Types_App(_sc$$1.h2, arg.h1, u), _sc$$0.h2, Prelude_Just(null, _sc$$3.h5)))) }; case "Zero": { const u = Lib_Types_Erased(Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Tm)(_sc$$1.h3)); return { tag: "Lib.Erasure.eraseSpine", h0: arg.h0, h1: Lib_Types_App(_sc$$1.h2, arg.h1, u), h2: _sc$$0.h2, h3: Prelude_Just(null, _sc$$3.h5) }; break; } } break; } default: return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(arg.h0, _sc$$1.h3, Prelude_Nil(null)), ( u ) => (Lib_Erasure_eraseSpine(arg.h0, Lib_Types_App(_sc$$1.h2, arg.h1, u), _sc$$0.h2, Prelude_Nothing(null)))) }; } break; } default: return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(arg.h0, _sc$$1.h3, Prelude_Nil(null)), ( u ) => (Lib_Erasure_eraseSpine(arg.h0, Lib_Types_App(_sc$$1.h2, arg.h1, u), _sc$$0.h2, Prelude_Nothing(null)))) }; } break; } case "Nil": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(arg.h1) }; } break; } } }; +const Lib_Erasure_eraseSpine = ( _$$0, _$$1, _$$2, ty$$3 ) => (bouncer(Lib_Erasure_REC_eraseSpine, { tag: "Lib.Erasure.eraseSpine", h0: _$$0, h1: _$$1, h2: _$$2, h3: ty$$3 })); const Lib_Types__modDefs = ( _$$0 ) => (_$$0.h0); const Lib_Types__modules = ( _$$0 ) => (_$$0.h0); const Lib_Types__defs = ( _$$0 ) => (_$$0.h3); const Lib_TopContext_lookup = ( _$$0, _$$1 ) => { const sc$$4 = Data_SortedMap_lookupMap$27(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, _$$0, Lib_Types__defs(_$$1)); switch (sc$$4.tag) { case "Nothing": { const sc$$6 = Data_SortedMap_lookupMap$27(null, null, Prelude_Prelude_Ord$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Ord$20Prim_String), _$$0.h0, Lib_Types__modules(_$$1)); switch (sc$$6.tag) { case "Nothing": return Prelude_Nothing(null); case "Just": return Data_SortedMap_lookupMap$27(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, _$$0, Lib_Types__modDefs(sc$$6.h1)); } break; } case "Just": return Prelude_Just(null, sc$$4.h1); } }; const Lib_Types_UU = ( h0 ) => ({ tag: "UU", h0: h0 }); -const Lib_Erasure_doAlt_piEnv = ( _, _1, _2, _3, _4, _5, _$$6, _$$7, _$$8 ) => { switch (_$$8.tag) { case "_::_": switch (_$$7.tag) { case "Pi": return Lib_Erasure_doAlt_piEnv(_, _1, _2, _3, _4, _5, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$8.h1, Prelude__$2C_(null, null, _$$7.h3, Prelude_Just(null, _$$7.h4))), _$$6), _$$7.h5, _$$8.h2); default: return _$$6; } break; default: return _$$6; } }; +const Lib_Erasure_REC_doAlt_piEnv = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Erasure.doAlt.piEnv": { const _sc$$0 = arg.h8; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = arg.h7; switch (_sc$$1.tag) { case "Pi": return { tag: "Lib.Erasure.doAlt.piEnv", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h1, Prelude__$2C_(null, null, _sc$$1.h3, Prelude_Just(null, _sc$$1.h4))), arg.h6), h7: _sc$$1.h5, h8: _sc$$0.h2 }; default: return { tag: "return", h0: arg.h6 }; } break; } default: return { tag: "return", h0: arg.h6 }; } break; } } }; +const Lib_Erasure_doAlt_piEnv = ( _, _1, _2, _3, _4, _5, _$$6, _$$7, _$$8 ) => (bouncer(Lib_Erasure_REC_doAlt_piEnv, { tag: "Lib.Erasure.doAlt.piEnv", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _5, h6: _$$6, h7: _$$7, h8: _$$8 })); const Lib_Erasure_doAlt = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "CaseLit": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_Types_CaseLit(_$$1.h0, eta)), Lib_Erasure_erase(_$$0, _$$1.h1, Prelude_Nil(null))); case "CaseCons": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => { const sc$$7 = Lib_TopContext_lookup(_$$1.h0, top); switch (sc$$7.tag) { case "Just": { const _sc$$0 = sc$$7.h1; const env$27 = Lib_Erasure_doAlt_piEnv(_$$0, _$$1, _$$1.h0, _$$1.h1, _$$1.h2, null, _$$0, _sc$$0.h2, _$$1.h1); return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_Types_CaseCons(_$$1.h0, _$$1.h1, eta)), Lib_Erasure_erase(env$27, _$$1.h2, Prelude_Nil(null))); break; } default: return Lib_Types_error(null, Lib_Common_emptyFC, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$1.h0)))(" dcon missing from context")); } }); case "CaseDefault": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, Lib_Types_CaseDefault, Lib_Erasure_erase(_$$0, _$$1.h0, Prelude_Nil(null))); } }; -const Lib_Erasure_erase = ( _$$0, _$$1, _$$2 ) => { switch (_$$1.tag) { case "Erased": return Lib_Types_error(null, _$$1.h0, "erased value in relevant context"); case "Lit": return Lib_Erasure_eraseSpine(_$$0, _$$1, _$$2, Prelude_Nothing(null)); case "LetRec": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$1.h1, Prelude__$2C_(null, null, Lib_Types_Many, Prelude_Just(null, _$$1.h2))), _$$0), _$$1.h3, Prelude_Nil(null)), ( u$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$1.h1, Prelude__$2C_(null, null, Lib_Types_Many, Prelude_Just(null, _$$1.h2))), _$$0), _$$1.h4, Prelude_Nil(null)), ( v$27 ) => (Lib_Erasure_eraseSpine(_$$0, Lib_Types_LetRec(_$$1.h0, _$$1.h1, _$$1.h2, u$27, v$27), _$$2, Prelude_Nothing(null)))))); case "Let": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(_$$0, _$$1.h2, Prelude_Nil(null)), ( u$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$1.h1, Prelude__$2C_(null, null, Lib_Types_Many, Prelude_Nothing(null))), _$$0), _$$1.h3, Prelude_Nil(null)), ( v$27 ) => (Lib_Erasure_eraseSpine(_$$0, Lib_Types_Let(_$$1.h0, _$$1.h1, u$27, v$27), _$$2, Prelude_Nothing(null)))))); case "Case": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(_$$0, _$$1.h1, Prelude_Nil(null)), ( u$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_Erasure_doAlt(_$$0, eta)))(_$$1.h2), ( alts$27 ) => (Lib_Erasure_eraseSpine(_$$0, Lib_Types_Case(_$$1.h0, u$27, alts$27), _$$2, Prelude_Nothing(null)))))); case "Pi": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(_$$0, _$$1.h4, Prelude_Nil(null)), ( u$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$1.h1, Prelude__$2C_(null, null, Lib_Types_Many, Prelude_Just(null, _$$1.h4))), _$$0), _$$1.h5, Prelude_Nil(null)), ( v$27 ) => (Lib_Erasure_eraseSpine(_$$0, Lib_Types_Pi(_$$1.h0, _$$1.h1, _$$1.h2, _$$1.h3, u$27, v$27), _$$2, Prelude_Just(null, Lib_Types_UU(Lib_Common_emptyFC))))))); case "UU": return Lib_Erasure_eraseSpine(_$$0, _$$1, _$$2, Prelude_Just(null, Lib_Types_UU(_$$1.h0))); case "App": return Lib_Erasure_erase(_$$0, _$$1.h1, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$1.h0, _$$1.h2), _$$2)); case "Lam": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_Types_Lam(_$$1.h0, _$$1.h1, _$$1.h2, _$$1.h3, eta)), Lib_Erasure_erase(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$1.h1, Prelude__$2C_(null, null, _$$1.h3, Prelude_Nothing(null))), _$$0), _$$1.h4, Prelude_Nil(null))); case "Meta": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(_$$1); case "Ref": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => { const sc$$7 = Lib_TopContext_lookup(_$$1.h1, top); switch (sc$$7.tag) { case "Nothing": return Lib_Types_error(null, _$$1.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$1.h1)))(" not in scope")); case "Just": { const _sc$$0 = sc$$7.h1; return Lib_Erasure_eraseSpine(_$$0, _$$1, _$$2, Prelude_Just(null, _sc$$0.h2)); break; } } }); case "Bnd": { const sc$$6 = Prelude_getAt(null, Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(_$$1.h1), _$$0); switch (sc$$6.tag) { case "Nothing": return Lib_Types_error(null, _$$1.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("bad index ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(_$$1.h1)))("")); case "Just": { const _sc$$0 = sc$$6.h1; const _sc$$1 = _sc$$0.h3; const _sc$$2 = _sc$$1.h2; switch (_sc$$2.tag) { case "Many": return Lib_Erasure_eraseSpine(_$$0, _$$1, _$$2, _sc$$1.h3); case "Zero": return Lib_Types_error(null, _$$1.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("used erased value ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_sc$$0.h2)))(" (FIXME FC may be wrong here)")); } break; } } break; } } }; +const Lib_Erasure_REC_erase = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Erasure.erase": { const _sc$$0 = arg.h1; switch (_sc$$0.tag) { case "Erased": return { tag: "return", h0: Lib_Types_error(null, _sc$$0.h0, "erased value in relevant context") }; case "Lit": return { tag: "return", h0: Lib_Erasure_eraseSpine(arg.h0, arg.h1, arg.h2, Prelude_Nothing(null)) }; case "LetRec": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h1, Prelude__$2C_(null, null, Lib_Types_Many, Prelude_Just(null, _sc$$0.h2))), arg.h0), _sc$$0.h3, Prelude_Nil(null)), ( u$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h1, Prelude__$2C_(null, null, Lib_Types_Many, Prelude_Just(null, _sc$$0.h2))), arg.h0), _sc$$0.h4, Prelude_Nil(null)), ( v$27 ) => (Lib_Erasure_eraseSpine(arg.h0, Lib_Types_LetRec(_sc$$0.h0, _sc$$0.h1, _sc$$0.h2, u$27, v$27), arg.h2, Prelude_Nothing(null)))))) }; case "Let": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(arg.h0, _sc$$0.h2, Prelude_Nil(null)), ( u$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h1, Prelude__$2C_(null, null, Lib_Types_Many, Prelude_Nothing(null))), arg.h0), _sc$$0.h3, Prelude_Nil(null)), ( v$27 ) => (Lib_Erasure_eraseSpine(arg.h0, Lib_Types_Let(_sc$$0.h0, _sc$$0.h1, u$27, v$27), arg.h2, Prelude_Nothing(null)))))) }; case "Case": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(arg.h0, _sc$$0.h1, Prelude_Nil(null)), ( u$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_Erasure_doAlt(arg.h0, eta)))(_sc$$0.h2), ( alts$27 ) => (Lib_Erasure_eraseSpine(arg.h0, Lib_Types_Case(_sc$$0.h0, u$27, alts$27), arg.h2, Prelude_Nothing(null)))))) }; case "Pi": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(arg.h0, _sc$$0.h4, Prelude_Nil(null)), ( u$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h1, Prelude__$2C_(null, null, Lib_Types_Many, Prelude_Just(null, _sc$$0.h4))), arg.h0), _sc$$0.h5, Prelude_Nil(null)), ( v$27 ) => (Lib_Erasure_eraseSpine(arg.h0, Lib_Types_Pi(_sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, u$27, v$27), arg.h2, Prelude_Just(null, Lib_Types_UU(Lib_Common_emptyFC))))))) }; case "UU": return { tag: "return", h0: Lib_Erasure_eraseSpine(arg.h0, arg.h1, arg.h2, Prelude_Just(null, Lib_Types_UU(_sc$$0.h0))) }; case "App": return { tag: "Lib.Erasure.erase", h0: arg.h0, h1: _sc$$0.h1, h2: Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h0, _sc$$0.h2), arg.h2) }; case "Lam": return { tag: "return", h0: Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_Types_Lam(_sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, eta)), Lib_Erasure_erase(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h1, Prelude__$2C_(null, null, _sc$$0.h3, Prelude_Nothing(null))), arg.h0), _sc$$0.h4, Prelude_Nil(null))) }; case "Meta": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(arg.h1) }; case "Ref": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => { const sc$$7 = Lib_TopContext_lookup(_sc$$0.h1, top); switch (sc$$7.tag) { case "Nothing": return Lib_Types_error(null, _sc$$0.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$0.h1)))(" not in scope")); case "Just": { const _sc$$1 = sc$$7.h1; return Lib_Erasure_eraseSpine(arg.h0, arg.h1, arg.h2, Prelude_Just(null, _sc$$1.h2)); break; } } }) }; case "Bnd": { const sc$$6 = Prelude_getAt(null, Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(_sc$$0.h1), arg.h0); switch (sc$$6.tag) { case "Nothing": return { tag: "return", h0: Lib_Types_error(null, _sc$$0.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("bad index ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(_sc$$0.h1)))("")) }; case "Just": { const _sc$$1 = sc$$6.h1; const _sc$$2 = _sc$$1.h3; const _sc$$3 = _sc$$2.h2; switch (_sc$$3.tag) { case "Many": return { tag: "return", h0: Lib_Erasure_eraseSpine(arg.h0, arg.h1, arg.h2, _sc$$2.h3) }; case "Zero": return { tag: "return", h0: Lib_Types_error(null, _sc$$0.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("used erased value ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_sc$$1.h2)))(" (FIXME FC may be wrong here)")) }; } break; } } break; } } break; } } }; +const Lib_Erasure_erase = ( _$$0, _$$1, _$$2 ) => (bouncer(Lib_Erasure_REC_erase, { tag: "Lib.Erasure.erase", h0: _$$0, h1: _$$1, h2: _$$2 })); const Lib_Compile_eraseEntries_go = ( _, _$$1, _$$2 ) => { const _sc$$0 = _$$2.h3; switch (_sc$$0.tag) { case "Fn": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Erasure_erase(Prelude_Nil(null), _sc$$0.h0, Prelude_Nil(null)), ( tm$27 ) => (Lib_Ref2_modifyRef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Ref2_Defs, _$$1, ( eta ) => (Data_SortedMap_updateMap(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, _$$2.h2, Lib_Types_Fn(tm$27), eta))))); default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_MkUnit); } }; const Lib_Compile_eraseEntries = ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Ref2_getRef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Ref2_Defs, _), ( defs ) => (Prelude_ignore(null, null, Lib_Types_Prelude_Functor$20Lib_Types_M)(Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_Compile_eraseEntries_go(null, _, eta)))(Data_SortedMap_toList(null, null, defs)))))); const Data_IORef_primNewIORef = (_, a) => (w) => Prelude_MkIORes(null, [a], w); const Data_IORef_newIORef = ( io$$0, a$$1, _$$2, _$$3 ) => (Prelude_liftIO(null, _$$2)(null)(Data_IORef_primNewIORef(null, _$$3))); const Lib_Types__def = ( _$$0 ) => (_$$0.h3); -const Prelude_flip = ( a$$0, b$$1, c$$2, _$$3, _$$4, _$$5 ) => (_$$3(_$$5)(_$$4)); -const Prelude_foldlM = ( m$$0, a$$1, e$$2, _$$3, _$$4, _$$5, _$$6 ) => (Prelude_foldl(null, null, ( ma ) => (( b ) => (Prelude__$3E$3E$3D_(null, null, null, _$$3, ma, ( eta ) => (Prelude_flip(null, null, null, _$$4, b, eta))))), Prelude_pure(null, _$$3)(null)(_$$5), _$$6)); +const Lib_Compile_getNames_getAltNames = ( _, _1, _2, _3, _4, _5, _$$6, _$$7 ) => { switch (_$$7.tag) { case "CaseLit": return Lib_Compile_getNames(_$$7.h1, _$$6); case "CaseCons": return Lib_Compile_getNames(_$$7.h2, _$$6); case "CaseDefault": return Lib_Compile_getNames(_$$7.h0, _$$6); } }; +const Lib_Compile_REC_getNames = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Compile.getNames": { const _sc$$0 = arg.h0; switch (_sc$$0.tag) { case "LetRec": return { tag: "Lib.Compile.getNames", h0: _sc$$0.h4, h1: Lib_Compile_getNames(_sc$$0.h3, arg.h1) }; case "Let": return { tag: "Lib.Compile.getNames", h0: _sc$$0.h3, h1: Lib_Compile_getNames(_sc$$0.h2, arg.h1) }; case "Case": return { tag: "return", h0: Prelude_foldl(null, null, ( eta ) => (( eta1 ) => (Lib_Compile_getNames_getAltNames(arg.h0, arg.h1, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, null, eta, eta1))), arg.h1, _sc$$0.h2) }; case "Pi": return { tag: "Lib.Compile.getNames", h0: _sc$$0.h5, h1: Lib_Compile_getNames(_sc$$0.h4, arg.h1) }; case "App": return { tag: "Lib.Compile.getNames", h0: _sc$$0.h2, h1: Lib_Compile_getNames(_sc$$0.h1, arg.h1) }; case "Lam": return { tag: "Lib.Compile.getNames", h0: _sc$$0.h4, h1: arg.h1 }; case "Ref": return { tag: "return", h0: Prelude__$3A$3A_(null, _sc$$0.h1, arg.h1) }; default: return { tag: "return", h0: arg.h1 }; } break; } } }; +const Lib_Compile_getNames = ( _$$0, _$$1 ) => (bouncer(Lib_Compile_REC_getNames, { tag: "Lib.Compile.getNames", h0: _$$0, h1: _$$1 })); const Lib_Compile_getEntries = ( _$$0, _$$1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => { const sc$$3 = Lib_TopContext_lookup(_$$1, top); switch (sc$$3.tag) { case "Nothing": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_putStrLn(null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("bad name ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$1)))("")), ( _ ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(_$$0))); case "Just": { const _sc$$0 = sc$$3.h1; const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "PrimFn": { const acc = Data_SortedMap_updateMap(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, _sc$$0.h1, _sc$$0.h3, _$$0); return Prelude_foldlM(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, ( eta ) => (( eta1 ) => (Lib_Compile_getEntries(eta, eta1))), acc, _sc$$1.h2); break; } case "Fn": { const sc$$11 = Data_SortedMap_lookupMap$27(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, _sc$$0.h1, _$$0); switch (sc$$11.tag) { case "Nothing": { const acc = Data_SortedMap_updateMap(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, _sc$$0.h1, _sc$$0.h3, _$$0); return Prelude_foldlM(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, ( eta ) => (( eta1 ) => (Lib_Compile_getEntries(eta, eta1))), acc, Lib_Compile_getNames(_sc$$1.h0, Prelude_Nil(null))); break; } case "Just": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(_$$0); } break; } default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Data_SortedMap_updateMap(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, _$$1, Lib_Types__def(sc$$3.h1), _$$0)); } break; } } })); -const Lib_Compile_process = ( _$$0 ) => { const wat = Lib_Common_QN(Prelude__$3A$3A_(null, "Prelude", Prelude_Nil(null)), "arrayToList"); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Compile_getEntries(Data_SortedMap_EmptyMap(null, null), _$$0), ( entries ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_newIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, entries), ( ref ) => { const foo = Lib_Ref2_MkRef(null, null, ref); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Compile_eraseEntries(Lib_Ref2_MkRef(null, null, ref)), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_LiftWhere_liftWhere(Lib_Ref2_MkRef(null, null, ref)), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_readIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, ref), ( entries1 ) => { const names = Lib_Compile_sortedNames(entries1, _$$0); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, names, ( nm ) => { const sc$$10 = Data_SortedMap_lookupMap(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, nm, entries1); switch (sc$$10.tag) { case "Nothing": return Lib_Types_error(null, Lib_Common_emptyFC, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("MISS ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(nm)))("")); case "Just": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_MkUnit); } }), ( _2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_mapM(null, Lib_Types_Prelude_Monad$20Lib_Types_M, null, null, ( eta ) => (Lib_CompileExp_defToCExp(Lib_Ref2_MkRef(null, null, ref), eta)), Data_SortedMap_toList(null, null, entries1)), ( exprs ) => { const cexpMap = Data_SortedMap_foldMap(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, ( eta ) => (( eta1 ) => (Prelude_const(null, null, eta, eta1))), Data_SortedMap_EmptyMap(null, null), exprs); return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(Lib_Compile_cexpToDoc)(Prelude_mapMaybe(null, null, ( x ) => (Data_SortedMap_lookupMap(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, x, cexpMap)), names))); }))); }))))); }))); }; +const Lib_Compile_process = ( _$$0 ) => { const wat = Lib_Common_QN(Prelude__$3A$3A_(null, "Prelude", Prelude_Nil(null)), "arrayToList"); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Compile_getEntries(Data_SortedMap_EmptyMap(null, null), _$$0), ( entries ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_newIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, entries), ( ref ) => { const foo = Lib_Ref2_MkRef(null, null, ref); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Compile_eraseEntries(Lib_Ref2_MkRef(null, null, ref)), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_LiftWhere_liftWhere(Lib_Ref2_MkRef(null, null, ref)), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_readIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, ref), ( entries1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_mapM(null, Lib_Types_Prelude_Monad$20Lib_Types_M, null, null, ( eta ) => (Lib_CompileExp_defToCExp(Lib_Ref2_MkRef(null, null, ref), eta)), Data_SortedMap_toList(null, null, entries1)), ( exprs ) => { const cexpMap = Data_SortedMap_foldMap(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, ( eta ) => (( eta1 ) => (Prelude_const(null, null, eta, eta1))), Data_SortedMap_EmptyMap(null, null), exprs); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_TCO_tailCallOpt(cexpMap), ( cexpMap1 ) => { const names = Lib_Compile_sortedNames(cexpMap1, _$$0); return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(Lib_Compile_cexpToDoc)(Prelude_mapMaybe(null, null, ( x ) => (Data_SortedMap_lookupMap(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, x, cexpMap1)), names))); }); }))))))); }))); }; const Lib_Types__imported = ( _$$0 ) => (_$$0.h1); -const Lib_TopContext_lookupRaw_go = ( _, _1, _2, _$$3 ) => { switch (_$$3.tag) { case "_::_": { const sc$$7 = Data_SortedMap_lookupMap$27(null, null, Prelude_Prelude_Ord$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Ord$20Prim_String), _$$3.h1, Lib_Types__modules(_1)); switch (sc$$7.tag) { case "Nothing": return Lib_TopContext_lookupRaw_go(_, _1, _2, _$$3.h2); case "Just": { const sc$$10 = Data_SortedMap_lookupMap$27(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, Lib_Common_QN(_$$3.h1, _), Lib_Types__modDefs(sc$$7.h1)); switch (sc$$10.tag) { case "Nothing": return Lib_TopContext_lookupRaw_go(_, _1, _2, _$$3.h2); case "Just": return Prelude_Just(null, sc$$10.h1); } break; } } break; } case "Nil": return Prelude_Nothing(null); } }; +const Lib_TopContext_REC_lookupRaw_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.TopContext.lookupRaw.go": { const _sc$$0 = arg.h3; switch (_sc$$0.tag) { case "_::_": { const sc$$7 = Data_SortedMap_lookupMap$27(null, null, Prelude_Prelude_Ord$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Ord$20Prim_String), _sc$$0.h1, Lib_Types__modules(arg.h1)); switch (sc$$7.tag) { case "Nothing": return { tag: "Lib.TopContext.lookupRaw.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: _sc$$0.h2 }; case "Just": { const sc$$10 = Data_SortedMap_lookupMap$27(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, Lib_Common_QN(_sc$$0.h1, arg.h0), Lib_Types__modDefs(sc$$7.h1)); switch (sc$$10.tag) { case "Nothing": return { tag: "Lib.TopContext.lookupRaw.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: _sc$$0.h2 }; case "Just": return { tag: "return", h0: Prelude_Just(null, sc$$10.h1) }; } break; } } break; } case "Nil": return { tag: "return", h0: Prelude_Nothing(null) }; } break; } } }; +const Lib_TopContext_lookupRaw_go = ( _, _1, _2, _$$3 ) => (bouncer(Lib_TopContext_REC_lookupRaw_go, { tag: "Lib.TopContext.lookupRaw.go", h0: _, h1: _1, h2: _2, h3: _$$3 })); const Lib_Types__ns = ( _$$0 ) => (_$$0.h2); const Lib_TopContext_lookupRaw = ( _$$0, _$$1 ) => { const sc$$3 = Data_SortedMap_lookupMap$27(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, Lib_Common_QN(Lib_Types__ns(_$$1), _$$0), Lib_Types__defs(_$$1)); switch (sc$$3.tag) { case "Nothing": return Lib_TopContext_lookupRaw_go(_$$0, _$$1, null, Lib_Types__imported(_$$1)); case "Just": return Prelude_Just(null, sc$$3.h1); } }; const Lib_Compile_compile = Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => { const sc$$1 = Lib_TopContext_lookupRaw("main", top); switch (sc$$1.tag) { case "Nothing": return Lib_Types_error(null, Lib_Common_emptyFC, "No main function found"); case "Just": { const _sc$$0 = sc$$1.h1; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Compile_process(_sc$$0.h1), ( tmp ) => { const exec = Lib_Compile_stmtToDoc(null, Lib_Compile_JPlain(Lib_Compile_Apply(Lib_Compile_Var(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$0.h1)), Prelude_Nil(null)))); return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_reverse(null)(Prelude__$3A$3A_(null, exec, tmp))); }); break; } } }); -const Main_writeSource = ( _$$0 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Compile_compile, ( docs ) => { const src = Prelude_unlines(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(Prelude__$3A$3A_(null, "\"use strict\";", Prelude__$3A$3A_(null, "const PiType = (h0, h1) => ({ tag: \"PiType\", h0, h1 })", Prelude_Nil(null))))(Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude__$2218_(null, null, null, ( eta ) => (Lib_Prettier_render(90, eta)), Lib_Prettier_noAlt, eta)))(docs))); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_liftIO(null, Lib_Types_Prelude_HasIO$20Lib_Types_M)(null)(Node_writeFile(_$$0, src)), ( $$sc ) => { switch ($$sc.tag) { case "Right": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_MkUnit); case "Left": return Node_exitFailure(null, Prelude_show(null, Prelude_Prelude_Show$20Prim_String)($$sc.h2)); } }); })); +const Main_writeSource = ( _$$0 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Compile_compile, ( docs ) => { const src = Prelude_unlines(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(Prelude__$3A$3A_(null, "\"use strict\";", Prelude__$3A$3A_(null, "const PiType = (h0, h1) => ({ tag: \"PiType\", h0, h1 });", Prelude__$3A$3A_(null, "const bouncer = (f,ini) => { let obj = ini; while (obj.tag !== 'return') obj = f(obj); return obj.h0 };", Prelude_Nil(null)))))(Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude__$2218_(null, null, null, ( eta ) => (Lib_Prettier_render(90, eta)), Lib_Prettier_noAlt, eta)))(docs))); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_liftIO(null, Lib_Types_Prelude_HasIO$20Lib_Types_M)(null)(Node_writeFile(_$$0, src)), ( $$sc ) => { switch ($$sc.tag) { case "Right": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_MkUnit); case "Left": return Node_exitFailure(null, Prelude_show(null, Prelude_Prelude_Show$20Prim_String)($$sc.h2)); } }); })); const Lib_Common_renderJson_renderPair = ( _, _1, _2, _$$3 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Lib_Common_quoteString(_$$3.h2))(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(":")(Lib_Common_renderJson(_$$3.h3)))); const Prelude_ite = ( a$$0, _$$1, _$$2, _$$3 ) => { switch (_$$1.tag) { case "False": return _$$3; case "True": return _$$2; } }; const Data_Int_Prelude_Cast$20Prim_Int$20Prim_String$2Ccast = Prelude_show(null, Prelude_Prelude_Show$20Prim_Int); @@ -473,10 +558,10 @@ const Prelude_arrayToList = (a,arr) => { const Prelude_lines = (s) => Prelude_arrayToList(null,s.split('\n')); const Lib_Common_fcCol = ( _$$0 ) => { const _sc$$0 = _$$0.h1; return _sc$$0.h3; }; const Lib_Common_fcLine = ( _$$0 ) => { const _sc$$0 = _$$0.h1; return _sc$$0.h2; }; -const Prelude_Prelude_Eq$20Prim_Int$2C_$3D$3D_ = ( _$$0, _$$1 ) => (Prelude_jsEq(null, _$$0, _$$1)); -const Prelude_Prelude_Eq$20Prim_Int = Prelude_MkEq(null, ( eta ) => (( eta1 ) => (Prelude_Prelude_Eq$20Prim_Int$2C_$3D$3D_(eta, eta1)))); -const Lib_Common_showError_go$27 = ( _, _1, _2, _3, _4, _$$5, _$$6 ) => { switch (_$$6.tag) { case "_::_": { const sc$$10 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(_$$5)(Lib_Common_fcLine(_2)); switch (sc$$10.tag) { case "False": { const sc$$11 = Prelude__$3C_(null, Prelude_Prelude_Ord$20Prim_Int, Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(Lib_Common_fcLine(_2))(3), _$$5); switch (sc$$11.tag) { case "False": return Lib_Common_showError_go$27(_, _1, _2, _3, _4, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$5)(1), _$$6.h2); case "True": return Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(_$$6.h1)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("\n")(Lib_Common_showError_go$27(_, _1, _2, _3, _4, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$5)(1), _$$6.h2)))); } break; } case "True": return Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(_$$6.h1))("\n "))(Prelude_replicate(Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(Lib_Common_fcCol(_2)), " ")))("^\n"); } break; } case "Nil": return ""; } }; -const Lib_Common_showError_go = ( _, _1, _2, _3, _4, _5, _$$6, _$$7 ) => { switch (_$$7.tag) { case "_::_": { const sc$$11 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(_$$6)(Lib_Common_fcLine(_2)); switch (sc$$11.tag) { case "False": { const sc$$12 = Prelude__$3C_(null, Prelude_Prelude_Ord$20Prim_Int, Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(Lib_Common_fcLine(_2))(3), _$$6); switch (sc$$12.tag) { case "False": return Lib_Common_showError_go(_, _1, _2, _3, _4, _5, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$6)(1), _$$7.h2); case "True": return Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(_$$7.h1)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("\n")(Lib_Common_showError_go(_, _1, _2, _3, _4, _5, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$6)(1), _$$7.h2)))); } break; } case "True": return Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(_$$7.h1))("\n "))(Prelude_replicate(Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(Lib_Common_fcCol(_2)), " ")))("^\n"); } break; } case "Nil": return ""; } }; +const Lib_Common_REC_showError_go$27 = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Common.showError.go'": { const _sc$$0 = arg.h6; switch (_sc$$0.tag) { case "_::_": { const sc$$10 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(arg.h5)(Lib_Common_fcLine(arg.h2)); switch (sc$$10.tag) { case "False": { const sc$$11 = Prelude__$3C_(null, Prelude_Prelude_Ord$20Prim_Int, Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(Lib_Common_fcLine(arg.h2))(3), arg.h5); switch (sc$$11.tag) { case "False": return { tag: "Lib.Common.showError.go'", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(arg.h5)(1), h6: _sc$$0.h2 }; case "True": return { tag: "return", h0: Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(_sc$$0.h1)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("\n")(Lib_Common_showError_go$27(arg.h0, arg.h1, arg.h2, arg.h3, arg.h4, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(arg.h5)(1), _sc$$0.h2)))) }; } break; } case "True": return { tag: "return", h0: Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(_sc$$0.h1))("\n "))(Prelude_replicate(Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(Lib_Common_fcCol(arg.h2)), " ")))("^\n") }; } break; } case "Nil": return { tag: "return", h0: "" }; } break; } } }; +const Lib_Common_showError_go$27 = ( _, _1, _2, _3, _4, _$$5, _$$6 ) => (bouncer(Lib_Common_REC_showError_go$27, { tag: "Lib.Common.showError.go'", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _$$5, h6: _$$6 })); +const Lib_Common_REC_showError_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Common.showError.go": { const _sc$$0 = arg.h7; switch (_sc$$0.tag) { case "_::_": { const sc$$11 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(arg.h6)(Lib_Common_fcLine(arg.h2)); switch (sc$$11.tag) { case "False": { const sc$$12 = Prelude__$3C_(null, Prelude_Prelude_Ord$20Prim_Int, Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(Lib_Common_fcLine(arg.h2))(3), arg.h6); switch (sc$$12.tag) { case "False": return { tag: "Lib.Common.showError.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(arg.h6)(1), h7: _sc$$0.h2 }; case "True": return { tag: "return", h0: Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(_sc$$0.h1)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("\n")(Lib_Common_showError_go(arg.h0, arg.h1, arg.h2, arg.h3, arg.h4, arg.h5, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(arg.h6)(1), _sc$$0.h2)))) }; } break; } case "True": return { tag: "return", h0: Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(_sc$$0.h1))("\n "))(Prelude_replicate(Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(Lib_Common_fcCol(arg.h2)), " ")))("^\n") }; } break; } case "Nil": return { tag: "return", h0: "" }; } break; } } }; +const Lib_Common_showError_go = ( _, _1, _2, _3, _4, _5, _$$6, _$$7 ) => (bouncer(Lib_Common_REC_showError_go, { tag: "Lib.Common.showError.go", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _5, h6: _$$6, h7: _$$7 })); const Lib_Common_showError = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "Postpone": return Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("ERROR at ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_FC)(_$$1.h0)))(": Postpone "))(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$1.h1)))(" "))(_$$1.h2))("\n"))(Lib_Common_showError_go(_$$0, _$$1, _$$1.h0, _$$1.h1, _$$1.h2, null, 0, Prelude_lines(_$$0))); case "E": return Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("ERROR at ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_FC)(_$$1.h0)))(": "))(_$$1.h1))("\n"))(Lib_Common_showError_go$27(_$$0, _$$1, _$$1.h0, _$$1.h1, null, 0, Prelude_lines(_$$0))); } }; const Prelude_for_ = ( t$$0, f$$1, _$$2, appf$$3, a$$4, b$$5, _$$6, _$$7 ) => (Prelude__$3C$2A$3E_(null, appf$$3)(null)(null)(Prelude_return(null, appf$$3)(null)(( eta ) => (Prelude_const(null, null, Prelude_MkUnit, eta))))(Prelude_traverse(null, _$$2)(null)(null)(null)(appf$$3)(_$$7)(_$$6))); const Lib_Types__errors = ( _$$0 ) => (_$$0.h6); @@ -485,7 +570,8 @@ const Lib_Types__metas = ( _$$0 ) => (_$$0.h0); const Lib_Types_info = ( _$$0, _$$1 ) => (Prelude_putStrLn(null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("INFO at ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_FC)(_$$0)))(": "))(_$$1))(""))); const Lib_Types__metaCtx = ( _$$0 ) => (_$$0.h4); const Lib_Elab_rpprint = ( _$$0, _$$1 ) => (Lib_Prettier_render(90, Lib_Types_pprint(_$$0, _$$1))); -const Data_SnocList_snoclen_go = ( _, _1, _2, _$$3, _$$4 ) => { switch (_$$3.tag) { case "_:<_": return Data_SnocList_snoclen_go(_, _1, _2, _$$3.h1, Prelude_S(_$$4)); case "Lin": return _$$4; } }; +const Data_SnocList_REC_snoclen_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Data.SnocList.snoclen.go": { const _sc$$0 = arg.h3; switch (_sc$$0.tag) { case "_:<_": return { tag: "Data.SnocList.snoclen.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: _sc$$0.h1, h4: Prelude_S(arg.h4) }; case "Lin": return { tag: "return", h0: arg.h4 }; } break; } } }; +const Data_SnocList_snoclen_go = ( _, _1, _2, _$$3, _$$4 ) => (bouncer(Data_SnocList_REC_snoclen_go, { tag: "Data.SnocList.snoclen.go", h0: _, h1: _1, h2: _2, h3: _$$3, h4: _$$4 })); const Data_SnocList_snoclen = ( a$$0, _$$1 ) => (Data_SnocList_snoclen_go(a$$0, _$$1, null, _$$1, Prelude_Z)); const Prelude_Prelude_Show$20Prelude_Nat$2Cshow = ( _$$0 ) => (Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(Prelude_natToInt(_$$0))); const Prelude_Prelude_Show$20Prelude_Nat = Prelude_MkShow(null, Prelude_Prelude_Show$20Prelude_Nat$2Cshow); @@ -497,7 +583,6 @@ const Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw$2CgetFC = ( _$$0 ) => { switc const Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw = Lib_Common_MkHasFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw$2CgetFC); const Lib_Elab__constraints = ( _$$0 ) => (_$$0.h0); const Lib_Types__types = ( _$$0 ) => (_$$0.h2); -const Prelude_fst = ( a$$0, b$$1, _$$2 ) => (_$$2.h2); const Lib_Types__lvl = ( _$$0 ) => (_$$0.h0); const Lib_Common_lvl2ix = ( _$$0, _$$1 ) => (Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(_$$0)(_$$1))(1)); const Lib_Eval_quoteSp = ( lvl$$0, _$$1, _$$2 ) => { switch (_$$2.tag) { case "_:<_": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quoteSp(lvl$$0, _$$1, _$$2.h1), ( t$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(lvl$$0, _$$2.h2), ( x$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_App(Lib_Common_emptyFC, t$27, x$27)))))); case "Lin": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(_$$1); } }; @@ -515,10 +600,11 @@ const Lib_Types_VLam = ( h0, h1, h2, h3, h4 ) => ({ tag: "VLam", h0: h0, h1: h const Lib_Types_VU = ( h0 ) => ({ tag: "VU", h0: h0 }); const Lib_Types_VPi = ( h0, h1, h2, h3, h4, h5 ) => ({ tag: "VPi", h0: h0, h1: h1, h2: h2, h3: h3, h4: h4, h5: h5 }); const Lib_Types_VCase = ( h0, h1, h2 ) => ({ tag: "VCase", h0: h0, h1: h1, h2: h2 }); -const Prelude__$3E_ = ( a$$0, _$$1, _$$2, _$$3 ) => (Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prelude_Ordering)(Prelude_compare(null, _$$1)(_$$2)(_$$3))(Prelude_GT)); const Lib_Eval_lookupVar = ( _$$0, _$$1 ) => { const l = Prelude_cast(null, null, Prelude_Prelude_Cast$20Prelude_Nat$20Prim_Int)(Prelude_length(null, _$$0)); const sc$$3 = Prelude__$3E_(null, Prelude_Prelude_Ord$20Prim_Int, _$$1, l); switch (sc$$3.tag) { case "False": { const sc$$4 = Prelude_getAt(null, Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(Lib_Common_lvl2ix(l, _$$1)), _$$0); switch (sc$$4.tag) { case "Nothing": return Prelude_Nothing(null); case "Just": { const _sc$$0 = sc$$4.h1; switch (_sc$$0.tag) { case "VVar": { const sc$$10 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(_$$1)(_sc$$0.h1); switch (sc$$10.tag) { case "False": return Prelude_Just(null, sc$$4.h1); case "True": return Prelude_Nothing(null); } break; } default: return Prelude_Just(null, sc$$4.h1); } break; } } break; } case "True": return Prelude_Nothing(null); } }; -const Prelude__$3C$3E$3C_ = ( a$$0, _$$1, _$$2 ) => { switch (_$$2.tag) { case "_::_": return Prelude__$3C$3E$3C_(null, Prelude__$3A$3C_(null, _$$1, _$$2.h1), _$$2.h2); case "Nil": return _$$1; } }; -const Lib_Eval_evalCase_go = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _$$14, _$$15, _$$16 ) => { switch (_$$16.tag) { case "_::_": switch (_$$15.tag) { case "_::_": return Lib_Eval_evalCase_go(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, Prelude__$3A$3A_(null, _$$15.h1, _$$14), _$$15.h2, _$$16.h2); case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nothing(null)); } break; case "Nil": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(_$$14, _1, _9), ( t$27 ) => (Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Prelude_Just(null, eta)), Lib_Eval_vappSpine(t$27, Prelude__$3C$3E$3C_(null, Prelude_Lin(null), _$$15))))); } }; +const Prelude_REC__$3C$3E$3C_ = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Prelude._<><_": { const _sc$$0 = arg.h2; switch (_sc$$0.tag) { case "_::_": return { tag: "Prelude._<><_", h0: null, h1: Prelude__$3A$3C_(null, arg.h1, _sc$$0.h1), h2: _sc$$0.h2 }; case "Nil": return { tag: "return", h0: arg.h1 }; } break; } } }; +const Prelude__$3C$3E$3C_ = ( a$$0, _$$1, _$$2 ) => (bouncer(Prelude_REC__$3C$3E$3C_, { tag: "Prelude._<><_", h0: a$$0, h1: _$$1, h2: _$$2 })); +const Lib_Eval_REC_evalCase_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Eval.evalCase.go": { const _sc$$0 = arg.h16; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = arg.h15; switch (_sc$$1.tag) { case "_::_": return { tag: "Lib.Eval.evalCase.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: arg.h8, h9: arg.h9, h10: arg.h10, h11: arg.h11, h12: arg.h12, h13: arg.h13, h14: Prelude__$3A$3A_(null, _sc$$1.h1, arg.h14), h15: _sc$$1.h2, h16: _sc$$0.h2 }; case "Nil": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nothing(null)) }; } break; } case "Nil": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(arg.h14, arg.h1, arg.h9), ( t$27 ) => (Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Prelude_Just(null, eta)), Lib_Eval_vappSpine(t$27, Prelude__$3C$3E$3C_(null, Prelude_Lin(null), arg.h15))))) }; } break; } } }; +const Lib_Eval_evalCase_go = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _$$14, _$$15, _$$16 ) => (bouncer(Lib_Eval_REC_evalCase_go, { tag: "Lib.Eval.evalCase.go", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _5, h6: _6, h7: _7, h8: _8, h9: _9, h10: _10, h11: _11, h12: _12, h13: _13, h14: _$$14, h15: _$$15, h16: _$$16 })); const Lib_Types_showTm = Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Tm); const Prelude_Prelude_Show$20$28Prelude_SnocList$20BND$3A1$29$2Cshow = ( a$$0, _$$1, _$$2 ) => (Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, _$$1))(Prelude__$3C$3E$3E_(null, _$$2, Prelude_Nil(null)))); const Prelude_Prelude_Show$20$28Prelude_SnocList$20BND$3A1$29 = ( a, _ ) => (Prelude_MkShow(null, ( eta ) => (Prelude_Prelude_Show$20$28Prelude_SnocList$20BND$3A1$29$2Cshow(null, _, eta)))); @@ -555,20 +641,19 @@ const Lib_Elab_unify_unifyRest_unifyRef = ( _, _1, _2, _3, _4, _5, _$$6, _$$7 ) const Lib_Elab_unify_unifyRest_unifyRef_unifyVar = ( _, _1, _2, _3, _4, _5, _6, _$$7, _$$8 ) => { switch (_$$8.tag) { case "VVar": switch (_$$7.tag) { case "VVar": { const sc$$15 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(_$$7.h1)(_$$8.h1); switch (sc$$15.tag) { case "False": return Lib_Types_error(null, _$$7.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Failed to unify ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$7)))(" and "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$8)))("")); case "True": return Lib_Elab_unifySpine(_, _1, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(_$$7.h1)(_$$8.h1), _$$7.h2, _$$8.h2); } break; } default: { const _sc$$0 = _$$8.h2; switch (_sc$$0.tag) { case "Lin": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_tryEval(_, _$$7), ( vt ) => { switch (vt.tag) { case "Nothing": return Lib_Types_error(null, _$$8.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Failed to unify ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$7)))(" and "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$8)))("")); case "Just": return Lib_Elab_unify(_, _1, vt.h1, _$$8); } }); default: return Lib_Elab_unify_unifyRest_unifyRef(_, _1, _2, _3, _4, _5, _$$7, _$$8); } break; } } break; default: switch (_$$7.tag) { case "VVar": { const _sc$$0 = _$$7.h2; switch (_sc$$0.tag) { case "Lin": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_tryEval(_, _$$8), ( vu ) => { switch (vu.tag) { case "Nothing": return Lib_Types_error(null, _$$7.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Failed to unify ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$7)))(" and "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$8)))("")); case "Just": return Lib_Elab_unify(_, _1, _$$7, vu.h1); } }); default: return Lib_Elab_unify_unifyRest_unifyRef(_, _1, _2, _3, _4, _5, _$$7, _$$8); } break; } default: return Lib_Elab_unify_unifyRest_unifyRef(_, _1, _2, _3, _4, _5, _$$7, _$$8); } break; } }; const Lib_Elab_unify_unifyRest_unifyRef_unifyVar_unifyLam = ( _, _1, _2, _3, _4, _5, _6, _7, _$$8, _$$9 ) => { switch (_$$9.tag) { case "VLam": switch (_$$8.tag) { case "VLam": { const fresh = Lib_Types_VVar(_$$8.h0, Prelude_length$27(null, _), Prelude_Lin(null)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval__$$$$_(_$$8.h4, fresh), ( vappt ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval__$$$$_(_$$9.h4, fresh), ( vappt$27 ) => (Lib_Elab_unify(Prelude__$3A$3A_(null, fresh, _), _1, vappt, vappt$27))))); break; } default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _8 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("ETA ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$8)))(""))), ( _8 ) => { const fresh = Lib_Types_VVar(_$$9.h0, Prelude_length$27(null, _), Prelude_Lin(null)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_vapp(_$$8, fresh), ( vappt ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval__$$$$_(_$$9.h4, fresh), ( vappt$27 ) => (Lib_Elab_unify(Prelude__$3A$3A_(null, fresh, _), _1, vappt, vappt$27))))); }); } break; default: switch (_$$8.tag) { case "VLam": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _8 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("ETA' ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$9)))(""))), ( _8 ) => { const fresh = Lib_Types_VVar(_$$8.h0, Prelude_length$27(null, _), Prelude_Lin(null)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval__$$$$_(_$$8.h4, fresh), ( appt ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_vapp(_$$9, fresh), ( vappt$27 ) => (Lib_Elab_unify(Prelude__$3A$3A_(null, fresh, _), _1, appt, vappt$27))))); }); default: return Lib_Elab_unify_unifyRest_unifyRef_unifyVar(_, _1, _2, _3, _4, _5, _6, _$$8, _$$9); } break; } }; const Lib_Types__bds = ( _$$0 ) => (_$$0.h3); -const Lib_Elab_makeSpine = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "_::_": { const _sc$$0 = _$$1.h1; switch (_sc$$0.tag) { case "Defined": return Lib_Elab_makeSpine(Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(_$$0)(1), _$$1.h2); case "Bound": return Prelude__$3A$3C_(null, Lib_Elab_makeSpine(Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(_$$0)(1), _$$1.h2), Lib_Types_VVar(Lib_Common_emptyFC, Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(_$$0)(1), Prelude_Lin(null))); } break; } case "Nil": return Prelude_Lin(null); } }; -const Prelude_Prelude_Monad$20Prelude_List$2Cpure = ( a$$0, _$$1 ) => (Prelude__$3A$3A_(null, _$$1, Prelude_Nil(null))); -const Prelude_Prelude_Monad$20Prelude_List$2Cbind = ( a$$0, b$$1, _$$2, _$$3 ) => { switch (_$$2.tag) { case "_::_": return Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_$$3(_$$2.h1))(Prelude_bind(null, Prelude_Prelude_Monad$20Prelude_List)(null)(null)(_$$2.h2)(_$$3)); case "Nil": return Prelude_Nil(null); } }; -const Prelude_Prelude_Monad$20Prelude_List = Prelude_MkMonad(null, ( a ) => (( b ) => (( eta ) => (( eta1 ) => (Prelude_Prelude_Monad$20Prelude_List$2Cbind(null, null, eta, eta1))))), ( a ) => (( eta ) => (Prelude_Prelude_Monad$20Prelude_List$2Cpure(null, eta)))); -const Prelude_id = ( a$$0, _$$1 ) => (_$$1); -const Prelude_join = ( m$$0, a$$1, _$$2, _$$3 ) => (Prelude__$3E$3E$3D_(null, null, null, _$$2, _$$3, ( eta ) => (Prelude_id(null, eta)))); +const Lib_Elab_REC_makeSpine = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.makeSpine": { const _sc$$0 = arg.h1; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "Defined": return { tag: "Lib.Elab.makeSpine", h0: Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(arg.h0)(1), h1: _sc$$0.h2 }; case "Bound": return { tag: "return", h0: Prelude__$3A$3C_(null, Lib_Elab_makeSpine(Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(arg.h0)(1), _sc$$0.h2), Lib_Types_VVar(Lib_Common_emptyFC, Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(arg.h0)(1), Prelude_Lin(null))) }; } break; } case "Nil": return { tag: "return", h0: Prelude_Lin(null) }; } break; } } }; +const Lib_Elab_makeSpine = ( _$$0, _$$1 ) => (bouncer(Lib_Elab_REC_makeSpine, { tag: "Lib.Elab.makeSpine", h0: _$$0, h1: _$$1 })); const Prelude_zip = ( a$$0, b$$1, _$$2, _$$3 ) => { switch (_$$3.tag) { case "_::_": switch (_$$2.tag) { case "_::_": return Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$2.h1, _$$3.h1), Prelude_zip(null, null, _$$2.h2, _$$3.h2)); default: return Prelude_Nil(null); } break; default: return Prelude_Nil(null); } }; const Lib_Types_names = ( _$$0 ) => (Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_fst(null, null, eta)))(Lib_Types__types(_$$0))); -const Lib_Elab_isCandidate = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "Pi": { const _sc$$0 = _$$1.h2; switch (_sc$$0.tag) { case "Explicit": return Prelude_False; default: return Lib_Elab_isCandidate(_$$0, _$$1.h5); } break; } case "App": return Lib_Elab_isCandidate(_$$0, _$$1.h1); case "Ref": switch (_$$0.tag) { case "VRef": return Prelude__$3D$3D_(null, Lib_Common_Prelude_Eq$20Lib_Common_QName)(_$$0.h1)(_$$1.h1); default: return Prelude_False; } break; default: return Prelude_False; } }; +const Lib_Elab_REC_isCandidate = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.isCandidate": { const _sc$$0 = arg.h1; switch (_sc$$0.tag) { case "Pi": { const _sc$$1 = _sc$$0.h2; switch (_sc$$1.tag) { case "Explicit": return { tag: "return", h0: Prelude_False }; default: return { tag: "Lib.Elab.isCandidate", h0: arg.h0, h1: _sc$$0.h5 }; } break; } case "App": return { tag: "Lib.Elab.isCandidate", h0: arg.h0, h1: _sc$$0.h1 }; case "Ref": { const _sc$$1 = arg.h0; switch (_sc$$1.tag) { case "VRef": return { tag: "return", h0: Prelude__$3D$3D_(null, Lib_Common_Prelude_Eq$20Lib_Common_QName)(_sc$$1.h1)(_sc$$0.h1) }; default: return { tag: "return", h0: Prelude_False }; } break; } default: return { tag: "return", h0: Prelude_False }; } break; } } }; +const Lib_Elab_isCandidate = ( _$$0, _$$1 ) => (bouncer(Lib_Elab_REC_isCandidate, { tag: "Lib.Elab.isCandidate", h0: _$$0, h1: _$$1 })); const Lib_Elab_contextMatches_go = ( _, _1, _2, _$$3 ) => { switch (_$$3.tag) { case "_::_": { const _sc$$0 = _$$3.h1; const _sc$$1 = _sc$$0.h3; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Lib_Types__lvl(_), _sc$$1.h3), ( type ) => { const sc$$16 = Lib_Elab_isCandidate(_1, type); switch (sc$$16.tag) { case "False": return Lib_Elab_contextMatches_go(_, _1, _2, _$$3.h2); case "True": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_readIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top)), ( mc ) => (Lib_Types_catchError(null, Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _3 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("TRY context ")(_sc$$1.h2))(" : "))(Lib_Elab_rpprint(Lib_Types_names(_), type)))(" for "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_1)))(""))), ( _3 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_unifyCatch(Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Val)(_1), _, _1, _sc$$1.h3), ( _4 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_readIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top)), ( mc$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_writeIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top), mc), ( _5 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Lib_Types__lvl(_), _sc$$0.h2), ( tm ) => (Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Prelude__$3A$3A_(null, Prelude__$2C_(null, null, tm, _sc$$1.h3), eta)), Lib_Elab_contextMatches_go(_, _1, _2, _$$3.h2)))))))))))), ( err ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _3 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("No match ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_1)))(" "))(Lib_Elab_rpprint(Lib_Types_names(_), type)))(" "))(Lib_Common_showError("", err)))(""))), ( _3 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_writeIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top), mc), ( _4 ) => (Lib_Elab_contextMatches_go(_, _1, _2, _$$3.h2))))))))))); } }); break; } case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nil(null)); } }; const Lib_Elab_contextMatches = ( _$$0, _$$1 ) => (Lib_Elab_contextMatches_go(_$$0, _$$1, null, Prelude_zip(null, null, Lib_Types__env(_$$0), Lib_Types__types(_$$0)))); const Lib_Elab_trySolveAuto = ( _$$0 ) => { switch (_$$0.tag) { case "Unsolved": { const _sc$$0 = _$$0.h4; switch (_sc$$0.tag) { case "AutoSolve": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("TRYAUTO solving ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$0.h1)))(" : "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$0.h3)))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Lib_Types__lvl(_$$0.h2), _$$0.h3), ( x ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Lib_Types__env(_$$0.h2), Lib_Types_CBN, x), ( ty ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _1 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("AUTO ---> ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(ty)))(""))), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_contextMatches(_$$0.h2, ty), ( $$sc ) => { switch ($$sc.tag) { case "_::_": { const _sc$$1 = $$sc.h1; const _sc$$2 = $$sc.h2; switch (_sc$$2.tag) { case "Nil": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_unifyCatch(Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Val)(ty), _$$0.h2, ty, _sc$$1.h3), ( _2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Lib_Types__env(_$$0.h2), Lib_Types_CBN, _sc$$1.h2), ( val ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _3 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("SOLUTION ")(Lib_Elab_rpprint(Prelude_Nil(null), _sc$$1.h2)))(" evaled to "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(val)))(""))), ( _3 ) => { const sp = Lib_Elab_makeSpine(Lib_Types__lvl(_$$0.h2), Lib_Types__bds(_$$0.h2)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_solve(Lib_Types__env(_$$0.h2), _$$0.h1, sp, val), ( _4 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_True))); }))))); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _2 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("FAILED to solve ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(ty)))(", matches: "))(Lib_Prettier_render(90, Lib_Prettier_commaSep(Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude__$2218_(null, null, null, ( eta ) => (Lib_Types_pprint(Prelude_Nil(null), eta)), ( eta ) => (Prelude_fst(null, null, eta)), eta)))($$sc)))))(""))), ( _2 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_False))); } break; } case "Nil": { const te = Data_SortedMap_listValues(null, null, Lib_Types__defs(top)); const rest = Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( x1 ) => (Data_SortedMap_listValues(null, null, Lib_Types__modDefs(x1))))(Prelude_mapMaybe(null, null, ( eta ) => (Prelude_flip(null, null, null, ( eta ) => (( eta1 ) => (Data_SortedMap_lookupMap$27(null, null, Prelude_Prelude_Ord$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Ord$20Prim_String), eta, eta1))), Lib_Types__modules(top), eta)), Lib_Types__imported(top))); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_findMatches(_$$0.h2, ty, Prelude_join(null, null, Prelude_Prelude_Monad$20Prelude_List, Prelude__$3A$3A_(null, te, rest))), ( $$sc1 ) => { switch ($$sc1.tag) { case "_::_": { const _sc$$1 = $$sc1.h2; switch (_sc$$1.tag) { case "Nil": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_check(_$$0.h2, Lib_Syntax_RVar(_$$0.h0, $$sc1.h1), ty), ( tm ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Lib_Types__env(_$$0.h2), Lib_Types_CBN, tm), ( val ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _2 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("SOLUTION ")(Lib_Elab_rpprint(Prelude_Nil(null), tm)))(" evaled to "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(val)))(""))), ( _2 ) => { const sp = Lib_Elab_makeSpine(Lib_Types__lvl(_$$0.h2), Lib_Types__bds(_$$0.h2)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_solve(Lib_Types__env(_$$0.h2), _$$0.h1, sp, val), ( _3 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_True))); }))))); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _2 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("FAILED to solve ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(ty)))(", matches: "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20Prim_String))($$sc1)))(""))), ( _2 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_False))); } break; } default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _2 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("FAILED to solve ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(ty)))(", matches: "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20Prim_String))($$sc1)))(""))), ( _2 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_False))); } }); break; } } }))))))))))); default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_False); } break; } default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_False); } }; -const Lib_Elab_checkAutos_usesMeta = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _$$12 ) => { switch (_$$12.tag) { case "App": { const _sc$$0 = _$$12.h1; switch (_sc$$0.tag) { case "Meta": { const sc$$18 = Prelude__$3D$3D_(null, Lib_Common_Prelude_Eq$20Lib_Common_QName)(_sc$$0.h1)(_); switch (sc$$18.tag) { case "False": return Lib_Elab_checkAutos_usesMeta(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _$$12.h2); case "True": return Prelude_True; } break; } default: return Lib_Elab_checkAutos_usesMeta(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _$$12.h2); } break; } default: return Prelude_False; } }; -const Lib_Elab_checkAutos = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "_::_": { const _sc$$0 = _$$1.h1; switch (_sc$$0.tag) { case "Unsolved": { const _sc$$1 = _sc$$0.h4; switch (_sc$$1.tag) { case "AutoSolve": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Lib_Types__lvl(_sc$$0.h2), _sc$$0.h3), ( ty$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_when(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Lib_Elab_checkAutos_usesMeta(_$$0, _$$1, _$$1.h0, _$$1.h1, _$$1.h2, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, _sc$$0.h4, _sc$$0.h5, null, ty$27), ( _ ) => (Prelude_ignore(null, null, Lib_Types_Prelude_Functor$20Lib_Types_M)(Lib_Elab_trySolveAuto(_$$1.h1)))), ( _ ) => (Lib_Elab_checkAutos(_$$0, _$$1.h2))))); default: return Lib_Elab_checkAutos(_$$0, _$$1.h2); } break; } default: return Lib_Elab_checkAutos(_$$0, _$$1.h2); } break; } case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_MkUnit); } }; +const Lib_Elab_REC_checkAutos_usesMeta = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.checkAutos.usesMeta": { const _sc$$0 = arg.h12; switch (_sc$$0.tag) { case "App": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "Meta": { const sc$$18 = Prelude__$3D$3D_(null, Lib_Common_Prelude_Eq$20Lib_Common_QName)(_sc$$1.h1)(arg.h0); switch (sc$$18.tag) { case "False": return { tag: "Lib.Elab.checkAutos.usesMeta", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: arg.h8, h9: arg.h9, h10: arg.h10, h11: arg.h11, h12: _sc$$0.h2 }; case "True": return { tag: "return", h0: Prelude_True }; } break; } default: return { tag: "Lib.Elab.checkAutos.usesMeta", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: arg.h8, h9: arg.h9, h10: arg.h10, h11: arg.h11, h12: _sc$$0.h2 }; } break; } default: return { tag: "return", h0: Prelude_False }; } break; } } }; +const Lib_Elab_checkAutos_usesMeta = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _$$12 ) => (bouncer(Lib_Elab_REC_checkAutos_usesMeta, { tag: "Lib.Elab.checkAutos.usesMeta", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _5, h6: _6, h7: _7, h8: _8, h9: _9, h10: _10, h11: _11, h12: _$$12 })); +const Lib_Elab_REC_checkAutos = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.checkAutos": { const _sc$$0 = arg.h1; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "Unsolved": { const _sc$$2 = _sc$$1.h4; switch (_sc$$2.tag) { case "AutoSolve": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Lib_Types__lvl(_sc$$1.h2), _sc$$1.h3), ( ty$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_when(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Lib_Elab_checkAutos_usesMeta(arg.h0, arg.h1, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$1.h0, _sc$$1.h1, _sc$$1.h2, _sc$$1.h3, _sc$$1.h4, _sc$$1.h5, null, ty$27), ( _ ) => (Prelude_ignore(null, null, Lib_Types_Prelude_Functor$20Lib_Types_M)(Lib_Elab_trySolveAuto(_sc$$0.h1)))), ( _ ) => (Lib_Elab_checkAutos(arg.h0, _sc$$0.h2))))) }; default: return { tag: "Lib.Elab.checkAutos", h0: arg.h0, h1: _sc$$0.h2 }; } break; } default: return { tag: "Lib.Elab.checkAutos", h0: arg.h0, h1: _sc$$0.h2 }; } break; } case "Nil": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_MkUnit) }; } break; } } }; +const Lib_Elab_checkAutos = ( _$$0, _$$1 ) => (bouncer(Lib_Elab_REC_checkAutos, { tag: "Lib.Elab.checkAutos", h0: _$$0, h1: _$$1 })); const Lib_Types_MkMc = ( h0, h1, h2, h3 ) => ({ tag: "MkMc", h0: h0, h1: h1, h2: h2, h3: h3 }); const Lib_Types_Unsolved = ( h0, h1, h2, h3, h4, h5 ) => ({ tag: "Unsolved", h0: h0, h1: h1, h2: h2, h3: h3, h4: h4, h5: h5 }); const Lib_Types__mcmode = ( _$$0 ) => (_$$0.h2); @@ -583,15 +668,18 @@ const Lib_Types_Solved = ( h0, h1, h2 ) => ({ tag: "Solved", h0: h0, h1: h1, const Lib_Types_Bound = { tag: "Bound" }; const Lib_Types_Prelude_Eq$20Lib_Types_BD$2C_$3D$3D_ = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "Defined": switch (_$$0.tag) { case "Defined": return Prelude_True; default: return Prelude_False; } break; case "Bound": switch (_$$0.tag) { case "Bound": return Prelude_True; default: return Prelude_False; } break; } }; const Lib_Types_Prelude_Eq$20Lib_Types_BD = Prelude_MkEq(null, ( eta ) => (( eta1 ) => (Lib_Types_Prelude_Eq$20Lib_Types_BD$2C_$3D$3D_(eta, eta1)))); -const Prelude_filter = ( a$$0, _$$1, _$$2 ) => { switch (_$$2.tag) { case "_::_": { const sc$$6 = _$$1(_$$2.h1); switch (sc$$6.tag) { case "False": return Prelude_filter(null, _$$1, _$$2.h2); case "True": return Prelude__$3A$3A_(null, _$$2.h1, Prelude_filter(null, _$$1, _$$2.h2)); } break; } case "Nil": return Prelude_Nil(null); } }; +const Prelude_REC_filter = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Prelude.filter": { const _sc$$0 = arg.h2; switch (_sc$$0.tag) { case "_::_": { const sc$$6 = arg.h1(_sc$$0.h1); switch (sc$$6.tag) { case "False": return { tag: "Prelude.filter", h0: null, h1: arg.h1, h2: _sc$$0.h2 }; case "True": return { tag: "return", h0: Prelude__$3A$3A_(null, _sc$$0.h1, Prelude_filter(null, arg.h1, _sc$$0.h2)) }; } break; } case "Nil": return { tag: "return", h0: Prelude_Nil(null) }; } break; } } }; +const Prelude_filter = ( a$$0, _$$1, _$$2 ) => (bouncer(Prelude_REC_filter, { tag: "Prelude.filter", h0: a$$0, h1: _$$1, h2: _$$2 })); const Lib_Elab__boundNames = ( _$$0 ) => (Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_snd(null, null, eta)))(Prelude_filter(null, ( x ) => (Prelude__$3D$3D_(null, Lib_Types_Prelude_Eq$20Lib_Types_BD)(Prelude_fst(null, null, x))(Lib_Types_Bound)), Prelude_zip(null, null, Lib_Types__bds(_$$0), Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_fst(null, null, eta)))(Lib_Types__types(_$$0)))))); const Lib_Elab_lams = ( _$$0, _$$1, _$$2 ) => { switch (_$$0.tag) { case "S": switch (_$$1.tag) { case "_::_": return Lib_Types_Lam(Lib_Common_emptyFC, _$$1.h1, Lib_Types_Explicit, Lib_Types_Many, Lib_Elab_lams(_$$0.h0, _$$1.h2, _$$2)); case "Nil": return Lib_Types_Lam(Lib_Common_emptyFC, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("arg_")(Prelude_show(null, Prelude_Prelude_Show$20Prelude_Nat)(_$$0.h0)))(""), Lib_Types_Explicit, Lib_Types_Many, Lib_Elab_lams(_$$0.h0, Prelude_Nil(null), _$$2)); } break; case "Z": return _$$2; } }; const Lib_Elab_renameSpine = ( _$$0, _$$1, _$$2, _$$3, _$$4 ) => { switch (_$$4.tag) { case "_:<_": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_rename(_$$0, _$$1, _$$2, _$$4.h2), ( xtm ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_renameSpine(_$$0, _$$1, _$$2, _$$3, _$$4.h1), ( xs$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_App(Lib_Common_emptyFC, xs$27, xtm)))))); case "Lin": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(_$$3); } }; -const Prelude_findIndex$27_go = ( _, _1, _2, _3, _$$4, _$$5 ) => { switch (_$$4.tag) { case "_::_": { const sc$$9 = _1(_$$4.h1); switch (sc$$9.tag) { case "False": return Prelude_findIndex$27_go(_, _1, _2, _3, _$$4.h2, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$5)(1)); case "True": return Prelude_Just(null, _$$5); } break; } case "Nil": return Prelude_Nothing(null); } }; +const Prelude_REC_findIndex$27_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Prelude.findIndex'.go": { const _sc$$0 = arg.h4; switch (_sc$$0.tag) { case "_::_": { const sc$$9 = arg.h1(_sc$$0.h1); switch (sc$$9.tag) { case "False": return { tag: "Prelude.findIndex'.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: _sc$$0.h2, h5: Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(arg.h5)(1) }; case "True": return { tag: "return", h0: Prelude_Just(null, arg.h5) }; } break; } case "Nil": return { tag: "return", h0: Prelude_Nothing(null) }; } break; } } }; +const Prelude_findIndex$27_go = ( _, _1, _2, _3, _$$4, _$$5 ) => (bouncer(Prelude_REC_findIndex$27_go, { tag: "Prelude.findIndex'.go", h0: _, h1: _1, h2: _2, h3: _3, h4: _$$4, h5: _$$5 })); const Prelude_findIndex$27 = ( a$$0, _$$1, _$$2 ) => (Prelude_findIndex$27_go(a$$0, _$$1, _$$2, null, _$$2, 0)); const Lib_Common_Postpone = ( h0, h1, h2 ) => ({ tag: "Postpone", h0: h0, h1: h1, h2: h2 }); const Lib_Elab_rename = ( _$$0, _$$1, _$$2, _$$3 ) => { switch (_$$3.tag) { case "VLit": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Lit(_$$3.h0, _$$3.h1)); case "VErased": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Erased(_$$3.h0)); case "VU": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_UU(_$$3.h0)); case "VLetRec": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_rename(_$$0, _$$1, _$$2, _$$3.h2), ( ty$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_rename(_$$0, Prelude__$3A$3A_(null, _$$2, _$$1), Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$2), _$$3.h3), ( val$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_rename(_$$0, Prelude__$3A$3A_(null, _$$2, _$$1), Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$2), _$$3.h4), ( body$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_LetRec(_$$3.h0, _$$3.h1, ty$27, val$27, body$27)))))))); case "VLet": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_rename(_$$0, _$$1, _$$2, _$$3.h2), ( val$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_rename(_$$0, Prelude__$3A$3A_(null, _$$2, _$$1), Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$2), _$$3.h3), ( body$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Let(_$$3.h0, _$$3.h1, val$27, body$27)))))); case "VPi": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_rename(_$$0, _$$1, _$$2, _$$3.h4), ( ty$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval__$$$$_(_$$3.h5, Lib_Types_VVar(Lib_Common_emptyFC, _$$2, Prelude_Lin(null))), ( tmapp ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_rename(_$$0, Prelude__$3A$3A_(null, _$$2, _$$1), Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$2), tmapp), ( scope$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Pi(_$$3.h0, _$$3.h1, _$$3.h2, _$$3.h3, ty$27, scope$27)))))))); case "VLam": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval__$$$$_(_$$3.h4, Lib_Types_VVar(_$$3.h0, _$$2, Prelude_Lin(null))), ( tapp ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_rename(_$$0, Prelude__$3A$3A_(null, _$$2, _$$1), Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$2), tapp), ( scope ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Lam(_$$3.h0, _$$3.h1, _$$3.h2, _$$3.h3, scope)))))); case "VMeta": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("rename Meta ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$3.h1)))(" spine "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_SnocList$20BND$3A1$29(null, Lib_Types_Prelude_Show$20Lib_Types_Val))(_$$3.h2)))(""))), ( _ ) => { const sc$$8 = Prelude__$3D$3D_(null, Lib_Common_Prelude_Eq$20Lib_Common_QName)(_$$3.h1)(_$$0); switch (sc$$8.tag) { case "False": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_lookupMeta(_$$3.h1), ( meta$27 ) => { switch (meta$27.tag) { case "Solved": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _1 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("rename: ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$3.h1)))(" is solved"))), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_vappSpine(meta$27.h2, _$$3.h2), ( val$27 ) => (Lib_Elab_rename(_$$0, _$$1, _$$2, val$27))))); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _1 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("rename: ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$3.h1)))(" is unsolved"))), ( _1 ) => (Lib_Types_catchError(null, Lib_Elab_renameSpine(_$$0, _$$1, _$$2, Lib_Types_Meta(_$$3.h0, _$$3.h1), _$$3.h2), ( err ) => (Lib_Types_throwError(null, Lib_Common_Postpone(_$$3.h0, _$$3.h1, Lib_Types_errorMsg(err))))))); } }); case "True": return Lib_Types_error(null, _$$3.h0, "meta occurs check"); } }); case "VCase": return Lib_Types_error(null, _$$3.h0, "Case in solution"); case "VRef": return Lib_Elab_renameSpine(_$$0, _$$1, _$$2, Lib_Types_Ref(_$$3.h0, _$$3.h1), _$$3.h2); case "VVar": { const sc$$7 = Prelude_findIndex$27(null, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(_$$3.h1), _$$1); switch (sc$$7.tag) { case "Nothing": return Lib_Types_error(null, _$$3.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("scope/skolem thinger VVar ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(_$$3.h1)))(" ren "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20Prim_Int))(_$$1)))("")); case "Just": return Lib_Elab_renameSpine(_$$0, _$$1, _$$2, Lib_Types_Bnd(_$$3.h0, sc$$7.h1), _$$3.h2); } break; } } }; -const Lib_Elab_invert_go = ( _, _1, _2, _$$3, _$$4 ) => { switch (_$$3.tag) { case "_:<_": { const _sc$$0 = _$$3.h2; switch (_sc$$0.tag) { case "VVar": { const _sc$$1 = _sc$$0.h2; switch (_sc$$1.tag) { case "Lin": { const sc$$12 = Prelude_elem(null, Prelude_Prelude_Eq$20Prim_Int, _sc$$0.h1, _$$4); switch (sc$$12.tag) { case "False": return Lib_Elab_invert_go(_, _1, _2, _$$3.h1, Prelude__$3A$3A_(null, _sc$$0.h1, _$$4)); case "True": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _3 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(_sc$$0.h1)))(" "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20Prim_Int))(_$$4)))(""))), ( _3 ) => (Lib_Types_error(null, _sc$$0.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("non-linear pattern: ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_SnocList$20BND$3A1$29(null, Lib_Types_Prelude_Show$20Lib_Types_Val))(_1)))("")))); } break; } default: return Lib_Types_error(null, Lib_Common_emptyFC, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("non-variable in pattern ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$3.h2)))("")); } break; } default: return Lib_Types_error(null, Lib_Common_emptyFC, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("non-variable in pattern ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$3.h2)))("")); } break; } case "Lin": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_reverse(null)(_$$4)); } }; +const Lib_Elab_REC_invert_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.invert.go": { const _sc$$0 = arg.h3; switch (_sc$$0.tag) { case "_:<_": { const _sc$$1 = _sc$$0.h2; switch (_sc$$1.tag) { case "VVar": { const _sc$$2 = _sc$$1.h2; switch (_sc$$2.tag) { case "Lin": { const sc$$12 = Prelude_elem(null, Prelude_Prelude_Eq$20Prim_Int, _sc$$1.h1, arg.h4); switch (sc$$12.tag) { case "False": return { tag: "Lib.Elab.invert.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: _sc$$0.h1, h4: Prelude__$3A$3A_(null, _sc$$1.h1, arg.h4) }; case "True": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(_sc$$1.h1)))(" "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20Prim_Int))(arg.h4)))(""))), ( _ ) => (Lib_Types_error(null, _sc$$1.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("non-linear pattern: ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_SnocList$20BND$3A1$29(null, Lib_Types_Prelude_Show$20Lib_Types_Val))(arg.h1)))("")))) }; } break; } default: return { tag: "return", h0: Lib_Types_error(null, Lib_Common_emptyFC, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("non-variable in pattern ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$0.h2)))("")) }; } break; } default: return { tag: "return", h0: Lib_Types_error(null, Lib_Common_emptyFC, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("non-variable in pattern ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$0.h2)))("")) }; } break; } case "Lin": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_reverse(null)(arg.h4)) }; } break; } } }; +const Lib_Elab_invert_go = ( _, _1, _2, _$$3, _$$4 ) => (bouncer(Lib_Elab_REC_invert_go, { tag: "Lib.Elab.invert.go", h0: _, h1: _1, h2: _2, h3: _$$3, h4: _$$4 })); const Lib_Elab_invert = ( _$$0, _$$1 ) => (Lib_Elab_invert_go(_$$0, _$$1, null, _$$1, Prelude_Nil(null))); const Lib_Types_Prelude_Show$20Lib_Types_BD$2Cshow = ( _$$0 ) => { switch (_$$0.tag) { case "Defined": return "def"; case "Bound": return "bnd"; } }; const Lib_Types_Prelude_Show$20Lib_Types_BD = Prelude_MkShow(null, Lib_Types_Prelude_Show$20Lib_Types_BD$2Cshow); @@ -620,13 +708,15 @@ const Lib_Syntax_Prelude_Show$20Lib_Syntax_RCaseAlt = Prelude_MkShow(null, Lib_S const Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw$2Cshow = ( _$$0 ) => { switch (_$$0.tag) { case "RAs": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "RAs", Prelude__$3A$3A_(null, _$$0.h1, Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h2), Prelude_Nil(null))))); case "RWhere": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "Where", Prelude__$3A$3A_(null, "FIXME", Prelude_Nil(null)))); case "RIf": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "If", Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h1), Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h2), Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h3), Prelude_Nil(null)))))); case "RDo": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "DO", Prelude__$3A$3A_(null, "FIXME", Prelude_Nil(null)))); case "RHole": return "?"; case "RImplicit": return "_"; case "RCase": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "Case", Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h1), Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_RCaseAlt))(_$$0.h2), Prelude_Nil(null))))); case "RLit": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "RLit", Prelude__$3A$3A_(null, Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Literal)(_$$0.h1), Prelude_Nil(null)))); case "RAnn": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "RAnn", Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h1), Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h2), Prelude_Nil(null))))); case "RLet": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "Let", Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_$$0.h1), Prelude__$3A$3A_(null, " : ", Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h2), Prelude__$3A$3A_(null, " = ", Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h3), Prelude__$3A$3A_(null, " in ", Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h4), Prelude_Nil(null)))))))))); case "RPi": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "Pi", Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Types_BindInfo)(_$$0.h1), Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h2), Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h3), Prelude_Nil(null)))))); case "RU": return "U"; case "RApp": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "App", Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h1), Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h2), Prelude__$3A$3A_(null, Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Icit)(_$$0.h3), Prelude_Nil(null)))))); case "RLam": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "Lam", Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Types_BindInfo)(_$$0.h1), Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h2), Prelude_Nil(null))))); case "RVar": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "RVar", Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_$$0.h1), Prelude_Nil(null)))); } }; const Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw = Prelude_MkShow(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw$2Cshow); const Lib_Types_Normal = { tag: "Normal" }; -const Lib_Elab_freshMeta_applyBDs = ( _, _1, _2, _3, _4, _$$5, _$$6, _$$7 ) => { switch (_$$7.tag) { case "_::_": { const _sc$$0 = _$$7.h1; switch (_sc$$0.tag) { case "Defined": return Lib_Elab_freshMeta_applyBDs(_, _1, _2, _3, _4, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$5), _$$6, _$$7.h2); case "Bound": return Lib_Types_App(Lib_Common_emptyFC, Lib_Elab_freshMeta_applyBDs(_, _1, _2, _3, _4, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$5), _$$6, _$$7.h2), Lib_Types_Bnd(Lib_Common_emptyFC, _$$5)); } break; } case "Nil": return _$$6; } }; +const Lib_Elab_REC_freshMeta_applyBDs = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.freshMeta.applyBDs": { const _sc$$0 = arg.h7; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "Defined": return { tag: "Lib.Elab.freshMeta.applyBDs", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(arg.h5), h6: arg.h6, h7: _sc$$0.h2 }; case "Bound": return { tag: "return", h0: Lib_Types_App(Lib_Common_emptyFC, Lib_Elab_freshMeta_applyBDs(arg.h0, arg.h1, arg.h2, arg.h3, arg.h4, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(arg.h5), arg.h6, _sc$$0.h2), Lib_Types_Bnd(Lib_Common_emptyFC, arg.h5)) }; } break; } case "Nil": return { tag: "return", h0: arg.h6 }; } break; } } }; +const Lib_Elab_freshMeta_applyBDs = ( _, _1, _2, _3, _4, _$$5, _$$6, _$$7 ) => (bouncer(Lib_Elab_REC_freshMeta_applyBDs, { tag: "Lib.Elab.freshMeta.applyBDs", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _$$5, h6: _$$6, h7: _$$7 })); const Lib_Elab_freshMeta = ( _$$0, _$$1, _$$2, _$$3 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_readIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top)), ( mc ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("fresh meta ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(Lib_Types__next(mc))))(" : "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$2)))(" ("))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_MetaKind)(_$$3)))(")"))), ( _ ) => { const qn = Lib_Common_QN(Lib_Types__ns(top), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("$m")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(Lib_Types__next(mc))))("")); const newmeta = Lib_Types_Unsolved(_$$1, qn, _$$0, _$$2, _$$3, Prelude_Nil(null)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_writeIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top), Lib_Types_MC(Data_SortedMap_updateMap(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, qn, newmeta, Lib_Types__metas(mc)), Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(Lib_Types__next(mc)), Lib_Types__mcmode(mc))), ( _1 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Elab_freshMeta_applyBDs(_$$0, _$$1, _$$2, _$$3, null, 0, Lib_Types_Meta(_$$1, qn), Lib_Types__bds(_$$0))))); })))))); const Lib_Types_AutoSolve = { tag: "AutoSolve" }; const Lib_Elab_insert = ( ctx$$0, _$$1, _$$2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_forceMeta(_$$2), ( ty$27 ) => { switch (ty$27.tag) { case "VPi": { const _sc$$0 = ty$27.h2; switch (_sc$$0.tag) { case "Auto": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_freshMeta(ctx$$0, Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Tm)(_$$1), ty$27.h4, Lib_Types_AutoSolve), ( m ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("INSERT Auto ")(Lib_Elab_rpprint(Lib_Types_names(ctx$$0), m)))(" : "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(ty$27.h4)))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _1 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("TM ")(Lib_Elab_rpprint(Lib_Types_names(ctx$$0), _$$1)))(""))), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Lib_Types__env(ctx$$0), Lib_Types_CBN, m), ( mv ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval__$$$$_(ty$27.h5, mv), ( bapp ) => (Lib_Elab_insert(ctx$$0, Lib_Types_App(Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Tm)(_$$1), _$$1, m), bapp))))))))))); case "Implicit": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_freshMeta(ctx$$0, Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Tm)(_$$1), ty$27.h4, Lib_Types_Normal), ( m ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("INSERT ")(Lib_Elab_rpprint(Lib_Types_names(ctx$$0), m)))(" : "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(ty$27.h4)))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _1 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("TM ")(Lib_Elab_rpprint(Lib_Types_names(ctx$$0), _$$1)))(""))), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Lib_Types__env(ctx$$0), Lib_Types_CBN, m), ( mv ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval__$$$$_(ty$27.h5, mv), ( bapp ) => (Lib_Elab_insert(ctx$$0, Lib_Types_App(Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Tm)(_$$1), _$$1, m), bapp))))))))))); default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _$$1, ty$27)); } break; } default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _$$1, ty$27)); } })); const Lib_Types_Prelude_Show$20Lib_Types_Def$2Cshow = ( _$$0 ) => { switch (_$$0.tag) { case "PrimFn": return Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("PrimFn ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_$$0.h0)))(" "))(Prelude_show(null, Prelude_Prelude_Show$20Prelude_Nat)(_$$0.h1)))(" "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Common_Prelude_Show$20Lib_Common_QName))(_$$0.h2)))(""); case "PrimTCon": return "PrimTCon"; case "Fn": return Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Fn ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Tm)(_$$0.h0)))(""); case "DCon": return Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("DCon ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(_$$0.h0)))(" "))(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$0.h1)))(""); case "TCon": return Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("TCon ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Common_Prelude_Show$20Lib_Common_QName))(_$$0.h1)))(""); case "Axiom": return "axiom"; } }; const Lib_Types_Prelude_Show$20Lib_Types_Def = Prelude_MkShow(null, Lib_Types_Prelude_Show$20Lib_Types_Def$2Cshow); -const Lib_Elab_infer_go = ( _, _1, _2, _3, _4, _$$5, _$$6 ) => { switch (_$$6.tag) { case "_::_": { const _sc$$0 = _$$6.h1; const sc$$14 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$0.h2)(_3); switch (sc$$14.tag) { case "False": return Lib_Elab_infer_go(_, _1, _2, _3, _4, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$5)(1), _$$6.h2); case "True": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, Lib_Types_Bnd(_2, _$$5), _sc$$0.h3)); } break; } case "Nil": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => { const sc$$9 = Lib_TopContext_lookupRaw(_3, top); switch (sc$$9.tag) { case "Nothing": return Lib_Types_error(null, _2, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_3)))(" not in scope")); case "Just": { const _sc$$0 = sc$$9.h1; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _5 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("lookup ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$0.h1)))(" as "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Def)(_sc$$0.h3)))(""))), ( _5 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Prelude_Nil(null), Lib_Types_CBN, _sc$$0.h2), ( vty ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, Lib_Types_Ref(_2, _sc$$0.h1), vty)))))); break; } } }); } }; +const Lib_Elab_REC_infer_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.infer.go": { const _sc$$0 = arg.h6; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const sc$$14 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$1.h2)(arg.h3); switch (sc$$14.tag) { case "False": return { tag: "Lib.Elab.infer.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(arg.h5)(1), h6: _sc$$0.h2 }; case "True": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, Lib_Types_Bnd(arg.h2, arg.h5), _sc$$1.h3)) }; } break; } case "Nil": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => { const sc$$9 = Lib_TopContext_lookupRaw(arg.h3, top); switch (sc$$9.tag) { case "Nothing": return Lib_Types_error(null, arg.h2, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(arg.h3)))(" not in scope")); case "Just": { const _sc$$1 = sc$$9.h1; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("lookup ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$1.h1)))(" as "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Def)(_sc$$1.h3)))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Prelude_Nil(null), Lib_Types_CBN, _sc$$1.h2), ( vty ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, Lib_Types_Ref(arg.h2, _sc$$1.h1), vty)))))); break; } } }) }; } break; } } }; +const Lib_Elab_infer_go = ( _, _1, _2, _3, _4, _$$5, _$$6 ) => (bouncer(Lib_Elab_REC_infer_go, { tag: "Lib.Elab.infer.go", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _$$5, h6: _$$6 })); const Lib_Types_MkCtx = ( h0, h1, h2, h3, h4 ) => ({ tag: "MkCtx", h0: h0, h1: h1, h2: h2, h3: h3, h4: h4 }); const Lib_Types_extend = ( _$$0, _$$1, _$$2 ) => (Lib_Types_MkCtx(Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$0.h0), Prelude__$3A$3A_(null, Lib_Types_VVar(Lib_Common_emptyFC, _$$0.h0, Prelude_Lin(null)), _$$0.h1), Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$1, _$$2), _$$0.h2), Prelude__$3A$3A_(null, Lib_Types_Bound, _$$0.h3), _$$0.h4)); const Lib_Types_Prelude_Eq$20Lib_Types_Icit$2C_$3D$3D_ = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "Auto": switch (_$$0.tag) { case "Auto": return Prelude_True; default: return Prelude_False; } break; case "Explicit": switch (_$$0.tag) { case "Explicit": return Prelude_True; default: return Prelude_False; } break; case "Implicit": switch (_$$0.tag) { case "Implicit": return Prelude_True; default: return Prelude_False; } break; } }; @@ -661,11 +751,13 @@ const Lib_Syntax_Prelude_Show$20Lib_Syntax_Pattern = Prelude_MkShow(null, Lib_Sy const Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Pattern$2CgetFC = ( _$$0 ) => { switch (_$$0.tag) { case "PatLit": return _$$0.h0; case "PatWild": return _$$0.h0; case "PatCon": return _$$0.h0; case "PatVar": return _$$0.h0; } }; const Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Pattern = Lib_Common_MkHasFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Pattern$2CgetFC); const Lib_Elab_checkDone_rename = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _$$15 ) => { switch (_$$15.tag) { case "_::_": { const _sc$$0 = _$$15.h1; const sc$$23 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$0.h2)(_9); switch (sc$$23.tag) { case "False": return Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h2, _sc$$0.h3), Lib_Elab_checkDone_rename(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _$$15.h2)); case "True": return Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _13, _sc$$0.h3), _$$15.h2); } break; } case "Nil": return Prelude_Nil(null); } }; -const Lib_Elab_checkDone = ( _$$0, _$$1, _$$2, _$$3 ) => { switch (_$$1.tag) { case "_::_": { const _sc$$0 = _$$1.h1; const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "PatWild": return Lib_Elab_checkDone(_$$0, _$$1.h2, _$$2, _$$3); case "PatVar": { const ctx = Lib_Types_MkCtx(Lib_Types__lvl(_$$0), Lib_Types__env(_$$0), Lib_Elab_checkDone_rename(_$$0, _$$1, _$$2, _$$3, _$$1.h0, _$$1.h1, _$$1.h2, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, _sc$$1.h0, _sc$$1.h1, _sc$$1.h2, null, Lib_Types__types(_$$0)), Lib_Types__bds(_$$0), Lib_Types__ctxFC(_$$0)); return Lib_Elab_checkDone(ctx, _$$1.h2, _$$2, _$$3); break; } default: return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Pattern)(_sc$$0.h3), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("stray constraint ")(_sc$$0.h2))(" /? "))(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Pattern)(_sc$$0.h3)))("")); } break; } case "Nil": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("DONE-> check body ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$2)))(" at "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$3)))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debugM(Lib_Elab_showCtx(_$$0)), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, Lib_Types__env(_$$0), ( val ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Prelude_length$27(null, Lib_Types__env(_$$0)), val), ( ty ) => (Lib_Eval_eval(Lib_Types__env(_$$0), Lib_Types_CBV, ty))))), ( env$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, Lib_Types__types(_$$0), ( $$case ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Prelude_length$27(null, env$27), $$case.h3), ( nty ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(env$27, Lib_Types_CBV, nty), ( ty$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, $$case.h2, ty$27)))))))), ( types$27 ) => { const ctx = Lib_Types_MkCtx(Lib_Types__lvl(_$$0), env$27, types$27, Lib_Types__bds(_$$0), Lib_Types__ctxFC(_$$0)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _2 ) => ("AFTER")), ( _2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debugM(Lib_Elab_showCtx(ctx)), ( _3 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Prelude_length$27(null, Lib_Types__env(ctx)), _$$3), ( ty ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Lib_Types__env(ctx), Lib_Types_CBN, ty), ( ty1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _4 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("check at ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(ty1)))(""))), ( _4 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_check(ctx, _$$2, ty1), ( got ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _5 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("DONE<- got ")(Lib_Elab_rpprint(Lib_Types_names(ctx), got)))(""))), ( _5 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(got))))))))))))))); }))))))); } }; +const Lib_Elab_REC_checkDone = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.checkDone": { const _sc$$0 = arg.h1; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const _sc$$2 = _sc$$1.h3; switch (_sc$$2.tag) { case "PatWild": return { tag: "Lib.Elab.checkDone", h0: arg.h0, h1: _sc$$0.h2, h2: arg.h2, h3: arg.h3 }; case "PatVar": { const ctx = Lib_Types_MkCtx(Lib_Types__lvl(arg.h0), Lib_Types__env(arg.h0), Lib_Elab_checkDone_rename(arg.h0, arg.h1, arg.h2, arg.h3, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$1.h0, _sc$$1.h1, _sc$$1.h2, _sc$$1.h3, _sc$$2.h0, _sc$$2.h1, _sc$$2.h2, null, Lib_Types__types(arg.h0)), Lib_Types__bds(arg.h0), Lib_Types__ctxFC(arg.h0)); return { tag: "Lib.Elab.checkDone", h0: ctx, h1: _sc$$0.h2, h2: arg.h2, h3: arg.h3 }; break; } default: return { tag: "return", h0: Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Pattern)(_sc$$1.h3), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("stray constraint ")(_sc$$1.h2))(" /? "))(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Pattern)(_sc$$1.h3)))("")) }; } break; } case "Nil": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("DONE-> check body ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(arg.h2)))(" at "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(arg.h3)))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debugM(Lib_Elab_showCtx(arg.h0)), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, Lib_Types__env(arg.h0), ( val ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Prelude_length$27(null, Lib_Types__env(arg.h0)), val), ( ty ) => (Lib_Eval_eval(Lib_Types__env(arg.h0), Lib_Types_CBV, ty))))), ( env$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, Lib_Types__types(arg.h0), ( $$case ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Prelude_length$27(null, env$27), $$case.h3), ( nty ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(env$27, Lib_Types_CBV, nty), ( ty$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, $$case.h2, ty$27)))))))), ( types$27 ) => { const ctx = Lib_Types_MkCtx(Lib_Types__lvl(arg.h0), env$27, types$27, Lib_Types__bds(arg.h0), Lib_Types__ctxFC(arg.h0)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _2 ) => ("AFTER")), ( _2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debugM(Lib_Elab_showCtx(ctx)), ( _3 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Prelude_length$27(null, Lib_Types__env(ctx)), arg.h3), ( ty ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Lib_Types__env(ctx), Lib_Types_CBN, ty), ( ty1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _4 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("check at ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(ty1)))(""))), ( _4 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_check(ctx, arg.h2, ty1), ( got ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _5 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("DONE<- got ")(Lib_Elab_rpprint(Lib_Types_names(ctx), got)))(""))), ( _5 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(got))))))))))))))); }))))))) }; } break; } } }; +const Lib_Elab_checkDone = ( _$$0, _$$1, _$$2, _$$3 ) => (bouncer(Lib_Elab_REC_checkDone, { tag: "Lib.Elab.checkDone", h0: _$$0, h1: _$$1, h2: _$$2, h3: _$$3 })); const Lib_Elab__ty = ( _$$0 ) => (_$$0.h1); const Lib_Elab__clauses = ( _$$0 ) => (_$$0.h0); const Lib_Syntax__cons = ( _$$0 ) => (_$$0.h1); -const Prelude_find = ( a$$0, _$$1, _$$2 ) => { switch (_$$2.tag) { case "_::_": { const sc$$6 = _$$1(_$$2.h1); switch (sc$$6.tag) { case "False": return Prelude_find(null, _$$1, _$$2.h2); case "True": return Prelude_Just(null, _$$2.h1); } break; } case "Nil": return Prelude_Nothing(null); } }; +const Prelude_REC_find = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Prelude.find": { const _sc$$0 = arg.h2; switch (_sc$$0.tag) { case "_::_": { const sc$$6 = arg.h1(_sc$$0.h1); switch (sc$$6.tag) { case "False": return { tag: "Prelude.find", h0: null, h1: arg.h1, h2: _sc$$0.h2 }; case "True": return { tag: "return", h0: Prelude_Just(null, _sc$$0.h1) }; } break; } case "Nil": return { tag: "return", h0: Prelude_Nothing(null) }; } break; } } }; +const Prelude_find = ( a$$0, _$$1, _$$2 ) => (bouncer(Prelude_REC_find, { tag: "Prelude.find", h0: a$$0, h1: _$$1, h2: _$$2 })); const Lib_Elab_buildDefault_isDefault = ( _, _1, _2, _3, _4, _5, _$$6 ) => { const sc$$7 = Prelude_find(null, ( eta ) => (Prelude__$2218_(null, null, null, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_3), ( eta ) => (Prelude_fst(null, null, eta)), eta)), Lib_Syntax__cons(_$$6)); switch (sc$$7.tag) { case "Nothing": return Prelude_True; case "Just": { const _sc$$0 = sc$$7.h1; const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "PatWild": return Prelude_True; case "PatVar": return Prelude_True; default: return Prelude_False; } break; } } }; const Lib_Elab_buildDefault = ( _$$0, _$$1, _$$2, _$$3, _$$4 ) => { const defclauses = Prelude_filter(null, ( eta ) => (Lib_Elab_buildDefault_isDefault(_$$0, _$$1, _$$2, _$$3, _$$4, null, eta)), Lib_Elab__clauses(_$$1)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_when(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(Prelude_length$27(null, defclauses))(0), ( _ ) => (Lib_Types_error(null, _$$2, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("missing cases ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Common_Prelude_Show$20Lib_Common_QName))(_$$4)))(" on "))(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_$$3)))("")))), ( _ ) => (Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, Lib_Types_CaseDefault, Lib_Elab_buildTree(_$$0, Lib_Elab_MkProb(defclauses, Lib_Elab__ty(_$$1)))))); }; const Lib_Types_Prelude_Show$20Lib_Types_CaseAlt$2Cshow = Lib_Types_showCaseAlt; @@ -678,7 +770,8 @@ const Lib_Syntax_PatVar = ( h0, h1, h2 ) => ({ tag: "PatVar", h0: h0, h1: h1, const Lib_Syntax_PatWild = ( h0, h1 ) => ({ tag: "PatWild", h0: h0, h1: h1 }); const Lib_Syntax_getIcit = ( _$$0 ) => { switch (_$$0.tag) { case "PatLit": return Lib_Types_Explicit; case "PatWild": return _$$0.h1; case "PatCon": return _$$0.h1; case "PatVar": return _$$0.h1; } }; const Lib_Elab_buildCase_constrainSpine_getName_makeConstr = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _15, _$$16, _$$17, _$$18 ) => { switch (_$$18.tag) { case "_::_": switch (_$$17.tag) { case "_::_": { const _sc$$0 = _$$17.h1; const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "Explicit": { const sc$$28 = Prelude__$3D$3D_(null, Lib_Types_Prelude_Eq$20Lib_Types_Icit)(Lib_Syntax_getIcit(_$$18.h1))(Lib_Types_Explicit); switch (sc$$28.tag) { case "False": return Lib_Types_error(null, Lib_Types__ctxFC(_), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("mismatch between Explicit and ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Icit)(Lib_Syntax_getIcit(_$$18.h1))))("")); case "True": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildCase_constrainSpine_getName_makeConstr(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _15, _$$16, _$$17.h2, _$$18.h2), ( rest ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h0, _$$18.h1), rest)))); } break; } default: { const sc$$28 = Prelude__$2F$3D_(null, Lib_Types_Prelude_Eq$20Lib_Types_Icit, Lib_Syntax_getIcit(_$$18.h1), _sc$$0.h1); switch (sc$$28.tag) { case "False": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildCase_constrainSpine_getName_makeConstr(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _15, _$$16, _$$17.h2, _$$18.h2), ( rest ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h0, _$$18.h1), rest)))); case "True": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildCase_constrainSpine_getName_makeConstr(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _15, _$$16, _$$17.h2, Prelude__$3A$3A_(null, _$$18.h1, _$$18.h2)), ( rest ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h0, Lib_Syntax_PatWild(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Pattern)(_$$18.h1), _sc$$0.h1)), rest)))); } break; } } break; } case "Nil": return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Pattern)(_$$18.h1), "too many patterns"); } break; case "Nil": switch (_$$17.tag) { case "_::_": { const _sc$$0 = _$$17.h1; const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "Auto": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildCase_constrainSpine_getName_makeConstr(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _15, _$$16, _$$17.h2, Prelude_Nil(null)), ( rest ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h0, Lib_Syntax_PatWild(Lib_Common_emptyFC, Lib_Types_Auto)), rest)))); case "Explicit": return Lib_Types_error(null, _$$16, "not enough patterns"); case "Implicit": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildCase_constrainSpine_getName_makeConstr(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _15, _$$16, _$$17.h2, Prelude_Nil(null)), ( rest ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h0, Lib_Syntax_PatWild(Lib_Common_emptyFC, Lib_Types_Implicit)), rest)))); } break; } case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nil(null)); } break; } }; -const Lib_Elab_buildCase_constrainSpine_getName_makeConstr_rewriteConstraint = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _15, _16, _$$17, _$$18, _$$19, _$$20 ) => { switch (_$$19.tag) { case "_::_": { const _sc$$0 = _$$19.h1; const sc$$28 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$0.h2)(_2); switch (sc$$28.tag) { case "False": return Lib_Elab_buildCase_constrainSpine_getName_makeConstr_rewriteConstraint(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _15, _16, _$$17, _$$18, _$$19.h2, Prelude__$3A$3A_(null, _$$19.h1, _$$20)); case "True": { const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "PatLit": return Lib_Types_error(null, _sc$$1.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Literal ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Literal)(_sc$$1.h1)))(" in constructor split")); case "PatWild": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Just(null, Prelude__$3A$3A_(null, _$$19.h1, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_$$19.h2)(_$$20)))); case "PatCon": { const sc$$35 = Prelude__$3D$3D_(null, Lib_Common_Prelude_Eq$20Lib_Common_QName)(_sc$$1.h2)(_7); switch (sc$$35.tag) { case "False": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => { const sc$$37 = Lib_TopContext_lookup(_sc$$1.h2, top); switch (sc$$37.tag) { case "Nothing": return Lib_Types_error(null, _sc$$1.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Internal Error: DCon ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$1.h2)))(" not found")); case "Just": { const _sc$$2 = sc$$37.h1; const _sc$$3 = _sc$$2.h3; switch (_sc$$3.tag) { case "DCon": { const sc$$46 = Prelude__$2F$3D_(null, Lib_Common_Prelude_Eq$20Lib_Common_QName, _sc$$3.h1, _$$17); switch (sc$$46.tag) { case "False": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nothing(null)); case "True": return Lib_Types_error(null, _sc$$1.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Constructor is ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$3.h1)))(" expected "))(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$17)))("")); } break; } default: return Lib_Types_error(null, _sc$$1.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Internal Error: ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$1.h2)))(" is not a DCon")); } break; } } }); case "True": { const _sc$$2 = _sc$$1.h4; switch (_sc$$2.tag) { case "Nothing": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildCase_constrainSpine_getName_makeConstr(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _15, _sc$$1.h0, _$$18, _sc$$1.h3), ( rest ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Just(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(rest)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_$$19.h2)(_$$20)))))); case "Just": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildCase_constrainSpine_getName_makeConstr(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _15, _sc$$1.h0, _$$18, _sc$$1.h3), ( rest ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Just(null, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _2, Lib_Syntax_PatVar(_sc$$1.h0, _sc$$1.h1, _sc$$2.h1)), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(rest)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_$$19.h2)(_$$20))))))); } break; } } break; } case "PatVar": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Just(null, Prelude__$3A$3A_(null, _$$19.h1, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_$$19.h2)(_$$20)))); } break; } } break; } case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Just(null, _$$20)); } }; +const Lib_Elab_REC_buildCase_constrainSpine_getName_makeConstr_rewriteConstraint = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.buildCase.constrainSpine.getName.makeConstr.rewriteConstraint": { const _sc$$0 = arg.h19; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const sc$$28 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$1.h2)(arg.h2); switch (sc$$28.tag) { case "False": return { tag: "Lib.Elab.buildCase.constrainSpine.getName.makeConstr.rewriteConstraint", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: arg.h8, h9: arg.h9, h10: arg.h10, h11: arg.h11, h12: arg.h12, h13: arg.h13, h14: arg.h14, h15: arg.h15, h16: arg.h16, h17: arg.h17, h18: arg.h18, h19: _sc$$0.h2, h20: Prelude__$3A$3A_(null, _sc$$0.h1, arg.h20) }; case "True": { const _sc$$2 = _sc$$1.h3; switch (_sc$$2.tag) { case "PatLit": return { tag: "return", h0: Lib_Types_error(null, _sc$$2.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Literal ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Literal)(_sc$$2.h1)))(" in constructor split")) }; case "PatWild": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Just(null, Prelude__$3A$3A_(null, _sc$$0.h1, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_sc$$0.h2)(arg.h20)))) }; case "PatCon": { const sc$$35 = Prelude__$3D$3D_(null, Lib_Common_Prelude_Eq$20Lib_Common_QName)(_sc$$2.h2)(arg.h7); switch (sc$$35.tag) { case "False": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => { const sc$$37 = Lib_TopContext_lookup(_sc$$2.h2, top); switch (sc$$37.tag) { case "Nothing": return Lib_Types_error(null, _sc$$2.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Internal Error: DCon ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$2.h2)))(" not found")); case "Just": { const _sc$$3 = sc$$37.h1; const _sc$$4 = _sc$$3.h3; switch (_sc$$4.tag) { case "DCon": { const sc$$46 = Prelude__$2F$3D_(null, Lib_Common_Prelude_Eq$20Lib_Common_QName, _sc$$4.h1, arg.h17); switch (sc$$46.tag) { case "False": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nothing(null)); case "True": return Lib_Types_error(null, _sc$$2.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Constructor is ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$4.h1)))(" expected "))(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(arg.h17)))("")); } break; } default: return Lib_Types_error(null, _sc$$2.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Internal Error: ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$2.h2)))(" is not a DCon")); } break; } } }) }; case "True": { const _sc$$3 = _sc$$2.h4; switch (_sc$$3.tag) { case "Nothing": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildCase_constrainSpine_getName_makeConstr(arg.h0, arg.h1, arg.h2, arg.h3, arg.h4, arg.h5, arg.h6, arg.h7, arg.h8, arg.h9, arg.h10, arg.h11, arg.h12, arg.h13, arg.h14, arg.h15, _sc$$2.h0, arg.h18, _sc$$2.h3), ( rest ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Just(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(rest)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_sc$$0.h2)(arg.h20)))))) }; case "Just": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildCase_constrainSpine_getName_makeConstr(arg.h0, arg.h1, arg.h2, arg.h3, arg.h4, arg.h5, arg.h6, arg.h7, arg.h8, arg.h9, arg.h10, arg.h11, arg.h12, arg.h13, arg.h14, arg.h15, _sc$$2.h0, arg.h18, _sc$$2.h3), ( rest ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Just(null, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, arg.h2, Lib_Syntax_PatVar(_sc$$2.h0, _sc$$2.h1, _sc$$3.h1)), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(rest)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_sc$$0.h2)(arg.h20))))))) }; } break; } } break; } case "PatVar": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Just(null, Prelude__$3A$3A_(null, _sc$$0.h1, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_sc$$0.h2)(arg.h20)))) }; } break; } } break; } case "Nil": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Just(null, arg.h20)) }; } break; } } }; +const Lib_Elab_buildCase_constrainSpine_getName_makeConstr_rewriteConstraint = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _15, _16, _$$17, _$$18, _$$19, _$$20 ) => (bouncer(Lib_Elab_REC_buildCase_constrainSpine_getName_makeConstr_rewriteConstraint, { tag: "Lib.Elab.buildCase.constrainSpine.getName.makeConstr.rewriteConstraint", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _5, h6: _6, h7: _7, h8: _8, h9: _9, h10: _10, h11: _11, h12: _12, h13: _13, h14: _14, h15: _15, h16: _16, h17: _$$17, h18: _$$18, h19: _$$19, h20: _$$20 })); const Lib_Elab_buildCase_constrainSpine_getName_makeConstr_rewriteConstraint_rewriteClause = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _15, _16, _17, _$$18, _$$19, _$$20 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildCase_constrainSpine_getName_makeConstr_rewriteConstraint(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _15, _16, _$$18, _$$19, _$$20.h1, Prelude_Nil(null)), ( $$sc ) => { switch ($$sc.tag) { case "Just": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Just(null, Lib_Syntax_MkClause(_$$20.h0, $$sc.h1, _$$20.h2, _$$20.h3))); default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nothing(null)); } })); const Lib_Elab_Prelude_Show$20Lib_Elab_Bind$2Cshow = ( _$$0 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(_$$0.h0))(" "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Icit)(_$$0.h1)))("")); const Lib_Elab_Prelude_Show$20Lib_Elab_Bind = Prelude_MkShow(null, Lib_Elab_Prelude_Show$20Lib_Elab_Bind$2Cshow); @@ -687,11 +780,13 @@ const Prelude_Prelude_Functor$20Prelude_SnocList$2Cmap = ( a$$0, b$$1, _$$2, _$$ const Prelude_Prelude_Functor$20Prelude_SnocList = Prelude_MkFunctor(null, ( a ) => (( b ) => (( eta ) => (( eta1 ) => (Prelude_Prelude_Functor$20Prelude_SnocList$2Cmap(null, null, eta, eta1)))))); const Lib_Elab_substVal_go = ( _, _1, _2, _3, _$$4 ) => { switch (_$$4.tag) { case "VLet": return Lib_Types_VLet(_$$4.h0, _$$4.h1, Lib_Elab_substVal_go(_, _1, _2, _3, _$$4.h2), _$$4.h3); case "VPi": return Lib_Types_VPi(_$$4.h0, _$$4.h1, _$$4.h2, _$$4.h3, Lib_Elab_substVal_go(_, _1, _2, _3, _$$4.h4), _$$4.h5); case "VMeta": return Lib_Types_VMeta(_$$4.h0, _$$4.h1, Prelude_map(null, Prelude_Prelude_Functor$20Prelude_SnocList)(null)(null)(( eta ) => (Lib_Elab_substVal_go(_, _1, _2, _3, eta)))(_$$4.h2)); case "VRef": return Lib_Types_VRef(_$$4.h0, _$$4.h1, Prelude_map(null, Prelude_Prelude_Functor$20Prelude_SnocList)(null)(null)(( eta ) => (Lib_Elab_substVal_go(_, _1, _2, _3, eta)))(_$$4.h2)); case "VVar": { const sc$$8 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(_$$4.h1)(_); switch (sc$$8.tag) { case "False": return Lib_Types_VVar(_$$4.h0, _$$4.h1, Prelude_map(null, Prelude_Prelude_Functor$20Prelude_SnocList)(null)(null)(( eta ) => (Lib_Elab_substVal_go(_, _1, _2, _3, eta)))(_$$4.h2)); case "True": return _1; } break; } default: return _$$4; } }; const Lib_Elab_substVal = ( _$$0, _$$1, _$$2 ) => (Lib_Elab_substVal_go(_$$0, _$$1, _$$2, null, _$$2)); -const Lib_Elab_updateContext = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "_::_": { const _sc$$0 = _$$1.h1; const ix = Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(Lib_Common_lvl2ix(Prelude_length$27(null, Lib_Types__env(_$$0)), _sc$$0.h2)); const sc$$12 = Prelude_getAt(null, ix, Lib_Types__env(_$$0)); switch (sc$$12.tag) { case "Nothing": return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Val)(_sc$$0.h3), "INTERNAL ERROR: bad index in updateContext"); case "Just": { const _sc$$1 = sc$$12.h1; switch (_sc$$1.tag) { case "VVar": { const _sc$$2 = _sc$$1.h2; switch (_sc$$2.tag) { case "Lin": { const sc$$19 = Prelude__$2F$3D_(null, Prelude_Prelude_Eq$20Prim_Int, _sc$$1.h1, _sc$$0.h2); switch (sc$$19.tag) { case "False": { const ctx$27 = Lib_Types_MkCtx(Lib_Types__lvl(_$$0), Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Lib_Elab_substVal(_sc$$0.h2, _sc$$0.h3, eta)))(Lib_Types__env(_$$0)), Lib_Types__types(_$$0), Lib_Elab_updateContext_replace_replaceV(_$$0, _$$1, _$$1.h0, _$$1.h1, _$$1.h2, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, ix, Lib_Types_Defined, Lib_Types__bds(_$$0)), Lib_Types__ctxFC(_$$0)); return Lib_Elab_updateContext(ctx$27, _$$1.h2); break; } case "True": return Lib_Elab_updateContext(_$$0, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$1.h1, _sc$$0.h3), _$$1.h2)); } break; } default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_info(Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Val)(_sc$$0.h3), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("need to unify ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$0.h3)))(" and "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(sc$$12.h1)))(" or something")), ( _ ) => (Lib_Elab_updateContext(_$$0, _$$1.h2))); } break; } default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_info(Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Val)(_sc$$0.h3), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("need to unify ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$0.h3)))(" and "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(sc$$12.h1)))(" or something")), ( _ ) => (Lib_Elab_updateContext(_$$0, _$$1.h2))); } break; } } break; } case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(_$$0); } }; +const Lib_Elab_REC_updateContext = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.updateContext": { const _sc$$0 = arg.h1; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const ix = Prelude_cast(null, null, Prelude_Prelude_Cast$20Prim_Int$20Prelude_Nat)(Lib_Common_lvl2ix(Prelude_length$27(null, Lib_Types__env(arg.h0)), _sc$$1.h2)); const sc$$12 = Prelude_getAt(null, ix, Lib_Types__env(arg.h0)); switch (sc$$12.tag) { case "Nothing": return { tag: "return", h0: Lib_Types_error(null, Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Val)(_sc$$1.h3), "INTERNAL ERROR: bad index in updateContext") }; case "Just": { const _sc$$2 = sc$$12.h1; switch (_sc$$2.tag) { case "VVar": { const _sc$$3 = _sc$$2.h2; switch (_sc$$3.tag) { case "Lin": { const sc$$19 = Prelude__$2F$3D_(null, Prelude_Prelude_Eq$20Prim_Int, _sc$$2.h1, _sc$$1.h2); switch (sc$$19.tag) { case "False": { const ctx$27 = Lib_Types_MkCtx(Lib_Types__lvl(arg.h0), Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Lib_Elab_substVal(_sc$$1.h2, _sc$$1.h3, eta)))(Lib_Types__env(arg.h0)), Lib_Types__types(arg.h0), Lib_Elab_updateContext_replace_replaceV(arg.h0, arg.h1, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$1.h0, _sc$$1.h1, _sc$$1.h2, _sc$$1.h3, null, null, null, ix, Lib_Types_Defined, Lib_Types__bds(arg.h0)), Lib_Types__ctxFC(arg.h0)); return { tag: "Lib.Elab.updateContext", h0: ctx$27, h1: _sc$$0.h2 }; break; } case "True": return { tag: "Lib.Elab.updateContext", h0: arg.h0, h1: Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$2.h1, _sc$$1.h3), _sc$$0.h2) }; } break; } default: return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_info(Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Val)(_sc$$1.h3), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("need to unify ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$1.h3)))(" and "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(sc$$12.h1)))(" or something")), ( _ ) => (Lib_Elab_updateContext(arg.h0, _sc$$0.h2))) }; } break; } default: return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_info(Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Val)(_sc$$1.h3), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("need to unify ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$1.h3)))(" and "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(sc$$12.h1)))(" or something")), ( _ ) => (Lib_Elab_updateContext(arg.h0, _sc$$0.h2))) }; } break; } } break; } case "Nil": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(arg.h0) }; } break; } } }; +const Lib_Elab_updateContext = ( _$$0, _$$1 ) => (bouncer(Lib_Elab_REC_updateContext, { tag: "Lib.Elab.updateContext", h0: _$$0, h1: _$$1 })); const Lib_Elab_UPattern = { tag: "UPattern" }; const Lib_Types_tryError = ( a$$0, _$$1 ) => (Lib_Types_catchError(null, Prelude_map(null, Lib_Types_Prelude_Functor$20Lib_Types_M)(null)(null)(( eta ) => (Prelude_Right(null, null, eta)))(_$$1), ( eta ) => (Prelude__$2218_(null, null, null, Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null), ( eta ) => (Prelude_Left(null, null, eta)), eta)))); const Lib_Elab_buildCase_constrainSpine = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _$$14, _$$15 ) => { switch (_$$15.tag) { case "_::_": return Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$14, _$$15.h1), Lib_Elab_buildCase_constrainSpine(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$14), _$$15.h2)); case "Nil": return Prelude_Nil(null); } }; -const Lib_Elab_lookupDef_go = ( _, _1, _2, _$$3, _$$4, _$$5 ) => { switch (_$$5.tag) { case "_::_": switch (_$$4.tag) { case "_::_": { const _sc$$0 = _$$4.h1; const sc$$16 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$0.h2)(_1); switch (sc$$16.tag) { case "False": return Lib_Elab_lookupDef_go(_, _1, _2, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$3), _$$4.h2, _$$5.h2); case "True": return Prelude_Just(null, _$$5.h1); } break; } default: return Prelude_Nothing(null); } break; default: return Prelude_Nothing(null); } }; +const Lib_Elab_REC_lookupDef_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.lookupDef.go": { const _sc$$0 = arg.h5; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = arg.h4; switch (_sc$$1.tag) { case "_::_": { const _sc$$2 = _sc$$1.h1; const sc$$16 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$2.h2)(arg.h1); switch (sc$$16.tag) { case "False": return { tag: "Lib.Elab.lookupDef.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(arg.h3), h4: _sc$$1.h2, h5: _sc$$0.h2 }; case "True": return { tag: "return", h0: Prelude_Just(null, _sc$$0.h1) }; } break; } default: return { tag: "return", h0: Prelude_Nothing(null) }; } break; } default: return { tag: "return", h0: Prelude_Nothing(null) }; } break; } } }; +const Lib_Elab_lookupDef_go = ( _, _1, _2, _$$3, _$$4, _$$5 ) => (bouncer(Lib_Elab_REC_lookupDef_go, { tag: "Lib.Elab.lookupDef.go", h0: _, h1: _1, h2: _2, h3: _$$3, h4: _$$4, h5: _$$5 })); const Lib_Elab_lookupDef = ( _$$0, _$$1 ) => (Lib_Elab_lookupDef_go(_$$0, _$$1, null, 0, Lib_Types__types(_$$0), Lib_Types__env(_$$0))); const Lib_Elab_MkBind = ( h0, h1, h2 ) => ({ tag: "MkBind", h0: h0, h1: h1, h2: h2 }); const Lib_Elab_fresh = ( ctx$$0, _$$1 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(_$$1)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("$")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(Prelude_length$27(null, Lib_Types__env(ctx$$0)))))); @@ -699,9 +794,11 @@ const Lib_Elab_extendPi = ( _$$0, _$$1, _$$2, _$$3 ) => { switch (_$$1.tag) { ca const Lib_Elab_buildCase = ( _$$0, _$$1, _$$2, _$$3, _$$4 ) => { const _sc$$0 = _$$4.h3; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("CASE ")(_$$2))(" match "))(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(" ty "))(Lib_Elab_rpprint(Lib_Types_names(_$$0), _sc$$0.h3)))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Prelude_Nil(null), Lib_Types_CBN, _sc$$0.h3), ( vty ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_extendPi(_$$0, vty, Prelude_Lin(null), Prelude_Lin(null)), ( $$sc ) => { const _sc$$1 = $$sc.h3; const _sc$$2 = _sc$$1.h3; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _1 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("unify dcon cod with scrut\n ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$1.h2)))("\n "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$3)))(""))), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_catchError(null, Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Prelude_Just(null, eta)), Lib_Elab_unify(Lib_Types__env($$sc.h2), Lib_Elab_UPattern, _sc$$1.h2, _$$3)), ( err ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _2 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("SKIP ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(" because unify error "))(Lib_Types_errorMsg(err)))(""))), ( _2 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nothing(null)))))), ( $$sc1 ) => { switch ($$sc1.tag) { case "Just": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _2 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("scrut ")(_$$2))(" constrained to "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_Maybe$20BND$3A1$29(null, Lib_Types_Prelude_Show$20Lib_Types_Val))(Lib_Elab_lookupDef(_$$0, _$$2))))(""))), ( _2 ) => { switch (_$$3.tag) { case "VRef": { const sc$$44 = Lib_Elab_lookupDef(_$$0, _$$2); switch (sc$$44.tag) { case "Just": { const _sc$$3 = sc$$44.h1; switch (_sc$$3.tag) { case "VRef": { const sc$$50 = Prelude__$2F$3D_(null, Lib_Common_Prelude_Eq$20Lib_Common_QName, _sc$$3.h1, _$$4.h2); switch (sc$$50.tag) { case "False": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _3 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("case ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(" dotted "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(sc$$44.h1)))(""))), ( _3 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_when(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Prelude__$2F$3D_(null, Prelude_Prelude_Eq$20Prelude_Nat, Prelude_length(null, _sc$$2.h2), Data_SnocList_snoclen(null, _sc$$3.h2)), ( _4 ) => (Lib_Types_error(null, Lib_Common_emptyFC, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(Prelude_show(null, Prelude_Prelude_Show$20Prelude_Nat)(Prelude_length(null, _sc$$2.h2))))(" vars /= "))(Prelude_show(null, Prelude_Prelude_Show$20Prelude_Nat)(Data_SnocList_snoclen(null, _sc$$3.h2))))("")))), ( _4 ) => { const lvl = Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(Prelude_length$27(null, Lib_Types__env($$sc.h2)))(Prelude_length$27(null, _sc$$2.h2)); const scons = Lib_Elab_buildCase_constrainSpine(_$$0, _$$1, _$$2, _$$3, _$$4, _$$4.h0, _$$4.h1, _$$4.h2, _$$4.h3, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, lvl, Prelude__$3C$3E$3E_(null, _sc$$3.h2, Prelude_Nil(null))); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_updateContext($$sc.h2, scons), ( ctx$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _5 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("(dcon ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(" ty "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$1.h2)))(" scty "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$3)))(""))), ( _5 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _6 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("(dcon ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(") (vars "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Elab_Prelude_Show$20Lib_Elab_Bind))(_sc$$2.h2)))(") clauses were"))), ( _6 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, Lib_Elab__clauses(_$$1), ( x ) => (Lib_Types_debug(( _7 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Clause)(x)))(""))))), ( _7 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Prelude_mapMaybe(null, null, ( eta ) => (Prelude_id(null, eta)), eta)), Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_Elab_buildCase_constrainSpine_getName_makeConstr_rewriteConstraint_rewriteClause(_$$0, _$$1, _$$2, _$$3, _$$4, _$$4.h0, _$$4.h1, _$$4.h2, _$$4.h3, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, null, _$$3.h1, _sc$$2.h2, eta)))(Lib_Elab__clauses(_$$1))), ( clauses ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _8 ) => ("and now:")), ( _8 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, clauses, ( x ) => (Lib_Types_debug(( _9 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Clause)(x)))(""))))), ( _9 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_when(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(Prelude_length$27(null, clauses))(0), ( _10 ) => (Lib_Types_error(null, Lib_Types__ctxFC(_$$0), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Missing case for ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(" splitting "))(_$$2))("")))), ( _10 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildTree(ctx$27, Lib_Elab_MkProb(clauses, Lib_Elab__ty(_$$1))), ( tm ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Just(null, Lib_Types_CaseCons(_$$4.h2, Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Lib_Elab_buildCase_constrainSpine_getName(_$$0, _$$1, _$$2, _$$3, _$$4, _$$4.h0, _$$4.h1, _$$4.h2, _$$4.h3, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, eta)))(_sc$$2.h2), tm))))))))))))))))))))); }))); case "True": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _3 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("SKIP ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(" because "))(_$$2))(" forced to "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(sc$$44.h1)))(""))), ( _3 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nothing(null)))); } break; } default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_tryError(null, Lib_Elab_unify(Lib_Types__env($$sc.h2), Lib_Elab_UPattern, _sc$$1.h2, _$$3)), ( $$sc2 ) => { switch ($$sc2.tag) { case "Right": { const sc$$52 = Prelude_findIndex$27(null, ( eta ) => (Prelude__$2218_(null, null, null, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_$$2), ( eta ) => (Prelude_fst(null, null, eta)), eta)), Lib_Types__types($$sc.h2)); switch (sc$$52.tag) { case "Nothing": return Lib_Types_error(null, Lib_Types__ctxFC(_$$0), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(_$$2))(" not is scope?")); case "Just": { const lvl = Lib_Common_lvl2ix(Prelude_length$27(null, Lib_Types__env($$sc.h2)), sc$$52.h1); const scon = Prelude__$2C_(null, null, lvl, Lib_Types_VRef(Lib_Types__ctxFC(_$$0), _$$4.h2, _sc$$2.h3)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _3 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("scty ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$3)))(""))), ( _3 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _4 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("UNIFY results ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Prelude_Prelude_Show$20Prim_Int, Lib_Types_Prelude_Show$20Lib_Types_Val)))(Lib_Elab__constraints($$sc2.h2))))(""))), ( _4 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _5 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("before types: ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Prelude_Prelude_Show$20Prim_String, Lib_Types_Prelude_Show$20Lib_Types_Val)))(Lib_Types__types($$sc.h2))))(""))), ( _5 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _6 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("before env: ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Types_Prelude_Show$20Lib_Types_Val))(Lib_Types__env($$sc.h2))))(""))), ( _6 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _7 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("SC CONSTRAINT: ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Prelude_Prelude_Show$20Prim_Int, Lib_Types_Prelude_Show$20Lib_Types_Val))(scon)))(""))), ( _7 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_updateContext($$sc.h2, Prelude__$3A$3A_(null, scon, Lib_Elab__constraints($$sc2.h2))), ( ctx$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _8 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("context types: ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Prelude_Prelude_Show$20Prim_String, Lib_Types_Prelude_Show$20Lib_Types_Val)))(Lib_Types__types(ctx$27))))(""))), ( _8 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _9 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("context env: ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Types_Prelude_Show$20Lib_Types_Val))(Lib_Types__env(ctx$27))))(""))), ( _9 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _10 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("(dcon ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(" ty "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$1.h2)))(" scty "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$3)))(""))), ( _10 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _11 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("(dcon ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(") (vars "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Elab_Prelude_Show$20Lib_Elab_Bind))(_sc$$2.h2)))(") clauses were"))), ( _11 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, Lib_Elab__clauses(_$$1), ( x ) => (Lib_Types_debug(( _12 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Clause)(x)))(""))))), ( _12 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Prelude_mapMaybe(null, null, ( eta ) => (Prelude_id(null, eta)), eta)), Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_Elab_buildCase_constrainSpine_getName_makeConstr_rewriteConstraint_rewriteClause(_$$0, _$$1, _$$2, _$$3, _$$4, _$$4.h0, _$$4.h1, _$$4.h2, _$$4.h3, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, null, _$$3.h1, _sc$$2.h2, eta)))(Lib_Elab__clauses(_$$1))), ( clauses ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _13 ) => ("and now:")), ( _13 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, clauses, ( x ) => (Lib_Types_debug(( _14 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Clause)(x)))(""))))), ( _14 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_when(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(Prelude_length$27(null, clauses))(0), ( _15 ) => (Lib_Types_error(null, Lib_Types__ctxFC(_$$0), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Missing case for ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(" splitting "))(_$$2))("")))), ( _15 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildTree(ctx$27, Lib_Elab_MkProb(clauses, Lib_Elab__ty(_$$1))), ( tm ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Just(null, Lib_Types_CaseCons(_$$4.h2, Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Lib_Elab_buildCase_constrainSpine_getName(_$$0, _$$1, _$$2, _$$3, _$$4, _$$4.h0, _$$4.h1, _$$4.h2, _$$4.h3, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, eta)))(_sc$$2.h2), tm))))))))))))))))))))))))))))))))))); break; } } break; } case "Left": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _3 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("SKIP ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(" because unify error "))(Lib_Types_errorMsg($$sc2.h2)))(""))), ( _3 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nothing(null)))); } }); } break; } default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_tryError(null, Lib_Elab_unify(Lib_Types__env($$sc.h2), Lib_Elab_UPattern, _sc$$1.h2, _$$3)), ( $$sc2 ) => { switch ($$sc2.tag) { case "Right": { const sc$$50 = Prelude_findIndex$27(null, ( eta ) => (Prelude__$2218_(null, null, null, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_$$2), ( eta ) => (Prelude_fst(null, null, eta)), eta)), Lib_Types__types($$sc.h2)); switch (sc$$50.tag) { case "Nothing": return Lib_Types_error(null, Lib_Types__ctxFC(_$$0), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(_$$2))(" not is scope?")); case "Just": { const lvl = Lib_Common_lvl2ix(Prelude_length$27(null, Lib_Types__env($$sc.h2)), sc$$50.h1); const scon = Prelude__$2C_(null, null, lvl, Lib_Types_VRef(Lib_Types__ctxFC(_$$0), _$$4.h2, _sc$$2.h3)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _3 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("scty ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$3)))(""))), ( _3 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _4 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("UNIFY results ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Prelude_Prelude_Show$20Prim_Int, Lib_Types_Prelude_Show$20Lib_Types_Val)))(Lib_Elab__constraints($$sc2.h2))))(""))), ( _4 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _5 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("before types: ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Prelude_Prelude_Show$20Prim_String, Lib_Types_Prelude_Show$20Lib_Types_Val)))(Lib_Types__types($$sc.h2))))(""))), ( _5 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _6 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("before env: ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Types_Prelude_Show$20Lib_Types_Val))(Lib_Types__env($$sc.h2))))(""))), ( _6 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _7 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("SC CONSTRAINT: ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Prelude_Prelude_Show$20Prim_Int, Lib_Types_Prelude_Show$20Lib_Types_Val))(scon)))(""))), ( _7 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_updateContext($$sc.h2, Prelude__$3A$3A_(null, scon, Lib_Elab__constraints($$sc2.h2))), ( ctx$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _8 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("context types: ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Prelude_Prelude_Show$20Prim_String, Lib_Types_Prelude_Show$20Lib_Types_Val)))(Lib_Types__types(ctx$27))))(""))), ( _8 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _9 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("context env: ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Types_Prelude_Show$20Lib_Types_Val))(Lib_Types__env(ctx$27))))(""))), ( _9 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _10 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("(dcon ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(" ty "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$1.h2)))(" scty "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$3)))(""))), ( _10 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _11 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("(dcon ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(") (vars "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Elab_Prelude_Show$20Lib_Elab_Bind))(_sc$$2.h2)))(") clauses were"))), ( _11 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, Lib_Elab__clauses(_$$1), ( x ) => (Lib_Types_debug(( _12 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Clause)(x)))(""))))), ( _12 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Prelude_mapMaybe(null, null, ( eta ) => (Prelude_id(null, eta)), eta)), Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_Elab_buildCase_constrainSpine_getName_makeConstr_rewriteConstraint_rewriteClause(_$$0, _$$1, _$$2, _$$3, _$$4, _$$4.h0, _$$4.h1, _$$4.h2, _$$4.h3, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, null, _$$3.h1, _sc$$2.h2, eta)))(Lib_Elab__clauses(_$$1))), ( clauses ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _13 ) => ("and now:")), ( _13 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, clauses, ( x ) => (Lib_Types_debug(( _14 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Clause)(x)))(""))))), ( _14 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_when(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(Prelude_length$27(null, clauses))(0), ( _15 ) => (Lib_Types_error(null, Lib_Types__ctxFC(_$$0), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Missing case for ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(" splitting "))(_$$2))("")))), ( _15 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildTree(ctx$27, Lib_Elab_MkProb(clauses, Lib_Elab__ty(_$$1))), ( tm ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Just(null, Lib_Types_CaseCons(_$$4.h2, Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Lib_Elab_buildCase_constrainSpine_getName(_$$0, _$$1, _$$2, _$$3, _$$4, _$$4.h0, _$$4.h1, _$$4.h2, _$$4.h3, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, eta)))(_sc$$2.h2), tm))))))))))))))))))))))))))))))))))); break; } } break; } case "Left": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _3 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("SKIP ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(" because unify error "))(Lib_Types_errorMsg($$sc2.h2)))(""))), ( _3 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nothing(null)))); } }); } break; } default: return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Val)(_$$3), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("case split on non-inductive ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$3)))("")); } }); default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nothing(null)); } }))); }))))); }; const Lib_Elab_checkCase = ( _$$0, _$$1, _$$2, _$$3, _$$4 ) => { const _sc$$0 = _$$4.h3; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Prelude_Nil(null), Lib_Types_CBN, _sc$$0.h3), ( vty ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_extendPi(_$$0, vty, Prelude_Lin(null), Prelude_Lin(null)), ( $$sc ) => { const _sc$$1 = $$sc.h3; const _sc$$2 = _sc$$1.h3; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_catchError(null, Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Prelude_Just(null, eta)), Lib_Elab_unify(Lib_Types__env($$sc.h2), Lib_Elab_UPattern, _sc$$1.h2, _$$3)), ( err ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("SKIP ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(" because unify error "))(Lib_Types_errorMsg(err)))(""))), ( _ ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nothing(null)))))), ( $$sc1 ) => { switch ($$sc1.tag) { case "Just": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_tryError(null, Lib_Elab_unify(Lib_Types__env($$sc.h2), Lib_Elab_UPattern, _sc$$1.h2, _$$3)), ( $$sc2 ) => { switch ($$sc2.tag) { case "Right": { const sc$$37 = Lib_Elab_lookupDef(_$$0, _$$2); switch (sc$$37.tag) { case "Just": { const _sc$$3 = sc$$37.h1; switch (_sc$$3.tag) { case "VRef": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$3D$3D_(null, Lib_Common_Prelude_Eq$20Lib_Common_QName)(_sc$$3.h1)(_$$4.h2)); default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_True); } break; } default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_True); } break; } case "Left": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("SKIP ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$4.h2)))(" because unify error "))(Lib_Types_errorMsg($$sc2.h2)))(""))), ( _ ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_False))); } }); default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_False); } }); }))); }; const Lib_Types_filterM = ( a$$0, _$$1, _$$2 ) => { switch (_$$2.tag) { case "_::_": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, _$$1(_$$2.h1), ( check ) => { switch (check.tag) { case "False": return Lib_Types_filterM(null, _$$1, _$$2.h2); case "True": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Prelude__$3A$3A_(null, _$$2.h1, eta)), Lib_Types_filterM(null, _$$1, _$$2.h2)); } }); case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nil(null)); } }; -const Prelude_partition_go = ( _, _1, _2, _3, _$$4, _$$5, _$$6 ) => { switch (_$$4.tag) { case "_::_": { const sc$$10 = _1(_$$4.h1); switch (sc$$10.tag) { case "False": return Prelude_partition_go(_, _1, _2, _3, _$$4.h2, _$$5, Prelude__$3A$3A_(null, _$$4.h1, _$$6)); case "True": return Prelude_partition_go(_, _1, _2, _3, _$$4.h2, Prelude__$3A$3A_(null, _$$4.h1, _$$5), _$$6); } break; } case "Nil": return Prelude__$2C_(null, null, _$$5, _$$6); } }; +const Prelude_REC_partition_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Prelude.partition.go": { const _sc$$0 = arg.h4; switch (_sc$$0.tag) { case "_::_": { const sc$$10 = arg.h1(_sc$$0.h1); switch (sc$$10.tag) { case "False": return { tag: "Prelude.partition.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: _sc$$0.h2, h5: arg.h5, h6: Prelude__$3A$3A_(null, _sc$$0.h1, arg.h6) }; case "True": return { tag: "Prelude.partition.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: _sc$$0.h2, h5: Prelude__$3A$3A_(null, _sc$$0.h1, arg.h5), h6: arg.h6 }; } break; } case "Nil": return { tag: "return", h0: Prelude__$2C_(null, null, arg.h5, arg.h6) }; } break; } } }; +const Prelude_partition_go = ( _, _1, _2, _3, _$$4, _$$5, _$$6 ) => (bouncer(Prelude_REC_partition_go, { tag: "Prelude.partition.go", h0: _, h1: _1, h2: _2, h3: _3, h4: _$$4, h5: _$$5, h6: _$$6 })); const Prelude_partition = ( a$$0, _$$1, _$$2 ) => (Prelude_partition_go(a$$0, _$$1, _$$2, null, _$$2, Prelude_Nil(null), Prelude_Nil(null))); -const Lib_Elab_matchedConstructors = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "_::_": { const _sc$$0 = _$$1.h1; const sc$$9 = Prelude_find(null, ( eta ) => (Prelude__$2218_(null, null, null, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_$$0), ( eta ) => (Prelude_fst(null, null, eta)), eta)), _sc$$0.h1); switch (sc$$9.tag) { case "Just": { const _sc$$1 = sc$$9.h1; const _sc$$2 = _sc$$1.h3; switch (_sc$$2.tag) { case "PatCon": return Prelude__$3A$3A_(null, _sc$$2.h2, Lib_Elab_matchedConstructors(_$$0, _$$1.h2)); default: return Lib_Elab_matchedConstructors(_$$0, _$$1.h2); } break; } default: return Lib_Elab_matchedConstructors(_$$0, _$$1.h2); } break; } case "Nil": return Prelude_Nil(null); } }; +const Lib_Elab_REC_matchedConstructors = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.matchedConstructors": { const _sc$$0 = arg.h1; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const sc$$9 = Prelude_find(null, ( eta ) => (Prelude__$2218_(null, null, null, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(arg.h0), ( eta ) => (Prelude_fst(null, null, eta)), eta)), _sc$$1.h1); switch (sc$$9.tag) { case "Just": { const _sc$$2 = sc$$9.h1; const _sc$$3 = _sc$$2.h3; switch (_sc$$3.tag) { case "PatCon": return { tag: "return", h0: Prelude__$3A$3A_(null, _sc$$3.h2, Lib_Elab_matchedConstructors(arg.h0, _sc$$0.h2)) }; default: return { tag: "Lib.Elab.matchedConstructors", h0: arg.h0, h1: _sc$$0.h2 }; } break; } default: return { tag: "Lib.Elab.matchedConstructors", h0: arg.h0, h1: _sc$$0.h2 }; } break; } case "Nil": return { tag: "return", h0: Prelude_Nil(null) }; } break; } } }; +const Lib_Elab_matchedConstructors = ( _$$0, _$$1 ) => (bouncer(Lib_Elab_REC_matchedConstructors, { tag: "Lib.Elab.matchedConstructors", h0: _$$0, h1: _$$1 })); const Lib_Elab_vprint = ( _$$0, _$$1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Prelude_length$27(null, Lib_Types__env(_$$0)), _$$1), ( tm ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Prettier_render(90, Lib_Types_pprint(Lib_Types_names(_$$0), tm)))))); const Lib_Elab_getConstructors_lookupTCon_lookupDCon = ( _, _1, _2, _3, _4, _5, _6, _7, _$$8 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => { const sc$$10 = Lib_TopContext_lookup(_$$8, top); switch (sc$$10.tag) { case "Nothing": return Lib_Types_error(null, _3, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Internal Error: DCon ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$8)))(" not found")); case "Just": { const _sc$$0 = sc$$10.h1; const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "DCon": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _sc$$0.h1, Prelude__$2C_(null, null, _sc$$1.h0, _sc$$0.h2))); default: return Lib_Types_error(null, _3, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Internal Error: ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$8)))(" is not a DCon")); } break; } } })); const Lib_Elab_getConstructors_lookupTCon = ( _, _1, _2, _3, _4, _5, _6, _$$7 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => { const sc$$9 = Lib_TopContext_lookup(_4, top); switch (sc$$9.tag) { case "Just": { const _sc$$0 = sc$$9.h1; const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "TCon": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(_sc$$1.h1); default: return Lib_Types_error(null, _1, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Not a type constructor ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_4)))("")); } break; } default: return Lib_Types_error(null, _1, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Not a type constructor ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_4)))("")); } })); @@ -712,25 +809,31 @@ const Prelude_Prelude_Monad$20Prelude_Maybe$2Cbind = ( a$$0, b$$1, _$$2, _$$3 ) const Prelude_Prelude_Monad$20Prelude_Maybe = Prelude_MkMonad(null, ( a ) => (( b ) => (( eta ) => (( eta1 ) => (Prelude_Prelude_Monad$20Prelude_Maybe$2Cbind(null, null, eta, eta1))))), ( a ) => (( eta ) => (Prelude_Prelude_Monad$20Prelude_Maybe$2Cpure(null, eta)))); const Lib_Types_Prelude_Eq$20Lib_Types_Literal$2C_$3D$3D_ = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "LChar": switch (_$$0.tag) { case "LChar": return Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Char)(_$$0.h0)(_$$1.h0); default: return Prelude_False; } break; case "LInt": switch (_$$0.tag) { case "LInt": return Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(_$$0.h0)(_$$1.h0); default: return Prelude_False; } break; case "LString": switch (_$$0.tag) { case "LString": return Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_$$0.h0)(_$$1.h0); default: return Prelude_False; } break; } }; const Lib_Types_Prelude_Eq$20Lib_Types_Literal = Prelude_MkEq(null, ( eta ) => (( eta1 ) => (Lib_Types_Prelude_Eq$20Lib_Types_Literal$2C_$3D$3D_(eta, eta1)))); -const Lib_Elab_buildLitCase_rewriteConstraint = ( _, _1, _2, _3, _4, _5, _6, _$$7, _$$8 ) => { switch (_$$7.tag) { case "_::_": { const _sc$$0 = _$$7.h1; const sc$$16 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$0.h2)(_3); switch (sc$$16.tag) { case "False": return Lib_Elab_buildLitCase_rewriteConstraint(_, _1, _2, _3, _4, _5, _6, _$$7.h2, Prelude__$3A$3A_(null, _$$7.h1, _$$8)); case "True": { const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "PatLit": { const sc$$20 = Prelude__$3D$3D_(null, Lib_Types_Prelude_Eq$20Lib_Types_Literal)(_sc$$1.h1)(_5); switch (sc$$20.tag) { case "False": return Prelude_Nothing(null); case "True": return Prelude_Just(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_$$7.h2)(_$$8)); } break; } case "PatWild": return Prelude_Just(null, Prelude__$3A$3A_(null, _$$7.h1, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_$$7.h2)(_$$8))); case "PatCon": return Prelude_Nothing(null); case "PatVar": return Prelude_Just(null, Prelude__$3A$3A_(null, _$$7.h1, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_$$7.h2)(_$$8))); } break; } } break; } case "Nil": return Prelude_Just(null, _$$8); } }; +const Lib_Elab_REC_buildLitCase_rewriteConstraint = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.buildLitCase.rewriteConstraint": { const _sc$$0 = arg.h7; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const sc$$16 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$1.h2)(arg.h3); switch (sc$$16.tag) { case "False": return { tag: "Lib.Elab.buildLitCase.rewriteConstraint", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: _sc$$0.h2, h8: Prelude__$3A$3A_(null, _sc$$0.h1, arg.h8) }; case "True": { const _sc$$2 = _sc$$1.h3; switch (_sc$$2.tag) { case "PatLit": { const sc$$20 = Prelude__$3D$3D_(null, Lib_Types_Prelude_Eq$20Lib_Types_Literal)(_sc$$2.h1)(arg.h5); switch (sc$$20.tag) { case "False": return { tag: "return", h0: Prelude_Nothing(null) }; case "True": return { tag: "return", h0: Prelude_Just(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_sc$$0.h2)(arg.h8)) }; } break; } case "PatWild": return { tag: "return", h0: Prelude_Just(null, Prelude__$3A$3A_(null, _sc$$0.h1, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_sc$$0.h2)(arg.h8))) }; case "PatCon": return { tag: "return", h0: Prelude_Nothing(null) }; case "PatVar": return { tag: "return", h0: Prelude_Just(null, Prelude__$3A$3A_(null, _sc$$0.h1, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_sc$$0.h2)(arg.h8))) }; } break; } } break; } case "Nil": return { tag: "return", h0: Prelude_Just(null, arg.h8) }; } break; } } }; +const Lib_Elab_buildLitCase_rewriteConstraint = ( _, _1, _2, _3, _4, _5, _6, _$$7, _$$8 ) => (bouncer(Lib_Elab_REC_buildLitCase_rewriteConstraint, { tag: "Lib.Elab.buildLitCase.rewriteConstraint", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _5, h6: _6, h7: _$$7, h8: _$$8 })); const Lib_Elab_buildLitCase_rewriteConstraint_rewriteClause = ( _, _1, _2, _3, _4, _5, _6, _7, _$$8 ) => (Prelude__$3E$3E$3D_(null, null, null, Prelude_Prelude_Monad$20Prelude_Maybe, Lib_Elab_buildLitCase_rewriteConstraint(_, _1, _2, _3, _4, _5, _6, _$$8.h1, Prelude_Nil(null)), ( cons ) => (Prelude_pure(null, Prelude_Prelude_Monad$20Prelude_Maybe)(null)(Lib_Syntax_MkClause(_$$8.h0, cons, _$$8.h2, _$$8.h3))))); const Lib_Elab_buildLitCase = ( _$$0, _$$1, _$$2, _$$3, _$$4, _$$5 ) => { const sc$$8 = Prelude_findIndex$27(null, ( eta ) => (Prelude__$2218_(null, null, null, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_$$3), ( eta ) => (Prelude_fst(null, null, eta)), eta)), Lib_Types__types(_$$0)); switch (sc$$8.tag) { case "Nothing": return Lib_Types_error(null, Lib_Types__ctxFC(_$$0), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(_$$3))(" not is scope?")); case "Just": { const lvl = Lib_Common_lvl2ix(Prelude_length$27(null, Lib_Types__env(_$$0)), sc$$8.h1); const scon = Prelude__$2C_(null, null, lvl, Lib_Types_VLit(_$$2, _$$5)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_updateContext(_$$0, Prelude__$3A$3A_(null, scon, Prelude_Nil(null))), ( ctx$27 ) => { const clauses = Prelude_mapMaybe(null, null, ( eta ) => (Lib_Elab_buildLitCase_rewriteConstraint_rewriteClause(_$$0, _$$1, _$$2, _$$3, _$$4, _$$5, null, null, eta)), Lib_Elab__clauses(_$$1)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_when(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(Prelude_length$27(null, clauses))(0), ( _ ) => (Lib_Types_error(null, Lib_Types__ctxFC(_$$0), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Missing case for ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Literal)(_$$5)))(" splitting "))(_$$3))("")))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildTree(ctx$27, Lib_Elab_MkProb(clauses, Lib_Elab__ty(_$$1))), ( tm ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_CaseLit(_$$5, tm)))))); }); break; } } }; -const Lib_Elab_getLits = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "_::_": { const _sc$$0 = _$$1.h1; const sc$$9 = Prelude_find(null, ( eta ) => (Prelude__$2218_(null, null, null, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_$$0), ( eta ) => (Prelude_fst(null, null, eta)), eta)), _sc$$0.h1); switch (sc$$9.tag) { case "Just": { const _sc$$1 = sc$$9.h1; const _sc$$2 = _sc$$1.h3; switch (_sc$$2.tag) { case "PatLit": return Prelude__$3A$3A_(null, _sc$$2.h1, Lib_Elab_getLits(_$$0, _$$1.h2)); default: return Lib_Elab_getLits(_$$0, _$$1.h2); } break; } default: return Lib_Elab_getLits(_$$0, _$$1.h2); } break; } case "Nil": return Prelude_Nil(null); } }; -const Prelude_nub = ( a$$0, _$$1, _$$2 ) => { switch (_$$2.tag) { case "_::_": { const sc$$6 = Prelude_elem(null, _$$1, _$$2.h1, _$$2.h2); switch (sc$$6.tag) { case "False": return Prelude__$3A$3A_(null, _$$2.h1, Prelude_nub(null, _$$1, _$$2.h2)); case "True": return Prelude_nub(null, _$$1, _$$2.h2); } break; } case "Nil": return Prelude_Nil(null); } }; +const Lib_Elab_REC_getLits = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.getLits": { const _sc$$0 = arg.h1; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const sc$$9 = Prelude_find(null, ( eta ) => (Prelude__$2218_(null, null, null, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(arg.h0), ( eta ) => (Prelude_fst(null, null, eta)), eta)), _sc$$1.h1); switch (sc$$9.tag) { case "Just": { const _sc$$2 = sc$$9.h1; const _sc$$3 = _sc$$2.h3; switch (_sc$$3.tag) { case "PatLit": return { tag: "return", h0: Prelude__$3A$3A_(null, _sc$$3.h1, Lib_Elab_getLits(arg.h0, _sc$$0.h2)) }; default: return { tag: "Lib.Elab.getLits", h0: arg.h0, h1: _sc$$0.h2 }; } break; } default: return { tag: "Lib.Elab.getLits", h0: arg.h0, h1: _sc$$0.h2 }; } break; } case "Nil": return { tag: "return", h0: Prelude_Nil(null) }; } break; } } }; +const Lib_Elab_getLits = ( _$$0, _$$1 ) => (bouncer(Lib_Elab_REC_getLits, { tag: "Lib.Elab.getLits", h0: _$$0, h1: _$$1 })); +const Prelude_REC_nub = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Prelude.nub": { const _sc$$0 = arg.h2; switch (_sc$$0.tag) { case "_::_": { const sc$$6 = Prelude_elem(null, arg.h1, _sc$$0.h1, _sc$$0.h2); switch (sc$$6.tag) { case "False": return { tag: "return", h0: Prelude__$3A$3A_(null, _sc$$0.h1, Prelude_nub(null, arg.h1, _sc$$0.h2)) }; case "True": return { tag: "Prelude.nub", h0: null, h1: arg.h1, h2: _sc$$0.h2 }; } break; } case "Nil": return { tag: "return", h0: Prelude_Nil(null) }; } break; } } }; +const Prelude_nub = ( a$$0, _$$1, _$$2 ) => (bouncer(Prelude_REC_nub, { tag: "Prelude.nub", h0: a$$0, h1: _$$1, h2: _$$2 })); const Lib_Elab_buildLitCases = ( _$$0, _$$1, _$$2, _$$3, _$$4 ) => { const lits = Prelude_nub(null, Lib_Types_Prelude_Eq$20Lib_Types_Literal, Lib_Elab_getLits(_$$3, Lib_Elab__clauses(_$$1))); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_Elab_buildLitCase(_$$0, _$$1, _$$2, _$$3, _$$4, eta)))(lits), ( alts ) => { const defclauses = Prelude_filter(null, ( eta ) => (Lib_Elab_buildLitCases_isDefault(_$$0, _$$1, _$$2, _$$3, _$$4, null, eta)), Lib_Elab__clauses(_$$1)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_when(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(Prelude_length$27(null, defclauses))(0), ( _ ) => (Lib_Types_error(null, _$$2, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("no default for literal slot on ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_$$3)))("")))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildTree(_$$0, Lib_Elab_MkProb(defclauses, Lib_Elab__ty(_$$1))), ( tm ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(alts)(Prelude__$3A$3A_(null, Lib_Types_CaseDefault(tm), Prelude_Nil(null)))))))); }); }; const Lib_Elab_litTyName = ( _$$0 ) => { switch (_$$0.tag) { case "LChar": return Lib_Elab_charType; case "LInt": return Lib_Elab_intType; case "LString": return Lib_Elab_stringType; } }; const Lib_Elab_solveAutos_isAuto = ( _, _$$1 ) => { switch (_$$1.tag) { case "Unsolved": { const _sc$$0 = _$$1.h4; switch (_sc$$0.tag) { case "AutoSolve": return Prelude_True; default: return Prelude_False; } break; } default: return Prelude_False; } }; const Lib_Elab_solveAutos_isAuto_run = ( _, _1, _$$2 ) => { switch (_$$2.tag) { case "_::_": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_trySolveAuto(_$$2.h1), ( res ) => { switch (res.tag) { case "False": return Lib_Elab_solveAutos_isAuto_run(_, _1, _$$2.h2); case "True": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_True); } }); case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_False); } }; const Lib_Elab_solveAutos = Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_readIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top)), ( mc ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_solveAutos_isAuto_run(null, null, Prelude_filter(null, ( eta ) => (Lib_Elab_solveAutos_isAuto(null, eta)), Data_SortedMap_listValues(null, null, Lib_Types__metas(mc)))), ( res ) => { switch (res.tag) { case "False": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_MkUnit); case "True": return Lib_Elab_solveAutos; } }))))); -const Lib_Elab_lookupName_go = ( _, _1, _2, _$$3, _$$4 ) => { switch (_$$4.tag) { case "_::_": { const _sc$$0 = _$$4.h1; const sc$$12 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$0.h2)(_1); switch (sc$$12.tag) { case "False": return Lib_Elab_lookupName_go(_, _1, _2, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$3), _$$4.h2); case "True": return Prelude_Just(null, Prelude__$2C_(null, null, Lib_Types_Bnd(Lib_Common_emptyFC, _$$3), _sc$$0.h3)); } break; } case "Nil": return Prelude_Nothing(null); } }; +const Lib_Elab_REC_lookupName_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.lookupName.go": { const _sc$$0 = arg.h4; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const sc$$12 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$1.h2)(arg.h1); switch (sc$$12.tag) { case "False": return { tag: "Lib.Elab.lookupName.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(arg.h3), h4: _sc$$0.h2 }; case "True": return { tag: "return", h0: Prelude_Just(null, Prelude__$2C_(null, null, Lib_Types_Bnd(Lib_Common_emptyFC, arg.h3), _sc$$1.h3)) }; } break; } case "Nil": return { tag: "return", h0: Prelude_Nothing(null) }; } break; } } }; +const Lib_Elab_lookupName_go = ( _, _1, _2, _$$3, _$$4 ) => (bouncer(Lib_Elab_REC_lookupName_go, { tag: "Lib.Elab.lookupName.go", h0: _, h1: _1, h2: _2, h3: _$$3, h4: _$$4 })); const Lib_Elab_lookupName = ( _$$0, _$$1 ) => (Lib_Elab_lookupName_go(_$$0, _$$1, null, 0, Lib_Types__types(_$$0))); -const Lib_Elab_findSplit = ( _$$0 ) => { switch (_$$0.tag) { case "_::_": { const _sc$$0 = _$$0.h1; const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "PatLit": return Prelude_Just(null, _$$0.h1); case "PatCon": return Prelude_Just(null, _$$0.h1); default: return Lib_Elab_findSplit(_$$0.h2); } break; } case "Nil": return Prelude_Nothing(null); } }; +const Lib_Elab_REC_findSplit = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.findSplit": { const _sc$$0 = arg.h0; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const _sc$$2 = _sc$$1.h3; switch (_sc$$2.tag) { case "PatLit": return { tag: "return", h0: Prelude_Just(null, _sc$$0.h1) }; case "PatCon": return { tag: "return", h0: Prelude_Just(null, _sc$$0.h1) }; default: return { tag: "Lib.Elab.findSplit", h0: _sc$$0.h2 }; } break; } case "Nil": return { tag: "return", h0: Prelude_Nothing(null) }; } break; } } }; +const Lib_Elab_findSplit = ( _$$0 ) => (bouncer(Lib_Elab_REC_findSplit, { tag: "Lib.Elab.findSplit", h0: _$$0 })); const Lib_Elab_introClause = ( _$$0, _$$1, _$$2 ) => { const _sc$$0 = _$$2.h2; switch (_sc$$0.tag) { case "_::_": { const sc$$10 = Prelude__$3D$3D_(null, Lib_Types_Prelude_Eq$20Lib_Types_Icit)(_$$1)(Lib_Syntax_getIcit(_sc$$0.h1)); switch (sc$$10.tag) { case "False": { const sc$$11 = Prelude__$3D$3D_(null, Lib_Types_Prelude_Eq$20Lib_Types_Icit)(_$$1)(Lib_Types_Implicit); switch (sc$$11.tag) { case "False": { const sc$$12 = Prelude__$3D$3D_(null, Lib_Types_Prelude_Eq$20Lib_Types_Icit)(_$$1)(Lib_Types_Auto); switch (sc$$12.tag) { case "False": return Lib_Types_error(null, _$$2.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Explicit arg and ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Icit)(Lib_Syntax_getIcit(_sc$$0.h1))))(" pattern "))(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_$$0)))(" "))(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Pattern)(_sc$$0.h1)))("")); case "True": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_MkClause(_$$2.h0, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$0, Lib_Syntax_PatWild(_$$2.h0, Lib_Types_Auto)), _$$2.h1), Prelude__$3A$3A_(null, _sc$$0.h1, _sc$$0.h2), _$$2.h3)); } break; } case "True": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_MkClause(_$$2.h0, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$0, Lib_Syntax_PatWild(_$$2.h0, Lib_Types_Implicit)), _$$2.h1), Prelude__$3A$3A_(null, _sc$$0.h1, _sc$$0.h2), _$$2.h3)); } break; } case "True": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_MkClause(_$$2.h0, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$0, _sc$$0.h1), _$$2.h1), _sc$$0.h2, _$$2.h3)); } break; } case "Nil": switch (_$$1.tag) { case "Auto": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_MkClause(_$$2.h0, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$0, Lib_Syntax_PatWild(_$$2.h0, Lib_Types_Auto)), _$$2.h1), Prelude_Nil(null), _$$2.h3)); case "Implicit": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_MkClause(_$$2.h0, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$0, Lib_Syntax_PatWild(_$$2.h0, Lib_Types_Implicit)), _$$2.h1), Prelude_Nil(null), _$$2.h3)); default: return Lib_Types_error(null, _$$2.h0, "Clause size doesn't match"); } break; } }; const Lib_Elab_buildTree = ( _$$0, _$$1 ) => { const _sc$$0 = _$$1.h0; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const _sc$$2 = _sc$$1.h2; switch (_sc$$2.tag) { case "_::_": { const _sc$$3 = _$$1.h1; switch (_sc$$3.tag) { case "VPi": { const l = Prelude_length$27(null, Lib_Types__env(_$$0)); const nm = Lib_Elab_fresh(_$$0, _sc$$3.h1); const ctx$27 = Lib_Types_extend(_$$0, nm, _sc$$3.h4); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_Elab_introClause(nm, _sc$$3.h2, eta)))(Lib_Elab__clauses(_$$1)), ( clauses ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval__$$$$_(_sc$$3.h5, Lib_Types_VVar(_sc$$1.h0, l, Prelude_Lin(null))), ( vb ) => (Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_Types_Lam(_sc$$1.h0, nm, _sc$$3.h2, _sc$$3.h3, eta)), Lib_Elab_buildTree(ctx$27, Lib_Elab_MkProb(clauses, vb))))))); break; } default: return Lib_Types_error(null, _sc$$1.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Extra pattern variables ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Pattern))(_sc$$1.h2)))("")); } break; } case "Nil": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("buildTree ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Prelude_Prelude_Show$20Prim_String, Lib_Syntax_Prelude_Show$20Lib_Syntax_Pattern)))(_sc$$1.h1)))(" "))(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_sc$$1.h3)))(""))), ( _ ) => { const sc$$13 = Lib_Elab_findSplit(_sc$$1.h1); switch (sc$$13.tag) { case "Just": { const _sc$$3 = sc$$13.h1; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _1 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("SPLIT on ")(_sc$$3.h2))(" because "))(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Pattern)(_sc$$3.h3)))(" "))(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_FC)(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Pattern)(_sc$$3.h3))))(""))), ( _1 ) => { const sc$$21 = Lib_Elab_lookupName(_$$0, _sc$$3.h2); switch (sc$$21.tag) { case "Just": { const _sc$$4 = sc$$21.h1; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_unlet(Lib_Types__env(_$$0), _sc$$4.h3), ( eta ) => (Lib_Eval_forceType(Lib_Types__env(_$$0), eta))), ( scty$27 ) => { switch (scty$27.tag) { case "VMeta": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_lookupMeta(scty$27.h1), ( meta ) => { switch (meta.tag) { case "OutOfScope": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(scty$27); case "Solved": return Lib_Eval_forceType(Lib_Types__env(_$$0), scty$27); case "Unsolved": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_readIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top)), ( mc ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_solveAutos, ( _2 ) => (Lib_Eval_forceType(Lib_Types__env(_$$0), scty$27))))))); } }), ( scty$271 ) => { const _sc$$5 = _sc$$3.h3; switch (_sc$$5.tag) { case "PatLit": { const tyname = Lib_Elab_litTyName(_sc$$5.h1); switch (scty$271.tag) { case "VRef": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_when(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Prelude__$2F$3D_(null, Lib_Common_Prelude_Eq$20Lib_Common_QName, scty$271.h1, tyname), ( _2 ) => (Lib_Types_error(null, _sc$$5.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("expected ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$4.h3)))(" and got "))(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(tyname)))("")))), ( _2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildLitCases(_$$0, _$$1, _sc$$5.h0, _sc$$3.h2, _sc$$4.h3), ( alts ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Case(_sc$$5.h0, _sc$$4.h2, alts)))))); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_error(null, _sc$$5.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("expected ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$4.h3)))(" and got "))(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(tyname)))("")), ( _2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildLitCases(_$$0, _$$1, _sc$$5.h0, _sc$$3.h2, _sc$$4.h3), ( alts ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Case(_sc$$5.h0, _sc$$4.h2, alts)))))); } break; } case "PatCon": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _2 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("EXP ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$4.h3)))(" -> "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(scty$271)))(""))), ( _2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_getConstructors(_$$0, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Pattern)(_sc$$3.h3), scty$271), ( cons ) => { const matched = Lib_Elab_matchedConstructors(_sc$$3.h2, Lib_Elab__clauses(_$$1)); const sc$$39 = Prelude_partition(null, ( eta ) => (Prelude__$2218_(null, null, null, ( eta ) => (Prelude_flip(null, null, null, ( eta ) => (( eta1 ) => (Prelude_elem(null, Lib_Common_Prelude_Eq$20Lib_Common_QName, eta, eta1))), matched, eta)), ( eta ) => (Prelude_fst(null, null, eta)), eta)), cons); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_filterM(null, ( eta ) => (Lib_Elab_checkCase(_$$0, _$$1, _sc$$3.h2, scty$271, eta)), sc$$39.h3), ( miss$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _3 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("CONS ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Common_Prelude_Show$20Lib_Common_QName))(Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_fst(null, null, eta)))(cons))))(" matched "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Common_Prelude_Show$20Lib_Common_QName))(matched)))(" miss "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Lib_Common_Prelude_Show$20Lib_Common_QName, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Prelude_Prelude_Show$20Prim_Int, Lib_Types_Prelude_Show$20Lib_Types_Tm))))(sc$$39.h3)))(" miss' "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Lib_Common_Prelude_Show$20Lib_Common_QName, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Prelude_Prelude_Show$20Prim_Int, Lib_Types_Prelude_Show$20Lib_Types_Tm))))(miss$27)))(""))), ( _3 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_Elab_buildCase(_$$0, _$$1, _sc$$3.h2, scty$271, eta)))(sc$$39.h2), ( alts ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _4 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("GOTALTS ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20$28Prelude_Maybe$20BND$3A1$29(null, Lib_Types_Prelude_Show$20Lib_Types_CaseAlt)))(alts)))(""))), ( _4 ) => { const alts$27 = Prelude_mapMaybe(null, null, ( eta ) => (Prelude_id(null, eta)), alts); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_when(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(Prelude_length$27(null, alts$27))(0), ( _5 ) => (Lib_Types_error(null, _sc$$5.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("no alts for ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(scty$271)))("")))), ( _5 ) => { switch (miss$27.tag) { case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Case(_sc$$5.h0, _sc$$4.h2, Prelude_mapMaybe(null, null, ( eta ) => (Prelude_id(null, eta)), alts))); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildDefault(_$$0, _$$1, _sc$$5.h0, _sc$$3.h2, Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_fst(null, null, eta)))(miss$27)), ( $$sc ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Case(_sc$$5.h0, _sc$$4.h2, Prelude_snoc(null, alts$27, $$sc))))); } }); }))))))); }))); default: return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Pattern)(_sc$$3.h3), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Internal error - tried to split on ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Pattern)(_sc$$3.h3)))("")); } }); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(scty$27), ( scty$271 ) => { const _sc$$5 = _sc$$3.h3; switch (_sc$$5.tag) { case "PatLit": { const tyname = Lib_Elab_litTyName(_sc$$5.h1); switch (scty$271.tag) { case "VRef": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_when(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Prelude__$2F$3D_(null, Lib_Common_Prelude_Eq$20Lib_Common_QName, scty$271.h1, tyname), ( _2 ) => (Lib_Types_error(null, _sc$$5.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("expected ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$4.h3)))(" and got "))(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(tyname)))("")))), ( _2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildLitCases(_$$0, _$$1, _sc$$5.h0, _sc$$3.h2, _sc$$4.h3), ( alts ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Case(_sc$$5.h0, _sc$$4.h2, alts)))))); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_error(null, _sc$$5.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("expected ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$4.h3)))(" and got "))(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(tyname)))("")), ( _2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildLitCases(_$$0, _$$1, _sc$$5.h0, _sc$$3.h2, _sc$$4.h3), ( alts ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Case(_sc$$5.h0, _sc$$4.h2, alts)))))); } break; } case "PatCon": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _2 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("EXP ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$4.h3)))(" -> "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(scty$271)))(""))), ( _2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_getConstructors(_$$0, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Pattern)(_sc$$3.h3), scty$271), ( cons ) => { const matched = Lib_Elab_matchedConstructors(_sc$$3.h2, Lib_Elab__clauses(_$$1)); const sc$$39 = Prelude_partition(null, ( eta ) => (Prelude__$2218_(null, null, null, ( eta ) => (Prelude_flip(null, null, null, ( eta ) => (( eta1 ) => (Prelude_elem(null, Lib_Common_Prelude_Eq$20Lib_Common_QName, eta, eta1))), matched, eta)), ( eta ) => (Prelude_fst(null, null, eta)), eta)), cons); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_filterM(null, ( eta ) => (Lib_Elab_checkCase(_$$0, _$$1, _sc$$3.h2, scty$271, eta)), sc$$39.h3), ( miss$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _3 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("CONS ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Common_Prelude_Show$20Lib_Common_QName))(Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_fst(null, null, eta)))(cons))))(" matched "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Common_Prelude_Show$20Lib_Common_QName))(matched)))(" miss "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Lib_Common_Prelude_Show$20Lib_Common_QName, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Prelude_Prelude_Show$20Prim_Int, Lib_Types_Prelude_Show$20Lib_Types_Tm))))(sc$$39.h3)))(" miss' "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Lib_Common_Prelude_Show$20Lib_Common_QName, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Prelude_Prelude_Show$20Prim_Int, Lib_Types_Prelude_Show$20Lib_Types_Tm))))(miss$27)))(""))), ( _3 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_Elab_buildCase(_$$0, _$$1, _sc$$3.h2, scty$271, eta)))(sc$$39.h2), ( alts ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _4 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("GOTALTS ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20$28Prelude_Maybe$20BND$3A1$29(null, Lib_Types_Prelude_Show$20Lib_Types_CaseAlt)))(alts)))(""))), ( _4 ) => { const alts$27 = Prelude_mapMaybe(null, null, ( eta ) => (Prelude_id(null, eta)), alts); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_when(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(Prelude_length$27(null, alts$27))(0), ( _5 ) => (Lib_Types_error(null, _sc$$5.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("no alts for ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(scty$271)))("")))), ( _5 ) => { switch (miss$27.tag) { case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Case(_sc$$5.h0, _sc$$4.h2, Prelude_mapMaybe(null, null, ( eta ) => (Prelude_id(null, eta)), alts))); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildDefault(_$$0, _$$1, _sc$$5.h0, _sc$$3.h2, Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_fst(null, null, eta)))(miss$27)), ( $$sc ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Case(_sc$$5.h0, _sc$$4.h2, Prelude_snoc(null, alts$27, $$sc))))); } }); }))))))); }))); default: return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Pattern)(_sc$$3.h3), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Internal error - tried to split on ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Pattern)(_sc$$3.h3)))("")); } }); } }); break; } default: return Lib_Types_error(null, _sc$$1.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Internal Error: can't find ")(_sc$$3.h2))(" in environment")); } }); break; } default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _1 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("checkDone ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Prelude_Prelude_Show$20Prim_String, Lib_Syntax_Prelude_Show$20Lib_Syntax_Pattern)))(_sc$$1.h1)))(""))), ( _1 ) => (Lib_Elab_checkDone(_$$0, _sc$$1.h1, _sc$$1.h3, _$$1.h1))); } }); } break; } case "Nil": return Lib_Types_error(null, Lib_Common_emptyFC, "no clauses"); } }; const Lib_Types_withPos = ( _$$0, _$$1 ) => (Lib_Types_MkCtx(_$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, _$$1)); const Lib_Syntax_PatCon = ( h0, h1, h2, h3, h4 ) => ({ tag: "PatCon", h0: h0, h1: h1, h2: h2, h3: h3, h4: h4 }); const Lib_Syntax_PatLit = ( h0, h1 ) => ({ tag: "PatLit", h0: h0, h1: h1 }); -const Lib_Elab_splitArgs = ( _$$0, _$$1 ) => { switch (_$$0.tag) { case "RApp": return Lib_Elab_splitArgs(_$$0.h1, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _$$0.h2, _$$0.h3), _$$1)); default: return Prelude__$2C_(null, null, _$$0, _$$1); } }; +const Lib_Elab_REC_splitArgs = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.splitArgs": { const _sc$$0 = arg.h0; switch (_sc$$0.tag) { case "RApp": return { tag: "Lib.Elab.splitArgs", h0: _sc$$0.h1, h1: Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h2, _sc$$0.h3), arg.h1) }; default: return { tag: "return", h0: Prelude__$2C_(null, null, arg.h0, arg.h1) }; } break; } } }; +const Lib_Elab_splitArgs = ( _$$0, _$$1 ) => (bouncer(Lib_Elab_REC_splitArgs, { tag: "Lib.Elab.splitArgs", h0: _$$0, h1: _$$1 })); const Lib_Elab_mkPat = ( _$$0 ) => { const _sc$$0 = _$$0.h2; switch (_sc$$0.tag) { case "RAs": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_mkPat(Prelude__$2C_(null, null, _sc$$0.h2, _$$0.h3)), ( pat ) => { switch (pat.tag) { case "PatCon": { const _sc$$1 = pat.h4; switch (_sc$$1.tag) { case "Nothing": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_PatCon(pat.h0, pat.h1, pat.h2, pat.h3, Prelude_Just(null, _sc$$0.h1))); default: return Lib_Types_error(null, pat.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Double as pattern ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_sc$$0.h2)))("")); } break; } default: return Lib_Types_error(null, _sc$$0.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Can't put as on non-constructor ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_sc$$0.h2)))("")); } }); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => { const sc$$6 = Lib_Elab_splitArgs(_$$0.h2, Prelude_Nil(null)); const _sc$$1 = sc$$6.h2; switch (_sc$$1.tag) { case "RImplicit": { const _sc$$2 = sc$$6.h3; switch (_sc$$2.tag) { case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_PatWild(_sc$$1.h0, _$$0.h3)); default: return Lib_Types_error(null, _sc$$1.h0, "implicit pat can't be applied to arguments"); } break; } case "RLit": { const _sc$$2 = sc$$6.h3; switch (_sc$$2.tag) { case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_PatLit(_sc$$1.h0, _sc$$1.h1)); default: return Lib_Types_error(null, _sc$$1.h0, "lit cannot be applied to arguments"); } break; } case "RVar": { const sc$$13 = Lib_TopContext_lookupRaw(_sc$$1.h1, top); switch (sc$$13.tag) { case "Just": { const _sc$$2 = sc$$13.h1; const _sc$$3 = _sc$$2.h3; switch (_sc$$3.tag) { case "DCon": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(Lib_Elab_mkPat)(sc$$6.h3), ( bpat ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_PatCon(_sc$$1.h0, _$$0.h3, _sc$$2.h1, bpat, Prelude_Nothing(null))))); default: { const _sc$$4 = sc$$6.h3; switch (_sc$$4.tag) { case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_PatVar(_sc$$1.h0, _$$0.h3, _sc$$1.h1)); default: return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(_$$0.h2), "patvar applied to args"); } break; } } break; } default: { const _sc$$2 = sc$$6.h3; switch (_sc$$2.tag) { case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_PatVar(_sc$$1.h0, _$$0.h3, _sc$$1.h1)); default: return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(_$$0.h2), "patvar applied to args"); } break; } } break; } default: return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(sc$$6.h2), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("expected pat var or constructor, got ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(sc$$6.h2)))("")); } }); } }; const Lib_Types_User = { tag: "User" }; const Lib_Types_BI = ( h0, h1, h2, h3 ) => ({ tag: "BI", h0: h0, h1: h1, h2: h2, h3: h3 }); @@ -742,7 +845,8 @@ const Lib_Syntax_MkAlt = ( h0, h1 ) => ({ tag: "MkAlt", h0: h0, h1: h1 }); const Lib_Syntax_RCase = ( h0, h1, h2 ) => ({ tag: "RCase", h0: h0, h1: h1, h2: h2 }); const Lib_Elab_undo = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "_::_": { const _sc$$0 = _$$1.h1; switch (_sc$$0.tag) { case "DoArrow": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "RVar": { const _sc$$2 = _sc$$0.h3; switch (_sc$$2.tag) { case "Nil": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => { const sc$$13 = Lib_TopContext_lookupRaw(_sc$$1.h1, top); switch (sc$$13.tag) { case "Nothing": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_undo(_sc$$0.h0, _$$1.h2), ( xs$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_RApp(_sc$$0.h0, Lib_Syntax_RApp(_sc$$0.h0, Lib_Syntax_RVar(_sc$$0.h0, "_>>=_"), _sc$$0.h2, Lib_Types_Explicit), Lib_Syntax_RLam(_sc$$0.h0, Lib_Types_BI(_sc$$1.h0, _sc$$1.h1, Lib_Types_Explicit, Lib_Types_Many), xs$27), Lib_Types_Explicit)))); case "Just": { const nm = "$sc"; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_undo(_sc$$0.h0, _$$1.h2), ( xs$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_RCase(_sc$$0.h0, Lib_Syntax_RVar(_sc$$0.h0, nm), Prelude__$3A$3A_(null, Lib_Syntax_MkAlt(_sc$$0.h1, xs$27), Prelude_Nil(null)))), ( rest ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_RApp(_sc$$0.h0, Lib_Syntax_RApp(_sc$$0.h0, Lib_Syntax_RVar(_sc$$0.h0, "_>>=_"), _sc$$0.h2, Lib_Types_Explicit), Lib_Syntax_RLam(_sc$$0.h0, Lib_Types_BI(_sc$$0.h0, nm, Lib_Types_Explicit, Lib_Types_Many), rest), Lib_Types_Explicit)))))); break; } } }); default: { const nm = "$sc"; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_undo(_sc$$0.h0, _$$1.h2), ( xs$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_RCase(_sc$$0.h0, Lib_Syntax_RVar(_sc$$0.h0, nm), Prelude__$3A$3A_(null, Lib_Syntax_MkAlt(_sc$$0.h1, xs$27), _sc$$0.h3))), ( rest ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_RApp(_sc$$0.h0, Lib_Syntax_RApp(_sc$$0.h0, Lib_Syntax_RVar(_sc$$0.h0, "_>>=_"), _sc$$0.h2, Lib_Types_Explicit), Lib_Syntax_RLam(_sc$$0.h0, Lib_Types_BI(_sc$$0.h0, nm, Lib_Types_Explicit, Lib_Types_Many), rest), Lib_Types_Explicit)))))); break; } } break; } default: { const nm = "$sc"; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_undo(_sc$$0.h0, _$$1.h2), ( xs$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_RCase(_sc$$0.h0, Lib_Syntax_RVar(_sc$$0.h0, nm), Prelude__$3A$3A_(null, Lib_Syntax_MkAlt(_sc$$0.h1, xs$27), _sc$$0.h3))), ( rest ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_RApp(_sc$$0.h0, Lib_Syntax_RApp(_sc$$0.h0, Lib_Syntax_RVar(_sc$$0.h0, "_>>=_"), _sc$$0.h2, Lib_Types_Explicit), Lib_Syntax_RLam(_sc$$0.h0, Lib_Types_BI(_sc$$0.h0, nm, Lib_Types_Explicit, Lib_Types_Many), rest), Lib_Types_Explicit)))))); break; } } break; } case "DoLet": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_Syntax_RLet(_sc$$0.h0, _sc$$0.h1, Lib_Syntax_RImplicit(_sc$$0.h0), _sc$$0.h2, eta)), Lib_Elab_undo(_sc$$0.h0, _$$1.h2)); case "DoExpr": { const _sc$$1 = _$$1.h2; switch (_sc$$1.tag) { case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(_sc$$0.h1); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_undo(_sc$$0.h0, _$$1.h2), ( xs$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_RApp(_sc$$0.h0, Lib_Syntax_RApp(_sc$$0.h0, Lib_Syntax_RVar(_sc$$0.h0, "_>>=_"), _sc$$0.h1, Lib_Types_Explicit), Lib_Syntax_RLam(_sc$$0.h0, Lib_Types_BI(_sc$$0.h0, "_", Lib_Types_Explicit, Lib_Types_Many), xs$27), Lib_Types_Explicit)))); } break; } } break; } case "Nil": return Lib_Types_error(null, _$$0, "do block must end in expression"); } }; const Lib_Syntax_Def = ( h0, h1, h2 ) => ({ tag: "Def", h0: h0, h1: h1, h2: h2 }); -const Lib_Elab_collectDecl = ( _$$0 ) => { switch (_$$0.tag) { case "_::_": { const _sc$$0 = _$$0.h1; switch (_sc$$0.tag) { case "Def": { const _sc$$1 = _$$0.h2; switch (_sc$$1.tag) { case "_::_": { const _sc$$2 = _sc$$1.h1; switch (_sc$$2.tag) { case "Def": { const sc$$13 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$0.h1)(_sc$$2.h1); switch (sc$$13.tag) { case "False": return Prelude__$3A$3A_(null, Lib_Syntax_Def(_sc$$0.h0, _sc$$0.h1, _sc$$0.h2), Lib_Elab_collectDecl(_$$0.h2)); case "True": return Lib_Elab_collectDecl(Prelude__$3A$3A_(null, Lib_Syntax_Def(_sc$$0.h0, _sc$$0.h1, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_sc$$0.h2)(_sc$$2.h2)), _sc$$1.h2)); } break; } default: return Prelude__$3A$3A_(null, _$$0.h1, Lib_Elab_collectDecl(_$$0.h2)); } break; } default: return Prelude__$3A$3A_(null, _$$0.h1, Lib_Elab_collectDecl(_$$0.h2)); } break; } default: return Prelude__$3A$3A_(null, _$$0.h1, Lib_Elab_collectDecl(_$$0.h2)); } break; } case "Nil": return Prelude_Nil(null); } }; +const Lib_Elab_REC_collectDecl = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.collectDecl": { const _sc$$0 = arg.h0; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "Def": { const _sc$$2 = _sc$$0.h2; switch (_sc$$2.tag) { case "_::_": { const _sc$$3 = _sc$$2.h1; switch (_sc$$3.tag) { case "Def": { const sc$$13 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$1.h1)(_sc$$3.h1); switch (sc$$13.tag) { case "False": return { tag: "return", h0: Prelude__$3A$3A_(null, Lib_Syntax_Def(_sc$$1.h0, _sc$$1.h1, _sc$$1.h2), Lib_Elab_collectDecl(_sc$$0.h2)) }; case "True": return { tag: "Lib.Elab.collectDecl", h0: Prelude__$3A$3A_(null, Lib_Syntax_Def(_sc$$1.h0, _sc$$1.h1, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(_sc$$1.h2)(_sc$$3.h2)), _sc$$2.h2) }; } break; } default: return { tag: "return", h0: Prelude__$3A$3A_(null, _sc$$0.h1, Lib_Elab_collectDecl(_sc$$0.h2)) }; } break; } default: return { tag: "return", h0: Prelude__$3A$3A_(null, _sc$$0.h1, Lib_Elab_collectDecl(_sc$$0.h2)) }; } break; } default: return { tag: "return", h0: Prelude__$3A$3A_(null, _sc$$0.h1, Lib_Elab_collectDecl(_sc$$0.h2)) }; } break; } case "Nil": return { tag: "return", h0: Prelude_Nil(null) }; } break; } } }; +const Lib_Elab_collectDecl = ( _$$0 ) => (bouncer(Lib_Elab_REC_collectDecl, { tag: "Lib.Elab.collectDecl", h0: _$$0 })); const Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Decl$2CgetFC = ( _$$0 ) => { switch (_$$0.tag) { case "Record": return _$$0.h0; case "Instance": return _$$0.h0; case "Class": return _$$0.h0; case "PMixFix": return _$$0.h0; case "PFunc": return _$$0.h0; case "PType": return _$$0.h0; case "ShortData": return _$$0.h0; case "Data": return _$$0.h0; case "DCheck": return _$$0.h0; case "Def": return _$$0.h0; case "TypeSig": return _$$0.h0; } }; const Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Decl = Lib_Common_MkHasFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Decl$2CgetFC); const Lib_Elab_makeClause = ( _$$0 ) => { const sc$$5 = Lib_Elab_splitArgs(_$$0.h2, Prelude_Nil(null)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(Lib_Elab_mkPat)(sc$$5.h3), ( pats ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_MkClause(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(_$$0.h2), Prelude_Nil(null), pats, _$$0.h3)))); }; @@ -750,13 +854,16 @@ const Prelude_unless = ( f$$0, _$$1, _$$2, _$$3 ) => (Prelude_when(null, _$$1, P const Lib_Elab_checkWhere = ( _$$0, _$$1, _$$2, _$$3 ) => { switch (_$$1.tag) { case "_::_": { const _sc$$0 = _$$1.h1; switch (_sc$$0.tag) { case "TypeSig": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "_::_": { const _sc$$2 = _sc$$1.h2; switch (_sc$$2.tag) { case "Nil": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_check(_$$0, _sc$$0.h2, Lib_Types_VU(_sc$$0.h0)), ( funTy ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("where clause ")(_sc$$1.h1))(" : "))(Lib_Elab_rpprint(Lib_Types_names(_$$0), funTy)))(""))), ( _ ) => { const _sc$$3 = _$$1.h2; switch (_sc$$3.tag) { case "_::_": { const _sc$$4 = _sc$$3.h1; switch (_sc$$4.tag) { case "Def": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_unless(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$1.h1)(_sc$$4.h1), ( _1 ) => (Lib_Types_error(null, _sc$$4.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Expected def for ")(_sc$$1.h1))("")))), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(Lib_Elab_makeClause)(_sc$$4.h2), ( clauses$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Lib_Types__env(_$$0), Lib_Types_CBN, funTy), ( vty ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _2 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(_sc$$1.h1))(" vty is "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(vty)))(""))), ( _2 ) => { const ctx$27 = Lib_Types_extend(_$$0, _sc$$1.h1, vty); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildTree(Lib_Types_withPos(ctx$27, _sc$$4.h0), Lib_Elab_MkProb(clauses$27, vty)), ( tm ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Lib_Types__env(ctx$27), Lib_Types_CBN, tm), ( vtm ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_checkWhere(ctx$27, _sc$$3.h2, _$$2, _$$3), ( ty$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_LetRec(_sc$$0.h0, _sc$$1.h1, funTy, tm, ty$27)))))))); }))))))))); default: return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Decl)(_sc$$3.h1), "expected function definition"); } break; } default: return Lib_Types_error(null, _sc$$0.h0, "expected function definition after this signature"); } }))); default: return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Decl)(_$$1.h1), "expected type signature"); } break; } default: return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Decl)(_$$1.h1), "expected type signature"); } break; } default: return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Decl)(_$$1.h1), "expected type signature"); } break; } default: return Lib_Elab_check(_$$0, _$$2, _$$3); } }; const Lib_Elab_check = ( _$$0, _$$1, _$$2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_forceType(Lib_Types__env(_$$0), _$$2), ( ty$27 ) => { const sc$$4 = Prelude__$2C_(null, null, _$$1, ty$27); const _sc$$0 = sc$$4.h2; switch (_sc$$0.tag) { case "RWhere": return Lib_Elab_checkWhere(_$$0, Lib_Elab_collectDecl(_sc$$0.h1), _sc$$0.h2, sc$$4.h3); case "RIf": { const tm$27 = Lib_Syntax_RCase(_sc$$0.h0, _sc$$0.h1, Prelude__$3A$3A_(null, Lib_Syntax_MkAlt(Lib_Syntax_RVar(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(_sc$$0.h2), "True"), _sc$$0.h2), Prelude__$3A$3A_(null, Lib_Syntax_MkAlt(Lib_Syntax_RVar(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(_sc$$0.h3), "False"), _sc$$0.h3), Prelude_Nil(null)))); return Lib_Elab_check(_$$0, tm$27, sc$$4.h3); break; } case "RDo": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_undo(_sc$$0.h0, _sc$$0.h1), ( stmts$27 ) => (Lib_Elab_check(_$$0, stmts$27, sc$$4.h3))); case "RHole": return Lib_Elab_freshMeta(_$$0, _sc$$0.h0, sc$$4.h3, Lib_Types_User); case "RImplicit": return Lib_Elab_freshMeta(_$$0, _sc$$0.h0, sc$$4.h3, Lib_Types_Normal); case "RCase": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_infer(_$$0, _sc$$0.h1), ( $$sc ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_forceMeta($$sc.h3), ( scty ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("SCTM ")(Lib_Elab_rpprint(Lib_Types_names(_$$0), $$sc.h2)))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _1 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("SCTY ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(scty)))(""))), ( _1 ) => { const scnm = Lib_Elab_fresh(_$$0, "sc"); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, _sc$$0.h2, ( $$case ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_mkPat(Prelude__$2C_(null, null, $$case.h0, Lib_Types_Explicit)), ( pat$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_MkClause(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)($$case.h0), Prelude__$3A$3A_(null, Prelude__$2C_(null, null, scnm, pat$27), Prelude_Nil(null)), Prelude_Nil(null), $$case.h1)))))), ( clauses ) => { const ctx$27 = Lib_Types_withPos(Lib_Types_extend(_$$0, scnm, scty), Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(_$$1)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_buildTree(ctx$27, Lib_Elab_MkProb(clauses, sc$$4.h3)), ( tree ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Let(_sc$$0.h0, scnm, $$sc.h2, tree)))); }))); }))))))); case "RLet": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_check(_$$0, _sc$$0.h2, Lib_Types_VU(Lib_Common_emptyFC)), ( ty$271 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Lib_Types__env(_$$0), Lib_Types_CBN, ty$271), ( vty ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_check(_$$0, _sc$$0.h3, vty), ( v$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Lib_Types__env(_$$0), Lib_Types_CBN, v$27), ( vv ) => { const ctx$27 = Lib_Types_define(_$$0, _sc$$0.h1, vv, vty); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_check(ctx$27, _sc$$0.h4, sc$$4.h3), ( sc$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Let(_sc$$0.h0, _sc$$0.h1, v$27, sc$27)))); }))))))); case "RLam": { const _sc$$1 = _sc$$0.h1; const _sc$$2 = sc$$4.h3; switch (_sc$$2.tag) { case "VPi": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("icits ")(_sc$$1.h1))(" "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Icit)(_sc$$1.h2)))(" "))(_sc$$2.h1))(" "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Icit)(_sc$$2.h2)))(""))), ( _ ) => { const sc$$23 = Prelude__$3D$3D_(null, Lib_Types_Prelude_Eq$20Lib_Types_Icit)(_sc$$1.h2)(_sc$$2.h2); switch (sc$$23.tag) { case "False": { const sc$$24 = Prelude__$2F$3D_(null, Lib_Types_Prelude_Eq$20Lib_Types_Icit, _sc$$2.h2, Lib_Types_Explicit); switch (sc$$24.tag) { case "False": return Lib_Types_error(null, _sc$$0.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Icity issue checking ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(sc$$4.h2)))(" at "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(sc$$4.h3)))("")); case "True": { const $var = Lib_Types_VVar(_sc$$0.h0, Prelude_length$27(null, Lib_Types__env(_$$0)), Prelude_Lin(null)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval__$$$$_(_sc$$2.h5, $var), ( ty$271 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_check(Lib_Types_extend(_$$0, _sc$$2.h1, _sc$$2.h4), sc$$4.h2, ty$271), ( sc ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Lam(_sc$$0.h0, _sc$$2.h1, _sc$$1.h2, _sc$$2.h3, sc)))))); break; } } break; } case "True": { const $var = Lib_Types_VVar(_sc$$0.h0, Prelude_length$27(null, Lib_Types__env(_$$0)), Prelude_Lin(null)); const ctx$27 = Lib_Types_extend(_$$0, _sc$$1.h1, _sc$$2.h4); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval__$$$$_(_sc$$2.h5, $var), ( bapp ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_check(ctx$27, _sc$$0.h2, bapp), ( tm$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Lam(_sc$$0.h0, _sc$$1.h1, _sc$$1.h2, _sc$$2.h3, tm$27)))))); break; } } }); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_prvalCtx(_$$0, sc$$4.h3), ( pty ) => (Lib_Types_error(null, _sc$$1.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Expected pi type, got ")(pty))("")))); } break; } default: { const _sc$$1 = sc$$4.h3; switch (_sc$$1.tag) { case "VPi": { const _sc$$2 = _sc$$1.h2; switch (_sc$$2.tag) { case "Auto": { const names = Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_fst(null, null, eta)))(Lib_Types__types(_$$0)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("XXX edge case add auto lambda {")(_sc$$1.h1))(" : "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$1.h4)))("} to "))(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(sc$$4.h2)))(" "))), ( _ ) => { const $var = Lib_Types_VVar(_sc$$1.h0, Prelude_length$27(null, Lib_Types__env(_$$0)), Prelude_Lin(null)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval__$$$$_(_sc$$1.h5, $var), ( ty$271 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debugM(Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_prvalCtx(Lib_Types_extend(_$$0, _sc$$1.h1, _sc$$1.h4), ty$271), ( pty$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("XXX ty' is ")(pty$27))(""))))), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_check(Lib_Types_extend(_$$0, _sc$$1.h1, _sc$$1.h4), sc$$4.h2, ty$271), ( sc ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Lam(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(sc$$4.h2), _sc$$1.h1, Lib_Types_Auto, _sc$$1.h3, sc)))))))); }); break; } case "Implicit": { const names = Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_fst(null, null, eta)))(Lib_Types__types(_$$0)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("XXX edge case add implicit lambda {")(_sc$$1.h1))(" : "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_sc$$1.h4)))("} to "))(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(sc$$4.h2)))(" "))), ( _ ) => { const $var = Lib_Types_VVar(_sc$$1.h0, Prelude_length$27(null, Lib_Types__env(_$$0)), Prelude_Lin(null)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval__$$$$_(_sc$$1.h5, $var), ( ty$271 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debugM(Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_prvalCtx(Lib_Types_extend(_$$0, _sc$$1.h1, _sc$$1.h4), ty$271), ( pty$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("XXX ty' is ")(pty$27))(""))))), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_check(Lib_Types_extend(_$$0, _sc$$1.h1, _sc$$1.h4), sc$$4.h2, ty$271), ( sc ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Lam(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(sc$$4.h2), _sc$$1.h1, Lib_Types_Implicit, _sc$$1.h3, sc)))))))); }); break; } default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_infer(_$$0, sc$$4.h2), ( $$sc ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_insert(_$$0, $$sc.h2, $$sc.h3), ( $$sc1 ) => { const names = Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_fst(null, null, eta)))(Lib_Types__types(_$$0)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("INFER ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(sc$$4.h2)))(" to ("))(Lib_Elab_rpprint(names, $$sc1.h2)))(" : "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)($$sc1.h3)))(") expect "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(sc$$4.h3)))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_unifyCatch(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(sc$$4.h2), _$$0, $$sc1.h3, sc$$4.h3), ( _1 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)($$sc1.h2))))); }))); } break; } default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_infer(_$$0, sc$$4.h2), ( $$sc ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_insert(_$$0, $$sc.h2, $$sc.h3), ( $$sc1 ) => { const names = Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_fst(null, null, eta)))(Lib_Types__types(_$$0)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("INFER ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(sc$$4.h2)))(" to ("))(Lib_Elab_rpprint(names, $$sc1.h2)))(" : "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)($$sc1.h3)))(") expect "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(sc$$4.h3)))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_unifyCatch(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(sc$$4.h2), _$$0, $$sc1.h3, sc$$4.h3), ( _1 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)($$sc1.h2))))); }))); } break; } } })); const Lib_Util_MkBinder = ( h0, h1, h2, h3, h4 ) => ({ tag: "MkBinder", h0: h0, h1: h1, h2: h2, h3: h3, h4: h4 }); -const Lib_Util_splitTele_go = ( _, _$$1, _$$2 ) => { switch (_$$2.tag) { case "Pi": return Lib_Util_splitTele_go(_, Prelude__$3A$3A_(null, Lib_Util_MkBinder(_$$2.h0, _$$2.h1, _$$2.h2, _$$2.h3, _$$2.h4), _$$1), _$$2.h5); default: return Prelude__$2C_(null, null, _$$2, Prelude_reverse(null)(_$$1)); } }; +const Lib_Util_REC_splitTele_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Util.splitTele.go": { const _sc$$0 = arg.h2; switch (_sc$$0.tag) { case "Pi": return { tag: "Lib.Util.splitTele.go", h0: arg.h0, h1: Prelude__$3A$3A_(null, Lib_Util_MkBinder(_sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, _sc$$0.h4), arg.h1), h2: _sc$$0.h5 }; default: return { tag: "return", h0: Prelude__$2C_(null, null, arg.h2, Prelude_reverse(null)(arg.h1)) }; } break; } } }; +const Lib_Util_splitTele_go = ( _, _$$1, _$$2 ) => (bouncer(Lib_Util_REC_splitTele_go, { tag: "Lib.Util.splitTele.go", h0: _, h1: _$$1, h2: _$$2 })); const Lib_Util_splitTele = ( eta ) => (Lib_Util_splitTele_go(null, Prelude_Nil(null), eta)); -const Lib_Elab_findMatches = ( _$$0, _$$1, _$$2 ) => { switch (_$$2.tag) { case "_::_": { const _sc$$0 = _$$2.h1; const sc$$10 = Lib_Elab_isCandidate(_$$1, _sc$$0.h2); switch (sc$$10.tag) { case "False": return Lib_Elab_findMatches(_$$0, _$$1, _$$2.h2); case "True": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_readIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top)), ( mc ) => { const fc = Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Val)(_$$1); return Lib_Types_catchError(null, Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("TRY ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$0.h1)))(" : "))(Lib_Elab_rpprint(Prelude_Nil(null), _sc$$0.h2)))(" for "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$1)))(""))), ( _ ) => { const _sc$$1 = _sc$$0.h1; const sc$$18 = Lib_Util_splitTele(_sc$$0.h2); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_modifyIORef(null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top), ( mc1 ) => (Lib_Types_MC(Lib_Types__metas(mc1), Lib_Types__next(mc1), Lib_Types_CheckFirst))), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_check(_$$0, Lib_Syntax_RVar(fc, _sc$$1.h1), _$$1), ( tm ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _2 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Found ")(Lib_Elab_rpprint(Prelude_Nil(null), tm)))(" for "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$1)))(""))), ( _2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_writeIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top), mc), ( _3 ) => (Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Prelude__$3A$3A_(null, _sc$$1.h1, eta)), Lib_Elab_findMatches(_$$0, _$$1, _$$2.h2)))))))))); }), ( err ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("No match ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(_$$1)))(" "))(Lib_Elab_rpprint(Prelude_Nil(null), _sc$$0.h2)))(" "))(Lib_Common_showError("", err)))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_writeIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top), mc), ( _1 ) => (Lib_Elab_findMatches(_$$0, _$$1, _$$2.h2))))))); }))); } break; } case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nil(null)); } }; +const Lib_Elab_REC_findMatches = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Elab.findMatches": { const _sc$$0 = arg.h2; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const sc$$10 = Lib_Elab_isCandidate(arg.h1, _sc$$1.h2); switch (sc$$10.tag) { case "False": return { tag: "Lib.Elab.findMatches", h0: arg.h0, h1: arg.h1, h2: _sc$$0.h2 }; case "True": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_readIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top)), ( mc ) => { const fc = Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Val)(arg.h1); return Lib_Types_catchError(null, Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("TRY ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$1.h1)))(" : "))(Lib_Elab_rpprint(Prelude_Nil(null), _sc$$1.h2)))(" for "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(arg.h1)))(""))), ( _ ) => { const _sc$$2 = _sc$$1.h1; const sc$$18 = Lib_Util_splitTele(_sc$$1.h2); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_modifyIORef(null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top), ( mc1 ) => (Lib_Types_MC(Lib_Types__metas(mc1), Lib_Types__next(mc1), Lib_Types_CheckFirst))), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_check(arg.h0, Lib_Syntax_RVar(fc, _sc$$2.h1), arg.h1), ( tm ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _2 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Found ")(Lib_Elab_rpprint(Prelude_Nil(null), tm)))(" for "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(arg.h1)))(""))), ( _2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_writeIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top), mc), ( _3 ) => (Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Prelude__$3A$3A_(null, _sc$$2.h1, eta)), Lib_Elab_findMatches(arg.h0, arg.h1, _sc$$0.h2)))))))))); }), ( err ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("No match ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(arg.h1)))(" "))(Lib_Elab_rpprint(Prelude_Nil(null), _sc$$1.h2)))(" "))(Lib_Common_showError("", err)))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_writeIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top), mc), ( _1 ) => (Lib_Elab_findMatches(arg.h0, arg.h1, _sc$$0.h2))))))); }))) }; } break; } case "Nil": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nil(null)) }; } break; } } }; +const Lib_Elab_findMatches = ( _$$0, _$$1, _$$2 ) => (bouncer(Lib_Elab_REC_findMatches, { tag: "Lib.Elab.findMatches", h0: _$$0, h1: _$$1, h2: _$$2 })); const Lib_ProcessDecl_dumpEnv_isVar = ( _, _1, _$$2, _$$3 ) => { switch (_$$3.tag) { case "VVar": { const _sc$$0 = _$$3.h2; switch (_sc$$0.tag) { case "Lin": return Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(_$$2)(_$$3.h1); default: return Prelude_False; } break; } default: return Prelude_False; } }; const Lib_ProcessDecl_dumpEnv_isVar_go = ( _, _1, _2, _$$3, _$$4, _$$5, _$$6 ) => { switch (_$$5.tag) { case "_::_": { const _sc$$0 = _$$5.h1; const _sc$$1 = _sc$$0.h3; const sc$$18 = Lib_ProcessDecl_dumpEnv_isVar(_, _1, _$$4, _sc$$0.h2); switch (sc$$18.tag) { case "False": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Lib_Types__lvl(_), _sc$$0.h2), ( v$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Lib_Types__lvl(_), _sc$$1.h3), ( ty$27 ) => (Lib_ProcessDecl_dumpEnv_isVar_go(_, _1, _2, _$$3, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$4), _$$5.h2, Prelude__$3A$3A_(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(_sc$$1.h2))(" = "))(Lib_Prettier_render(90, Lib_Types_pprint(_$$3, v$27))))(" : "))(Lib_Prettier_render(90, Lib_Types_pprint(_$$3, ty$27))))(""), _$$6)))))); case "True": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Lib_Types__lvl(_), _sc$$1.h3), ( ty$27 ) => (Lib_ProcessDecl_dumpEnv_isVar_go(_, _1, _2, _$$3, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$4), _$$5.h2, Prelude__$3A$3A_(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(_sc$$1.h2))(" : "))(Lib_Prettier_render(90, Lib_Types_pprint(_$$3, ty$27))))(""), _$$6)))); } break; } case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(_$$6); } }; const Lib_ProcessDecl_dumpEnv = ( _$$0 ) => (Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Prelude__$2218_(null, null, null, Prelude_unlines, Prelude_reverse(null), eta)), Lib_ProcessDecl_dumpEnv_isVar_go(_$$0, null, null, Lib_Types_names(_$$0), 0, Prelude_reverse(null)(Prelude_zip(null, null, Lib_Types__env(_$$0), Lib_Types__types(_$$0))), Prelude_Nil(null)))); -const Lib_ProcessDecl_logMetas = ( _$$0 ) => { switch (_$$0.tag) { case "_::_": { const _sc$$0 = _$$0.h1; switch (_sc$$0.tag) { case "OutOfScope": return Lib_ProcessDecl_logMetas(_$$0.h2); case "Solved": return Lib_ProcessDecl_logMetas(_$$0.h2); case "Unsolved": { const _sc$$1 = _sc$$0.h4; switch (_sc$$1.tag) { case "User": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Lib_Types__lvl(_sc$$0.h2), _sc$$0.h3), ( ty$27 ) => { const names = Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_fst(null, null, eta)))(Lib_Types__types(_sc$$0.h2)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_ProcessDecl_dumpEnv(_sc$$0.h2), ( env ) => { const msg = Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(env))("\n -----------\n "))(Lib_Prettier_render(90, Lib_Types_pprint(names, ty$27))))(""); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_info(_sc$$0.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("User Hole\n")(msg))("")), ( _ ) => (Lib_ProcessDecl_logMetas(_$$0.h2))); }); }); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_forceMeta(_sc$$0.h3), ( ty$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Lib_Types__lvl(_sc$$0.h2), ty$27), ( tm ) => { const msg = Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Unsolved meta ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$0.h1)))(" "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_MetaKind)(_sc$$0.h4)))(" type "))(Lib_Prettier_render(90, Lib_Types_pprint(Lib_Types_names(_sc$$0.h2), tm))))(" "))(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(Prelude_length$27(null, _sc$$0.h5))))(" constraints"); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, _sc$$0.h5, ( $$case ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" * (m")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$0.h1)))(" ("))(Data_String_unwords(Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val))(Prelude__$3C$3E$3E_(null, $$case.h2, Prelude_Nil(null))))))(") =?= "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)($$case.h3)))("")))), ( msgs ) => { const _sc$$2 = _sc$$0.h4; switch (_sc$$2.tag) { case "AutoSolve": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Lib_Types__lvl(_sc$$0.h2), _sc$$0.h3), ( x ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Lib_Types__env(_sc$$0.h2), Lib_Types_CBN, x), ( ty ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("AUTO ---> ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(ty)))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_findMatches(_sc$$0.h2, ty, Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_snd(null, null, eta)))(Data_SortedMap_toList(null, null, Lib_Types__defs(top)))), ( matches ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$3A$3A_(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(Prelude_length$27(null, matches))))(" Solutions: "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20Prim_String))(matches)))(""), Prelude_Nil(null))))))))))))), ( sols ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_info(_sc$$0.h0, Prelude_unlines(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(Prelude__$3A$3A_(null, msg, Prelude_Nil(null)))(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(msgs)(sols)))), ( _ ) => (Lib_ProcessDecl_logMetas(_$$0.h2))))); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nil(null)), ( sols ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_info(_sc$$0.h0, Prelude_unlines(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(Prelude__$3A$3A_(null, msg, Prelude_Nil(null)))(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(msgs)(sols)))), ( _ ) => (Lib_ProcessDecl_logMetas(_$$0.h2))))); } }); }))); } break; } } break; } case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_MkUnit); } }; +const Lib_ProcessDecl_REC_logMetas = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.ProcessDecl.logMetas": { const _sc$$0 = arg.h0; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "OutOfScope": return { tag: "Lib.ProcessDecl.logMetas", h0: _sc$$0.h2 }; case "Solved": return { tag: "Lib.ProcessDecl.logMetas", h0: _sc$$0.h2 }; case "Unsolved": { const _sc$$2 = _sc$$1.h4; switch (_sc$$2.tag) { case "User": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Lib_Types__lvl(_sc$$1.h2), _sc$$1.h3), ( ty$27 ) => { const names = Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_fst(null, null, eta)))(Lib_Types__types(_sc$$1.h2)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_ProcessDecl_dumpEnv(_sc$$1.h2), ( env ) => { const msg = Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(env))("\n -----------\n "))(Lib_Prettier_render(90, Lib_Types_pprint(names, ty$27))))(""); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_info(_sc$$1.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("User Hole\n")(msg))("")), ( _ ) => (Lib_ProcessDecl_logMetas(_sc$$0.h2))); }); }) }; default: return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_forceMeta(_sc$$1.h3), ( ty$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Lib_Types__lvl(_sc$$1.h2), ty$27), ( tm ) => { const msg = Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Unsolved meta ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$1.h1)))(" "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_MetaKind)(_sc$$1.h4)))(" type "))(Lib_Prettier_render(90, Lib_Types_pprint(Lib_Types_names(_sc$$1.h2), tm))))(" "))(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(Prelude_length$27(null, _sc$$1.h5))))(" constraints"); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, _sc$$1.h5, ( $$case ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" * (m")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_sc$$1.h1)))(" ("))(Data_String_unwords(Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val))(Prelude__$3C$3E$3E_(null, $$case.h2, Prelude_Nil(null))))))(") =?= "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)($$case.h3)))("")))), ( msgs ) => { const _sc$$3 = _sc$$1.h4; switch (_sc$$3.tag) { case "AutoSolve": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_quote(Lib_Types__lvl(_sc$$1.h2), _sc$$1.h3), ( x ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_eval(Lib_Types__env(_sc$$1.h2), Lib_Types_CBN, x), ( ty ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("AUTO ---> ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(ty)))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Elab_findMatches(_sc$$1.h2, ty, Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(( eta ) => (Prelude_snd(null, null, eta)))(Data_SortedMap_toList(null, null, Lib_Types__defs(top)))), ( matches ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$3A$3A_(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(" ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(Prelude_length$27(null, matches))))(" Solutions: "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20Prim_String))(matches)))(""), Prelude_Nil(null))))))))))))), ( sols ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_info(_sc$$1.h0, Prelude_unlines(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(Prelude__$3A$3A_(null, msg, Prelude_Nil(null)))(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(msgs)(sols)))), ( _ ) => (Lib_ProcessDecl_logMetas(_sc$$0.h2))))); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_Nil(null)), ( sols ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_info(_sc$$1.h0, Prelude_unlines(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(Prelude__$3A$3A_(null, msg, Prelude_Nil(null)))(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20$28Prelude_List$20BND$3A0$29(null))(msgs)(sols)))), ( _ ) => (Lib_ProcessDecl_logMetas(_sc$$0.h2))))); } }); }))) }; } break; } } break; } case "Nil": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_MkUnit) }; } break; } } }; +const Lib_ProcessDecl_logMetas = ( _$$0 ) => (bouncer(Lib_ProcessDecl_REC_logMetas, { tag: "Lib.ProcessDecl.logMetas", h0: _$$0 })); const Lib_Types__ops = ( _$$0 ) => (_$$0.h7); const Lib_Types_MkTop = ( h0, h1, h2, h3, h4, h5, h6, h7 ) => ({ tag: "MkTop", h0: h0, h1: h1, h2: h2, h3: h3, h4: h4, h5: h5, h6: h6, h7: h7 }); const Lib_Types_putTop = ( _$$0 ) => (Lib_Types_MkM(null, ( _ ) => (Prelude_pure(null, Prelude_Prelude_Monad$20Prelude_IO)(null)(Prelude_Right(null, null, Prelude__$2C_(null, null, _$$0, Prelude_MkUnit)))))); @@ -778,11 +885,13 @@ const Lib_TopContext_addError = ( _$$0 ) => (Prelude__$3E$3E$3D_(null, null, nul const Lib_Types_Axiom = { tag: "Axiom" }; const Lib_Types_MkEntry = ( h0, h1, h2, h3 ) => ({ tag: "MkEntry", h0: h0, h1: h1, h2: h2, h3: h3 }); const Lib_TopContext_setDef = ( _$$0, _$$1, _$$2, _$$3 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => { const sc$$5 = Data_SortedMap_lookupMap$27(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, _$$0, Lib_Types__defs(top)); switch (sc$$5.tag) { case "Nothing": return Lib_Types_modifyTop(( $$case ) => { const defs = Data_SortedMap_updateMap(null, null, Lib_Common_Prelude_Ord$20Lib_Common_QName, _$$0, Lib_Types_MkEntry(_$$1, _$$0, _$$2, _$$3), Lib_Types__defs(top)); return Lib_Types_MkTop($$case.h0, $$case.h1, $$case.h2, defs, $$case.h4, $$case.h5, $$case.h6, $$case.h7); }); case "Just": { const _sc$$0 = sc$$5.h1; return Lib_Types_error(null, _$$1, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$0)))(" is already defined at "))(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_FC)(_sc$$0.h0)))("")); break; } } })); -const Lib_Eval_appSpine = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "_::_": return Lib_Eval_appSpine(Lib_Types_App(Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Tm)(_$$0), _$$0, _$$1.h1), _$$1.h2); case "Nil": return _$$0; } }; +const Lib_Eval_REC_appSpine = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Eval.appSpine": { const _sc$$0 = arg.h1; switch (_sc$$0.tag) { case "_::_": return { tag: "Lib.Eval.appSpine", h0: Lib_Types_App(Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Tm)(arg.h0), arg.h0, _sc$$0.h1), h1: _sc$$0.h2 }; case "Nil": return { tag: "return", h0: arg.h0 }; } break; } } }; +const Lib_Eval_appSpine = ( _$$0, _$$1 ) => (bouncer(Lib_Eval_REC_appSpine, { tag: "Lib.Eval.appSpine", h0: _$$0, h1: _$$1 })); const Lib_Eval_tweakFC = ( _$$0, _$$1 ) => { switch (_$$1.tag) { case "Erased": return Lib_Types_Erased(_$$0); case "Lit": return Lib_Types_Lit(_$$0, _$$1.h1); case "LetRec": return Lib_Types_LetRec(_$$0, _$$1.h1, _$$1.h2, _$$1.h3, _$$1.h4); case "Let": return Lib_Types_Let(_$$0, _$$1.h1, _$$1.h2, _$$1.h3); case "Case": return Lib_Types_Case(_$$0, _$$1.h1, _$$1.h2); case "Pi": return Lib_Types_Pi(_$$0, _$$1.h1, _$$1.h2, _$$1.h3, _$$1.h4, _$$1.h5); case "UU": return Lib_Types_UU(_$$0); case "App": return Lib_Types_App(_$$0, _$$1.h1, _$$1.h2); case "Lam": return Lib_Types_Lam(_$$0, _$$1.h1, _$$1.h2, _$$1.h3, _$$1.h4); case "Meta": return Lib_Types_Meta(_$$0, _$$1.h1); case "Ref": return Lib_Types_Ref(_$$0, _$$1.h1); case "Bnd": return Lib_Types_Bnd(_$$0, _$$1.h1); } }; const Lib_Eval_zonkApp = ( _$$0, _$$1, _$$2, _$$3, _$$4 ) => { switch (_$$3.tag) { case "App": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_zonk(_$$0, _$$1, _$$2, _$$3.h2), ( u$27 ) => (Lib_Eval_zonkApp(_$$0, _$$1, _$$2, _$$3.h1, Prelude__$3A$3A_(null, u$27, _$$4)))); case "Meta": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_lookupMeta(_$$3.h1), ( meta ) => { switch (meta.tag) { case "Solved": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_Eval_eval(_$$2, Lib_Types_CBN, eta)))(_$$4), ( sp$27 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _ ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("zonk ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_QName)(_$$3.h1)))(" -> "))(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(meta.h2)))(" spine "))(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Types_Prelude_Show$20Lib_Types_Val))(sp$27)))(""))), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_vappSpine(meta.h2, Prelude__$3C$3E$3C_(null, Prelude_Lin(null), sp$27)), ( foo ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_debug(( _1 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("-> result is ")(Prelude_show(null, Lib_Types_Prelude_Show$20Lib_Types_Val)(foo)))(""))), ( _1 ) => (Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_Eval_tweakFC(_$$3.h0, eta)), Lib_Eval_quote(_$$1, foo)))))))))); default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Eval_appSpine(_$$3, _$$4)); } }); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_zonk(_$$0, _$$1, _$$2, _$$3), ( t$27 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Eval_appSpine(t$27, _$$4)))); } }; const Lib_Eval_zonkBind = ( _$$0, _$$1, _$$2, _$$3 ) => (Lib_Eval_zonk(_$$0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$1), Prelude__$3A$3A_(null, Lib_Types_VVar(Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Tm)(_$$3), _$$1, Prelude_Lin(null)), _$$2), _$$3)); -const Lib_Eval_zonkAlt_go = ( _, _1, _2, _3, _4, _5, _6, _7, _$$8, _$$9, _$$10, _$$11 ) => { switch (_$$10.tag) { case "_::_": return Lib_Eval_zonkAlt_go(_, _1, _2, _3, _4, _5, _6, _7, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$8), Prelude__$3A$3A_(null, Lib_Types_VVar(Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Tm)(_$$11), _$$8, Prelude_Lin(null)), _$$9), _$$10.h2, _$$11); case "Nil": return Lib_Eval_zonk(_, _$$8, _$$9, _6); } }; +const Lib_Eval_REC_zonkAlt_go = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Eval.zonkAlt.go": { const _sc$$0 = arg.h10; switch (_sc$$0.tag) { case "_::_": return { tag: "Lib.Eval.zonkAlt.go", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(arg.h8), h9: Prelude__$3A$3A_(null, Lib_Types_VVar(Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_Tm)(arg.h11), arg.h8, Prelude_Lin(null)), arg.h9), h10: _sc$$0.h2, h11: arg.h11 }; case "Nil": return { tag: "return", h0: Lib_Eval_zonk(arg.h0, arg.h8, arg.h9, arg.h6) }; } break; } } }; +const Lib_Eval_zonkAlt_go = ( _, _1, _2, _3, _4, _5, _6, _7, _$$8, _$$9, _$$10, _$$11 ) => (bouncer(Lib_Eval_REC_zonkAlt_go, { tag: "Lib.Eval.zonkAlt.go", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _5, h6: _6, h7: _7, h8: _$$8, h9: _$$9, h10: _$$10, h11: _$$11 })); const Lib_Eval_zonkAlt = ( _$$0, _$$1, _$$2, _$$3 ) => { switch (_$$3.tag) { case "CaseLit": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_Types_CaseLit(_$$3.h0, eta)), Lib_Eval_zonkBind(_$$0, _$$1, _$$2, _$$3.h1)); case "CaseCons": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_Types_CaseCons(_$$3.h0, _$$3.h1, eta)), Lib_Eval_zonkAlt_go(_$$0, _$$1, _$$2, _$$3, _$$3.h0, _$$3.h1, _$$3.h2, null, _$$1, _$$2, _$$3.h1, _$$3.h2)); case "CaseDefault": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, Lib_Types_CaseDefault, Lib_Eval_zonkBind(_$$0, _$$1, _$$2, _$$3.h0)); } }; const Lib_Eval_zonk = ( _$$0, _$$1, _$$2, _$$3 ) => { switch (_$$3.tag) { case "Erased": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Erased(_$$3.h0)); case "Lit": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Lit(_$$3.h0, _$$3.h1)); case "LetRec": return Prelude__$3C$2A$3E_(null, Lib_Types_Prelude_Applicative$20Lib_Types_M)(null)(null)(Prelude__$3C$2A$3E_(null, Lib_Types_Prelude_Applicative$20Lib_Types_M)(null)(null)(Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (( eta1 ) => (( eta2 ) => (Lib_Types_LetRec(_$$3.h0, _$$3.h1, eta, eta1, eta2)))), Lib_Eval_zonk(_$$0, _$$1, _$$2, _$$3.h2)))(Lib_Eval_zonkBind(_$$0, _$$1, _$$2, _$$3.h3)))(Lib_Eval_zonkBind(_$$0, _$$1, _$$2, _$$3.h4)); case "Let": return Prelude__$3C$2A$3E_(null, Lib_Types_Prelude_Applicative$20Lib_Types_M)(null)(null)(Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (( eta1 ) => (Lib_Types_Let(_$$3.h0, _$$3.h1, eta, eta1))), Lib_Eval_zonk(_$$0, _$$1, _$$2, _$$3.h2)))(Lib_Eval_zonkBind(_$$0, _$$1, _$$2, _$$3.h3)); case "Case": return Prelude__$3C$2A$3E_(null, Lib_Types_Prelude_Applicative$20Lib_Types_M)(null)(null)(Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (( eta1 ) => (Lib_Types_Case(_$$3.h0, eta, eta1))), Lib_Eval_zonk(_$$0, _$$1, _$$2, _$$3.h1)))(Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Lib_Eval_zonkAlt(_$$0, _$$1, _$$2, eta)))(_$$3.h2)); case "Pi": return Prelude__$3C$2A$3E_(null, Lib_Types_Prelude_Applicative$20Lib_Types_M)(null)(null)(Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (( eta1 ) => (Lib_Types_Pi(_$$3.h0, _$$3.h1, _$$3.h2, _$$3.h3, eta, eta1))), Lib_Eval_zonk(_$$0, _$$1, _$$2, _$$3.h4)))(Lib_Eval_zonkBind(_$$0, _$$1, _$$2, _$$3.h5)); case "UU": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_UU(_$$3.h0)); case "App": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval_zonk(_$$0, _$$1, _$$2, _$$3.h2), ( u$27 ) => (Lib_Eval_zonkApp(_$$0, _$$1, _$$2, _$$3.h1, Prelude__$3A$3A_(null, u$27, Prelude_Nil(null))))); case "Lam": return Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_Types_Lam(_$$3.h0, _$$3.h1, _$$3.h2, _$$3.h3, eta)), Lib_Eval_zonk(_$$0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(1)(_$$1), Prelude__$3A$3A_(null, Lib_Types_VVar(_$$3.h0, _$$1, Prelude_Lin(null)), _$$2), _$$3.h4)); case "Meta": return Lib_Eval_zonkApp(_$$0, _$$1, _$$2, _$$3, Prelude_Nil(null)); case "Ref": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Ref(_$$3.h0, _$$3.h1)); case "Bnd": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Types_Bnd(_$$3.h0, _$$3.h1)); } }; const Lib_Types_mkCtx = ( _$$0 ) => (Lib_Types_MkCtx(0, Prelude_Nil(null), Prelude_Nil(null), Prelude_Nil(null), _$$0)); @@ -820,9 +929,11 @@ const Lib_Types_Zero = { tag: "Zero" }; const Lib_Syntax_RPi = ( h0, h1, h2, h3 ) => ({ tag: "RPi", h0: h0, h1: h1, h2: h2, h3: h3 }); const Lib_ProcessDecl_processDecl_mkPi_getArgs_mkDecl_mkPi = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _$$14, _$$15 ) => (Lib_Syntax_RPi(_$$14.h2, Lib_Types_BI(_$$14.h2, _$$14.h3, Lib_Types_Implicit, Lib_Types_Zero), Lib_Syntax_RU(_$$14.h2), _$$15)); const Prelude_foldr = ( a$$0, b$$1, _$$2, _$$3, _$$4 ) => { switch (_$$4.tag) { case "_::_": return _$$2(_$$4.h1)(Prelude_foldr(null, null, _$$2, _$$3, _$$4.h2)); case "Nil": return _$$3; } }; -const Lib_ProcessDecl_processDecl_mkPi_getArgs_mkDecl = ( _, _1, _2, _3, _4, _5, _6, _7, _$$8, _$$9, _$$10 ) => { switch (_$$10.tag) { case "RApp": return Lib_ProcessDecl_processDecl_mkPi_getArgs_mkDecl(_, _1, _2, _3, _4, _5, _6, _7, _$$8, Prelude__$3A$3A_(null, _$$10.h2, _$$9), _$$10.h1); case "RVar": { const base = Prelude_foldr(null, null, ( ty ) => (( acc ) => (Lib_Syntax_RPi(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(ty), Lib_Types_BI(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(ty), "_", Lib_Types_Explicit, Lib_Types_Many), ty, acc))), _3, _$$9); const ty = Prelude_foldr(null, null, ( eta ) => (( eta1 ) => (Lib_ProcessDecl_processDecl_mkPi_getArgs_mkDecl_mkPi(_, _1, _2, _3, _4, _5, _6, _7, _$$8, _$$9, _$$10, _$$10.h0, _$$10.h1, null, eta, eta1))), base, _$$8); return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_TypeSig(_$$10.h0, Prelude__$3A$3A_(null, _$$10.h1, Prelude_Nil(null)), ty)); break; } default: return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(_$$10), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Expected contructor application, got: ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$10)))("")); } }; +const Lib_ProcessDecl_REC_processDecl_mkPi_getArgs_mkDecl = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.ProcessDecl.processDecl.mkPi.getArgs.mkDecl": { const _sc$$0 = arg.h10; switch (_sc$$0.tag) { case "RApp": return { tag: "Lib.ProcessDecl.processDecl.mkPi.getArgs.mkDecl", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: arg.h8, h9: Prelude__$3A$3A_(null, _sc$$0.h2, arg.h9), h10: _sc$$0.h1 }; case "RVar": { const base = Prelude_foldr(null, null, ( ty ) => (( acc ) => (Lib_Syntax_RPi(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(ty), Lib_Types_BI(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(ty), "_", Lib_Types_Explicit, Lib_Types_Many), ty, acc))), arg.h3, arg.h9); const ty = Prelude_foldr(null, null, ( eta ) => (( eta1 ) => (Lib_ProcessDecl_processDecl_mkPi_getArgs_mkDecl_mkPi(arg.h0, arg.h1, arg.h2, arg.h3, arg.h4, arg.h5, arg.h6, arg.h7, arg.h8, arg.h9, arg.h10, _sc$$0.h0, _sc$$0.h1, null, eta, eta1))), base, arg.h8); return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Lib_Syntax_TypeSig(_sc$$0.h0, Prelude__$3A$3A_(null, _sc$$0.h1, Prelude_Nil(null)), ty)) }; break; } default: return { tag: "return", h0: Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(arg.h10), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Expected contructor application, got: ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(arg.h10)))("")) }; } break; } } }; +const Lib_ProcessDecl_processDecl_mkPi_getArgs_mkDecl = ( _, _1, _2, _3, _4, _5, _6, _7, _$$8, _$$9, _$$10 ) => (bouncer(Lib_ProcessDecl_REC_processDecl_mkPi_getArgs_mkDecl, { tag: "Lib.ProcessDecl.processDecl.mkPi.getArgs.mkDecl", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _5, h6: _6, h7: _7, h8: _$$8, h9: _$$9, h10: _$$10 })); const Lib_ProcessDecl_processDecl_mkPi = ( _, _1, _2, _3, _4, _5, _$$6, _$$7 ) => (Lib_Syntax_RPi(_$$6.h2, Lib_Types_BI(_$$6.h2, _$$6.h3, Lib_Types_Explicit, Lib_Types_Zero), Lib_Syntax_RU(_$$6.h2), _$$7)); -const Lib_ProcessDecl_processDecl_mkPi_getArgs = ( _, _1, _2, _3, _4, _5, _6, _$$7, _$$8 ) => { switch (_$$7.tag) { case "RApp": { const _sc$$0 = _$$7.h2; switch (_sc$$0.tag) { case "RVar": return Lib_ProcessDecl_processDecl_mkPi_getArgs(_, _1, _2, _3, _4, _5, _6, _$$7.h1, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h0, _sc$$0.h1), _$$8)); default: return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(_$$7), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Expected contructor application, got: ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$7)))("")); } break; } case "RVar": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _$$7.h1, _$$8)); default: return Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(_$$7), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Expected contructor application, got: ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$7)))("")); } }; +const Lib_ProcessDecl_REC_processDecl_mkPi_getArgs = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.ProcessDecl.processDecl.mkPi.getArgs": { const _sc$$0 = arg.h7; switch (_sc$$0.tag) { case "RApp": { const _sc$$1 = _sc$$0.h2; switch (_sc$$1.tag) { case "RVar": return { tag: "Lib.ProcessDecl.processDecl.mkPi.getArgs", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: _sc$$0.h1, h8: Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$1.h0, _sc$$1.h1), arg.h8) }; default: return { tag: "return", h0: Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(arg.h7), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Expected contructor application, got: ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(arg.h7)))("")) }; } break; } case "RVar": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, _sc$$0.h1, arg.h8)) }; default: return { tag: "return", h0: Lib_Types_error(null, Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(arg.h7), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Expected contructor application, got: ")(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(arg.h7)))("")) }; } break; } } }; +const Lib_ProcessDecl_processDecl_mkPi_getArgs = ( _, _1, _2, _3, _4, _5, _6, _$$7, _$$8 ) => (bouncer(Lib_ProcessDecl_REC_processDecl_mkPi_getArgs, { tag: "Lib.ProcessDecl.processDecl.mkPi.getArgs", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _5, h6: _6, h7: _$$7, h8: _$$8 })); const Lib_Types_PrimTCon = ( h0 ) => ({ tag: "PrimTCon", h0: h0 }); const Lib_Types_PrimFn = ( h0, h1, h2 ) => ({ tag: "PrimFn", h0: h0, h1: h1, h2: h2 }); const Lib_Types__name = ( _$$0 ) => (_$$0.h1); @@ -835,10 +946,12 @@ const Lib_Types_Lib_Common_HasFC$20Lib_Types_BindInfo = Lib_Common_MkHasFC(null, const Lib_ProcessDecl_teleToPi = ( _$$0, _$$1 ) => { switch (_$$0.tag) { case "_::_": { const _sc$$0 = _$$0.h1; return Lib_Syntax_RPi(Lib_Common_getFC(null, Lib_Types_Lib_Common_HasFC$20Lib_Types_BindInfo)(_sc$$0.h2), _sc$$0.h2, _sc$$0.h3, Lib_ProcessDecl_teleToPi(_$$0.h2, _$$1)); break; } case "Nil": return _$$1; } }; const Lib_ProcessDecl_processDecl_makeLHS_mkAutoApp_mkPi = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _$$9, _$$10 ) => { const _sc$$0 = _$$9.h3; return Lib_Syntax_RPi(_$$9.h2, Lib_Types_BI(_$$9.h2, _sc$$0.h2, Lib_Types_Explicit, Lib_Types_Many), _sc$$0.h3, _$$10); }; const Lib_ProcessDecl_processDecl_makeLHS_mkAutoApp_mkPi_mkApp = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _$$10, _$$11 ) => { const _sc$$0 = _$$11.h2; return Lib_Syntax_RApp(_sc$$0.h0, _$$10, Lib_Syntax_RVar(_sc$$0.h0, _sc$$0.h1), _sc$$0.h2); }; -const Lib_ProcessDecl_getSigs = ( _$$0 ) => { switch (_$$0.tag) { case "_::_": { const _sc$$0 = _$$0.h1; switch (_sc$$0.tag) { case "TypeSig": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "_::_": return Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$0.h0, Prelude__$2C_(null, null, _sc$$1.h1, _sc$$0.h2)), Lib_ProcessDecl_getSigs(_$$0.h2)); case "Nil": return Lib_ProcessDecl_getSigs(_$$0.h2); } break; } default: return Lib_ProcessDecl_getSigs(_$$0.h2); } break; } case "Nil": return Prelude_Nil(null); } }; +const Lib_ProcessDecl_REC_getSigs = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.ProcessDecl.getSigs": { const _sc$$0 = arg.h0; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1.tag) { case "TypeSig": { const _sc$$2 = _sc$$1.h1; switch (_sc$$2.tag) { case "_::_": return { tag: "return", h0: Prelude__$3A$3A_(null, Prelude__$2C_(null, null, _sc$$1.h0, Prelude__$2C_(null, null, _sc$$2.h1, _sc$$1.h2)), Lib_ProcessDecl_getSigs(_sc$$0.h2)) }; case "Nil": return { tag: "Lib.ProcessDecl.getSigs", h0: _sc$$0.h2 }; } break; } default: return { tag: "Lib.ProcessDecl.getSigs", h0: _sc$$0.h2 }; } break; } case "Nil": return { tag: "return", h0: Prelude_Nil(null) }; } break; } } }; +const Lib_ProcessDecl_getSigs = ( _$$0 ) => (bouncer(Lib_ProcessDecl_REC_getSigs, { tag: "Lib.ProcessDecl.getSigs", h0: _$$0 })); const Lib_Syntax_Prelude_Show$20Lib_Syntax_Decl$2Cshow = ( _$$0 ) => { switch (_$$0.tag) { case "Record": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "Record", Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_$$0.h1), Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Lib_Syntax_Prelude_Show$20Lib_Types_BindInfo, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)))(_$$0.h2), Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_Maybe$20BND$3A1$29(null, Prelude_Prelude_Show$20Prim_String))(_$$0.h3), Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Decl))(_$$0.h4), Prelude_Nil(null))))))); case "Instance": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "Instance", Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h1), Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_Maybe$20BND$3A1$29(null, Prelude_Prelude_Show$20Prim_String))(Prelude_map(null, Prelude_Prelude_Functor$20Prelude_Maybe)(null)(null)(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Decl)))(_$$0.h2)), Prelude_Nil(null))))); case "Class": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "Class", Prelude__$3A$3A_(null, _$$0.h1, Prelude__$3A$3A_(null, "...", Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20Prim_String))(Prelude_map(null, Prelude_Prelude_Functor$20Prelude_List)(null)(null)(Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Decl))(_$$0.h3)), Prelude_Nil(null)))))); case "PMixFix": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "PMixFix", Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20Prim_String))(_$$0.h1), Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20Prim_Int)(_$$0.h2), Prelude__$3A$3A_(null, Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_Fixity)(_$$0.h3), Prelude_Nil(null)))))); case "PFunc": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "PFunc", Prelude__$3A$3A_(null, _$$0.h1, Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20Prim_String))(_$$0.h2), Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h3), Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_$$0.h4), Prelude_Nil(null))))))); case "PType": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "PType", Prelude__$3A$3A_(null, _$$0.h1, Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_Maybe$20BND$3A1$29(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw))(_$$0.h2), Prelude_Nil(null))))); case "ShortData": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "ShortData", Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h1), Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw))(_$$0.h2), Prelude_Nil(null))))); case "Data": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "Data", Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_$$0.h1), Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h2), Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Decl))(_$$0.h3), Prelude_Nil(null)))))); case "DCheck": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "DCheck", Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h1), Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h2), Prelude_Nil(null))))); case "Def": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "Def", Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_$$0.h1), Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20$28Prelude__$D7_$20BND$3A3$20BND$3A2$29(null, null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)))(_$$0.h2), Prelude_Nil(null))))); case "TypeSig": return Lib_Syntax_foo(Prelude__$3A$3A_(null, "TypeSig", Prelude__$3A$3A_(null, Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20Prim_String))(_$$0.h1), Prelude__$3A$3A_(null, Prelude_show(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Raw)(_$$0.h2), Prelude_Nil(null))))); } }; const Lib_Syntax_Prelude_Show$20Lib_Syntax_Decl = Prelude_MkShow(null, Lib_Syntax_Prelude_Show$20Lib_Syntax_Decl$2Cshow); -const Lib_ProcessDecl_processDecl_getFields_tenv_mkRHS = ( _, _1, _2, _3, _4, _5, _6, _7, _$$8, _$$9, _$$10 ) => { switch (_$$9.tag) { case "_::_": { const _sc$$0 = _$$9.h1; const _sc$$1 = _sc$$0.h2; switch (_sc$$1.tag) { case "Explicit": return Lib_ProcessDecl_processDecl_getFields_tenv_mkRHS(_, _1, _2, _3, _4, _5, _6, _7, _$$8, _$$9.h2, Lib_Syntax_RApp(_sc$$0.h0, _$$10, Lib_Syntax_RVar(_sc$$0.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(_$$8))(","))(_sc$$0.h1))("")), Lib_Types_Explicit)); default: return Lib_ProcessDecl_processDecl_getFields_tenv_mkRHS(_, _1, _2, _3, _4, _5, _6, _7, _$$8, _$$9.h2, _$$10); } break; } case "Nil": return _$$10; } }; +const Lib_ProcessDecl_REC_processDecl_getFields_tenv_mkRHS = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.ProcessDecl.processDecl.getFields.tenv.mkRHS": { const _sc$$0 = arg.h9; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const _sc$$2 = _sc$$1.h2; switch (_sc$$2.tag) { case "Explicit": return { tag: "Lib.ProcessDecl.processDecl.getFields.tenv.mkRHS", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: arg.h8, h9: _sc$$0.h2, h10: Lib_Syntax_RApp(_sc$$1.h0, arg.h10, Lib_Syntax_RVar(_sc$$1.h0, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(arg.h8))(","))(_sc$$1.h1))("")), Lib_Types_Explicit) }; default: return { tag: "Lib.ProcessDecl.processDecl.getFields.tenv.mkRHS", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: arg.h8, h9: _sc$$0.h2, h10: arg.h10 }; } break; } case "Nil": return { tag: "return", h0: arg.h10 }; } break; } } }; +const Lib_ProcessDecl_processDecl_getFields_tenv_mkRHS = ( _, _1, _2, _3, _4, _5, _6, _7, _$$8, _$$9, _$$10 ) => (bouncer(Lib_ProcessDecl_REC_processDecl_getFields_tenv_mkRHS, { tag: "Lib.ProcessDecl.processDecl.getFields.tenv.mkRHS", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _5, h6: _6, h7: _7, h8: _$$8, h9: _$$9, h10: _$$10 })); const Lib_Syntax_Decl = { tag: "Decl" }; const Lib_Util_Binder = { tag: "Binder" }; const Lib_ProcessDecl_processDecl_getFields = ( _, _1, _2, _3, _4, _5, _$$6, _$$7, _$$8 ) => { switch (_$$6.tag) { case "VPi": { const _sc$$0 = _$$6.h2; switch (_sc$$0.tag) { case "Explicit": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude__$3C$$$3E_(null, Lib_Types_Prelude_Functor$20Lib_Types_M, null, null, ( eta ) => (Lib_Util_MkBinder(_$$6.h0, _$$6.h1, Lib_Types_Explicit, _$$6.h3, eta)), Lib_Eval_quote(Prelude_length$27(null, _$$7), _$$6.h4)), ( bnd ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval__$$$$_(_$$6.h5, Lib_Types_VVar(_$$6.h0, Prelude_length$27(null, _$$7), Prelude_Lin(null))), ( appsc ) => (Lib_ProcessDecl_processDecl_getFields(_, _1, _2, _3, _4, _5, appsc, _$$7, Prelude__$3A$3A_(null, bnd, _$$8)))))); default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Eval__$$$$_(_$$6.h5, Lib_Types_VVar(_$$6.h0, Prelude_length$27(null, _$$7), Prelude_Lin(null))), ( appsc ) => (Lib_ProcessDecl_processDecl_getFields(_, _1, _2, _3, _4, _5, appsc, _$$7, _$$8))); } break; } default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_reverse(null)(_$$8)); } }; @@ -853,7 +966,8 @@ const Lib_Token__bounds = ( ty$$0, _$$1 ) => (_$$1.h2); const Lib_Token_Prelude_Eq$20Lib_Token_Bounds$2C_$3D$3D_ = ( _$$0, _$$1 ) => (Prelude__$26$26_(Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(_$$0.h0)(_$$1.h0), Prelude__$26$26_(Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(_$$0.h1)(_$$1.h1), Prelude__$26$26_(Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(_$$0.h2)(_$$1.h2), Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(_$$0.h3)(_$$1.h3))))); const Lib_Token_Prelude_Eq$20Lib_Token_Bounds = Prelude_MkEq(null, ( eta ) => (( eta1 ) => (Lib_Token_Prelude_Eq$20Lib_Token_Bounds$2C_$3D$3D_(eta, eta1)))); const Lib_Token__startCol = ( _$$0 ) => (_$$0.h1); -const Main_parseDecls_recover = ( _, _1, _2, _3, _4, _5, _6, _7, _$$8 ) => { switch (_$$8.tag) { case "_::_": { const sc$$12 = Prelude__$26$26_(Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(Lib_Token__startCol(Lib_Token__bounds(null, _$$8.h1)))(0), Prelude__$2F$3D_(null, Lib_Token_Prelude_Eq$20Lib_Token_Bounds, Lib_Token__bounds(null, _$$8.h1), Lib_Token__bounds(null, _5))); switch (sc$$12.tag) { case "False": return Main_parseDecls_recover(_, _1, _2, _3, _4, _5, _6, _7, _$$8.h2); case "True": return Prelude__$3A$3A_(null, _$$8.h1, _$$8.h2); } break; } case "Nil": return Prelude_Nil(null); } }; +const Main_REC_parseDecls_recover = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Main.parseDecls.recover": { const _sc$$0 = arg.h8; switch (_sc$$0.tag) { case "_::_": { const sc$$12 = Prelude__$26$26_(Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Int)(Lib_Token__startCol(Lib_Token__bounds(null, _sc$$0.h1)))(0), Prelude__$2F$3D_(null, Lib_Token_Prelude_Eq$20Lib_Token_Bounds, Lib_Token__bounds(null, _sc$$0.h1), Lib_Token__bounds(null, arg.h5))); switch (sc$$12.tag) { case "False": return { tag: "Main.parseDecls.recover", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: _sc$$0.h2 }; case "True": return { tag: "return", h0: Prelude__$3A$3A_(null, _sc$$0.h1, _sc$$0.h2) }; } break; } case "Nil": return { tag: "return", h0: Prelude_Nil(null) }; } break; } } }; +const Main_parseDecls_recover = ( _, _1, _2, _3, _4, _5, _6, _7, _$$8 ) => (bouncer(Main_REC_parseDecls_recover, { tag: "Main.parseDecls.recover", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _5, h6: _6, h7: _7, h8: _$$8 })); const Lib_Syntax_Record = ( h0, h1, h2, h3, h4 ) => ({ tag: "Record", h0: h0, h1: h1, h2: h2, h3: h3, h4: h4 }); const Lib_Parser_Impl_OK = ( h0, h1, h2, h3, h4 ) => ({ tag: "OK", h0: h0, h1: h1, h2: h2, h3: h3, h4: h4 }); const Lib_Parser_Impl_Fail = ( h0, h1, h2, h3, h4, h5 ) => ({ tag: "Fail", h0: h0, h1: h1, h2: h2, h3: h3, h4: h4, h5: h5 }); @@ -896,8 +1010,10 @@ const Lib_Parser_term_apply = ( _, _$$1, _$$2 ) => { switch (_$$2.tag) { case "_ const Lib_Parser_Impl_fail = ( a$$0, _$$1 ) => (Lib_Parser_Impl_P(null, ( toks ) => (( com ) => (( ops ) => (( col ) => (Lib_Parser_Impl_Fail(null, Prelude_False, Lib_Parser_Impl_perror(Lib_Common__file(col), toks, _$$1), toks, com, ops))))))); const Lib_Parser_pratt_projectHead_runProject_runRule = ( _, _1, _2, _3, _4, _5, _6, _7, _$$8, _$$9, _$$10, _$$11, _$$12, _$$13 ) => { switch (_$$11.tag) { case "_::_": { const _sc$$0 = _$$11.h1; switch (_sc$$0) { case "": { const _sc$$1 = _$$11.h2; switch (_sc$$1.tag) { case "Nil": { let pr; switch (_$$9.tag) { case "InfixR": { pr = _$$8; break; } default: { pr = Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$8)(1); break; } } switch (_$$13.tag) { case "_::_": { const _sc$$2 = _$$13.h1; const _sc$$3 = _sc$$2.h3; return Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_pratt(_, pr, _$$10, _sc$$3.h3, _$$13.h2), ( $$sc ) => (Lib_Parser_pratt(_, _1, _$$10, Lib_Syntax_RApp(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(_$$12), _$$12, $$sc.h2, Lib_Types_Explicit), $$sc.h3))); break; } default: return Lib_Parser_Impl_fail(null, "trailing operator"); } break; } default: switch (_$$13.tag) { case "_::_": { const _sc$$2 = _$$13.h1; const _sc$$3 = _sc$$2.h3; return Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_pratt(_, 0, _$$11.h1, _sc$$3.h3, _$$13.h2), ( $$sc ) => { const _sc$$4 = $$sc.h3; switch (_sc$$4.tag) { case "_::_": { const _sc$$5 = _sc$$4.h1; const _sc$$6 = _sc$$5.h3; const _sc$$7 = _sc$$6.h3; switch (_sc$$7.tag) { case "RVar": { const sc$$49 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$7.h1)(_$$11.h1); switch (sc$$49.tag) { case "False": return Lib_Parser_Impl_fail(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("expected ")(_$$11.h1))("")); case "True": return Lib_Parser_pratt_projectHead_runProject_runRule(_, _1, _2, _3, _4, _5, _6, _7, _$$8, _$$9, _$$10, _$$11.h2, Lib_Syntax_RApp(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(_$$12), _$$12, $$sc.h2, Lib_Types_Explicit), _sc$$4.h2); } break; } default: return Lib_Parser_Impl_fail(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("expected ")(_$$11.h1))("")); } break; } default: return Lib_Parser_Impl_fail(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("expected ")(_$$11.h1))("")); } }); break; } case "Nil": return Lib_Parser_Impl_fail(null, "short"); } break; } break; } default: switch (_$$13.tag) { case "_::_": { const _sc$$1 = _$$13.h1; const _sc$$2 = _sc$$1.h3; return Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_pratt(_, 0, _$$11.h1, _sc$$2.h3, _$$13.h2), ( $$sc ) => { const _sc$$3 = $$sc.h3; switch (_sc$$3.tag) { case "_::_": { const _sc$$4 = _sc$$3.h1; const _sc$$5 = _sc$$4.h3; const _sc$$6 = _sc$$5.h3; switch (_sc$$6.tag) { case "RVar": { const sc$$49 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$6.h1)(_$$11.h1); switch (sc$$49.tag) { case "False": return Lib_Parser_Impl_fail(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("expected ")(_$$11.h1))("")); case "True": return Lib_Parser_pratt_projectHead_runProject_runRule(_, _1, _2, _3, _4, _5, _6, _7, _$$8, _$$9, _$$10, _$$11.h2, Lib_Syntax_RApp(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(_$$12), _$$12, $$sc.h2, Lib_Types_Explicit), _sc$$3.h2); } break; } default: return Lib_Parser_Impl_fail(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("expected ")(_$$11.h1))("")); } break; } default: return Lib_Parser_Impl_fail(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("expected ")(_$$11.h1))("")); } }); break; } case "Nil": return Lib_Parser_Impl_fail(null, "short"); } break; } break; } case "Nil": return Prelude_pure(null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser)(null)(Prelude__$2C_(null, null, _$$12, _$$13)); } }; const Prelude_isPrefixOf = (pfx, s) => s.startsWith(pfx) ? Prelude_True : Prelude_False; -const Lib_Parser_pratt_projectHead_runProject = ( _, _1, _2, _3, _4, _5, _6, _$$7 ) => { switch (_$$7.tag) { case "_::_": { const _sc$$0 = _$$7.h1; const _sc$$1 = _sc$$0.h2; switch (_sc$$1.tag) { case "Explicit": { const _sc$$2 = _sc$$0.h3; const _sc$$3 = _$$7.h2; switch (_sc$$3.tag) { case "_::_": { const _sc$$4 = _sc$$3.h1; const _sc$$5 = _sc$$4.h2; switch (_sc$$5.tag) { case "Explicit": { const _sc$$6 = _sc$$4.h3; const _sc$$7 = _sc$$6.h3; switch (_sc$$7.tag) { case "RVar": { const sc$$32 = Prelude_isPrefixOf(".", _sc$$7.h1); switch (sc$$32.tag) { case "False": return Prelude__$3A$3A_(null, _$$7.h1, Prelude__$3A$3A_(null, _sc$$3.h1, _sc$$3.h2)); case "True": return Lib_Parser_pratt_projectHead_runProject(_, _1, _2, _3, _4, _5, _6, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, Lib_Types_Explicit, Prelude__$2C_(null, null, _sc$$2.h2, Lib_Syntax_RApp(_sc$$7.h0, Lib_Syntax_RVar(_sc$$7.h0, _sc$$7.h1), _sc$$2.h3, Lib_Types_Explicit))), _sc$$3.h2)); } break; } default: return _$$7; } break; } default: return _$$7; } break; } default: return _$$7; } break; } default: return _$$7; } break; } default: return _$$7; } }; -const Lib_Parser_pratt_projectHead = ( _, _1, _2, _3, _4, _5, _$$6, _$$7 ) => { switch (_$$7.tag) { case "_::_": { const _sc$$0 = _$$7.h1; const _sc$$1 = _sc$$0.h2; switch (_sc$$1.tag) { case "Explicit": { const _sc$$2 = _sc$$0.h3; const _sc$$3 = _sc$$2.h3; switch (_sc$$3.tag) { case "RVar": { const sc$$21 = Prelude_isPrefixOf(".", _sc$$3.h1); switch (sc$$21.tag) { case "False": return Prelude__$2C_(null, null, _$$6, _$$7); case "True": return Lib_Parser_pratt_projectHead(_, _1, _2, _3, _4, _5, Lib_Syntax_RApp(_sc$$3.h0, Lib_Syntax_RVar(_sc$$3.h0, _sc$$3.h1), _$$6, Lib_Types_Explicit), _$$7.h2); } break; } default: return Prelude__$2C_(null, null, _$$6, _$$7); } break; } default: return Prelude__$2C_(null, null, _$$6, _$$7); } break; } default: return Prelude__$2C_(null, null, _$$6, _$$7); } }; +const Lib_Parser_REC_pratt_projectHead_runProject = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Parser.pratt.projectHead.runProject": { const _sc$$0 = arg.h7; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const _sc$$2 = _sc$$1.h2; switch (_sc$$2.tag) { case "Explicit": { const _sc$$3 = _sc$$1.h3; const _sc$$4 = _sc$$0.h2; switch (_sc$$4.tag) { case "_::_": { const _sc$$5 = _sc$$4.h1; const _sc$$6 = _sc$$5.h2; switch (_sc$$6.tag) { case "Explicit": { const _sc$$7 = _sc$$5.h3; const _sc$$8 = _sc$$7.h3; switch (_sc$$8.tag) { case "RVar": { const sc$$32 = Prelude_isPrefixOf(".", _sc$$8.h1); switch (sc$$32.tag) { case "False": return { tag: "return", h0: Prelude__$3A$3A_(null, _sc$$0.h1, Prelude__$3A$3A_(null, _sc$$4.h1, _sc$$4.h2)) }; case "True": return { tag: "Lib.Parser.pratt.projectHead.runProject", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: Prelude__$3A$3A_(null, Prelude__$2C_(null, null, Lib_Types_Explicit, Prelude__$2C_(null, null, _sc$$3.h2, Lib_Syntax_RApp(_sc$$8.h0, Lib_Syntax_RVar(_sc$$8.h0, _sc$$8.h1), _sc$$3.h3, Lib_Types_Explicit))), _sc$$4.h2) }; } break; } default: return { tag: "return", h0: arg.h7 }; } break; } default: return { tag: "return", h0: arg.h7 }; } break; } default: return { tag: "return", h0: arg.h7 }; } break; } default: return { tag: "return", h0: arg.h7 }; } break; } default: return { tag: "return", h0: arg.h7 }; } break; } } }; +const Lib_Parser_pratt_projectHead_runProject = ( _, _1, _2, _3, _4, _5, _6, _$$7 ) => (bouncer(Lib_Parser_REC_pratt_projectHead_runProject, { tag: "Lib.Parser.pratt.projectHead.runProject", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _5, h6: _6, h7: _$$7 })); +const Lib_Parser_REC_pratt_projectHead = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Parser.pratt.projectHead": { const _sc$$0 = arg.h7; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; const _sc$$2 = _sc$$1.h2; switch (_sc$$2.tag) { case "Explicit": { const _sc$$3 = _sc$$1.h3; const _sc$$4 = _sc$$3.h3; switch (_sc$$4.tag) { case "RVar": { const sc$$21 = Prelude_isPrefixOf(".", _sc$$4.h1); switch (sc$$21.tag) { case "False": return { tag: "return", h0: Prelude__$2C_(null, null, arg.h6, arg.h7) }; case "True": return { tag: "Lib.Parser.pratt.projectHead", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: Lib_Syntax_RApp(_sc$$4.h0, Lib_Syntax_RVar(_sc$$4.h0, _sc$$4.h1), arg.h6, Lib_Types_Explicit), h7: _sc$$0.h2 }; } break; } default: return { tag: "return", h0: Prelude__$2C_(null, null, arg.h6, arg.h7) }; } break; } default: return { tag: "return", h0: Prelude__$2C_(null, null, arg.h6, arg.h7) }; } break; } default: return { tag: "return", h0: Prelude__$2C_(null, null, arg.h6, arg.h7) }; } break; } } }; +const Lib_Parser_pratt_projectHead = ( _, _1, _2, _3, _4, _5, _$$6, _$$7 ) => (bouncer(Lib_Parser_REC_pratt_projectHead, { tag: "Lib.Parser.pratt.projectHead", h0: _, h1: _1, h2: _2, h3: _3, h4: _4, h5: _5, h6: _$$6, h7: _$$7 })); const Lib_Parser_pratt_projectHead_runProject_runRule_runPrefix = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _$$9, _$$10, _$$11 ) => { switch (_$$10.tag) { case "RVar": { const sc$$14 = Data_SortedMap_lookupMap$27(null, null, Prelude_Prelude_Ord$20Prim_String, _$$10.h1, _); switch (sc$$14.tag) { case "Just": { const _sc$$0 = sc$$14.h1; const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "True": return Lib_Parser_pratt_projectHead_runProject_runRule(_, _1, _2, _3, _4, _5, _6, _7, _sc$$0.h1, _sc$$0.h2, _$$9, _sc$$0.h4, Lib_Syntax_RVar(_$$10.h0, _sc$$0.h0), _$$11); default: return Prelude_pure(null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser)(null)(Prelude__$2C_(null, null, _3, _$$11)); } break; } default: return Prelude_pure(null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser)(null)(Prelude__$2C_(null, null, _3, _$$11)); } break; } default: return Prelude_pure(null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser)(null)(Prelude__$2C_(null, null, _$$10, _$$11)); } }; const Lib_Parser_pratt = ( _$$0, _$$1, _$$2, _$$3, _$$4 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_pratt_projectHead_runProject_runRule_runPrefix(_$$0, _$$1, _$$2, _$$3, _$$4, null, null, null, null, _$$2, _$$3, _$$4), ( $$sc ) => { const sc$$15 = Lib_Parser_pratt_projectHead(_$$0, _$$1, _$$2, _$$3, _$$4, null, $$sc.h2, $$sc.h3); const spine = Lib_Parser_pratt_projectHead_runProject(_$$0, _$$1, _$$2, _$$3, _$$4, null, null, sc$$15.h3); switch (spine.tag) { case "_::_": { const _sc$$0 = spine.h1; const _sc$$1 = _sc$$0.h2; switch (_sc$$1.tag) { case "Explicit": { const _sc$$2 = _sc$$0.h3; const _sc$$3 = _sc$$2.h3; switch (_sc$$3.tag) { case "RVar": { const sc$$35 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$3.h1)(_$$2); switch (sc$$35.tag) { case "False": { const sc$$36 = Data_SortedMap_lookupMap$27(null, null, Prelude_Prelude_Ord$20Prim_String, _sc$$3.h1, _$$0); switch (sc$$36.tag) { case "Nothing": { const sc$$38 = Prelude_isPrefixOf(".", _sc$$3.h1); switch (sc$$38.tag) { case "False": return Lib_Parser_pratt(_$$0, _$$1, _$$2, Lib_Syntax_RApp(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(sc$$15.h2), sc$$15.h2, _sc$$2.h3, Lib_Types_Explicit), spine.h2); case "True": return Lib_Parser_pratt(_$$0, _$$1, _$$2, Lib_Syntax_RApp(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(_sc$$2.h3), _sc$$2.h3, sc$$15.h2, Lib_Types_Explicit), spine.h2); } break; } case "Just": { const _sc$$4 = sc$$36.h1; const _sc$$5 = _sc$$4.h3; switch (_sc$$5.tag) { case "False": { const sc$$44 = Prelude__$3C_(null, Prelude_Prelude_Ord$20Prim_Int, _sc$$4.h1, _$$1); switch (sc$$44.tag) { case "False": return Lib_Parser_pratt_projectHead_runProject_runRule(_$$0, _$$1, _$$2, _$$3, _$$4, null, null, null, _sc$$4.h1, _sc$$4.h2, _$$2, _sc$$4.h4, Lib_Syntax_RApp(_sc$$2.h2, Lib_Syntax_RVar(_sc$$2.h2, _sc$$4.h0), sc$$15.h2, Lib_Types_Explicit), spine.h2); case "True": return Prelude_pure(null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser)(null)(Prelude__$2C_(null, null, sc$$15.h2, spine)); } break; } default: return Lib_Parser_Impl_fail(null, "expected operator"); } break; } } break; } case "True": return Prelude_pure(null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser)(null)(Prelude__$2C_(null, null, sc$$15.h2, spine)); } break; } default: return Lib_Parser_pratt(_$$0, _$$1, _$$2, Lib_Syntax_RApp(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(sc$$15.h2), sc$$15.h2, _sc$$2.h3, _sc$$0.h2), spine.h2); } break; } default: { const _sc$$2 = _sc$$0.h3; return Lib_Parser_pratt(_$$0, _$$1, _$$2, Lib_Syntax_RApp(Lib_Common_getFC(null, Lib_Syntax_Lib_Common_HasFC$20Lib_Syntax_Raw)(sc$$15.h2), sc$$15.h2, _sc$$2.h3, _sc$$0.h2), spine.h2); break; } } break; } case "Nil": return Prelude_pure(null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser)(null)(Prelude__$2C_(null, null, sc$$15.h2, Prelude_Nil(null))); } })); const Lib_Parser_dbraces = ( a$$0, _$$1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_symbol("{{"), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, _$$1, ( t ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_symbol("}}"), ( _1 ) => (Prelude_pure(null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser)(null)(t)))))))); @@ -993,7 +1109,8 @@ const Lib_Parser_nakedBind = Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Im const Lib_Parser_parseRecord = Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_getPos, ( fc ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_keyword("record"), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_uident, ( name ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_many(null, Prelude__$3C$7C$3E_(null, Lib_Parser_Impl_Prelude_Alternative$20Lib_Parser_Impl_Parser)(null)(Lib_Parser_ebind)(Lib_Parser_nakedBind)), ( teles ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_keyword("where"), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_optional(null, Prelude__$2A$3E_(null, null, null, Lib_Parser_Impl_Prelude_Functor$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_Prelude_Applicative$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_keyword("constructor"), Prelude__$3C$7C$3E_(null, Lib_Parser_Impl_Prelude_Alternative$20Lib_Parser_Impl_Parser)(null)(Lib_Parser_uident)(Lib_Parser_Impl_token(Lib_Token_MixFix)))), ( cname ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_startBlock(null, Lib_Parser_Impl_manySame(null, Lib_Parser_parseSig)), ( decls ) => (Prelude_pure(null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser)(null)(Lib_Syntax_Record(fc, name, Prelude_join(null, null, Prelude_Prelude_Monad$20Prelude_List, teles), cname, decls)))))))))))))))); const Lib_Syntax_Instance = ( h0, h1, h2 ) => ({ tag: "Instance", h0: h0, h1: h1, h2: h2 }); const Lib_Syntax_RWhere = ( h0, h1, h2 ) => ({ tag: "RWhere", h0: h0, h1: h1, h2: h2 }); -const Lib_Parser_getName = ( _$$0 ) => { switch (_$$0.tag) { case "RApp": return Lib_Parser_getName(_$$0.h1); case "RVar": return Prelude_pure(null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser)(null)(_$$0.h1); default: return Lib_Parser_Impl_fail(null, "bad LHS"); } }; +const Lib_Parser_REC_getName = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Parser.getName": { const _sc$$0 = arg.h0; switch (_sc$$0.tag) { case "RApp": return { tag: "Lib.Parser.getName", h0: _sc$$0.h1 }; case "RVar": return { tag: "return", h0: Prelude_pure(null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser)(null)(_sc$$0.h1) }; default: return { tag: "return", h0: Lib_Parser_Impl_fail(null, "bad LHS") }; } break; } } }; +const Lib_Parser_getName = ( _$$0 ) => (bouncer(Lib_Parser_REC_getName, { tag: "Lib.Parser.getName", h0: _$$0 })); const Lib_Parser_parseDef = Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_getPos, ( fc ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_typeExpr, ( t ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_getName(t), ( nm ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_keyword("="), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_typeExpr, ( body ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_getPos, ( wfc ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_optional(null, Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_keyword("where"), ( _1 ) => (Lib_Parser_Impl_startBlock(null, Lib_Parser_Impl_manySame(null, Prelude__$3C$7C$3E_(null, Lib_Parser_Impl_Prelude_Alternative$20Lib_Parser_Impl_Parser)(null)(Lib_Parser_parseSig)(Lib_Parser_parseDef)))))), ( w ) => { const body1 = Prelude_maybe(null, null, body, ( decls ) => (Lib_Syntax_RWhere(wfc, decls, body)), w); return Prelude_pure(null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser)(null)(Lib_Syntax_Def(fc, nm, Prelude__$3A$3A_(null, Prelude__$2C_(null, null, t, body1), Prelude_Nil(null)))); }))))))))))))); const Lib_Parser_parseInstance = Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_getPos, ( fc ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_keyword("instance"), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_typeExpr, ( ty ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_optional(null, Lib_Parser_Impl_keyword("where")), ( $$sc ) => { switch ($$sc.tag) { case "Just": return Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_startBlock(null, Lib_Parser_Impl_manySame(null, Lib_Parser_parseDef)), ( decls ) => (Prelude_pure(null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser)(null)(Lib_Syntax_Instance(fc, ty, Prelude_Just(null, decls))))); default: return Prelude_pure(null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser)(null)(Lib_Syntax_Instance(fc, ty, Prelude_Nothing(null))); } }))))))); const Lib_Syntax_Class = ( h0, h1, h2, h3 ) => ({ tag: "Class", h0: h0, h1: h1, h2: h2, h3: h3 }); @@ -1027,7 +1144,8 @@ const Lib_Common_InfixL = { tag: "InfixL" }; const Lib_Parser_parseMixfix = Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_getPos, ( fc ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Prelude__$3C$7C$3E_(null, Lib_Parser_Impl_Prelude_Alternative$20Lib_Parser_Impl_Parser)(null)(Prelude__$3C$$_(null, null, null, Lib_Parser_Impl_Prelude_Functor$20Lib_Parser_Impl_Parser, Lib_Common_InfixL, Lib_Parser_Impl_keyword("infixl")))(Prelude__$3C$7C$3E_(null, Lib_Parser_Impl_Prelude_Alternative$20Lib_Parser_Impl_Parser)(null)(Prelude__$3C$$_(null, null, null, Lib_Parser_Impl_Prelude_Functor$20Lib_Parser_Impl_Parser, Lib_Common_InfixR, Lib_Parser_Impl_keyword("infixr")))(Prelude__$3C$$_(null, null, null, Lib_Parser_Impl_Prelude_Functor$20Lib_Parser_Impl_Parser, Lib_Common_Infix, Lib_Parser_Impl_keyword("infix")))), ( fix ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_token(Lib_Token_Number), ( prec ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Lib_Parser_Impl_some(null, Lib_Parser_Impl_token(Lib_Token_MixFix)), ( ops ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Parser_Impl_Prelude_Applicative$20Lib_Parser_Impl_Parser, null, null, ops, ( op ) => (Lib_Parser_Impl_addOp(op, Prelude_cast(null, null, Data_String_Prelude_Cast$20Prim_String$20Prim_Int)(prec), fix))), ( _ ) => (Prelude_pure(null, Lib_Parser_Impl_Prelude_Monad$20Lib_Parser_Impl_Parser)(null)(Lib_Syntax_PMixFix(fc, ops, Prelude_cast(null, null, Data_String_Prelude_Cast$20Prim_String$20Prim_Int)(prec), fix)))))))))))); const Lib_Parser_parseDecl = Prelude__$3C$7C$3E_(null, Lib_Parser_Impl_Prelude_Alternative$20Lib_Parser_Impl_Parser)(null)(Lib_Parser_parseMixfix)(Prelude__$3C$7C$3E_(null, Lib_Parser_Impl_Prelude_Alternative$20Lib_Parser_Impl_Parser)(null)(Lib_Parser_parsePType)(Prelude__$3C$7C$3E_(null, Lib_Parser_Impl_Prelude_Alternative$20Lib_Parser_Impl_Parser)(null)(Lib_Parser_parsePFunc)(Prelude__$3C$7C$3E_(null, Lib_Parser_Impl_Prelude_Alternative$20Lib_Parser_Impl_Parser)(null)(Lib_Parser_parseNorm)(Prelude__$3C$7C$3E_(null, Lib_Parser_Impl_Prelude_Alternative$20Lib_Parser_Impl_Parser)(null)(Lib_Parser_parseData)(Prelude__$3C$7C$3E_(null, Lib_Parser_Impl_Prelude_Alternative$20Lib_Parser_Impl_Parser)(null)(Lib_Parser_parseShortData)(Prelude__$3C$7C$3E_(null, Lib_Parser_Impl_Prelude_Alternative$20Lib_Parser_Impl_Parser)(null)(Lib_Parser_parseSig)(Prelude__$3C$7C$3E_(null, Lib_Parser_Impl_Prelude_Alternative$20Lib_Parser_Impl_Parser)(null)(Lib_Parser_parseDef)(Prelude__$3C$7C$3E_(null, Lib_Parser_Impl_Prelude_Alternative$20Lib_Parser_Impl_Parser)(null)(Lib_Parser_parseClass)(Prelude__$3C$7C$3E_(null, Lib_Parser_Impl_Prelude_Alternative$20Lib_Parser_Impl_Parser)(null)(Lib_Parser_parseInstance)(Lib_Parser_parseRecord)))))))))); const Lib_Parser_Impl_partialParse = ( a$$0, _$$1, _$$2, _$$3, _$$4 ) => { const sc$$5 = Lib_Parser_Impl_runP(null, _$$2)(_$$4)(Prelude_False)(_$$3)(Lib_Common_MkFC(_$$1, Prelude__$2C_(null, null, 0, 0))); switch (sc$$5.tag) { case "Fail": return Prelude_Left(null, null, Prelude__$2C_(null, null, sc$$5.h2, sc$$5.h3)); case "OK": return Prelude_Right(null, null, Prelude__$2C_(null, null, sc$$5.h1, Prelude__$2C_(null, null, sc$$5.h4, sc$$5.h2))); } }; -const Main_parseDecls = ( _$$0, _$$1, _$$2, _$$3 ) => { switch (_$$2.tag) { case "_::_": { const sc$$8 = Lib_Parser_Impl_partialParse(null, _$$0, Lib_Parser_Impl_sameLevel(null, Lib_Parser_parseDecl), _$$1, _$$2); switch (sc$$8.tag) { case "Right": { const _sc$$0 = sc$$8.h2; const _sc$$1 = _sc$$0.h3; return Main_parseDecls(_$$0, _sc$$1.h2, _sc$$1.h3, Prelude__$3A$3C_(null, _$$3, _sc$$0.h2)); break; } case "Left": { const _sc$$0 = sc$$8.h2; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_putStrLn(null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Common_showError("", _sc$$0.h2)), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_TopContext_addError(_sc$$0.h2), ( _1 ) => (Main_parseDecls(_$$0, _$$1, Main_parseDecls_recover(_$$0, _$$1, _$$2, _$$3, _$$2.h0, _$$2.h1, _$$2.h2, null, _sc$$0.h3), _$$3))))); break; } } break; } case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, Prelude__$3C$3E$3E_(null, _$$3, Prelude_Nil(null)), _$$1)); } }; +const Main_REC_parseDecls = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Main.parseDecls": { const _sc$$0 = arg.h2; switch (_sc$$0.tag) { case "_::_": { const sc$$8 = Lib_Parser_Impl_partialParse(null, arg.h0, Lib_Parser_Impl_sameLevel(null, Lib_Parser_parseDecl), arg.h1, arg.h2); switch (sc$$8.tag) { case "Right": { const _sc$$1 = sc$$8.h2; const _sc$$2 = _sc$$1.h3; return { tag: "Main.parseDecls", h0: arg.h0, h1: _sc$$2.h2, h2: _sc$$2.h3, h3: Prelude__$3A$3C_(null, arg.h3, _sc$$1.h2) }; break; } case "Left": { const _sc$$1 = sc$$8.h2; return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_putStrLn(null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Common_showError("", _sc$$1.h2)), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_TopContext_addError(_sc$$1.h2), ( _1 ) => (Main_parseDecls(arg.h0, arg.h1, Main_parseDecls_recover(arg.h0, arg.h1, arg.h2, arg.h3, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, null, _sc$$1.h3), arg.h3))))) }; break; } } break; } case "Nil": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, Prelude__$3C$3E$3E_(null, arg.h3, Prelude_Nil(null)), arg.h1)) }; } break; } } }; +const Main_parseDecls = ( _$$0, _$$1, _$$2, _$$3 ) => (bouncer(Main_REC_parseDecls, { tag: "Main.parseDecls", h0: _$$0, h1: _$$1, h2: _$$2, h3: _$$3 })); const Main_primNS = Prelude__$3A$3A_(null, "Prim", Prelude_Nil(null)); const Data_List1__$3A$3A$3A_ = ( h0, h1, h2 ) => ({ tag: "_:::_", h0: h0, h1: h1, h2: h2 }); const Data_List1_split1 = ( _$$0, _$$1 ) => { const sc$$2 = Prelude_split(_$$0, _$$1); switch (sc$$2.tag) { case "_::_": return Data_List1__$3A$3A$3A_(null, sc$$2.h1, sc$$2.h2); case "Nil": return Data_List1__$3A$3A$3A_(null, _$$0, Prelude_Nil(null)); } }; @@ -1043,22 +1161,20 @@ const Lib_Token_Tok = ( h0, h1 ) => ({ tag: "Tok", h0: h0, h1: h1 }); const Lib_Token_MkBounded = ( h0, h1, h2 ) => ({ tag: "MkBounded", h0: h0, h1: h1, h2: h2 }); const Lib_Tokenizer_keywords = Prelude__$3A$3A_(null, "let", Prelude__$3A$3A_(null, "in", Prelude__$3A$3A_(null, "where", Prelude__$3A$3A_(null, "case", Prelude__$3A$3A_(null, "of", Prelude__$3A$3A_(null, "data", Prelude__$3A$3A_(null, "U", Prelude__$3A$3A_(null, "do", Prelude__$3A$3A_(null, "ptype", Prelude__$3A$3A_(null, "pfunc", Prelude__$3A$3A_(null, "module", Prelude__$3A$3A_(null, "infixl", Prelude__$3A$3A_(null, "infixr", Prelude__$3A$3A_(null, "infix", Prelude__$3A$3A_(null, "∀", Prelude__$3A$3A_(null, "forall", Prelude__$3A$3A_(null, "import", Prelude__$3A$3A_(null, "uses", Prelude__$3A$3A_(null, "class", Prelude__$3A$3A_(null, "instance", Prelude__$3A$3A_(null, "record", Prelude__$3A$3A_(null, "constructor", Prelude__$3A$3A_(null, "if", Prelude__$3A$3A_(null, "then", Prelude__$3A$3A_(null, "else", Prelude__$3A$3A_(null, "$", Prelude__$3A$3A_(null, "λ", Prelude__$3A$3A_(null, "?", Prelude__$3A$3A_(null, "@", Prelude__$3A$3A_(null, ".", Prelude__$3A$3A_(null, "->", Prelude__$3A$3A_(null, "→", Prelude__$3A$3A_(null, ":", Prelude__$3A$3A_(null, "=>", Prelude__$3A$3A_(null, ":=", Prelude__$3A$3A_(null, "=", Prelude__$3A$3A_(null, "<-", Prelude__$3A$3A_(null, "\\", Prelude__$3A$3A_(null, "_", Prelude__$3A$3A_(null, "|", Prelude_Nil(null))))))))))))))))))))))))))))))))))))))))); const Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _$$9, _$$10, _$$11, _$$12, _$$13 ) => { let kind; const sc$$14 = Prelude__$26$26_(_$$9, Prelude_elem(null, Prelude_Prelude_Eq$20Prim_String, _$$13, Lib_Tokenizer_keywords)); switch (sc$$14.tag) { case "False": { kind = _$$12; break; } case "True": { kind = Lib_Token_Keyword; break; } } return Lib_Token_MkBounded(null, Lib_Token_Tok(kind, _$$13), Lib_Token_MkBounds(_1, _2, _$$10, _$$11)); }; +const Data_SnocList_REC_snocelem = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Data.SnocList.snocelem": { const _sc$$0 = arg.h3; switch (_sc$$0.tag) { case "_:<_": { const sc$$7 = Prelude__$3D$3D_(null, arg.h1)(arg.h2)(_sc$$0.h2); switch (sc$$7.tag) { case "False": return { tag: "Data.SnocList.snocelem", h0: null, h1: arg.h1, h2: arg.h2, h3: _sc$$0.h1 }; case "True": return { tag: "return", h0: Prelude_True }; } break; } case "Lin": return { tag: "return", h0: Prelude_False }; } break; } } }; +const Data_SnocList_snocelem = ( a$$0, _$$1, _$$2, _$$3 ) => (bouncer(Data_SnocList_REC_snocelem, { tag: "Data.SnocList.snocelem", h0: a$$0, h1: _$$1, h2: _$$2, h3: _$$3 })); const Lib_Tokenizer_standalone = Prelude_unpack("()\\{}[],.@"); const Prelude_isSpace = ( _$$0 ) => { switch (_$$0) { case " ": return Prelude_True; case "\n": return Prelude_True; default: return Prelude_False; } }; const Lib_Tokenizer_rawTokenise_isIdent = ( _, _1, _2, _3, _4, _5, _$$6 ) => (Prelude_not(Prelude__$7C$7C_(Prelude_isSpace(_$$6), Prelude_elem(null, Prelude_Prelude_Eq$20Prim_Char, _$$6, Lib_Tokenizer_standalone)))); -const Data_SnocList_snocelem = ( a$$0, _$$1, _$$2, _$$3 ) => { switch (_$$3.tag) { case "_:<_": { const sc$$7 = Prelude__$3D$3D_(null, _$$1)(_$$2)(_$$3.h2); switch (sc$$7.tag) { case "False": return Data_SnocList_snocelem(null, _$$1, _$$2, _$$3.h1); case "True": return Prelude_True; } break; } case "Lin": return Prelude_False; } }; -const Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _$$12, _$$13, _$$14, _$$15 ) => { const _sc$$0 = _$$12.h3; switch (_sc$$0.tag) { case "_::_": { const sc$$23 = _$$14(_sc$$0.h1); switch (sc$$23.tag) { case "False": { let kind; const sc$$24 = Data_SnocList_snocelem(null, Prelude_Prelude_Eq$20Prim_Char, "_", _$$15); switch (sc$$24.tag) { case "False": { kind = _$$13; break; } case "True": { kind = Lib_Token_MixFix; break; } } return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$12.h0, _$$12.h1, Prelude__$3A$3C_(null, _$$12.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_, _1, _2, _3, _4, _5, _6, _7, _8, Prelude_True, _$$12.h0, Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(_$$12.h1)(1), kind, Prelude_pack(Prelude__$3C$3E$3E_(null, _$$15, Prelude_Nil(null))))), Prelude__$3A$3A_(null, _sc$$0.h1, _sc$$0.h2))); break; } case "True": return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, Lib_Tokenizer_TS(_$$12.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$12.h1)(1), _$$12.h2, _sc$$0.h2), _$$13, _$$14, Prelude__$3A$3C_(null, _$$15, _sc$$0.h1)); } break; } case "Nil": return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$12.h0, _$$12.h1, Prelude__$3A$3C_(null, _$$12.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_, _1, _2, _3, _4, _5, _6, _7, _8, Prelude_True, _$$12.h0, _$$12.h1, _$$13, Prelude_pack(Prelude__$3C$3E$3E_(null, _$$15, Prelude_Nil(null))))), Prelude_Nil(null))); } }; const Prelude_isUpper = ( _$$0 ) => { const o = Prelude_ord(_$$0); return Prelude__$26$26_(Prelude__$3C_(null, Prelude_Prelude_Ord$20Prim_Int, 64, o), Prelude__$3C_(null, Prelude_Prelude_Ord$20Prim_Int, o, 91)); }; const Prelude_isDigit = ( _$$0 ) => { switch (_$$0) { case "0": return Prelude_True; case "1": return Prelude_True; case "2": return Prelude_True; case "3": return Prelude_True; case "4": return Prelude_True; case "5": return Prelude_True; case "6": return Prelude_True; case "7": return Prelude_True; case "8": return Prelude_True; case "9": return Prelude_True; default: return Prelude_False; } }; -const Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _$$13, _$$14 ) => { const sc$$15 = Prelude_elem(null, Prelude_Prelude_Eq$20Prim_Char, _$$13, Lib_Tokenizer_standalone); switch (sc$$15.tag) { case "False": { let kind; const sc$$16 = Prelude_isDigit(_$$13); switch (sc$$16.tag) { case "False": { const sc$$17 = Prelude_isUpper(_$$13); switch (sc$$17.tag) { case "False": { kind = Lib_Token_Ident; break; } case "True": { kind = Lib_Token_UIdent; break; } } break; } case "True": { kind = Lib_Token_Number; break; } } return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, Lib_Tokenizer_TS(_1, _2, _3, Prelude__$3A$3A_(null, _$$13, _$$14)), kind, ( eta ) => (Lib_Tokenizer_rawTokenise_isIdent(_, _1, _2, _3, _4, _5, eta)), Prelude_Lin(null)); break; } case "True": return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_1, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_2)(1), Prelude__$3A$3C_(null, _3, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_, _1, _2, _3, _4, _5, _6, _7, _8, Prelude_True, _1, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_2)(1), Lib_Token_Symbol, Prelude_pack(Prelude__$3A$3A_(null, _$$13, Prelude_Nil(null))))), _$$14)); } }; -const Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _$$10 ) => { const _sc$$0 = _$$10.h3; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1) { case "\n": return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$10.h0)(1), 0, _$$10.h2, _sc$$0.h2)); default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, Lib_Tokenizer_TS(_$$10.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$10.h1)(1), _$$10.h2, _sc$$0.h2)); } break; } case "Nil": return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$10.h0, _$$10.h1, _$$10.h2, Prelude_Nil(null))); } }; -const Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick = ( _, _1, _2, _3, _4, _5, _6, _7, _$$8, _$$9 ) => { const _sc$$0 = _$$8.h3; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1) { case "`": { const tok = Lib_Token_MkBounded(null, Lib_Token_Tok(Lib_Token_JSLit, Prelude_pack(Prelude__$3C$3E$3E_(null, _$$9, Prelude_Nil(null)))), Lib_Token_MkBounds(_1, _2, _$$8.h0, _$$8.h1)); return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$8.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$8.h1)(1), Prelude__$3A$3C_(null, _$$8.h2, tok), _sc$$0.h2)); break; } case "\n": return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick(_, _1, _2, _3, _4, _5, _6, _7, Lib_Tokenizer_TS(Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$8.h0)(1), 0, _$$8.h2, _sc$$0.h2), Prelude__$3A$3C_(null, _$$9, "\n")); default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick(_, _1, _2, _3, _4, _5, _6, _7, Lib_Tokenizer_TS(_$$8.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$8.h1)(1), _$$8.h2, _sc$$0.h2), Prelude__$3A$3C_(null, _$$9, _sc$$0.h1)); } break; } case "Nil": return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _$$8.h0, _$$8.h1)), "EOF in backtick string")); } }; -const Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment = ( _, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _$$11 ) => { const _sc$$0 = _$$11.h3; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1) { case "-": { const _sc$$2 = _sc$$0.h2; switch (_sc$$2.tag) { case "_::_": { const _sc$$3 = _sc$$2.h1; switch (_sc$$3) { case "/": return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$11.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$11.h1)(2), _$$11.h2, _sc$$2.h2)); default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, Lib_Tokenizer_TS(_$$11.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$11.h1)(1), _$$11.h2, _sc$$0.h2)); } break; } default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, Lib_Tokenizer_TS(_$$11.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$11.h1)(1), _$$11.h2, _sc$$0.h2)); } break; } case "\n": return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, Lib_Tokenizer_TS(Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$11.h0)(1), 0, _$$11.h2, _sc$$0.h2)); default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment(_, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, Lib_Tokenizer_TS(_$$11.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$11.h1)(1), _$$11.h2, _sc$$0.h2)); } break; } case "Nil": return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _$$11.h0, _$$11.h1)), "EOF in block comment")); } }; const Lib_Token_Pragma = { tag: "Pragma" }; const Lib_Tokenizer_singleton = ( _$$0 ) => (Prelude_pack(Prelude__$3A$3A_(null, _$$0, Prelude_Nil(null)))); const Lib_Tokenizer_quoteTokenise_stok = ( _, _1, _2, _3, _4, _5, _6, _7, _8 ) => (Lib_Token_MkBounded(null, Lib_Token_Tok(Lib_Token_StringKind, Prelude_pack(Prelude__$3C$3E$3E_(null, _3, Prelude_Nil(null)))), Lib_Token_MkBounds(_1, _2, _4, _5))); -const Lib_Tokenizer_quoteTokenise = ( _$$0, _$$1, _$$2, _$$3 ) => { const _sc$$0 = _$$0.h3; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1) { case "\"": return Prelude_Right(null, null, Lib_Tokenizer_TS(_$$0.h0, _$$0.h1, Prelude__$3A$3C_(null, _$$0.h2, Lib_Tokenizer_quoteTokenise_stok(_$$0, _$$1, _$$2, _$$3, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null)), _$$0.h3)); case "\n": return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _$$0.h0, _$$0.h1)), "Newline in string")); case "\\": { const _sc$$2 = _sc$$0.h2; switch (_sc$$2.tag) { case "_::_": { const _sc$$3 = _sc$$2.h1; switch (_sc$$3) { case "{": { const tok = Lib_Token_MkBounded(null, Lib_Token_Tok(Lib_Token_StartInterp, "\\{"), Lib_Token_MkBounds(_$$0.h0, _$$0.h1, _$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(2))); const sc$$17 = Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(2), Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, _$$0.h2, Lib_Tokenizer_quoteTokenise_stok(_$$0, _$$1, _$$2, _$$3, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null)), tok), _sc$$2.h2)); switch (sc$$17.tag) { case "Right": { const _sc$$4 = sc$$17.h2; const _sc$$5 = _sc$$4.h3; switch (_sc$$5.tag) { case "_::_": { const _sc$$6 = _sc$$5.h1; switch (_sc$$6) { case "}": { const tok1 = Lib_Token_MkBounded(null, Lib_Token_Tok(Lib_Token_EndInterp, "}"), Lib_Token_MkBounds(_sc$$4.h0, _sc$$4.h1, _sc$$4.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$4.h1)(1))); return Lib_Tokenizer_quoteTokenise(Lib_Tokenizer_TS(_sc$$4.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$4.h1)(1), Prelude__$3A$3C_(null, _sc$$4.h2, tok1), _sc$$5.h2), _sc$$4.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$4.h1)(1), Prelude_Lin(null)); break; } default: return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$4.h0, _sc$$4.h1)), "Expected '{'")); } break; } default: return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$4.h0, _sc$$4.h1)), "Expected '{'")); } break; } case "Left": return Prelude_Left(null, null, sc$$17.h2); } break; } case "n": return Lib_Tokenizer_quoteTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(2), _$$0.h2, _sc$$2.h2), _$$1, _$$2, Prelude__$3A$3C_(null, _$$3, "\n")); default: return Lib_Tokenizer_quoteTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(2), _$$0.h2, _sc$$2.h2), _$$1, _$$2, Prelude__$3A$3C_(null, _$$3, _sc$$2.h1)); } break; } default: return Lib_Tokenizer_quoteTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(1), _$$0.h2, _sc$$0.h2), _$$1, _$$2, Prelude__$3A$3C_(null, _$$3, _sc$$0.h1)); } break; } default: return Lib_Tokenizer_quoteTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(1), _$$0.h2, _sc$$0.h2), _$$1, _$$2, Prelude__$3A$3C_(null, _$$3, _sc$$0.h1)); } break; } case "Nil": return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _$$0.h0, _$$0.h1)), "Expected '\"' at EOF")); } }; -const Lib_Tokenizer_rawTokenise = ( _$$0 ) => { const _sc$$0 = _$$0.h3; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1) { case " ": return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(1), _$$0.h2, _sc$$0.h2)); case "\n": return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h0)(1), 0, _$$0.h2, _sc$$0.h2)); case "\"": { const tok = Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, Prelude_False, _$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(1), Lib_Token_StartQuote, "\""); const sc$$18 = Lib_Tokenizer_quoteTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(1), Prelude__$3A$3C_(null, _$$0.h2, tok), _sc$$0.h2), _$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(1), Prelude_Lin(null)); switch (sc$$18.tag) { case "Right": { const _sc$$2 = sc$$18.h2; const _sc$$3 = _sc$$2.h3; switch (_sc$$3.tag) { case "_::_": { const _sc$$4 = _sc$$3.h1; switch (_sc$$4) { case "\"": { const tok1 = Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, Prelude_False, _sc$$2.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$2.h1)(1), Lib_Token_EndQuote, "\""); return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_sc$$2.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$2.h1)(1), Prelude__$3A$3C_(null, _sc$$2.h2, tok1), _sc$$3.h2)); break; } default: return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$2.h0, _sc$$2.h1)), "Expected '\"'")); } break; } default: return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$2.h0, _sc$$2.h1)), "Expected '\"'")); } break; } case "Left": return Prelude_Left(null, null, sc$$18.h2); } break; } case "}": return Prelude_Right(null, null, _$$0); case "{": { const _sc$$2 = _sc$$0.h2; switch (_sc$$2.tag) { case "_::_": { const _sc$$3 = _sc$$2.h1; switch (_sc$$3) { case "{": { const tok = Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, Prelude_False, _$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(2), Lib_Token_Keyword, "{{"); const sc$$21 = Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(2), Prelude__$3A$3C_(null, _$$0.h2, tok), _sc$$2.h2)); switch (sc$$21.tag) { case "Right": { const _sc$$4 = sc$$21.h2; const _sc$$5 = _sc$$4.h3; switch (_sc$$5.tag) { case "_::_": { const _sc$$6 = _sc$$5.h1; switch (_sc$$6) { case "}": { const _sc$$7 = _sc$$5.h2; switch (_sc$$7.tag) { case "_::_": { const _sc$$8 = _sc$$7.h1; switch (_sc$$8) { case "}": { const tok1 = Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, Prelude_False, _sc$$4.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$4.h1)(2), Lib_Token_Keyword, "}}"); return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_sc$$4.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$4.h1)(2), Prelude__$3A$3C_(null, _sc$$4.h2, tok1), _sc$$7.h2)); break; } default: return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$4.h0, _sc$$4.h1)), "Expected '}}'")); } break; } default: return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$4.h0, _sc$$4.h1)), "Expected '}}'")); } break; } default: return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$4.h0, _sc$$4.h1)), "Expected '}}'")); } break; } default: return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$4.h0, _sc$$4.h1)), "Expected '}}'")); } break; } case "Left": return Prelude_Left(null, null, sc$$21.h2); } break; } default: { const tok = Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, Prelude_False, _$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(1), Lib_Token_Symbol, "{"); const sc$$21 = Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(1), Prelude__$3A$3C_(null, _$$0.h2, tok), _sc$$0.h2)); switch (sc$$21.tag) { case "Right": { const _sc$$4 = sc$$21.h2; const _sc$$5 = _sc$$4.h3; switch (_sc$$5.tag) { case "_::_": { const _sc$$6 = _sc$$5.h1; switch (_sc$$6) { case "}": { const tok1 = Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, Prelude_False, _sc$$4.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$4.h1)(1), Lib_Token_Symbol, "}"); return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_sc$$4.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$4.h1)(1), Prelude__$3A$3C_(null, _sc$$4.h2, tok1), _sc$$5.h2)); break; } default: return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$4.h0, _sc$$4.h1)), "Expected '}'")); } break; } default: return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$4.h0, _sc$$4.h1)), "Expected '}'")); } break; } case "Left": return Prelude_Left(null, null, sc$$21.h2); } break; } } break; } default: { const tok = Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, Prelude_False, _$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(1), Lib_Token_Symbol, "{"); const sc$$18 = Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(1), Prelude__$3A$3C_(null, _$$0.h2, tok), _sc$$0.h2)); switch (sc$$18.tag) { case "Right": { const _sc$$3 = sc$$18.h2; const _sc$$4 = _sc$$3.h3; switch (_sc$$4.tag) { case "_::_": { const _sc$$5 = _sc$$4.h1; switch (_sc$$5) { case "}": { const tok1 = Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, Prelude_False, _sc$$3.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$3.h1)(1), Lib_Token_Symbol, "}"); return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_sc$$3.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$3.h1)(1), Prelude__$3A$3C_(null, _sc$$3.h2, tok1), _sc$$4.h2)); break; } default: return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$3.h0, _sc$$3.h1)), "Expected '}'")); } break; } default: return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$3.h0, _sc$$3.h1)), "Expected '}'")); } break; } case "Left": return Prelude_Left(null, null, sc$$18.h2); } break; } } break; } case ",": return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(1), Prelude__$3A$3C_(null, _$$0.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, Prelude_False, _$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(1), Lib_Token_Ident, ",")), _sc$$0.h2)); case "_": { const _sc$$2 = _sc$$0.h2; switch (_sc$$2.tag) { case "_::_": { const _sc$$3 = _sc$$2.h1; switch (_sc$$3) { case ",": { const _sc$$4 = _sc$$2.h2; switch (_sc$$4.tag) { case "_::_": { const _sc$$5 = _sc$$4.h1; switch (_sc$$5) { case "_": return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(3), Prelude__$3A$3C_(null, _$$0.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, Prelude_False, _$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(3), Lib_Token_MixFix, "_,_")), _sc$$4.h2)); default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, null, _sc$$0.h1, _sc$$0.h2); } break; } default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, null, _sc$$0.h1, _sc$$0.h2); } break; } case ".": { const _sc$$4 = _sc$$2.h2; switch (_sc$$4.tag) { case "_::_": { const _sc$$5 = _sc$$4.h1; switch (_sc$$5) { case "_": return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(3), Prelude__$3A$3C_(null, _$$0.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, Prelude_False, _$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(3), Lib_Token_MixFix, "_._")), _sc$$4.h2)); default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, null, _sc$$0.h1, _sc$$0.h2); } break; } default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, null, _sc$$0.h1, _sc$$0.h2); } break; } default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, null, _sc$$0.h1, _sc$$0.h2); } break; } default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, null, _sc$$0.h1, _sc$$0.h2); } break; } case "'": { const _sc$$2 = _sc$$0.h2; switch (_sc$$2.tag) { case "_::_": { const _sc$$3 = _sc$$2.h1; switch (_sc$$3) { case "\\": { const _sc$$4 = _sc$$2.h2; switch (_sc$$4.tag) { case "_::_": { const _sc$$5 = _sc$$4.h2; switch (_sc$$5.tag) { case "_::_": { const _sc$$6 = _sc$$5.h1; switch (_sc$$6) { case "'": { const ch = Prelude_ite(null, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Char)(_sc$$4.h1)("n"), "\n", _sc$$4.h1); return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(4), Prelude__$3A$3C_(null, _$$0.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, Prelude_False, _$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(4), Lib_Token_Character, Lib_Tokenizer_singleton(ch))), _sc$$5.h2)); break; } default: { const _sc$$7 = _sc$$4.h1; switch (_sc$$7) { case "'": return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(3), Prelude__$3A$3C_(null, _$$0.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, Prelude_False, _$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(3), Lib_Token_Character, Lib_Tokenizer_singleton(_sc$$2.h1))), _sc$$4.h2)); default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, null, _sc$$0.h1, _sc$$0.h2); } break; } } break; } default: { const _sc$$6 = _sc$$4.h1; switch (_sc$$6) { case "'": return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(3), Prelude__$3A$3C_(null, _$$0.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, Prelude_False, _$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(3), Lib_Token_Character, Lib_Tokenizer_singleton(_sc$$2.h1))), _sc$$4.h2)); default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, null, _sc$$0.h1, _sc$$0.h2); } break; } } break; } default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, null, _sc$$0.h1, _sc$$0.h2); } break; } default: { const _sc$$4 = _sc$$2.h2; switch (_sc$$4.tag) { case "_::_": { const _sc$$5 = _sc$$4.h1; switch (_sc$$5) { case "'": return Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(3), Prelude__$3A$3C_(null, _$$0.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, Prelude_False, _$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(3), Lib_Token_Character, Lib_Tokenizer_singleton(_sc$$2.h1))), _sc$$4.h2)); default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, null, _sc$$0.h1, _sc$$0.h2); } break; } default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, null, _sc$$0.h1, _sc$$0.h2); } break; } } break; } default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, null, _sc$$0.h1, _sc$$0.h2); } break; } case "#": return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(1), _$$0.h2, _sc$$0.h2), Lib_Token_Pragma, ( eta ) => (Lib_Tokenizer_rawTokenise_isIdent(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, eta)), Prelude__$3A$3C_(null, Prelude_Lin(null), "#")); case "/": { const _sc$$2 = _sc$$0.h2; switch (_sc$$2.tag) { case "_::_": { const _sc$$3 = _sc$$2.h1; switch (_sc$$3) { case "-": return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(2), _$$0.h2, _sc$$2.h2)); default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, null, _sc$$0.h1, _sc$$0.h2); } break; } default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, null, _sc$$0.h1, _sc$$0.h2); } break; } case "`": return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(1), _$$0.h2, _sc$$0.h2), Prelude_Lin(null)); case ".": return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(1), _$$0.h2, _sc$$0.h2), Lib_Token_Projection, ( eta ) => (Lib_Tokenizer_rawTokenise_isIdent(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, eta)), Prelude__$3A$3C_(null, Prelude_Lin(null), ".")); case "-": { const _sc$$2 = _sc$$0.h2; switch (_sc$$2.tag) { case "_::_": { const _sc$$3 = _sc$$2.h1; switch (_sc$$3) { case "-": return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(2), _$$0.h2, _sc$$2.h2)); default: { const sc$$20 = Prelude_isDigit(_sc$$2.h1); switch (sc$$20.tag) { case "False": return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(1), _$$0.h2, Prelude__$3A$3A_(null, _sc$$2.h1, _sc$$2.h2)), Lib_Token_Ident, ( eta ) => (Lib_Tokenizer_rawTokenise_isIdent(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, eta)), Prelude__$3A$3C_(null, Prelude_Lin(null), "-")); case "True": return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, Lib_Tokenizer_TS(_$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_$$0.h1)(2), _$$0.h2, _sc$$2.h2), Lib_Token_Number, Prelude_isDigit, Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, Prelude_Lin(null), "-"), _sc$$2.h1)); } break; } } break; } default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, null, _sc$$0.h1, _sc$$0.h2); } break; } default: return Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok_lineComment_blockComment_doRest_doChar(_$$0, _$$0.h0, _$$0.h1, _$$0.h2, _$$0.h3, null, null, null, null, null, null, null, null, _sc$$0.h1, _sc$$0.h2); } break; } case "Nil": return Prelude_Right(null, null, _$$0); } }; +const Lib_Tokenizer_REC_quoteTokenise = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Tokenizer.quoteTokenise": { const _sc$$0 = arg.h0; const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "_::_": { const _sc$$2 = _sc$$1.h1; switch (_sc$$2) { case "\"": return { tag: "return", h0: Prelude_Right(null, null, Lib_Tokenizer_TS(_sc$$0.h0, _sc$$0.h1, Prelude__$3A$3C_(null, _sc$$0.h2, Lib_Tokenizer_quoteTokenise_stok(arg.h0, arg.h1, arg.h2, arg.h3, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null)), _sc$$0.h3)) }; case "\n": return { tag: "return", h0: Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$0.h0, _sc$$0.h1)), "Newline in string")) }; case "\\": { const _sc$$3 = _sc$$1.h2; switch (_sc$$3.tag) { case "_::_": { const _sc$$4 = _sc$$3.h1; switch (_sc$$4) { case "{": { const tok = Lib_Token_MkBounded(null, Lib_Token_Tok(Lib_Token_StartInterp, "\\{"), Lib_Token_MkBounds(_sc$$0.h0, _sc$$0.h1, _sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(2))); const sc$$17 = Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(2), Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, _sc$$0.h2, Lib_Tokenizer_quoteTokenise_stok(arg.h0, arg.h1, arg.h2, arg.h3, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null)), tok), _sc$$3.h2)); switch (sc$$17.tag) { case "Right": { const _sc$$5 = sc$$17.h2; const _sc$$6 = _sc$$5.h3; switch (_sc$$6.tag) { case "_::_": { const _sc$$7 = _sc$$6.h1; switch (_sc$$7) { case "}": { const tok1 = Lib_Token_MkBounded(null, Lib_Token_Tok(Lib_Token_EndInterp, "}"), Lib_Token_MkBounds(_sc$$5.h0, _sc$$5.h1, _sc$$5.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$5.h1)(1))); return { tag: "Lib.Tokenizer.quoteTokenise", h0: Lib_Tokenizer_TS(_sc$$5.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$5.h1)(1), Prelude__$3A$3C_(null, _sc$$5.h2, tok1), _sc$$6.h2), h1: _sc$$5.h0, h2: Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$5.h1)(1), h3: Prelude_Lin(null) }; break; } default: return { tag: "return", h0: Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$5.h0, _sc$$5.h1)), "Expected '{'")) }; } break; } default: return { tag: "return", h0: Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$5.h0, _sc$$5.h1)), "Expected '{'")) }; } break; } case "Left": return { tag: "return", h0: Prelude_Left(null, null, sc$$17.h2) }; } break; } case "n": return { tag: "Lib.Tokenizer.quoteTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(2), _sc$$0.h2, _sc$$3.h2), h1: arg.h1, h2: arg.h2, h3: Prelude__$3A$3C_(null, arg.h3, "\n") }; default: return { tag: "Lib.Tokenizer.quoteTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(2), _sc$$0.h2, _sc$$3.h2), h1: arg.h1, h2: arg.h2, h3: Prelude__$3A$3C_(null, arg.h3, _sc$$3.h1) }; } break; } default: return { tag: "Lib.Tokenizer.quoteTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), _sc$$0.h2, _sc$$1.h2), h1: arg.h1, h2: arg.h2, h3: Prelude__$3A$3C_(null, arg.h3, _sc$$1.h1) }; } break; } default: return { tag: "Lib.Tokenizer.quoteTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), _sc$$0.h2, _sc$$1.h2), h1: arg.h1, h2: arg.h2, h3: Prelude__$3A$3C_(null, arg.h3, _sc$$1.h1) }; } break; } case "Nil": return { tag: "return", h0: Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$0.h0, _sc$$0.h1)), "Expected '\"' at EOF")) }; } break; } } }; +const Lib_Tokenizer_quoteTokenise = ( _$$0, _$$1, _$$2, _$$3 ) => (bouncer(Lib_Tokenizer_REC_quoteTokenise, { tag: "Lib.Tokenizer.quoteTokenise", h0: _$$0, h1: _$$1, h2: _$$2, h3: _$$3 })); +const Lib_Tokenizer_REC_rawTokenise = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Tokenizer.rawTokenise": { const _sc$$0 = arg.h0; const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "_::_": { const _sc$$2 = _sc$$1.h1; switch (_sc$$2) { case " ": return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), _sc$$0.h2, _sc$$1.h2) }; case "\n": return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h0)(1), 0, _sc$$0.h2, _sc$$1.h2) }; case "\"": { const tok = Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, Prelude_False, _sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), Lib_Token_StartQuote, "\""); const sc$$18 = Lib_Tokenizer_quoteTokenise(Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), Prelude__$3A$3C_(null, _sc$$0.h2, tok), _sc$$1.h2), _sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), Prelude_Lin(null)); switch (sc$$18.tag) { case "Right": { const _sc$$3 = sc$$18.h2; const _sc$$4 = _sc$$3.h3; switch (_sc$$4.tag) { case "_::_": { const _sc$$5 = _sc$$4.h1; switch (_sc$$5) { case "\"": { const tok1 = Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, Prelude_False, _sc$$3.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$3.h1)(1), Lib_Token_EndQuote, "\""); return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$3.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$3.h1)(1), Prelude__$3A$3C_(null, _sc$$3.h2, tok1), _sc$$4.h2) }; break; } default: return { tag: "return", h0: Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$3.h0, _sc$$3.h1)), "Expected '\"'")) }; } break; } default: return { tag: "return", h0: Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$3.h0, _sc$$3.h1)), "Expected '\"'")) }; } break; } case "Left": return { tag: "return", h0: Prelude_Left(null, null, sc$$18.h2) }; } break; } case "}": return { tag: "return", h0: Prelude_Right(null, null, arg.h0) }; case "{": { const _sc$$3 = _sc$$1.h2; switch (_sc$$3.tag) { case "_::_": { const _sc$$4 = _sc$$3.h1; switch (_sc$$4) { case "{": { const tok = Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, Prelude_False, _sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(2), Lib_Token_Keyword, "{{"); const sc$$21 = Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(2), Prelude__$3A$3C_(null, _sc$$0.h2, tok), _sc$$3.h2)); switch (sc$$21.tag) { case "Right": { const _sc$$5 = sc$$21.h2; const _sc$$6 = _sc$$5.h3; switch (_sc$$6.tag) { case "_::_": { const _sc$$7 = _sc$$6.h1; switch (_sc$$7) { case "}": { const _sc$$8 = _sc$$6.h2; switch (_sc$$8.tag) { case "_::_": { const _sc$$9 = _sc$$8.h1; switch (_sc$$9) { case "}": { const tok1 = Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, Prelude_False, _sc$$5.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$5.h1)(2), Lib_Token_Keyword, "}}"); return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$5.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$5.h1)(2), Prelude__$3A$3C_(null, _sc$$5.h2, tok1), _sc$$8.h2) }; break; } default: return { tag: "return", h0: Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$5.h0, _sc$$5.h1)), "Expected '}}'")) }; } break; } default: return { tag: "return", h0: Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$5.h0, _sc$$5.h1)), "Expected '}}'")) }; } break; } default: return { tag: "return", h0: Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$5.h0, _sc$$5.h1)), "Expected '}}'")) }; } break; } default: return { tag: "return", h0: Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$5.h0, _sc$$5.h1)), "Expected '}}'")) }; } break; } case "Left": return { tag: "return", h0: Prelude_Left(null, null, sc$$21.h2) }; } break; } default: { const tok = Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, Prelude_False, _sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), Lib_Token_Symbol, "{"); const sc$$21 = Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), Prelude__$3A$3C_(null, _sc$$0.h2, tok), _sc$$1.h2)); switch (sc$$21.tag) { case "Right": { const _sc$$5 = sc$$21.h2; const _sc$$6 = _sc$$5.h3; switch (_sc$$6.tag) { case "_::_": { const _sc$$7 = _sc$$6.h1; switch (_sc$$7) { case "}": { const tok1 = Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, Prelude_False, _sc$$5.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$5.h1)(1), Lib_Token_Symbol, "}"); return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$5.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$5.h1)(1), Prelude__$3A$3C_(null, _sc$$5.h2, tok1), _sc$$6.h2) }; break; } default: return { tag: "return", h0: Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$5.h0, _sc$$5.h1)), "Expected '}'")) }; } break; } default: return { tag: "return", h0: Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$5.h0, _sc$$5.h1)), "Expected '}'")) }; } break; } case "Left": return { tag: "return", h0: Prelude_Left(null, null, sc$$21.h2) }; } break; } } break; } default: { const tok = Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, Prelude_False, _sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), Lib_Token_Symbol, "{"); const sc$$18 = Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), Prelude__$3A$3C_(null, _sc$$0.h2, tok), _sc$$1.h2)); switch (sc$$18.tag) { case "Right": { const _sc$$4 = sc$$18.h2; const _sc$$5 = _sc$$4.h3; switch (_sc$$5.tag) { case "_::_": { const _sc$$6 = _sc$$5.h1; switch (_sc$$6) { case "}": { const tok1 = Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, Prelude_False, _sc$$4.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$4.h1)(1), Lib_Token_Symbol, "}"); return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$4.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$4.h1)(1), Prelude__$3A$3C_(null, _sc$$4.h2, tok1), _sc$$5.h2) }; break; } default: return { tag: "return", h0: Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$4.h0, _sc$$4.h1)), "Expected '}'")) }; } break; } default: return { tag: "return", h0: Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$4.h0, _sc$$4.h1)), "Expected '}'")) }; } break; } case "Left": return { tag: "return", h0: Prelude_Left(null, null, sc$$18.h2) }; } break; } } break; } case ",": return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), Prelude__$3A$3C_(null, _sc$$0.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, Prelude_False, _sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), Lib_Token_Ident, ",")), _sc$$1.h2) }; case "_": { const _sc$$3 = _sc$$1.h2; switch (_sc$$3.tag) { case "_::_": { const _sc$$4 = _sc$$3.h1; switch (_sc$$4) { case ",": { const _sc$$5 = _sc$$3.h2; switch (_sc$$5.tag) { case "_::_": { const _sc$$6 = _sc$$5.h1; switch (_sc$$6) { case "_": return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(3), Prelude__$3A$3C_(null, _sc$$0.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, Prelude_False, _sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(3), Lib_Token_MixFix, "_,_")), _sc$$5.h2) }; default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: null, h13: _sc$$1.h1, h14: _sc$$1.h2 }; } break; } default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: null, h13: _sc$$1.h1, h14: _sc$$1.h2 }; } break; } case ".": { const _sc$$5 = _sc$$3.h2; switch (_sc$$5.tag) { case "_::_": { const _sc$$6 = _sc$$5.h1; switch (_sc$$6) { case "_": return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(3), Prelude__$3A$3C_(null, _sc$$0.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, Prelude_False, _sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(3), Lib_Token_MixFix, "_._")), _sc$$5.h2) }; default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: null, h13: _sc$$1.h1, h14: _sc$$1.h2 }; } break; } default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: null, h13: _sc$$1.h1, h14: _sc$$1.h2 }; } break; } default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: null, h13: _sc$$1.h1, h14: _sc$$1.h2 }; } break; } default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: null, h13: _sc$$1.h1, h14: _sc$$1.h2 }; } break; } case "'": { const _sc$$3 = _sc$$1.h2; switch (_sc$$3.tag) { case "_::_": { const _sc$$4 = _sc$$3.h1; switch (_sc$$4) { case "\\": { const _sc$$5 = _sc$$3.h2; switch (_sc$$5.tag) { case "_::_": { const _sc$$6 = _sc$$5.h2; switch (_sc$$6.tag) { case "_::_": { const _sc$$7 = _sc$$6.h1; switch (_sc$$7) { case "'": { const ch = Prelude_ite(null, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_Char)(_sc$$5.h1)("n"), "\n", _sc$$5.h1); return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(4), Prelude__$3A$3C_(null, _sc$$0.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, Prelude_False, _sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(4), Lib_Token_Character, Lib_Tokenizer_singleton(ch))), _sc$$6.h2) }; break; } default: { const _sc$$8 = _sc$$5.h1; switch (_sc$$8) { case "'": return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(3), Prelude__$3A$3C_(null, _sc$$0.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, Prelude_False, _sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(3), Lib_Token_Character, Lib_Tokenizer_singleton(_sc$$3.h1))), _sc$$5.h2) }; default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: null, h13: _sc$$1.h1, h14: _sc$$1.h2 }; } break; } } break; } default: { const _sc$$7 = _sc$$5.h1; switch (_sc$$7) { case "'": return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(3), Prelude__$3A$3C_(null, _sc$$0.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, Prelude_False, _sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(3), Lib_Token_Character, Lib_Tokenizer_singleton(_sc$$3.h1))), _sc$$5.h2) }; default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: null, h13: _sc$$1.h1, h14: _sc$$1.h2 }; } break; } } break; } default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: null, h13: _sc$$1.h1, h14: _sc$$1.h2 }; } break; } default: { const _sc$$5 = _sc$$3.h2; switch (_sc$$5.tag) { case "_::_": { const _sc$$6 = _sc$$5.h1; switch (_sc$$6) { case "'": return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(3), Prelude__$3A$3C_(null, _sc$$0.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, null, null, null, Prelude_False, _sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(3), Lib_Token_Character, Lib_Tokenizer_singleton(_sc$$3.h1))), _sc$$5.h2) }; default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: null, h13: _sc$$1.h1, h14: _sc$$1.h2 }; } break; } default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: null, h13: _sc$$1.h1, h14: _sc$$1.h2 }; } break; } } break; } default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: null, h13: _sc$$1.h1, h14: _sc$$1.h2 }; } break; } case "#": return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), _sc$$0.h2, _sc$$1.h2), h13: Lib_Token_Pragma, h14: ( eta ) => (Lib_Tokenizer_rawTokenise_isIdent(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, eta)), h15: Prelude__$3A$3C_(null, Prelude_Lin(null), "#") }; case "/": { const _sc$$3 = _sc$$1.h2; switch (_sc$$3.tag) { case "_::_": { const _sc$$4 = _sc$$3.h1; switch (_sc$$4) { case "-": return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(2), _sc$$0.h2, _sc$$3.h2) }; default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: null, h13: _sc$$1.h1, h14: _sc$$1.h2 }; } break; } default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: null, h13: _sc$$1.h1, h14: _sc$$1.h2 }; } break; } case "`": return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), _sc$$0.h2, _sc$$1.h2), h9: Prelude_Lin(null) }; case ".": return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), _sc$$0.h2, _sc$$1.h2), h13: Lib_Token_Projection, h14: ( eta ) => (Lib_Tokenizer_rawTokenise_isIdent(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, eta)), h15: Prelude__$3A$3C_(null, Prelude_Lin(null), ".") }; case "-": { const _sc$$3 = _sc$$1.h2; switch (_sc$$3.tag) { case "_::_": { const _sc$$4 = _sc$$3.h1; switch (_sc$$4) { case "-": return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(2), _sc$$0.h2, _sc$$3.h2) }; default: { const sc$$20 = Prelude_isDigit(_sc$$3.h1); switch (sc$$20.tag) { case "False": return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), _sc$$0.h2, Prelude__$3A$3A_(null, _sc$$3.h1, _sc$$3.h2)), h13: Lib_Token_Ident, h14: ( eta ) => (Lib_Tokenizer_rawTokenise_isIdent(arg.h0, _sc$$0.h0, _sc$$0.h1, _sc$$0.h2, _sc$$0.h3, null, eta)), h15: Prelude__$3A$3C_(null, Prelude_Lin(null), "-") }; case "True": return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(2), _sc$$0.h2, _sc$$3.h2), h13: Lib_Token_Number, h14: Prelude_isDigit, h15: Prelude__$3A$3C_(null, Prelude__$3A$3C_(null, Prelude_Lin(null), "-"), _sc$$3.h1) }; } break; } } break; } default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: null, h13: _sc$$1.h1, h14: _sc$$1.h2 }; } break; } default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar", h0: arg.h0, h1: _sc$$0.h0, h2: _sc$$0.h1, h3: _sc$$0.h2, h4: _sc$$0.h3, h5: null, h6: null, h7: null, h8: null, h9: null, h10: null, h11: null, h12: null, h13: _sc$$1.h1, h14: _sc$$1.h2 }; } break; } case "Nil": return { tag: "return", h0: Prelude_Right(null, null, arg.h0) }; } break; } case "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest.doChar": { const sc$$15 = Prelude_elem(null, Prelude_Prelude_Eq$20Prim_Char, arg.h13, Lib_Tokenizer_standalone); switch (sc$$15.tag) { case "False": { let kind; const sc$$16 = Prelude_isDigit(arg.h13); switch (sc$$16.tag) { case "False": { const sc$$17 = Prelude_isUpper(arg.h13); switch (sc$$17.tag) { case "False": { kind = Lib_Token_Ident; break; } case "True": { kind = Lib_Token_UIdent; break; } } break; } case "True": { kind = Lib_Token_Number; break; } } return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: arg.h8, h9: arg.h9, h10: arg.h10, h11: arg.h11, h12: Lib_Tokenizer_TS(arg.h1, arg.h2, arg.h3, Prelude__$3A$3A_(null, arg.h13, arg.h14)), h13: kind, h14: ( eta ) => (Lib_Tokenizer_rawTokenise_isIdent(arg.h0, arg.h1, arg.h2, arg.h3, arg.h4, arg.h5, eta)), h15: Prelude_Lin(null) }; break; } case "True": return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(arg.h1, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(arg.h2)(1), Prelude__$3A$3C_(null, arg.h3, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, arg.h1, arg.h2, arg.h3, arg.h4, arg.h5, arg.h6, arg.h7, arg.h8, Prelude_True, arg.h1, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(arg.h2)(1), Lib_Token_Symbol, Prelude_pack(Prelude__$3A$3A_(null, arg.h13, Prelude_Nil(null))))), arg.h14) }; } break; } case "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest": { const _sc$$0 = arg.h12; const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "_::_": { const sc$$23 = arg.h14(_sc$$1.h1); switch (sc$$23.tag) { case "False": { let kind; const sc$$24 = Data_SnocList_snocelem(null, Prelude_Prelude_Eq$20Prim_Char, "_", arg.h15); switch (sc$$24.tag) { case "False": { kind = arg.h13; break; } case "True": { kind = Lib_Token_MixFix; break; } } return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, _sc$$0.h1, Prelude__$3A$3C_(null, _sc$$0.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, arg.h1, arg.h2, arg.h3, arg.h4, arg.h5, arg.h6, arg.h7, arg.h8, Prelude_True, _sc$$0.h0, Prelude__$2D_(null, Prelude_Prelude_Sub$20Prim_Int)(_sc$$0.h1)(1), kind, Prelude_pack(Prelude__$3C$3E$3E_(null, arg.h15, Prelude_Nil(null))))), Prelude__$3A$3A_(null, _sc$$1.h1, _sc$$1.h2)) }; break; } case "True": return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment.doRest", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: arg.h8, h9: arg.h9, h10: arg.h10, h11: arg.h11, h12: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), _sc$$0.h2, _sc$$1.h2), h13: arg.h13, h14: arg.h14, h15: Prelude__$3A$3C_(null, arg.h15, _sc$$1.h1) }; } break; } case "Nil": return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, _sc$$0.h1, Prelude__$3A$3C_(null, _sc$$0.h2, Lib_Tokenizer_rawTokenise_isIdent_isUIdent_doBacktick_mktok(arg.h0, arg.h1, arg.h2, arg.h3, arg.h4, arg.h5, arg.h6, arg.h7, arg.h8, Prelude_True, _sc$$0.h0, _sc$$0.h1, arg.h13, Prelude_pack(Prelude__$3C$3E$3E_(null, arg.h15, Prelude_Nil(null))))), Prelude_Nil(null)) }; } break; } case "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment": { const _sc$$0 = arg.h11; const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "_::_": { const _sc$$2 = _sc$$1.h1; switch (_sc$$2) { case "-": { const _sc$$3 = _sc$$1.h2; switch (_sc$$3.tag) { case "_::_": { const _sc$$4 = _sc$$3.h1; switch (_sc$$4) { case "/": return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(2), _sc$$0.h2, _sc$$3.h2) }; default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: arg.h8, h9: arg.h9, h10: arg.h10, h11: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), _sc$$0.h2, _sc$$1.h2) }; } break; } default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: arg.h8, h9: arg.h9, h10: arg.h10, h11: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), _sc$$0.h2, _sc$$1.h2) }; } break; } case "\n": return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: arg.h8, h9: arg.h9, h10: arg.h10, h11: Lib_Tokenizer_TS(Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h0)(1), 0, _sc$$0.h2, _sc$$1.h2) }; default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment.blockComment", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: arg.h8, h9: arg.h9, h10: arg.h10, h11: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), _sc$$0.h2, _sc$$1.h2) }; } break; } case "Nil": return { tag: "return", h0: Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$0.h0, _sc$$0.h1)), "EOF in block comment")) }; } break; } case "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick": { const _sc$$0 = arg.h8; const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "_::_": { const _sc$$2 = _sc$$1.h1; switch (_sc$$2) { case "`": { const tok = Lib_Token_MkBounded(null, Lib_Token_Tok(Lib_Token_JSLit, Prelude_pack(Prelude__$3C$3E$3E_(null, arg.h9, Prelude_Nil(null)))), Lib_Token_MkBounds(arg.h1, arg.h2, _sc$$0.h0, _sc$$0.h1)); return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), Prelude__$3A$3C_(null, _sc$$0.h2, tok), _sc$$1.h2) }; break; } case "\n": return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: Lib_Tokenizer_TS(Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h0)(1), 0, _sc$$0.h2, _sc$$1.h2), h9: Prelude__$3A$3C_(null, arg.h9, "\n") }; default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), _sc$$0.h2, _sc$$1.h2), h9: Prelude__$3A$3C_(null, arg.h9, _sc$$1.h1) }; } break; } case "Nil": return { tag: "return", h0: Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC("", Prelude__$2C_(null, null, _sc$$0.h0, _sc$$0.h1)), "EOF in backtick string")) }; } break; } case "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment": { const _sc$$0 = arg.h10; const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "_::_": { const _sc$$2 = _sc$$1.h1; switch (_sc$$2) { case "\n": return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h0)(1), 0, _sc$$0.h2, _sc$$1.h2) }; default: return { tag: "Lib.Tokenizer.rawTokenise.isIdent.isUIdent.doBacktick.mktok.lineComment", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: arg.h3, h4: arg.h4, h5: arg.h5, h6: arg.h6, h7: arg.h7, h8: arg.h8, h9: arg.h9, h10: Lib_Tokenizer_TS(_sc$$0.h0, Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(_sc$$0.h1)(1), _sc$$0.h2, _sc$$1.h2) }; } break; } case "Nil": return { tag: "Lib.Tokenizer.rawTokenise", h0: Lib_Tokenizer_TS(_sc$$0.h0, _sc$$0.h1, _sc$$0.h2, Prelude_Nil(null)) }; } break; } } }; +const Lib_Tokenizer_rawTokenise = ( _$$0 ) => (bouncer(Lib_Tokenizer_REC_rawTokenise, { tag: "Lib.Tokenizer.rawTokenise", h0: _$$0 })); const Lib_Tokenizer_tokenise = ( _$$0, _$$1 ) => { const sc$$2 = Lib_Tokenizer_rawTokenise(Lib_Tokenizer_TS(0, 0, Prelude_Lin(null), Prelude_unpack(_$$1))); switch (sc$$2.tag) { case "Right": { const _sc$$0 = sc$$2.h2; const _sc$$1 = _sc$$0.h3; switch (_sc$$1.tag) { case "Nil": return Prelude_Right(null, null, Prelude__$3C$3E$3E_(null, _sc$$0.h2, Prelude_Nil(null))); default: return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC(_$$0, Prelude__$2C_(null, null, _sc$$0.h0, _sc$$0.h1)), "Extra toks")); } break; } case "Left": { const _sc$$0 = sc$$2.h2; switch (_sc$$0.tag) { case "E": { const _sc$$1 = _sc$$0.h0; return Prelude_Left(null, null, Lib_Common_E(Lib_Common_MkFC(_$$0, _sc$$1.h1), _sc$$0.h1)); break; } default: return Prelude_Left(null, null, sc$$2.h2); } break; } } }; const Node_readFile = (fn) => (w) => { let fs = require('fs') @@ -1074,17 +1190,15 @@ const Node_readFile = (fn) => (w) => { }; const Lib_Types_emptyModCtx = Lib_Types_MkModCtx(Data_SortedMap_EmptyMap(null, null), Lib_Types_MC(Data_SortedMap_EmptyMap(null, null), 0, Lib_Types_NoCheck), Data_SortedMap_EmptyMap(null, null)); const Main_processModule = ( _$$0, _$$1, _$$2, _$$3 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => { const modns = Prelude_snoc(null, _$$3.h0, _$$3.h1); const name = Prelude_joinBy(".", modns); const sc$$10 = Data_SortedMap_lookupMap(null, null, Prelude_Prelude_Ord$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Ord$20Prim_String), modns, Lib_Types__modules(top)); switch (sc$$10.tag) { case "Nothing": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_modifyTop(( top1 ) => (Lib_Types_MkTop(Data_SortedMap_updateMap(null, null, Prelude_Prelude_Ord$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Ord$20Prim_String), modns, Lib_Types_emptyModCtx, Lib_Types__modules(top1)), Lib_Types__imported(top1), Lib_Types__ns(top1), Lib_Types__defs(top1), Lib_Types__metaCtx(top1), Lib_Types__verbose(top1), Lib_Types__errors(top1), Lib_Types__ops(top1)))), ( _ ) => { const fn = Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude_joinBy("/", Prelude__$3A$3A_(null, _$$1, _$$3.h0)))(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("/")(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(_$$3.h1)(".newt"))); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_liftIO(null, Lib_Types_Prelude_HasIO$20Lib_Types_M)(null)(Node_readFile(fn)), ( $$sc ) => { switch ($$sc.tag) { case "Right": { const sc$$19 = Lib_Tokenizer_tokenise(fn, $$sc.h2); switch (sc$$19.tag) { case "Right": { const sc$$23 = Lib_Parser_Impl_partialParse(null, fn, Lib_Parser_parseModHeader, Lib_Types__ops(top), sc$$19.h2); switch (sc$$23.tag) { case "Right": { const _sc$$0 = sc$$23.h2; const _sc$$1 = _sc$$0.h2; const _sc$$2 = _sc$$0.h3; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_log(1, ( _1 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("scan imports for module ")(_sc$$1.h3))(""))), ( _1 ) => { const ns = Prelude_split(_sc$$1.h3, "."); const sc$$41 = Data_List1_unsnoc(null, Data_List1_split1(_sc$$1.h3, ".")); const sc$$46 = Prelude__$3D$3D_(null, Lib_Common_Prelude_Eq$20Lib_Common_QName)(_$$3)(Lib_Common_QN(sc$$41.h2, sc$$41.h3)); switch (sc$$46.tag) { case "True": { const sc$$47 = Lib_Parser_Impl_partialParse(null, fn, Lib_Parser_parseImports, _sc$$2.h2, _sc$$2.h3); switch (sc$$47.tag) { case "Right": { const _sc$$3 = sc$$47.h2; const _sc$$4 = _sc$$3.h3; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, _sc$$3.h2, ( $$case ) => { const sc$$63 = Data_List1_unsnoc(null, Data_List1_split1($$case.h1, ".")); const qname = Lib_Common_QN(sc$$63.h2, sc$$63.h3); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_when(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Prelude_elem(null, Prelude_Prelude_Eq$20Prim_String, $$case.h1, _$$2), ( _2 ) => (Lib_Types_error(null, Lib_Common_emptyFC, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("import loop ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(name)))(" -> "))(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)($$case.h1)))("")))), ( _2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Main_processModule($$case.h0, _$$1, Prelude__$3A$3A_(null, name, _$$2), qname), ( _3 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_split($$case.h1, ".")))))); }), ( imported ) => { const imported1 = Prelude_snoc(null, imported, Main_primNS); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_putStrLn(null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("module ")(_sc$$1.h3))("")), ( _2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_log(1, ( _3 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("MODNS ")(Prelude_show(null, Prelude_Prelude_Show$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Show$20Prim_String))(modns)))), ( _3 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Main_parseDecls(fn, Lib_Types__ops(top1), _sc$$4.h3, Prelude_Lin(null)), ( $$sc1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_newIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types_MC(Data_SortedMap_EmptyMap(null, null), 0, Lib_Types_CheckAll)), ( freshMC ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_modifyTop(( top3 ) => (Lib_Types_MkTop(Lib_Types__modules(top3), imported1, modns, Data_SortedMap_EmptyMap(null, null), freshMC, Lib_Types__verbose(top3), Lib_Types__errors(top3), $$sc1.h3))), ( _4 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_log(1, ( _5 ) => ("process Decls")), ( _5 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(( eta ) => (Main_processModule_tryProcessDecl(_$$0, _$$1, _$$2, _$$3, _$$3.h0, _$$3.h1, null, ns, eta)))(Lib_Elab_collectDecl($$sc1.h2)), ( _6 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top3 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_readIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types__metaCtx(top3)), ( mc ) => { const mod = Lib_Types_MkModCtx(Lib_Types__defs(top3), mc, Lib_Types__ops(top3)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Serialize_dumpModule(_$$3, $$sc.h2, mod), ( _7 ) => { const modules = Data_SortedMap_updateMap(null, null, Prelude_Prelude_Ord$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Ord$20Prim_String), modns, mod, Lib_Types__modules(top3)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Data_IORef_newIORef(null, null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Types_MC(Data_SortedMap_EmptyMap(null, null), 0, Lib_Types_CheckAll)), ( freshMC1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_modifyTop(( top4 ) => (Lib_Types_MkTop(modules, Lib_Types__imported(top4), Lib_Types__ns(top4), Lib_Types__defs(top4), Lib_Types__metaCtx(top4), Lib_Types__verbose(top4), Lib_Types__errors(top4), Lib_Types__ops(top4)))), ( _8 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_liftIO(null, Lib_Types_Prelude_HasIO$20Lib_Types_M)(null)(Data_IORef_readIORef(null, null, Prelude_Prelude_HasIO$20Prelude_IO, Lib_Types__errors(top3))), ( $$sc2 ) => { switch ($$sc2.tag) { case "Nil": { const sc$$85 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Eq$20Prim_String))(_$$2)(Prelude_Nil(null)); switch (sc$$85.tag) { case "False": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_MkUnit), ( _9 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)($$sc.h2))); case "True": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_ProcessDecl_logMetas(Prelude_reverse(null)(Data_SortedMap_listValues(null, null, Lib_Types__metas(mc)))), ( _9 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)($$sc.h2))); } break; } default: return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_for_(null, null, Prelude_Prelude_Traversable$20Prelude_List, Lib_Types_Prelude_Applicative$20Lib_Types_M, null, null, $$sc2, ( err ) => (Prelude_putStrLn(null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Lib_Common_showError($$sc.h2, err)))), ( _9 ) => (Node_exitFailure(null, "Compile failed"))); } }))))); }); }))))))))))))))))))))); }); break; } case "Left": { const _sc$$3 = sc$$47.h2; return Node_exitFailure(null, Lib_Common_showError($$sc.h2, _sc$$3.h2)); break; } } break; } default: return Node_exitFailure(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("ERROR at ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_FC)(_sc$$1.h2)))(": module name "))(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_sc$$1.h3)))(" doesn't match file name "))(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(fn)))("")); } }); break; } case "Left": { const _sc$$0 = sc$$23.h2; return Node_exitFailure(null, Lib_Common_showError($$sc.h2, _sc$$0.h2)); break; } } break; } case "Left": return Node_exitFailure(null, Lib_Common_showError($$sc.h2, sc$$19.h2)); } break; } case "Left": return Node_exitFailure(null, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("ERROR at ")(Prelude_show(null, Lib_Common_Prelude_Show$20Lib_Common_FC)(_$$0)))(": error reading "))(fn))(": "))(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)($$sc.h2)))("")); } }); }); default: return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(""); } })); -const Lib_Util_getBaseDir_baseDir = ( _, _1, _2, _$$3, _$$4 ) => { switch (_$$4.tag) { case "_:<_": switch (_$$3.tag) { case "_:<_": { const sc$$11 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_$$3.h2)(_$$4.h2); switch (sc$$11.tag) { case "False": return Prelude_Left(null, null, "module path doesn't match directory"); case "True": return Lib_Util_getBaseDir_baseDir(_, _1, _2, _$$3.h1, _$$4.h1); } break; } case "Lin": return Prelude_Left(null, null, "module path doesn't match directory"); } break; case "Lin": return Prelude_Right(null, null, Prelude_joinBy("/", Prelude__$3C$3E$3E_(null, _$$3, Prelude_Nil(null)))); } }; -const Prelude_Prelude_Bifunctor$20Prelude__$D7_$2Cbimap = ( a$$0, b$$1, c$$2, d$$3, _$$4, _$$5, _$$6 ) => (Prelude__$2C_(null, null, _$$4(_$$6.h2), _$$5(_$$6.h3))); -const Prelude_MkBifunctor = ( h0, h1 ) => ({ tag: "MkBifunctor", h0: h0, h1: h1 }); -const Prelude_Prelude_Bifunctor$20Prelude__$D7_ = Prelude_MkBifunctor(null, ( a ) => (( b ) => (( c ) => (( d ) => (( eta ) => (( eta1 ) => (( eta2 ) => (Prelude_Prelude_Bifunctor$20Prelude__$D7_$2Cbimap(null, null, null, null, eta, eta1, eta2))))))))); -const Prelude_bimap = ( f$$0, _$$1 ) => (( a ) => (( b ) => (( c ) => (( d ) => (_$$1.h1(null)(null)(null)(null)))))); +const Lib_Util_REC_getBaseDir_baseDir = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Lib.Util.getBaseDir.baseDir": { const _sc$$0 = arg.h4; switch (_sc$$0.tag) { case "_:<_": { const _sc$$1 = arg.h3; switch (_sc$$1.tag) { case "_:<_": { const sc$$11 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(_sc$$1.h2)(_sc$$0.h2); switch (sc$$11.tag) { case "False": return { tag: "return", h0: Prelude_Left(null, null, "module path doesn't match directory") }; case "True": return { tag: "Lib.Util.getBaseDir.baseDir", h0: arg.h0, h1: arg.h1, h2: arg.h2, h3: _sc$$1.h1, h4: _sc$$0.h1 }; } break; } case "Lin": return { tag: "return", h0: Prelude_Left(null, null, "module path doesn't match directory") }; } break; } case "Lin": return { tag: "return", h0: Prelude_Right(null, null, Prelude_joinBy("/", Prelude__$3C$3E$3E_(null, arg.h3, Prelude_Nil(null)))) }; } break; } } }; +const Lib_Util_getBaseDir_baseDir = ( _, _1, _2, _$$3, _$$4 ) => (bouncer(Lib_Util_REC_getBaseDir_baseDir, { tag: "Lib.Util.getBaseDir.baseDir", h0: _, h1: _1, h2: _2, h3: _$$3, h4: _$$4 })); const Prelude_mapFst = ( a$$0, b$$1, c$$2, f$$3, _$$4, _$$5, _$$6 ) => (Prelude_bimap(null, _$$4)(null)(null)(null)(null)(_$$5)(( eta ) => (Prelude_id(null, eta)))(_$$6)); const Data_List1_splitFileName = ( _$$0 ) => { const sc$$1 = Data_List1_split1(_$$0, "."); const _sc$$0 = sc$$1.h2; switch (_sc$$0.tag) { case "Nil": return Prelude__$2C_(null, null, sc$$1.h1, ""); default: return Prelude_mapFst(null, null, null, null, Prelude_Prelude_Bifunctor$20Prelude__$D7_, ( eta ) => (Prelude_joinBy(".", eta)), Data_List1_unsnoc(null, sc$$1)); } }; const Lib_Util_getBaseDir = ( _$$0, _$$1 ) => { const sc$$3 = Data_List1_unsnoc(null, Data_List1_split1(_$$1, ".")); const parts = Data_List1_split1(_$$0, "/"); const sc$$9 = Data_List1_unsnoc(null, parts); const sc$$14 = Data_List1_splitFileName(sc$$9.h3); const parts1 = Data_List1_split1(_$$0, "/"); const sc$$20 = Data_List1_unsnoc(null, parts1); const sc$$25 = Data_List1_unsnoc(null, Data_List1_split1(_$$1, ".")); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_unless(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(sc$$25.h3)(sc$$14.h2), ( _ ) => (Lib_Types_error(null, Lib_Common_MkFC(_$$0, Prelude__$2C_(null, null, 0, 0)), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("module name ")(sc$$25.h3))(" doesn't match "))(sc$$14.h2))("")))), ( _ ) => { const sc$$31 = Lib_Util_getBaseDir_baseDir(_$$0, _$$1, null, Prelude__$3C$3E$3C_(null, Prelude_Lin(null), sc$$20.h2), Prelude__$3C$3E$3C_(null, Prelude_Lin(null), sc$$25.h2)); switch (sc$$31.tag) { case "Right": { let base; const sc$$35 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20Prim_String)(sc$$31.h2)(""); switch (sc$$35.tag) { case "False": { base = sc$$31.h2; break; } case "True": { base = "."; break; } } return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, base, Lib_Common_QN(sc$$25.h2, sc$$25.h3))); break; } case "Left": return Lib_Types_error(null, Lib_Common_MkFC(_$$0, Prelude__$2C_(null, null, 0, 0)), sc$$31.h2); } }); }; const Main_processFile = ( _$$0 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_putStrLn(null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("*** Process ")(_$$0))("")), ( _ ) => { const parts = Data_List1_split1(_$$0, "/"); const sc$$3 = Data_List1_unsnoc(null, parts); let dir; const sc$$8 = Prelude__$3D$3D_(null, Prelude_Prelude_Eq$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Eq$20Prim_String))(sc$$3.h2)(Prelude_Nil(null)); switch (sc$$8.tag) { case "False": { dir = Prelude_joinBy("/", sc$$3.h2); break; } case "True": { dir = "."; break; } } const sc$$9 = Data_List1_splitFileName(sc$$3.h3); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_log(1, ( _1 ) => (Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("")(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(dir)))(" "))(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(sc$$9.h2)))(" "))(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(sc$$9.h3)))(""))), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_liftIO(null, Lib_Types_Prelude_HasIO$20Lib_Types_M)(null)(Node_readFile(_$$0)), ( $$sc ) => { switch ($$sc.tag) { case "Right": { const sc$$20 = Lib_Tokenizer_tokenise(_$$0, $$sc.h2); switch (sc$$20.tag) { case "Right": { const sc$$24 = Lib_Parser_Impl_partialParse(null, _$$0, Lib_Parser_parseModHeader, Data_SortedMap_EmptyMap(null, null), sc$$20.h2); switch (sc$$24.tag) { case "Right": { const _sc$$0 = sc$$24.h2; const _sc$$1 = _sc$$0.h2; const _sc$$2 = _sc$$0.h3; return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Util_getBaseDir(_$$0, _sc$$1.h3), ( $$sc1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_ProcessDecl_processDecl(Main_primNS, Lib_Syntax_PType(Lib_Common_emptyFC, "Int", Prelude_Nothing(null))), ( _2 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_ProcessDecl_processDecl(Main_primNS, Lib_Syntax_PType(Lib_Common_emptyFC, "String", Prelude_Nothing(null))), ( _3 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_ProcessDecl_processDecl(Main_primNS, Lib_Syntax_PType(Lib_Common_emptyFC, "Char", Prelude_Nothing(null))), ( _4 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top ) => { const modules = Data_SortedMap_updateMap(null, null, Prelude_Prelude_Ord$20$28Prelude_List$20BND$3A1$29(null, Prelude_Prelude_Ord$20Prim_String), Main_primNS, Lib_Types_MkModCtx(Lib_Types__defs(top), Lib_Types_MC(Data_SortedMap_EmptyMap(null, null), 0, Lib_Types_CheckAll), Lib_Types__ops(top)), Lib_Types__modules(top)); return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_modifyTop(( top1 ) => (Lib_Types_MkTop(modules, Prelude__$3A$3A_(null, Main_primNS, Prelude_Nil(null)), Prelude_Nil(null), Data_SortedMap_EmptyMap(null, null), Lib_Types__metaCtx(top1), Lib_Types__verbose(top1), Lib_Types__errors(top1), Lib_Types__ops(top1)))), ( _5 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Main_processModule(Lib_Common_emptyFC, $$sc1.h2, Prelude_Nil(null), $$sc1.h3), ( src ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_getTop, ( top1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Main_showErrors(_$$0, src), ( _6 ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_MkUnit))))))))); }))))))))); break; } case "Left": { const _sc$$0 = sc$$24.h2; return Lib_Types_throwError(null, _sc$$0.h2); break; } } break; } case "Left": return Lib_Types_throwError(null, sc$$20.h2); } break; } case "Left": return Lib_Types_error(null, Lib_Common_MkFC(_$$0, Prelude__$2C_(null, null, 0, 0)), Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("error reading ")(_$$0))(": "))(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)($$sc.h2)))("")); } }))); })); const Prelude_isSuffixOf = (pfx, s) => s.endsWith(pfx) ? Prelude_True : Prelude_False; -const Main_cmdLine = ( _$$0 ) => { switch (_$$0.tag) { case "_::_": { const _sc$$0 = _$$0.h1; switch (_sc$$0) { case "--top": return Main_cmdLine(_$$0.h2); case "-v": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_modifyTop(( top ) => (Lib_Types_MkTop(Lib_Types__modules(top), Lib_Types__imported(top), Lib_Types__ns(top), Lib_Types__defs(top), Lib_Types__metaCtx(top), Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(Lib_Types__verbose(top))(1), Lib_Types__errors(top), Lib_Types__ops(top)))), ( _ ) => (Main_cmdLine(_$$0.h2))); case "-o": { const _sc$$1 = _$$0.h2; switch (_sc$$1.tag) { case "_::_": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Main_cmdLine(_sc$$1.h2), ( $$sc ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, Prelude__$3C$7C$3E_(null, Prelude_Prelude_Alternative$20Prelude_Maybe)(null)($$sc.h2)(Prelude_Just(null, _sc$$1.h1)), $$sc.h3)))); default: { const sc$$4 = Prelude_isSuffixOf(".newt", _$$0.h1); switch (sc$$4.tag) { case "True": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Main_cmdLine(_$$0.h2), ( $$sc ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, $$sc.h2, Prelude__$3A$3A_(null, _$$0.h1, $$sc.h3))))); default: return Lib_Types_error(null, Lib_Common_emptyFC, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Bad argument ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_$$0.h1)))("")); } break; } } break; } default: { const sc$$4 = Prelude_isSuffixOf(".newt", _$$0.h1); switch (sc$$4.tag) { case "True": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Main_cmdLine(_$$0.h2), ( $$sc ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, $$sc.h2, Prelude__$3A$3A_(null, _$$0.h1, $$sc.h3))))); default: return Lib_Types_error(null, Lib_Common_emptyFC, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Bad argument ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_$$0.h1)))("")); } break; } } break; } case "Nil": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, Prelude_Nothing(null), Prelude_Nil(null))); } }; +const Main_REC_cmdLine = ( arg ) => { switch (arg.tag) { case "return": return arg.h0; case "Main.cmdLine": { const _sc$$0 = arg.h0; switch (_sc$$0.tag) { case "_::_": { const _sc$$1 = _sc$$0.h1; switch (_sc$$1) { case "--top": return { tag: "Main.cmdLine", h0: _sc$$0.h2 }; case "-v": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Lib_Types_modifyTop(( top ) => (Lib_Types_MkTop(Lib_Types__modules(top), Lib_Types__imported(top), Lib_Types__ns(top), Lib_Types__defs(top), Lib_Types__metaCtx(top), Prelude__$2B_(null, Prelude_Prelude_Add$20Prim_Int)(Lib_Types__verbose(top))(1), Lib_Types__errors(top), Lib_Types__ops(top)))), ( _ ) => (Main_cmdLine(_sc$$0.h2))) }; case "-o": { const _sc$$2 = _sc$$0.h2; switch (_sc$$2.tag) { case "_::_": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Main_cmdLine(_sc$$2.h2), ( $$sc ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, Prelude__$3C$7C$3E_(null, Prelude_Prelude_Alternative$20Prelude_Maybe)(null)($$sc.h2)(Prelude_Just(null, _sc$$2.h1)), $$sc.h3)))) }; default: { const sc$$4 = Prelude_isSuffixOf(".newt", _sc$$0.h1); switch (sc$$4.tag) { case "True": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Main_cmdLine(_sc$$0.h2), ( $$sc ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, $$sc.h2, Prelude__$3A$3A_(null, _sc$$0.h1, $$sc.h3))))) }; default: return { tag: "return", h0: Lib_Types_error(null, Lib_Common_emptyFC, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Bad argument ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_sc$$0.h1)))("")) }; } break; } } break; } default: { const sc$$4 = Prelude_isSuffixOf(".newt", _sc$$0.h1); switch (sc$$4.tag) { case "True": return { tag: "return", h0: Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Main_cmdLine(_sc$$0.h2), ( $$sc ) => (Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, $$sc.h2, Prelude__$3A$3A_(null, _sc$$0.h1, $$sc.h3))))) }; default: return { tag: "return", h0: Lib_Types_error(null, Lib_Common_emptyFC, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("Bad argument ")(Prelude_show(null, Prelude_Prelude_Show$20Prim_String)(_sc$$0.h1)))("")) }; } break; } } break; } case "Nil": return { tag: "return", h0: Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude__$2C_(null, null, Prelude_Nothing(null), Prelude_Nil(null))) }; } break; } } }; +const Main_cmdLine = ( _$$0 ) => (bouncer(Main_REC_cmdLine, { tag: "Main.cmdLine", h0: _$$0 })); const Node_getArgs = Prelude_arrayToList(null, process.argv.slice(1)); const Main_main$27 = (( ) => { const sc$$0 = Node_getArgs; switch (sc$$0.tag) { case "_::_": return Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Main_cmdLine(sc$$0.h2), ( $$sc ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_traverse(null, Prelude_Prelude_Traversable$20Prelude_List)(null)(null)(null)(Lib_Types_Prelude_Applicative$20Lib_Types_M)(Main_processFile)($$sc.h3), ( _ ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Prelude_when(null, Lib_Types_Prelude_Applicative$20Lib_Types_M, Prelude_elem(null, Prelude_Prelude_Eq$20Prim_String, "--top", sc$$0.h2), ( _1 ) => (Prelude__$3E$3E$3D_(null, null, null, Lib_Types_Prelude_Monad$20Lib_Types_M, Main_jsonTopContext, ( json ) => (Prelude_putStrLn(null, Lib_Types_Prelude_HasIO$20Lib_Types_M, Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)(Prelude__$2B$2B_(null, Prelude_Prelude_Concat$20Prim_String)("TOP:")(Lib_Common_renderJson(json)))("")))))), ( _1 ) => { const _sc$$0 = $$sc.h2; switch (_sc$$0.tag) { case "Nothing": return Prelude_pure(null, Lib_Types_Prelude_Monad$20Lib_Types_M)(null)(Prelude_MkUnit); case "Just": return Main_writeSource(_sc$$0.h1); } }))))); default: return Lib_Types_error(null, Lib_Common_emptyFC, "error reading args"); } })(); const Prelude_List = ( h0 ) => ({ tag: "List", h0: h0 }); diff --git a/playground/build b/playground/build index 6c00b43..0c4f791 100755 --- a/playground/build +++ b/playground/build @@ -6,6 +6,6 @@ echo build newt worker esbuild src/worker.ts --bundle --format=esm > public/worker.js esbuild src/frame.ts --bundle --format=esm > public/frame.js echo copy newt -cp ../build/exec/newt.js public +cp ../newt.js public cp -r static/* public (cd samples && zip -r ../public/files.zip .) diff --git a/playground/src/emul.ts b/playground/src/emul.ts index b6d31f9..0a04d5d 100644 --- a/playground/src/emul.ts +++ b/playground/src/emul.ts @@ -1,62 +1,5 @@ import { ZipFile } from "./zipfile"; -class Buffer extends DataView { - static alloc(n: number) { - return new Buffer(new Uint8Array(n).buffer); - } - indexOf(n: number) { - return new Uint8Array(this.buffer).indexOf(n); - } - get length() { - return this.byteLength; - } - slice(start: number, end: number) { - return new Buffer(this.buffer.slice(start, end)); - } - readUInt8(i: number) { - return this.getUint8(i); - } - writeUInt8(val: number, i: number) { - this.setUint8(i, val); - } - write(value: string, start: number, len: number, enc: string) { - // console.log("write", value, start, len, enc); - let buf = new TextEncoder().encode(value); - let ss = 0; - let se = Math.min(len, buf.length); - let ts = start; - for (; ss < se; ss++, ts++) this.setInt8(ts, buf[ss]); - shim.process.__lasterr.errno = 0; - return se; - } - readDoubleLE(i: number) { - return this.getFloat64(i, true); - } - readInt32LE(i: number) { - return this.getInt32(i, true); - } - writeInt32LE(val: number, i: number) { - return this.setInt32(i, val, true); - } - copy(target: Buffer, ts: number, ss: number, se: number) { - for (; ss < se; ss++, ts++) target.setInt8(ts, this.getInt8(ss)); - } - static concat(bufs: Buffer[]) { - let size = bufs.reduce((a, b) => (a += b.byteLength), 0); - let rval = Buffer.alloc(size); - let off = 0; - for (let buf of bufs) { - const view = new Int8Array(rval.buffer); - view.set(new Uint8Array(buf.buffer), off); - off += buf.byteLength; - } - return rval; - } - toString() { - return new TextDecoder().decode(this); - } -} - export interface Handle { name: string; mode: string; @@ -65,28 +8,14 @@ export interface Handle { } interface Process { - platform: string; - stdout: { - write(s: string): void; - }; argv: string[]; exit(_: number): void; - cwd(): string; - env: Record; - __lasterr: { errno: number }; } export interface NodeShim { stdout: string; archive?: ZipFile; process: Process; files: Record; - fds: Handle[]; - tty: { - isatty(): number; - }; - os: { - platform(): string; - }; fs: any; } export let shim: NodeShim = { @@ -94,153 +23,32 @@ export let shim: NodeShim = { archive: undefined, stdout: "", files: {}, - fds: [], - tty: { - isatty() { - return 0; - }, - }, - os: { - platform() { - return "linux"; - }, - }, fs: { - // TODO - Idris is doing readdir, we should implement that - opendirSync(name: string) { - let fd = shim.fds.findIndex((x) => !x); - if (fd < 0) fd = shim.fds.length; - console.log("openDir", name); - shim.process.__lasterr.errno = 0; - return fd; - }, - mkdirSync(name: string) { - console.log("mkdir", name); - shim.process.__lasterr.errno = 0; - return 0; - }, - openSync(name: string, mode: string) { - console.log("open", name, mode); - if (name.startsWith('./')) name = name.slice(2) - let te = new TextEncoder(); - - let fd = shim.fds.findIndex((x) => !x); - if (fd < 0) fd = shim.fds.length; - let buf: Uint8Array; - let pos = 0; - if (mode == "w") { - buf = new Uint8Array(0); + readFileSync(name: string, encoding: string, enc?: string) { + if (name.startsWith("./")) name = name.slice(2); + let data: Uint8Array | undefined = shim.files[name] + if (!data && shim.archive?.entries[name]) { + // keep a copy of the uncompressed version for speed + data = shim.files[name] = shim.archive.getData(name)!; + } + if (data) { + return new TextDecoder().decode(data); } else { - // TODO, we need to involve localStorage when the window does multiple files and persists - if (shim.files[name]) { - buf = shim.files[name]; - } else if (shim.archive?.entries[name]) { - // keep a copy of the uncompressed version for speed - buf = shim.files[name] = shim.archive.getData(name)!; - } else { - shim.process.__lasterr.errno = 1; - throw new Error(`${name} not found`); - } - } - shim.process.__lasterr.errno = 0; - shim.fds[fd] = { buf, pos, mode, name }; - // we'll mutate the pointer as stuff is read - return fd; - }, - writeSync(fd: number, line: string | Buffer) { - try { - let handle = shim.fds[fd]; - if (!handle) throw new Error(`bad fd ${fd}`); - - let buf2: ArrayBuffer; - if (typeof line === "string") { - buf2 = new TextEncoder().encode(line); - let newbuf = new Uint8Array(handle.buf.byteLength + buf2.byteLength); - newbuf.set(new Uint8Array(handle.buf)); - newbuf.set(new Uint8Array(buf2), handle.buf.byteLength); - handle.buf = newbuf; - shim.process.__lasterr.errno = 0; - } else if (line instanceof Buffer) { - let start = arguments[2]; - let len = arguments[3]; - buf2 = line.buffer.slice(start, start + len); - let newbuf = new Uint8Array(handle.buf.byteLength + buf2.byteLength); - newbuf.set(new Uint8Array(handle.buf)); - newbuf.set(new Uint8Array(buf2), handle.buf.byteLength); - handle.buf = newbuf; - shim.process.__lasterr.errno = 0; - return len; - } else { - debugger; - throw new Error(`write ${typeof line} not implemented`); - } - } catch (e) { - debugger; - throw e; + throw new Error(`${name} not found`); } }, - chmodSync(fn: string, mode: number) {}, - fstatSync(fd: number) { - let hand = shim.fds[fd]; - return { size: hand.buf.byteLength }; - }, - readSync(fd: number, buf: Buffer, start: number, len: number) { - let hand = shim.fds[fd]; - let avail = hand.buf.length - hand.pos; - let rd = Math.min(avail, len); - let src = hand.buf; - let dest = new Uint8Array(buf.buffer); - for (let i = 0; i < rd; i++) dest[start + i] = src[hand.pos++]; - return rd; - }, - closeSync(fd: number) { - let handle = shim.fds[fd]; - // console.log("close", handle.name); - if (handle.mode == "w") { - shim.files[handle.name] = handle.buf; - } - delete shim.fds[fd]; + writeFileSync(name: string, data: string, enc?: string) { + shim.files[name] = new TextEncoder().encode(data) }, }, process: { - platform: "linux", argv: ["", ""], - stdout: { - write(s) { - shim.stdout += s; - }, - }, exit(v: number) { - console.log("exit", v); + throw new Error(`exit ${v}`) }, - cwd() { - return ""; - }, - env: { - NO_COLOR: "true", - IDRIS2_CG: "javascript", - IDRIS2_PREFIX: "", - }, - __lasterr: { - errno: 0, - }, - // stdin: { fd: 0 }, - }, + } }; -// Spy on Idris' calls to see what we need to fill in -shim.fs = new Proxy(shim.fs, { - get(target, prop, receiver) { - if (prop in target) { - return (target as any)[prop]; - } - let err = new Error(`IMPLEMENT fs.${String(prop)}`); - // idris support eats the exception - console.error(err); - throw err; - }, -}); - // we intercept require to return our fake node modules declare global { interface Window { diff --git a/playground/src/global.d.ts b/playground/src/global.d.ts index 5ef7a53..415c564 100644 --- a/playground/src/global.d.ts +++ b/playground/src/global.d.ts @@ -6,5 +6,5 @@ declare global { // let files: Record; // let process: Process; - let newtMain: () => unknown; + let Main_main: () => unknown; } diff --git a/playground/src/preload.ts b/playground/src/preload.ts index 3554283..7c1b282 100644 --- a/playground/src/preload.ts +++ b/playground/src/preload.ts @@ -8,8 +8,6 @@ export let preload = (async function () { let data = await res.arrayBuffer(); archive = new ZipFile(new Uint8Array(data)); let entries = archive.entries; - let count = Object.keys(entries).length; - console.log(`preloaded ${count} files`); } else { console.error( `fetch of files.zip got status ${res.status}: ${res.statusText}` diff --git a/playground/src/worker.ts b/playground/src/worker.ts index 98904e0..4860821 100644 --- a/playground/src/worker.ts +++ b/playground/src/worker.ts @@ -2,20 +2,23 @@ import { shim } from "./emul"; import { archive, preload } from "./preload"; import { CompileReq, CompileRes } from "./types"; +console.log = (m) => { + shim.stdout += '\n' + m +} + const handleMessage = async function (ev: { data: CompileReq }) { console.log("message", ev.data); await preload; shim.archive = archive; let { src, fileName } = ev.data; const outfile = "out.js"; - shim.process.argv = ["", "", fileName, "-o", outfile, "--top"]; - console.log("Using args", shim.process.argv); + shim.process.argv = ["browser", "newt", fileName, "-o", outfile, "--top"]; shim.files[fileName] = new TextEncoder().encode(src); shim.files[outfile] = new TextEncoder().encode("No JS output"); shim.stdout = ""; const start = +new Date(); try { - newtMain(); + Main_main(); } catch (e) { // make it clickable in console console.error(e); diff --git a/src/Lib/Compile.newt b/src/Lib/Compile.newt index 87c438c..795e934 100644 --- a/src/Lib/Compile.newt +++ b/src/Lib/Compile.newt @@ -126,7 +126,7 @@ termToJS env (CBnd k) f = case getAt (cast k) env.jsenv of (Just e) => f e Nothing => fatalError "Bad bounds" termToJS env CErased f = f JUndefined -termToJS env (CRaw str) f = f (Raw str) +termToJS env (CRaw str _) f = f (Raw str) termToJS env (CLam nm t) f = let (nm',env') = freshName' nm env -- "\{nm}$\{show $ length env}" in f $ JLam (nm' :: Nil) (termToJS env' t JReturn) @@ -334,18 +334,37 @@ getEntries acc name = do -- sort names by dependencies -- In JS this is only really needed for references that don't fall -- under a lambda. -sortedNames : SortedMap QName Def → QName → List QName +sortedNames : SortedMap QName CExp → QName → List QName sortedNames defs qn = go Nil Nil qn where + getBody : CAlt → CExp + getBody (CConAlt _ _ t) = t + getBody (CLitAlt _ t) = t + getBody (CDefAlt t) = t + + getNames : List QName → CExp → List QName + getNames acc (CLam _ t) = getNames acc t + getNames acc (CFun _ t) = getNames acc t + getNames acc (CApp t ts _) = foldl getNames acc (t :: ts) + getNames acc (CCase t alts) = foldl getNames acc $ t :: map getBody alts + getNames acc (CRef qn) = qn :: acc + getNames acc (CLet _ t u) = getNames (getNames acc t) u + getNames acc (CLetRec _ t u) = getNames (getNames acc t) u + getNames acc (CConstr _ ts) = foldl getNames acc ts + getNames acc (CRaw _ deps) = deps ++ acc + -- wrote these out so I get an error when I add a new constructor + getNames acc (CLit _) = acc + getNames acc (CMeta _) = acc + getNames acc (CBnd _) = acc + getNames acc CErased = acc + go : List QName → List QName → QName → List QName go loop acc qn = -- O(n^2) it would be more efficient to drop qn from the map if elem qn loop || elem qn acc then acc else case lookupMap' qn defs of Nothing => acc - Just (Fn tm) => qn :: foldl (go $ qn :: loop) acc (getNames tm Nil) - Just (PrimFn src _ used) => qn :: foldl (go $ qn :: loop) acc used - Just def => qn :: acc + Just exp => qn :: foldl (go $ qn :: loop) acc (getNames Nil exp) eraseEntries : {{Ref2 Defs St}} → M Unit eraseEntries = do @@ -372,11 +391,10 @@ process name = do eraseEntries liftWhere entries <- readIORef ref - let names = sortedNames entries name exprs <- mapM defToCExp $ toList entries let cexpMap = foldMap const EmptyMap exprs - -- TCO here on cexpMap - tailCallOpt cexpMap + cexpMap <- tailCallOpt cexpMap + let names = sortedNames cexpMap name pure $ map cexpToDoc $ mapMaybe (\x => lookupMap x cexpMap) names compile : M (List Doc) diff --git a/src/Lib/CompileExp.newt b/src/Lib/CompileExp.newt index e5e0e78..1b8530e 100644 --- a/src/Lib/CompileExp.newt +++ b/src/Lib/CompileExp.newt @@ -41,7 +41,7 @@ data CExp : U where -- Data / type constructor CConstr : Name -> List CExp -> CExp -- Raw javascript for `pfunc` - CRaw : String -> CExp + CRaw : String -> List QName -> CExp -- I'm counting Lam in the term for arity. This matches what I need in -- code gen. @@ -160,5 +160,5 @@ defToCExp (qn, Axiom) = pure $ (qn, CErased) defToCExp (qn, DCon arity _) = pure $ (qn, compileDCon qn arity) defToCExp (qn, TCon arity _) = pure $ (qn, compileDCon qn arity) defToCExp (qn, PrimTCon arity) = pure $ (qn, compileDCon qn arity) -defToCExp (qn, PrimFn src _ _) = pure $ (qn, CRaw src) +defToCExp (qn, PrimFn src _ deps) = pure $ (qn, CRaw src deps) defToCExp (qn, Fn tm) = (_,_ qn) <$> compileFun tm diff --git a/src/Lib/TCO.newt b/src/Lib/TCO.newt index 78922ce..9f1327c 100644 --- a/src/Lib/TCO.newt +++ b/src/Lib/TCO.newt @@ -8,17 +8,17 @@ import Lib.Types import Lib.CompileExp import Data.SortedMap --- We need CompileExp here, so we know if it's --- fully applied, needs eta, etc. --- Maybe we should move Ref2 Defs over to CExp? --- But we'll need CExp for constructors, etc. --- I _could_ collect a stack and look up arity, but --- at the next stage, we'd need to fake up constructor --- records +/- + This is modeled after Idris' tail call optimization written by Stefan Hoeck. + We collect strongly connected components of the tail call graph, + defunctionalize it (make a data type modelling function calls and "return"), + and wrap it in a trampoline. + +-/ + +-- Find names of applications in tail position tailNames : CExp → List QName --- This is tricky, we need to skip the first CLam, but --- a deeper one is a return value tailNames (CApp (CRef name) args 0) = name :: Nil tailNames (CCase _ alts) = join $ map altTailNames alts where @@ -28,7 +28,7 @@ tailNames (CCase _ alts) = join $ map altTailNames alts altTailNames (CLitAlt _ exp) = tailNames exp tailNames (CLet _ _ t) = tailNames t tailNames (CLetRec _ _ t) = tailNames t -tailNames (CConstr _ args) = Nil -- join $ map tailNames args +tailNames (CConstr _ args) = Nil tailNames (CBnd _) = Nil tailNames (CFun _ tm) = tailNames tm tailNames (CLam _ _) = Nil @@ -38,35 +38,72 @@ tailNames (CRef _) = Nil tailNames CErased = Nil tailNames (CLit _) = Nil tailNames (CMeta _) = Nil -tailNames (CRaw _) = Nil +tailNames (CRaw _ _) = Nil -/- -(CFun ["_", "_", "_$2", "_$3"] - (CCase (CBnd 0) [ - (CConAlt "_::_" ["a$4", "_$5", "_$6"] - (CApp (CRef "Prelude.reverse.go") - [(CBnd 6), (CBnd 5), (CApp (CRef "Prelude._::_") [(CErased), (CBnd 1), (CBnd 4)] 0), (CBnd 0)] 0)), (CConAlt "Nil" ["a$4"] (CBnd 2))])) +-- rewrite tail calls to return an object +rewriteTailCalls : List QName → CExp → CExp +rewriteTailCalls nms tm = case tm of + CApp (CRef nm) args 0 => + if elem nm nms + then CConstr (show nm) args + else CConstr "return" (tm :: Nil) + CLetRec nm t u => CLetRec nm t $ rewriteTailCalls nms u + CLet nm t u => CLet nm t $ rewriteTailCalls nms u + CCase sc alts => CCase sc $ map rewriteAlt alts + tm => CConstr "return" (tm :: Nil) + where + rewriteAlt : CAlt -> CAlt + rewriteAlt (CConAlt nm args t) = CConAlt nm args $ rewriteTailCalls nms t + rewriteAlt (CDefAlt t) = CDefAlt $ rewriteTailCalls nms t + rewriteAlt (CLitAlt lit t) = CLitAlt lit $ rewriteTailCalls nms t --/ +-- the name of our trampoline +bouncer : QName +bouncer = QN Nil "bouncer" +doOptimize : List (QName × CExp) → M (List (QName × CExp)) +doOptimize fns = do + splitFuns <- traverse splitFun fns + let nms = map fst fns + let alts = CConAlt "return" ("rval" :: Nil) (CBnd 0) :: map (mkAlt nms) splitFuns + recName <- mkRecName nms + let recfun = CFun ("arg" :: Nil) $ CCase (CBnd 0) alts + wrapped <- traverse (mkWrap recName) fns + pure $ (recName, recfun) :: wrapped + where + mkWrap : QName → QName × CExp → M (QName × CExp) + mkWrap recName (qn, CFun args _) = do + let arglen = length' args + let arg = CConstr (show qn) $ map (\k => CBnd (arglen - k - 1)) (range 0 arglen) + let body = CApp (CRef bouncer) (CRef recName :: arg :: Nil) 0 + pure $ (qn, CFun args body) + mkWrap _ (qn, _) = error emptyFC "error in mkWrap: \{show qn} not a CFun" + + mkRecName : List QName → M QName + mkRecName Nil = error emptyFC "INTERNAL ERROR: Empty List in doOptimize" + mkRecName (QN ns nm :: _) = pure $ QN ns "REC_\{nm}" + + mkAlt : List QName → (QName × List Name × CExp) -> CAlt + mkAlt nms (qn, args, tm) = CConAlt (show qn) args (rewriteTailCalls nms tm) + + splitFun : (QName × CExp) → M (QName × List Name × CExp) + splitFun (qn, CFun args body) = pure (qn, args, body) + splitFun (qn, _) = error emptyFC "TCO error: \{show qn} not a function" ExpMap : U ExpMap = SortedMap QName CExp --- Need to switch everything to QName tailCallOpt : ExpMap → M ExpMap tailCallOpt expMap = do - putStrLn "TODO TCO" - let blah = map (bimap id tailNames) (toList expMap) - let out = tarjan blah - for (toList expMap) $ \ foo => case foo of - (qn, cexp) => do - liftIO $ putStrLn "--- \{show qn}" - liftIO $ debugLog cexp - liftIO $ debugLog $ tailNames cexp - -- everything is pointing to itself, I don't want that unless it actually does.. - for out $ \ names => liftIO $ debugLog names - - -- liftIO $ debugLog out - pure expMap + let graph = map (bimap id tailNames) (toList expMap) + let groups = tarjan graph + foldlM processGroup expMap groups + where + doUpdate : ExpMap → QName × CExp → ExpMap + doUpdate acc (k,v) = updateMap k v acc + processGroup : ExpMap → List QName → M ExpMap + processGroup expMap names = do + let pairs = mapMaybe (flip lookupMap expMap) names + updates <- doOptimize pairs + pure $ foldl doUpdate expMap updates diff --git a/src/Main.newt b/src/Main.newt index e180cb7..18bf3a8 100644 --- a/src/Main.newt +++ b/src/Main.newt @@ -52,7 +52,8 @@ writeSource fn = do docs <- compile let src = unlines $ ( "\"use strict\";" - :: "const PiType = (h0, h1) => ({ tag: \"PiType\", h0, h1 })" + :: "const PiType = (h0, h1) => ({ tag: \"PiType\", h0, h1 });" + :: "const bouncer = (f,ini) => { let obj = ini; while (obj.tag !== 'return') obj = f(obj); return obj.h0 };" :: Nil) ++ map (render 90 ∘ noAlt) docs (Right _) <- liftIO {M} $ writeFile fn src @@ -229,7 +230,7 @@ cmdLine (fn :: args) = do main' : M Unit main' = do - let (arg0 :: args) = getArgs + (arg0 :: args) <- liftIO {M} $ getArgs | _ => error emptyFC "error reading args" (out, files) <- cmdLine args traverse processFile files diff --git a/src/Node.newt b/src/Node.newt index b24e6d6..cf47679 100644 --- a/src/Node.newt +++ b/src/Node.newt @@ -2,8 +2,7 @@ module Node import Prelude --- REVIEW - should this be IO (List String) -pfunc getArgs uses (arrayToList) : List String := `Prelude_arrayToList(null, process.argv.slice(1))` +pfunc getArgs uses (arrayToList MkIORes) : IO (List String) := `(w) => Prelude_MkIORes(null, Prelude_arrayToList(null, process.argv.slice(1)), w)` pfunc readFile uses (MkIORes Left Right) : (fn : String) -> IO (Either String String) := `(fn) => (w) => { let fs = require('fs') let result