--- parse tree --- [ Code "test/typ/math/op-02.typ" ( line 1 , column 2 ) (Let (BasicBind (Just (Identifier "test"))) (FuncExpr [ NormalParam (Identifier "x") , NormalParam (Identifier "y") ] (Block (CodeBlock [ If [ ( Equals (Ident (Identifier "x")) (Ident (Identifier "y")) , Block (Content [ Text "\9989" ]) ) , ( Literal (Boolean True) , Block (Content [ Text "\10060" , Text "(" , Code "test/typ/math/op-02.typ" ( line 1 , column 47 ) (FuncCall (Ident (Identifier "repr")) [ NormalArg (Ident (Identifier "x")) ]) , Space , Text "/" , Text "=" , Space , Code "test/typ/math/op-02.typ" ( line 1 , column 59 ) (FuncCall (Ident (Identifier "repr")) [ NormalArg (Ident (Identifier "y")) ]) , Text ")" ]) ) ] ])))) , SoftBreak , Comment , Code "test/typ/math/op-02.typ" ( line 3 , column 2 ) (Set (Ident (Identifier "text")) [ KeyValArg (Identifier "font") (Literal (String "New Computer Modern")) ]) , SoftBreak , Text "Discuss" , Space , Equation False [ MAttach (Just (MGroup Nothing Nothing [ Text "n" , Code "test/typ/math/op-02.typ" ( line 4 , column 16 ) (FieldAccess (Ident (Identifier "r")) (Ident (Identifier "arrow"))) , Code "test/typ/math/op-02.typ" ( line 4 , column 18 ) (Ident (Identifier "oo")) ])) Nothing (Code "test/typ/math/op-02.typ" ( line 4 , column 10 ) (Ident (Identifier "lim"))) , MFrac (Text "1") (Text "n") ] , Space , Text "now" , Text "." , SoftBreak , Equation True [ MAttach (Just (MGroup Nothing Nothing [ Text "n" , Code "test/typ/math/op-02.typ" ( line 5 , column 9 ) (FieldAccess (Ident (Identifier "r")) (Ident (Identifier "arrow"))) , Code "test/typ/math/op-02.typ" ( line 5 , column 11 ) (Ident (Identifier "infinity")) ])) Nothing (Code "test/typ/math/op-02.typ" ( line 5 , column 3 ) (Ident (Identifier "lim"))) , MFrac (Text "1") (Text "n") , Text "=" , Text "0" ] , ParBreak ] --- evaluated --- document(body: { text(body: [ ]), text(body: [ Discuss ], font: "New Computer Modern"), math.equation(block: false, body: { math.attach(b: { text(body: [n], font: "New Computer Modern"), text(body: [→], font: "New Computer Modern"), text(body: [∞], font: "New Computer Modern") }, base: math.op(limits: true, text: "lim"), t: none), math.frac(denom: text(body: [n], font: "New Computer Modern"), num: text(body: [1], font: "New Computer Modern")) }, numbering: none), text(body: [ now. ], font: "New Computer Modern"), math.equation(block: true, body: { math.attach(b: { text(body: [n], font: "New Computer Modern"), text(body: [→], font: "New Computer Modern"), text(body: [∞], font: "New Computer Modern") }, base: math.op(limits: true, text: "lim"), t: none), math.frac(denom: text(body: [n], font: "New Computer Modern"), num: text(body: [1], font: "New Computer Modern")), text(body: [=], font: "New Computer Modern"), text(body: [0], font: "New Computer Modern") }, numbering: none), parbreak() })