--- parse tree --- [ Code "test/typ/math/root-05.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/root-05.typ" ( line 1 , column 47 ) (FuncCall (Ident (Identifier "repr")) [ NormalArg (Ident (Identifier "x")) ]) , Space , Text "/" , Text "=" , Space , Code "test/typ/math/root-05.typ" ( line 1 , column 59 ) (FuncCall (Ident (Identifier "repr")) [ NormalArg (Ident (Identifier "y")) ]) , Text ")" ]) ) ] ])))) , SoftBreak , Comment , Equation True [ Code "test/typ/math/root-05.typ" ( line 3 , column 3 ) (FuncCall (Ident (Identifier "root")) [ NormalArg (Block (Content [ MAttach Nothing (Just (Text "3")) (Text "2") ])) ]) , Text "=" , Code "test/typ/math/root-05.typ" ( line 3 , column 10 ) (FuncCall (Ident (Identifier "sqrt")) [ BlockArg [ MAttach Nothing (Just (Text "3")) (Text "2") ] ]) ] , SoftBreak , Equation True [ Code "test/typ/math/root-05.typ" ( line 4 , column 3 ) (Ident (Identifier "root")) , MGroup (Just "(") (Just ")") [ Text "x" , Text "+" , Text "y" ] , Code "test/typ/math/root-05.typ" ( line 4 , column 10 ) (Ident (Identifier "quad")) , Text "\8731" , Text "x" , Code "test/typ/math/root-05.typ" ( line 4 , column 18 ) (Ident (Identifier "quad")) , Text "\8732" , Text "x" ] , SoftBreak , Equation True [ MGroup (Just "(") (Just ")") [ Code "test/typ/math/root-05.typ" ( line 5 , column 4 ) (FuncCall (Ident (Identifier "root")) [ NormalArg (Block (Content [ Text "2" ])) ]) , Text "+" , Text "3" ] , Text "=" , MGroup (Just "(") (Just ")") [ Code "test/typ/math/root-05.typ" ( line 5 , column 13 ) (FuncCall (Ident (Identifier "sqrt")) [ BlockArg [ Text "2" ] ]) , Text "+" , Text "3" ] ] , ParBreak ] --- evaluated --- document(body: { text(body: [ ]), math.equation(block: true, body: { math.root(index: math.attach(b: none, base: text(body: [2]), t: text(body: [3]))), text(body: [=]), math.sqrt(radicand: math.attach(b: none, base: text(body: [2]), t: text(body: [3]))) }, numbering: none), text(body: [ ]), math.equation(block: true, body: { math.lr(body: ({ [(], text(body: [x]), text(body: [+]), text(body: [y]), [)] })), text(body: [ ]), text(body: [∛]), text(body: [x]), text(body: [ ]), text(body: [∜]), text(body: [x]) }, numbering: none), text(body: [ ]), math.equation(block: true, body: { math.lr(body: ({ [(], math.root(index: text(body: [2])), text(body: [+]), text(body: [3]), [)] })), text(body: [=]), math.lr(body: ({ [(], math.sqrt(radicand: text(body: [2])), text(body: [+]), text(body: [3]), [)] })) }, numbering: none), parbreak() })