use language::{TokenError, ParseError}; use std::rc::Rc; #[allow(dead_code)] #[derive(Debug)] pub enum Token { Newline, Semicolon, LParen, RParen, LSquareBracket, RSquareBracket, LCurlyBrace, RCurlyBrace, Comma, Period, Colon, Digit(u8), StrLiteral(Rc), Identifier(Rc), Operator(Rc), } pub fn tokenize(input: &str) -> Result, TokenError> { Ok(vec!()) } /* Schala EBNF grammar type alias = type = struct { : ,* } type = Variant1 | Variant2(type, type) | Variant3 struct { } '' = literal, all other symbols are nonterminals program := (statement delimiter ?)* delimiter := 'Newline' | ';' statement := declaration | expression declaration := module | function | type_decl type_decl := 'type' type_format type_format := 'alias' '=' type | type_constructor type_constructor := capital_ident '=' type_rhs type_rhs := struct_decl | type_variant ('|' type_variant)* struct_decl := 'struct' '{' (ident ':' type)* '}' type_variant := capital_ident | tuple_type | capital_ident struct_decl tuple_type := // something like Variant(a,b) type := // something like Type[A[b]] ascription := expression (':' type)+ function := 'fn' prototype '{' (statement)* '}' prototype := identifier '(' identlist ')' identlist := identifier (',' identifier)* | ε declaration := FN prototype LCurlyBrace (statement)* RCurlyBrace prototype := identifier LParen identlist RParen identlist := Ident (Comma Ident)* | ε exprlist := Expression (Comma Expression)* | ε itemlist := Ident COLON Expression (Comma Ident COLON Expression)* | ε expression := postop_expression (op postop_expression)* postop_expression := primary_expression postop primary_expression := number_expr | String | identifier_expr | paren_expr | conditional_expr | while_expr | lambda_expr | list_expr | struct_expr number_expr := (PLUS | MINUS ) number_expr | Number identifier_expr := call_expression | Variable list_expr := LSquareBracket exprlist RSquareBracket struct_expr := LCurlyBrace itemlist RCurlyBrace call_expression := Identifier LParen exprlist RParen while_expr := WHILE primary_expression LCurlyBrace (expression delimiter)* RCurlyBrace paren_expr := LParen expression RParen conditional_expr := IF expression LCurlyBrace (expression delimiter)* RCurlyBrace (LCurlyBrace (expresion delimiter)* RCurlyBrace)? lambda_expr := FN LParen identlist RParen LCurlyBrace (expression delimiter)* RCurlyBrace lambda_call := | LParen exprlist RParen postop := ε | LParen exprlist RParen | LBracket expression RBracket op := '+', '-', etc. */ #[allow(dead_code)] #[derive(Debug)] pub struct AST { } #[allow(dead_code)] pub fn parse(input: Vec) -> Result { Ok(AST { }) }