use super::ast::var_binding::Binding; use super::utils::{parse_token_type, try_operator}; use super::{expression, ParsingError, ParsingResult}; use crate::error_handling::SyntaxError; use crate::lexic::token::{Token, TokenType}; /* binding = val binding | var binding val binding = "val", datatype?, binding remainder | datatype, binding remainder var binding = "var", datatype?, binding remainder binding remainder = identifier, "=", expression */ pub fn try_parse<'a>(tokens: &'a Vec, pos: usize) -> ParsingResult { let mut current_pos = pos; /* * val/var keyword */ let (is_var, binding_token, next_pos) = 'token: { // check for VAL if let Ok((val_token, next_pos)) = parse_token_type(tokens, current_pos, TokenType::VAL) { break 'token (false, Some(val_token), next_pos); }; // check for VAR match parse_token_type(tokens, current_pos, TokenType::VAR) { Ok((var_token, next_pos)) => (true, Some(var_token), next_pos), // If a VAR is not found it is still possible that the binding is an implicit VAL _ => (false, None, current_pos), } }; current_pos = next_pos; /* * datatype */ let (datatype, next_pos) = match parse_token_type(tokens, current_pos, TokenType::Datatype) { Ok((t, next)) => (Some(t), next), _ => (None, current_pos), }; current_pos = next_pos; // Here: // If the binding is None and the datatype is None, then we didn't match a binding if binding_token.is_none() && datatype.is_none() { return Err(ParsingError::Unmatched); } /* * identifier */ let (identifier, next_pos) = match parse_token_type(tokens, current_pos, TokenType::Identifier) { Ok((t, n)) => (t, n), Err(ParsingError::Mismatch(token)) => { // The parser found a token, but it's not an identifier return Err(ParsingError::Err(SyntaxError { error_start: token.position, error_end: token.get_end_position(), reason: "??".into(), })); } Err(ParsingError::Err(error)) => { return Err(ParsingError::Err(error)); } _ => { // The parser didn't find an Identifier after VAL/VAR or the Datatype match (binding_token, datatype) { (Some(binding_token), _) => { return Err(ParsingError::Err(SyntaxError { reason: format!( "There should be an identifier after a `{}` token", if is_var { "val" } else { "var" } ), error_start: binding_token.position, error_end: binding_token.get_end_position(), })); } (None, Some(datatype_token)) => { return Err(ParsingError::Err(SyntaxError { reason: "There should be an identifier after the datatype".into(), error_start: datatype_token.position, error_end: datatype_token.get_end_position(), })); } _ => { panic!("Illegal parser state: binding_token and datatype are both None") } }; } }; current_pos = next_pos; /* * Equal (=) operator */ let equal_operator = match try_operator(tokens, current_pos, String::from("=")) { Ok((t, _)) => t, Err(ParsingError::Mismatch(t)) => { // The parser found a token, but it's not the `=` operator return Err(ParsingError::Err(SyntaxError { reason: format!("There should be an equal sign `=` after the identifier"), error_start: t.position, error_end: t.get_end_position(), })); } _ => { // The parser didn't find the `=` operator after the identifier return Err(ParsingError::Err(SyntaxError { reason: format!("There should be an equal sign `=` after the identifier",), error_start: identifier.position, error_end: identifier.get_end_position(), })); } }; current_pos += 1; /* * Expression of the binding */ let (expression, next_pos) = match expression::try_parse(tokens, current_pos) { Ok((exp, next)) => (exp, next), _ => { return Err(ParsingError::Err(SyntaxError { reason: String::from("Expected an expression after the equal `=` operator"), error_start: equal_operator.position, error_end: equal_operator.get_end_position(), })); } }; current_pos = next_pos; let binding = Binding { datatype, identifier: &identifier, expression, is_mutable: is_var, }; Ok((binding, current_pos)) } #[cfg(test)] mod tests { use super::*; use crate::{lexic::get_tokens, syntax::utils::parse_token_type}; #[test] fn should_parse_val_binding() { let tokens = get_tokens(&String::from("val identifier = 20")).unwrap(); let Ok((binding, _)) = try_parse(&tokens, 0) else { panic!() }; assert_eq!("identifier", format!("{}", binding.identifier.value)); } #[test] fn should_parse_val() { let tokens = get_tokens(&String::from("val")).unwrap(); let (token, _) = parse_token_type(&tokens, 0, TokenType::VAL).unwrap(); assert_eq!(TokenType::VAL, token.token_type); assert_eq!("val", token.value); } #[test] fn should_parse_identifier() { let tokens = get_tokens(&String::from("identifier")).unwrap(); let (token, _) = parse_token_type(&tokens, 0, TokenType::Identifier).unwrap(); assert_eq!("identifier", token.value); } #[test] fn should_parse_operator() { let tokens = get_tokens(&String::from("=")).unwrap(); let (token, _) = try_operator(&tokens, 0, String::from("=")).unwrap(); assert_eq!("=", token.value); } #[test] fn should_parse_val_binding_with_datatype() { let tokens = get_tokens(&String::from("val Int identifier = 20")).unwrap(); let (binding, _) = try_parse(&tokens, 0).unwrap(); assert!(!binding.is_mutable); assert_eq!("Int", binding.datatype.unwrap().value); assert_eq!("identifier", binding.identifier.value); } #[test] fn should_parse_var_binding_with_datatype() { let tokens = get_tokens(&String::from("var Int identifier = 20")).unwrap(); let (binding, _) = try_parse(&tokens, 0).unwrap(); assert!(binding.is_mutable); assert!(binding.datatype.is_some()); assert_eq!("Int", binding.datatype.unwrap().value); assert_eq!("identifier", binding.identifier.value); } #[test] fn should_parse_implicit_val_binding() { let tokens = get_tokens(&String::from("Int identifier = 20")).unwrap(); let (binding, _) = try_parse(&tokens, 0).unwrap(); assert!(!binding.is_mutable); assert!(binding.datatype.is_some()); assert_eq!("Int", binding.datatype.unwrap().value); assert_eq!("identifier", binding.identifier.value); } #[test] fn should_return_error_on_implicit_val_binding() { let tokens = get_tokens(&String::from("Int => 20")).unwrap(); let binding = try_parse(&tokens, 0); match binding { Err(ParsingError::Err(error)) => { assert_eq!(4, error.error_start); assert_eq!(6, error.error_end); } _ => panic!("Error expected"), } } #[test] fn should_return_correct_error() { let tokens = get_tokens(&String::from("val")).unwrap(); assert_eq!(TokenType::VAL, tokens[0].token_type); assert_eq!(0, tokens[0].position); let binding = try_parse(&tokens, 0); match binding { Err(ParsingError::Err(error)) => { assert_eq!(0, error.error_start); assert_eq!(3, error.error_end); } _ => panic!("Error expected"), } } #[test] fn should_return_error_when_identifier_is_wrong() { let tokens = get_tokens(&String::from("val 322")).unwrap(); assert_eq!(TokenType::VAL, tokens[0].token_type); assert_eq!(0, tokens[0].position); let binding = try_parse(&tokens, 0); match binding { Err(ParsingError::Err(error)) => { assert_eq!(4, error.error_start); assert_eq!(7, error.error_end); } _ => panic!("Error expected"), } let tokens = get_tokens(&String::from("val \"hello\"")).unwrap(); let binding = try_parse(&tokens, 0); match binding { Err(ParsingError::Err(error)) => { assert_eq!(4, error.error_start); assert_eq!(11, error.error_end); } _ => panic!("Error expected"), } } #[test] fn should_return_error_when_equal_op_is_wrong() { let tokens = get_tokens(&String::from("val id \"error\"")).unwrap(); let binding = try_parse(&tokens, 0); match binding { Err(ParsingError::Err(error)) => { assert_eq!(7, error.error_start); assert_eq!(14, error.error_end); } _ => panic!("Error expected"), } } }