use crate::{ lexic::token::{Token, TokenType}, utils::Result3, }; use super::ParseResult; /// Expects the token at `pos` to be of type `token_type` pub fn try_token_type(tokens: &Vec, pos: usize, token_type: TokenType) -> Result3<&Token> { match tokens.get(pos) { Some(t) if t.token_type == token_type => Result3::Ok(t), Some(t) if t.token_type == TokenType::EOF || t.token_type == TokenType::NewLine => { Result3::None } Some(t) => Result3::Err(t), None => Result3::None, } } /// Expects the token at `pos` to be of type `token_type` pub fn parse_token_type( tokens: &Vec, pos: usize, token_type: TokenType, ) -> ParseResult<&Token, &Token> { let mut current_pos = pos; // Ignore all whitespace and newlines while let Some(t) = tokens.get(current_pos) { if t.token_type == TokenType::INDENT || t.token_type == TokenType::DEDENT || t.token_type == TokenType::NewLine { current_pos += 1; } else { break; } } match tokens.get(current_pos) { Some(t) if t.token_type == token_type => ParseResult::Ok(t, current_pos + 1), Some(t) if t.token_type == TokenType::EOF || t.token_type == TokenType::NewLine => { ParseResult::Unmatched } Some(t) => ParseResult::Mismatch(t), None => ParseResult::Unmatched, } } pub fn try_operator(tokens: &Vec, pos: usize, operator: String) -> Result3<&Token> { match tokens.get(pos) { Some(t) if t.token_type == TokenType::Operator && t.value == operator => Result3::Ok(t), Some(t) if t.token_type == TokenType::NewLine || t.token_type == TokenType::EOF => { Result3::None } Some(t) => Result3::Err(t), None => Result3::None, } }