thp/src/syntax/binding.rs

use crate::token::{Token, TokenType};
use super::ast_types::{ValBinding, VarBinding, Binding};
use super::expression;

// TODO: Should return a 3 state value:
// - Success: binding parsed successfully
// - NotFound: the first token (var | val) was not found, so the parser should try other options
// - Error: token (var | val) was found, but then other expected tokens were not found
pub fn try_parse<'a>(tokens: &'a Vec<Token>, pos: usize) -> Option<Binding> {
    let mut pos = pos;
    
    // Optional datatype annotation
    let datatype_annotation = {
        match tokens.get(pos) {
            Some(t) if t.token_type == TokenType::Datatype => {
                pos += 1;
                Some(String::from(&t.value))
            }
            Some(_) => None,
            None => return None
        }
    };
    
    // var/val keyword
    let is_val = {
        let res1 = try_token_type(tokens, pos, TokenType::VAL);
        match res1 {
            Some(_) => true,
            None => {
                let res2 = try_token_type(tokens, pos, TokenType::VAR);
                match res2 {
                    Some(_) => false,
                    None => return None
                }
            }
        }
    };

    let identifier = try_token_type(tokens, pos + 1, TokenType::Identifier);
    if identifier.is_none() { return None }
    let identifier = identifier.unwrap();

    let equal_operator = try_operator(tokens, pos + 2, String::from("="));
    if equal_operator.is_none() { return None }

    let expression = expression::try_parse(tokens, pos + 3);
    if expression.is_none() { return None }
    let expression = expression.unwrap();

    if is_val {
        Some(Binding::Val(ValBinding {
            datatype: datatype_annotation,
            identifier: &identifier.value,
            expression,
        }))
    }
    else {
        Some(Binding::Var(VarBinding {
            datatype: datatype_annotation,
            identifier: &identifier.value,
            expression,
        }))
    }
}

fn try_token_type(tokens: &Vec<Token>, pos: usize, token_type: TokenType) -> Option<&Token> {
    tokens
        .get(pos)
        .and_then(|token| {
            (token.token_type == token_type).then(|| token)
        })
}

fn try_operator(tokens: &Vec<Token>, pos: usize, operator: String) -> Option<&Token> {
    tokens
        .get(pos)
        .and_then(|token| {
            (token.token_type == TokenType::Operator && token.value == operator)
                .then(|| token)
        })
}


#[cfg(test)]
mod tests {
    use super::*;
    use crate::lexic::get_tokens;

    #[test]
    fn should_parse_val_binding() {
        let tokens = get_tokens(&String::from("val identifier = 20")).unwrap();
        let binding = try_parse(&tokens, 0).unwrap();

        match binding {
            Binding::Val(binding) => {
                assert_eq!("identifier", binding.identifier);
            }
            _ => panic!()
        }
    }

    #[test]
    fn should_parse_val() {
        let tokens = get_tokens(&String::from("val")).unwrap();
        let token = try_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 = try_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_binding_with_datatype() {
        let tokens = get_tokens(&String::from("Num val identifier = 20")).unwrap();
        let binding = try_parse(&tokens, 0).unwrap();

        match binding {
            Binding::Val(binding) => {
                assert_eq!(Some(String::from("Num")), binding.datatype);
                assert_eq!("identifier", binding.identifier);
            }
            _ => panic!()
        }
        
        
        let tokens = get_tokens(&String::from("Bool var identifier = true")).unwrap();
        let binding = try_parse(&tokens, 0).unwrap();

        match binding {
            Binding::Var(binding) => {
                assert_eq!(Some(String::from("Bool")), binding.datatype);
                assert_eq!("identifier", binding.identifier);
            }
            _ => panic!()
        }
    }
}
Add parsing for simple declarations 2023-01-08 23:09:06 +00:00			`use crate::token::{Token, TokenType};`
Parse simple var binding 2023-02-09 23:44:31 +00:00			`use super::ast_types::{ValBinding, VarBinding, Binding};`
Add parsing for simple declarations 2023-01-08 23:09:06 +00:00			`use super::expression;`

Scan datatypes. Parse datatype annotations 2023-02-15 21:17:50 +00:00			`// TODO: Should return a 3 state value:`
Add parsing for simple declarations 2023-01-08 23:09:06 +00:00			`// - Success: binding parsed successfully`
			`// - NotFound: the first token (var \| val) was not found, so the parser should try other options`
			`// - Error: token (var \| val) was found, but then other expected tokens were not found`
			`pub fn try_parse<'a>(tokens: &'a Vec<Token>, pos: usize) -> Option<Binding> {`
Scan datatypes. Parse datatype annotations 2023-02-15 21:17:50 +00:00			`let mut pos = pos;`

			`// Optional datatype annotation`
			`let datatype_annotation = {`
			`match tokens.get(pos) {`
			`Some(t) if t.token_type == TokenType::Datatype => {`
			`pos += 1;`
			`Some(String::from(&t.value))`
			`}`
			`Some(_) => None,`
			`None => return None`
			`}`
			`};`

			`// var/val keyword`
Parse simple var binding 2023-02-09 23:44:31 +00:00			`let is_val = {`
			`let res1 = try_token_type(tokens, pos, TokenType::VAL);`
			`match res1 {`
			`Some(_) => true,`
			`None => {`
			`let res2 = try_token_type(tokens, pos, TokenType::VAR);`
			`match res2 {`
			`Some(_) => false,`
			`None => return None`
			`}`
			`}`
			`}`
			`};`
Add parsing for simple declarations 2023-01-08 23:09:06 +00:00
			`let identifier = try_token_type(tokens, pos + 1, TokenType::Identifier);`
			`if identifier.is_none() { return None }`
			`let identifier = identifier.unwrap();`

			`let equal_operator = try_operator(tokens, pos + 2, String::from("="));`
			`if equal_operator.is_none() { return None }`

			`let expression = expression::try_parse(tokens, pos + 3);`
			`if expression.is_none() { return None }`
			`let expression = expression.unwrap();`

Parse simple var binding 2023-02-09 23:44:31 +00:00			`if is_val {`
			`Some(Binding::Val(ValBinding {`
Scan datatypes. Parse datatype annotations 2023-02-15 21:17:50 +00:00			`datatype: datatype_annotation,`
Parse simple var binding 2023-02-09 23:44:31 +00:00			`identifier: &identifier.value,`
			`expression,`
			`}))`
			`}`
			`else {`
			`Some(Binding::Var(VarBinding {`
Scan datatypes. Parse datatype annotations 2023-02-15 21:17:50 +00:00			`datatype: datatype_annotation,`
Parse simple var binding 2023-02-09 23:44:31 +00:00			`identifier: &identifier.value,`
			`expression,`
			`}))`
			`}`
Add parsing for simple declarations 2023-01-08 23:09:06 +00:00			`}`

			`fn try_token_type(tokens: &Vec<Token>, pos: usize, token_type: TokenType) -> Option<&Token> {`
			`tokens`
			`.get(pos)`
			`.and_then(\|token\| {`
			`(token.token_type == token_type).then(\|\| token)`
			`})`
			`}`

			`fn try_operator(tokens: &Vec<Token>, pos: usize, operator: String) -> Option<&Token> {`
			`tokens`
			`.get(pos)`
			`.and_then(\|token\| {`
			`(token.token_type == TokenType::Operator && token.value == operator)`
			`.then(\|\| token)`
			`})`
			`}`



			`#[cfg(test)]`
			`mod tests {`
			`use super::*;`
			`use crate::lexic::get_tokens;`

			`#[test]`
			`fn should_parse_val_binding() {`
			`let tokens = get_tokens(&String::from("val identifier = 20")).unwrap();`
			`let binding = try_parse(&tokens, 0).unwrap();`

			`match binding {`
			`Binding::Val(binding) => {`
			`assert_eq!("identifier", binding.identifier);`
			`}`
Scan datatypes. Parse datatype annotations 2023-02-15 21:17:50 +00:00			`_ => panic!()`
Add parsing for simple declarations 2023-01-08 23:09:06 +00:00			`}`
			`}`

			`#[test]`
			`fn should_parse_val() {`
			`let tokens = get_tokens(&String::from("val")).unwrap();`
			`let token = try_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 = try_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);`
			`}`
Scan datatypes. Parse datatype annotations 2023-02-15 21:17:50 +00:00
			`#[test]`
			`fn should_parse_binding_with_datatype() {`
			`let tokens = get_tokens(&String::from("Num val identifier = 20")).unwrap();`
			`let binding = try_parse(&tokens, 0).unwrap();`

			`match binding {`
			`Binding::Val(binding) => {`
			`assert_eq!(Some(String::from("Num")), binding.datatype);`
			`assert_eq!("identifier", binding.identifier);`
			`}`
			`_ => panic!()`
			`}`


			`let tokens = get_tokens(&String::from("Bool var identifier = true")).unwrap();`
			`let binding = try_parse(&tokens, 0).unwrap();`

			`match binding {`
			`Binding::Var(binding) => {`
			`assert_eq!(Some(String::from("Bool")), binding.datatype);`
			`assert_eq!("identifier", binding.identifier);`
			`}`
			`_ => panic!()`
			`}`
			`}`
Add parsing for simple declarations 2023-01-08 23:09:06 +00:00			`}`