752 lines
25 KiB
Rust
752 lines
25 KiB
Rust
use std::{cell::RefCell, collections::HashMap};
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use chumsky::{input::SpannedInput, pratt::*, prelude::*};
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use crate::{
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abstract_tree::*,
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error::Error,
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lexer::{Control, Operator, Token},
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};
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pub type DustParser<'src> = Boxed<
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'src,
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'src,
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ParserInput<'src>,
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Vec<(Statement<'src>, SimpleSpan)>,
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extra::Err<Rich<'src, Token<'src>, SimpleSpan>>,
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>;
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pub type ParserInput<'src> =
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SpannedInput<Token<'src>, SimpleSpan, &'src [(Token<'src>, SimpleSpan)]>;
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pub fn parse<'src>(
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tokens: &'src [(Token<'src>, SimpleSpan)],
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) -> Result<Vec<(Statement<'src>, SimpleSpan)>, Vec<Error>> {
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parser()
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.parse(tokens.spanned((tokens.len()..tokens.len()).into()))
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.into_result()
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.map_err(|errors| errors.into_iter().map(|error| error.into()).collect())
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}
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pub fn parser<'src>() -> DustParser<'src> {
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let identifiers: RefCell<HashMap<&str, Identifier>> = RefCell::new(HashMap::new());
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let identifier = select! {
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Token::Identifier(text) => {
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let mut identifiers = identifiers.borrow_mut();
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if let Some(identifier) = identifiers.get(&text) {
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identifier.clone()
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} else {
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let new = Identifier::new(text);
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identifiers.insert(text, new.clone());
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new
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}
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}
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};
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let basic_type = choice((
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just(Token::Keyword("bool")).to(Type::Boolean),
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just(Token::Keyword("float")).to(Type::Float),
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just(Token::Keyword("int")).to(Type::Integer),
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just(Token::Keyword("range")).to(Type::Range),
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just(Token::Keyword("str")).to(Type::String),
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just(Token::Keyword("list")).to(Type::List),
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));
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let type_arguments = basic_type.clone().delimited_by(
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just(Token::Control(Control::ParenOpen)),
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just(Token::Control(Control::ParenClose)),
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);
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let type_specification = just(Token::Control(Control::Colon)).ignore_then(choice((
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basic_type
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.clone()
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.separated_by(just(Token::Control(Control::Comma)))
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.collect()
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.delimited_by(
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just(Token::Control(Control::SquareOpen)),
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just(Token::Control(Control::SquareClose)),
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)
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.map(|types| Type::ListExact(types)),
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just(Token::Keyword("list"))
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.then(type_arguments)
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.map(|(_, item_type)| Type::ListOf(Box::new(item_type))),
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basic_type.clone(),
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identifier
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.clone()
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.map(|identifier| Type::Custom(identifier)),
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)));
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let expression = recursive(|expression| {
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let basic_value = select! {
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Token::Boolean(boolean) => ValueNode::Boolean(boolean),
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Token::Integer(integer) => ValueNode::Integer(integer),
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Token::Float(float) => ValueNode::Float(float),
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Token::String(string) => ValueNode::String(string),
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}
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.map(|value| Expression::Value(value))
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.boxed();
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let identifier_expression = identifier
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.clone()
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.map(|identifier| Expression::Identifier(identifier))
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.boxed();
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let list = expression
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.clone()
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.separated_by(just(Token::Control(Control::Comma)))
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.allow_trailing()
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.collect()
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.delimited_by(
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just(Token::Control(Control::SquareOpen)),
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just(Token::Control(Control::SquareClose)),
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)
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.map(|list| Expression::Value(ValueNode::List(list)))
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.boxed();
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let map_assignment = identifier
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.clone()
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.then(type_specification.clone().or_not())
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.then_ignore(just(Token::Operator(Operator::Assign)))
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.then(expression.clone())
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.map(|((identifier, r#type), expression)| (identifier, r#type, expression));
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let map = map_assignment
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.separated_by(just(Token::Control(Control::Comma)).or_not())
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.allow_trailing()
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.collect()
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.delimited_by(
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just(Token::Control(Control::CurlyOpen)),
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just(Token::Control(Control::CurlyClose)),
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)
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.map(|map_assigment_list| Expression::Value(ValueNode::Map(map_assigment_list)));
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let r#enum = identifier
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.clone()
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.then_ignore(just(Token::Control(Control::DoubleColon)))
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.then(identifier.clone())
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.map(|(name, variant)| Expression::Value(ValueNode::Enum(name, variant)))
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.boxed();
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let atom = choice((
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identifier_expression.clone(),
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basic_value.clone(),
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list.clone(),
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r#enum.clone(),
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expression.clone().delimited_by(
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just(Token::Control(Control::ParenOpen)),
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just(Token::Control(Control::ParenClose)),
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),
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));
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use Operator::*;
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let logic_math_and_index = atom
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.pratt((
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prefix(2, just(Token::Operator(Not)), |expression| {
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Expression::Logic(Box::new(Logic::Not(expression)))
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}),
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infix(left(1), just(Token::Operator(Equal)), |left, right| {
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Expression::Logic(Box::new(Logic::Equal(left, right)))
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}),
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infix(left(1), just(Token::Operator(NotEqual)), |left, right| {
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Expression::Logic(Box::new(Logic::NotEqual(left, right)))
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}),
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infix(left(1), just(Token::Operator(Greater)), |left, right| {
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Expression::Logic(Box::new(Logic::Greater(left, right)))
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}),
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infix(left(1), just(Token::Operator(Less)), |left, right| {
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Expression::Logic(Box::new(Logic::Less(left, right)))
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}),
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infix(
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left(1),
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just(Token::Operator(GreaterOrEqual)),
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|left, right| Expression::Logic(Box::new(Logic::GreaterOrEqual(left, right))),
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),
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infix(
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left(1),
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just(Token::Operator(LessOrEqual)),
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|left, right| Expression::Logic(Box::new(Logic::LessOrEqual(left, right))),
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),
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infix(left(1), just(Token::Operator(And)), |left, right| {
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Expression::Logic(Box::new(Logic::And(left, right)))
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}),
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infix(left(1), just(Token::Operator(Or)), |left, right| {
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Expression::Logic(Box::new(Logic::Or(left, right)))
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}),
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infix(left(1), just(Token::Operator(Add)), |left, right| {
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Expression::Math(Box::new(Math::Add(left, right)))
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}),
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infix(left(1), just(Token::Operator(Subtract)), |left, right| {
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Expression::Math(Box::new(Math::Subtract(left, right)))
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}),
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infix(left(2), just(Token::Operator(Multiply)), |left, right| {
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Expression::Math(Box::new(Math::Multiply(left, right)))
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}),
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infix(left(2), just(Token::Operator(Divide)), |left, right| {
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Expression::Math(Box::new(Math::Divide(left, right)))
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}),
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infix(left(1), just(Token::Operator(Modulo)), |left, right| {
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Expression::Math(Box::new(Math::Modulo(left, right)))
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}),
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infix(
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left(3),
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just(Token::Control(Control::Dot)),
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|left, right| Expression::Index(Box::new(Index::new(left, right))),
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),
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))
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.boxed();
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choice((
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r#enum,
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logic_math_and_index,
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identifier_expression,
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list,
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map,
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basic_value,
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))
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});
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let statement = recursive(|statement| {
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let expression_statement = expression
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.clone()
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.map(|expression| Statement::Expression(expression))
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.boxed();
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let r#break = just(Token::Keyword("break"))
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.ignore_then(expression)
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.map(|expression| Statement::Break(expression));
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let assignment = identifier
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.then(type_specification.clone().or_not())
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.then(choice((
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just(Token::Operator(Operator::Assign)).to(AssignmentOperator::Assign),
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just(Token::Operator(Operator::AddAssign)).to(AssignmentOperator::AddAssign),
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just(Token::Operator(Operator::SubAssign)).to(AssignmentOperator::SubAssign),
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)))
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.then(statement.clone())
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.map(|(((identifier, r#type), operator), statement)| {
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Statement::Assignment(Assignment::new(identifier, r#type, operator, statement))
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})
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.boxed();
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let block = statement
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.clone()
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.repeated()
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.collect()
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.delimited_by(
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just(Token::Control(Control::CurlyOpen)),
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just(Token::Control(Control::CurlyClose)),
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)
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.map(|statements| Statement::Block(Block::new(statements)))
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.boxed();
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let r#loop = statement
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.clone()
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.repeated()
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.at_least(1)
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.collect()
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.delimited_by(
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just(Token::Keyword("loop")).then(just(Token::Control(Control::CurlyOpen))),
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just(Token::Control(Control::CurlyClose)),
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)
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.map(|statements| Statement::Loop(Loop::new(statements)))
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.boxed();
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choice((assignment, expression_statement, r#break, block, r#loop))
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.then_ignore(just(Token::Control(Control::Semicolon)).or_not())
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});
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statement
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.map_with(|item, state| (item, state.span()))
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.repeated()
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.collect()
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.boxed()
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}
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#[cfg(test)]
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mod tests {
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use crate::{abstract_tree::Logic, lexer::lex};
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use super::*;
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#[test]
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fn map() {
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assert_eq!(
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parse(&lex("{ foo = 'bar' }").unwrap()).unwrap()[0].0,
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Statement::Expression(Expression::Value(ValueNode::Map(vec![(
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Identifier::new("foo"),
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None,
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Expression::Value(ValueNode::String("bar"))
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)])))
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);
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assert_eq!(
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parse(&lex("{ x = 1, y = 2, }").unwrap()).unwrap()[0].0,
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Statement::Expression(Expression::Value(ValueNode::Map(vec![
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(
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Identifier::new("x"),
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None,
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Expression::Value(ValueNode::Integer(1))
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),
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(
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Identifier::new("y"),
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None,
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Expression::Value(ValueNode::Integer(2))
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),
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])))
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);
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assert_eq!(
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parse(&lex("{ x = 1 y = 2 }").unwrap()).unwrap()[0].0,
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Statement::Expression(Expression::Value(ValueNode::Map(vec![
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(
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Identifier::new("x"),
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None,
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Expression::Value(ValueNode::Integer(1))
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),
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(
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Identifier::new("y"),
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None,
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Expression::Value(ValueNode::Integer(2))
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),
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])))
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);
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}
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#[test]
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fn math() {
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assert_eq!(
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parse(&lex("1 + 1").unwrap()).unwrap()[0].0,
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Statement::Expression(Expression::Math(Box::new(Math::Add(
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Expression::Value(ValueNode::Integer(1)),
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Expression::Value(ValueNode::Integer(1))
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))))
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);
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}
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#[test]
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fn r#loop() {
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assert_eq!(
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parse(&lex("loop { 42 }").unwrap()).unwrap()[0].0,
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Statement::Loop(Loop::new(vec![Statement::Expression(Expression::Value(
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ValueNode::Integer(42)
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))]))
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);
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}
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#[test]
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fn block() {
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assert_eq!(
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parse(&lex("{ x }").unwrap()).unwrap()[0].0,
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Statement::Block(Block::new(vec![Statement::Expression(
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Expression::Identifier(Identifier::new("x"))
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),]))
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);
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assert_eq!(
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parse(
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&lex("
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{
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x;
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y;
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z
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}
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")
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.unwrap()
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)
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.unwrap()[0]
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.0,
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Statement::Block(Block::new(vec![
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Statement::Expression(Expression::Identifier(Identifier::new("x"))),
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Statement::Expression(Expression::Identifier(Identifier::new("y"))),
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Statement::Expression(Expression::Identifier(Identifier::new("z"))),
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]))
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);
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assert_eq!(
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parse(
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&lex("
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{
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1 == 1
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z
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}
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")
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.unwrap()
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)
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.unwrap()[0]
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.0,
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Statement::Block(Block::new(vec![
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Statement::Expression(Expression::Logic(Box::new(Logic::Equal(
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Expression::Value(ValueNode::Integer(1)),
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Expression::Value(ValueNode::Integer(1))
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)))),
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Statement::Expression(Expression::Identifier(Identifier::new("z"))),
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]))
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);
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}
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#[test]
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fn identifier() {
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assert_eq!(
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parse(&lex("x").unwrap()).unwrap()[0].0,
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Statement::Expression(Expression::Identifier(Identifier::new("x")))
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);
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assert_eq!(
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parse(&lex("foobar").unwrap()).unwrap()[0].0,
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Statement::Expression(Expression::Identifier(Identifier::new("foobar")))
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);
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assert_eq!(
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parse(&lex("HELLO").unwrap()).unwrap()[0].0,
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Statement::Expression(Expression::Identifier(Identifier::new("HELLO")))
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);
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}
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#[test]
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fn assignment() {
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assert_eq!(
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parse(&lex("foobar = 1").unwrap()).unwrap()[0].0,
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Statement::Assignment(Assignment::new(
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Identifier::new("foobar"),
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None,
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AssignmentOperator::Assign,
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Statement::Expression(Expression::Value(ValueNode::Integer(1)))
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)),
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);
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}
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#[test]
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fn assignment_with_basic_type() {
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assert_eq!(
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parse(&lex("foobar: int = 1").unwrap()).unwrap()[0].0,
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Statement::Assignment(Assignment::new(
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Identifier::new("foobar"),
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Some(Type::Integer),
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AssignmentOperator::Assign,
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Statement::Expression(Expression::Value(ValueNode::Integer(1)))
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)),
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);
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}
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#[test]
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fn assignment_with_custom_type() {
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assert_eq!(
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parse(&lex("foobar: Foo = Foo::Bar").unwrap()).unwrap()[0].0,
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Statement::Assignment(Assignment::new(
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Identifier::new("foobar"),
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Some(Type::Custom(Identifier::new("Foo"))),
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AssignmentOperator::Assign,
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Statement::Expression(Expression::Value(ValueNode::Enum(
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Identifier::new("Foo"),
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Identifier::new("Bar")
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)))
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)),
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);
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}
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|
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#[test]
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fn assignment_with_list_types() {
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assert_eq!(
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parse(&lex("foobar: list = []").unwrap()).unwrap()[0].0,
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Statement::Assignment(Assignment::new(
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Identifier::new("foobar"),
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Some(Type::List),
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AssignmentOperator::Assign,
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Statement::Expression(Expression::Value(ValueNode::List(vec![])))
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)),
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);
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assert_eq!(
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parse(&lex("foobar: list(int) = []").unwrap()).unwrap()[0].0,
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Statement::Assignment(Assignment::new(
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Identifier::new("foobar"),
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Some(Type::ListOf(Box::new(Type::Integer))),
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AssignmentOperator::Assign,
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Statement::Expression(Expression::Value(ValueNode::List(vec![])))
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)),
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);
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assert_eq!(
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parse(&lex("foobar: [int, str] = [ 42, 'foo' ]").unwrap()).unwrap()[0].0,
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Statement::Assignment(Assignment::new(
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Identifier::new("foobar"),
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Some(Type::ListExact(vec![Type::Integer, Type::String])),
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AssignmentOperator::Assign,
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Statement::Expression(Expression::Value(ValueNode::List(vec![
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Expression::Value(ValueNode::Integer(42)),
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Expression::Value(ValueNode::String("foo"))
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])))
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)),
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);
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}
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|
|
#[test]
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fn logic() {
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assert_eq!(
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parse(&lex("x == 1").unwrap()).unwrap()[0].0,
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Statement::Expression(Expression::Logic(Box::new(Logic::Equal(
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Expression::Identifier(Identifier::new("x")),
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Expression::Value(ValueNode::Integer(1))
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))))
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);
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assert_eq!(
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parse(&lex("(x == 1) && (y == 2)").unwrap()).unwrap()[0].0,
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Statement::Expression(Expression::Logic(Box::new(Logic::And(
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Expression::Logic(Box::new(Logic::Equal(
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Expression::Identifier(Identifier::new("x")),
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Expression::Value(ValueNode::Integer(1))
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))),
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Expression::Logic(Box::new(Logic::Equal(
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Expression::Identifier(Identifier::new("y")),
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Expression::Value(ValueNode::Integer(2))
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))),
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))))
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);
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assert_eq!(
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parse(&lex("(x == 1) && (y == 2) && true").unwrap()).unwrap()[0].0,
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Statement::Expression(Expression::Logic(Box::new(Logic::And(
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Expression::Logic(Box::new(Logic::And(
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Expression::Logic(Box::new(Logic::Equal(
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Expression::Identifier(Identifier::new("x")),
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Expression::Value(ValueNode::Integer(1))
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))),
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Expression::Logic(Box::new(Logic::Equal(
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Expression::Identifier(Identifier::new("y")),
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Expression::Value(ValueNode::Integer(2))
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))),
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))),
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Expression::Value(ValueNode::Boolean(true))
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))))
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);
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}
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#[test]
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fn r#enum() {
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assert_eq!(
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parse(&lex("Option::None").unwrap()).unwrap()[0].0,
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Statement::Expression(Expression::Value(ValueNode::Enum(
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Identifier::new("Option"),
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Identifier::new("None")
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)))
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);
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}
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|
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#[test]
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fn list() {
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|
assert_eq!(
|
|
parse(&lex("[]").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::List(Vec::with_capacity(0))))
|
|
);
|
|
assert_eq!(
|
|
parse(&lex("[42]").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::List(vec![Expression::Value(
|
|
ValueNode::Integer(42)
|
|
)])))
|
|
);
|
|
assert_eq!(
|
|
parse(&lex("[42, 'foo', 'bar', [1, 2, 3,]]").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::List(vec![
|
|
Expression::Value(ValueNode::Integer(42)),
|
|
Expression::Value(ValueNode::String("foo")),
|
|
Expression::Value(ValueNode::String("bar")),
|
|
Expression::Value(ValueNode::List(vec![
|
|
Expression::Value(ValueNode::Integer(1)),
|
|
Expression::Value(ValueNode::Integer(2)),
|
|
Expression::Value(ValueNode::Integer(3)),
|
|
]))
|
|
])),)
|
|
);
|
|
}
|
|
|
|
#[test]
|
|
fn r#true() {
|
|
assert_eq!(
|
|
parse(&lex("true").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Boolean(true)))
|
|
);
|
|
}
|
|
|
|
#[test]
|
|
fn r#false() {
|
|
assert_eq!(
|
|
parse(&lex("false").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Boolean(false)))
|
|
);
|
|
}
|
|
|
|
#[test]
|
|
fn positive_float() {
|
|
assert_eq!(
|
|
parse(&lex("0.0").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Float(0.0)))
|
|
);
|
|
assert_eq!(
|
|
parse(&lex("42.0").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Float(42.0)))
|
|
);
|
|
|
|
let max_float = f64::MAX.to_string() + ".0";
|
|
|
|
assert_eq!(
|
|
parse(&lex(&max_float).unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Float(f64::MAX)))
|
|
);
|
|
|
|
let min_positive_float = f64::MIN_POSITIVE.to_string();
|
|
|
|
assert_eq!(
|
|
parse(&lex(&min_positive_float).unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Float(f64::MIN_POSITIVE)))
|
|
);
|
|
}
|
|
|
|
#[test]
|
|
fn negative_float() {
|
|
assert_eq!(
|
|
parse(&lex("-0.0").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Float(-0.0)))
|
|
);
|
|
assert_eq!(
|
|
parse(&lex("-42.0").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Float(-42.0)))
|
|
);
|
|
|
|
let min_float = f64::MIN.to_string() + ".0";
|
|
|
|
assert_eq!(
|
|
parse(&lex(&min_float).unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Float(f64::MIN)))
|
|
);
|
|
|
|
let max_negative_float = format!("-{}", f64::MIN_POSITIVE);
|
|
|
|
assert_eq!(
|
|
parse(&lex(&max_negative_float).unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Float(-f64::MIN_POSITIVE)))
|
|
);
|
|
}
|
|
|
|
#[test]
|
|
fn other_float() {
|
|
assert_eq!(
|
|
parse(&lex("Infinity").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Float(f64::INFINITY)))
|
|
);
|
|
assert_eq!(
|
|
parse(&lex("-Infinity").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Float(f64::NEG_INFINITY)))
|
|
);
|
|
|
|
if let Statement::Expression(Expression::Value(ValueNode::Float(float))) =
|
|
&parse(&lex("NaN").unwrap()).unwrap()[0].0
|
|
{
|
|
assert!(float.is_nan());
|
|
} else {
|
|
panic!("Expected a float.");
|
|
}
|
|
}
|
|
|
|
#[test]
|
|
fn positive_integer() {
|
|
for i in 0..10 {
|
|
let source = i.to_string();
|
|
let tokens = lex(&source).unwrap();
|
|
let statements = parse(&tokens).unwrap();
|
|
|
|
assert_eq!(
|
|
statements[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Integer(i)))
|
|
)
|
|
}
|
|
|
|
assert_eq!(
|
|
parse(&lex("42").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Integer(42)))
|
|
);
|
|
|
|
let maximum_integer = i64::MAX.to_string();
|
|
|
|
assert_eq!(
|
|
parse(&lex(&maximum_integer).unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Integer(i64::MAX)))
|
|
);
|
|
}
|
|
|
|
#[test]
|
|
fn negative_integer() {
|
|
for i in -9..1 {
|
|
let source = i.to_string();
|
|
let tokens = lex(&source).unwrap();
|
|
let statements = parse(&tokens).unwrap();
|
|
|
|
assert_eq!(
|
|
statements[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Integer(i)))
|
|
)
|
|
}
|
|
|
|
assert_eq!(
|
|
parse(&lex("-42").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Integer(-42)))
|
|
);
|
|
|
|
let minimum_integer = i64::MIN.to_string();
|
|
|
|
assert_eq!(
|
|
parse(&lex(&minimum_integer).unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::Integer(i64::MIN)))
|
|
);
|
|
}
|
|
|
|
#[test]
|
|
fn double_quoted_string() {
|
|
assert_eq!(
|
|
parse(&lex("\"\"").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::String("")))
|
|
);
|
|
assert_eq!(
|
|
parse(&lex("\"42\"").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::String("42")))
|
|
);
|
|
assert_eq!(
|
|
parse(&lex("\"foobar\"").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::String("foobar")))
|
|
);
|
|
}
|
|
|
|
#[test]
|
|
fn single_quoted_string() {
|
|
assert_eq!(
|
|
parse(&lex("''").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::String("")))
|
|
);
|
|
assert_eq!(
|
|
parse(&lex("'42'").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::String("42")))
|
|
);
|
|
assert_eq!(
|
|
parse(&lex("'foobar'").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::String("foobar")))
|
|
);
|
|
}
|
|
|
|
#[test]
|
|
fn grave_quoted_string() {
|
|
assert_eq!(
|
|
parse(&lex("``").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::String("")))
|
|
);
|
|
assert_eq!(
|
|
parse(&lex("`42`").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::String("42")))
|
|
);
|
|
assert_eq!(
|
|
parse(&lex("`foobar`").unwrap()).unwrap()[0].0,
|
|
Statement::Expression(Expression::Value(ValueNode::String("foobar")))
|
|
);
|
|
}
|
|
}
|