#[cfg(test)] mod tests; use chumsky::{input::SpannedInput, pratt::*, prelude::*}; use crate::{ abstract_tree::*, error::DustError, identifier::Identifier, lexer::{Keyword, Symbol, Token}, }; use self::{ built_in_function::BuiltInFunction, enum_declaration::EnumVariant, type_constructor::{RawTypeConstructor, TypeInvokationConstructor}, }; pub type ParserInput<'src> = SpannedInput, SimpleSpan, &'src [(Token<'src>, SimpleSpan)]>; pub type ParserExtra<'src> = extra::Err, SimpleSpan>>; pub fn parse<'src>( tokens: &'src [(Token<'src>, SimpleSpan)], ) -> Result> { parser(false) .parse(tokens.spanned((tokens.len()..tokens.len()).into())) .into_result() .map_err(|errors| { errors .into_iter() .map(|error| DustError::from(error)) .collect::>() }) } pub fn parser<'src>( allow_built_ins: bool, ) -> impl Parser<'src, ParserInput<'src>, AbstractTree, ParserExtra<'src>> { let comment = select_ref! { Token::Comment(_) => {} }; let identifier = select! { Token::Identifier(text) => Identifier::new(text), }; let positioned_identifier = identifier .clone() .map_with(|identifier, state| identifier.with_position(state.span())); let basic_value = select! { Token::Boolean(boolean) => ValueNode::Boolean(boolean), Token::Float(float) => ValueNode::Float(float), Token::Integer(integer) => ValueNode::Integer(integer), Token::String(text) => ValueNode::String(text.to_string()), } .map_with(|value, state| Expression::Value(value.with_position(state.span()))); let raw_integer = select! { Token::Integer(integer) => integer }; let type_constructor = recursive(|type_constructor| { let primitive_type = choice(( just(Token::Keyword(Keyword::Any)).to(RawTypeConstructor::Any), just(Token::Keyword(Keyword::Bool)).to(RawTypeConstructor::Boolean), just(Token::Keyword(Keyword::Float)).to(RawTypeConstructor::Float), just(Token::Keyword(Keyword::Int)).to(RawTypeConstructor::Integer), just(Token::Keyword(Keyword::Range)).to(RawTypeConstructor::Range), just(Token::Keyword(Keyword::Str)).to(RawTypeConstructor::String), )) .map_with(|raw_constructor, state| { TypeConstructor::Raw(raw_constructor.with_position(state.span())) }); let function_type = just(Token::Keyword(Keyword::Fn)) .ignore_then( positioned_identifier .clone() .separated_by(just(Token::Symbol(Symbol::Comma))) .at_least(1) .collect() .delimited_by( just(Token::Symbol(Symbol::Less)), just(Token::Symbol(Symbol::Greater)), ) .or_not(), ) .then( positioned_identifier .clone() .then_ignore(just(Token::Symbol(Symbol::Colon))) .then(type_constructor.clone()) .separated_by(just(Token::Symbol(Symbol::Comma))) .collect() .delimited_by( just(Token::Symbol(Symbol::ParenOpen)), just(Token::Symbol(Symbol::ParenClose)), ), ) .then( just(Token::Symbol(Symbol::SkinnyArrow)) .ignore_then(type_constructor.clone()) .or_not(), ) .map_with( |((type_parameters, value_parameters), return_type): ( ( Option>>, Vec<(WithPosition, TypeConstructor)>, ), Option, ), state| { let value_parameters = if value_parameters.is_empty() { None } else { Some(value_parameters) }; TypeConstructor::Function( FunctionTypeConstructor { type_parameters, value_parameters, return_type: return_type.map(|r#type| Box::new(r#type)), } .with_position(state.span()), ) }, ); let list_type = type_constructor .clone() .then_ignore(just(Token::Symbol(Symbol::Semicolon))) .then(raw_integer.clone()) .delimited_by( just(Token::Symbol(Symbol::SquareOpen)), just(Token::Symbol(Symbol::SquareClose)), ) .map_with(|(item_type, length), state| { TypeConstructor::List( ListTypeConstructor { length: length as usize, item_type: Box::new(item_type), } .with_position(state.span()), ) }); let list_of_type = type_constructor .clone() .delimited_by( just(Token::Symbol(Symbol::SquareOpen)), just(Token::Symbol(Symbol::SquareClose)), ) .map_with(|item_type, state| { TypeConstructor::ListOf(Box::new(item_type).with_position(state.span())) }); let type_invokation = positioned_identifier .clone() .then( type_constructor .clone() .separated_by(just(Token::Symbol(Symbol::Comma))) .at_least(1) .allow_trailing() .collect() .delimited_by( just(Token::Symbol(Symbol::ParenOpen)), just(Token::Symbol(Symbol::ParenClose)), ) .or_not(), ) .map(|(identifier, type_arguments)| { TypeConstructor::Invokation(TypeInvokationConstructor { identifier, type_arguments, }) }); let map_type = positioned_identifier .clone() .then_ignore(just(Token::Symbol(Symbol::Colon))) .then(type_constructor.clone()) .separated_by(just(Token::Symbol(Symbol::Comma))) .collect() .delimited_by( just(Token::Symbol(Symbol::CurlyOpen)), just(Token::Symbol(Symbol::CurlyClose)), ) .map_with( |fields: Vec<(WithPosition, TypeConstructor)>, state| { TypeConstructor::Map(fields.with_position(state.span())) }, ); choice(( map_type, type_invokation, function_type, list_type, list_of_type, primitive_type, )) }); let type_specification = just(Token::Symbol(Symbol::Colon)).ignore_then(type_constructor.clone()); let statement = recursive(|statement| { let allow_built_ins = allow_built_ins.clone(); let block = statement .clone() .repeated() .at_least(1) .collect() .delimited_by( just(Token::Symbol(Symbol::CurlyOpen)), just(Token::Symbol(Symbol::CurlyClose)), ) .map_with(|statements, state| Block::new(statements).with_position(state.span())); let expression = recursive(|expression| { let allow_built_ins = allow_built_ins.clone(); let identifier_expression = identifier.clone().map_with(|identifier, state| { Expression::Identifier(identifier.with_position(state.span())) }); let range = raw_integer .clone() .then_ignore(just(Token::Symbol(Symbol::DoubleDot))) .then(raw_integer) .map_with(|(start, end), state| { Expression::Value(ValueNode::Range(start..end).with_position(state.span())) }); let list = expression .clone() .separated_by(just(Token::Symbol(Symbol::Comma))) .allow_trailing() .collect() .delimited_by( just(Token::Symbol(Symbol::SquareOpen)), just(Token::Symbol(Symbol::SquareClose)), ) .map_with(|list, state| { Expression::Value(ValueNode::List(list).with_position(state.span())) }); let map_fields = identifier .clone() .then(type_specification.clone().or_not()) .then_ignore(just(Token::Symbol(Symbol::Equal))) .then(expression.clone()) .map(|((identifier, r#type), expression)| (identifier, r#type, expression)); let map = map_fields .separated_by(just(Token::Symbol(Symbol::Comma)).or_not()) .allow_trailing() .collect() .delimited_by( just(Token::Symbol(Symbol::CurlyOpen)), just(Token::Symbol(Symbol::CurlyClose)), ) .map_with(|map_assigment_list, state| { Expression::Value( ValueNode::Map(map_assigment_list).with_position(state.span()), ) }); let function = just(Token::Keyword(Keyword::Fn)) .ignore_then( identifier .clone() .separated_by(just(Token::Symbol(Symbol::Comma))) .at_least(1) .allow_trailing() .collect() .delimited_by( just(Token::Symbol(Symbol::Less)), just(Token::Symbol(Symbol::Greater)), ) .or_not(), ) .then( identifier .clone() .then_ignore(just(Token::Symbol(Symbol::Colon))) .then(type_constructor.clone()) .separated_by(just(Token::Symbol(Symbol::Comma))) .allow_trailing() .collect() .delimited_by( just(Token::Symbol(Symbol::ParenOpen)), just(Token::Symbol(Symbol::ParenClose)), ), ) .then( just(Token::Symbol(Symbol::SkinnyArrow)) .ignore_then(type_constructor.clone()) .or_not(), ) .then(block.clone()) .map_with( |(((type_parameters, value_parameters), return_type), body): ( ( (Option>, Vec<(Identifier, TypeConstructor)>), Option, ), WithPosition, ), state| { let value_parameters = if value_parameters.is_empty() { None } else { Some(value_parameters) }; Expression::Value( ValueNode::function( type_parameters, value_parameters, return_type, body, ) .with_position(state.span()), ) }, ); let enum_instance = positioned_identifier .clone() .then_ignore(just(Token::Symbol(Symbol::DoubleColon))) .then(positioned_identifier.clone()) .then( expression .clone() .separated_by(just(Token::Symbol(Symbol::Comma))) .collect() .delimited_by( just(Token::Symbol(Symbol::ParenOpen)), just(Token::Symbol(Symbol::ParenClose)), ) .or_not(), ) .map_with(|((type_name, variant), content), state| { Expression::Value( ValueNode::EnumInstance { type_name, variant, content, } .with_position(state.span()), ) }); let underscored = |keyword| { just(Token::Keyword(keyword)).delimited_by( just(Token::Symbol(Symbol::DoubleUnderscore)), just(Token::Symbol(Symbol::DoubleUnderscore)), ) }; let built_in_function = choice(( underscored(Keyword::Length).map_with(|_, state| { Expression::Value( ValueNode::BuiltInFunction(BuiltInFunction::Length) .with_position(state.span()), ) }), underscored(Keyword::ReadLine).map_with(|_, state| { Expression::Value( ValueNode::BuiltInFunction(BuiltInFunction::ReadLine) .with_position(state.span()), ) }), underscored(Keyword::ReadFile).map_with(|_, state| { Expression::Value( ValueNode::BuiltInFunction(BuiltInFunction::ReadFile) .with_position(state.span()), ) }), underscored(Keyword::Sleep).map_with(|_, state| { Expression::Value( ValueNode::BuiltInFunction(BuiltInFunction::Sleep) .with_position(state.span()), ) }), underscored(Keyword::WriteLine).map_with(|_, state| { Expression::Value( ValueNode::BuiltInFunction(BuiltInFunction::WriteLine) .with_position(state.span()), ) }), underscored(Keyword::JsonParse).map_with(|_, state| { Expression::Value( ValueNode::BuiltInFunction(BuiltInFunction::JsonParse) .with_position(state.span()), ) }), )) .validate(move |expression, state, emitter| { if !allow_built_ins { emitter.emit(Rich::custom( state.span(), "Built-in functions can only be used by the standard library.", )) } expression }); let turbofish = just(Token::Symbol(Symbol::DoubleColon)).ignore_then( type_constructor .clone() .separated_by(just(Token::Symbol(Symbol::Comma))) .at_least(1) .collect() .delimited_by( just(Token::Symbol(Symbol::Less)), just(Token::Symbol(Symbol::Greater)), ), ); let atom = choice(( built_in_function.clone(), enum_instance.clone(), range.clone(), function.clone(), list.clone(), map.clone(), basic_value.clone(), identifier_expression.clone(), expression.clone().delimited_by( just(Token::Symbol(Symbol::ParenOpen)), just(Token::Symbol(Symbol::ParenClose)), ), )); let logic_math_indexes_as_and_function_calls = atom.pratt(( // Logic prefix( 2, just(Token::Symbol(Symbol::Exclamation)), |_, expression, span| { Expression::Logic(Box::new(Logic::Not(expression)).with_position(span)) }, ), infix( left(1), just(Token::Symbol(Symbol::DoubleEqual)), |left, _, right, span| { Expression::Logic(Box::new(Logic::Equal(left, right)).with_position(span)) }, ), infix( left(1), just(Token::Symbol(Symbol::NotEqual)), |left, _, right, span| { Expression::Logic( Box::new(Logic::NotEqual(left, right)).with_position(span), ) }, ), infix( left(1), just(Token::Symbol(Symbol::Greater)), |left, _, right, span| { Expression::Logic(Box::new(Logic::Greater(left, right)).with_position(span)) }, ), infix( left(1), just(Token::Symbol(Symbol::Less)), |left, _, right, span| { Expression::Logic(Box::new(Logic::Less(left, right)).with_position(span)) }, ), infix( left(1), just(Token::Symbol(Symbol::GreaterOrEqual)), |left, _, right, span| { Expression::Logic( Box::new(Logic::GreaterOrEqual(left, right)).with_position(span), ) }, ), infix( left(1), just(Token::Symbol(Symbol::LessOrEqual)), |left, _, right, span| { Expression::Logic( Box::new(Logic::LessOrEqual(left, right)).with_position(span), ) }, ), infix( left(1), just(Token::Symbol(Symbol::DoubleAmpersand)), |left, _, right, span| { Expression::Logic(Box::new(Logic::And(left, right)).with_position(span)) }, ), infix( left(1), just(Token::Symbol(Symbol::DoublePipe)), |left, _, right, span| { Expression::Logic(Box::new(Logic::Or(left, right)).with_position(span)) }, ), // Math infix( left(1), just(Token::Symbol(Symbol::Plus)), |left, _, right, span| { Expression::Math(Box::new(Math::Add(left, right)).with_position(span)) }, ), infix( left(1), just(Token::Symbol(Symbol::Minus)), |left, _, right, span| { Expression::Math(Box::new(Math::Subtract(left, right)).with_position(span)) }, ), infix( left(2), just(Token::Symbol(Symbol::Asterisk)), |left, _, right, span| { Expression::Math(Box::new(Math::Multiply(left, right)).with_position(span)) }, ), infix( left(2), just(Token::Symbol(Symbol::Slash)), |left, _, right, span| { Expression::Math(Box::new(Math::Divide(left, right)).with_position(span)) }, ), infix( left(1), just(Token::Symbol(Symbol::Percent)), |left, _, right, span| { Expression::Math(Box::new(Math::Modulo(left, right)).with_position(span)) }, ), // Indexes infix( left(4), just(Token::Symbol(Symbol::Dot)), |left, _, right, span| { Expression::MapIndex( Box::new(MapIndex::new(left, right)).with_position(span), ) }, ), postfix( 3, expression.clone().delimited_by( just(Token::Symbol(Symbol::SquareOpen)), just(Token::Symbol(Symbol::SquareClose)), ), |left, right, span| { Expression::ListIndex( Box::new(ListIndex::new(left, right)).with_position(span), ) }, ), // Function call postfix( 3, turbofish.clone().or_not().then( expression .clone() .separated_by(just(Token::Symbol(Symbol::Comma))) .collect() .delimited_by( just(Token::Symbol(Symbol::ParenOpen)), just(Token::Symbol(Symbol::ParenClose)), ), ), |function_expression, (type_parameters, value_parameters): ( Option>, Vec, ), span| { let value_parameters = if value_parameters.is_empty() { None } else { Some(value_parameters) }; Expression::FunctionCall( FunctionCall::new( function_expression, type_parameters, value_parameters, ) .with_position(span), ) }, ), // As postfix( 2, just(Token::Keyword(Keyword::As)).ignore_then(type_constructor.clone()), |expression, constructor, span| { Expression::As( Box::new(As::new(expression, constructor)).with_position(span), ) }, ), )); choice(( logic_math_indexes_as_and_function_calls, built_in_function, enum_instance, range, function, list, map, basic_value, identifier_expression, )) }); let expression_statement = expression .clone() .map(|expression| Statement::Expression(expression)); let async_block = just(Token::Keyword(Keyword::Async)) .ignore_then(statement.clone().repeated().collect().delimited_by( just(Token::Symbol(Symbol::CurlyOpen)), just(Token::Symbol(Symbol::CurlyClose)), )) .map_with(|statements, state| { Statement::AsyncBlock(AsyncBlock::new(statements).with_position(state.span())) }); let r#break = just(Token::Keyword(Keyword::Break)) .map_with(|_, state| Statement::Break(().with_position(state.span()))); let assignment = positioned_identifier .clone() .then(type_specification.clone().or_not()) .then(choice(( just(Token::Symbol(Symbol::Equal)).to(AssignmentOperator::Assign), just(Token::Symbol(Symbol::PlusEqual)).to(AssignmentOperator::AddAssign), just(Token::Symbol(Symbol::MinusEqual)).to(AssignmentOperator::SubAssign), ))) .then(statement.clone()) .map_with(|(((identifier, r#type), operator), statement), state| { Statement::Assignment( Assignment::new(identifier, r#type, operator, statement) .with_position(state.span()), ) }); let block_statement = block.clone().map(|block| Statement::Block(block)); let r#loop = statement .clone() .repeated() .at_least(1) .collect() .delimited_by( just(Token::Keyword(Keyword::Loop)).then(just(Token::Symbol(Symbol::CurlyOpen))), just(Token::Symbol(Symbol::CurlyClose)), ) .map_with(|statements, state| { Statement::Loop(Loop::new(statements).with_position(state.span())) }); let r#while = just(Token::Keyword(Keyword::While)) .ignore_then(expression.clone()) .then(statement.clone().repeated().collect().delimited_by( just(Token::Symbol(Symbol::CurlyOpen)), just(Token::Symbol(Symbol::CurlyClose)), )) .map_with(|(expression, statements), state| { Statement::While(While::new(expression, statements).with_position(state.span())) }); let if_else = just(Token::Keyword(Keyword::If)) .ignore_then(expression.clone()) .then(block.clone()) .then( just(Token::Keyword(Keyword::Else)) .ignore_then(just(Token::Keyword(Keyword::If))) .ignore_then(expression.clone()) .then(block.clone()) .repeated() .at_least(1) .collect() .or_not(), ) .then( just(Token::Keyword(Keyword::Else)) .ignore_then(block.clone()) .or_not(), ) .map_with( |(((if_expression, if_block), else_ifs), else_block), state| { Statement::IfElse( IfElse::new(if_expression, if_block, else_ifs, else_block) .with_position(state.span()), ) }, ); let type_alias = just(Token::Keyword(Keyword::Type)) .ignore_then(positioned_identifier.clone()) .then_ignore(just(Token::Symbol(Symbol::Equal))) .then(type_constructor.clone()) .map_with(|(identifier, constructor), state| { Statement::TypeAlias( TypeAlias::new(identifier, constructor).with_position(state.span()), ) }); let enum_variant = positioned_identifier .clone() .then( type_constructor .clone() .separated_by(just(Token::Symbol(Symbol::Comma))) .collect() .delimited_by( just(Token::Symbol(Symbol::ParenOpen)), just(Token::Symbol(Symbol::ParenClose)), ) .or_not(), ) .map(|(identifier, constructors)| EnumVariant { name: identifier, content: constructors, }); let enum_declaration = just(Token::Keyword(Keyword::Enum)) .ignore_then(positioned_identifier.clone()) .then( positioned_identifier .clone() .separated_by(just(Token::Symbol(Symbol::Comma))) .allow_trailing() .collect() .delimited_by( just(Token::Symbol(Symbol::Less)), just(Token::Symbol(Symbol::Greater)), ) .or_not(), ) .then( enum_variant .separated_by(just(Token::Symbol(Symbol::Comma))) .allow_trailing() .at_least(1) .collect() .delimited_by( just(Token::Symbol(Symbol::CurlyOpen)), just(Token::Symbol(Symbol::CurlyClose)), ), ) .map_with(|((name, type_parameters), variants), state| { Statement::EnumDeclaration( EnumDeclaration::new(name, type_parameters, variants) .with_position(state.span()), ) }); let r#use = select! { Token::Use(text) => text, } .map_with(|text, state| { Statement::Use(Use::new(text.to_string()).with_position(state.span())) }); comment .repeated() .or_not() .ignore_then(choice(( assignment, expression_statement, async_block, if_else, r#break, block_statement, r#loop, r#while, type_alias, enum_declaration, r#use, ))) .then_ignore(just(Token::Symbol(Symbol::Semicolon)).or_not()) }); statement .repeated() .collect() .map(|statements| AbstractTree::new(statements)) }