1
0

Continue passing tests

This commit is contained in:
Jeff 2024-08-14 21:15:37 -04:00
parent f4ee3ffcf8
commit 81b7888920
3 changed files with 222 additions and 219 deletions

View File

@ -285,7 +285,6 @@ pub enum LiteralExpression {
Boolean(bool), Boolean(bool),
Float(f64), Float(f64),
Integer(i64), Integer(i64),
Range(i64, i64),
String(String), String(String),
Value(Value), Value(Value),
} }
@ -296,7 +295,6 @@ impl Display for LiteralExpression {
LiteralExpression::Boolean(boolean) => write!(f, "{}", boolean), LiteralExpression::Boolean(boolean) => write!(f, "{}", boolean),
LiteralExpression::Float(float) => write!(f, "{}", float), LiteralExpression::Float(float) => write!(f, "{}", float),
LiteralExpression::Integer(integer) => write!(f, "{}", integer), LiteralExpression::Integer(integer) => write!(f, "{}", integer),
LiteralExpression::Range(start, end) => write!(f, "{}..{}", start, end),
LiteralExpression::String(string) => write!(f, "{}", string), LiteralExpression::String(string) => write!(f, "{}", string),
LiteralExpression::Value(value) => write!(f, "{}", value), LiteralExpression::Value(value) => write!(f, "{}", value),
} }
@ -582,13 +580,10 @@ impl Display for Loop {
#[derive(Debug, Clone, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)] #[derive(Debug, Clone, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)]
pub enum StructExpression { pub enum StructExpression {
// The tuple struct expression is omitted because it is redundant with call expression
Unit { Unit {
name: Node<Identifier>, name: Node<Identifier>,
}, },
Tuple {
name: Node<Identifier>,
items: Vec<Expression>,
},
Fields { Fields {
name: Node<Identifier>, name: Node<Identifier>,
fields: Vec<(Node<Identifier>, Expression)>, fields: Vec<(Node<Identifier>, Expression)>,
@ -599,19 +594,6 @@ impl Display for StructExpression {
fn fmt(&self, f: &mut Formatter) -> fmt::Result { fn fmt(&self, f: &mut Formatter) -> fmt::Result {
match self { match self {
StructExpression::Unit { name } => write!(f, "{}", name), StructExpression::Unit { name } => write!(f, "{}", name),
StructExpression::Tuple { name, items } => {
write!(f, "{}(", name)?;
for (index, item) in items.iter().enumerate() {
write!(f, "{}", item)?;
if index < items.len() - 1 {
write!(f, ", ")?;
}
}
write!(f, ")")
}
StructExpression::Fields { name, fields } => { StructExpression::Fields { name, fields } => {
write!(f, "{} {{", name)?; write!(f, "{} {{", name)?;

View File

@ -237,7 +237,17 @@ impl<'src> Parser<'src> {
let expression = self.parse_expression(0)?; let expression = self.parse_expression(0)?;
Ok(Statement::Expression(expression)) let statement = if let Token::Semicolon = self.current_token {
let position = (start_position.0, self.current_position.1);
self.next_token()?;
Statement::ExpressionNullified(Node::new(expression, position))
} else {
Statement::Expression(expression)
};
Ok(statement)
} }
fn next_token(&mut self) -> Result<(), ParseError> { fn next_token(&mut self) -> Result<(), ParseError> {
@ -321,7 +331,7 @@ impl<'src> Parser<'src> {
let block = self.parse_block()?; let block = self.parse_block()?;
let position = (start_position.0, self.current_position.1); let position = (start_position.0, self.current_position.1);
return Ok(Expression::block(block.inner, position)); Ok(Expression::block(block.inner, position))
} }
Token::Boolean(text) => { Token::Boolean(text) => {
self.next_token()?; self.next_token()?;
@ -330,13 +340,10 @@ impl<'src> Parser<'src> {
error, error,
position: start_position, position: start_position,
})?; })?;
let right_end = self.current_position.1; let statement =
let statement = Expression::literal( Expression::literal(LiteralExpression::Boolean(boolean), start_position);
LiteralExpression::Boolean(boolean),
(start_position.0, right_end),
);
return Ok(statement); Ok(statement)
} }
Token::Float(text) => { Token::Float(text) => {
self.next_token()?; self.next_token()?;
@ -345,20 +352,18 @@ impl<'src> Parser<'src> {
error, error,
position: start_position, position: start_position,
})?; })?;
let position = (start_position.0, self.current_position.1);
Ok(Expression::literal( Ok(Expression::literal(
LiteralExpression::Float(float), LiteralExpression::Float(float),
position, start_position,
)) ))
} }
Token::Identifier(text) => { Token::Identifier(text) => {
let identifier = Identifier::new(text);
let identifier_position = self.current_position;
self.next_token()?; self.next_token()?;
Ok(Expression::identifier(identifier, identifier_position)) let identifier = Identifier::new(text);
Ok(Expression::identifier(identifier, start_position))
} }
Token::Integer(text) => { Token::Integer(text) => {
self.next_token()?; self.next_token()?;
@ -368,42 +373,16 @@ impl<'src> Parser<'src> {
position: start_position, position: start_position,
})?; })?;
if let Token::DoubleDot = self.current_token {
self.next_token()?;
if let Token::Integer(range_end) = self.current_token {
let end_position = self.current_position;
self.next_token()?;
let range_end =
range_end
.parse::<i64>()
.map_err(|error| ParseError::Integer {
error,
position: end_position,
})?;
Ok(Expression::literal(
LiteralExpression::Range(integer, range_end),
(start_position.0, end_position.1),
))
} else {
Err(ParseError::ExpectedToken {
expected: TokenKind::Integer,
actual: self.current_token.to_owned(),
position: (start_position.0, self.current_position.1),
})
}
} else {
Ok(Expression::literal( Ok(Expression::literal(
LiteralExpression::Integer(integer), LiteralExpression::Integer(integer),
start_position, start_position,
)) ))
} }
}
Token::If => { Token::If => {
let start = self.current_position.0; let start = self.current_position.0;
self.next_token()?;
let r#if = self.parse_if()?; let r#if = self.parse_if()?;
let position = (start, self.current_position.1); let position = (start, self.current_position.1);
@ -591,17 +570,87 @@ impl<'src> Parser<'src> {
)); ));
} }
if let Token::DoubleDot = &self.current_token {
self.next_token()?;
let end = self.parse_expression(operator_precedence)?;
let position = (left_start, end.position().1);
return Ok(Expression::range(Range { start: left, end }, position));
}
if let Token::Minus | Token::Plus | Token::Star | Token::Slash | Token::Percent =
&self.current_token
{
let math_operator = match &self.current_token { let math_operator = match &self.current_token {
Token::Minus => Node::new(MathOperator::Subtract, self.current_position), Token::Minus => Node::new(MathOperator::Subtract, self.current_position),
Token::Plus => Node::new(MathOperator::Add, self.current_position), Token::Plus => Node::new(MathOperator::Add, self.current_position),
Token::Star => Node::new(MathOperator::Multiply, self.current_position), Token::Star => Node::new(MathOperator::Multiply, self.current_position),
Token::Slash => Node::new(MathOperator::Divide, self.current_position), Token::Slash => Node::new(MathOperator::Divide, self.current_position),
Token::Percent => Node::new(MathOperator::Modulo, self.current_position), Token::Percent => Node::new(MathOperator::Modulo, self.current_position),
_ => unreachable!(),
};
self.next_token()?;
let right = self.parse_expression(operator_precedence)?;
let position = (left_start, right.position().1);
return Ok(Expression::operator(
OperatorExpression::Math {
left,
operator: math_operator,
right,
},
position,
));
}
if let Token::DoubleEqual
| Token::BangEqual
| Token::Less
| Token::LessEqual
| Token::Greater
| Token::GreaterEqual = &self.current_token
{
let comparison_operator = match &self.current_token {
Token::DoubleEqual => Node::new(ComparisonOperator::Equal, self.current_position),
Token::BangEqual => Node::new(ComparisonOperator::NotEqual, self.current_position),
Token::Less => Node::new(ComparisonOperator::LessThan, self.current_position),
Token::LessEqual => {
Node::new(ComparisonOperator::LessThanOrEqual, self.current_position)
}
Token::Greater => Node::new(ComparisonOperator::GreaterThan, self.current_position),
Token::GreaterEqual => Node::new(
ComparisonOperator::GreaterThanOrEqual,
self.current_position,
),
_ => unreachable!(),
};
self.next_token()?;
let right = self.parse_expression(operator_precedence)?;
let position = (left_start, right.position().1);
return Ok(Expression::operator(
OperatorExpression::Comparison {
left,
operator: comparison_operator,
right,
},
position,
));
}
let logic_operator = match &self.current_token {
Token::DoubleAmpersand => Node::new(LogicOperator::And, self.current_position),
Token::DoublePipe => Node::new(LogicOperator::Or, self.current_position),
_ => { _ => {
return Err(ParseError::UnexpectedToken { return Err(ParseError::UnexpectedToken {
actual: self.current_token.to_owned(), actual: self.current_token.to_owned(),
position: self.current_position, position: self.current_position,
}); })
} }
}; };
@ -611,9 +660,9 @@ impl<'src> Parser<'src> {
let position = (left_start, right.position().1); let position = (left_start, right.position().1);
Ok(Expression::operator( Ok(Expression::operator(
OperatorExpression::Math { OperatorExpression::Logic {
left, left,
operator: math_operator, operator: logic_operator,
right, right,
}, },
position, position,
@ -623,7 +672,7 @@ impl<'src> Parser<'src> {
fn parse_postfix(&mut self, left: Expression) -> Result<Expression, ParseError> { fn parse_postfix(&mut self, left: Expression) -> Result<Expression, ParseError> {
log::trace!("Parsing {} as postfix operator", self.current_token); log::trace!("Parsing {} as postfix operator", self.current_token);
let statement = match &self.current_token { let expression = match &self.current_token {
Token::LeftCurlyBrace => { Token::LeftCurlyBrace => {
let identifier = if let Some(identifier) = left.as_identifier() { let identifier = if let Some(identifier) = left.as_identifier() {
identifier identifier
@ -640,14 +689,9 @@ impl<'src> Parser<'src> {
loop { loop {
if let Token::RightCurlyBrace = self.current_token { if let Token::RightCurlyBrace = self.current_token {
let position = (start_left, self.current_position.1);
self.next_token()?; self.next_token()?;
return Ok(Expression::r#struct( break;
StructExpression::Fields { name, fields },
position,
));
} }
let field_name = self.parse_identifier()?; let field_name = self.parse_identifier()?;
@ -670,6 +714,10 @@ impl<'src> Parser<'src> {
self.next_token()?; self.next_token()?;
} }
} }
let position = (start_left, self.current_position.1);
Expression::r#struct(StructExpression::Fields { name, fields }, position)
} }
Token::LeftParenthesis => { Token::LeftParenthesis => {
self.next_token()?; self.next_token()?;
@ -734,22 +782,14 @@ impl<'src> Parser<'src> {
}; };
if self.current_token.is_postfix() { if self.current_token.is_postfix() {
self.parse_postfix(statement) self.parse_postfix(expression)
} else { } else {
Ok(statement) Ok(expression)
} }
} }
fn parse_if(&mut self) -> Result<If, ParseError> { fn parse_if(&mut self) -> Result<If, ParseError> {
if let Token::If = self.current_token { // Assume that the "if" token has already been consumed
self.next_token()?;
} else {
return Err(ParseError::ExpectedToken {
expected: TokenKind::If,
actual: self.current_token.to_owned(),
position: self.current_position,
});
}
let condition = self.parse_expression(0)?; let condition = self.parse_expression(0)?;
let if_block = self.parse_block()?; let if_block = self.parse_block()?;
@ -757,7 +797,11 @@ impl<'src> Parser<'src> {
if let Token::Else = self.current_token { if let Token::Else = self.current_token {
self.next_token()?; self.next_token()?;
if let Ok(else_if) = self.parse_if() { if let Token::If = self.current_token {
self.next_token()?;
let else_if = self.parse_if()?;
Ok(If::IfElse { Ok(If::IfElse {
condition, condition,
if_block, if_block,
@ -782,9 +826,11 @@ impl<'src> Parser<'src> {
fn parse_identifier(&mut self) -> Result<Node<Identifier>, ParseError> { fn parse_identifier(&mut self) -> Result<Node<Identifier>, ParseError> {
if let Token::Identifier(text) = self.current_token { if let Token::Identifier(text) = self.current_token {
let position = self.current_position;
self.next_token()?; self.next_token()?;
Ok(Node::new(Identifier::new(text), self.current_position)) Ok(Node::new(Identifier::new(text), position))
} else { } else {
Err(ParseError::ExpectedToken { Err(ParseError::ExpectedToken {
expected: TokenKind::Identifier, expected: TokenKind::Identifier,
@ -975,7 +1021,6 @@ impl Display for ParseError {
#[cfg(test)] #[cfg(test)]
mod tests { mod tests {
use fmt::Write;
use crate::{Identifier, Type}; use crate::{Identifier, Type};
@ -1021,17 +1066,17 @@ mod tests {
#[test] #[test]
fn tuple_struct_access() { fn tuple_struct_access() {
let source = "(Foo(42, 'bar')).0"; let source = "Foo(42, 'bar').0";
assert_eq!( assert_eq!(
parse(source), parse(source),
Ok(AbstractSyntaxTree::with_statements([ Ok(AbstractSyntaxTree::with_statements([
Statement::Expression(Expression::field_access( Statement::Expression(Expression::field_access(
FieldAccess { FieldAccess {
container: Expression::r#struct( container: Expression::call(
StructExpression::Tuple { CallExpression {
name: Node::new(Identifier::new("Foo"), (0, 0)), function: Expression::identifier(Identifier::new("Foo"), (0, 0)),
items: vec![ arguments: vec![
Expression::literal(LiteralExpression::Integer(42), (0, 0)), Expression::literal(LiteralExpression::Integer(42), (0, 0)),
Expression::literal( Expression::literal(
LiteralExpression::String("bar".to_string()), LiteralExpression::String("bar".to_string()),
@ -1112,23 +1157,23 @@ mod tests {
Ok(AbstractSyntaxTree::with_statements([ Ok(AbstractSyntaxTree::with_statements([
Statement::struct_definition( Statement::struct_definition(
StructDefinition::Tuple { StructDefinition::Tuple {
name: Node::new(Identifier::new("Foo"), (0, 0)), name: Node::new(Identifier::new("Foo"), (7, 10)),
items: vec![ items: vec![
Node::new(Type::Integer, (0, 0)), Node::new(Type::Integer, (11, 14)),
Node::new(Type::Float, (0, 0)), Node::new(Type::Float, (16, 21)),
] ]
}, },
(0, 0) (0, 22)
), ),
Statement::Expression(Expression::r#struct( Statement::Expression(Expression::call(
StructExpression::Tuple { CallExpression {
name: Node::new(Identifier::new("Foo"), (0, 0)), function: Expression::identifier(Identifier::new("Foo"), (23, 26)),
items: vec![ arguments: vec![
Expression::literal(LiteralExpression::Integer(1), (0, 0)), Expression::literal(LiteralExpression::Integer(1), (27, 28)),
Expression::literal(LiteralExpression::Float(2.0), (0, 0)) Expression::literal(LiteralExpression::Float(2.0), (30, 33))
] ]
}, },
(0, 0) (23, 34)
)) ))
])) ]))
); );
@ -1143,13 +1188,13 @@ mod tests {
Ok(AbstractSyntaxTree::with_statements([ Ok(AbstractSyntaxTree::with_statements([
Statement::StructDefinition(Node::new( Statement::StructDefinition(Node::new(
StructDefinition::Tuple { StructDefinition::Tuple {
name: Node::new(Identifier::new("Foo"), (0, 0)), name: Node::new(Identifier::new("Foo"), (7, 10)),
items: vec![ items: vec![
Node::new(Type::Integer, (0, 0)), Node::new(Type::Integer, (11, 14)),
Node::new(Type::Float, (0, 0)), Node::new(Type::Float, (16, 21)),
], ],
}, },
(0, 0) (0, 22)
)) ))
])) ]))
); );
@ -1164,9 +1209,9 @@ mod tests {
Ok(AbstractSyntaxTree::with_statements([ Ok(AbstractSyntaxTree::with_statements([
Statement::StructDefinition(Node::new( Statement::StructDefinition(Node::new(
StructDefinition::Unit { StructDefinition::Unit {
name: Node::new(Identifier::new("Foo"), (0, 0)), name: Node::new(Identifier::new("Foo"), (7, 10)),
}, },
(0, 0) (0, 10)
)) ))
])) ]))
); );
@ -1209,13 +1254,6 @@ mod tests {
); );
} }
#[test]
fn map_property_nested() {
let source = "{ x = { y = 42 } }.x.y";
assert_eq!(parse(source), todo!());
}
#[test] #[test]
fn range() { fn range() {
let source = "0..42"; let source = "0..42";
@ -1225,10 +1263,10 @@ mod tests {
Ok(AbstractSyntaxTree::with_statements([ Ok(AbstractSyntaxTree::with_statements([
Statement::Expression(Expression::range( Statement::Expression(Expression::range(
Range { Range {
start: Expression::literal(LiteralExpression::Integer(0), (0, 0)), start: Expression::literal(LiteralExpression::Integer(0), (0, 1)),
end: Expression::literal(LiteralExpression::Integer(42), (0, 0)), end: Expression::literal(LiteralExpression::Integer(42), (3, 5)),
}, },
(0, 0) (0, 5)
)) ))
])) ]))
); );
@ -1241,19 +1279,22 @@ mod tests {
assert_eq!( assert_eq!(
parse(source), parse(source),
Ok(AbstractSyntaxTree::with_statements([ Ok(AbstractSyntaxTree::with_statements([
Statement::Expression(Expression::operator( Statement::ExpressionNullified(Node::new(
Expression::operator(
OperatorExpression::Assignment { OperatorExpression::Assignment {
assignee: Expression::identifier(Identifier::new("a"), (0, 0)), assignee: Expression::identifier(Identifier::new("a"), (0, 1)),
value: Expression::literal(LiteralExpression::Integer(1), (0, 0)), value: Expression::literal(LiteralExpression::Integer(1), (4, 5)),
}, },
(0, 0) (0, 5)
),
(0, 6)
)), )),
Statement::Expression(Expression::operator( Statement::Expression(Expression::operator(
OperatorExpression::Negation(Expression::identifier( OperatorExpression::Negation(Expression::identifier(
Identifier::new("a"), Identifier::new("a"),
(0, 0) (8, 9)
)), )),
(0, 0) (7, 9)
)) ))
])) ]))
); );
@ -1270,15 +1311,15 @@ mod tests {
OperatorExpression::Negation(Expression::grouped( OperatorExpression::Negation(Expression::grouped(
Expression::operator( Expression::operator(
OperatorExpression::Math { OperatorExpression::Math {
left: Expression::literal(LiteralExpression::Integer(1), (0, 0)), left: Expression::literal(LiteralExpression::Integer(1), (2, 3)),
operator: Node::new(MathOperator::Add, (0, 0)), operator: Node::new(MathOperator::Add, (4, 5)),
right: Expression::literal(LiteralExpression::Integer(1), (0, 0)), right: Expression::literal(LiteralExpression::Integer(1), (6, 7)),
}, },
(0, 0) (2, 7)
), ),
(0, 0) (1, 8)
)), )),
(0, 0) (0, 8)
)) ))
])) ]))
); );
@ -1295,15 +1336,15 @@ mod tests {
OperatorExpression::Not(Expression::grouped( OperatorExpression::Not(Expression::grouped(
Expression::operator( Expression::operator(
OperatorExpression::Comparison { OperatorExpression::Comparison {
left: Expression::literal(LiteralExpression::Integer(1), (0, 0)), left: Expression::literal(LiteralExpression::Integer(1), (2, 3)),
operator: Node::new(ComparisonOperator::GreaterThan, (0, 0)), operator: Node::new(ComparisonOperator::GreaterThan, (4, 5)),
right: Expression::literal(LiteralExpression::Integer(42), (0, 0)), right: Expression::literal(LiteralExpression::Integer(42), (6, 8)),
}, },
(0, 0) (2, 8)
), ),
(0, 0) (1, 9)
)), )),
(0, 0) (0, 9)
)) ))
])) ]))
); );
@ -1316,16 +1357,19 @@ mod tests {
assert_eq!( assert_eq!(
parse(source), parse(source),
Ok(AbstractSyntaxTree::with_statements([ Ok(AbstractSyntaxTree::with_statements([
Statement::Expression(Expression::operator( Statement::ExpressionNullified(Node::new(
Expression::operator(
OperatorExpression::Assignment { OperatorExpression::Assignment {
assignee: Expression::identifier(Identifier::new("a"), (0, 0)), assignee: Expression::identifier(Identifier::new("a"), (0, 1)),
value: Expression::literal(LiteralExpression::Boolean(false), (0, 0)), value: Expression::literal(LiteralExpression::Boolean(false), (4, 9)),
}, },
(0, 0) (0, 9)
),
(0, 10)
)), )),
Statement::Expression(Expression::operator( Statement::Expression(Expression::operator(
OperatorExpression::Not(Expression::identifier(Identifier::new("a"), (0, 0))), OperatorExpression::Not(Expression::identifier(Identifier::new("a"), (12, 13))),
(0, 0) (11, 13)
)), )),
])) ]))
); );
@ -1427,13 +1471,6 @@ mod tests {
) )
} }
#[test]
fn malformed_map() {
let source = "{ x = 1, y = 2, z = 3; }";
assert_eq!(parse(source), todo!())
}
#[test] #[test]
fn while_loop() { fn while_loop() {
let source = "while x < 10 { x += 1 }"; let source = "while x < 10 { x += 1 }";
@ -1445,28 +1482,34 @@ mod tests {
Loop::While { Loop::While {
condition: Expression::operator( condition: Expression::operator(
OperatorExpression::Comparison { OperatorExpression::Comparison {
left: Expression::identifier(Identifier::new("x"), (0, 0)), left: Expression::identifier(Identifier::new("x"), (6, 7)),
operator: Node::new(ComparisonOperator::LessThan, (0, 0)), operator: Node::new(ComparisonOperator::LessThan, (8, 9)),
right: Expression::literal(LiteralExpression::Integer(10), (0, 0)), right: Expression::literal(
LiteralExpression::Integer(10),
(10, 12)
),
}, },
(0, 0) (6, 12)
), ),
block: Node::new( block: Node::new(
Block::Sync(vec![Statement::Expression(Expression::operator( Block::Sync(vec![Statement::Expression(Expression::operator(
OperatorExpression::CompoundAssignment { OperatorExpression::CompoundAssignment {
assignee: Expression::identifier(Identifier::new("x"), (0, 0)), assignee: Expression::identifier(
operator: Node::new(MathOperator::Add, (0, 0)), Identifier::new("x"),
(15, 16)
),
operator: Node::new(MathOperator::Add, (17, 19)),
value: Expression::literal( value: Expression::literal(
LiteralExpression::Integer(1), LiteralExpression::Integer(1),
(0, 0) (20, 21)
), ),
}, },
(0, 0) (15, 21)
))]), ))]),
(0, 0) (13, 23)
) )
}, },
(0, 0) (0, 23)
)) ))
])) ]))
) )
@ -1506,11 +1549,11 @@ mod tests {
Ok(AbstractSyntaxTree::with_statements([ Ok(AbstractSyntaxTree::with_statements([
Statement::Expression(Expression::operator( Statement::Expression(Expression::operator(
OperatorExpression::Logic { OperatorExpression::Logic {
left: Expression::literal(LiteralExpression::Boolean(true), (0, 0)), left: Expression::literal(LiteralExpression::Boolean(true), (0, 4)),
operator: Node::new(LogicOperator::Or, (0, 0)), operator: Node::new(LogicOperator::Or, (5, 7)),
right: Expression::literal(LiteralExpression::Boolean(false), (0, 0)), right: Expression::literal(LiteralExpression::Boolean(false), (8, 13)),
}, },
(0, 0) (0, 13)
)) ))
])) ]))
) )
@ -1562,7 +1605,7 @@ mod tests {
(0, 0) (0, 0)
), ),
(0, 0) (0, 0)
)), ),),
Statement::ExpressionNullified(Node::new( Statement::ExpressionNullified(Node::new(
Expression::operator( Expression::operator(
OperatorExpression::Assignment { OperatorExpression::Assignment {
@ -1578,7 +1621,7 @@ mod tests {
(0, 0) (0, 0)
), ),
(0, 0) (0, 0)
)), ),),
Statement::Expression(Expression::operator( Statement::Expression(Expression::operator(
OperatorExpression::Assignment { OperatorExpression::Assignment {
assignee: Expression::identifier(Identifier::new("baz"), (0, 0)), assignee: Expression::identifier(Identifier::new("baz"), (0, 0)),
@ -1596,34 +1639,6 @@ mod tests {
) )
} }
#[test]
fn empty_map() {
let source = "{}";
assert_eq!(parse(source), todo!());
}
#[test]
fn map_with_trailing_comma() {
let source = "{ foo = 42, bar = 42, baz = '42', }";
assert_eq!(parse(source), todo!());
}
#[test]
fn map_with_two_fields() {
let source = "{ x = 42, y = 'foobar' }";
assert_eq!(parse(source), todo!());
}
#[test]
fn map_with_one_field() {
let source = "{ x = 42 }";
assert_eq!(parse(source), todo!());
}
#[test] #[test]
fn equal() { fn equal() {
let source = "42 == 42"; let source = "42 == 42";
@ -1729,7 +1744,7 @@ mod tests {
Statement::Expression(Expression::operator( Statement::Expression(Expression::operator(
OperatorExpression::Math { OperatorExpression::Math {
left: Expression::literal(LiteralExpression::Integer(-1), (0, 2)), left: Expression::literal(LiteralExpression::Integer(-1), (0, 2)),
operator: Node::new(MathOperator::Subtract, (2, 3)), operator: Node::new(MathOperator::Subtract, (3, 4)),
right: Expression::literal(LiteralExpression::Integer(-2), (5, 7)), right: Expression::literal(LiteralExpression::Integer(-2), (5, 7)),
}, },
(0, 7), (0, 7),
@ -1778,7 +1793,7 @@ mod tests {
#[test] #[test]
fn string_concatenation() { fn string_concatenation() {
let source = "\"Hello, \" + \"World!\""; let source = "'Hello, ' + 'World!'";
assert_eq!( assert_eq!(
parse(source), parse(source),
@ -1789,13 +1804,13 @@ mod tests {
LiteralExpression::String("Hello, ".to_string()), LiteralExpression::String("Hello, ".to_string()),
(0, 9) (0, 9)
), ),
operator: Node::new(MathOperator::Add, (9, 10)), operator: Node::new(MathOperator::Add, (10, 11)),
right: Expression::literal( right: Expression::literal(
LiteralExpression::String("World!".to_string()), LiteralExpression::String("World!".to_string()),
(10, 18) (12, 20)
) )
}, },
(0, 18) (0, 20)
)) ))
])) ]))
); );
@ -2023,7 +2038,7 @@ mod tests {
(4, 9) (4, 9)
) )
}, },
(0, 5) (0, 9)
)) ))
])) ]))
); );

View File

@ -35,6 +35,7 @@ pub enum Token<'src> {
WriteLine, WriteLine,
// Symbols // Symbols
BangEqual,
Bang, Bang,
Colon, Colon,
Comma, Comma,
@ -68,6 +69,7 @@ impl<'src> Token<'src> {
pub fn to_owned(&self) -> TokenOwned { pub fn to_owned(&self) -> TokenOwned {
match self { match self {
Token::Async => TokenOwned::Async, Token::Async => TokenOwned::Async,
Token::BangEqual => TokenOwned::BangEqual,
Token::Bang => TokenOwned::Bang, Token::Bang => TokenOwned::Bang,
Token::Bool => TokenOwned::Bool, Token::Bool => TokenOwned::Bool,
Token::Boolean(boolean) => TokenOwned::Boolean(boolean.to_string()), Token::Boolean(boolean) => TokenOwned::Boolean(boolean.to_string()),
@ -128,6 +130,7 @@ impl<'src> Token<'src> {
Token::String(text) => text, Token::String(text) => text,
Token::Async => "async", Token::Async => "async",
Token::BangEqual => "!=",
Token::Bang => "!", Token::Bang => "!",
Token::Bool => "bool", Token::Bool => "bool",
Token::Colon => ":", Token::Colon => ":",
@ -177,6 +180,7 @@ impl<'src> Token<'src> {
pub fn kind(&self) -> TokenKind { pub fn kind(&self) -> TokenKind {
match self { match self {
Token::Async => TokenKind::Async, Token::Async => TokenKind::Async,
Token::BangEqual => TokenKind::BangEqual,
Token::Bang => TokenKind::Bang, Token::Bang => TokenKind::Bang,
Token::Bool => TokenKind::Bool, Token::Bool => TokenKind::Bool,
Token::Boolean(_) => TokenKind::Boolean, Token::Boolean(_) => TokenKind::Boolean,
@ -246,7 +250,7 @@ impl<'src> Token<'src> {
Token::DoubleAmpersand => 4, Token::DoubleAmpersand => 4,
Token::DoublePipe => 3, Token::DoublePipe => 3,
Token::Equal | Token::MinusEqual | Token::PlusEqual => 2, Token::Equal | Token::MinusEqual | Token::PlusEqual => 2,
Token::DoubleDot | Token::Semicolon => 1, Token::DoubleDot => 1,
_ => 0, _ => 0,
} }
} }
@ -273,10 +277,7 @@ impl<'src> Token<'src> {
} }
pub fn is_postfix(&self) -> bool { pub fn is_postfix(&self) -> bool {
matches!( matches!(self, Token::LeftParenthesis | Token::LeftSquareBrace)
self,
Token::LeftParenthesis | Token::LeftSquareBrace | Token::Semicolon
)
} }
} }
@ -320,6 +321,7 @@ pub enum TokenOwned {
// Symbols // Symbols
Async, Async,
Bang, Bang,
BangEqual,
Colon, Colon,
Comma, Comma,
Dot, Dot,
@ -354,6 +356,7 @@ impl Display for TokenOwned {
match self { match self {
TokenOwned::Async => Token::Async.fmt(f), TokenOwned::Async => Token::Async.fmt(f),
TokenOwned::Bang => Token::Bang.fmt(f), TokenOwned::Bang => Token::Bang.fmt(f),
TokenOwned::BangEqual => Token::BangEqual.fmt(f),
TokenOwned::Bool => write!(f, "bool"), TokenOwned::Bool => write!(f, "bool"),
TokenOwned::Boolean(boolean) => write!(f, "{boolean}"), TokenOwned::Boolean(boolean) => write!(f, "{boolean}"),
TokenOwned::Colon => Token::Colon.fmt(f), TokenOwned::Colon => Token::Colon.fmt(f),
@ -435,6 +438,7 @@ pub enum TokenKind {
WriteLine, WriteLine,
// Symbols // Symbols
BangEqual,
Bang, Bang,
Colon, Colon,
Comma, Comma,
@ -471,6 +475,7 @@ impl Display for TokenKind {
match self { match self {
TokenKind::Async => Token::Async.fmt(f), TokenKind::Async => Token::Async.fmt(f),
TokenKind::Bang => Token::Bang.fmt(f), TokenKind::Bang => Token::Bang.fmt(f),
TokenKind::BangEqual => Token::BangEqual.fmt(f),
TokenKind::Bool => Token::Bool.fmt(f), TokenKind::Bool => Token::Bool.fmt(f),
TokenKind::Boolean => write!(f, "boolean value"), TokenKind::Boolean => write!(f, "boolean value"),
TokenKind::Colon => Token::Colon.fmt(f), TokenKind::Colon => Token::Colon.fmt(f),
@ -526,10 +531,11 @@ impl Display for TokenKind {
pub(crate) mod tests { pub(crate) mod tests {
use super::*; use super::*;
pub fn all_tokens<'src>() -> [Token<'src>; 48] { pub fn all_tokens<'src>() -> [Token<'src>; 49] {
[ [
Token::Async, Token::Async,
Token::Bang, Token::Bang,
Token::BangEqual,
Token::Bool, Token::Bool,
Token::Boolean("true"), Token::Boolean("true"),
Token::Colon, Token::Colon,