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dust/dust-lang/src/parser.rs

1322 lines
42 KiB
Rust
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use std::{
fmt::{self, Display, Formatter},
mem::replace,
num::{ParseFloatError, ParseIntError},
};
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use colored::Colorize;
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use crate::{
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AnnotatedError, Chunk, ChunkError, DustError, Identifier, Instruction, LexError, Lexer,
Operation, Span, Token, TokenKind, TokenOwned, Value,
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};
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pub fn parse(source: &str) -> Result<Chunk, DustError> {
let lexer = Lexer::new(source);
let mut parser = Parser::new(lexer).map_err(|error| DustError::Parse { error, source })?;
while !parser.is_eof() {
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parser
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.parse_statement(true)
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.map_err(|error| DustError::Parse { error, source })?;
}
Ok(parser.chunk)
}
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#[derive(Debug)]
pub struct Parser<'src> {
chunk: Chunk,
lexer: Lexer<'src>,
current_register: u8,
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current_token: Token<'src>,
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current_position: Span,
previous_token: Token<'src>,
previous_position: Span,
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}
impl<'src> Parser<'src> {
pub fn new(mut lexer: Lexer<'src>) -> Result<Self, ParseError> {
let (current_token, current_position) = lexer.next_token()?;
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log::info!(
"{} at {}",
current_token.to_string().bold(),
current_position.to_string()
);
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Ok(Parser {
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lexer,
chunk: Chunk::new(),
current_register: 0,
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current_token,
current_position,
previous_token: Token::Eof,
previous_position: Span(0, 0),
})
}
pub fn take_chunk(self) -> Chunk {
self.chunk
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}
fn is_eof(&self) -> bool {
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matches!(self.current_token, Token::Eof)
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}
fn increment_register(&mut self) -> Result<(), ParseError> {
let current = self.current_register;
if current == u8::MAX {
Err(ParseError::RegisterOverflow {
position: self.current_position,
})
} else {
self.current_register += 1;
Ok(())
}
}
fn decrement_register(&mut self) -> Result<(), ParseError> {
let current = self.current_register;
if current == 0 {
Err(ParseError::RegisterUnderflow {
position: self.current_position,
})
} else {
self.current_register -= 1;
Ok(())
}
}
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fn advance(&mut self) -> Result<(), ParseError> {
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if self.is_eof() {
return Ok(());
}
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let (new_token, position) = self.lexer.next_token()?;
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log::info!(
"{} at {}",
new_token.to_string().bold(),
position.to_string()
);
self.previous_token = replace(&mut self.current_token, new_token);
self.previous_position = replace(&mut self.current_position, position);
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Ok(())
}
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fn allow(&mut self, allowed: TokenKind) -> Result<bool, ParseError> {
if self.current_token.kind() == allowed {
self.advance()?;
Ok(true)
} else {
Ok(false)
}
}
fn expect(&mut self, expected: TokenKind) -> Result<(), ParseError> {
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if self.current_token.kind() == expected {
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self.advance()
} else {
Err(ParseError::ExpectedToken {
expected,
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found: self.current_token.to_owned(),
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position: self.current_position,
})
}
}
fn emit_instruction(&mut self, instruction: Instruction, position: Span) {
self.chunk.push_instruction(instruction, position);
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}
fn emit_constant(&mut self, value: Value) -> Result<(), ParseError> {
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let position = self.previous_position;
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let constant_index = self.chunk.push_constant(value, position)?;
self.emit_instruction(
Instruction::load_constant(self.current_register, constant_index, false),
position,
);
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Ok(())
}
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fn parse_boolean(
&mut self,
_allow_assignment: bool,
_allow_return: bool,
) -> Result<(), ParseError> {
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let boolean_text = if let Token::Boolean(text) = self.current_token {
text
} else {
return Err(ParseError::ExpectedToken {
expected: TokenKind::Boolean,
found: self.current_token.to_owned(),
position: self.current_position,
});
};
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let position = self.current_position;
let boolean = boolean_text.parse::<bool>().unwrap();
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self.advance()?;
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self.emit_instruction(
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Instruction::load_boolean(self.current_register, boolean, false),
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position,
);
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Ok(())
}
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fn parse_byte(
&mut self,
_allow_assignment: bool,
_allow_return: bool,
) -> Result<(), ParseError> {
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if let Token::Byte(text) = self.current_token {
self.advance()?;
let byte =
u8::from_str_radix(&text[2..], 16).map_err(|error| ParseError::ParseIntError {
error,
position: self.previous_position,
})?;
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let value = Value::byte(byte);
self.emit_constant(value)?;
}
Ok(())
}
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fn parse_character(
&mut self,
_allow_assignment: bool,
_allow_return: bool,
) -> Result<(), ParseError> {
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if let Token::Character(character) = self.current_token {
self.advance()?;
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let value = Value::character(character);
self.emit_constant(value)?;
}
Ok(())
}
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fn parse_float(
&mut self,
_allow_assignment: bool,
_allow_return: bool,
) -> Result<(), ParseError> {
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if let Token::Float(text) = self.current_token {
self.advance()?;
let float = text
.parse::<f64>()
.map_err(|error| ParseError::ParseFloatError {
error,
position: self.previous_position,
})?;
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let value = Value::float(float);
self.emit_constant(value)?;
}
Ok(())
}
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fn parse_integer(
&mut self,
_allow_assignment: bool,
_allow_return: bool,
) -> Result<(), ParseError> {
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if let Token::Integer(text) = self.current_token {
self.advance()?;
let integer = text
.parse::<i64>()
.map_err(|error| ParseError::ParseIntError {
error,
position: self.previous_position,
})?;
let value = Value::integer(integer);
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self.emit_constant(value)?;
}
Ok(())
}
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fn parse_string(
&mut self,
_allow_assignment: bool,
_allow_return: bool,
) -> Result<(), ParseError> {
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if let Token::String(text) = self.current_token {
self.advance()?;
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let value = Value::string(text);
self.emit_constant(value)?;
}
Ok(())
}
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fn parse_grouped(
&mut self,
_allow_assignment: bool,
_allow_return: bool,
) -> Result<(), ParseError> {
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self.allow(TokenKind::LeftParenthesis)?;
self.parse(Precedence::Assignment)?; // Do not allow assignment
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self.expect(TokenKind::RightParenthesis)
}
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fn parse_unary(
&mut self,
_allow_assignment: bool,
_allow_return: bool,
) -> Result<(), ParseError> {
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let operator = self.current_token;
let operator_position = self.current_position;
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self.advance()?;
self.parse(Precedence::Assignment)?; // Do not allow assignment
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let (previous_instruction, previous_position) =
self.chunk.pop_instruction(self.current_position)?;
let (push_back, is_constant, argument) = {
match previous_instruction.operation() {
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Operation::GetLocal => (false, false, previous_instruction.a()),
Operation::LoadConstant => (false, true, previous_instruction.a()),
Operation::LoadBoolean => (true, false, previous_instruction.a()),
Operation::Close => {
return Err(ParseError::ExpectedExpression {
found: self.previous_token.to_owned(),
position: self.previous_position,
});
}
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_ => (true, false, previous_instruction.a()),
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}
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};
if push_back {
self.increment_register()?;
}
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let mut instruction = match operator.kind() {
TokenKind::Bang => Instruction::not(self.current_register, argument),
TokenKind::Minus => Instruction::negate(self.current_register, argument),
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_ => {
return Err(ParseError::ExpectedTokenMultiple {
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expected: &[TokenKind::Bang, TokenKind::Minus],
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found: operator.to_owned(),
position: operator_position,
})
}
};
if is_constant {
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instruction.set_b_is_constant();
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}
if push_back {
self.emit_instruction(previous_instruction, previous_position);
}
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self.emit_instruction(instruction, operator_position);
Ok(())
}
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fn handle_binary_argument(
&mut self,
instruction: &Instruction,
) -> Result<(bool, bool, u8), ParseError> {
let mut push_back = false;
let mut is_constant = false;
let argument = match instruction.operation() {
Operation::GetLocal => {
let local_index = instruction.b();
let local = self.chunk.get_local(local_index, self.current_position)?;
if let Some(index) = local.register_index {
index
} else {
instruction.a()
}
}
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Operation::LoadConstant => {
is_constant = true;
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instruction.b()
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}
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Operation::LoadBoolean => instruction.a(),
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Operation::Close => {
return Err(ParseError::ExpectedExpression {
found: self.previous_token.to_owned(),
position: self.previous_position,
});
}
_ => {
push_back = true;
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instruction.a()
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}
};
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Ok((push_back, is_constant, argument))
}
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fn parse_math_binary(&mut self) -> Result<(), ParseError> {
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let (left_instruction, left_position) =
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self.chunk.pop_instruction(self.current_position)?;
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let (push_back_left, left_is_constant, left) =
self.handle_binary_argument(&left_instruction)?;
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let operator = self.current_token;
let operator_position = self.current_position;
let rule = ParseRule::from(&operator.kind());
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self.advance()?;
self.parse(rule.precedence.increment())?;
let mut new_instruction = match operator.kind() {
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TokenKind::Plus => Instruction::add(self.current_register, left, 0),
TokenKind::Minus => Instruction::subtract(self.current_register, left, 0),
TokenKind::Star => Instruction::multiply(self.current_register, left, 0),
TokenKind::Slash => Instruction::divide(self.current_register, left, 0),
TokenKind::Percent => Instruction::modulo(self.current_register, left, 0),
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_ => {
return Err(ParseError::ExpectedTokenMultiple {
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expected: &[
TokenKind::Plus,
TokenKind::Minus,
TokenKind::Star,
TokenKind::Slash,
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TokenKind::Percent,
],
found: operator.to_owned(),
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position: operator_position,
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})
}
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};
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self.increment_register()?;
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let (right_instruction, right_position) =
self.chunk.pop_instruction(self.current_position)?;
let (push_back_right, right_is_constant, right) =
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self.handle_binary_argument(&right_instruction)?;
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new_instruction.set_c(right);
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if left_is_constant {
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new_instruction.set_b_is_constant();
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}
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if right_is_constant {
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new_instruction.set_c_is_constant();
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}
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let mut instructions = if !push_back_left && !push_back_right {
self.emit_instruction(new_instruction, operator_position);
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return Ok(());
} else if push_back_right && !push_back_left {
vec![
(right_instruction, right_position),
(new_instruction, operator_position),
]
} else if push_back_left && !push_back_right {
vec![
(left_instruction, left_position),
(new_instruction, operator_position),
]
} else {
vec![
(new_instruction, operator_position),
(left_instruction, left_position),
(right_instruction, right_position),
]
};
while let Ok(operation) = self.chunk.get_last_operation() {
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if operation.is_math() {
let (instruction, position) = self.chunk.pop_instruction(self.current_position)?;
instructions.push((instruction, position));
} else {
break;
}
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}
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instructions.sort_by_key(|(instruction, _)| instruction.a());
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for (instruction, position) in instructions {
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self.emit_instruction(instruction, position);
}
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Ok(())
}
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fn parse_comparison_binary(&mut self) -> Result<(), ParseError> {
let (left_instruction, left_position) =
self.chunk.pop_instruction(self.current_position)?;
let (push_back_left, left_is_constant, left) =
self.handle_binary_argument(&left_instruction)?;
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let operator = self.current_token;
let operator_position = self.current_position;
let rule = ParseRule::from(&operator.kind());
let mut instruction = match self.current_token.kind() {
TokenKind::DoubleEqual => Instruction::equal(true, left.saturating_sub(1), 0),
TokenKind::BangEqual => Instruction::equal(false, left.saturating_sub(1), 0),
TokenKind::Less => Instruction::less(true, left.saturating_sub(1), 0),
TokenKind::LessEqual => Instruction::less_equal(true, left.saturating_sub(1), 0),
TokenKind::Greater => Instruction::less_equal(false, left.saturating_sub(1), 0),
TokenKind::GreaterEqual => Instruction::less(false, left.saturating_sub(1), 0),
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_ => {
return Err(ParseError::ExpectedTokenMultiple {
expected: &[
TokenKind::DoubleEqual,
TokenKind::BangEqual,
TokenKind::Less,
TokenKind::LessEqual,
TokenKind::Greater,
TokenKind::GreaterEqual,
],
found: self.current_token.to_owned(),
position: self.current_position,
})
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}
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};
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self.advance()?;
self.parse(rule.precedence.increment())?;
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let (right_instruction, right_position) =
self.chunk.pop_instruction(self.current_position)?;
let (push_back_right, right_is_constant, right) =
self.handle_binary_argument(&right_instruction)?;
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instruction.set_c(right);
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if left_is_constant {
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instruction.set_b_is_constant();
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}
if right_is_constant {
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instruction.set_c_is_constant();
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}
if push_back_left {
self.emit_instruction(left_instruction, left_position);
}
if push_back_right {
self.emit_instruction(right_instruction, right_position);
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}
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self.emit_instruction(instruction, operator_position);
self.emit_instruction(Instruction::jump(1, true), operator_position);
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Ok(())
}
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fn parse_logical_binary(&mut self) -> Result<(), ParseError> {
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let (left_instruction, left_position) =
self.chunk.pop_instruction(self.current_position)?;
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let operator = self.current_token;
let operator_position = self.current_position;
let rule = ParseRule::from(&operator.kind());
let instruction = match operator.kind() {
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TokenKind::DoubleAmpersand => Instruction::test(left_instruction.a(), false),
TokenKind::DoublePipe => Instruction::test(left_instruction.a(), true),
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_ => {
return Err(ParseError::ExpectedTokenMultiple {
expected: &[TokenKind::DoubleAmpersand, TokenKind::DoublePipe],
found: operator.to_owned(),
position: operator_position,
})
}
};
self.increment_register()?;
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self.advance()?;
self.parse(rule.precedence.increment())?;
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let (right_instruction, right_position) =
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self.chunk.pop_instruction(self.current_position)?;
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self.emit_instruction(left_instruction, left_position);
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self.emit_instruction(instruction, operator_position);
self.emit_instruction(Instruction::jump(1, true), operator_position);
self.emit_instruction(right_instruction, right_position);
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Ok(())
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}
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fn parse_variable(
&mut self,
allow_assignment: bool,
_allow_return: bool,
) -> Result<(), ParseError> {
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let token = self.current_token;
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let start_position = self.current_position;
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self.advance()?;
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let local_index = self.parse_identifier_from(token, start_position)?;
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if allow_assignment && self.allow(TokenKind::Equal)? {
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let is_mutable = self.chunk.get_local(local_index, start_position)?.mutable;
if !is_mutable {
return Err(ParseError::CannotMutateImmutableVariable {
identifier: self.chunk.get_identifier(local_index).cloned().unwrap(),
position: start_position,
});
}
self.parse(Precedence::Assignment)?; // Do not allow assignment
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let (mut previous_instruction, previous_position) =
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self.chunk.pop_instruction(self.current_position)?;
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if previous_instruction.operation().is_math() {
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let previous_register = self
.chunk
.get_local(local_index, start_position)?
.register_index;
if let Some(register_index) = previous_register {
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log::trace!("Condensing SET_LOCAL to binary expression");
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previous_instruction.set_a(register_index);
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self.emit_instruction(previous_instruction, self.current_position);
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return Ok(());
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}
}
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self.emit_instruction(previous_instruction, previous_position);
self.emit_instruction(
Instruction::set_local(self.current_register, local_index),
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start_position,
);
} else {
self.emit_instruction(
Instruction::get_local(self.current_register, local_index),
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self.previous_position,
);
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}
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Ok(())
}
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fn parse_identifier_from(&mut self, token: Token, position: Span) -> Result<u8, ParseError> {
if let Token::Identifier(text) = token {
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let identifier = Identifier::new(text);
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if let Ok(local_index) = self.chunk.get_local_index(&identifier, position) {
Ok(local_index)
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} else {
Err(ParseError::UndefinedVariable {
identifier,
position,
})
}
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} else {
Err(ParseError::ExpectedToken {
expected: TokenKind::Identifier,
found: self.current_token.to_owned(),
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position,
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})
}
}
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fn parse_block(
&mut self,
_allow_assignment: bool,
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_allow_return: bool,
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) -> Result<(), ParseError> {
self.advance()?;
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self.chunk.begin_scope();
while !self.allow(TokenKind::RightCurlyBrace)? && !self.is_eof() {
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self.parse_statement(_allow_return)?;
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}
self.chunk.end_scope();
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Ok(())
}
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fn parse_list(
&mut self,
_allow_assignment: bool,
_allow_return: bool,
) -> Result<(), ParseError> {
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let start = self.current_position.0;
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self.advance()?;
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let start_register = self.current_register;
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while !self.allow(TokenKind::RightSquareBrace)? && !self.is_eof() {
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let next_register = self.current_register;
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self.parse(Precedence::Assignment)?; // Do not allow assignment
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if let Operation::LoadConstant = self.chunk.get_last_operation()? {
self.increment_register()?;
}
if next_register != self.current_register.saturating_sub(1) {
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self.emit_instruction(
Instruction::close(next_register, self.current_register.saturating_sub(1)),
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self.current_position,
);
}
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self.allow(TokenKind::Comma)?;
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}
let end_register = self.current_register - 1;
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let end = self.current_position.1;
self.emit_instruction(
Instruction::load_list(self.current_register, start_register, end_register),
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Span(start, end),
);
Ok(())
}
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fn parse_if(&mut self, allow_assignment: bool, allow_return: bool) -> Result<(), ParseError> {
let length = self.chunk.len();
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self.advance()?;
self.parse(Precedence::Assignment)?; // Do not allow assignment
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let is_explicit_boolean =
matches!(self.previous_token, Token::Boolean(_)) && length == self.chunk.len() - 1;
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if is_explicit_boolean {
self.emit_instruction(
Instruction::test(self.current_register, false),
self.current_position,
);
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}
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if let Token::LeftCurlyBrace = self.current_token {
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self.parse_block(allow_assignment, allow_return)?;
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}
if self.chunk.get_last_operation()? == Operation::LoadConstant
&& self.current_token == Token::Else
{
let (mut load_constant, load_constant_position) =
self.chunk.pop_instruction(self.current_position)?;
load_constant.set_c_to_boolean(true);
self.emit_instruction(load_constant, load_constant_position);
}
if self.allow(TokenKind::Else)? {
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if let Token::If = self.current_token {
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self.parse_if(allow_assignment, allow_return)?;
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}
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if let Token::LeftCurlyBrace = self.current_token {
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self.parse_block(allow_assignment, allow_return)?;
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}
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}
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Ok(())
}
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fn parse_while(
&mut self,
allow_assignment: bool,
allow_return: bool,
) -> Result<(), ParseError> {
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self.advance()?;
let jump_start = self.chunk.len();
self.parse(Precedence::Assignment)?; // Do not allow assignment
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self.parse_block(allow_assignment, allow_return)?;
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let jump_end = self.chunk.len();
let jump_distance = jump_end.saturating_sub(jump_start) as u8;
let jump_back = Instruction::jump(jump_distance, false);
let jump_over_index = self.chunk.find_last_instruction(Operation::Jump);
if let Some(index) = jump_over_index {
let (mut jump_over, jump_over_position) = self.chunk.remove_instruction(index);
jump_over.set_b(jump_distance);
self.chunk
.insert_instruction(index, jump_over, jump_over_position);
}
self.chunk
.insert_instruction(jump_end, jump_back, self.current_position);
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Ok(())
}
fn parse_expression(&mut self) -> Result<(), ParseError> {
self.parse(Precedence::None)?;
if let [Some((jump, _)), Some((comparison, comparison_position))] =
self.chunk.get_last_n_instructions()
{
if let (Operation::Jump, Operation::Equal | Operation::Less | Operation::LessEqual) =
(jump.operation(), comparison.operation())
{
let comparison_position = *comparison_position;
self.emit_instruction(
Instruction::load_boolean(self.current_register, true, true),
comparison_position,
);
self.emit_instruction(
Instruction::load_boolean(self.current_register, false, false),
comparison_position,
);
self.increment_register()?;
}
}
Ok(())
}
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fn parse_statement(&mut self, allow_return: bool) -> Result<(), ParseError> {
match self.current_token {
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Token::Let => {
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self.parse_let_statement(true, allow_return)?;
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}
Token::LeftCurlyBrace => {
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self.parse_block(true, true)?;
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}
_ => {
self.parse_expression()?;
}
};
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if !self.allow(TokenKind::Semicolon)? && self.is_eof() {
let register = self.current_register.saturating_sub(1);
self.emit_instruction(
Instruction::r#return(register, register),
self.current_position,
);
}
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Ok(())
}
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fn parse_let_statement(
&mut self,
allow_assignment: bool,
_allow_return: bool,
) -> Result<(), ParseError> {
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if !allow_assignment {
return Err(ParseError::ExpectedExpression {
found: self.current_token.to_owned(),
position: self.current_position,
});
}
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self.allow(TokenKind::Let)?;
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let is_mutable = self.allow(TokenKind::Mut)?;
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let position = self.current_position;
let identifier = if let Token::Identifier(text) = self.current_token {
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self.advance()?;
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Identifier::new(text)
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} else {
return Err(ParseError::ExpectedToken {
expected: TokenKind::Identifier,
found: self.current_token.to_owned(),
position: self.current_position,
});
};
self.expect(TokenKind::Equal)?;
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self.parse_expression()?;
self.increment_register()?;
let (previous_instruction, previous_position) = self.chunk.get_last_instruction()?;
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let register = previous_instruction.a();
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let local_index =
self.chunk
.declare_local(identifier, is_mutable, register, *previous_position)?;
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self.emit_instruction(
Instruction::define_local(register, local_index, is_mutable),
position,
);
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self.allow(TokenKind::Semicolon)?;
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Ok(())
}
fn parse(&mut self, precedence: Precedence) -> Result<(), ParseError> {
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let allow_assignment = precedence < Precedence::Assignment;
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let allow_return = precedence == Precedence::None;
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if let Some(prefix_parser) = ParseRule::from(&self.current_token.kind()).prefix {
log::debug!(
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"{} is {precedence} prefix",
self.current_token.to_string().bold(),
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);
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prefix_parser(self, allow_assignment, allow_return)?;
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}
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let mut infix_rule = ParseRule::from(&self.current_token.kind());
while precedence <= infix_rule.precedence {
if let Some(infix_parser) = infix_rule.infix {
log::debug!(
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"{} is {precedence} infix",
self.current_token.to_string().bold(),
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);
if allow_assignment && self.current_token == Token::Equal {
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return Err(ParseError::InvalidAssignmentTarget {
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found: self.current_token.to_owned(),
position: self.current_position,
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});
}
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infix_parser(self)?;
} else {
break;
}
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infix_rule = ParseRule::from(&self.current_token.kind());
}
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Ok(())
}
}
#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord)]
pub enum Precedence {
None,
Assignment,
Conditional,
LogicalOr,
LogicalAnd,
Equality,
Comparison,
Term,
Factor,
Unary,
Call,
Primary,
}
impl Precedence {
fn increment(&self) -> Self {
match self {
Precedence::None => Precedence::Assignment,
Precedence::Assignment => Precedence::Conditional,
Precedence::Conditional => Precedence::LogicalOr,
Precedence::LogicalOr => Precedence::LogicalAnd,
Precedence::LogicalAnd => Precedence::Equality,
Precedence::Equality => Precedence::Comparison,
Precedence::Comparison => Precedence::Term,
Precedence::Term => Precedence::Factor,
Precedence::Factor => Precedence::Unary,
Precedence::Unary => Precedence::Call,
Precedence::Call => Precedence::Primary,
Precedence::Primary => Precedence::Primary,
}
}
}
impl Display for Precedence {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
write!(f, "{:?}", self)
}
}
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type PrefixFunction<'a> = fn(&mut Parser<'a>, bool, bool) -> Result<(), ParseError>;
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type InfixFunction<'a> = fn(&mut Parser<'a>) -> Result<(), ParseError>;
#[derive(Debug, Clone, Copy)]
pub struct ParseRule<'a> {
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pub prefix: Option<PrefixFunction<'a>>,
pub infix: Option<InfixFunction<'a>>,
pub precedence: Precedence,
}
impl From<&TokenKind> for ParseRule<'_> {
fn from(token_kind: &TokenKind) -> Self {
match token_kind {
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TokenKind::Async => todo!(),
TokenKind::Bang => ParseRule {
prefix: Some(Parser::parse_unary),
infix: None,
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precedence: Precedence::Unary,
},
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TokenKind::BangEqual => ParseRule {
prefix: None,
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infix: Some(Parser::parse_comparison_binary),
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precedence: Precedence::Equality,
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},
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TokenKind::Bool => todo!(),
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TokenKind::Boolean => ParseRule {
prefix: Some(Parser::parse_boolean),
infix: None,
precedence: Precedence::None,
},
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TokenKind::Break => todo!(),
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TokenKind::Byte => ParseRule {
prefix: Some(Parser::parse_byte),
infix: None,
precedence: Precedence::None,
},
TokenKind::Character => ParseRule {
prefix: Some(Parser::parse_character),
infix: None,
precedence: Precedence::None,
},
TokenKind::Colon => todo!(),
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TokenKind::Comma => ParseRule {
prefix: None,
infix: None,
precedence: Precedence::None,
},
TokenKind::Dot => todo!(),
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TokenKind::DoubleAmpersand => ParseRule {
prefix: None,
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infix: Some(Parser::parse_logical_binary),
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precedence: Precedence::LogicalAnd,
},
TokenKind::DoubleEqual => ParseRule {
prefix: None,
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infix: Some(Parser::parse_comparison_binary),
precedence: Precedence::Equality,
},
TokenKind::DoublePipe => ParseRule {
prefix: None,
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infix: Some(Parser::parse_logical_binary),
precedence: Precedence::LogicalOr,
},
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TokenKind::DoubleDot => todo!(),
TokenKind::Eof => ParseRule {
prefix: None,
infix: None,
precedence: Precedence::None,
},
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TokenKind::Equal => ParseRule {
prefix: None,
infix: None,
precedence: Precedence::Assignment,
},
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TokenKind::Else => ParseRule {
prefix: None,
infix: None,
precedence: Precedence::None,
},
TokenKind::Float => ParseRule {
prefix: Some(Parser::parse_float),
infix: None,
precedence: Precedence::None,
},
TokenKind::FloatKeyword => todo!(),
TokenKind::Greater => ParseRule {
prefix: None,
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infix: Some(Parser::parse_comparison_binary),
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precedence: Precedence::Comparison,
},
TokenKind::GreaterEqual => ParseRule {
prefix: None,
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infix: Some(Parser::parse_comparison_binary),
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precedence: Precedence::Comparison,
},
TokenKind::Identifier => ParseRule {
prefix: Some(Parser::parse_variable),
infix: None,
precedence: Precedence::None,
},
TokenKind::If => ParseRule {
prefix: Some(Parser::parse_if),
infix: None,
precedence: Precedence::None,
},
TokenKind::Int => todo!(),
TokenKind::Integer => ParseRule {
prefix: Some(Parser::parse_integer),
infix: None,
precedence: Precedence::None,
},
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TokenKind::LeftCurlyBrace => ParseRule {
prefix: Some(Parser::parse_block),
infix: None,
precedence: Precedence::None,
},
TokenKind::LeftParenthesis => ParseRule {
prefix: Some(Parser::parse_grouped),
infix: None,
precedence: Precedence::None,
},
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TokenKind::LeftSquareBrace => ParseRule {
prefix: Some(Parser::parse_list),
infix: None,
precedence: Precedence::None,
},
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TokenKind::Less => ParseRule {
prefix: None,
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infix: Some(Parser::parse_comparison_binary),
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precedence: Precedence::Comparison,
},
TokenKind::LessEqual => ParseRule {
prefix: None,
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infix: Some(Parser::parse_comparison_binary),
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precedence: Precedence::Comparison,
},
TokenKind::Let => ParseRule {
prefix: Some(Parser::parse_let_statement),
infix: None,
precedence: Precedence::None,
},
TokenKind::Loop => todo!(),
TokenKind::Map => todo!(),
TokenKind::Minus => ParseRule {
prefix: Some(Parser::parse_unary),
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infix: Some(Parser::parse_math_binary),
precedence: Precedence::Term,
},
TokenKind::MinusEqual => todo!(),
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TokenKind::Mut => ParseRule {
prefix: None,
infix: None,
precedence: Precedence::None,
},
TokenKind::Percent => ParseRule {
prefix: None,
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infix: Some(Parser::parse_math_binary),
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precedence: Precedence::Factor,
},
TokenKind::Plus => ParseRule {
prefix: None,
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infix: Some(Parser::parse_math_binary),
precedence: Precedence::Term,
},
TokenKind::PlusEqual => todo!(),
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TokenKind::RightCurlyBrace => ParseRule {
prefix: None,
infix: None,
precedence: Precedence::None,
},
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TokenKind::RightParenthesis => ParseRule {
prefix: None,
infix: None,
precedence: Precedence::None,
},
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TokenKind::RightSquareBrace => ParseRule {
prefix: None,
infix: None,
precedence: Precedence::None,
},
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TokenKind::Semicolon => ParseRule {
prefix: None,
infix: None,
precedence: Precedence::None,
},
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TokenKind::Slash => ParseRule {
prefix: None,
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infix: Some(Parser::parse_math_binary),
precedence: Precedence::Factor,
},
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TokenKind::Star => ParseRule {
prefix: None,
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infix: Some(Parser::parse_math_binary),
precedence: Precedence::Factor,
},
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TokenKind::Str => todo!(),
TokenKind::String => ParseRule {
prefix: Some(Parser::parse_string),
infix: None,
precedence: Precedence::None,
},
TokenKind::Struct => todo!(),
TokenKind::While => ParseRule {
prefix: Some(Parser::parse_while),
infix: None,
precedence: Precedence::None,
},
}
}
}
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#[derive(Debug, PartialEq)]
pub enum ParseError {
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CannotMutateImmutableVariable {
identifier: Identifier,
position: Span,
},
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ExpectedExpression {
found: TokenOwned,
position: Span,
},
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ExpectedToken {
expected: TokenKind,
found: TokenOwned,
position: Span,
},
ExpectedTokenMultiple {
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expected: &'static [TokenKind],
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found: TokenOwned,
position: Span,
},
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InvalidAssignmentTarget {
found: TokenOwned,
position: Span,
},
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UndefinedVariable {
identifier: Identifier,
position: Span,
},
RegisterOverflow {
position: Span,
},
RegisterUnderflow {
position: Span,
},
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// Wrappers around foreign errors
Chunk(ChunkError),
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Lex(LexError),
ParseFloatError {
error: ParseFloatError,
position: Span,
},
ParseIntError {
error: ParseIntError,
position: Span,
},
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}
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impl From<ChunkError> for ParseError {
fn from(error: ChunkError) -> Self {
Self::Chunk(error)
}
}
impl AnnotatedError for ParseError {
fn title() -> &'static str {
"Parse Error"
}
fn description(&self) -> &'static str {
match self {
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Self::CannotMutateImmutableVariable { .. } => "Cannot mutate immutable variable",
Self::ExpectedExpression { .. } => "Expected an expression",
Self::ExpectedToken { .. } => "Expected a specific token",
Self::ExpectedTokenMultiple { .. } => "Expected one of multiple tokens",
Self::InvalidAssignmentTarget { .. } => "Invalid assignment target",
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Self::UndefinedVariable { .. } => "Undefined variable",
Self::RegisterOverflow { .. } => "Register overflow",
Self::RegisterUnderflow { .. } => "Register underflow",
Self::ParseFloatError { .. } => "Failed to parse float",
Self::ParseIntError { .. } => "Failed to parse integer",
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Self::Chunk(error) => error.description(),
Self::Lex(error) => error.description(),
}
}
fn details(&self) -> Option<String> {
match self {
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Self::CannotMutateImmutableVariable { identifier, .. } => {
Some(format!("Cannot mutate immutable variable \"{identifier}\""))
}
Self::ExpectedExpression { found, .. } => Some(format!("Found \"{found}\"")),
Self::ExpectedToken {
expected, found, ..
} => Some(format!("Expected \"{expected}\", found \"{found}\"")),
Self::ExpectedTokenMultiple {
expected, found, ..
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} => {
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let mut details = String::from("Expected");
for (index, token) in expected.iter().enumerate() {
details.push_str(&format!(" \"{token}\""));
if index < expected.len() - 2 {
details.push_str(", ");
}
if index == expected.len() - 2 {
details.push_str(" or");
}
}
details.push_str(&format!(" found \"{found}\""));
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Some(details)
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}
Self::InvalidAssignmentTarget { found, .. } => {
Some(format!("Invalid assignment target, found \"{found}\""))
}
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Self::UndefinedVariable { identifier, .. } => {
Some(format!("Undefined variable \"{identifier}\""))
}
Self::RegisterOverflow { .. } => None,
Self::RegisterUnderflow { .. } => None,
Self::ParseFloatError { error, .. } => Some(error.to_string()),
Self::ParseIntError { error, .. } => Some(error.to_string()),
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Self::Chunk(error) => error.details(),
Self::Lex(error) => error.details(),
}
}
fn position(&self) -> Span {
match self {
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Self::CannotMutateImmutableVariable { position, .. } => *position,
Self::ExpectedExpression { position, .. } => *position,
Self::ExpectedToken { position, .. } => *position,
Self::ExpectedTokenMultiple { position, .. } => *position,
Self::InvalidAssignmentTarget { position, .. } => *position,
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Self::UndefinedVariable { position, .. } => *position,
Self::RegisterOverflow { position } => *position,
Self::RegisterUnderflow { position } => *position,
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Self::Chunk(error) => error.position(),
Self::Lex(error) => error.position(),
Self::ParseFloatError { position, .. } => *position,
Self::ParseIntError { position, .. } => *position,
}
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}
}
impl From<LexError> for ParseError {
fn from(error: LexError) -> Self {
Self::Lex(error)
}
}