1
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dust/dust-lang/src/parse.rs

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Rust
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//! Parsing tools.
//!
//! This module provides two parsing options:
//! - `parse` convenience function
//! - `Parser` struct, which parses the input a statement at a time
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use std::{
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collections::VecDeque,
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error::Error,
fmt::{self, Display, Formatter},
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num::{ParseFloatError, ParseIntError},
str::ParseBoolError,
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};
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use crate::{
AbstractSyntaxTree, BinaryOperator, BuiltInFunction, Identifier, LexError, Lexer, Node, Span,
Statement, Token, TokenOwned, Value,
};
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/// Parses the input into an abstract syntax tree.
///
/// # Examples
/// ```
/// # use dust_lang::*;
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/// let tree = parse("x = 42").unwrap();
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///
/// assert_eq!(
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/// tree,
/// AbstractSyntaxTree {
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/// nodes: [
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/// Node::new(
/// Statement::BinaryOperation {
/// left: Box::new(Node::new(
/// Statement::Identifier(Identifier::new("x")),
/// (0, 1),
/// )),
/// operator: Node::new(
/// BinaryOperator::Assign,
/// (2, 3)
/// ),
/// right: Box::new(Node::new(
/// Statement::Constant(Value::integer(42)),
/// (4, 6),
/// ))
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/// },
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/// (0, 6),
/// )
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/// ].into(),
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/// },
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/// );
/// ```
pub fn parse(input: &str) -> Result<AbstractSyntaxTree, ParseError> {
let lexer = Lexer::new();
let mut parser = Parser::new(input, lexer);
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let mut nodes = VecDeque::new();
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loop {
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let node = parser.parse()?;
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nodes.push_back(node);
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if let Token::Eof = parser.current.0 {
break;
}
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}
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Ok(AbstractSyntaxTree { nodes })
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}
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/// Low-level tool for parsing the input a statement at a time.
///
/// # Examples
/// ```
/// # use std::collections::VecDeque;
/// # use dust_lang::*;
/// let input = "x = 42";
/// let lexer = Lexer::new();
/// let mut parser = Parser::new(input, lexer);
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/// let mut nodes = VecDeque::new();
///
/// loop {
/// let node = parser.parse().unwrap();
///
/// nodes.push_back(node);
///
/// if let Token::Eof = parser.current().0 {
/// break;
/// }
/// }
///
/// assert_eq!(
/// nodes,
/// Into::<VecDeque<Node<Statement>>>::into([
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/// Node::new(
/// Statement::BinaryOperation {
/// left: Box::new(Node::new(
/// Statement::Identifier(Identifier::new("x")),
/// (0, 1),
/// )),
/// operator: Node::new(
/// BinaryOperator::Assign,
/// (2, 3),
/// ),
/// right: Box::new(Node::new(
/// Statement::Constant(Value::integer(42)),
/// (4, 6),
/// )),
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/// },
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/// (0, 6),
/// )
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/// ]),
/// );
/// ```
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pub struct Parser<'src> {
source: &'src str,
lexer: Lexer,
current: (Token<'src>, Span),
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}
impl<'src> Parser<'src> {
pub fn new(source: &'src str, lexer: Lexer) -> Self {
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let mut lexer = lexer;
let current = lexer.next_token(source).unwrap_or((Token::Eof, (0, 0)));
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Parser {
source,
lexer,
current,
}
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}
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pub fn current(&self) -> &(Token, Span) {
&self.current
}
pub fn parse(&mut self) -> Result<Node<Statement>, ParseError> {
self.parse_statement(0)
}
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fn next_token(&mut self) -> Result<(), ParseError> {
self.current = self.lexer.next_token(self.source)?;
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Ok(())
}
fn parse_statement(&mut self, precedence: u8) -> Result<Node<Statement>, ParseError> {
let mut left = self.parse_primary()?;
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while precedence < self.current.0.precedence() {
if self.current.0.is_postfix() {
left = self.parse_postfix(left)?;
} else {
left = self.parse_infix(left)?;
}
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}
Ok(left)
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}
fn parse_primary(&mut self) -> Result<Node<Statement>, ParseError> {
match self.current {
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(Token::Boolean(text), position) => {
self.next_token()?;
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let boolean = text
.parse()
.map_err(|error| ParseError::BooleanError { error, position })?;
Ok(Node::new(
Statement::Constant(Value::boolean(boolean)),
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position,
))
}
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(Token::Float(text), position) => {
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self.next_token()?;
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let float = text
.parse()
.map_err(|error| ParseError::FloatError { error, position })?;
Ok(Node::new(
Statement::Constant(Value::float(float)),
position,
))
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}
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(Token::Integer(text), position) => {
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self.next_token()?;
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let integer = text
.parse()
.map_err(|error| ParseError::IntegerError { error, position })?;
Ok(Node::new(
Statement::Constant(Value::integer(integer)),
position,
))
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}
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(Token::Identifier(text), position) => {
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self.next_token()?;
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Ok(Node::new(
Statement::Identifier(Identifier::new(text)),
position,
))
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}
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(Token::String(string), position) => {
self.next_token()?;
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Ok(Node::new(
Statement::Constant(Value::string(string)),
position,
))
}
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(Token::LeftCurlyBrace, left_position) => {
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self.next_token()?;
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// If the next token is a right curly brace, this is an empty map
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if let (Token::RightCurlyBrace, right_position) = self.current {
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self.next_token()?;
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return Ok(Node::new(
Statement::Map(Vec::new()),
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(left_position.0, right_position.1),
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));
}
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let mut statement = None;
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loop {
// If a closing brace is found, return the new statement
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if let (Token::RightCurlyBrace, right_position) = self.current {
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self.next_token()?;
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return Ok(Node::new(
statement.unwrap(),
(left_position.0, right_position.1),
));
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}
let next_node = self.parse_statement(0)?;
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// If the new statement is already a block, add the next node to it
if statement
.as_ref()
.is_some_and(|statement| matches!(statement, Statement::Block(_)))
{
if let Statement::Block(block) =
statement.get_or_insert_with(|| Statement::Block(Vec::new()))
{
block.push(next_node);
}
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// If the next node is an assignment, this might be a map
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} else if let Statement::BinaryOperation {
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left,
operator:
Node {
inner: BinaryOperator::Assign,
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position: operator_position,
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},
right,
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} = next_node.inner
{
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// If the current token is a comma, or the new statement is already a map
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if self.current.0 == Token::Comma
|| statement
.as_ref()
.is_some_and(|statement| matches!(statement, Statement::Map(_)))
{
// The new statement is a map
if let Statement::Map(map_properties) =
statement.get_or_insert_with(|| Statement::Map(Vec::new()))
{
// Add the new property to the map
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map_properties.push((*left, *right));
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}
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// Allow commas after properties
if let Token::Comma = self.current.0 {
self.next_token()?;
}
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} else {
// Otherwise, the new statement is a block
if let Statement::Block(statements) =
statement.get_or_insert_with(|| Statement::Block(Vec::new()))
{
// Add the statement to the block
statements.push(Node::new(
Statement::BinaryOperation {
left,
operator: Node::new(
BinaryOperator::Assign,
operator_position,
),
right,
},
next_node.position,
));
}
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}
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// Otherwise, the new statement is a block
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} else if let Statement::Block(statements) =
statement.get_or_insert_with(|| Statement::Block(Vec::new()))
{
// Add the statement to the block
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statements.push(next_node);
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}
}
}
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(Token::LeftParenthesis, left_position) => {
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self.next_token()?;
let node = self.parse_statement(0)?;
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if let (Token::RightParenthesis, right_position) = self.current {
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self.next_token()?;
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Ok(Node::new(node.inner, (left_position.0, right_position.1)))
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} else {
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Err(ParseError::ExpectedToken {
expected: TokenOwned::RightParenthesis,
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actual: self.current.0.to_owned(),
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position: self.current.1,
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})
}
}
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(Token::LeftSquareBrace, left_position) => {
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self.next_token()?;
let mut nodes = Vec::new();
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loop {
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if let (Token::RightSquareBrace, right_position) = self.current {
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self.next_token()?;
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return Ok(Node::new(
Statement::List(nodes),
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(left_position.0, right_position.1),
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));
}
if let (Token::Comma, _) = self.current {
self.next_token()?;
continue;
}
if let Ok(instruction) = self.parse_statement(0) {
nodes.push(instruction);
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} else {
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return Err(ParseError::ExpectedToken {
expected: TokenOwned::RightSquareBrace,
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actual: self.current.0.to_owned(),
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position: self.current.1,
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});
}
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}
}
(
Token::IsEven | Token::IsOdd | Token::Length | Token::ReadLine | Token::WriteLine,
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left_position,
) => {
let function = match self.current.0 {
Token::IsEven => BuiltInFunction::IsEven,
Token::IsOdd => BuiltInFunction::IsOdd,
Token::Length => BuiltInFunction::Length,
Token::ReadLine => BuiltInFunction::ReadLine,
Token::WriteLine => BuiltInFunction::WriteLine,
_ => unreachable!(),
};
self.next_token()?;
if let (Token::LeftParenthesis, _) = self.current {
self.next_token()?;
} else {
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return Err(ParseError::ExpectedToken {
expected: TokenOwned::LeftParenthesis,
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actual: self.current.0.to_owned(),
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position: self.current.1,
});
}
let mut value_arguments: Option<Vec<Node<Statement>>> = None;
loop {
if let (Token::RightParenthesis, _) = self.current {
self.next_token()?;
break;
}
if let (Token::Comma, _) = self.current {
self.next_token()?;
continue;
}
if let Ok(node) = self.parse_statement(0) {
if let Some(ref mut arguments) = value_arguments {
arguments.push(node);
} else {
value_arguments = Some(vec![node]);
}
} else {
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return Err(ParseError::ExpectedToken {
expected: TokenOwned::RightParenthesis,
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actual: self.current.0.to_owned(),
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position: self.current.1,
});
}
}
Ok(Node::new(
Statement::BuiltInFunctionCall {
function,
type_arguments: None,
value_arguments,
},
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left_position,
))
}
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_ => Err(ParseError::UnexpectedToken {
actual: self.current.0.to_owned(),
position: self.current.1,
}),
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}
}
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fn parse_infix(&mut self, left: Node<Statement>) -> Result<Node<Statement>, ParseError> {
let left_start = left.position.0;
if let Token::Dot = &self.current.0 {
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self.next_token()?;
let right = self.parse_statement(Token::Dot.precedence() + 1)?;
let right_end = right.position.1;
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return Ok(Node::new(
Statement::PropertyAccess(Box::new(left), Box::new(right)),
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(left_start, right_end),
));
}
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let binary_operator = match &self.current.0 {
Token::DoubleAmpersand => Node::new(BinaryOperator::And, self.current.1),
Token::DoubleEqual => Node::new(BinaryOperator::Equal, self.current.1),
Token::DoublePipe => Node::new(BinaryOperator::Or, self.current.1),
Token::Equal => Node::new(BinaryOperator::Assign, self.current.1),
Token::Greater => Node::new(BinaryOperator::Greater, self.current.1),
Token::GreaterEqual => Node::new(BinaryOperator::GreaterOrEqual, self.current.1),
Token::Less => Node::new(BinaryOperator::Less, self.current.1),
Token::LessEqual => Node::new(BinaryOperator::LessOrEqual, self.current.1),
Token::Minus => Node::new(BinaryOperator::Subtract, self.current.1),
Token::Plus => Node::new(BinaryOperator::Add, self.current.1),
Token::PlusEqual => Node::new(BinaryOperator::AddAssign, self.current.1),
Token::Star => Node::new(BinaryOperator::Multiply, self.current.1),
Token::Slash => Node::new(BinaryOperator::Divide, self.current.1),
Token::Percent => Node::new(BinaryOperator::Modulo, self.current.1),
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_ => {
return Err(ParseError::UnexpectedToken {
actual: self.current.0.to_owned(),
position: self.current.1,
});
}
};
let operator_precedence = self.current.0.precedence()
- if self.current.0.is_right_associative() {
1
} else {
0
};
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self.next_token()?;
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let left_start = left.position.0;
let right = self.parse_statement(operator_precedence)?;
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let right_end = right.position.1;
Ok(Node::new(
Statement::BinaryOperation {
left: Box::new(left),
operator: binary_operator,
right: Box::new(right),
},
(left_start, right_end),
))
}
fn parse_postfix(&mut self, left: Node<Statement>) -> Result<Node<Statement>, ParseError> {
if let Token::Semicolon = &self.current.0 {
self.next_token()?;
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let left_start = left.position.0;
let operator_end = self.current.1 .1;
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Ok(Node::new(
Statement::Nil(Box::new(left)),
(left_start, operator_end),
))
} else {
Ok(left)
}
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}
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}
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#[derive(Debug, PartialEq, Clone)]
pub enum ParseError {
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BooleanError {
error: ParseBoolError,
position: Span,
},
LexError(LexError),
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ExpectedIdentifier {
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actual: TokenOwned,
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position: Span,
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},
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ExpectedToken {
expected: TokenOwned,
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actual: TokenOwned,
position: Span,
},
UnexpectedToken {
actual: TokenOwned,
position: Span,
},
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FloatError {
error: ParseFloatError,
position: Span,
},
IntegerError {
error: ParseIntError,
position: Span,
},
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}
impl From<LexError> for ParseError {
fn from(v: LexError) -> Self {
Self::LexError(v)
}
}
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impl ParseError {
pub fn position(&self) -> Span {
match self {
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ParseError::BooleanError { position, .. } => *position,
ParseError::ExpectedIdentifier { position, .. } => *position,
ParseError::ExpectedToken { position, .. } => *position,
ParseError::FloatError { position, .. } => *position,
ParseError::IntegerError { position, .. } => *position,
ParseError::LexError(error) => error.position(),
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ParseError::UnexpectedToken { position, .. } => *position,
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}
}
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}
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impl Error for ParseError {
fn source(&self) -> Option<&(dyn Error + 'static)> {
match self {
Self::LexError(error) => Some(error),
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_ => None,
}
}
}
impl Display for ParseError {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
match self {
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Self::BooleanError { error, .. } => write!(f, "{}", error),
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Self::ExpectedIdentifier { actual, .. } => {
write!(f, "Expected identifier, found {actual}")
}
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Self::ExpectedToken {
expected, actual, ..
} => write!(f, "Expected token {expected}, found {actual}"),
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Self::FloatError { error, .. } => write!(f, "{}", error),
Self::IntegerError { error, .. } => write!(f, "{}", error),
Self::LexError(error) => write!(f, "{}", error),
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Self::UnexpectedToken { actual, .. } => write!(f, "Unexpected token {actual}"),
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}
}
}
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#[cfg(test)]
mod tests {
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use crate::{abstract_tree::BinaryOperator, Identifier};
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use super::*;
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#[test]
fn add_assign() {
let input = "a += 1";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
Statement::BinaryOperation {
left: Box::new(Node::new(
Statement::Identifier(Identifier::new("a")),
(0, 1)
)),
operator: Node::new(BinaryOperator::AddAssign, (2, 4)),
right: Box::new(Node::new(Statement::Constant(Value::integer(1)), (5, 6))),
},
(0, 6)
)]
.into()
})
);
}
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#[test]
fn or() {
let input = "true || false";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
Statement::BinaryOperation {
left: Box::new(Node::new(
Statement::Constant(Value::boolean(true)),
(0, 4)
)),
operator: Node::new(BinaryOperator::Or, (5, 7)),
right: Box::new(Node::new(
Statement::Constant(Value::boolean(false)),
(8, 13)
)),
},
(0, 13)
)]
.into()
})
);
}
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#[test]
fn misplaced_semicolon() {
let input = ";";
assert_eq!(
parse(input),
Err(ParseError::UnexpectedToken {
actual: TokenOwned::Semicolon,
position: (0, 1)
})
);
}
#[test]
fn block_with_one_statement() {
let input = "{ 40 + 2 }";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
Statement::Block(vec![Node::new(
Statement::BinaryOperation {
left: Box::new(Node::new(
Statement::Constant(Value::integer(40)),
(2, 4)
)),
operator: Node::new(BinaryOperator::Add, (5, 6)),
right: Box::new(Node::new(
Statement::Constant(Value::integer(2)),
(7, 8)
)),
},
(2, 8)
)]),
(0, 10)
)]
.into()
})
);
}
#[test]
fn block_with_assignment() {
let input = "{ foo = 42; bar = 42; baz = '42' }";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
Statement::Block(vec![
Node::new(
Statement::Nil(Box::new(Node::new(
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Statement::BinaryOperation {
left: Box::new(Node::new(
Statement::Identifier(Identifier::new("foo")),
(2, 5)
)),
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operator: Node::new(BinaryOperator::Assign, (6, 7)),
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right: Box::new(Node::new(
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Statement::Constant(Value::integer(42)),
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(8, 10)
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)),
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},
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(2, 10)
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),)),
(2, 15)
),
Node::new(
Statement::Nil(Box::new(Node::new(
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Statement::BinaryOperation {
left: Box::new(Node::new(
Statement::Identifier(Identifier::new("bar")),
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(12, 15)
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)),
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operator: Node::new(BinaryOperator::Assign, (16, 17)),
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right: Box::new(Node::new(
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Statement::Constant(Value::integer(42)),
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(18, 20)
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)),
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},
(12, 20)
),)),
(12, 25)
),
Node::new(
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Statement::BinaryOperation {
left: Box::new(Node::new(
Statement::Identifier(Identifier::new("baz")),
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(22, 25)
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)),
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operator: Node::new(BinaryOperator::Assign, (26, 27)),
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right: Box::new(Node::new(
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Statement::Constant(Value::string("42")),
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(28, 32)
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)),
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},
(22, 32)
)
]),
(0, 34)
)]
.into()
})
);
}
#[test]
fn empty_map() {
let input = "{}";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(Statement::Map(vec![]), (0, 2))].into()
})
);
}
#[test]
fn map_with_trailing_comma() {
let input = "{ foo = 42, bar = 42, baz = '42', }";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
Statement::Map(vec![
(
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Node::new(Statement::Identifier(Identifier::new("foo")), (2, 5)),
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Node::new(Statement::Constant(Value::integer(42)), (8, 10))
),
(
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Node::new(Statement::Identifier(Identifier::new("bar")), (12, 15)),
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Node::new(Statement::Constant(Value::integer(42)), (18, 20))
),
(
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Node::new(Statement::Identifier(Identifier::new("baz")), (22, 25)),
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Node::new(Statement::Constant(Value::string("42")), (28, 32))
),
]),
(0, 35)
)]
.into()
})
);
}
#[test]
fn map_with_two_properties() {
let input = "{ x = 42, y = 'foobar' }";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
Statement::Map(vec![
(
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Node::new(Statement::Identifier(Identifier::new("x")), (2, 3)),
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Node::new(Statement::Constant(Value::integer(42)), (6, 8))
),
(
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Node::new(Statement::Identifier(Identifier::new("y")), (10, 11)),
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Node::new(Statement::Constant(Value::string("foobar")), (14, 22))
)
]),
(0, 24)
)]
.into()
})
);
}
#[test]
fn map_with_one_property() {
let input = "{ x = 42, }";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
Statement::Map(vec![(
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Node::new(Statement::Identifier(Identifier::new("x")), (2, 3)),
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Node::new(Statement::Constant(Value::integer(42)), (6, 8))
)]),
(0, 11)
)]
.into()
})
);
}
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#[test]
fn equal() {
let input = "42 == 42";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
Statement::BinaryOperation {
left: Box::new(Node::new(Statement::Constant(Value::integer(42)), (0, 2))),
operator: Node::new(BinaryOperator::Equal, (3, 5)),
right: Box::new(Node::new(Statement::Constant(Value::integer(42)), (6, 8)))
},
(0, 8)
)]
.into()
})
);
}
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#[test]
fn modulo() {
let input = "42 % 2";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
Statement::BinaryOperation {
left: Box::new(Node::new(Statement::Constant(Value::integer(42)), (0, 2))),
operator: Node::new(BinaryOperator::Modulo, (3, 4)),
right: Box::new(Node::new(Statement::Constant(Value::integer(2)), (5, 6)))
},
(0, 6)
)]
.into()
})
);
}
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#[test]
fn divide() {
let input = "42 / 2";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
Statement::BinaryOperation {
left: Box::new(Node::new(Statement::Constant(Value::integer(42)), (0, 2))),
operator: Node::new(BinaryOperator::Divide, (3, 4)),
right: Box::new(Node::new(Statement::Constant(Value::integer(2)), (5, 6)))
},
(0, 6)
)]
.into()
})
);
}
#[test]
fn less_than() {
let input = "1 < 2";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
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Statement::BinaryOperation {
left: Box::new(Node::new(Statement::Constant(Value::integer(1)), (0, 1))),
operator: Node::new(BinaryOperator::Less, (2, 3)),
right: Box::new(Node::new(Statement::Constant(Value::integer(2)), (4, 5))),
},
(0, 5)
)]
.into()
})
);
}
#[test]
fn less_than_or_equal() {
let input = "1 <= 2";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
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Statement::BinaryOperation {
left: Box::new(Node::new(Statement::Constant(Value::integer(1)), (0, 1))),
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operator: Node::new(BinaryOperator::LessOrEqual, (2, 4)),
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right: Box::new(Node::new(Statement::Constant(Value::integer(2)), (5, 6))),
},
(0, 6)
)]
.into()
})
);
}
#[test]
fn greater_than_or_equal() {
let input = "1 >= 2";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
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Statement::BinaryOperation {
left: Box::new(Node::new(Statement::Constant(Value::integer(1)), (0, 1))),
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operator: Node::new(BinaryOperator::GreaterOrEqual, (2, 4)),
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right: Box::new(Node::new(Statement::Constant(Value::integer(2)), (5, 6))),
},
(0, 6)
)]
.into()
})
);
}
#[test]
fn greater_than() {
let input = "1 > 2";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
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Statement::BinaryOperation {
left: Box::new(Node::new(Statement::Constant(Value::integer(1)), (0, 1))),
operator: Node::new(BinaryOperator::Greater, (2, 3)),
right: Box::new(Node::new(Statement::Constant(Value::integer(2)), (4, 5))),
},
(0, 5)
)]
.into()
})
);
}
#[test]
fn subtract_negative_integers() {
let input = "-1 - -2";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
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Statement::BinaryOperation {
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left: Node::new(Statement::Constant(Value::integer(-1)), (0, 2)).into(),
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operator: Node::new(BinaryOperator::Subtract, (3, 4)),
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right: Node::new(Statement::Constant(Value::integer(-2)), (5, 7)).into()
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},
(0, 7)
)]
.into()
})
);
}
#[test]
fn string_concatenation() {
let input = "\"Hello, \" + \"World!\"";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
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Statement::BinaryOperation {
left: Box::new(Node::new(
Statement::Constant(Value::string("Hello, ")),
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(0, 9)
)),
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operator: Node::new(BinaryOperator::Add, (10, 11)),
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right: Box::new(Node::new(
Statement::Constant(Value::string("World!")),
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(12, 20)
))
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},
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(0, 20)
)]
.into()
})
);
}
#[test]
fn string() {
let input = "\"Hello, World!\"";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
Statement::Constant(Value::string("Hello, World!")),
(0, 15)
)]
.into()
})
);
}
#[test]
fn boolean() {
let input = "true";
assert_eq!(
parse(input),
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Ok(AbstractSyntaxTree {
nodes: [Node::new(Statement::Constant(Value::boolean(true)), (0, 4))].into()
})
);
}
#[test]
fn property_access_function_call() {
let input = "42.is_even()";
assert_eq!(
parse(input),
Ok(AbstractSyntaxTree {
nodes: [Node::new(
Statement::PropertyAccess(
Box::new(Node::new(Statement::Constant(Value::integer(42)), (0, 2))),
Box::new(Node::new(
Statement::BuiltInFunctionCall {
function: BuiltInFunction::IsEven,
type_arguments: None,
value_arguments: None
},
(3, 10)
)),
),
(0, 10),
)]
.into()
})
);
}
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#[test]
fn list_access() {
let input = "[1, 2, 3].0";
assert_eq!(
parse(input),
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Ok(AbstractSyntaxTree {
nodes: [Node::new(
Statement::PropertyAccess(
Box::new(Node::new(
Statement::List(vec![
Node::new(Statement::Constant(Value::integer(1)), (1, 2)),
Node::new(Statement::Constant(Value::integer(2)), (4, 5)),
Node::new(Statement::Constant(Value::integer(3)), (7, 8)),
]),
(0, 9)
)),
Box::new(Node::new(Statement::Constant(Value::integer(0)), (10, 11))),
),
(0, 11),
)]
.into()
})
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);
}
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#[test]
fn property_access() {
let input = "a.b";
assert_eq!(
parse(input),
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Ok(AbstractSyntaxTree {
nodes: [Node::new(
Statement::PropertyAccess(
Box::new(Node::new(
Statement::Identifier(Identifier::new("a")),
(0, 1)
)),
Box::new(Node::new(
Statement::Identifier(Identifier::new("b")),
(2, 3)
)),
),
(0, 3),
)]
.into()
})
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);
}
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#[test]
fn complex_list() {
let input = "[1, 1 + 1, 2 + (4 * 10)]";
assert_eq!(
parse(input),
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Ok(AbstractSyntaxTree {
nodes: [Node::new(
Statement::List(vec![
Node::new(Statement::Constant(Value::integer(1)), (1, 2)),
Node::new(
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Statement::BinaryOperation {
left: Box::new(Node::new(
Statement::Constant(Value::integer(1)),
(4, 5)
)),
operator: Node::new(BinaryOperator::Add, (6, 7)),
right: Box::new(Node::new(
Statement::Constant(Value::integer(1)),
(8, 9)
))
},
(4, 9)
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),
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Node::new(
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Statement::BinaryOperation {
left: Box::new(Node::new(
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Statement::Constant(Value::integer(2)),
(11, 12)
)),
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operator: Node::new(BinaryOperator::Add, (13, 14)),
right: Box::new(Node::new(
Statement::BinaryOperation {
left: Box::new(Node::new(
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Statement::Constant(Value::integer(4)),
(16, 17)
)),
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operator: Node::new(BinaryOperator::Multiply, (18, 19)),
right: Box::new(Node::new(
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Statement::Constant(Value::integer(10)),
(20, 22)
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))
},
(15, 23)
))
},
(11, 23)
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),
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]),
(0, 24),
)]
.into()
})
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);
}
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#[test]
fn list() {
let input = "[1, 2]";
assert_eq!(
parse(input),
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Ok(AbstractSyntaxTree {
nodes: [Node::new(
Statement::List(vec![
Node::new(Statement::Constant(Value::integer(1)), (1, 2)),
Node::new(Statement::Constant(Value::integer(2)), (4, 5)),
]),
(0, 6),
)]
.into()
})
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);
}
#[test]
fn empty_list() {
let input = "[]";
assert_eq!(
parse(input),
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Ok(AbstractSyntaxTree {
nodes: [Node::new(Statement::List(vec![]), (0, 2))].into()
})
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);
}
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#[test]
fn float() {
let input = "42.0";
assert_eq!(
parse(input),
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Ok(AbstractSyntaxTree {
nodes: [Node::new(Statement::Constant(Value::float(42.0)), (0, 4))].into()
})
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);
}
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#[test]
fn add() {
let input = "1 + 2";
assert_eq!(
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parse(input),
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Ok(AbstractSyntaxTree {
nodes: [Node::new(
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Statement::BinaryOperation {
left: Box::new(Node::new(Statement::Constant(Value::integer(1)), (0, 1))),
operator: Node::new(BinaryOperator::Add, (2, 3)),
right: Box::new(Node::new(Statement::Constant(Value::integer(2)), (4, 5)),)
},
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(0, 5),
)]
.into()
})
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);
}
#[test]
fn multiply() {
let input = "1 * 2";
assert_eq!(
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parse(input),
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Ok(AbstractSyntaxTree {
nodes: [Node::new(
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Statement::BinaryOperation {
left: Box::new(Node::new(Statement::Constant(Value::integer(1)), (0, 1))),
operator: Node::new(BinaryOperator::Multiply, (2, 3)),
right: Box::new(Node::new(Statement::Constant(Value::integer(2)), (4, 5)),)
},
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(0, 5),
)]
.into()
})
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);
}
#[test]
fn add_and_multiply() {
let input = "1 + 2 * 3";
assert_eq!(
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parse(input),
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Ok(AbstractSyntaxTree {
nodes: [Node::new(
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Statement::BinaryOperation {
left: Box::new(Node::new(Statement::Constant(Value::integer(1)), (0, 1))),
operator: Node::new(BinaryOperator::Add, (2, 3)),
right: Box::new(Node::new(
Statement::BinaryOperation {
left: Box::new(Node::new(
Statement::Constant(Value::integer(2)),
(4, 5)
)),
operator: Node::new(BinaryOperator::Multiply, (6, 7)),
right: Box::new(Node::new(
Statement::Constant(Value::integer(3)),
(8, 9)
),)
},
(4, 9)
),)
},
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(0, 9),
)]
.into()
})
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);
}
#[test]
fn assignment() {
let input = "a = 1 + 2 * 3";
assert_eq!(
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parse(input),
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Ok(AbstractSyntaxTree {
nodes: [Node::new(
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Statement::BinaryOperation {
left: Box::new(Node::new(
Statement::Identifier(Identifier::new("a")),
(0, 1)
)),
operator: Node::new(BinaryOperator::Assign, (2, 3)),
right: Box::new(Node::new(
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Statement::BinaryOperation {
left: Box::new(Node::new(
Statement::Constant(Value::integer(1)),
(4, 5)
)),
operator: Node::new(BinaryOperator::Add, (6, 7)),
right: Box::new(Node::new(
Statement::BinaryOperation {
left: Box::new(Node::new(
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Statement::Constant(Value::integer(2)),
(8, 9)
)),
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operator: Node::new(BinaryOperator::Multiply, (10, 11)),
right: Box::new(Node::new(
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Statement::Constant(Value::integer(3)),
(12, 13)
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),)
},
(8, 13)
),)
},
(4, 13)
),)
},
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(0, 13),
)]
.into()
})
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);
}
}