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dust/dust-lang/src/analyzer.rs

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//! Tools for analyzing an abstract syntax tree and catch errors before running the virtual
//! machine.
//!
//! This module provides to anlysis options, both of which borrow an abstract syntax tree and a
//! hash map of variables:
//! - `analyze` convenience function
//! - `Analyzer` struct
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use std::{
error::Error,
fmt::{self, Display, Formatter},
};
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use crate::{
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abstract_tree::BinaryOperator, parse, AbstractSyntaxTree, Context, DustError, Node, Span,
Statement, Type,
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};
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/// Analyzes the abstract syntax tree for errors.
///
/// # Examples
/// ```
/// # use std::collections::HashMap;
/// # use dust_lang::*;
/// let input = "x = 1 + false";
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/// let result = analyze(input);
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///
/// assert!(result.is_err());
/// ```
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pub fn analyze(source: &str) -> Result<(), DustError> {
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let abstract_tree = parse(source)?;
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let mut context = Context::new();
let mut analyzer = Analyzer::new(&abstract_tree, &mut context);
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analyzer
.analyze()
.map_err(|analyzer_error| DustError::AnalyzerError {
analyzer_error,
source,
})
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}
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/// Static analyzer that checks for potential runtime errors.
///
/// # Examples
/// ```
/// # use std::collections::HashMap;
/// # use dust_lang::*;
/// let input = "x = 1 + false";
/// let abstract_tree = parse(input).unwrap();
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/// let mut context = Context::new();
/// let mut analyzer = Analyzer::new(&abstract_tree, &mut context);
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/// let result = analyzer.analyze();
///
/// assert!(result.is_err());
pub struct Analyzer<'a> {
abstract_tree: &'a AbstractSyntaxTree,
context: &'a mut Context,
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}
impl<'a> Analyzer<'a> {
pub fn new(abstract_tree: &'a AbstractSyntaxTree, context: &'a mut Context) -> Self {
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Self {
abstract_tree,
context,
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}
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}
pub fn analyze(&mut self) -> Result<(), AnalyzerError> {
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for node in &self.abstract_tree.nodes {
self.analyze_statement(node)?;
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}
Ok(())
}
fn analyze_statement(&mut self, node: &Node<Statement>) -> Result<(), AnalyzerError> {
match &node.inner {
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Statement::BinaryOperation {
left,
operator,
right,
} => {
if let BinaryOperator::Assign | BinaryOperator::AddAssign = operator.inner {
self.analyze_statement(right)?;
if let Statement::Identifier(identifier) = &left.inner {
let right_type = right.inner.expected_type(self.context).ok_or(
AnalyzerError::ExpectedValue {
actual: right.as_ref().clone(),
},
)?;
self.context
.set_type(identifier.clone(), right_type, left.position);
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return Ok(());
}
}
self.analyze_statement(left)?;
self.analyze_statement(right)?;
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let left_type = left.inner.expected_type(self.context);
let right_type = right.inner.expected_type(self.context);
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if let BinaryOperator::Add
| BinaryOperator::Subtract
| BinaryOperator::Multiply
| BinaryOperator::Divide
| BinaryOperator::Greater
| BinaryOperator::GreaterOrEqual
| BinaryOperator::Less
| BinaryOperator::LessOrEqual = operator.inner
{
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if let Some(expected_type) = left_type {
if let Some(actual_type) = right_type {
expected_type.check(&actual_type).map_err(|conflict| {
AnalyzerError::TypeConflict {
actual_statement: right.as_ref().clone(),
actual_type: conflict.actual,
expected: conflict.expected,
}
})?;
} else {
return Err(AnalyzerError::ExpectedValue {
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actual: right.as_ref().clone(),
});
}
}
}
}
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Statement::Block(statements) => {
for statement in statements {
self.analyze_statement(statement)?;
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}
}
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Statement::BuiltInFunctionCall {
function,
value_arguments,
..
} => {
let value_parameters = function.value_parameters();
if let Some(arguments) = value_arguments {
for argument in arguments {
self.analyze_statement(argument)?;
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}
if arguments.len() != value_parameters.len() {
return Err(AnalyzerError::ExpectedValueArgumentCount {
expected: value_parameters.len(),
actual: arguments.len(),
position: node.position,
});
}
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for ((_identifier, parameter_type), argument) in
value_parameters.iter().zip(arguments)
{
let argument_type_option = argument.inner.expected_type(self.context);
if let Some(argument_type) = argument_type_option {
parameter_type.check(&argument_type).map_err(|conflict| {
AnalyzerError::TypeConflict {
actual_statement: argument.clone(),
actual_type: conflict.actual,
expected: parameter_type.clone(),
}
})?;
} else {
return Err(AnalyzerError::ExpectedValue {
actual: argument.clone(),
});
}
}
if arguments.is_empty() && !value_parameters.is_empty() {
return Err(AnalyzerError::ExpectedValueArgumentCount {
expected: value_parameters.len(),
actual: 0,
position: node.position,
});
}
} else if !value_parameters.is_empty() {
return Err(AnalyzerError::ExpectedValueArgumentCount {
expected: value_parameters.len(),
actual: 0,
position: node.position,
});
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}
}
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Statement::Constant(_) => {}
Statement::FunctionCall {
function,
value_arguments,
..
} => {
self.analyze_statement(function)?;
if let Some(arguments) = value_arguments {
for argument in arguments {
self.analyze_statement(argument)?;
}
}
}
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Statement::Identifier(identifier) => {
let exists = self.context.update_last_position(identifier, node.position);
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if !exists {
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return Err(AnalyzerError::UndefinedVariable {
identifier: node.clone(),
});
}
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}
Statement::If { condition, body } => {
self.analyze_statement(condition)?;
if let Some(Type::Boolean) = condition.inner.expected_type(self.context) {
// Condition is valid
} else {
return Err(AnalyzerError::ExpectedBoolean {
actual: condition.as_ref().clone(),
});
}
self.analyze_statement(body)?;
}
Statement::IfElse {
condition,
if_body,
else_body,
} => {
self.analyze_statement(condition)?;
if let Some(Type::Boolean) = condition.inner.expected_type(self.context) {
// Condition is valid
} else {
return Err(AnalyzerError::ExpectedBoolean {
actual: condition.as_ref().clone(),
});
}
self.analyze_statement(if_body)?;
self.analyze_statement(else_body)?;
}
Statement::IfElseIf {
condition,
if_body,
else_ifs,
} => {
self.analyze_statement(condition)?;
if let Some(Type::Boolean) = condition.inner.expected_type(self.context) {
// Condition is valid
} else {
return Err(AnalyzerError::ExpectedBoolean {
actual: condition.as_ref().clone(),
});
}
self.analyze_statement(if_body)?;
for (condition, body) in else_ifs {
self.analyze_statement(condition)?;
if let Some(Type::Boolean) = condition.inner.expected_type(self.context) {
// Condition is valid
} else {
return Err(AnalyzerError::ExpectedBoolean {
actual: condition.clone(),
});
}
self.analyze_statement(body)?;
}
}
Statement::IfElseIfElse {
condition,
if_body,
else_ifs,
else_body,
} => {
self.analyze_statement(condition)?;
if let Some(Type::Boolean) = condition.inner.expected_type(self.context) {
// Condition is valid
} else {
return Err(AnalyzerError::ExpectedBoolean {
actual: condition.as_ref().clone(),
});
}
self.analyze_statement(if_body)?;
for (condition, body) in else_ifs {
self.analyze_statement(condition)?;
if let Some(Type::Boolean) = condition.inner.expected_type(self.context) {
// Condition is valid
} else {
return Err(AnalyzerError::ExpectedBoolean {
actual: condition.clone(),
});
}
self.analyze_statement(body)?;
}
self.analyze_statement(else_body)?;
}
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Statement::List(statements) => {
for statement in statements {
self.analyze_statement(statement)?;
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}
}
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Statement::Map(properties) => {
for (_key, value_node) in properties {
self.analyze_statement(value_node)?;
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}
}
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Statement::Nil(node) => {
self.analyze_statement(node)?;
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}
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Statement::PropertyAccess(left, right) => {
self.analyze_statement(left)?;
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if let Statement::Identifier(_) = right.inner {
// Do not expect a value for property accessors
} else {
self.analyze_statement(right)?;
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}
if let Some(Type::List { .. }) = left.inner.expected_type(self.context) {
if let Some(Type::Integer) = right.inner.expected_type(self.context) {
// Allow indexing lists with integers
} else {
return Err(AnalyzerError::ExpectedInteger {
actual: right.as_ref().clone(),
});
}
}
if let Some(Type::Map { .. }) = left.inner.expected_type(self.context) {
if let Some(Type::String) = right.inner.expected_type(self.context) {
// Allow indexing maps with strings
} else if let Statement::Identifier(_) = right.inner {
// Allow indexing maps with identifiers
} else {
return Err(AnalyzerError::ExpectedIdentifierOrString {
actual: right.as_ref().clone(),
});
}
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}
}
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Statement::While { condition, body } => {
self.analyze_statement(condition)?;
self.analyze_statement(body)?;
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if let Some(Type::Boolean) = condition.inner.expected_type(self.context) {
} else {
return Err(AnalyzerError::ExpectedBoolean {
actual: condition.as_ref().clone(),
});
}
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}
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}
Ok(())
}
}
#[derive(Clone, Debug, PartialEq)]
pub enum AnalyzerError {
ExpectedBoolean {
actual: Node<Statement>,
},
ExpectedIdentifier {
actual: Node<Statement>,
},
ExpectedIdentifierOrString {
actual: Node<Statement>,
},
ExpectedInteger {
actual: Node<Statement>,
},
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ExpectedValue {
actual: Node<Statement>,
},
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ExpectedValueArgumentCount {
expected: usize,
actual: usize,
position: Span,
},
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TypeConflict {
actual_statement: Node<Statement>,
actual_type: Type,
expected: Type,
},
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UndefinedVariable {
identifier: Node<Statement>,
},
UnexpectedIdentifier {
identifier: Node<Statement>,
},
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UnexectedString {
actual: Node<Statement>,
},
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}
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impl AnalyzerError {
pub fn position(&self) -> Span {
match self {
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AnalyzerError::ExpectedBoolean { actual, .. } => actual.position,
AnalyzerError::ExpectedIdentifier { actual, .. } => actual.position,
AnalyzerError::ExpectedIdentifierOrString { actual } => actual.position,
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AnalyzerError::ExpectedInteger { actual, .. } => actual.position,
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AnalyzerError::ExpectedValue { actual } => actual.position,
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AnalyzerError::ExpectedValueArgumentCount { position, .. } => *position,
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AnalyzerError::TypeConflict {
actual_statement, ..
} => actual_statement.position,
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AnalyzerError::UndefinedVariable { identifier } => identifier.position,
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AnalyzerError::UnexpectedIdentifier { identifier } => identifier.position,
AnalyzerError::UnexectedString { actual } => actual.position,
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}
}
}
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impl Error for AnalyzerError {}
impl Display for AnalyzerError {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
match self {
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AnalyzerError::ExpectedBoolean { actual, .. } => {
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write!(f, "Expected boolean, found {}", actual)
}
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AnalyzerError::ExpectedIdentifier { actual, .. } => {
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write!(f, "Expected identifier, found {}", actual)
}
AnalyzerError::ExpectedIdentifierOrString { actual } => {
write!(f, "Expected identifier or string, found {}", actual)
}
AnalyzerError::ExpectedInteger { actual, .. } => {
write!(f, "Expected integer, found {}", actual)
}
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AnalyzerError::ExpectedValue { actual, .. } => {
write!(f, "Expected value, found {}", actual)
}
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AnalyzerError::ExpectedValueArgumentCount {
expected, actual, ..
} => write!(f, "Expected {} value arguments, found {}", expected, actual),
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AnalyzerError::TypeConflict {
actual_statement,
actual_type,
expected,
} => {
write!(
f,
"Expected type {}, found {}, which has type {}",
expected, actual_statement, actual_type
)
}
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AnalyzerError::UndefinedVariable { identifier } => {
write!(f, "Undefined variable {}", identifier)
}
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AnalyzerError::UnexpectedIdentifier { identifier, .. } => {
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write!(f, "Unexpected identifier {}", identifier)
}
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AnalyzerError::UnexectedString { actual, .. } => {
write!(f, "Unexpected string {}", actual)
}
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}
}
}
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#[cfg(test)]
mod tests {
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use crate::{Identifier, Value};
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use super::*;
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#[test]
fn malformed_list_index() {
let source = "[1, 2, 3].foo";
assert_eq!(
analyze(source),
Err(DustError::AnalyzerError {
analyzer_error: AnalyzerError::ExpectedInteger {
actual: Node::new(Statement::Identifier(Identifier::new("foo")), (10, 13)),
},
source
})
);
}
#[test]
fn malformed_property_access() {
let source = "{ x = 1 }.0";
assert_eq!(
analyze(source),
Err(DustError::AnalyzerError {
analyzer_error: AnalyzerError::ExpectedIdentifierOrString {
actual: Node::new(Statement::Constant(Value::integer(0)), (10, 11)),
},
source
})
);
}
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#[test]
fn length_no_arguments() {
let source = "length()";
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assert_eq!(
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analyze(source),
Err(DustError::AnalyzerError {
analyzer_error: AnalyzerError::ExpectedValueArgumentCount {
expected: 1,
actual: 0,
position: (0, 6)
},
source
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})
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);
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}
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#[test]
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fn float_plus_integer() {
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let source = "42.0 + 2";
assert_eq!(
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analyze(source),
Err(DustError::AnalyzerError {
analyzer_error: AnalyzerError::TypeConflict {
actual_statement: Node::new(Statement::Constant(Value::integer(2)), (7, 8)),
actual_type: Type::Integer,
expected: Type::Float,
},
source
})
)
}
#[test]
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fn integer_plus_boolean() {
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let source = "42 + true";
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assert_eq!(
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analyze(source),
Err(DustError::AnalyzerError {
analyzer_error: AnalyzerError::TypeConflict {
actual_statement: Node::new(Statement::Constant(Value::boolean(true)), (5, 9)),
actual_type: Type::Boolean,
expected: Type::Integer,
},
source
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})
)
}
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#[test]
fn is_even_expects_number() {
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let source = "is_even('hello')";
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assert_eq!(
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analyze(source),
Err(DustError::AnalyzerError {
analyzer_error: AnalyzerError::TypeConflict {
actual_statement: Node::new(
Statement::Constant(Value::string("hello")),
(8, 15)
),
actual_type: Type::String,
expected: Type::Number,
},
source
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})
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);
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}
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#[test]
fn is_odd_expects_number() {
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let source = "is_odd('hello')";
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assert_eq!(
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analyze(source),
Err(DustError::AnalyzerError {
analyzer_error: AnalyzerError::TypeConflict {
actual_statement: Node::new(
Statement::Constant(Value::string("hello")),
(7, 14)
),
actual_type: Type::String,
expected: Type::Number,
},
source
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})
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);
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}
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#[test]
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fn undefined_variable() {
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let source = "foo";
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assert_eq!(
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analyze(source),
Err(DustError::AnalyzerError {
analyzer_error: AnalyzerError::UndefinedVariable {
identifier: Node::new(Statement::Identifier(Identifier::new("foo")), (0, 3)),
},
source
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})
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);
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}
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}