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dust/dust-lang/src/analyzer.rs

681 lines
23 KiB
Rust
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//! Tools for analyzing an abstract syntax tree and catching errors before running the virtual
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//! machine.
//!
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//! This module provides two anlysis options:
//! - `analyze` convenience function, which takes a string input
//! - `Analyzer` struct, which borrows an abstract syntax tree and a context
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use std::{
error::Error,
fmt::{self, Display, Formatter},
};
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use crate::{
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ast::{
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AbstractSyntaxTree, AstError, BlockExpression, CallExpression, ElseExpression,
FieldAccessExpression, IfExpression, LetStatement, ListExpression, ListIndexExpression,
LoopExpression, MapExpression, Node, OperatorExpression, RangeExpression, Span, Statement,
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StructDefinition, StructExpression, TupleAccessExpression,
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},
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context::ContextError,
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parse, Context, DustError, Expression, Identifier, StructType, 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 context = Context::new();
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let analyzer = Analyzer::new(&abstract_tree, context);
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analyzer
.analyze()
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.map_err(|analysis_error| DustError::Analysis {
analysis_error,
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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,
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context: Context,
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}
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impl<'recovered, 'a: 'recovered> Analyzer<'a> {
pub fn new(abstract_tree: &'a AbstractSyntaxTree, context: Context) -> Self {
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Self {
abstract_tree,
context,
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}
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}
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pub fn analyze(&'recovered self) -> Result<(), AnalysisError> {
for statement in &self.abstract_tree.statements {
self.analyze_statement(statement)?;
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}
Ok(())
}
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fn analyze_statement(&'recovered self, statement: &Statement) -> Result<(), AnalysisError> {
match statement {
Statement::Expression(expression) => self.analyze_expression(expression)?,
Statement::ExpressionNullified(expression_node) => {
self.analyze_expression(&expression_node.inner)?;
}
Statement::Let(let_statement) => match &let_statement.inner {
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LetStatement::Let { identifier, value }
| LetStatement::LetMut { identifier, value } => {
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let r#type = value.return_type(&self.context)?;
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if let Some(r#type) = r#type {
self.context.set_variable_type(
identifier.inner.clone(),
r#type,
identifier.position,
);
} else {
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return Err(AnalysisError::ExpectedValueFromExpression {
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expression: value.clone(),
found_type: r#type,
});
}
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self.analyze_expression(value)?;
}
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LetStatement::LetType { .. } => todo!(),
LetStatement::LetMutType { .. } => todo!(),
},
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Statement::StructDefinition(struct_definition) => match &struct_definition.inner {
StructDefinition::Unit { name } => self.context.set_constructor_type(
name.inner.clone(),
StructType::Unit {
name: name.inner.clone(),
},
name.position,
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)?,
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StructDefinition::Tuple { name, items } => {
let fields = items.iter().map(|item| item.inner.clone()).collect();
self.context.set_constructor_type(
name.inner.clone(),
StructType::Tuple {
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name: name.inner.clone(),
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fields,
},
name.position,
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)?;
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}
StructDefinition::Fields { name, fields } => {
let fields = fields
.iter()
.map(|(identifier, r#type)| {
(identifier.inner.clone(), r#type.inner.clone())
})
.collect();
self.context.set_constructor_type(
name.inner.clone(),
StructType::Fields {
name: name.inner.clone(),
fields,
},
name.position,
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)?;
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}
},
}
Ok(())
}
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fn analyze_expression(&'recovered self, expression: &Expression) -> Result<(), AnalysisError> {
match expression {
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Expression::Block(block_expression) => self.analyze_block(&block_expression.inner)?,
Expression::Call(call_expression) => {
let CallExpression { invoker, arguments } = call_expression.inner.as_ref();
self.analyze_expression(invoker)?;
for argument in arguments {
self.analyze_expression(argument)?;
}
}
Expression::FieldAccess(field_access_expression) => {
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let FieldAccessExpression { container, field } =
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field_access_expression.inner.as_ref();
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self.context
.update_last_position(&field.inner, field.position);
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self.analyze_expression(container)?;
}
Expression::Grouped(expression) => {
self.analyze_expression(expression.inner.as_ref())?;
}
Expression::Identifier(identifier) => {
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self.context
.update_last_position(&identifier.inner, identifier.position);
}
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Expression::If(if_expression) => self.analyze_if(&if_expression.inner)?,
Expression::List(list_expression) => match list_expression.inner.as_ref() {
ListExpression::AutoFill {
repeat_operand,
length_operand,
} => {
self.analyze_expression(repeat_operand)?;
self.analyze_expression(length_operand)?;
}
ListExpression::Ordered(expressions) => {
for expression in expressions {
self.analyze_expression(expression)?;
}
}
},
Expression::ListIndex(list_index_expression) => {
let ListIndexExpression { list, index } = list_index_expression.inner.as_ref();
self.analyze_expression(list)?;
self.analyze_expression(index)?;
}
Expression::Literal(_) => {
// Literals don't need to be analyzed
}
Expression::Loop(loop_expression) => match loop_expression.inner.as_ref() {
LoopExpression::Infinite { block } => self.analyze_block(&block.inner)?,
LoopExpression::While { condition, block } => {
self.analyze_expression(condition)?;
self.analyze_block(&block.inner)?;
}
LoopExpression::For {
iterator, block, ..
} => {
self.analyze_expression(iterator)?;
self.analyze_block(&block.inner)?;
}
},
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Expression::Map(map_expression) => {
let MapExpression { pairs } = map_expression.inner.as_ref();
for (_, expression) in pairs {
self.analyze_expression(expression)?;
}
}
Expression::Operator(operator_expression) => match operator_expression.inner.as_ref() {
OperatorExpression::Assignment { assignee, value } => {
self.analyze_expression(assignee)?;
self.analyze_expression(value)?;
}
OperatorExpression::Comparison { left, right, .. } => {
self.analyze_expression(left)?;
self.analyze_expression(right)?;
}
OperatorExpression::CompoundAssignment {
assignee, modifier, ..
} => {
self.analyze_expression(assignee)?;
self.analyze_expression(modifier)?;
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let expected_type = assignee.return_type(&self.context)?;
let actual_type = modifier.return_type(&self.context)?;
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if expected_type.is_none() {
return Err(AnalysisError::ExpectedValueFromExpression {
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expression: assignee.clone(),
found_type: expected_type,
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});
}
if actual_type.is_none() {
return Err(AnalysisError::ExpectedValueFromExpression {
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expression: modifier.clone(),
found_type: actual_type,
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});
}
if let (Some(expected_type), Some(actual_type)) = (expected_type, actual_type) {
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expected_type.check(&actual_type).map_err(|_| {
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AnalysisError::TypeConflict {
actual_expression: modifier.clone(),
actual_type,
expected: expected_type,
}
})?;
}
}
OperatorExpression::ErrorPropagation(_) => todo!(),
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OperatorExpression::Negation(expression) => {
self.analyze_expression(expression)?;
}
OperatorExpression::Not(expression) => {
self.analyze_expression(expression)?;
}
OperatorExpression::Math { left, right, .. } => {
self.analyze_expression(left)?;
self.analyze_expression(right)?;
}
OperatorExpression::Logic { left, right, .. } => {
self.analyze_expression(left)?;
self.analyze_expression(right)?;
}
},
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Expression::Range(range_expression) => match range_expression.inner.as_ref() {
RangeExpression::Exclusive { start, end } => {
self.analyze_expression(start)?;
self.analyze_expression(end)?;
}
RangeExpression::Inclusive { start, end } => {
self.analyze_expression(start)?;
self.analyze_expression(end)?;
}
},
Expression::Struct(struct_expression) => match struct_expression.inner.as_ref() {
StructExpression::Fields { name, fields } => {
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self.context
.update_last_position(&name.inner, name.position);
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for (_, expression) in fields {
self.analyze_expression(expression)?;
}
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}
},
Expression::TupleAccess(tuple_access) => {
let TupleAccessExpression { tuple, .. } = tuple_access.inner.as_ref();
self.analyze_expression(tuple)?;
}
}
Ok(())
}
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fn analyze_block(
&'recovered self,
block_expression: &BlockExpression,
) -> Result<(), AnalysisError> {
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match block_expression {
BlockExpression::Async(statements) => {
for statement in statements {
self.analyze_statement(statement)?;
}
}
BlockExpression::Sync(statements) => {
for statement in statements {
self.analyze_statement(statement)?;
}
}
}
Ok(())
}
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fn analyze_if(&'recovered self, if_expression: &IfExpression) -> Result<(), AnalysisError> {
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match if_expression {
IfExpression::If {
condition,
if_block,
} => {
self.analyze_expression(condition)?;
self.analyze_block(&if_block.inner)?;
}
IfExpression::IfElse {
condition,
if_block,
r#else,
} => {
self.analyze_expression(condition)?;
self.analyze_block(&if_block.inner)?;
match r#else {
ElseExpression::Block(block_expression) => {
self.analyze_block(&block_expression.inner)?;
}
ElseExpression::If(if_expression) => {
self.analyze_if(&if_expression.inner)?;
}
}
}
}
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Ok(())
}
}
#[derive(Clone, Debug, PartialEq)]
pub enum AnalysisError {
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AstError(AstError),
ContextError(ContextError),
ExpectedBoolean {
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actual: Statement,
},
ExpectedIdentifier {
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actual: Statement,
},
ExpectedIdentifierOrString {
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actual: Statement,
},
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ExpectedIntegerOrRange {
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actual: Statement,
},
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ExpectedList {
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actual: Statement,
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},
ExpectedMap {
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actual: Statement,
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},
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ExpectedValueFromStatement {
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actual: Statement,
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},
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ExpectedValueFromExpression {
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expression: Expression,
found_type: Option<Type>,
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},
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ExpectedValueArgumentCount {
expected: usize,
actual: usize,
position: Span,
},
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IndexOutOfBounds {
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list: Statement,
index: Statement,
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index_value: usize,
length: usize,
},
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TypeConflict {
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actual_expression: Expression,
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actual_type: Type,
expected: Type,
},
UndefinedField {
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identifier: Statement,
statement: Statement,
},
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UndefinedType {
identifier: Node<Identifier>,
},
UnexpectedIdentifier {
identifier: Node<Identifier>,
},
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UnexectedString {
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actual: Statement,
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},
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UndefinedVariable {
identifier: Node<Identifier>,
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},
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}
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impl From<AstError> for AnalysisError {
fn from(v: AstError) -> Self {
Self::AstError(v)
}
}
impl From<ContextError> for AnalysisError {
fn from(context_error: ContextError) -> Self {
Self::ContextError(context_error)
}
}
impl AnalysisError {
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pub fn position(&self) -> Option<Span> {
let position = match self {
AnalysisError::AstError(ast_error) => return None,
AnalysisError::ContextError(context_error) => return None,
AnalysisError::ExpectedBoolean { actual } => actual.position(),
AnalysisError::ExpectedIdentifier { actual } => actual.position(),
AnalysisError::ExpectedIdentifierOrString { actual } => actual.position(),
AnalysisError::ExpectedIntegerOrRange { actual } => actual.position(),
AnalysisError::ExpectedList { actual } => actual.position(),
AnalysisError::ExpectedMap { actual } => actual.position(),
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AnalysisError::ExpectedValueFromExpression { expression, .. } => expression.position(),
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AnalysisError::ExpectedValueFromStatement { actual } => actual.position(),
AnalysisError::ExpectedValueArgumentCount { position, .. } => *position,
AnalysisError::IndexOutOfBounds { index, .. } => index.position(),
AnalysisError::TypeConflict {
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actual_expression, ..
} => actual_expression.position(),
AnalysisError::UndefinedField { identifier, .. } => identifier.position(),
AnalysisError::UndefinedType { identifier } => identifier.position,
AnalysisError::UndefinedVariable { identifier } => identifier.position,
AnalysisError::UnexpectedIdentifier { identifier } => identifier.position,
AnalysisError::UnexectedString { actual } => actual.position(),
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};
Some(position)
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}
}
impl Error for AnalysisError {}
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impl Display for AnalysisError {
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fn fmt(&self, f: &mut Formatter) -> fmt::Result {
match self {
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AnalysisError::AstError(ast_error) => write!(f, "{}", ast_error),
AnalysisError::ContextError(context_error) => write!(f, "{}", context_error),
AnalysisError::ExpectedBoolean { actual, .. } => {
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write!(f, "Expected boolean, found {}", actual)
}
AnalysisError::ExpectedIdentifier { actual, .. } => {
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write!(f, "Expected identifier, found {}", actual)
}
AnalysisError::ExpectedIdentifierOrString { actual } => {
write!(f, "Expected identifier or string, found {}", actual)
}
AnalysisError::ExpectedIntegerOrRange { actual, .. } => {
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write!(f, "Expected integer or range, found {}", actual)
}
AnalysisError::ExpectedList { actual } => write!(f, "Expected list, found {}", actual),
AnalysisError::ExpectedMap { actual } => write!(f, "Expected map, found {}", actual),
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AnalysisError::ExpectedValueFromExpression {
expression,
found_type,
} => {
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write!(
f,
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"Expected {} to produce a value, found {:?}",
expression, found_type
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)
}
AnalysisError::ExpectedValueFromStatement { actual, .. } => {
write!(f, "Expected statement to produce a value, found {}", actual)
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}
AnalysisError::ExpectedValueArgumentCount {
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expected, actual, ..
} => write!(f, "Expected {} value arguments, found {}", expected, actual),
AnalysisError::IndexOutOfBounds {
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list,
index_value,
length,
..
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} => write!(
f,
"Index {} out of bounds for list {} with length {}",
index_value, list, length
),
AnalysisError::TypeConflict {
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actual_expression: actual_statement,
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actual_type,
expected,
} => {
write!(
f,
"Expected type {}, found {}, which has type {}",
expected, actual_statement, actual_type
)
}
AnalysisError::UndefinedField {
identifier,
statement: map,
} => {
write!(f, "Undefined field {} in map {}", identifier, map)
}
AnalysisError::UndefinedType { identifier } => {
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write!(f, "Undefined type {}", identifier)
}
AnalysisError::UndefinedVariable { identifier } => {
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write!(f, "Undefined variable {}", identifier)
}
AnalysisError::UnexpectedIdentifier { identifier, .. } => {
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write!(f, "Unexpected identifier {}", identifier)
}
AnalysisError::UnexectedString { actual, .. } => {
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write!(f, "Unexpected string {}", actual)
}
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}
}
}
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#[cfg(test)]
mod tests {
use super::*;
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#[test]
fn add_assign_wrong_type() {
let source = "
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let mut a = 1;
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a += 1.0
";
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assert_eq!(
analyze(source),
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Err(DustError::Analysis {
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analysis_error: AnalysisError::TypeConflict {
actual_expression: Expression::literal(1.0, (45, 48)),
actual_type: Type::Float,
expected: Type::Integer,
},
source,
})
);
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}
#[test]
fn subtract_assign_wrong_type() {
let source = "
a = 1
a -= 1.0
";
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assert_eq!(
analyze(source),
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Err(DustError::Analysis {
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analysis_error: AnalysisError::TypeConflict {
actual_expression: Expression::literal(1.0, (45, 48)),
actual_type: Type::Float,
expected: Type::Integer,
},
source,
})
);
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}
#[test]
fn tuple_struct_with_wrong_field_types() {
let source = "
struct Foo(int, float)
Foo(1, 2)
";
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assert_eq!(analyze(source), todo!());
}
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#[test]
fn constant_list_index_out_of_bounds() {
let source = "[1, 2, 3][3]";
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assert_eq!(analyze(source), todo!());
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}
#[test]
fn nonexistant_field_identifier() {
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let source = "{ x = 1 }.y";
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assert_eq!(analyze(source), todo!());
}
#[test]
fn nonexistant_field_string() {
let source = "{ x = 1 }.'y'";
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assert_eq!(analyze(source), todo!());
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}
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#[test]
fn malformed_list_index() {
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let source = "[1, 2, 3]['foo']";
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assert_eq!(analyze(source), todo!());
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}
#[test]
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fn malformed_field_access() {
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let source = "{ x = 1 }.0";
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assert_eq!(analyze(source), todo!());
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}
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#[test]
fn length_no_arguments() {
let source = "length()";
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assert_eq!(analyze(source), todo!());
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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";
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assert_eq!(analyze(source), todo!());
}
#[test]
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fn integer_plus_boolean() {
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let source = "42 + true";
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assert_eq!(analyze(source), todo!());
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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!(analyze(source), todo!());
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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!(analyze(source), todo!());
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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!(analyze(source), todo!());
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}
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}