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Add more analysis to the analyzer

This commit is contained in:
Jeff 2024-08-07 11:57:15 -04:00
parent 7328467e64
commit f64babc546
2 changed files with 129 additions and 39 deletions

View File

@ -1,18 +1,43 @@
use crate::{AbstractSyntaxTree, Node, Statement}; use std::collections::HashMap;
pub fn analyze(abstract_tree: &AbstractSyntaxTree) -> Result<(), AnalyzerError> { use crate::{AbstractSyntaxTree, Identifier, Node, Statement, Type, Value};
let analyzer = Analyzer::new(abstract_tree);
/// Analyzes the abstract syntax tree for errors.
///
/// # Examples
/// ```
/// # use std::collections::HashMap;
/// # use dust_lang::*;
/// let input = "x = 1 + false";
/// let abstract_tree = parse(input).unwrap();
/// let variables = HashMap::new();
/// let result = analyze(&abstract_tree, &variables);
///
/// assert!(result.is_err());
/// ```
pub fn analyze(
abstract_tree: &AbstractSyntaxTree,
variables: &HashMap<Identifier, Value>,
) -> Result<(), AnalyzerError> {
let analyzer = Analyzer::new(abstract_tree, variables);
analyzer.analyze() analyzer.analyze()
} }
pub struct Analyzer<'a> { pub struct Analyzer<'a> {
abstract_tree: &'a AbstractSyntaxTree, abstract_tree: &'a AbstractSyntaxTree,
variables: &'a HashMap<Identifier, Value>,
} }
impl<'a> Analyzer<'a> { impl<'a> Analyzer<'a> {
pub fn new(abstract_tree: &'a AbstractSyntaxTree) -> Self { pub fn new(
Analyzer { abstract_tree } abstract_tree: &'a AbstractSyntaxTree,
variables: &'a HashMap<Identifier, Value>,
) -> Self {
Self {
abstract_tree,
variables,
}
} }
pub fn analyze(&self) -> Result<(), AnalyzerError> { pub fn analyze(&self) -> Result<(), AnalyzerError> {
@ -26,6 +51,24 @@ impl<'a> Analyzer<'a> {
fn analyze_node(&self, node: &Node) -> Result<(), AnalyzerError> { fn analyze_node(&self, node: &Node) -> Result<(), AnalyzerError> {
match &node.statement { match &node.statement {
Statement::Add(left, right) => { Statement::Add(left, right) => {
if let Some(Type::Integer) | Some(Type::Float) =
left.statement.expected_type(self.variables)
{
} else {
return Err(AnalyzerError::ExpectedIntegerOrFloat {
actual: left.as_ref().clone(),
});
}
if let Some(Type::Integer) | Some(Type::Float) =
right.statement.expected_type(self.variables)
{
} else {
return Err(AnalyzerError::ExpectedIntegerOrFloat {
actual: right.as_ref().clone(),
});
}
self.analyze_node(left)?; self.analyze_node(left)?;
self.analyze_node(right)?; self.analyze_node(right)?;
} }
@ -55,12 +98,32 @@ impl<'a> Analyzer<'a> {
} }
} }
Statement::Multiply(left, right) => { Statement::Multiply(left, right) => {
if let Some(Type::Integer) | Some(Type::Float) =
left.statement.expected_type(self.variables)
{
} else {
return Err(AnalyzerError::ExpectedIntegerOrFloat {
actual: left.as_ref().clone(),
});
}
if let Some(Type::Integer) | Some(Type::Float) =
right.statement.expected_type(self.variables)
{
} else {
return Err(AnalyzerError::ExpectedIntegerOrFloat {
actual: right.as_ref().clone(),
});
}
self.analyze_node(left)?; self.analyze_node(left)?;
self.analyze_node(right)?; self.analyze_node(right)?;
} }
Statement::PropertyAccess(left, right) => { Statement::PropertyAccess(left, right) => {
if let Statement::Identifier(_) = &left.statement { if let Statement::Identifier(_) | Statement::Constant(_) | Statement::List(_) =
// Identifier is in the correct position &left.statement
{
// Left side is valid
} else { } else {
return Err(AnalyzerError::ExpectedIdentifier { return Err(AnalyzerError::ExpectedIdentifier {
actual: left.as_ref().clone(), actual: left.as_ref().clone(),
@ -79,6 +142,7 @@ impl<'a> Analyzer<'a> {
#[derive(Clone, Debug, PartialEq)] #[derive(Clone, Debug, PartialEq)]
pub enum AnalyzerError { pub enum AnalyzerError {
ExpectedIdentifier { actual: Node }, ExpectedIdentifier { actual: Node },
ExpectedIntegerOrFloat { actual: Node },
UnexpectedIdentifier { identifier: Node }, UnexpectedIdentifier { identifier: Node },
} }
@ -88,6 +152,58 @@ mod tests {
use super::*; use super::*;
#[test]
fn multiply_expect_integer_or_float() {
let abstract_tree = AbstractSyntaxTree {
nodes: [Node::new(
Statement::Multiply(
Box::new(Node::new(Statement::Constant(Value::integer(1)), (0, 1))),
Box::new(Node::new(
Statement::Constant(Value::boolean(false)),
(1, 2),
)),
),
(0, 2),
)]
.into(),
};
let variables = HashMap::new();
let analyzer = Analyzer::new(&abstract_tree, &variables);
assert_eq!(
analyzer.analyze(),
Err(AnalyzerError::ExpectedIntegerOrFloat {
actual: Node::new(Statement::Constant(Value::boolean(false)), (1, 2))
})
)
}
#[test]
fn add_expect_integer_or_float() {
let abstract_tree = AbstractSyntaxTree {
nodes: [Node::new(
Statement::Add(
Box::new(Node::new(Statement::Constant(Value::integer(1)), (0, 1))),
Box::new(Node::new(
Statement::Constant(Value::boolean(false)),
(1, 2),
)),
),
(0, 2),
)]
.into(),
};
let variables = HashMap::new();
let analyzer = Analyzer::new(&abstract_tree, &variables);
assert_eq!(
analyzer.analyze(),
Err(AnalyzerError::ExpectedIntegerOrFloat {
actual: Node::new(Statement::Constant(Value::boolean(false)), (1, 2))
})
)
}
#[test] #[test]
fn assignment_expect_identifier() { fn assignment_expect_identifier() {
let abstract_tree = AbstractSyntaxTree { let abstract_tree = AbstractSyntaxTree {
@ -100,8 +216,8 @@ mod tests {
)] )]
.into(), .into(),
}; };
let variables = HashMap::new();
let analyzer = Analyzer::new(&abstract_tree); let analyzer = Analyzer::new(&abstract_tree, &variables);
assert_eq!( assert_eq!(
analyzer.analyze(), analyzer.analyze(),
@ -112,7 +228,7 @@ mod tests {
} }
#[test] #[test]
fn unexpected_identifier_simple() { fn unexpected_identifier() {
let abstract_tree = AbstractSyntaxTree { let abstract_tree = AbstractSyntaxTree {
nodes: [Node::new( nodes: [Node::new(
Statement::Identifier(Identifier::new("x")), Statement::Identifier(Identifier::new("x")),
@ -120,8 +236,8 @@ mod tests {
)] )]
.into(), .into(),
}; };
let variables = HashMap::new();
let analyzer = Analyzer::new(&abstract_tree); let analyzer = Analyzer::new(&abstract_tree, &variables);
assert_eq!( assert_eq!(
analyzer.analyze(), analyzer.analyze(),
@ -130,30 +246,4 @@ mod tests {
}) })
) )
} }
#[test]
fn unexpected_identifier_nested() {
let abstract_tree = AbstractSyntaxTree {
nodes: [Node::new(
Statement::Add(
Box::new(Node::new(Statement::Constant(Value::integer(1)), (0, 1))),
Box::new(Node::new(
Statement::Identifier(Identifier::new("x")),
(1, 2),
)),
),
(0, 1),
)]
.into(),
};
let analyzer = Analyzer::new(&abstract_tree);
assert_eq!(
analyzer.analyze(),
Err(AnalyzerError::UnexpectedIdentifier {
identifier: Node::new(Statement::Identifier(Identifier::new("x")), (1, 2))
})
)
}
} }

View File

@ -10,7 +10,7 @@ pub fn run(
variables: &mut HashMap<Identifier, Value>, variables: &mut HashMap<Identifier, Value>,
) -> Result<Option<Value>, VmError> { ) -> Result<Option<Value>, VmError> {
let abstract_syntax_tree = parse(input)?; let abstract_syntax_tree = parse(input)?;
let analyzer = Analyzer::new(&abstract_syntax_tree); let analyzer = Analyzer::new(&abstract_syntax_tree, variables);
analyzer.analyze()?; analyzer.analyze()?;