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feat: add control flow analysis and error reporting for unreachable code

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This commit is contained in:
Jooris Hadeler
2026-04-21 18:36:02 +02:00
parent 0c288c2247
commit 22023a8734
1 changed files with 65 additions and 3 deletions
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src/frontend/sema.rs
+65 -3
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@@ -79,6 +79,7 @@ pub struct Sema {
deferred_unary_neg: Vec<(Span, Ty, Ty, Option<u64>)>,
deferred_binary: Vec<(Span, Ty)>,
deferred_literals: Vec<(Span, Ty)>,
is_reachable: bool,
}
impl Sema {
@@ -92,6 +93,7 @@ impl Sema {
deferred_unary_neg: Vec::new(),
deferred_binary: Vec::new(),
deferred_literals: Vec::new(),
is_reachable: true,
}
}
@@ -100,18 +102,22 @@ impl Sema {
(!self.errors.is_empty()).then_some(self.errors)
}
/// Pushes a new, empty scope onto the environment stack.
fn enter_scope(&mut self) {
self.scopes.push(HashMap::new());
}
/// Pops the current scope from the environment stack.
fn leave_scope(&mut self) {
self.scopes.pop();
}
/// Binds a name to a type in the current innermost scope.
fn bind(&mut self, name: &str, ty: Ty) {
self.scopes.last_mut().unwrap().insert(name.to_string(), ty);
}
/// Looks up a name in the environment, searching from the innermost scope outwards.
fn lookup(&self, name: &str) -> Option<&Ty> {
self.scopes.iter().rev().find_map(|scope| scope.get(name))
}
@@ -259,8 +265,17 @@ impl Sema {
.map(|t| Ty::from(&t.kind))
.unwrap_or(Ty::Unit);
self.is_reachable = true;
let typed_body = self.analyze_stmt(body, &expected_ret_ty);
if expected_ret_ty != Ty::Unit && self.is_reachable {
self.errors.push(SemanticError::new(
"not all control paths return a value",
decl.span,
));
}
self.leave_scope();
TypedDecl::Function {
@@ -279,10 +294,16 @@ impl Sema {
match &stmt.kind {
StmtKind::Compound { inner } => {
let mut typed_inner = Vec::new();
let mut reported_unreachable = false;
self.enter_scope();
for s in inner {
if !self.is_reachable && !reported_unreachable {
self.errors
.push(SemanticError::new("unreachable statement", s.span));
reported_unreachable = true;
}
typed_inner.push(self.analyze_stmt(s, expected_ret_ty));
}
@@ -301,10 +322,24 @@ impl Sema {
self.errors.push(SemanticError::new(err, condition.span));
}
let initial_reachable = self.is_reachable;
self.is_reachable = initial_reachable;
let typed_then = self.analyze_stmt(then, expected_ret_ty);
let typed_elze = elze
.as_ref()
.map(|stmt| self.analyze_stmt(stmt, expected_ret_ty));
let reachable_after_then = self.is_reachable;
let typed_elze = elze.as_ref().map(|e| {
self.is_reachable = initial_reachable;
self.analyze_stmt(e, expected_ret_ty)
});
let reachable_after_else = if elze.is_some() {
self.is_reachable
} else {
initial_reachable
};
self.is_reachable = reachable_after_then || reachable_after_else;
TypedStmt::If {
condition: typed_condition,
@@ -320,6 +355,8 @@ impl Sema {
self.errors.push(SemanticError::new(err, expr.span));
}
self.is_reachable = false;
TypedStmt::Return {
value: Some(typed_expr),
}
@@ -328,6 +365,8 @@ impl Sema {
self.errors.push(SemanticError::new(err, stmt.span));
}
self.is_reachable = false;
TypedStmt::Return { value: None }
}
}
@@ -765,4 +804,27 @@ mod test {
let src = "fn test() { if 12 {} }";
assert!(analyze(src).is_err());
}
#[test]
fn not_all_paths_return() {
let src = "fn test(a: i32) -> i32 { if a < 5 { return 5; } else { } }";
assert!(analyze(src).is_err());
let src = "fn test() -> i32 { }";
assert!(analyze(src).is_err());
let src = "fn test(a: i32) -> i32 { if a < 5 { return 5; } return 10; }";
assert!(analyze(src).is_ok());
}
#[test]
fn unreachable_code() {
let src = "fn test() -> i32 { return 5; return 10; }";
let errors = analyze(src).unwrap_err();
assert!(
errors
.iter()
.any(|e| e.message.contains("unreachable statement"))
);
}
}