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|
//! FIXME: write short doc here
use std::sync::Arc;
use hir_def::{path::path, resolver::HasResolver, AdtId, DefWithBodyId};
use hir_expand::diagnostics::DiagnosticSink;
use ra_syntax::{ast, AstPtr};
use rustc_hash::FxHashSet;
use crate::{
db::HirDatabase,
diagnostics::{
match_check::{is_useful, MatchCheckCtx, Matrix, PatStack, Usefulness},
MismatchedArgCount, MissingFields, MissingMatchArms, MissingOkInTailExpr, MissingPatFields,
},
utils::variant_data,
ApplicationTy, InferenceResult, Ty, TypeCtor,
};
pub use hir_def::{
body::{
scope::{ExprScopes, ScopeEntry, ScopeId},
Body, BodySourceMap, ExprPtr, ExprSource, PatPtr, PatSource,
},
expr::{
ArithOp, Array, BinaryOp, BindingAnnotation, CmpOp, Expr, ExprId, Literal, LogicOp,
MatchArm, Ordering, Pat, PatId, RecordFieldPat, RecordLitField, Statement, UnaryOp,
},
src::HasSource,
LocalFieldId, Lookup, VariantId,
};
pub(super) struct ExprValidator<'a, 'b: 'a> {
owner: DefWithBodyId,
infer: Arc<InferenceResult>,
sink: &'a mut DiagnosticSink<'b>,
}
impl<'a, 'b> ExprValidator<'a, 'b> {
pub(super) fn new(
owner: DefWithBodyId,
infer: Arc<InferenceResult>,
sink: &'a mut DiagnosticSink<'b>,
) -> ExprValidator<'a, 'b> {
ExprValidator { owner, infer, sink }
}
pub(super) fn validate_body(&mut self, db: &dyn HirDatabase) {
let body = db.body(self.owner.into());
for (id, expr) in body.exprs.iter() {
if let Some((variant_def, missed_fields, true)) =
record_literal_missing_fields(db, &self.infer, id, expr)
{
self.create_record_literal_missing_fields_diagnostic(
id,
db,
variant_def,
missed_fields,
);
}
match expr {
Expr::Match { expr, arms } => {
self.validate_match(id, *expr, arms, db, self.infer.clone());
}
Expr::Call { .. } | Expr::MethodCall { .. } => {
self.validate_call(db, id, expr);
}
_ => {}
}
}
for (id, pat) in body.pats.iter() {
if let Some((variant_def, missed_fields, true)) =
record_pattern_missing_fields(db, &self.infer, id, pat)
{
self.create_record_pattern_missing_fields_diagnostic(
id,
db,
variant_def,
missed_fields,
);
}
}
let body_expr = &body[body.body_expr];
if let Expr::Block { tail: Some(t), .. } = body_expr {
self.validate_results_in_tail_expr(body.body_expr, *t, db);
}
}
fn create_record_literal_missing_fields_diagnostic(
&mut self,
id: ExprId,
db: &dyn HirDatabase,
variant_def: VariantId,
missed_fields: Vec<LocalFieldId>,
) {
// XXX: only look at source_map if we do have missing fields
let (_, source_map) = db.body_with_source_map(self.owner.into());
if let Ok(source_ptr) = source_map.expr_syntax(id) {
let root = source_ptr.file_syntax(db.upcast());
if let ast::Expr::RecordExpr(record_lit) = &source_ptr.value.to_node(&root) {
if let Some(field_list) = record_lit.record_expr_field_list() {
let variant_data = variant_data(db.upcast(), variant_def);
let missed_fields = missed_fields
.into_iter()
.map(|idx| variant_data.fields()[idx].name.clone())
.collect();
self.sink.push(MissingFields {
file: source_ptr.file_id,
field_list: AstPtr::new(&field_list),
missed_fields,
})
}
}
}
}
fn create_record_pattern_missing_fields_diagnostic(
&mut self,
id: PatId,
db: &dyn HirDatabase,
variant_def: VariantId,
missed_fields: Vec<LocalFieldId>,
) {
// XXX: only look at source_map if we do have missing fields
let (_, source_map) = db.body_with_source_map(self.owner.into());
if let Ok(source_ptr) = source_map.pat_syntax(id) {
if let Some(expr) = source_ptr.value.as_ref().left() {
let root = source_ptr.file_syntax(db.upcast());
if let ast::Pat::RecordPat(record_pat) = expr.to_node(&root) {
if let Some(field_list) = record_pat.record_field_pat_list() {
let variant_data = variant_data(db.upcast(), variant_def);
let missed_fields = missed_fields
.into_iter()
.map(|idx| variant_data.fields()[idx].name.clone())
.collect();
self.sink.push(MissingPatFields {
file: source_ptr.file_id,
field_list: AstPtr::new(&field_list),
missed_fields,
})
}
}
}
}
}
fn validate_call(&mut self, db: &dyn HirDatabase, call_id: ExprId, expr: &Expr) -> Option<()> {
// Check that the number of arguments matches the number of parameters.
// FIXME: Due to shortcomings in the current type system implementation, only emit this
// diagnostic if there are no type mismatches in the containing function.
if self.infer.type_mismatches.iter().next().is_some() {
return Some(());
}
let is_method_call = matches!(expr, Expr::MethodCall { .. });
let (sig, args) = match expr {
Expr::Call { callee, args } => {
let callee = &self.infer.type_of_expr[*callee];
let sig = callee.callable_sig(db)?;
(sig, args.clone())
}
Expr::MethodCall { receiver, args, .. } => {
let mut args = args.clone();
args.insert(0, *receiver);
// FIXME: note that we erase information about substs here. This
// is not right, but, luckily, doesn't matter as we care only
// about the number of params
let callee = self.infer.method_resolution(call_id)?;
let sig = db.callable_item_signature(callee.into()).value;
(sig, args)
}
_ => return None,
};
if sig.is_varargs {
return None;
}
let params = sig.params();
let mut param_count = params.len();
let mut arg_count = args.len();
if arg_count != param_count {
let (_, source_map) = db.body_with_source_map(self.owner.into());
if let Ok(source_ptr) = source_map.expr_syntax(call_id) {
if is_method_call {
param_count -= 1;
arg_count -= 1;
}
self.sink.push(MismatchedArgCount {
file: source_ptr.file_id,
call_expr: source_ptr.value,
expected: param_count,
found: arg_count,
});
}
}
None
}
fn validate_match(
&mut self,
id: ExprId,
match_expr: ExprId,
arms: &[MatchArm],
db: &dyn HirDatabase,
infer: Arc<InferenceResult>,
) {
let (body, source_map): (Arc<Body>, Arc<BodySourceMap>) =
db.body_with_source_map(self.owner.into());
let match_expr_ty = match infer.type_of_expr.get(match_expr) {
Some(ty) => ty,
// If we can't resolve the type of the match expression
// we cannot perform exhaustiveness checks.
None => return,
};
let cx = MatchCheckCtx { match_expr, body, infer: infer.clone(), db };
let pats = arms.iter().map(|arm| arm.pat);
let mut seen = Matrix::empty();
for pat in pats {
if let Some(pat_ty) = infer.type_of_pat.get(pat) {
// We only include patterns whose type matches the type
// of the match expression. If we had a InvalidMatchArmPattern
// diagnostic or similar we could raise that in an else
// block here.
//
// When comparing the types, we also have to consider that rustc
// will automatically de-reference the match expression type if
// necessary.
//
// FIXME we should use the type checker for this.
if pat_ty == match_expr_ty
|| match_expr_ty
.as_reference()
.map(|(match_expr_ty, _)| match_expr_ty == pat_ty)
.unwrap_or(false)
{
// If we had a NotUsefulMatchArm diagnostic, we could
// check the usefulness of each pattern as we added it
// to the matrix here.
let v = PatStack::from_pattern(pat);
seen.push(&cx, v);
continue;
}
}
// If we can't resolve the type of a pattern, or the pattern type doesn't
// fit the match expression, we skip this diagnostic. Skipping the entire
// diagnostic rather than just not including this match arm is preferred
// to avoid the chance of false positives.
return;
}
match is_useful(&cx, &seen, &PatStack::from_wild()) {
Ok(Usefulness::Useful) => (),
// if a wildcard pattern is not useful, then all patterns are covered
Ok(Usefulness::NotUseful) => return,
// this path is for unimplemented checks, so we err on the side of not
// reporting any errors
_ => return,
}
if let Ok(source_ptr) = source_map.expr_syntax(id) {
let root = source_ptr.file_syntax(db.upcast());
if let ast::Expr::MatchExpr(match_expr) = &source_ptr.value.to_node(&root) {
if let (Some(match_expr), Some(arms)) =
(match_expr.expr(), match_expr.match_arm_list())
{
self.sink.push(MissingMatchArms {
file: source_ptr.file_id,
match_expr: AstPtr::new(&match_expr),
arms: AstPtr::new(&arms),
})
}
}
}
}
fn validate_results_in_tail_expr(&mut self, body_id: ExprId, id: ExprId, db: &dyn HirDatabase) {
// the mismatch will be on the whole block currently
let mismatch = match self.infer.type_mismatch_for_expr(body_id) {
Some(m) => m,
None => return,
};
let core_result_path = path![core::result::Result];
let resolver = self.owner.resolver(db.upcast());
let core_result_enum = match resolver.resolve_known_enum(db.upcast(), &core_result_path) {
Some(it) => it,
_ => return,
};
let core_result_ctor = TypeCtor::Adt(AdtId::EnumId(core_result_enum));
let params = match &mismatch.expected {
Ty::Apply(ApplicationTy { ctor, parameters }) if ctor == &core_result_ctor => {
parameters
}
_ => return,
};
if params.len() == 2 && params[0] == mismatch.actual {
let (_, source_map) = db.body_with_source_map(self.owner.into());
if let Ok(source_ptr) = source_map.expr_syntax(id) {
self.sink
.push(MissingOkInTailExpr { file: source_ptr.file_id, expr: source_ptr.value });
}
}
}
}
pub fn record_literal_missing_fields(
db: &dyn HirDatabase,
infer: &InferenceResult,
id: ExprId,
expr: &Expr,
) -> Option<(VariantId, Vec<LocalFieldId>, /*exhaustive*/ bool)> {
let (fields, exhausitve) = match expr {
Expr::RecordLit { path: _, fields, spread } => (fields, spread.is_none()),
_ => return None,
};
let variant_def = infer.variant_resolution_for_expr(id)?;
if let VariantId::UnionId(_) = variant_def {
return None;
}
let variant_data = variant_data(db.upcast(), variant_def);
let specified_fields: FxHashSet<_> = fields.iter().map(|f| &f.name).collect();
let missed_fields: Vec<LocalFieldId> = variant_data
.fields()
.iter()
.filter_map(|(f, d)| if specified_fields.contains(&d.name) { None } else { Some(f) })
.collect();
if missed_fields.is_empty() {
return None;
}
Some((variant_def, missed_fields, exhausitve))
}
pub fn record_pattern_missing_fields(
db: &dyn HirDatabase,
infer: &InferenceResult,
id: PatId,
pat: &Pat,
) -> Option<(VariantId, Vec<LocalFieldId>, /*exhaustive*/ bool)> {
let (fields, exhaustive) = match pat {
Pat::Record { path: _, args, ellipsis } => (args, !ellipsis),
_ => return None,
};
let variant_def = infer.variant_resolution_for_pat(id)?;
if let VariantId::UnionId(_) = variant_def {
return None;
}
let variant_data = variant_data(db.upcast(), variant_def);
let specified_fields: FxHashSet<_> = fields.iter().map(|f| &f.name).collect();
let missed_fields: Vec<LocalFieldId> = variant_data
.fields()
.iter()
.filter_map(|(f, d)| if specified_fields.contains(&d.name) { None } else { Some(f) })
.collect();
if missed_fields.is_empty() {
return None;
}
Some((variant_def, missed_fields, exhaustive))
}
#[cfg(test)]
mod tests {
use crate::diagnostics::tests::check_diagnostics;
#[test]
fn simple_free_fn_zero() {
check_diagnostics(
r#"
fn zero() {}
fn f() { zero(1); }
//^^^^^^^ Expected 0 arguments, found 1
"#,
);
check_diagnostics(
r#"
fn zero() {}
fn f() { zero(); }
"#,
);
}
#[test]
fn simple_free_fn_one() {
check_diagnostics(
r#"
fn one(arg: u8) {}
fn f() { one(); }
//^^^^^ Expected 1 argument, found 0
"#,
);
check_diagnostics(
r#"
fn one(arg: u8) {}
fn f() { one(1); }
"#,
);
}
#[test]
fn method_as_fn() {
check_diagnostics(
r#"
struct S;
impl S { fn method(&self) {} }
fn f() {
S::method();
} //^^^^^^^^^^^ Expected 1 argument, found 0
"#,
);
check_diagnostics(
r#"
struct S;
impl S { fn method(&self) {} }
fn f() {
S::method(&S);
S.method();
}
"#,
);
}
#[test]
fn method_with_arg() {
check_diagnostics(
r#"
struct S;
impl S { fn method(&self, arg: u8) {} }
fn f() {
S.method();
} //^^^^^^^^^^ Expected 1 argument, found 0
"#,
);
check_diagnostics(
r#"
struct S;
impl S { fn method(&self, arg: u8) {} }
fn f() {
S::method(&S, 0);
S.method(1);
}
"#,
);
}
#[test]
fn tuple_struct() {
check_diagnostics(
r#"
struct Tup(u8, u16);
fn f() {
Tup(0);
} //^^^^^^ Expected 2 arguments, found 1
"#,
)
}
#[test]
fn enum_variant() {
check_diagnostics(
r#"
enum En { Variant(u8, u16), }
fn f() {
En::Variant(0);
} //^^^^^^^^^^^^^^ Expected 2 arguments, found 1
"#,
)
}
#[test]
fn enum_variant_type_macro() {
check_diagnostics(
r#"
macro_rules! Type {
() => { u32 };
}
enum Foo {
Bar(Type![])
}
impl Foo {
fn new() {
Foo::Bar(0);
Foo::Bar(0, 1);
//^^^^^^^^^^^^^^ Expected 1 argument, found 2
Foo::Bar();
//^^^^^^^^^^ Expected 1 argument, found 0
}
}
"#,
);
}
#[test]
fn varargs() {
check_diagnostics(
r#"
extern "C" {
fn fixed(fixed: u8);
fn varargs(fixed: u8, ...);
fn varargs2(...);
}
fn f() {
unsafe {
fixed(0);
fixed(0, 1);
//^^^^^^^^^^^ Expected 1 argument, found 2
varargs(0);
varargs(0, 1);
varargs2();
varargs2(0);
varargs2(0, 1);
}
}
"#,
)
}
#[test]
fn arg_count_lambda() {
check_diagnostics(
r#"
fn main() {
let f = |()| ();
f();
//^^^ Expected 1 argument, found 0
f(());
f((), ());
//^^^^^^^^^ Expected 1 argument, found 2
}
"#,
)
}
}
|