use std::collections::BTreeSet;
use std::hash::Hash;
use std::sync::Arc;
use std::{mem, panic, vec};
use cairo_lang_debug::DebugWithDb;
use cairo_lang_defs::ids::{
FunctionTitleId, GenericKind, GenericParamId, ImplAliasId, ImplConstantDefId,
ImplConstantDefLongId, ImplDefId, ImplFunctionId, ImplFunctionLongId, ImplImplDefId,
ImplImplDefLongId, ImplItemId, ImplTypeDefId, ImplTypeDefLongId, LanguageElementId,
LookupItemId, ModuleId, ModuleItemId, NamedLanguageElementId, NamedLanguageElementLongId,
TopLevelLanguageElementId, TraitConstantId, TraitFunctionId, TraitId, TraitImplId, TraitTypeId,
};
use cairo_lang_diagnostics::{
DiagnosticAdded, Diagnostics, DiagnosticsBuilder, Maybe, ToMaybe, ToOption, skip_diagnostic,
};
use cairo_lang_filesystem::ids::UnstableSalsaId;
use cairo_lang_proc_macros::{DebugWithDb, SemanticObject};
use cairo_lang_syntax as syntax;
use cairo_lang_syntax::node::ast::OptionTypeClause;
use cairo_lang_utils::ordered_hash_map::OrderedHashMap;
use cairo_lang_utils::ordered_hash_set::OrderedHashSet;
use cairo_lang_utils::unordered_hash_map::UnorderedHashMap;
use cairo_lang_utils::{
Intern, LookupIntern, define_short_id, extract_matches, try_extract_matches,
};
use itertools::{Itertools, chain, izip};
use smol_str::SmolStr;
use syntax::attribute::structured::{Attribute, AttributeListStructurize};
use syntax::node::ast::{self, GenericArg, ImplItem, MaybeImplBody, OptionReturnTypeClause};
use syntax::node::db::SyntaxGroup;
use syntax::node::helpers::OptionWrappedGenericParamListHelper;
use syntax::node::ids::SyntaxStablePtrId;
use syntax::node::{Terminal, TypedStablePtr, TypedSyntaxNode};
use super::constant::{
ConstValue, ConstValueId, ConstantData, ImplConstantId, constant_semantic_data_cycle_helper,
constant_semantic_data_helper,
};
use super::enm::SemanticEnumEx;
use super::function_with_body::{FunctionBody, FunctionBodyData, get_inline_config};
use super::functions::{
FunctionDeclarationData, GenericFunctionId, ImplGenericFunctionId, InlineConfiguration,
forbid_inline_always_with_impl_generic_param,
};
use super::generics::{
GenericArgumentHead, GenericParamImpl, GenericParamsData, generic_params_to_args,
semantic_generic_params,
};
use super::impl_alias::{
ImplAliasData, impl_alias_generic_params_data_helper, impl_alias_semantic_data_cycle_helper,
impl_alias_semantic_data_helper,
};
use super::trt::{
ConcreteTraitConstantId, ConcreteTraitGenericFunctionId, ConcreteTraitGenericFunctionLongId,
ConcreteTraitImplId,
};
use super::type_aliases::{
TypeAliasData, type_alias_generic_params_data_helper, type_alias_semantic_data_cycle_helper,
type_alias_semantic_data_helper,
};
use super::visibility::peek_visible_in;
use super::{TraitOrImplContext, resolve_trait_path};
use crate::corelib::{
CoreTraitContext, concrete_destruct_trait, concrete_drop_trait, copy_trait, core_crate,
deref_trait, destruct_trait, drop_trait, fn_once_trait, fn_trait, get_core_trait,
panic_destruct_trait,
};
use crate::db::{SemanticGroup, get_resolver_data_options};
use crate::diagnostic::SemanticDiagnosticKind::{self, *};
use crate::diagnostic::{NotFoundItemType, SemanticDiagnostics, SemanticDiagnosticsBuilder};
use crate::expr::compute::{ComputationContext, ContextFunction, Environment, compute_root_expr};
use crate::expr::inference::canonic::ResultNoErrEx;
use crate::expr::inference::conform::InferenceConform;
use crate::expr::inference::infers::InferenceEmbeddings;
use crate::expr::inference::solver::SolutionSet;
use crate::expr::inference::{
ImplVarId, ImplVarTraitItemMappings, Inference, InferenceError, InferenceId,
};
use crate::items::function_with_body::get_implicit_precedence;
use crate::items::functions::ImplicitPrecedence;
use crate::items::us::SemanticUseEx;
use crate::resolve::{ResolvedConcreteItem, ResolvedGenericItem, Resolver, ResolverData};
use crate::substitution::{GenericSubstitution, SemanticRewriter, SubstitutionRewriter};
use crate::types::{ImplTypeId, add_type_based_diagnostics, get_impl_at_context, resolve_type};
use crate::{
Arenas, ConcreteFunction, ConcreteTraitId, ConcreteTraitLongId, FunctionId, FunctionLongId,
GenericArgumentId, GenericParam, Mutability, SemanticDiagnostic, TypeId, TypeLongId, semantic,
semantic_object_for_id,
};
#[cfg(test)]
#[path = "imp_test.rs"]
mod test;
#[derive(Clone, Debug, Hash, PartialEq, Eq, SemanticObject)]
pub struct ConcreteImplLongId {
pub impl_def_id: ImplDefId,
pub generic_args: Vec<GenericArgumentId>,
}
define_short_id!(
ConcreteImplId,
ConcreteImplLongId,
SemanticGroup,
lookup_intern_concrete_impl,
intern_concrete_impl
);
semantic_object_for_id!(
ConcreteImplId,
lookup_intern_concrete_impl,
intern_concrete_impl,
ConcreteImplLongId
);
impl DebugWithDb<dyn SemanticGroup> for ConcreteImplLongId {
fn fmt(
&self,
f: &mut std::fmt::Formatter<'_>,
db: &(dyn SemanticGroup + 'static),
) -> std::fmt::Result {
write!(f, "{}", self.impl_def_id.full_path(db.upcast()))?;
if !self.generic_args.is_empty() {
write!(f, "::<")?;
for (i, arg) in self.generic_args.iter().enumerate() {
if i > 0 {
write!(f, ", ")?;
}
write!(f, "{}", arg.format(db))?;
}
write!(f, ">")?;
}
Ok(())
}
}
impl ConcreteImplId {
pub fn impl_def_id(&self, db: &dyn SemanticGroup) -> ImplDefId {
self.lookup_intern(db).impl_def_id
}
pub fn get_impl_function(
&self,
db: &dyn SemanticGroup,
function: TraitFunctionId,
) -> Maybe<Option<ImplFunctionId>> {
db.impl_function_by_trait_function(self.impl_def_id(db), function)
}
pub fn name(&self, db: &dyn SemanticGroup) -> SmolStr {
self.impl_def_id(db).name(db.upcast())
}
pub fn substitution(&self, db: &dyn SemanticGroup) -> Maybe<GenericSubstitution> {
Ok(GenericSubstitution::from_impl(ImplLongId::Concrete(*self).intern(db)).concat(
GenericSubstitution::new(
&db.impl_def_generic_params(self.impl_def_id(db))?,
&self.lookup_intern(db).generic_args,
),
))
}
pub fn is_fully_concrete(&self, db: &dyn SemanticGroup) -> bool {
self.lookup_intern(db)
.generic_args
.iter()
.all(|generic_argument_id| generic_argument_id.is_fully_concrete(db))
}
pub fn is_var_free(&self, db: &dyn SemanticGroup) -> bool {
self.lookup_intern(db)
.generic_args
.iter()
.all(|generic_argument_id| generic_argument_id.is_var_free(db))
}
}
#[derive(Clone, Debug, Hash, PartialEq, Eq, SemanticObject)]
pub enum ImplLongId {
Concrete(ConcreteImplId),
GenericParameter(GenericParamId),
ImplVar(ImplVarId),
ImplImpl(ImplImplId),
TraitImpl(TraitImplId),
GeneratedImpl(GeneratedImplId),
}
impl ImplLongId {
pub fn head(&self, db: &dyn SemanticGroup) -> Option<ImplHead> {
Some(match self {
ImplLongId::Concrete(concrete) => ImplHead::Concrete(concrete.impl_def_id(db)),
ImplLongId::GenericParameter(_)
| ImplLongId::ImplVar(_)
| ImplLongId::ImplImpl(_)
| ImplLongId::TraitImpl(_)
| ImplLongId::GeneratedImpl(_) => {
return None;
}
})
}
pub fn name(&self, db: &dyn SemanticGroup) -> SmolStr {
match self {
ImplLongId::Concrete(concrete_impl) => concrete_impl.name(db),
ImplLongId::GenericParameter(generic_param_impl) => {
generic_param_impl.name(db.upcast()).unwrap_or_else(|| "_".into())
}
ImplLongId::ImplVar(var) => {
format!("ImplVar({})", var.concrete_trait_id(db).full_path(db)).into()
}
ImplLongId::ImplImpl(impl_impl) => format!(
"{}::{}",
impl_impl.impl_id().name(db.upcast()),
db.impl_impl_concrete_trait(*impl_impl)
.map(|trait_impl| trait_impl.full_path(db))
.unwrap_or_else(|_| "_".into())
)
.into(),
ImplLongId::TraitImpl(trait_impl) => trait_impl.name(db.upcast()),
ImplLongId::GeneratedImpl(generated_impl) => {
format!("{:?}", generated_impl.debug(db.elongate())).into()
}
}
}
pub fn format(&self, db: &dyn SemanticGroup) -> String {
match self {
ImplLongId::Concrete(concrete_impl) => {
format!("{:?}", concrete_impl.debug(db.elongate()))
}
ImplLongId::GenericParameter(generic_param_impl) => {
generic_param_impl.format(db.upcast())
}
ImplLongId::ImplVar(var) => format!("{var:?}"),
ImplLongId::ImplImpl(impl_impl) => format!("{:?}", impl_impl.debug(db.elongate())),
ImplLongId::TraitImpl(trait_impl) => format!("{:?}", trait_impl.debug(db.elongate())),
ImplLongId::GeneratedImpl(generated_impl) => {
format!("{:?}", generated_impl.debug(db.elongate()))
}
}
}
pub fn is_var_free(&self, db: &dyn SemanticGroup) -> bool {
match self {
ImplLongId::Concrete(concrete_impl_id) => concrete_impl_id.is_var_free(db),
ImplLongId::GenericParameter(_) | ImplLongId::TraitImpl(_) => true,
ImplLongId::ImplVar(_) => false,
ImplLongId::ImplImpl(impl_impl) => impl_impl.impl_id().is_var_free(db),
ImplLongId::GeneratedImpl(generated_impl) => {
generated_impl.concrete_trait(db).is_var_free(db)
&& generated_impl
.lookup_intern(db)
.impl_items
.0
.values()
.all(|type_id| type_id.is_var_free(db))
}
}
}
pub fn is_fully_concrete(&self, db: &dyn SemanticGroup) -> bool {
match self {
ImplLongId::Concrete(concrete_impl_id) => concrete_impl_id.is_fully_concrete(db),
ImplLongId::GenericParameter(_) => false,
ImplLongId::ImplVar(_) => false,
ImplLongId::ImplImpl(_) | ImplLongId::TraitImpl(_) => false,
ImplLongId::GeneratedImpl(generated_impl) => {
generated_impl.concrete_trait(db).is_fully_concrete(db)
&& generated_impl
.lookup_intern(db)
.impl_items
.0
.values()
.all(|type_id| type_id.is_fully_concrete(db))
}
}
}
}
impl DebugWithDb<dyn SemanticGroup> for ImplLongId {
fn fmt(
&self,
f: &mut std::fmt::Formatter<'_>,
db: &(dyn SemanticGroup + 'static),
) -> std::fmt::Result {
match self {
ImplLongId::Concrete(concrete_impl_id) => write!(f, "{:?}", concrete_impl_id.debug(db)),
ImplLongId::GenericParameter(param) => write!(f, "{:?}", param.debug(db)),
ImplLongId::ImplVar(var) => write!(f, "?{}", var.lookup_intern(db).id.0),
ImplLongId::ImplImpl(impl_impl) => write!(f, "{:?}", impl_impl.debug(db)),
ImplLongId::TraitImpl(trait_impl) => write!(f, "{:?}", trait_impl.debug(db)),
ImplLongId::GeneratedImpl(generated_impl) => {
write!(f, "{:?}", generated_impl.debug(db))
}
}
}
}
define_short_id!(ImplId, ImplLongId, SemanticGroup, lookup_intern_impl, intern_impl);
semantic_object_for_id!(ImplId, lookup_intern_impl, intern_impl, ImplLongId);
impl ImplId {
pub fn concrete_trait(&self, db: &dyn SemanticGroup) -> Maybe<ConcreteTraitId> {
db.impl_concrete_trait(*self)
}
pub fn is_fully_concrete(&self, db: &dyn SemanticGroup) -> bool {
db.priv_impl_is_fully_concrete(*self)
}
pub fn is_var_free(&self, db: &dyn SemanticGroup) -> bool {
db.priv_impl_is_var_free(*self)
}
pub fn head(&self, db: &dyn SemanticGroup) -> Option<ImplHead> {
self.lookup_intern(db).head(db)
}
pub fn name(&self, db: &dyn SemanticGroup) -> SmolStr {
self.lookup_intern(db).name(db)
}
pub fn format(&self, db: &dyn SemanticGroup) -> String {
self.lookup_intern(db).format(db)
}
}
define_short_id!(
GeneratedImplId,
GeneratedImplLongId,
SemanticGroup,
lookup_intern_generated_impl,
intern_generated_impl
);
semantic_object_for_id!(
GeneratedImplId,
lookup_intern_generated_impl,
intern_generated_impl,
GeneratedImplLongId
);
impl GeneratedImplId {
pub fn concrete_trait(self, db: &dyn SemanticGroup) -> ConcreteTraitId {
db.lookup_intern_generated_impl(self).concrete_trait
}
pub fn trait_id(&self, db: &dyn SemanticGroup) -> TraitId {
self.concrete_trait(db).trait_id(db)
}
}
#[derive(Clone, Debug, Hash, PartialEq, Eq, SemanticObject)]
pub struct GeneratedImplLongId {
pub concrete_trait: ConcreteTraitId,
pub generic_params: Vec<GenericParam>,
pub impl_items: GeneratedImplItems,
}
#[derive(Clone, Debug, Default, PartialEq, Eq, SemanticObject)]
pub struct GeneratedImplItems(pub OrderedHashMap<TraitTypeId, TypeId>);
impl Hash for GeneratedImplItems {
fn hash<H: std::hash::Hasher>(&self, state: &mut H) {
self.0.iter().for_each(|(trait_type_id, type_id)| {
trait_type_id.hash(state);
type_id.hash(state);
});
}
}
pub enum GeneratedImplAssociatedTypes {
Unresolved,
Resolved(OrderedHashMap<TraitTypeId, TypeId>),
}
impl DebugWithDb<dyn SemanticGroup> for GeneratedImplLongId {
fn fmt(
&self,
f: &mut std::fmt::Formatter<'_>,
db: &(dyn SemanticGroup + 'static),
) -> std::fmt::Result {
write!(f, "Generated {:?}", self.concrete_trait.debug(db))
}
}
#[derive(Copy, Clone, Debug, Hash, PartialEq, Eq, SemanticObject)]
pub struct ImplImplId {
impl_id: ImplId,
trait_impl_id: TraitImplId,
}
impl ImplImplId {
pub fn new(impl_id: ImplId, trait_impl_id: TraitImplId, db: &dyn SemanticGroup) -> Self {
if let crate::items::imp::ImplLongId::Concrete(concrete_impl) = impl_id.lookup_intern(db) {
let impl_def_id = concrete_impl.impl_def_id(db);
assert_eq!(Ok(trait_impl_id.trait_id(db.upcast())), db.impl_def_trait(impl_def_id));
}
ImplImplId { impl_id, trait_impl_id }
}
pub fn impl_id(&self) -> ImplId {
self.impl_id
}
pub fn trait_impl_id(&self) -> TraitImplId {
self.trait_impl_id
}
pub fn concrete_trait_impl_id(&self, db: &dyn SemanticGroup) -> Maybe<ConcreteTraitImplId> {
Ok(ConcreteTraitImplId::new(db, self.impl_id.concrete_trait(db)?, self.trait_impl_id))
}
pub fn format(&self, db: &dyn SemanticGroup) -> SmolStr {
format!("{}::{}", self.impl_id.name(db.upcast()), self.trait_impl_id.name(db.upcast()),)
.into()
}
}
impl DebugWithDb<dyn SemanticGroup> for ImplImplId {
fn fmt(
&self,
f: &mut std::fmt::Formatter<'_>,
db: &(dyn SemanticGroup + 'static),
) -> std::fmt::Result {
write!(f, "{}", self.format(db))
}
}
impl UnstableSalsaId for ImplId {
fn get_internal_id(&self) -> &salsa::InternId {
&self.0
}
}
#[derive(Clone, Debug, Hash, PartialEq, Eq)]
pub enum ImplHead {
Concrete(ImplDefId),
}
#[derive(Clone, Debug, PartialEq, Eq, DebugWithDb)]
#[debug_db(dyn SemanticGroup + 'static)]
pub struct ImplDeclarationData {
diagnostics: Diagnostics<SemanticDiagnostic>,
generic_params: Vec<semantic::GenericParam>,
concrete_trait: Maybe<ConcreteTraitId>,
attributes: Vec<Attribute>,
resolver_data: Arc<ResolverData>,
}
pub fn impl_semantic_declaration_diagnostics(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Diagnostics<SemanticDiagnostic> {
db.priv_impl_declaration_data(impl_def_id).map(|data| data.diagnostics).unwrap_or_default()
}
pub fn impl_def_generic_params_data(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Maybe<GenericParamsData> {
let module_file_id = impl_def_id.module_file_id(db.upcast());
let mut diagnostics = SemanticDiagnostics::default();
let impl_ast = db.module_impl_by_id(impl_def_id)?.to_maybe()?;
let inference_id =
InferenceId::LookupItemGenerics(LookupItemId::ModuleItem(ModuleItemId::Impl(impl_def_id)));
let mut resolver = Resolver::new(db, module_file_id, inference_id);
resolver.set_feature_config(&impl_def_id, &impl_ast, &mut diagnostics);
let generic_params = semantic_generic_params(
db,
&mut diagnostics,
&mut resolver,
module_file_id,
&impl_ast.generic_params(db.upcast()),
);
let inference = &mut resolver.inference();
inference.finalize(&mut diagnostics, impl_ast.stable_ptr().untyped());
let generic_params = inference.rewrite(generic_params).no_err();
let resolver_data = Arc::new(resolver.data);
Ok(GenericParamsData { generic_params, diagnostics: diagnostics.build(), resolver_data })
}
pub fn impl_def_generic_params(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Maybe<Vec<semantic::GenericParam>> {
Ok(db.impl_def_generic_params_data(impl_def_id)?.generic_params)
}
pub fn impl_def_resolver_data(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Maybe<Arc<ResolverData>> {
Ok(db.priv_impl_declaration_data(impl_def_id)?.resolver_data)
}
pub fn impl_def_resolver_data_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_def_id: &ImplDefId,
) -> Maybe<Arc<ResolverData>> {
impl_def_resolver_data(db, *impl_def_id)
}
pub fn impl_def_concrete_trait(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Maybe<ConcreteTraitId> {
db.priv_impl_declaration_data(impl_def_id)?.concrete_trait
}
pub fn impl_def_concrete_trait_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_def_id: &ImplDefId,
) -> Maybe<ConcreteTraitId> {
impl_def_concrete_trait(db, *impl_def_id)
}
pub fn impl_def_substitution(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Maybe<Arc<GenericSubstitution>> {
let params = db.impl_def_generic_params(impl_def_id)?;
let generic_args = generic_params_to_args(¶ms, db);
Ok(Arc::new(ConcreteImplLongId { impl_def_id, generic_args }.intern(db).substitution(db)?))
}
pub fn impl_def_attributes(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Maybe<Vec<Attribute>> {
Ok(db.priv_impl_declaration_data(impl_def_id)?.attributes)
}
pub fn impl_def_trait(db: &dyn SemanticGroup, impl_def_id: ImplDefId) -> Maybe<TraitId> {
let module_file_id = impl_def_id.module_file_id(db.upcast());
let mut diagnostics = SemanticDiagnostics::default();
let impl_ast = db.module_impl_by_id(impl_def_id)?.to_maybe()?;
let inference_id = InferenceId::ImplDefTrait(impl_def_id);
let mut resolver = Resolver::new(db, module_file_id, inference_id);
resolver.set_feature_config(&impl_def_id, &impl_ast, &mut diagnostics);
let trait_path_syntax = impl_ast.trait_path(db.upcast());
resolve_trait_path(&mut diagnostics, &mut resolver, &trait_path_syntax)
}
pub fn impl_concrete_trait(db: &dyn SemanticGroup, impl_id: ImplId) -> Maybe<ConcreteTraitId> {
match impl_id.lookup_intern(db) {
ImplLongId::Concrete(concrete_impl_id) => {
let long_impl = concrete_impl_id.lookup_intern(db);
let substitution = GenericSubstitution::new(
&db.impl_def_generic_params(long_impl.impl_def_id)?,
&long_impl.generic_args,
);
let impl_concrete_trait_id = db.impl_def_concrete_trait(long_impl.impl_def_id)?;
SubstitutionRewriter { db, substitution: &substitution }.rewrite(impl_concrete_trait_id)
}
ImplLongId::GenericParameter(param) => {
let param_impl =
extract_matches!(db.generic_param_semantic(param)?, GenericParam::Impl);
param_impl.concrete_trait
}
ImplLongId::ImplVar(var) => Ok(var.lookup_intern(db).concrete_trait_id),
ImplLongId::ImplImpl(impl_impl) => db.impl_impl_concrete_trait(impl_impl),
ImplLongId::TraitImpl(trait_impl) => db.trait_impl_concrete_trait(trait_impl),
ImplLongId::GeneratedImpl(generated_impl) => Ok(generated_impl.concrete_trait(db)),
}
}
pub fn priv_impl_declaration_data_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_def_id: &ImplDefId,
) -> Maybe<ImplDeclarationData> {
priv_impl_declaration_data_inner(db, *impl_def_id, false)
}
pub fn priv_impl_declaration_data(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Maybe<ImplDeclarationData> {
priv_impl_declaration_data_inner(db, impl_def_id, true)
}
pub fn priv_impl_declaration_data_inner(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
resolve_trait: bool,
) -> Maybe<ImplDeclarationData> {
let mut diagnostics = SemanticDiagnostics::default();
let syntax_db = db.upcast();
let impl_ast = db.module_impl_by_id(impl_def_id)?.to_maybe()?;
let inference_id = InferenceId::LookupItemDeclaration(LookupItemId::ModuleItem(
ModuleItemId::Impl(impl_def_id),
));
let generic_params_data = db.impl_def_generic_params_data(impl_def_id)?;
let generic_params = generic_params_data.generic_params;
let mut resolver = Resolver::with_data(
db,
(*generic_params_data.resolver_data).clone_with_inference_id(db, inference_id),
);
resolver.set_feature_config(&impl_def_id, &impl_ast, &mut diagnostics);
diagnostics.extend(generic_params_data.diagnostics);
let trait_path_syntax = impl_ast.trait_path(syntax_db);
let concrete_trait = if resolve_trait {
match resolver.resolve_concrete_path(
&mut diagnostics,
&trait_path_syntax,
NotFoundItemType::Trait,
) {
Ok(resolved_item) => try_extract_matches!(resolved_item, ResolvedConcreteItem::Trait)
.ok_or_else(|| diagnostics.report(&trait_path_syntax, NotATrait)),
Err(err) => Err(err),
}
} else {
Err(diagnostics.report(&trait_path_syntax, ImplRequirementCycle))
};
if let Ok(concrete_trait) = concrete_trait {
if [
get_core_trait(db, CoreTraitContext::MetaProgramming, "TypeEqual".into()),
fn_trait(db),
fn_once_trait(db),
]
.contains(&concrete_trait.trait_id(db))
&& impl_def_id.parent_module(db.upcast()).owning_crate(db.upcast()) != core_crate(db)
{
diagnostics.report(&trait_path_syntax, CompilerTraitReImplementation {
trait_id: concrete_trait.trait_id(db),
});
}
}
let inference = &mut resolver.inference();
inference.finalize(&mut diagnostics, impl_ast.stable_ptr().untyped());
let concrete_trait: Result<ConcreteTraitId, DiagnosticAdded> =
inference.rewrite(concrete_trait).no_err();
let generic_params: Vec<GenericParam> = inference.rewrite(generic_params).no_err();
let attributes = impl_ast.attributes(syntax_db).structurize(syntax_db);
let mut resolver_data = resolver.data;
resolver_data.trait_or_impl_ctx = TraitOrImplContext::Impl(impl_def_id);
Ok(ImplDeclarationData {
diagnostics: diagnostics.build(),
generic_params,
concrete_trait,
attributes,
resolver_data: Arc::new(resolver_data),
})
}
#[derive(Clone, Debug, PartialEq, Eq, DebugWithDb)]
#[debug_db(dyn SemanticGroup + 'static)]
pub struct ImplDefinitionData {
diagnostics: Diagnostics<SemanticDiagnostic>,
function_asts: OrderedHashMap<ImplFunctionId, ast::FunctionWithBody>,
item_type_asts: Arc<OrderedHashMap<ImplTypeDefId, ast::ItemTypeAlias>>,
item_constant_asts: Arc<OrderedHashMap<ImplConstantDefId, ast::ItemConstant>>,
item_impl_asts: Arc<OrderedHashMap<ImplImplDefId, ast::ItemImplAlias>>,
item_id_by_name: Arc<OrderedHashMap<SmolStr, ImplItemId>>,
implicit_impls_id_by_name: Arc<OrderedHashMap<SmolStr, TraitImplId>>,
}
pub fn impl_semantic_definition_diagnostics(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Diagnostics<SemanticDiagnostic> {
let mut diagnostics = DiagnosticsBuilder::default();
let Ok(data) = db.priv_impl_definition_data(impl_def_id) else {
return Diagnostics::default();
};
diagnostics.extend(data.diagnostics);
for impl_function_id in data.function_asts.keys() {
diagnostics.extend(db.impl_function_declaration_diagnostics(*impl_function_id));
diagnostics.extend(db.impl_function_body_diagnostics(*impl_function_id));
}
for impl_item_type_id in data.item_type_asts.keys() {
diagnostics.extend(db.impl_type_def_semantic_diagnostics(*impl_item_type_id));
if let Ok(ty) = db.impl_type_def_resolved_type(*impl_item_type_id) {
add_type_based_diagnostics(
db,
&mut diagnostics,
ty,
impl_item_type_id.stable_ptr(db.upcast()),
);
}
}
for impl_item_constant_id in data.item_constant_asts.keys() {
diagnostics.extend(db.impl_constant_def_semantic_diagnostics(*impl_item_constant_id));
}
for impl_item_impl_id in data.item_impl_asts.keys() {
diagnostics.extend(db.impl_impl_def_semantic_diagnostics(*impl_item_impl_id));
}
for implicit_impl_id in data.implicit_impls_id_by_name.values() {
diagnostics
.extend(db.implicit_impl_impl_semantic_diagnostics(impl_def_id, *implicit_impl_id));
}
if diagnostics.error_count == 0 {
let trait_id = db
.priv_impl_declaration_data(impl_def_id)
.unwrap()
.concrete_trait
.unwrap()
.trait_id(db);
if trait_id == deref_trait(db) {
handle_deref_impl(db, impl_def_id, &mut diagnostics);
}
}
diagnostics.build()
}
fn handle_deref_impl(
db: &dyn SemanticGroup,
mut impl_def_id: ImplDefId,
diagnostics: &mut DiagnosticsBuilder<SemanticDiagnostic>,
) {
let mut visited_impls: OrderedHashSet<ImplDefId> = OrderedHashSet::default();
let deref_trait_id = deref_trait(db);
loop {
let Ok(impl_id) = get_impl_based_on_single_impl_type(db, impl_def_id, |ty| {
ConcreteTraitLongId {
trait_id: deref_trait_id,
generic_args: vec![GenericArgumentId::Type(ty)],
}
.intern(db)
}) else {
return;
};
impl_def_id = match impl_id.lookup_intern(db) {
ImplLongId::Concrete(concrete_impl_id) => concrete_impl_id.impl_def_id(db),
_ => return,
};
if !visited_impls.insert(impl_def_id) {
let deref_chain = visited_impls
.iter()
.map(|visited_impl| {
format!(
"{:?}",
db.impl_def_concrete_trait(*visited_impl).unwrap().debug(db.elongate())
)
})
.join(" -> ");
diagnostics
.report(impl_def_id.stable_ptr(db.upcast()), SemanticDiagnosticKind::DerefCycle {
deref_chain,
});
return;
}
}
}
fn get_impl_based_on_single_impl_type(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
concrete_trait_id: impl FnOnce(TypeId) -> ConcreteTraitId,
) -> Result<ImplId, (InferenceError, ImplTypeDefId)> {
let data = db.priv_impl_definition_data(impl_def_id).unwrap();
let mut types_iter = data.item_type_asts.iter();
let (impl_item_type_id, _) = types_iter.next().unwrap();
if types_iter.next().is_some() {
panic!(
"get_impl_based_on_single_impl_type called with an impl that has more than one type"
);
}
let ty = db.impl_type_def_resolved_type(*impl_item_type_id).unwrap();
let module_file_id = impl_def_id.module_file_id(db.upcast());
let generic_params = db.impl_def_generic_params(impl_def_id).unwrap();
let generic_params_ids =
generic_params.iter().map(|generic_param| generic_param.id()).collect();
let lookup_context = ImplLookupContext::new(module_file_id.0, generic_params_ids);
get_impl_at_context(db, lookup_context, concrete_trait_id(ty), None)
.map_err(|err| (err, *impl_item_type_id))
}
pub fn impl_functions(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Maybe<OrderedHashMap<SmolStr, ImplFunctionId>> {
Ok(db
.priv_impl_definition_data(impl_def_id)?
.function_asts
.keys()
.map(|function_id| {
let function_long_id = function_id.lookup_intern(db);
(function_long_id.name(db.upcast()), *function_id)
})
.collect())
}
pub fn impl_function_by_trait_function(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
trait_function_id: TraitFunctionId,
) -> Maybe<Option<ImplFunctionId>> {
let defs_db = db.upcast();
let name = trait_function_id.name(defs_db);
for impl_function_id in db.priv_impl_definition_data(impl_def_id)?.function_asts.keys() {
if impl_function_id.lookup_intern(db).name(defs_db) == name {
return Ok(Some(*impl_function_id));
}
}
Ok(None)
}
pub fn impl_item_by_name(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
name: SmolStr,
) -> Maybe<Option<ImplItemId>> {
Ok(db.priv_impl_definition_data(impl_def_id)?.item_id_by_name.get(&name).cloned())
}
pub fn impl_implicit_impl_by_name(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
name: SmolStr,
) -> Maybe<Option<TraitImplId>> {
Ok(db.priv_impl_definition_data(impl_def_id)?.implicit_impls_id_by_name.get(&name).cloned())
}
pub fn impl_all_used_items(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Maybe<Arc<OrderedHashSet<LookupItemId>>> {
let mut all_used_items = db.impl_def_resolver_data(impl_def_id)?.used_items.clone();
let data = db.priv_impl_definition_data(impl_def_id)?;
for item in data.item_id_by_name.values() {
for resolver_data in get_resolver_data_options(LookupItemId::ImplItem(*item), db) {
all_used_items.extend(resolver_data.used_items.iter().cloned());
}
}
Ok(all_used_items.into())
}
pub fn impl_types(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Maybe<Arc<OrderedHashMap<ImplTypeDefId, ast::ItemTypeAlias>>> {
Ok(db.priv_impl_definition_data(impl_def_id)?.item_type_asts)
}
pub fn impl_type_ids(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Maybe<Arc<[ImplTypeDefId]>> {
Ok(db.impl_types(impl_def_id)?.keys().copied().collect_vec().into())
}
pub fn impl_type_by_id(
db: &dyn SemanticGroup,
impl_type_id: ImplTypeDefId,
) -> Maybe<Option<ast::ItemTypeAlias>> {
let impl_types = db.impl_types(impl_type_id.impl_def_id(db.upcast()))?;
Ok(impl_types.get(&impl_type_id).cloned())
}
pub fn impl_type_by_trait_type(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
trait_type_id: TraitTypeId,
) -> Maybe<ImplTypeDefId> {
if trait_type_id.trait_id(db.upcast()) != db.impl_def_trait(impl_def_id)? {
unreachable!(
"impl_type_by_trait_type called with a trait type that does not belong to the impl's \
trait"
)
}
let defs_db = db.upcast();
let name = trait_type_id.name(defs_db);
db.impl_item_by_name(impl_def_id, name).and_then(|maybe_item_id| match maybe_item_id {
Some(item_id) => Ok(extract_matches!(item_id, ImplItemId::Type)),
None => Err(skip_diagnostic()),
})
}
pub fn impl_constants(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Maybe<Arc<OrderedHashMap<ImplConstantDefId, ast::ItemConstant>>> {
Ok(db.priv_impl_definition_data(impl_def_id)?.item_constant_asts)
}
pub fn impl_constant_by_trait_constant(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
trait_constant_id: TraitConstantId,
) -> Maybe<ImplConstantDefId> {
if trait_constant_id.trait_id(db.upcast()) != db.impl_def_trait(impl_def_id)? {
unreachable!(
"impl_constant_by_trait_constant called with a trait constant that does not belong to \
the impl's trait"
)
}
let defs_db = db.upcast();
let name = trait_constant_id.name(defs_db);
db.impl_item_by_name(impl_def_id, name).and_then(|maybe_item_id| match maybe_item_id {
Some(item_id) => Ok(extract_matches!(item_id, ImplItemId::Constant)),
None => Err(skip_diagnostic()),
})
}
pub fn impl_impls(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Maybe<Arc<OrderedHashMap<ImplImplDefId, ast::ItemImplAlias>>> {
Ok(db.priv_impl_definition_data(impl_def_id)?.item_impl_asts)
}
pub fn impl_impl_ids(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Maybe<Arc<[ImplImplDefId]>> {
Ok(db.impl_impls(impl_def_id)?.keys().copied().collect_vec().into())
}
pub fn impl_impl_by_id(
db: &dyn SemanticGroup,
impl_impl_id: ImplImplDefId,
) -> Maybe<Option<ast::ItemImplAlias>> {
let impl_impls = db.impl_impls(impl_impl_id.impl_def_id(db.upcast()))?;
Ok(impl_impls.get(&impl_impl_id).cloned())
}
pub fn impl_impl_by_trait_impl(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
trait_impl_id: TraitImplId,
) -> Maybe<ImplImplDefId> {
if trait_impl_id.trait_id(db.upcast()) != db.impl_def_trait(impl_def_id)? {
unreachable!(
"impl_impl_by_trait_impl called with a trait impl that does not belong to the impl's \
trait"
)
}
let defs_db = db.upcast();
let name = trait_impl_id.name(defs_db);
db.impl_item_by_name(impl_def_id, name).and_then(|maybe_item_id| match maybe_item_id {
Some(item_id) => Ok(extract_matches!(item_id, ImplItemId::Impl)),
None => Err(skip_diagnostic()),
})
}
pub fn is_implicit_impl_impl(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
trait_impl_id: TraitImplId,
) -> Maybe<bool> {
if trait_impl_id.trait_id(db.upcast()) != db.impl_def_trait(impl_def_id)? {
unreachable!(
"impl_impl_by_trait_impl called with a trait impl that does not belong to the impl's \
trait"
)
}
let defs_db = db.upcast();
let name = trait_impl_id.name(defs_db);
Ok(db.impl_implicit_impl_by_name(impl_def_id, name)?.is_some())
}
pub fn priv_impl_definition_data(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
) -> Maybe<ImplDefinitionData> {
let syntax_db = db.upcast();
let module_file_id = impl_def_id.module_file_id(db.upcast());
let mut diagnostics = SemanticDiagnostics::default();
let generic_params = db.impl_def_generic_params(impl_def_id)?;
let concrete_trait = db.priv_impl_declaration_data(impl_def_id)?.concrete_trait?;
let impl_ast = db.module_impl_by_id(impl_def_id)?.to_maybe()?;
let generic_params_ids =
generic_params.iter().map(|generic_param| generic_param.id()).collect();
let lookup_context = ImplLookupContext::new(module_file_id.0, generic_params_ids);
check_special_impls(
db,
&mut diagnostics,
lookup_context,
concrete_trait,
impl_ast.stable_ptr().untyped(),
)
.ok();
let mut function_asts = OrderedHashMap::default();
let mut item_type_asts = OrderedHashMap::default();
let mut item_constant_asts = OrderedHashMap::default();
let mut item_impl_asts = OrderedHashMap::default();
let mut item_id_by_name = OrderedHashMap::default();
if let MaybeImplBody::Some(body) = impl_ast.body(syntax_db) {
for item in body.items(syntax_db).elements(syntax_db) {
match item {
ImplItem::Module(module) => report_invalid_impl_item(
syntax_db,
&mut diagnostics,
module.module_kw(syntax_db),
),
ImplItem::Use(use_item) => report_invalid_impl_item(
syntax_db,
&mut diagnostics,
use_item.use_kw(syntax_db),
),
ImplItem::ExternFunction(extern_func) => report_invalid_impl_item(
syntax_db,
&mut diagnostics,
extern_func.extern_kw(syntax_db),
),
ImplItem::ExternType(extern_type) => report_invalid_impl_item(
syntax_db,
&mut diagnostics,
extern_type.extern_kw(syntax_db),
),
ImplItem::Trait(trt) => {
report_invalid_impl_item(syntax_db, &mut diagnostics, trt.trait_kw(syntax_db))
}
ImplItem::Struct(structure) => report_invalid_impl_item(
syntax_db,
&mut diagnostics,
structure.struct_kw(syntax_db),
),
ImplItem::Enum(enm) => {
report_invalid_impl_item(syntax_db, &mut diagnostics, enm.enum_kw(syntax_db))
}
ImplItem::Function(func) => {
let impl_function_id =
ImplFunctionLongId(module_file_id, func.stable_ptr()).intern(db);
let name_node = func.declaration(syntax_db).name(syntax_db);
let name = name_node.text(syntax_db);
if item_id_by_name
.insert(name.clone(), ImplItemId::Function(impl_function_id))
.is_some()
{
diagnostics.report(&name_node, NameDefinedMultipleTimes(name));
}
function_asts.insert(impl_function_id, func);
}
ImplItem::Type(ty) => {
let impl_type_id =
ImplTypeDefLongId(module_file_id, ty.stable_ptr()).intern(db);
let name_node = ty.name(syntax_db);
let name = name_node.text(syntax_db);
if item_id_by_name
.insert(name.clone(), ImplItemId::Type(impl_type_id))
.is_some()
{
diagnostics.report(&name_node, NameDefinedMultipleTimes(name));
}
item_type_asts.insert(impl_type_id, ty);
}
ImplItem::Constant(constant) => {
let impl_constant_id =
ImplConstantDefLongId(module_file_id, constant.stable_ptr()).intern(db);
let name_node = constant.name(syntax_db);
let name = name_node.text(syntax_db);
if item_id_by_name
.insert(name.clone(), ImplItemId::Constant(impl_constant_id))
.is_some()
{
diagnostics.report(
&name_node,
SemanticDiagnosticKind::NameDefinedMultipleTimes(name),
);
}
item_constant_asts.insert(impl_constant_id, constant);
}
ImplItem::Impl(imp) => {
let impl_constant_id =
ImplImplDefLongId(module_file_id, imp.stable_ptr()).intern(db);
let name_node = imp.name(syntax_db);
let name = name_node.text(syntax_db);
if item_id_by_name
.insert(name.clone(), ImplItemId::Impl(impl_constant_id))
.is_some()
{
diagnostics.report(
&name_node,
SemanticDiagnosticKind::NameDefinedMultipleTimes(name),
);
}
item_impl_asts.insert(impl_constant_id, imp);
}
ImplItem::Missing(_) => {}
}
}
}
let mut implicit_impls_id_by_name = OrderedHashMap::default();
let trait_id = concrete_trait.lookup_intern(db).trait_id;
for trait_impl_id in db.trait_impls(trait_id)? {
if item_id_by_name.contains_key(&trait_impl_id.0) {
continue;
}
implicit_impls_id_by_name.insert(trait_impl_id.0, trait_impl_id.1);
}
let impl_item_names: OrderedHashSet<SmolStr> = item_id_by_name.keys().cloned().collect();
let trait_required_item_names = db.trait_required_item_names(trait_id)?;
let missing_items_in_impl =
trait_required_item_names.difference(&impl_item_names).cloned().collect::<Vec<_>>();
if !missing_items_in_impl.is_empty() {
diagnostics.report(
&impl_ast.name(syntax_db),
SemanticDiagnosticKind::MissingItemsInImpl(missing_items_in_impl),
);
}
Ok(ImplDefinitionData {
diagnostics: diagnostics.build(),
function_asts,
item_type_asts: item_type_asts.into(),
item_id_by_name: item_id_by_name.into(),
item_constant_asts: item_constant_asts.into(),
item_impl_asts: item_impl_asts.into(),
implicit_impls_id_by_name: implicit_impls_id_by_name.into(),
})
}
fn report_invalid_impl_item<Terminal: syntax::node::Terminal>(
syntax_db: &dyn SyntaxGroup,
diagnostics: &mut SemanticDiagnostics,
kw_terminal: Terminal,
) {
diagnostics.report(
kw_terminal.as_syntax_node().stable_ptr(),
InvalidImplItem(kw_terminal.text(syntax_db)),
);
}
fn check_special_impls(
db: &dyn SemanticGroup,
diagnostics: &mut SemanticDiagnostics,
lookup_context: ImplLookupContext,
concrete_trait: ConcreteTraitId,
stable_ptr: SyntaxStablePtrId,
) -> Maybe<()> {
let ConcreteTraitLongId { trait_id, generic_args } = concrete_trait.lookup_intern(db);
let copy = copy_trait(db);
let drop = drop_trait(db);
if trait_id == copy {
let tys = get_inner_types(db, extract_matches!(generic_args[0], GenericArgumentId::Type))?;
if let Some(inference_error) = tys
.into_iter()
.filter_map(|ty| db.type_info(lookup_context.clone(), ty).to_option())
.flat_map(|info| info.copyable.err())
.next()
{
return Err(diagnostics.report(stable_ptr, InvalidCopyTraitImpl(inference_error)));
}
}
if trait_id == drop {
let tys = get_inner_types(db, extract_matches!(generic_args[0], GenericArgumentId::Type))?;
if let Some(inference_error) = tys
.into_iter()
.filter_map(|ty| db.type_info(lookup_context.clone(), ty).to_option())
.flat_map(|info| info.droppable.err())
.next()
{
return Err(diagnostics.report(stable_ptr, InvalidDropTraitImpl(inference_error)));
}
}
Ok(())
}
fn get_inner_types(db: &dyn SemanticGroup, ty: TypeId) -> Maybe<Vec<TypeId>> {
Ok(match ty.lookup_intern(db) {
TypeLongId::Concrete(concrete_type_id) => {
match concrete_type_id {
crate::ConcreteTypeId::Struct(concrete_struct_id) => db
.concrete_struct_members(concrete_struct_id)?
.values()
.map(|member| member.ty)
.collect(),
crate::ConcreteTypeId::Enum(concrete_enum_id) => db
.concrete_enum_variants(concrete_enum_id)?
.into_iter()
.map(|variant| variant.ty)
.collect(),
crate::ConcreteTypeId::Extern(_) => vec![],
}
}
TypeLongId::Tuple(tys) => tys,
TypeLongId::Snapshot(_) | TypeLongId::Closure(_) => vec![],
TypeLongId::GenericParameter(_) => {
return Err(skip_diagnostic());
}
TypeLongId::Var(_) | TypeLongId::TraitType(_) | TypeLongId::ImplType(_) => {
panic!("Types should be fully resolved at this point.")
}
TypeLongId::Coupon(_) => vec![],
TypeLongId::FixedSizeArray { type_id, .. } => vec![type_id],
TypeLongId::Missing(diag_added) => {
return Err(diag_added);
}
})
}
#[derive(Clone, Debug, Hash, PartialEq, Eq)]
pub struct TraitFilter {
pub trait_id: TraitId,
pub generics_filter: GenericsHeadFilter,
}
#[derive(Clone, Debug, Hash, PartialEq, Eq)]
pub enum GenericsHeadFilter {
NoFilter,
FirstGenericFilter(GenericArgumentHead),
NoGenerics,
}
pub fn module_impl_ids_for_trait_filter(
db: &dyn SemanticGroup,
module_id: ModuleId,
trait_filter: TraitFilter,
) -> Maybe<Vec<UninferredImpl>> {
let mut uninferred_impls: OrderedHashSet<UninferredImpl> =
OrderedHashSet::from_iter(module_impl_ids(db, module_id, module_id)?);
for (user_module, containing_module) in &db.priv_module_use_star_modules(module_id).accessible {
if let Ok(star_module_uninferred_impls) =
module_impl_ids(db, *user_module, *containing_module)
{
uninferred_impls.extend(star_module_uninferred_impls);
}
}
let mut res = Vec::new();
for uninferred_impl in uninferred_impls {
let Ok(trait_id) = uninferred_impl.trait_id(db) else { continue };
if trait_id != trait_filter.trait_id {
continue;
}
let Ok(concrete_trait_id) = uninferred_impl.concrete_trait(db) else {
continue;
};
if let Ok(true) = concrete_trait_fits_trait_filter(db, concrete_trait_id, &trait_filter) {
res.push(uninferred_impl);
}
}
Ok(res)
}
fn module_impl_ids(
db: &dyn SemanticGroup,
user_module: ModuleId,
containing_module: ModuleId,
) -> Maybe<Vec<UninferredImpl>> {
let mut uninferred_impls = Vec::new();
for item in db.priv_module_semantic_data(containing_module)?.items.values() {
if !matches!(
item.item_id,
ModuleItemId::Impl(_) | ModuleItemId::ImplAlias(_) | ModuleItemId::Use(_)
) {
continue;
}
if !peek_visible_in(db.upcast(), item.visibility, containing_module, user_module) {
continue;
}
match item.item_id {
ModuleItemId::Impl(impl_def_id) => {
uninferred_impls.push(UninferredImpl::Def(impl_def_id));
}
ModuleItemId::ImplAlias(impl_alias_id) => {
uninferred_impls.push(UninferredImpl::ImplAlias(impl_alias_id));
}
ModuleItemId::Use(use_id) => match db.use_resolved_item(use_id) {
Ok(ResolvedGenericItem::Impl(impl_def_id)) => {
uninferred_impls.push(UninferredImpl::Def(impl_def_id));
}
Ok(ResolvedGenericItem::GenericImplAlias(impl_alias_id)) => {
uninferred_impls.push(UninferredImpl::ImplAlias(impl_alias_id));
}
_ => {}
},
_ => {}
}
}
Ok(uninferred_impls)
}
pub fn module_impl_ids_for_trait_filter_cycle(
_db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
_module_id: &ModuleId,
_trait_filter: &TraitFilter,
) -> Maybe<Vec<UninferredImpl>> {
Err(skip_diagnostic())
}
pub fn impl_impl_ids_for_trait_filter(
db: &dyn SemanticGroup,
impl_id: ImplId,
trait_filter: TraitFilter,
) -> Maybe<Vec<UninferredImpl>> {
let mut uninferred_impls = Vec::new();
for (_, trait_impl_id) in db.trait_impls(impl_id.concrete_trait(db)?.trait_id(db))?.iter() {
uninferred_impls.push(UninferredImpl::ImplImpl(ImplImplId::new(
impl_id,
*trait_impl_id,
db,
)));
}
let mut res = Vec::new();
for uninferred_impl in uninferred_impls {
let Ok(trait_id) = uninferred_impl.trait_id(db) else { continue };
if trait_id != trait_filter.trait_id {
continue;
}
let Ok(concrete_trait_id) = uninferred_impl.concrete_trait(db) else {
continue;
};
if let Ok(true) = concrete_trait_fits_trait_filter(db, concrete_trait_id, &trait_filter) {
res.push(uninferred_impl);
}
}
Ok(res)
}
pub fn impl_impl_ids_for_trait_filter_cycle(
_db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
_imp: &ImplId,
_trait_filter: &TraitFilter,
) -> Maybe<Vec<UninferredImpl>> {
Err(skip_diagnostic())
}
fn concrete_trait_fits_trait_filter(
db: &dyn SemanticGroup,
concrete_trait_id: ConcreteTraitId,
trait_filter: &TraitFilter,
) -> Maybe<bool> {
if trait_filter.trait_id != concrete_trait_id.trait_id(db) {
return Ok(false);
}
let generic_args = concrete_trait_id.generic_args(db);
let first_generic = generic_args.first();
Ok(match &trait_filter.generics_filter {
GenericsHeadFilter::NoFilter => true,
GenericsHeadFilter::FirstGenericFilter(constraint_head) => {
let Some(first_generic) = first_generic else {
return Ok(false);
};
let Some(first_generic_head) = first_generic.head(db) else {
return Ok(true);
};
&first_generic_head == constraint_head
}
GenericsHeadFilter::NoGenerics => first_generic.is_none(),
})
}
#[derive(Copy, Clone, Debug, Hash, PartialEq, Eq)]
pub enum ImplOrModuleById {
Impl(ImplId),
Module(ModuleId),
}
impl From<ImplId> for ImplOrModuleById {
fn from(impl_id: ImplId) -> Self {
ImplOrModuleById::Impl(impl_id)
}
}
impl From<ModuleId> for ImplOrModuleById {
fn from(module_id: ModuleId) -> Self {
ImplOrModuleById::Module(module_id)
}
}
impl Ord for ImplOrModuleById {
fn cmp(&self, other: &Self) -> std::cmp::Ordering {
match (self, other) {
(ImplOrModuleById::Impl(imp), ImplOrModuleById::Impl(other_impl)) => {
imp.get_internal_id().cmp(other_impl.get_internal_id())
}
(ImplOrModuleById::Module(module), ImplOrModuleById::Module(other_module)) => {
match (module, other_module) {
(ModuleId::CrateRoot(crate_id), ModuleId::CrateRoot(other_crate_id)) => {
crate_id.get_internal_id().cmp(other_crate_id.get_internal_id())
}
(ModuleId::CrateRoot(_), ModuleId::Submodule(_)) => std::cmp::Ordering::Less,
(ModuleId::Submodule(_), ModuleId::CrateRoot(_)) => std::cmp::Ordering::Greater,
(ModuleId::Submodule(module_id), ModuleId::Submodule(other_module_id)) => {
module_id.get_internal_id().cmp(other_module_id.get_internal_id())
}
}
}
(ImplOrModuleById::Impl(_), ImplOrModuleById::Module(_)) => std::cmp::Ordering::Less,
(ImplOrModuleById::Module(_), ImplOrModuleById::Impl(_)) => std::cmp::Ordering::Greater,
}
}
}
impl PartialOrd for ImplOrModuleById {
fn partial_cmp(&self, other: &Self) -> Option<std::cmp::Ordering> {
Some(self.cmp(other))
}
}
#[derive(Clone, Debug, Default, Hash, PartialEq, Eq, DebugWithDb)]
#[debug_db(dyn SemanticGroup + 'static)]
pub struct ImplLookupContext {
pub modules_and_impls: BTreeSet<ImplOrModuleById>,
pub generic_params: Vec<GenericParamId>,
}
impl ImplLookupContext {
pub fn new(module_id: ModuleId, generic_params: Vec<GenericParamId>) -> ImplLookupContext {
Self { modules_and_impls: [ImplOrModuleById::Module(module_id)].into(), generic_params }
}
pub fn insert_lookup_scope(&mut self, db: &dyn SemanticGroup, imp: &UninferredImpl) {
let defs_db = db.upcast();
let item = match imp {
UninferredImpl::Def(impl_def_id) => impl_def_id.module_file_id(defs_db).0.into(),
UninferredImpl::ImplAlias(impl_alias_id) => {
impl_alias_id.module_file_id(defs_db).0.into()
}
UninferredImpl::GenericParam(param) => param.module_file_id(defs_db).0.into(),
UninferredImpl::ImplImpl(impl_impl_id) => impl_impl_id.impl_id.into(),
UninferredImpl::GeneratedImpl(_) => {
return;
}
};
self.modules_and_impls.insert(item);
}
pub fn insert_module(&mut self, module_id: ModuleId) -> bool {
self.modules_and_impls.insert(ImplOrModuleById::Module(module_id))
}
pub fn insert_impl(&mut self, impl_id: ImplId) -> bool {
self.modules_and_impls.insert(ImplOrModuleById::Impl(impl_id))
}
}
#[derive(Copy, Clone, Debug, Hash, PartialEq, Eq, SemanticObject)]
pub enum UninferredImpl {
Def(ImplDefId),
ImplAlias(ImplAliasId),
GenericParam(GenericParamId),
ImplImpl(ImplImplId),
GeneratedImpl(UninferredGeneratedImplId),
}
impl UninferredImpl {
pub fn concrete_trait(&self, db: &dyn SemanticGroup) -> Maybe<ConcreteTraitId> {
match self {
UninferredImpl::Def(impl_def_id) => db.impl_def_concrete_trait(*impl_def_id),
UninferredImpl::ImplAlias(impl_alias_id) => {
let impl_id = db.impl_alias_resolved_impl(*impl_alias_id)?;
impl_id.concrete_trait(db)
}
UninferredImpl::GenericParam(param) => {
let param =
extract_matches!(db.generic_param_semantic(*param)?, GenericParam::Impl);
param.concrete_trait
}
UninferredImpl::ImplImpl(impl_impl_id) => db.impl_impl_concrete_trait(*impl_impl_id),
UninferredImpl::GeneratedImpl(generated_impl) => Ok(generated_impl.concrete_trait(db)),
}
}
fn trait_id(&self, db: &dyn SemanticGroup) -> Maybe<TraitId> {
match self {
UninferredImpl::Def(impl_def_id) => db.impl_def_trait(*impl_def_id),
UninferredImpl::ImplAlias(impl_alias_id) => {
let impl_def_id = db.impl_alias_impl_def(*impl_alias_id)?;
db.impl_def_trait(impl_def_id)
}
UninferredImpl::GenericParam(param) => {
let param =
extract_matches!(db.generic_param_semantic(*param)?, GenericParam::Impl);
param.concrete_trait.map(|concrete_trait| concrete_trait.trait_id(db))
}
UninferredImpl::ImplImpl(impl_impl_id) => db
.impl_impl_concrete_trait(*impl_impl_id)
.map(|concrete_trait| concrete_trait.trait_id(db)),
UninferredImpl::GeneratedImpl(generated_impl) => Ok(generated_impl.trait_id(db)),
}
}
pub fn lookup_scope(&self, db: &dyn SemanticGroup) -> ImplOrModuleById {
let defs_db = db.upcast();
match self {
UninferredImpl::Def(impl_def_id) => impl_def_id.module_file_id(defs_db).0.into(),
UninferredImpl::ImplAlias(impl_alias_id) => {
impl_alias_id.module_file_id(defs_db).0.into()
}
UninferredImpl::GenericParam(param) => param.module_file_id(defs_db).0.into(),
UninferredImpl::ImplImpl(impl_impl_id) => impl_impl_id.impl_id.into(),
UninferredImpl::GeneratedImpl(generated_impl) => {
generated_impl.concrete_trait(db).trait_id(db).module_file_id(defs_db).0.into()
}
}
}
}
impl DebugWithDb<dyn SemanticGroup> for UninferredImpl {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>, db: &dyn SemanticGroup) -> std::fmt::Result {
match self {
UninferredImpl::Def(impl_def) => write!(f, "{:?}", impl_def.full_path(db.upcast())),
UninferredImpl::ImplAlias(impl_alias) => {
write!(f, "{:?}", impl_alias.full_path(db.upcast()))
}
UninferredImpl::GenericParam(param) => {
write!(f, "generic param {}", param.name(db.upcast()).unwrap_or_else(|| "_".into()))
}
UninferredImpl::ImplImpl(impl_impl) => impl_impl.fmt(f, db.elongate()),
UninferredImpl::GeneratedImpl(generated_impl) => generated_impl.fmt(f, db.elongate()),
}
}
}
define_short_id!(
UninferredGeneratedImplId,
UninferredGeneratedImplLongId,
SemanticGroup,
lookup_intern_uninferred_generated_impl,
intern_uninferred_generated_impl
);
semantic_object_for_id!(
UninferredGeneratedImplId,
lookup_intern_uninferred_generated_impl,
intern_uninferred_generated_impl,
UninferredGeneratedImplLongId
);
impl UninferredGeneratedImplId {
pub fn concrete_trait(self, db: &dyn SemanticGroup) -> ConcreteTraitId {
db.lookup_intern_uninferred_generated_impl(self).concrete_trait
}
pub fn trait_id(&self, db: &dyn SemanticGroup) -> TraitId {
self.concrete_trait(db).trait_id(db)
}
}
#[derive(Clone, Debug, Hash, PartialEq, Eq, SemanticObject)]
pub struct UninferredGeneratedImplLongId {
pub concrete_trait: ConcreteTraitId,
pub generic_params: Vec<GenericParam>,
pub impl_items: GeneratedImplItems,
}
impl DebugWithDb<dyn SemanticGroup> for UninferredGeneratedImplLongId {
fn fmt(
&self,
f: &mut std::fmt::Formatter<'_>,
db: &(dyn SemanticGroup + 'static),
) -> std::fmt::Result {
write!(f, "Generated {:?}", self.concrete_trait.debug(db))
}
}
pub fn find_candidates_at_context(
db: &dyn SemanticGroup,
lookup_context: &ImplLookupContext,
filter: &TraitFilter,
) -> Maybe<OrderedHashSet<UninferredImpl>> {
let mut res = OrderedHashSet::default();
for generic_param_id in &lookup_context.generic_params {
if !matches!(generic_param_id.kind(db.upcast()), GenericKind::Impl) {
continue;
};
let Ok(trait_id) = db.generic_impl_param_trait(*generic_param_id) else {
continue;
};
if filter.trait_id != trait_id {
continue;
}
let Ok(generic_param_semantic) = db.generic_param_semantic(*generic_param_id) else {
continue;
};
let param = extract_matches!(generic_param_semantic, GenericParam::Impl);
let Ok(imp_concrete_trait_id) = param.concrete_trait else { continue };
let Ok(trait_fits_filter) =
concrete_trait_fits_trait_filter(db, imp_concrete_trait_id, filter)
else {
continue;
};
if !trait_fits_filter {
continue;
}
res.insert(UninferredImpl::GenericParam(*generic_param_id));
}
for module_or_impl_id in &lookup_context.modules_and_impls {
let Ok(imps) = (match module_or_impl_id {
ImplOrModuleById::Module(module_id) => {
db.module_impl_ids_for_trait_filter(*module_id, filter.clone())
}
ImplOrModuleById::Impl(impl_id) => {
db.impl_impl_ids_for_trait_filter(*impl_id, filter.clone())
}
}) else {
continue;
};
for imp in imps {
res.insert(imp);
}
}
Ok(res)
}
pub fn find_closure_generated_candidate(
db: &dyn SemanticGroup,
concrete_trait_id: ConcreteTraitId,
) -> Option<UninferredImpl> {
let GenericArgumentId::Type(closure_type) = *concrete_trait_id.generic_args(db).first()? else {
return None;
};
let TypeLongId::Closure(closure_type_long) = closure_type.lookup_intern(db) else {
return None;
};
let mem_trait_generic_params = |trait_id, neg_impl_trait: Option<_>| {
let id = db.trait_generic_params(trait_id).unwrap().first().unwrap().id();
chain!(
closure_type_long.captured_types.iter().map(|ty| {
GenericParam::Impl(GenericParamImpl {
id,
concrete_trait: Maybe::Ok(db.intern_concrete_trait(ConcreteTraitLongId {
trait_id,
generic_args: vec![GenericArgumentId::Type(*ty)],
})),
type_constraints: Default::default(),
})
}),
neg_impl_trait.map(|neg_impl_trait| {
GenericParam::NegImpl(GenericParamImpl {
id,
concrete_trait: Maybe::Ok(neg_impl_trait),
type_constraints: Default::default(),
})
})
)
.collect()
};
let handle_mem_trait = |trait_id, neg_impl_trait: Option<_>| {
(concrete_trait_id, mem_trait_generic_params(trait_id, neg_impl_trait), [].into())
};
let (concrete_trait, generic_params, impl_items) = match concrete_trait_id.trait_id(db) {
trait_id if trait_id == fn_once_trait(db) => {
let concrete_trait = ConcreteTraitLongId {
trait_id,
generic_args: vec![
GenericArgumentId::Type(closure_type),
GenericArgumentId::Type(
TypeLongId::Tuple(closure_type_long.param_tys.clone()).intern(db),
),
],
}
.intern(db);
let ret_ty = db.trait_type_by_name(trait_id, "Output".into()).unwrap().unwrap();
let id = db.trait_generic_params(trait_id).unwrap().first().unwrap().id();
let param: GenericParam = GenericParam::NegImpl(GenericParamImpl {
id,
concrete_trait: Maybe::Ok(
ConcreteTraitLongId {
trait_id: fn_trait(db),
generic_args: vec![
GenericArgumentId::Type(closure_type),
GenericArgumentId::Type(
TypeLongId::Tuple(closure_type_long.param_tys.clone()).intern(db),
),
],
}
.intern(db),
),
type_constraints: Default::default(),
});
(concrete_trait, vec![param], [(ret_ty, closure_type_long.ret_ty)].into())
}
trait_id if trait_id == fn_trait(db) => {
let concrete_trait = ConcreteTraitLongId {
trait_id,
generic_args: vec![
GenericArgumentId::Type(closure_type),
GenericArgumentId::Type(
TypeLongId::Tuple(closure_type_long.param_tys.clone()).intern(db),
),
],
}
.intern(db);
let ret_ty = db.trait_type_by_name(trait_id, "Output".into()).unwrap().unwrap();
(
concrete_trait,
mem_trait_generic_params(copy_trait(db), None),
[(ret_ty, closure_type_long.ret_ty)].into(),
)
}
trait_id if trait_id == drop_trait(db) => handle_mem_trait(trait_id, None),
trait_id if trait_id == destruct_trait(db) => {
handle_mem_trait(trait_id, Some(concrete_drop_trait(db, closure_type)))
}
trait_id if trait_id == panic_destruct_trait(db) => {
handle_mem_trait(trait_id, Some(concrete_destruct_trait(db, closure_type)))
}
trait_id if trait_id == copy_trait(db) => handle_mem_trait(trait_id, None),
_ => return None,
};
Some(UninferredImpl::GeneratedImpl(
UninferredGeneratedImplLongId {
concrete_trait,
generic_params,
impl_items: GeneratedImplItems(impl_items),
}
.intern(db),
))
}
pub fn can_infer_impl_by_self(
ctx: &ComputationContext<'_>,
inference_errors: &mut Vec<(TraitFunctionId, InferenceError)>,
trait_function_id: TraitFunctionId,
self_ty: TypeId,
stable_ptr: SyntaxStablePtrId,
) -> bool {
let mut temp_inference_data = ctx.resolver.data.inference_data.temporary_clone();
let mut temp_inference = temp_inference_data.inference(ctx.db);
let lookup_context = ctx.resolver.impl_lookup_context();
let Some((concrete_trait_id, _)) = temp_inference.infer_concrete_trait_by_self(
trait_function_id,
self_ty,
&lookup_context,
Some(stable_ptr),
|err| inference_errors.push((trait_function_id, err)),
) else {
return false;
};
if let Err(err_set) = temp_inference.solve() {
if let Some(err) = temp_inference.consume_error_without_reporting(err_set) {
inference_errors.push((trait_function_id, err));
}
}
match temp_inference.trait_solution_set(
concrete_trait_id,
ImplVarTraitItemMappings::default(),
lookup_context.clone(),
) {
Ok(SolutionSet::Unique(_) | SolutionSet::Ambiguous(_)) => true,
Ok(SolutionSet::None) => {
inference_errors
.push((trait_function_id, InferenceError::NoImplsFound(concrete_trait_id)));
false
}
Err(err_set) => {
if let Some(err) = temp_inference.consume_error_without_reporting(err_set) {
inference_errors.push((trait_function_id, err));
}
false
}
}
}
pub fn infer_impl_by_self(
ctx: &mut ComputationContext<'_>,
trait_function_id: TraitFunctionId,
self_ty: TypeId,
stable_ptr: SyntaxStablePtrId,
generic_args_syntax: Option<Vec<GenericArg>>,
) -> Maybe<(FunctionId, usize)> {
let lookup_context = ctx.resolver.impl_lookup_context();
let (concrete_trait_id, n_snapshots) = ctx
.resolver
.inference()
.infer_concrete_trait_by_self(
trait_function_id,
self_ty,
&lookup_context,
Some(stable_ptr),
|_| {},
)
.ok_or_else(skip_diagnostic)?;
let concrete_trait_function_id =
ConcreteTraitGenericFunctionLongId::new(ctx.db, concrete_trait_id, trait_function_id)
.intern(ctx.db);
let trait_func_generic_params =
ctx.db.concrete_trait_function_generic_params(concrete_trait_function_id).unwrap();
let generic_args = ctx.resolver.resolve_generic_args(
ctx.diagnostics,
&trait_func_generic_params,
&generic_args_syntax.unwrap_or_default(),
stable_ptr,
)?;
let impl_lookup_context = ctx.resolver.impl_lookup_context();
let inference = &mut ctx.resolver.inference();
let generic_function = inference.infer_trait_generic_function(
concrete_trait_function_id,
&impl_lookup_context,
Some(stable_ptr),
);
Ok((
FunctionLongId { function: ConcreteFunction { generic_function, generic_args } }
.intern(ctx.db),
n_snapshots,
))
}
pub fn filter_candidate_traits(
ctx: &mut ComputationContext<'_>,
inference_errors: &mut Vec<(TraitFunctionId, InferenceError)>,
self_ty: TypeId,
candidate_traits: &[TraitId],
function_name: SmolStr,
stable_ptr: SyntaxStablePtrId,
) -> Vec<TraitFunctionId> {
let mut candidates = Vec::new();
for trait_id in candidate_traits.iter().copied() {
let Ok(trait_functions) = ctx.db.trait_functions(trait_id) else {
continue;
};
for (name, trait_function) in trait_functions {
if name == function_name
&& can_infer_impl_by_self(
ctx,
inference_errors,
trait_function,
self_ty,
stable_ptr,
)
{
candidates.push(trait_function);
}
}
}
candidates
}
#[derive(Clone, Debug, PartialEq, Eq, DebugWithDb)]
#[debug_db(dyn SemanticGroup + 'static)]
pub struct ImplItemTypeData {
type_alias_data: TypeAliasData,
trait_type_id: Maybe<TraitTypeId>,
diagnostics: Diagnostics<SemanticDiagnostic>,
}
pub fn impl_type_def_semantic_diagnostics(
db: &dyn SemanticGroup,
impl_type_def_id: ImplTypeDefId,
) -> Diagnostics<SemanticDiagnostic> {
db.priv_impl_type_semantic_data(impl_type_def_id, false)
.map(|data| data.diagnostics)
.unwrap_or_default()
}
pub fn impl_type_def_resolved_type(
db: &dyn SemanticGroup,
impl_type_def_id: ImplTypeDefId,
) -> Maybe<TypeId> {
db.priv_impl_type_semantic_data(impl_type_def_id, false)?.type_alias_data.resolved_type
}
pub fn impl_type_def_resolved_type_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_type_def_id: &ImplTypeDefId,
) -> Maybe<TypeId> {
db.priv_impl_type_semantic_data(*impl_type_def_id, true)?.type_alias_data.resolved_type
}
pub fn impl_type_def_generic_params(
db: &dyn SemanticGroup,
impl_type_def_id: ImplTypeDefId,
) -> Maybe<Vec<GenericParam>> {
Ok(db.priv_impl_type_def_generic_params_data(impl_type_def_id)?.generic_params)
}
pub fn impl_type_def_attributes(
db: &dyn SemanticGroup,
impl_type_def_id: ImplTypeDefId,
) -> Maybe<Vec<Attribute>> {
Ok(db.priv_impl_type_semantic_data(impl_type_def_id, false)?.type_alias_data.attributes)
}
pub fn impl_type_def_resolver_data(
db: &dyn SemanticGroup,
impl_type_def_id: ImplTypeDefId,
) -> Maybe<Arc<ResolverData>> {
Ok(db.priv_impl_type_semantic_data(impl_type_def_id, false)?.type_alias_data.resolver_data)
}
pub fn impl_type_def_trait_type(
db: &dyn SemanticGroup,
impl_type_def_id: ImplTypeDefId,
) -> Maybe<TraitTypeId> {
db.priv_impl_type_semantic_data(impl_type_def_id, false)?.trait_type_id
}
pub fn priv_impl_type_semantic_data(
db: &dyn SemanticGroup,
impl_type_def_id: ImplTypeDefId,
in_cycle: bool,
) -> Maybe<ImplItemTypeData> {
let mut diagnostics = SemanticDiagnostics::default();
let impl_type_defs = db.impl_types(impl_type_def_id.impl_def_id(db.upcast()))?;
let impl_type_def_ast = impl_type_defs.get(&impl_type_def_id).to_maybe()?;
let generic_params_data = db.priv_impl_type_def_generic_params_data(impl_type_def_id)?;
let lookup_item_id = LookupItemId::ImplItem(ImplItemId::Type(impl_type_def_id));
let trait_type_id =
validate_impl_item_type(db, &mut diagnostics, impl_type_def_id, impl_type_def_ast);
if in_cycle {
Ok(ImplItemTypeData {
type_alias_data: type_alias_semantic_data_cycle_helper(
db,
&mut diagnostics,
impl_type_def_ast,
lookup_item_id,
generic_params_data,
)?,
trait_type_id,
diagnostics: diagnostics.build(),
})
} else {
Ok(ImplItemTypeData {
type_alias_data: type_alias_semantic_data_helper(
db,
&mut diagnostics,
impl_type_def_ast,
lookup_item_id,
generic_params_data,
)?,
trait_type_id,
diagnostics: diagnostics.build(),
})
}
}
pub fn priv_impl_type_semantic_data_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_type_def_id: &ImplTypeDefId,
_in_cycle: &bool,
) -> Maybe<ImplItemTypeData> {
priv_impl_type_semantic_data(db, *impl_type_def_id, true)
}
pub fn priv_impl_type_def_generic_params_data(
db: &dyn SemanticGroup,
impl_type_def_id: ImplTypeDefId,
) -> Maybe<GenericParamsData> {
let defs_db = db.upcast();
let module_file_id = impl_type_def_id.module_file_id(defs_db);
let impl_type_def_ast = db.impl_type_by_id(impl_type_def_id)?.to_maybe()?;
let lookup_item_id = LookupItemId::ImplItem(ImplItemId::Type(impl_type_def_id));
let impl_resolver_data = db.impl_def_resolver_data(impl_type_def_id.impl_def_id(defs_db))?;
type_alias_generic_params_data_helper(
db,
module_file_id,
&impl_type_def_ast,
lookup_item_id,
Some(impl_resolver_data),
)
}
fn validate_impl_item_type(
db: &dyn SemanticGroup,
diagnostics: &mut SemanticDiagnostics,
impl_type_def_id: ImplTypeDefId,
impl_type_ast: &ast::ItemTypeAlias,
) -> Maybe<TraitTypeId> {
let defs_db = db.upcast();
let syntax_db = db.upcast();
let impl_def_id = impl_type_def_id.impl_def_id(defs_db);
let concrete_trait_id = db.impl_def_concrete_trait(impl_def_id)?;
let trait_id = concrete_trait_id.trait_id(db);
let type_name = impl_type_def_id.name(defs_db);
let trait_type_id = db.trait_type_by_name(trait_id, type_name.clone())?.ok_or_else(|| {
diagnostics.report(impl_type_ast, ImplItemNotInTrait {
impl_def_id,
impl_item_name: type_name,
trait_id,
item_kind: "type".into(),
})
})?;
let generic_params_node = impl_type_ast.generic_params(syntax_db);
if !generic_params_node.is_empty(syntax_db) {
diagnostics.report(&generic_params_node, GenericsNotSupportedInItem {
scope: "Impl".into(),
item_kind: "type".into(),
});
}
Ok(trait_type_id)
}
pub fn impl_type_concrete_implized(
db: &dyn SemanticGroup,
impl_type_id: ImplTypeId,
) -> Maybe<TypeId> {
let concrete_impl = match impl_type_id.impl_id().lookup_intern(db) {
ImplLongId::Concrete(concrete_impl) => concrete_impl,
ImplLongId::ImplImpl(imp_impl_id) => {
let ImplLongId::Concrete(concrete_impl) =
db.impl_impl_concrete_implized(imp_impl_id)?.lookup_intern(db)
else {
return Ok(TypeLongId::ImplType(impl_type_id).intern(db));
};
concrete_impl
}
ImplLongId::GenericParameter(_) | ImplLongId::TraitImpl(_) | ImplLongId::ImplVar(_) => {
return Ok(TypeLongId::ImplType(impl_type_id).intern(db));
}
ImplLongId::GeneratedImpl(generated) => {
return Ok(*generated.lookup_intern(db).impl_items.0.get(&impl_type_id.ty()).unwrap());
}
};
let impl_def_id = concrete_impl.impl_def_id(db);
let ty = db.trait_type_implized_by_context(impl_type_id.ty(), impl_def_id);
let Ok(ty) = ty else {
return ty;
};
let substitution = &concrete_impl.substitution(db)?;
SubstitutionRewriter { db, substitution }.rewrite(ty)
}
pub fn impl_type_concrete_implized_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_type_id: &ImplTypeId,
) -> Maybe<TypeId> {
impl_type_concrete_implized(db, *impl_type_id)
}
#[derive(Clone, Debug, PartialEq, Eq, DebugWithDb)]
#[debug_db(dyn SemanticGroup + 'static)]
pub struct ImplItemConstantData {
constant_data: ConstantData,
trait_constant_id: Maybe<TraitConstantId>,
diagnostics: Diagnostics<SemanticDiagnostic>,
}
pub fn impl_constant_def_semantic_diagnostics(
db: &dyn SemanticGroup,
impl_constant_def_id: ImplConstantDefId,
) -> Diagnostics<SemanticDiagnostic> {
db.priv_impl_constant_semantic_data(impl_constant_def_id, false)
.map(|data| data.diagnostics)
.unwrap_or_default()
}
pub fn impl_constant_def_value(
db: &dyn SemanticGroup,
impl_constant_def_id: ImplConstantDefId,
) -> Maybe<ConstValueId> {
Ok(db.priv_impl_constant_semantic_data(impl_constant_def_id, false)?.constant_data.const_value)
}
pub fn impl_constant_def_value_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_constant_def_id: &ImplConstantDefId,
) -> Maybe<ConstValueId> {
Ok(db.priv_impl_constant_semantic_data(*impl_constant_def_id, true)?.constant_data.const_value)
}
pub fn impl_constant_def_resolver_data(
db: &dyn SemanticGroup,
impl_constant_def_id: ImplConstantDefId,
) -> Maybe<Arc<ResolverData>> {
Ok(db
.priv_impl_constant_semantic_data(impl_constant_def_id, false)?
.constant_data
.resolver_data)
}
pub fn impl_constant_def_trait_constant(
db: &dyn SemanticGroup,
impl_constant_def_id: ImplConstantDefId,
) -> Maybe<TraitConstantId> {
db.priv_impl_constant_semantic_data(impl_constant_def_id, false)?.trait_constant_id
}
pub fn priv_impl_constant_semantic_data(
db: &dyn SemanticGroup,
impl_constant_def_id: ImplConstantDefId,
in_cycle: bool,
) -> Maybe<ImplItemConstantData> {
let mut diagnostics = SemanticDiagnostics::default();
let impl_def_id = impl_constant_def_id.impl_def_id(db.upcast());
let impl_constant_defs = db.impl_constants(impl_def_id)?;
let impl_constant_def_ast = impl_constant_defs.get(&impl_constant_def_id).to_maybe()?;
let lookup_item_id = LookupItemId::ImplItem(ImplItemId::Constant(impl_constant_def_id));
let inference_id = InferenceId::LookupItemGenerics(LookupItemId::ImplItem(
ImplItemId::Constant(impl_constant_def_id),
));
let resolver_data = db.impl_def_resolver_data(impl_def_id)?;
let mut resolver =
Resolver::with_data(db, resolver_data.clone_with_inference_id(db, inference_id));
let trait_constant_id = validate_impl_item_constant(
db,
&mut diagnostics,
impl_constant_def_id,
impl_constant_def_ast,
&mut resolver,
);
let mut constant_data = if in_cycle {
constant_semantic_data_cycle_helper(
db,
impl_constant_def_ast,
lookup_item_id,
Some(Arc::new(resolver.data)),
&impl_def_id,
)?
} else {
constant_semantic_data_helper(
db,
impl_constant_def_ast,
lookup_item_id,
Some(Arc::new(resolver.data)),
&impl_def_id,
)?
};
diagnostics.extend(mem::take(&mut constant_data.diagnostics));
Ok(ImplItemConstantData { constant_data, trait_constant_id, diagnostics: diagnostics.build() })
}
pub fn priv_impl_constant_semantic_data_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_constant_def_id: &ImplConstantDefId,
_in_cycle: &bool,
) -> Maybe<ImplItemConstantData> {
priv_impl_constant_semantic_data(db, *impl_constant_def_id, true)
}
fn validate_impl_item_constant(
db: &dyn SemanticGroup,
diagnostics: &mut SemanticDiagnostics,
impl_constant_def_id: ImplConstantDefId,
impl_constant_ast: &ast::ItemConstant,
resolver: &mut Resolver<'_>,
) -> Maybe<TraitConstantId> {
let syntax_db = db.upcast();
let defs_db = db.upcast();
let impl_def_id = impl_constant_def_id.impl_def_id(defs_db);
let concrete_trait_id = db.impl_def_concrete_trait(impl_def_id)?;
let trait_id = concrete_trait_id.trait_id(db);
let constant_name = impl_constant_def_id.name(defs_db);
let trait_constant_id =
db.trait_constant_by_name(trait_id, constant_name.clone())?.ok_or_else(|| {
diagnostics.report(impl_constant_ast, ImplItemNotInTrait {
impl_def_id,
impl_item_name: constant_name,
trait_id,
item_kind: "const".into(),
})
})?;
let concrete_trait_constant =
ConcreteTraitConstantId::new(db, concrete_trait_id, trait_constant_id);
let concrete_trait_constant_ty = db.concrete_trait_constant_type(concrete_trait_constant)?;
let impl_constant_type_clause_ast = impl_constant_ast.type_clause(syntax_db);
let constant_ty =
resolve_type(db, diagnostics, resolver, &impl_constant_type_clause_ast.ty(syntax_db));
let inference = &mut resolver.inference();
let expected_ty = inference.rewrite(concrete_trait_constant_ty).no_err();
let actual_ty = inference.rewrite(constant_ty).no_err();
if expected_ty != actual_ty {
diagnostics.report(&impl_constant_type_clause_ast, WrongType { expected_ty, actual_ty });
}
Ok(trait_constant_id)
}
pub fn impl_constant_implized_by_context(
db: &dyn SemanticGroup,
impl_constant_id: ImplConstantId,
impl_def_id: ImplDefId,
) -> Maybe<ConstValueId> {
let impl_constant_def_id: ImplConstantDefId =
db.impl_constant_by_trait_constant(impl_def_id, impl_constant_id.trait_constant_id())?;
db.impl_constant_def_value(impl_constant_def_id)
}
pub fn impl_constant_implized_by_context_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_constant_id: &ImplConstantId,
impl_def_id: &ImplDefId,
) -> Maybe<ConstValueId> {
impl_constant_implized_by_context(db, *impl_constant_id, *impl_def_id)
}
pub fn impl_constant_concrete_implized_value(
db: &dyn SemanticGroup,
impl_constant_id: ImplConstantId,
) -> Maybe<ConstValueId> {
if let ImplLongId::Concrete(concrete_impl) = impl_constant_id.impl_id().lookup_intern(db) {
let impl_def_id = concrete_impl.impl_def_id(db);
let constant = db.impl_constant_implized_by_context(impl_constant_id, impl_def_id)?;
let substitution: &GenericSubstitution = &concrete_impl.substitution(db)?;
return SubstitutionRewriter { db, substitution }.rewrite(constant);
}
let substitution = &GenericSubstitution::from_impl(impl_constant_id.impl_id());
Ok(ConstValue::ImplConstant(
SubstitutionRewriter { db, substitution }.rewrite(impl_constant_id)?,
)
.intern(db))
}
pub fn impl_constant_concrete_implized_value_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_constant_id: &ImplConstantId,
) -> Maybe<ConstValueId> {
impl_constant_concrete_implized_value(db, *impl_constant_id)
}
pub fn impl_constant_concrete_implized_type(
db: &dyn SemanticGroup,
impl_constant_id: ImplConstantId,
) -> Maybe<TypeId> {
let concrete_trait_id = match impl_constant_id.impl_id().lookup_intern(db) {
ImplLongId::Concrete(concrete_impl) => {
let impl_def_id = concrete_impl.impl_def_id(db);
let ty = db.impl_constant_implized_by_context(impl_constant_id, impl_def_id)?.ty(db)?;
let substitution = &concrete_impl.substitution(db)?;
return SubstitutionRewriter { db, substitution }.rewrite(ty);
}
ImplLongId::GenericParameter(param) => {
let param_impl =
extract_matches!(db.generic_param_semantic(param)?, GenericParam::Impl);
param_impl.concrete_trait?
}
ImplLongId::ImplVar(var) => var.lookup_intern(db).concrete_trait_id,
ImplLongId::ImplImpl(impl_impl) => db.impl_impl_concrete_trait(impl_impl)?,
ImplLongId::TraitImpl(trait_impl) => db.trait_impl_concrete_trait(trait_impl)?,
ImplLongId::GeneratedImpl(generated_impl) => generated_impl.concrete_trait(db),
};
let ty = db.concrete_trait_constant_type(ConcreteTraitConstantId::new(
db,
concrete_trait_id,
impl_constant_id.trait_constant_id(),
))?;
let substitution = &GenericSubstitution::from_impl(impl_constant_id.impl_id());
SubstitutionRewriter { db, substitution }.rewrite(ty)
}
pub fn impl_constant_concrete_implized_type_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_constant_id: &ImplConstantId,
) -> Maybe<TypeId> {
impl_constant_concrete_implized_type(db, *impl_constant_id)
}
#[derive(Clone, Debug, PartialEq, Eq, DebugWithDb)]
#[debug_db(dyn SemanticGroup + 'static)]
pub struct ImplItemImplData {
impl_data: ImplAliasData,
trait_impl_id: Maybe<TraitImplId>,
diagnostics: Diagnostics<SemanticDiagnostic>,
}
pub fn impl_impl_def_semantic_diagnostics(
db: &dyn SemanticGroup,
impl_impl_def_id: ImplImplDefId,
) -> Diagnostics<SemanticDiagnostic> {
db.priv_impl_impl_semantic_data(impl_impl_def_id, false)
.map(|data| data.diagnostics)
.unwrap_or_default()
}
pub fn impl_impl_def_resolver_data(
db: &dyn SemanticGroup,
impl_impl_def_id: ImplImplDefId,
) -> Maybe<Arc<ResolverData>> {
Ok(db.priv_impl_impl_semantic_data(impl_impl_def_id, false)?.impl_data.resolver_data)
}
pub fn impl_impl_def_trait_impl(
db: &dyn SemanticGroup,
impl_impl_def_id: ImplImplDefId,
) -> Maybe<TraitImplId> {
db.priv_impl_impl_semantic_data(impl_impl_def_id, false)?.trait_impl_id
}
pub fn impl_impl_def_impl(
db: &dyn SemanticGroup,
impl_impl_def_id: ImplImplDefId,
in_cycle: bool,
) -> Maybe<ImplId> {
db.priv_impl_impl_semantic_data(impl_impl_def_id, in_cycle)?.impl_data.resolved_impl
}
pub fn impl_impl_def_impl_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_impl_def_id: &ImplImplDefId,
_in_cycle: &bool,
) -> Maybe<ImplId> {
db.priv_impl_impl_semantic_data(*impl_impl_def_id, true)?.impl_data.resolved_impl
}
pub fn priv_impl_impl_semantic_data(
db: &dyn SemanticGroup,
impl_impl_def_id: ImplImplDefId,
in_cycle: bool,
) -> Maybe<ImplItemImplData> {
let mut diagnostics = SemanticDiagnostics::default();
let impl_def_id = impl_impl_def_id.impl_def_id(db.upcast());
let impl_impl_defs = db.impl_impls(impl_def_id)?;
let impl_impl_def_ast = impl_impl_defs.get(&impl_impl_def_id).to_maybe()?;
let generic_params_data = db.priv_impl_impl_def_generic_params_data(impl_impl_def_id)?;
let lookup_item_id = LookupItemId::ImplItem(ImplItemId::Impl(impl_impl_def_id));
let inference_id = InferenceId::LookupItemGenerics(lookup_item_id);
let resolver_data = db.impl_def_resolver_data(impl_def_id)?;
let mut resolver =
Resolver::with_data(db, resolver_data.clone_with_inference_id(db, inference_id));
let mut impl_data = if in_cycle {
impl_alias_semantic_data_cycle_helper(
db,
impl_impl_def_ast,
lookup_item_id,
generic_params_data,
)?
} else {
impl_alias_semantic_data_helper(db, impl_impl_def_ast, lookup_item_id, generic_params_data)?
};
diagnostics.extend(mem::take(&mut impl_data.diagnostics));
let trait_impl_id = validate_impl_item_impl(
db,
&mut diagnostics,
impl_impl_def_id,
impl_impl_def_ast,
&impl_data,
&mut resolver,
);
Ok(ImplItemImplData { impl_data, trait_impl_id, diagnostics: diagnostics.build() })
}
pub fn priv_impl_impl_semantic_data_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_impl_def_id: &ImplImplDefId,
_in_cycle: &bool,
) -> Maybe<ImplItemImplData> {
priv_impl_impl_semantic_data(db, *impl_impl_def_id, true)
}
pub fn priv_impl_impl_def_generic_params_data(
db: &dyn SemanticGroup,
impl_impl_def_id: ImplImplDefId,
) -> Maybe<GenericParamsData> {
let defs_db = db.upcast();
let module_file_id = impl_impl_def_id.module_file_id(defs_db);
let impl_impl_def_ast = db.impl_impl_by_id(impl_impl_def_id)?.to_maybe()?;
let lookup_item_id = LookupItemId::ImplItem(ImplItemId::Impl(impl_impl_def_id));
let impl_resolver_data = db.impl_def_resolver_data(impl_impl_def_id.impl_def_id(defs_db))?;
impl_alias_generic_params_data_helper(
db,
module_file_id,
&impl_impl_def_ast,
lookup_item_id,
Some(impl_resolver_data),
)
}
fn validate_impl_item_impl(
db: &dyn SemanticGroup,
diagnostics: &mut SemanticDiagnostics,
impl_impl_def_id: ImplImplDefId,
impl_impl_ast: &ast::ItemImplAlias,
impl_data: &ImplAliasData,
resolver: &mut Resolver<'_>,
) -> Maybe<TraitImplId> {
let syntax_db = db.upcast();
let defs_db = db.upcast();
let impl_def_id = impl_impl_def_id.impl_def_id(defs_db);
let concrete_trait_id = db.impl_def_concrete_trait(impl_def_id)?;
let trait_id = concrete_trait_id.trait_id(db);
let impl_name = impl_impl_def_id.name(defs_db);
let trait_impl_id = db.trait_impl_by_name(trait_id, impl_name.clone())?.ok_or_else(|| {
diagnostics.report(impl_impl_ast, ImplItemNotInTrait {
impl_def_id,
impl_item_name: impl_name,
trait_id,
item_kind: "impl".into(),
})
})?;
let generic_params_node = impl_impl_ast.generic_params(syntax_db);
if !generic_params_node.is_empty(syntax_db) {
diagnostics.report(&generic_params_node, GenericsNotSupportedInItem {
scope: "Impl".into(),
item_kind: "impl".into(),
});
}
let concrete_trait_impl = ConcreteTraitImplId::new(db, concrete_trait_id, trait_impl_id);
let impl_def_substitution = db.impl_def_substitution(impl_def_id)?;
let concrete_trait_impl_concrete_trait =
db.concrete_trait_impl_concrete_trait(concrete_trait_impl).and_then(|concrete_trait_id| {
SubstitutionRewriter { db, substitution: impl_def_substitution.as_ref() }
.rewrite(concrete_trait_id)
});
let resolved_impl_concrete_trait =
impl_data.resolved_impl.and_then(|imp| imp.concrete_trait(db));
let _ = (|| -> Result<(), DiagnosticAdded> {
if resolver
.inference()
.conform_traits(resolved_impl_concrete_trait?, concrete_trait_impl_concrete_trait?)
.is_err()
{
diagnostics.report(impl_impl_ast, TraitMismatch {
expected_trt: concrete_trait_impl_concrete_trait?,
actual_trt: resolved_impl_concrete_trait?,
});
}
Ok(())
})();
Ok(trait_impl_id)
}
#[derive(Clone, Debug, PartialEq, Eq, DebugWithDb)]
#[debug_db(dyn SemanticGroup + 'static)]
pub struct ImplicitImplImplData {
resolved_impl: Maybe<ImplId>,
trait_impl_id: TraitImplId,
diagnostics: Diagnostics<SemanticDiagnostic>,
}
pub fn implicit_impl_impl_semantic_diagnostics(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
trait_impl_id: TraitImplId,
) -> Diagnostics<SemanticDiagnostic> {
db.priv_implicit_impl_impl_semantic_data(impl_def_id, trait_impl_id, false)
.map(|data| data.diagnostics)
.unwrap_or_default()
}
pub fn implicit_impl_impl_impl(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
trait_impl_id: TraitImplId,
in_cycle: bool,
) -> Maybe<ImplId> {
db.priv_implicit_impl_impl_semantic_data(impl_def_id, trait_impl_id, in_cycle)?.resolved_impl
}
pub fn implicit_impl_impl_impl_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_def_id: &ImplDefId,
trait_impl_id: &TraitImplId,
_in_cycle: &bool,
) -> Maybe<ImplId> {
db.priv_implicit_impl_impl_semantic_data(*impl_def_id, *trait_impl_id, true)?.resolved_impl
}
pub fn priv_implicit_impl_impl_semantic_data(
db: &dyn SemanticGroup,
impl_def_id: ImplDefId,
trait_impl_id: TraitImplId,
in_cycle: bool,
) -> Maybe<ImplicitImplImplData> {
let mut diagnostics = SemanticDiagnostics::default();
if in_cycle {
let err =
Err(diagnostics.report(impl_def_id.stable_ptr(db.upcast()).untyped(), ImplAliasCycle));
return Ok(ImplicitImplImplData {
resolved_impl: err,
trait_impl_id,
diagnostics: diagnostics.build(),
});
}
let lookup_item_id = LookupItemId::ModuleItem(ModuleItemId::Impl(impl_def_id));
let inference_id = InferenceId::LookupItemGenerics(lookup_item_id);
let resolver_data = db.impl_def_resolver_data(impl_def_id)?;
let mut resolver =
Resolver::with_data(db, resolver_data.clone_with_inference_id(db, inference_id));
resolver.trait_or_impl_ctx = TraitOrImplContext::None;
let concrete_trait_impl_concrete_trait = db
.impl_def_concrete_trait(impl_def_id)
.and_then(|concrete_trait_id| {
db.concrete_trait_impl_concrete_trait(ConcreteTraitImplId::new(
db,
concrete_trait_id,
trait_impl_id,
))
})
.and_then(|concrete_trait_id| {
let impl_def_substitution = db.impl_def_substitution(impl_def_id)?;
SubstitutionRewriter { db, substitution: impl_def_substitution.as_ref() }
.rewrite(concrete_trait_id)
});
let impl_lookup_context = resolver.impl_lookup_context();
let resolved_impl = concrete_trait_impl_concrete_trait.and_then(|concrete_trait_id| {
let imp = resolver.inference().new_impl_var(concrete_trait_id, None, impl_lookup_context);
if let Err((err_set, _)) = resolver.inference().finalize_without_reporting() {
diagnostics.report(
impl_def_id.stable_ptr(db.upcast()).untyped(),
ImplicitImplNotInferred { trait_impl_id, concrete_trait_id },
);
resolver.inference().report_on_pending_error(
err_set,
&mut diagnostics,
impl_def_id.stable_ptr(db.upcast()).untyped(),
);
};
resolver.inference().rewrite(imp).map_err(|_| skip_diagnostic())
});
Ok(ImplicitImplImplData { resolved_impl, trait_impl_id, diagnostics: diagnostics.build() })
}
pub fn priv_implicit_impl_impl_semantic_data_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_def_id: &ImplDefId,
trait_impl_id: &TraitImplId,
_in_cycle: &bool,
) -> Maybe<ImplicitImplImplData> {
priv_implicit_impl_impl_semantic_data(db, *impl_def_id, *trait_impl_id, true)
}
pub fn impl_impl_implized_by_context(
db: &dyn SemanticGroup,
impl_impl_id: ImplImplId,
impl_def_id: ImplDefId,
in_cycle: bool,
) -> Maybe<ImplId> {
if db.is_implicit_impl_impl(impl_def_id, impl_impl_id.trait_impl_id())? {
return db.implicit_impl_impl_impl(impl_def_id, impl_impl_id.trait_impl_id(), in_cycle);
}
let impl_impl_def_id = db.impl_impl_by_trait_impl(impl_def_id, impl_impl_id.trait_impl_id())?;
db.impl_impl_def_impl(impl_impl_def_id, in_cycle)
}
pub fn impl_impl_implized_by_context_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_impl_id: &ImplImplId,
impl_def_id: &ImplDefId,
_in_cycle: &bool,
) -> Maybe<ImplId> {
impl_impl_implized_by_context(db, *impl_impl_id, *impl_def_id, true)
}
pub fn impl_impl_concrete_implized(
db: &dyn SemanticGroup,
impl_impl_id: ImplImplId,
) -> Maybe<ImplId> {
impl_impl_concrete_implized_ex(db, impl_impl_id, false)
}
pub fn impl_impl_concrete_implized_cycle(
db: &dyn SemanticGroup,
_cycle: &salsa::Cycle,
impl_impl_id: &ImplImplId,
) -> Maybe<ImplId> {
impl_impl_concrete_implized_ex(db, *impl_impl_id, true)
}
fn impl_impl_concrete_implized_ex(
db: &dyn SemanticGroup,
impl_impl_id: ImplImplId,
in_cycle: bool,
) -> Maybe<ImplId> {
if let ImplLongId::Concrete(concrete_impl) = impl_impl_id.impl_id().lookup_intern(db) {
let impl_def_id = concrete_impl.impl_def_id(db);
let imp = db.impl_impl_implized_by_context(impl_impl_id, impl_def_id, in_cycle)?;
let substitution: &GenericSubstitution = &concrete_impl.substitution(db)?;
return SubstitutionRewriter { db, substitution }.rewrite(imp);
}
let substitution = &GenericSubstitution::from_impl(impl_impl_id.impl_id());
Ok(ImplLongId::ImplImpl(SubstitutionRewriter { db, substitution }.rewrite(impl_impl_id)?)
.intern(db))
}
pub fn impl_impl_concrete_trait(
db: &dyn SemanticGroup,
impl_impl_id: ImplImplId,
) -> Maybe<ConcreteTraitId> {
let concrete_trait_impl = impl_impl_id.concrete_trait_impl_id(db)?;
let substitution = GenericSubstitution::from_impl(impl_impl_id.impl_id());
db.concrete_trait_impl_concrete_trait(concrete_trait_impl).and_then(|concrete_trait_id| {
SubstitutionRewriter { db, substitution: &substitution }.rewrite(concrete_trait_id)
})
}
#[derive(Clone, Debug, PartialEq, Eq, DebugWithDb)]
#[debug_db(dyn SemanticGroup + 'static)]
pub struct ImplFunctionDeclarationData {
pub function_declaration_data: FunctionDeclarationData,
trait_function_id: Maybe<TraitFunctionId>,
}
pub fn impl_function_declaration_diagnostics(
db: &dyn SemanticGroup,
impl_function_id: ImplFunctionId,
) -> Diagnostics<SemanticDiagnostic> {
db.priv_impl_function_declaration_data(impl_function_id)
.map(|data| data.function_declaration_data.diagnostics)
.unwrap_or_default()
}
pub fn impl_function_signature(
db: &dyn SemanticGroup,
impl_function_id: ImplFunctionId,
) -> Maybe<semantic::Signature> {
Ok(db
.priv_impl_function_declaration_data(impl_function_id)?
.function_declaration_data
.signature)
}
pub fn impl_function_generic_params(
db: &dyn SemanticGroup,
impl_function_id: ImplFunctionId,
) -> Maybe<Vec<semantic::GenericParam>> {
Ok(db.priv_impl_function_generic_params_data(impl_function_id)?.generic_params)
}
pub fn priv_impl_function_generic_params_data(
db: &dyn SemanticGroup,
impl_function_id: ImplFunctionId,
) -> Maybe<GenericParamsData> {
let module_file_id = impl_function_id.module_file_id(db.upcast());
let mut diagnostics = SemanticDiagnostics::default();
let impl_def_id = impl_function_id.impl_def_id(db.upcast());
let data = db.priv_impl_definition_data(impl_def_id)?;
let function_syntax = &data.function_asts[&impl_function_id];
let syntax_db = db.upcast();
let declaration = function_syntax.declaration(syntax_db);
let inference_id = InferenceId::LookupItemGenerics(LookupItemId::ImplItem(
ImplItemId::Function(impl_function_id),
));
let resolver_data = db.impl_def_resolver_data(impl_def_id)?;
let mut resolver =
Resolver::with_data(db, resolver_data.clone_with_inference_id(db, inference_id));
let generic_params = semantic_generic_params(
db,
&mut diagnostics,
&mut resolver,
module_file_id,
&declaration.generic_params(syntax_db),
);
let inference = &mut resolver.inference();
inference.finalize(&mut diagnostics, function_syntax.stable_ptr().untyped());
let generic_params = inference.rewrite(generic_params).no_err();
let resolver_data = Arc::new(resolver.data);
Ok(GenericParamsData { generic_params, diagnostics: diagnostics.build(), resolver_data })
}
pub fn impl_function_attributes(
db: &dyn SemanticGroup,
impl_function_id: ImplFunctionId,
) -> Maybe<Vec<Attribute>> {
Ok(db
.priv_impl_function_declaration_data(impl_function_id)?
.function_declaration_data
.attributes)
}
pub fn impl_function_resolver_data(
db: &dyn SemanticGroup,
impl_function_id: ImplFunctionId,
) -> Maybe<Arc<ResolverData>> {
Ok(db
.priv_impl_function_declaration_data(impl_function_id)?
.function_declaration_data
.resolver_data)
}
pub fn impl_function_declaration_inline_config(
db: &dyn SemanticGroup,
impl_function_id: ImplFunctionId,
) -> Maybe<InlineConfiguration> {
Ok(db
.priv_impl_function_declaration_data(impl_function_id)?
.function_declaration_data
.inline_config)
}
pub fn impl_function_declaration_implicit_precedence(
db: &dyn SemanticGroup,
impl_function_id: ImplFunctionId,
) -> Maybe<ImplicitPrecedence> {
Ok(db
.priv_impl_function_declaration_data(impl_function_id)?
.function_declaration_data
.implicit_precedence)
}
pub fn impl_function_declaration_implicits(
db: &dyn SemanticGroup,
impl_function_id: ImplFunctionId,
) -> Maybe<Vec<TypeId>> {
Ok(db
.priv_impl_function_declaration_data(impl_function_id)?
.function_declaration_data
.signature
.implicits)
}
pub fn impl_function_trait_function(
db: &dyn SemanticGroup,
impl_function_id: ImplFunctionId,
) -> Maybe<TraitFunctionId> {
db.priv_impl_function_declaration_data(impl_function_id)?.trait_function_id
}
pub fn priv_impl_function_declaration_data(
db: &dyn SemanticGroup,
impl_function_id: ImplFunctionId,
) -> Maybe<ImplFunctionDeclarationData> {
let mut diagnostics = SemanticDiagnostics::default();
let impl_def_id = impl_function_id.impl_def_id(db.upcast());
let data = db.priv_impl_definition_data(impl_def_id)?;
let function_syntax = &data.function_asts[&impl_function_id];
let syntax_db = db.upcast();
let declaration = function_syntax.declaration(syntax_db);
let generic_params_data = db.priv_impl_function_generic_params_data(impl_function_id)?;
let generic_params = generic_params_data.generic_params;
let lookup_item_id = LookupItemId::ImplItem(ImplItemId::Function(impl_function_id));
let inference_id = InferenceId::LookupItemGenerics(lookup_item_id);
let mut resolver = Resolver::with_data(
db,
(*generic_params_data.resolver_data).clone_with_inference_id(db, inference_id),
);
diagnostics.extend(generic_params_data.diagnostics);
resolver.set_feature_config(&impl_function_id, function_syntax, &mut diagnostics);
let signature_syntax = declaration.signature(syntax_db);
let mut environment = Environment::empty();
let signature = semantic::Signature::from_ast(
&mut diagnostics,
db,
&mut resolver,
&signature_syntax,
FunctionTitleId::Impl(impl_function_id),
&mut environment,
);
let attributes = function_syntax.attributes(syntax_db).structurize(syntax_db);
let (implicit_precedence, _) =
get_implicit_precedence(&mut diagnostics, &mut resolver, &attributes);
let inference = &mut resolver.inference();
inference.finalize(&mut diagnostics, function_syntax.stable_ptr().untyped());
let trait_function_id = validate_impl_function_signature(
db,
&mut diagnostics,
inference,
ValidateImplFunctionSignatureParams {
impl_function_id,
signature_syntax: &signature_syntax,
signature: &signature,
impl_function_syntax: function_syntax,
impl_func_generics: &generic_params,
},
);
let inline_config = get_inline_config(db, &mut diagnostics, &attributes)?;
forbid_inline_always_with_impl_generic_param(&mut diagnostics, &generic_params, &inline_config);
let signature = inference.rewrite(signature).no_err();
let generic_params = inference.rewrite(generic_params).no_err();
let resolver_data = Arc::new(resolver.data);
Ok(ImplFunctionDeclarationData {
function_declaration_data: FunctionDeclarationData {
diagnostics: diagnostics.build(),
signature,
generic_params,
environment,
attributes,
resolver_data,
inline_config,
implicit_precedence,
},
trait_function_id,
})
}
struct ValidateImplFunctionSignatureParams<'a> {
impl_function_id: ImplFunctionId,
signature_syntax: &'a ast::FunctionSignature,
signature: &'a semantic::Signature,
impl_function_syntax: &'a ast::FunctionWithBody,
impl_func_generics: &'a [GenericParam],
}
fn validate_impl_function_signature(
db: &dyn SemanticGroup,
diagnostics: &mut SemanticDiagnostics,
inference: &mut Inference<'_>,
ValidateImplFunctionSignatureParams {
impl_function_id,
signature_syntax,
signature,
impl_function_syntax,
impl_func_generics,
}: ValidateImplFunctionSignatureParams<'_>,
) -> Maybe<TraitFunctionId> {
let syntax_db = db.upcast();
let defs_db = db.upcast();
let impl_def_id = impl_function_id.impl_def_id(defs_db);
let concrete_trait_id = db.impl_def_concrete_trait(impl_def_id)?;
let trait_id = concrete_trait_id.trait_id(db);
let function_name = impl_function_id.name(defs_db);
let trait_function_id =
db.trait_function_by_name(trait_id, function_name.clone())?.ok_or_else(|| {
diagnostics.report(impl_function_syntax, ImplItemNotInTrait {
impl_def_id,
impl_item_name: function_name,
trait_id,
item_kind: "function".into(),
})
})?;
let concrete_trait_function =
ConcreteTraitGenericFunctionId::new(db, concrete_trait_id, trait_function_id);
let concrete_trait_signature = db.concrete_trait_function_signature(concrete_trait_function)?;
let func_generics = db.concrete_trait_function_generic_params(concrete_trait_function)?;
if impl_func_generics.len() != func_generics.len() {
diagnostics.report(
&impl_function_syntax.declaration(syntax_db).name(syntax_db),
WrongNumberOfGenericParamsForImplFunction {
expected: func_generics.len(),
actual: impl_func_generics.len(),
},
);
return Ok(trait_function_id);
}
let substitution =
GenericSubstitution::new(&func_generics, &generic_params_to_args(impl_func_generics, db));
let concrete_trait_signature = SubstitutionRewriter { db, substitution: &substitution }
.rewrite(concrete_trait_signature)?;
if signature.params.len() != concrete_trait_signature.params.len() {
diagnostics.report(&signature_syntax.parameters(syntax_db), WrongNumberOfParameters {
impl_def_id,
impl_function_id,
trait_id,
expected: concrete_trait_signature.params.len(),
actual: signature.params.len(),
});
}
let impl_def_substitution = db.impl_def_substitution(impl_def_id)?;
let concrete_trait_signature =
SubstitutionRewriter { db, substitution: impl_def_substitution.as_ref() }
.rewrite(concrete_trait_signature)?;
for (idx, (param, trait_param)) in
izip!(signature.params.iter(), concrete_trait_signature.params.iter()).enumerate()
{
let expected_ty = inference.rewrite(trait_param.ty).no_err();
let actual_ty = inference.rewrite(param.ty).no_err();
if expected_ty != actual_ty && !expected_ty.is_missing(db) && !actual_ty.is_missing(db) {
diagnostics.report(
&extract_matches!(
signature_syntax.parameters(syntax_db).elements(syntax_db)[idx]
.type_clause(syntax_db),
OptionTypeClause::TypeClause
)
.ty(syntax_db),
WrongParameterType {
impl_def_id,
impl_function_id,
trait_id,
expected_ty,
actual_ty,
},
);
}
if trait_param.mutability != param.mutability {
if trait_param.mutability == Mutability::Reference {
diagnostics.report(
&signature_syntax.parameters(syntax_db).elements(syntax_db)[idx]
.modifiers(syntax_db),
ParameterShouldBeReference { impl_def_id, impl_function_id, trait_id },
);
}
if param.mutability == Mutability::Reference {
diagnostics.report(
&signature_syntax.parameters(syntax_db).elements(syntax_db)[idx]
.modifiers(syntax_db),
ParameterShouldNotBeReference { impl_def_id, impl_function_id, trait_id },
);
}
}
if trait_param.name != param.name {
diagnostics.report(
&signature_syntax.parameters(syntax_db).elements(syntax_db)[idx].name(syntax_db),
WrongParameterName {
impl_def_id,
impl_function_id,
trait_id,
expected_name: trait_param.name.clone(),
},
);
}
}
if !concrete_trait_signature.panicable && signature.panicable {
diagnostics.report(signature_syntax, PassPanicAsNopanic { impl_function_id, trait_id });
}
let expected_ty = inference.rewrite(concrete_trait_signature.return_type).no_err();
let actual_ty = inference.rewrite(signature.return_type).no_err();
if expected_ty != actual_ty && !expected_ty.is_missing(db) && !actual_ty.is_missing(db) {
let location_ptr = match signature_syntax.ret_ty(syntax_db) {
OptionReturnTypeClause::ReturnTypeClause(ret_ty) => {
ret_ty.ty(syntax_db).as_syntax_node()
}
OptionReturnTypeClause::Empty(_) => {
impl_function_syntax.body(syntax_db).lbrace(syntax_db).as_syntax_node()
}
}
.stable_ptr();
diagnostics.report(location_ptr, WrongReturnTypeForImpl {
impl_def_id,
impl_function_id,
trait_id,
expected_ty,
actual_ty,
});
}
Ok(trait_function_id)
}
pub fn impl_function_body_diagnostics(
db: &dyn SemanticGroup,
impl_function_id: ImplFunctionId,
) -> Diagnostics<SemanticDiagnostic> {
db.priv_impl_function_body_data(impl_function_id)
.map(|data| data.diagnostics)
.unwrap_or_default()
}
pub fn impl_function_body(
db: &dyn SemanticGroup,
impl_function_id: ImplFunctionId,
) -> Maybe<Arc<FunctionBody>> {
Ok(db.priv_impl_function_body_data(impl_function_id)?.body)
}
pub fn impl_function_body_resolver_data(
db: &dyn SemanticGroup,
impl_function_id: ImplFunctionId,
) -> Maybe<Arc<ResolverData>> {
Ok(db.priv_impl_function_body_data(impl_function_id)?.resolver_data)
}
pub fn priv_impl_function_body_data(
db: &dyn SemanticGroup,
impl_function_id: ImplFunctionId,
) -> Maybe<FunctionBodyData> {
let defs_db = db.upcast();
let mut diagnostics = SemanticDiagnostics::default();
let impl_def_id = impl_function_id.impl_def_id(defs_db);
let data = db.priv_impl_definition_data(impl_def_id)?;
let function_syntax = &data.function_asts[&impl_function_id];
let declaration = db.priv_impl_function_declaration_data(impl_function_id)?;
let parent_resolver_data = declaration.function_declaration_data.resolver_data;
let inference_id = InferenceId::LookupItemDefinition(LookupItemId::ImplItem(
ImplItemId::Function(impl_function_id),
));
let resolver =
Resolver::with_data(db, (*parent_resolver_data).clone_with_inference_id(db, inference_id));
let environment: Environment = declaration.function_declaration_data.environment;
let function_id = (|| {
let trait_function_id = db.impl_function_trait_function(impl_function_id)?;
let generic_parameters = db.impl_def_generic_params(impl_def_id)?;
let generic_function = GenericFunctionId::Impl(ImplGenericFunctionId {
impl_id: ImplLongId::Concrete(
ConcreteImplLongId {
impl_def_id,
generic_args: generic_params_to_args(&generic_parameters, db),
}
.intern(db),
)
.intern(db),
function: trait_function_id,
});
Ok(FunctionLongId::from_generic(db, generic_function)?.intern(db))
})();
let mut ctx = ComputationContext::new(
db,
&mut diagnostics,
resolver,
Some(&declaration.function_declaration_data.signature),
environment,
ContextFunction::Function(function_id),
);
let function_body = function_syntax.body(db.upcast());
let return_type = declaration.function_declaration_data.signature.return_type;
let body_expr = compute_root_expr(&mut ctx, &function_body, return_type)?;
let ComputationContext { arenas: Arenas { exprs, patterns, statements }, resolver, .. } = ctx;
let expr_lookup: UnorderedHashMap<_, _> =
exprs.iter().map(|(expr_id, expr)| (expr.stable_ptr(), expr_id)).collect();
let pattern_lookup: UnorderedHashMap<_, _> =
patterns.iter().map(|(pattern_id, pattern)| (pattern.stable_ptr(), pattern_id)).collect();
let resolver_data = Arc::new(resolver.data);
Ok(FunctionBodyData {
diagnostics: diagnostics.build(),
expr_lookup,
pattern_lookup,
resolver_data,
body: Arc::new(FunctionBody { arenas: Arenas { exprs, patterns, statements }, body_expr }),
})
}
pub fn priv_impl_is_fully_concrete(db: &dyn SemanticGroup, impl_id: ImplId) -> bool {
impl_id.lookup_intern(db).is_fully_concrete(db)
}
pub fn priv_impl_is_var_free(db: &dyn SemanticGroup, impl_id: ImplId) -> bool {
impl_id.lookup_intern(db).is_var_free(db)
}