2019-01-07 06:44:54 -06:00
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//! This module is concerned with finding methods that a given type provides.
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//! For details about how this works in rustc, see the method lookup page in the
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//! [rustc guide](https://rust-lang.github.io/rustc-guide/method-lookup.html)
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//! and the corresponding code mostly in librustc_typeck/check/method/probe.rs.
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use std::sync::Arc;
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use rustc_hash::FxHashMap;
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2019-01-12 14:27:35 -06:00
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use crate::{
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HirDatabase, Module, Crate, Name, Function, Trait,
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impl_block::{ImplId, ImplBlock, ImplItem},
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ty::{Ty, TypeCtor},
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nameres::CrateModuleId,
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resolve::Resolver,
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traits::TraitItem,
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generics::HasGenericParams,
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ty::primitive::{UncertainIntTy, UncertainFloatTy}
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};
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2019-05-01 10:57:56 -05:00
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use super::{TraitRef, Canonical};
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2019-01-07 06:44:54 -06:00
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/// This is used as a key for indexing impls.
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#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
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pub enum TyFingerprint {
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Apply(TypeCtor),
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}
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impl TyFingerprint {
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/// Creates a TyFingerprint for looking up an impl. Only certain types can
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/// have impls: if we have some `struct S`, we can have an `impl S`, but not
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/// `impl &S`. Hence, this will return `None` for reference types and such.
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fn for_impl(ty: &Ty) -> Option<TyFingerprint> {
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match ty {
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Ty::Apply(a_ty) => Some(TyFingerprint::Apply(a_ty.ctor)),
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_ => None,
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}
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}
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}
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#[derive(Debug, PartialEq, Eq)]
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pub struct CrateImplBlocks {
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/// To make sense of the CrateModuleIds, we need the source root.
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krate: Crate,
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impls: FxHashMap<TyFingerprint, Vec<(CrateModuleId, ImplId)>>,
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impls_by_trait: FxHashMap<Trait, Vec<(CrateModuleId, ImplId)>>,
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}
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impl CrateImplBlocks {
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pub fn lookup_impl_blocks<'a>(&'a self, ty: &Ty) -> impl Iterator<Item = ImplBlock> + 'a {
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let fingerprint = TyFingerprint::for_impl(ty);
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fingerprint.and_then(|f| self.impls.get(&f)).into_iter().flat_map(|i| i.iter()).map(
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move |(module_id, impl_id)| {
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let module = Module { krate: self.krate, module_id: *module_id };
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ImplBlock::from_id(module, *impl_id)
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},
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)
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}
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pub fn lookup_impl_blocks_for_trait<'a>(
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&'a self,
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tr: &Trait,
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) -> impl Iterator<Item = ImplBlock> + 'a {
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self.impls_by_trait.get(&tr).into_iter().flat_map(|i| i.iter()).map(
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move |(module_id, impl_id)| {
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let module = Module { krate: self.krate, module_id: *module_id };
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ImplBlock::from_id(module, *impl_id)
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},
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)
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}
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fn collect_recursive(&mut self, db: &impl HirDatabase, module: &Module) {
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let module_impl_blocks = db.impls_in_module(module.clone());
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for (impl_id, _) in module_impl_blocks.impls.iter() {
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let impl_block = ImplBlock::from_id(module_impl_blocks.module, impl_id);
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let target_ty = impl_block.target_ty(db);
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if impl_block.target_trait(db).is_some() {
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if let Some(tr) = impl_block.target_trait_ref(db) {
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self.impls_by_trait
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.entry(tr.trait_)
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.or_insert_with(Vec::new)
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.push((module.module_id, impl_id));
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}
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2019-03-24 11:36:15 -05:00
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} else {
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if let Some(target_ty_fp) = TyFingerprint::for_impl(&target_ty) {
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self.impls
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.entry(target_ty_fp)
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.or_insert_with(Vec::new)
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.push((module.module_id, impl_id));
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}
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2019-01-07 06:44:54 -06:00
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}
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}
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2019-01-15 09:30:58 -06:00
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for child in module.children(db) {
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self.collect_recursive(db, &child);
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}
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}
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2019-01-12 14:51:56 -06:00
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pub(crate) fn impls_in_crate_query(
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db: &impl HirDatabase,
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krate: Crate,
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) -> Arc<CrateImplBlocks> {
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let mut crate_impl_blocks = CrateImplBlocks {
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krate,
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impls: FxHashMap::default(),
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impls_by_trait: FxHashMap::default(),
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};
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if let Some(module) = krate.root_module(db) {
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crate_impl_blocks.collect_recursive(db, &module);
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}
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2019-01-15 11:54:18 -06:00
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Arc::new(crate_impl_blocks)
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}
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}
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2019-04-17 16:40:00 -05:00
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fn def_crate(db: &impl HirDatabase, cur_crate: Crate, ty: &Ty) -> Option<Crate> {
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match ty {
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Ty::Apply(a_ty) => match a_ty.ctor {
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TypeCtor::Adt(def_id) => def_id.krate(db),
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TypeCtor::Bool => db.lang_item(cur_crate, "bool".into())?.krate(db),
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TypeCtor::Char => db.lang_item(cur_crate, "char".into())?.krate(db),
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TypeCtor::Float(UncertainFloatTy::Known(f)) => {
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db.lang_item(cur_crate, f.ty_to_string().into())?.krate(db)
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}
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TypeCtor::Int(UncertainIntTy::Known(i)) => {
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db.lang_item(cur_crate, i.ty_to_string().into())?.krate(db)
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}
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TypeCtor::Str => db.lang_item(cur_crate, "str".into())?.krate(db),
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_ => None,
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},
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_ => None,
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}
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}
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2019-05-01 10:57:56 -05:00
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/// Look up the method with the given name, returning the actual autoderefed
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/// receiver type (but without autoref applied yet).
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pub(crate) fn lookup_method(
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ty: &Canonical<Ty>,
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db: &impl HirDatabase,
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name: &Name,
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resolver: &Resolver,
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) -> Option<(Ty, Function)> {
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iterate_method_candidates(ty, db, resolver, Some(name), |ty, f| Some((ty.clone(), f)))
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}
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2019-03-24 11:36:15 -05:00
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2019-05-01 10:57:56 -05:00
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// This would be nicer if it just returned an iterator, but that runs into
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// lifetime problems, because we need to borrow temp `CrateImplBlocks`.
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pub(crate) fn iterate_method_candidates<T>(
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ty: &Canonical<Ty>,
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db: &impl HirDatabase,
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resolver: &Resolver,
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name: Option<&Name>,
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mut callback: impl FnMut(&Ty, Function) -> Option<T>,
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) -> Option<T> {
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// For method calls, rust first does any number of autoderef, and then one
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// autoref (i.e. when the method takes &self or &mut self). We just ignore
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// the autoref currently -- when we find a method matching the given name,
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// we assume it fits.
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2019-04-14 09:08:10 -05:00
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2019-05-01 10:57:56 -05:00
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// Also note that when we've got a receiver like &S, even if the method we
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// find in the end takes &self, we still do the autoderef step (just as
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// rustc does an autoderef and then autoref again).
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2019-04-14 09:08:10 -05:00
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2019-05-01 10:57:56 -05:00
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let krate = resolver.krate()?;
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for derefed_ty in ty.value.clone().autoderef(db) {
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let derefed_ty = Canonical { value: derefed_ty, num_vars: ty.num_vars };
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if let Some(result) = iterate_inherent_methods(&derefed_ty, db, name, krate, &mut callback)
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{
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return Some(result);
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}
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if let Some(result) =
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iterate_trait_method_candidates(&derefed_ty, db, resolver, name, &mut callback)
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{
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return Some(result);
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2019-04-14 09:08:10 -05:00
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}
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}
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2019-05-01 10:57:56 -05:00
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None
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}
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2019-04-14 09:08:10 -05:00
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2019-05-01 10:57:56 -05:00
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fn iterate_trait_method_candidates<T>(
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ty: &Canonical<Ty>,
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db: &impl HirDatabase,
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resolver: &Resolver,
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name: Option<&Name>,
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mut callback: impl FnMut(&Ty, Function) -> Option<T>,
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) -> Option<T> {
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let krate = resolver.krate()?;
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'traits: for t in resolver.traits_in_scope() {
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let data = t.trait_data(db);
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// we'll be lazy about checking whether the type implements the
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// trait, but if we find out it doesn't, we'll skip the rest of the
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// iteration
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let mut known_implemented = false;
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for item in data.items() {
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match item {
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&TraitItem::Function(m) => {
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let sig = m.signature(db);
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if name.map_or(true, |name| sig.name() == name) && sig.has_self_param() {
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if !known_implemented {
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let trait_ref = canonical_trait_ref(db, t, ty.clone());
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2019-05-05 09:04:31 -05:00
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if db.implements(krate, trait_ref).is_none() {
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2019-05-01 10:57:56 -05:00
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continue 'traits;
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2019-04-14 09:08:10 -05:00
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}
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2019-03-24 11:36:15 -05:00
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}
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2019-05-01 10:57:56 -05:00
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known_implemented = true;
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if let Some(result) = callback(&ty.value, m) {
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return Some(result);
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}
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2019-03-24 11:36:15 -05:00
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}
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}
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2019-05-01 10:57:56 -05:00
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_ => {}
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2019-03-24 11:36:15 -05:00
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}
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}
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2019-01-07 06:44:54 -06:00
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}
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2019-05-01 10:57:56 -05:00
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None
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}
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2019-01-07 06:44:54 -06:00
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2019-05-01 10:57:56 -05:00
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fn iterate_inherent_methods<T>(
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ty: &Canonical<Ty>,
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db: &impl HirDatabase,
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name: Option<&Name>,
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krate: Crate,
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mut callback: impl FnMut(&Ty, Function) -> Option<T>,
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) -> Option<T> {
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let krate = match def_crate(db, krate, &ty.value) {
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Some(krate) => krate,
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None => return None,
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};
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let impls = db.impls_in_crate(krate);
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2019-01-07 06:44:54 -06:00
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2019-05-01 10:57:56 -05:00
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for impl_block in impls.lookup_impl_blocks(&ty.value) {
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for item in impl_block.items(db) {
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match item {
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ImplItem::Method(f) => {
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let sig = f.signature(db);
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if name.map_or(true, |name| sig.name() == name) && sig.has_self_param() {
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if let Some(result) = callback(&ty.value, f) {
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return Some(result);
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2019-01-07 06:44:54 -06:00
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}
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}
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}
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2019-05-01 10:57:56 -05:00
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_ => {}
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2019-01-07 06:44:54 -06:00
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}
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}
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}
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2019-05-01 10:57:56 -05:00
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None
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}
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2019-02-12 02:33:23 -06:00
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2019-05-01 10:57:56 -05:00
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impl Ty {
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2019-02-12 02:33:23 -06:00
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// This would be nicer if it just returned an iterator, but that runs into
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// lifetime problems, because we need to borrow temp `CrateImplBlocks`.
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pub fn iterate_impl_items<T>(
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self,
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db: &impl HirDatabase,
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2019-04-14 17:03:54 -05:00
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krate: Crate,
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2019-02-12 02:33:23 -06:00
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mut callback: impl FnMut(ImplItem) -> Option<T>,
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) -> Option<T> {
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2019-04-14 17:03:54 -05:00
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let krate = def_crate(db, krate, &self)?;
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2019-02-12 02:33:23 -06:00
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let impls = db.impls_in_crate(krate);
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2019-02-16 14:09:58 -06:00
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for impl_block in impls.lookup_impl_blocks(&self) {
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for item in impl_block.items(db) {
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if let Some(result) = callback(item) {
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2019-02-12 02:33:23 -06:00
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return Some(result);
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}
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}
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}
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None
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}
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2019-01-07 06:44:54 -06:00
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}
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2019-03-31 13:02:16 -05:00
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2019-04-09 15:04:59 -05:00
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/// This creates Substs for a trait with the given Self type and type variables
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2019-04-20 05:34:36 -05:00
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/// for all other parameters, to query Chalk with it.
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2019-05-01 10:57:56 -05:00
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fn canonical_trait_ref(
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db: &impl HirDatabase,
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trait_: Trait,
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self_ty: Canonical<Ty>,
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|
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|
) -> Canonical<TraitRef> {
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2019-03-31 13:02:16 -05:00
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let mut substs = Vec::new();
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2019-05-01 10:57:56 -05:00
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let generics = trait_.generic_params(db);
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let num_vars = self_ty.num_vars;
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substs.push(self_ty.value);
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2019-04-20 05:34:36 -05:00
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|
substs.extend(
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|
generics
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|
|
|
.params_including_parent()
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|
|
|
.into_iter()
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|
.skip(1)
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|
.enumerate()
|
2019-05-01 10:57:56 -05:00
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.map(|(i, _p)| Ty::Bound((i + num_vars) as u32)),
|
2019-04-20 05:34:36 -05:00
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|
);
|
2019-05-01 10:57:56 -05:00
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|
|
Canonical {
|
|
|
|
num_vars: substs.len() - 1 + self_ty.num_vars,
|
|
|
|
value: TraitRef { trait_, substs: substs.into() },
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|
|
|
}
|
2019-03-31 13:02:16 -05:00
|
|
|
}
|