rust/crates/ra_hir_ty/src/utils.rs

//! Helper functions for working with def, which don't need to be a separate
//! query, but can't be computed directly from `*Data` (ie, which need a `db`).
use std::sync::Arc;

use hir_def::{
    adt::VariantData,
    db::DefDatabase,
    generics::{GenericParams, TypeParamData},
    path::Path,
    resolver::{HasResolver, TypeNs},
    type_ref::TypeRef,
    AssocContainerId, GenericDefId, Lookup, TraitId, TypeAliasId, TypeParamId, VariantId,
};
use hir_expand::name::{name, Name};

fn direct_super_traits(db: &impl DefDatabase, trait_: TraitId) -> Vec<TraitId> {
    let resolver = trait_.resolver(db);
    // returning the iterator directly doesn't easily work because of
    // lifetime problems, but since there usually shouldn't be more than a
    // few direct traits this should be fine (we could even use some kind of
    // SmallVec if performance is a concern)
    db.generic_params(trait_.into())
        .where_predicates
        .iter()
        .filter_map(|pred| match &pred.type_ref {
            TypeRef::Path(p) if p == &Path::from(name![Self]) => pred.bound.as_path(),
            _ => None,
        })
        .filter_map(|path| match resolver.resolve_path_in_type_ns_fully(db, path.mod_path()) {
            Some(TypeNs::TraitId(t)) => Some(t),
            _ => None,
        })
        .collect()
}

/// Returns an iterator over the whole super trait hierarchy (including the
/// trait itself).
pub(super) fn all_super_traits(db: &impl DefDatabase, trait_: TraitId) -> Vec<TraitId> {
    // we need to take care a bit here to avoid infinite loops in case of cycles
    // (i.e. if we have `trait A: B; trait B: A;`)
    let mut result = vec![trait_];
    let mut i = 0;
    while i < result.len() {
        let t = result[i];
        // yeah this is quadratic, but trait hierarchies should be flat
        // enough that this doesn't matter
        for tt in direct_super_traits(db, t) {
            if !result.contains(&tt) {
                result.push(tt);
            }
        }
        i += 1;
    }
    result
}

pub(super) fn associated_type_by_name_including_super_traits(
    db: &impl DefDatabase,
    trait_: TraitId,
    name: &Name,
) -> Option<TypeAliasId> {
    all_super_traits(db, trait_)
        .into_iter()
        .find_map(|t| db.trait_data(t).associated_type_by_name(name))
}

pub(super) fn variant_data(db: &impl DefDatabase, var: VariantId) -> Arc<VariantData> {
    match var {
        VariantId::StructId(it) => db.struct_data(it).variant_data.clone(),
        VariantId::UnionId(it) => db.union_data(it).variant_data.clone(),
        VariantId::EnumVariantId(it) => {
            db.enum_data(it.parent).variants[it.local_id].variant_data.clone()
        }
    }
}

/// Helper for mutating `Arc<[T]>` (i.e. `Arc::make_mut` for Arc slices).
/// The underlying values are cloned if there are other strong references.
pub(crate) fn make_mut_slice<T: Clone>(a: &mut Arc<[T]>) -> &mut [T] {
    if Arc::get_mut(a).is_none() {
        *a = a.iter().cloned().collect();
    }
    Arc::get_mut(a).unwrap()
}

pub(crate) fn generics(db: &impl DefDatabase, def: GenericDefId) -> Generics {
    let parent_generics = parent_generic_def(db, def).map(|def| Box::new(generics(db, def)));
    Generics { def, params: db.generic_params(def), parent_generics }
}

pub(crate) struct Generics {
    def: GenericDefId,
    pub(crate) params: Arc<GenericParams>,
    parent_generics: Option<Box<Generics>>,
}

impl Generics {
    pub(crate) fn iter<'a>(&'a self) -> impl Iterator<Item = (u32, &'a TypeParamData)> + 'a {
        self.parent_generics
            .as_ref()
            .into_iter()
            .flat_map(|it| it.params.types.iter())
            .chain(self.params.types.iter())
            .enumerate()
            .map(|(i, (_local_id, p))| (i as u32, p))
    }

    pub(crate) fn iter_parent<'a>(&'a self) -> impl Iterator<Item = (u32, &'a TypeParamData)> + 'a {
        self.parent_generics
            .as_ref()
            .into_iter()
            .flat_map(|it| it.params.types.iter())
            .enumerate()
            .map(|(i, (_local_id, p))| (i as u32, p))
    }

    pub(crate) fn len(&self) -> usize {
        self.len_split().0
    }
    /// (total, parents, child)
    pub(crate) fn len_split(&self) -> (usize, usize, usize) {
        let parent = self.parent_generics.as_ref().map_or(0, |p| p.len());
        let child = self.params.types.len();
        (parent + child, parent, child)
    }
    pub(crate) fn param_idx(&self, param: TypeParamId) -> u32 {
        self.find_param(param).0
    }
    pub(crate) fn param_name(&self, param: TypeParamId) -> Name {
        self.find_param(param).1.name.clone()
    }
    fn find_param(&self, param: TypeParamId) -> (u32, &TypeParamData) {
        if param.parent == self.def {
            let (idx, (_local_id, data)) = self
                .params
                .types
                .iter()
                .enumerate()
                .find(|(_, (idx, _))| *idx == param.local_id)
                .unwrap();
            let (_total, parent_len, _child) = self.len_split();
            return ((parent_len + idx) as u32, data);
        }
        self.parent_generics.as_ref().unwrap().find_param(param)
    }
}

fn parent_generic_def(db: &impl DefDatabase, def: GenericDefId) -> Option<GenericDefId> {
    let container = match def {
        GenericDefId::FunctionId(it) => it.lookup(db).container,
        GenericDefId::TypeAliasId(it) => it.lookup(db).container,
        GenericDefId::ConstId(it) => it.lookup(db).container,
        GenericDefId::EnumVariantId(it) => return Some(it.parent.into()),
        GenericDefId::AdtId(_) | GenericDefId::TraitId(_) | GenericDefId::ImplId(_) => return None,
    };

    match container {
        AssocContainerId::ImplId(it) => Some(it.into()),
        AssocContainerId::TraitId(it) => Some(it.into()),
        AssocContainerId::ModuleId(_) | AssocContainerId::DefWithBodyId(_) => None,
    }
}
Doc 2019-11-26 08:26:08 -06:00			`//! Helper functions for working with def, which don't need to be a separate`
			//! query, but can't be computed directly from `*Data` (ie, which need a `db`).
Use Id for variats 2019-11-27 07:25:01 -06:00			`use std::sync::Arc;`
Doc 2019-11-26 08:26:08 -06:00
Detangle ty from traits a bit 2019-11-26 07:59:24 -06:00			`use hir_def::{`
Use Id for variats 2019-11-27 07:25:01 -06:00			`adt::VariantData,`
Detangle ty from traits a bit 2019-11-26 07:59:24 -06:00			`db::DefDatabase,`
Rename GenericParam -> TypeParam We don't have LifetimeParam yet, but they are planned! 2019-12-07 13:09:53 -06:00			`generics::{GenericParams, TypeParamData},`
Use different types for path with and without generics 2019-12-13 05:12:36 -06:00			`path::Path,`
Detangle ty from traits a bit 2019-11-26 07:59:24 -06:00			`resolver::{HasResolver, TypeNs},`
			`type_ref::TypeRef,`
Rename ContainerId -> AssocContainerId 2019-12-20 04:59:50 -06:00			`AssocContainerId, GenericDefId, Lookup, TraitId, TypeAliasId, TypeParamId, VariantId,`
Detangle ty from traits a bit 2019-11-26 07:59:24 -06:00			`};`
Rename N! to name! 2019-12-13 15:01:06 -06:00			`use hir_expand::name::{name, Name};`
Detangle ty from traits a bit 2019-11-26 07:59:24 -06:00
			`fn direct_super_traits(db: &impl DefDatabase, trait_: TraitId) -> Vec<TraitId> {`
			`let resolver = trait_.resolver(db);`
			`// returning the iterator directly doesn't easily work because of`
			`// lifetime problems, but since there usually shouldn't be more than a`
			`// few direct traits this should be fine (we could even use some kind of`
			`// SmallVec if performance is a concern)`
			`db.generic_params(trait_.into())`
			`.where_predicates`
			`.iter()`
			`.filter_map(\|pred\| match &pred.type_ref {`
Use different types for path with and without generics 2019-12-13 05:12:36 -06:00			`TypeRef::Path(p) if p == &Path::from(name![Self]) => pred.bound.as_path(),`
Detangle ty from traits a bit 2019-11-26 07:59:24 -06:00			`_ => None,`
			`})`
Use different types for path with and without generics 2019-12-13 05:12:36 -06:00			`.filter_map(\|path\| match resolver.resolve_path_in_type_ns_fully(db, path.mod_path()) {`
Detangle ty from traits a bit 2019-11-26 07:59:24 -06:00			`Some(TypeNs::TraitId(t)) => Some(t),`
			`_ => None,`
			`})`
			`.collect()`
			`}`

			`/// Returns an iterator over the whole super trait hierarchy (including the`
			`/// trait itself).`
Reduce visibility 2019-11-26 09:02:50 -06:00			`pub(super) fn all_super_traits(db: &impl DefDatabase, trait_: TraitId) -> Vec<TraitId> {`
Detangle ty from traits a bit 2019-11-26 07:59:24 -06:00			`// we need to take care a bit here to avoid infinite loops in case of cycles`
			// (i.e. if we have `trait A: B; trait B: A;`)
			`let mut result = vec![trait_];`
			`let mut i = 0;`
			`while i < result.len() {`
			`let t = result[i];`
			`// yeah this is quadratic, but trait hierarchies should be flat`
			`// enough that this doesn't matter`
			`for tt in direct_super_traits(db, t) {`
			`if !result.contains(&tt) {`
			`result.push(tt);`
			`}`
			`}`
			`i += 1;`
			`}`
			`result`
			`}`
Remove another helper 2019-11-26 08:42:21 -06:00
Reduce visibility 2019-11-26 09:02:50 -06:00			`pub(super) fn associated_type_by_name_including_super_traits(`
Remove another helper 2019-11-26 08:42:21 -06:00			`db: &impl DefDatabase,`
			`trait_: TraitId,`
			`name: &Name,`
			`) -> Option<TypeAliasId> {`
			`all_super_traits(db, trait_)`
			`.into_iter()`
			`.find_map(\|t\| db.trait_data(t).associated_type_by_name(name))`
			`}`
Use Id for variats 2019-11-27 07:25:01 -06:00
			`pub(super) fn variant_data(db: &impl DefDatabase, var: VariantId) -> Arc<VariantData> {`
			`match var {`
			`VariantId::StructId(it) => db.struct_data(it).variant_data.clone(),`
			`VariantId::UnionId(it) => db.union_data(it).variant_data.clone(),`
			`VariantId::EnumVariantId(it) => {`
			`db.enum_data(it.parent).variants[it.local_id].variant_data.clone()`
			`}`
			`}`
			`}`
Move Ty 2019-11-27 08:46:02 -06:00
			/// Helper for mutating `Arc<[T]>` (i.e. `Arc::make_mut` for Arc slices).
			`/// The underlying values are cloned if there are other strong references.`
			`pub(crate) fn make_mut_slice<T: Clone>(a: &mut Arc<[T]>) -> &mut [T] {`
			`if Arc::get_mut(a).is_none() {`
			`*a = a.iter().cloned().collect();`
			`}`
			`Arc::get_mut(a).unwrap()`
			`}`
Remove idx and parent generics from generics This makes `hir_def::GenericParams` flatter. The logic for re-numbering the params is moved to hir instead. 2019-12-07 04:50:36 -06:00
			`pub(crate) fn generics(db: &impl DefDatabase, def: GenericDefId) -> Generics {`
			`let parent_generics = parent_generic_def(db, def).map(\|def\| Box::new(generics(db, def)));`
			`Generics { def, params: db.generic_params(def), parent_generics }`
			`}`

			`pub(crate) struct Generics {`
			`def: GenericDefId,`
			`pub(crate) params: Arc<GenericParams>,`
			`parent_generics: Option<Box<Generics>>,`
			`}`

			`impl Generics {`
Rename GenericParam -> TypeParam We don't have LifetimeParam yet, but they are planned! 2019-12-07 13:09:53 -06:00			`pub(crate) fn iter<'a>(&'a self) -> impl Iterator<Item = (u32, &'a TypeParamData)> + 'a {`
Remove idx and parent generics from generics This makes `hir_def::GenericParams` flatter. The logic for re-numbering the params is moved to hir instead. 2019-12-07 04:50:36 -06:00			`self.parent_generics`
			`.as_ref()`
			`.into_iter()`
Rename GenericParam -> TypeParam We don't have LifetimeParam yet, but they are planned! 2019-12-07 13:09:53 -06:00			`.flat_map(\|it\| it.params.types.iter())`
			`.chain(self.params.types.iter())`
Remove idx and parent generics from generics This makes `hir_def::GenericParams` flatter. The logic for re-numbering the params is moved to hir instead. 2019-12-07 04:50:36 -06:00			`.enumerate()`
			`.map(\|(i, (_local_id, p))\| (i as u32, p))`
			`}`

Rename GenericParam -> TypeParam We don't have LifetimeParam yet, but they are planned! 2019-12-07 13:09:53 -06:00			`pub(crate) fn iter_parent<'a>(&'a self) -> impl Iterator<Item = (u32, &'a TypeParamData)> + 'a {`
Remove idx and parent generics from generics This makes `hir_def::GenericParams` flatter. The logic for re-numbering the params is moved to hir instead. 2019-12-07 04:50:36 -06:00			`self.parent_generics`
			`.as_ref()`
			`.into_iter()`
Rename GenericParam -> TypeParam We don't have LifetimeParam yet, but they are planned! 2019-12-07 13:09:53 -06:00			`.flat_map(\|it\| it.params.types.iter())`
Remove idx and parent generics from generics This makes `hir_def::GenericParams` flatter. The logic for re-numbering the params is moved to hir instead. 2019-12-07 04:50:36 -06:00			`.enumerate()`
			`.map(\|(i, (_local_id, p))\| (i as u32, p))`
			`}`

Refactor parameter count tracking 2019-12-07 06:05:05 -06:00			`pub(crate) fn len(&self) -> usize {`
			`self.len_split().0`
Remove idx and parent generics from generics This makes `hir_def::GenericParams` flatter. The logic for re-numbering the params is moved to hir instead. 2019-12-07 04:50:36 -06:00			`}`
Refactor parameter count tracking 2019-12-07 06:05:05 -06:00			`/// (total, parents, child)`
			`pub(crate) fn len_split(&self) -> (usize, usize, usize) {`
			`let parent = self.parent_generics.as_ref().map_or(0, \|p\| p.len());`
Rename GenericParam -> TypeParam We don't have LifetimeParam yet, but they are planned! 2019-12-07 13:09:53 -06:00			`let child = self.params.types.len();`
Refactor parameter count tracking 2019-12-07 06:05:05 -06:00			`(parent + child, parent, child)`
Remove idx and parent generics from generics This makes `hir_def::GenericParams` flatter. The logic for re-numbering the params is moved to hir instead. 2019-12-07 04:50:36 -06:00			`}`
Rename GenericParam -> TypeParam We don't have LifetimeParam yet, but they are planned! 2019-12-07 13:09:53 -06:00			`pub(crate) fn param_idx(&self, param: TypeParamId) -> u32 {`
Remove idx and parent generics from generics This makes `hir_def::GenericParams` flatter. The logic for re-numbering the params is moved to hir instead. 2019-12-07 04:50:36 -06:00			`self.find_param(param).0`
			`}`
Rename GenericParam -> TypeParam We don't have LifetimeParam yet, but they are planned! 2019-12-07 13:09:53 -06:00			`pub(crate) fn param_name(&self, param: TypeParamId) -> Name {`
Remove idx and parent generics from generics This makes `hir_def::GenericParams` flatter. The logic for re-numbering the params is moved to hir instead. 2019-12-07 04:50:36 -06:00			`self.find_param(param).1.name.clone()`
			`}`
Rename GenericParam -> TypeParam We don't have LifetimeParam yet, but they are planned! 2019-12-07 13:09:53 -06:00			`fn find_param(&self, param: TypeParamId) -> (u32, &TypeParamData) {`
Remove idx and parent generics from generics This makes `hir_def::GenericParams` flatter. The logic for re-numbering the params is moved to hir instead. 2019-12-07 04:50:36 -06:00			`if param.parent == self.def {`
			`let (idx, (_local_id, data)) = self`
			`.params`
Rename GenericParam -> TypeParam We don't have LifetimeParam yet, but they are planned! 2019-12-07 13:09:53 -06:00			`.types`
Remove idx and parent generics from generics This makes `hir_def::GenericParams` flatter. The logic for re-numbering the params is moved to hir instead. 2019-12-07 04:50:36 -06:00			`.iter()`
			`.enumerate()`
			`.find(\|(_, (idx, _))\| *idx == param.local_id)`
			`.unwrap();`
Refactor parameter count tracking 2019-12-07 06:05:05 -06:00			`let (_total, parent_len, _child) = self.len_split();`
			`return ((parent_len + idx) as u32, data);`
Remove idx and parent generics from generics This makes `hir_def::GenericParams` flatter. The logic for re-numbering the params is moved to hir instead. 2019-12-07 04:50:36 -06:00			`}`
			`self.parent_generics.as_ref().unwrap().find_param(param)`
			`}`
			`}`

			`fn parent_generic_def(db: &impl DefDatabase, def: GenericDefId) -> Option<GenericDefId> {`
			`let container = match def {`
			`GenericDefId::FunctionId(it) => it.lookup(db).container,`
			`GenericDefId::TypeAliasId(it) => it.lookup(db).container,`
			`GenericDefId::ConstId(it) => it.lookup(db).container,`
			`GenericDefId::EnumVariantId(it) => return Some(it.parent.into()),`
			`GenericDefId::AdtId(_) \| GenericDefId::TraitId(_) \| GenericDefId::ImplId(_) => return None,`
			`};`

			`match container {`
Rename ContainerId -> AssocContainerId 2019-12-20 04:59:50 -06:00			`AssocContainerId::ImplId(it) => Some(it.into()),`
			`AssocContainerId::TraitId(it) => Some(it.into()),`
			`AssocContainerId::ModuleId(_) \| AssocContainerId::DefWithBodyId(_) => None,`
Remove idx and parent generics from generics This makes `hir_def::GenericParams` flatter. The logic for re-numbering the params is moved to hir instead. 2019-12-07 04:50:36 -06:00			`}`
			`}`