rust/crates/ra_hir/src/resolve.rs

//! Name resolution.
use std::sync::Arc;

use rustc_hash::FxHashMap;

use crate::{
    ModuleDef,
    db::HirDatabase,
    name::{Name, KnownName},
    nameres::{PerNs, CrateDefMap, CrateModuleId},
    generics::GenericParams,
    expr::{scope::{ExprScopes, ScopeId}, PatId, Body},
    impl_block::ImplBlock,
    path::Path, Trait
};

#[derive(Debug, Clone, Default)]
pub struct Resolver {
    scopes: Vec<Scope>,
}

// FIXME how to store these best
#[derive(Debug, Clone)]
pub(crate) struct ModuleItemMap {
    crate_def_map: Arc<CrateDefMap>,
    module_id: CrateModuleId,
}

#[derive(Debug, Clone)]
pub(crate) struct ExprScope {
    expr_scopes: Arc<ExprScopes>,
    scope_id: ScopeId,
}

#[derive(Debug, Clone)]
pub(crate) struct PathResult {
    /// The actual path resolution
    resolution: PerNs<Resolution>,
    /// The first index in the path that we
    /// were unable to resolve.
    /// When path is fully resolved, this is 0.
    remaining_index: usize,
}

impl PathResult {
    /// Returns the remaining index in the result
    /// returns None if the path was fully resolved
    pub(crate) fn remaining_index(&self) -> Option<usize> {
        if self.remaining_index > 0 {
            Some(self.remaining_index)
        } else {
            None
        }
    }

    /// Consumes `PathResult` and returns the contained `PerNs<Resolution>`
    /// if the path was fully resolved, meaning we have no remaining items
    pub(crate) fn into_fully_resolved(self) -> PerNs<Resolution> {
        if self.is_fully_resolved() {
            self.resolution
        } else {
            PerNs::none()
        }
    }

    /// Consumes `PathResult` and returns the resolution and the
    /// remaining_index as a tuple.
    pub(crate) fn into_inner(self) -> (PerNs<Resolution>, Option<usize>) {
        let index = self.remaining_index();
        (self.resolution, index)
    }

    /// Path is fully resolved when `remaining_index` is none
    /// and the resolution contains anything
    pub(crate) fn is_fully_resolved(&self) -> bool {
        !self.resolution.is_none() && self.remaining_index().is_none()
    }

    fn empty() -> PathResult {
        PathResult { resolution: PerNs::none(), remaining_index: 0 }
    }

    fn from_resolution(res: PerNs<Resolution>) -> PathResult {
        PathResult::from_resolution_with_index(res, 0)
    }

    fn from_resolution_with_index(res: PerNs<Resolution>, remaining_index: usize) -> PathResult {
        if res.is_none() {
            PathResult::empty()
        } else {
            PathResult { resolution: res, remaining_index }
        }
    }
}

#[derive(Debug, Clone)]
pub(crate) enum Scope {
    /// All the items and imported names of a module
    ModuleScope(ModuleItemMap),
    /// Brings the generic parameters of an item into scope
    GenericParams(Arc<GenericParams>),
    /// Brings `Self` into scope
    ImplBlockScope(ImplBlock),
    /// Local bindings
    ExprScope(ExprScope),
}

#[derive(Debug, Clone, PartialEq, Eq)]
pub enum Resolution {
    /// An item
    Def(ModuleDef),
    /// A local binding (only value namespace)
    LocalBinding(PatId),
    /// A generic parameter
    GenericParam(u32),
    SelfType(ImplBlock),
}

impl Resolver {
    pub fn resolve_name(&self, db: &impl HirDatabase, name: &Name) -> PerNs<Resolution> {
        let mut resolution = PerNs::none();
        for scope in self.scopes.iter().rev() {
            resolution = resolution.or(scope.resolve_name(db, name));
            if resolution.is_both() {
                return resolution;
            }
        }
        resolution
    }

    /// Returns the resolved path segments
    /// Which may be fully resolved, empty or partially resolved.
    pub(crate) fn resolve_path_segments(&self, db: &impl HirDatabase, path: &Path) -> PathResult {
        if let Some(name) = path.as_ident() {
            PathResult::from_resolution(self.resolve_name(db, name))
        } else if path.is_self() {
            PathResult::from_resolution(self.resolve_name(db, &Name::self_param()))
        } else {
            let (item_map, module) = match self.module() {
                Some(m) => m,
                _ => return PathResult::empty(),
            };
            let (module_res, segment_index) = item_map.resolve_path(db, module, path);

            let def = module_res.map(Resolution::Def);

            if let Some(index) = segment_index {
                PathResult::from_resolution_with_index(def, index)
            } else {
                PathResult::from_resolution(def)
            }
        }
    }

    /// Returns the fully resolved path if we were able to resolve it.
    /// otherwise returns `PerNs::none`
    pub fn resolve_path(&self, db: &impl HirDatabase, path: &Path) -> PerNs<Resolution> {
        // into_fully_resolved() returns the fully resolved path or PerNs::none() otherwise
        self.resolve_path_segments(db, path).into_fully_resolved()
    }

    pub fn all_names(&self, db: &impl HirDatabase) -> FxHashMap<Name, PerNs<Resolution>> {
        let mut names = FxHashMap::default();
        for scope in self.scopes.iter().rev() {
            scope.collect_names(db, &mut |name, res| {
                let current: &mut PerNs<Resolution> = names.entry(name).or_default();
                if current.types.is_none() {
                    current.types = res.types;
                }
                if current.values.is_none() {
                    current.values = res.values;
                }
            });
        }
        names
    }

    pub(crate) fn traits_in_scope<'a>(&'a self) -> impl Iterator<Item = Trait> + 'a {
        // FIXME prelude
        self.scopes
            .iter()
            .rev()
            .flat_map(|scope| {
                match scope {
                    Scope::ModuleScope(m) => Some(m.crate_def_map[m.module_id].scope.traits()),
                    _ => None,
                }
                .into_iter()
            })
            .flatten()
    }

    fn module(&self) -> Option<(&CrateDefMap, CrateModuleId)> {
        self.scopes.iter().rev().find_map(|scope| match scope {
            Scope::ModuleScope(m) => Some((&*m.crate_def_map, m.module_id)),

            _ => None,
        })
    }

    /// The body from which any `LocalBinding` resolutions in this resolver come.
    pub fn body(&self) -> Option<Arc<Body>> {
        self.scopes.iter().rev().find_map(|scope| match scope {
            Scope::ExprScope(expr_scope) => Some(expr_scope.expr_scopes.body()),
            _ => None,
        })
    }
}

impl Resolver {
    pub(crate) fn push_scope(mut self, scope: Scope) -> Resolver {
        self.scopes.push(scope);
        self
    }

    pub(crate) fn push_generic_params_scope(self, params: Arc<GenericParams>) -> Resolver {
        self.push_scope(Scope::GenericParams(params))
    }

    pub(crate) fn push_impl_block_scope(self, impl_block: ImplBlock) -> Resolver {
        self.push_scope(Scope::ImplBlockScope(impl_block))
    }

    pub(crate) fn push_module_scope(
        self,
        crate_def_map: Arc<CrateDefMap>,
        module_id: CrateModuleId,
    ) -> Resolver {
        self.push_scope(Scope::ModuleScope(ModuleItemMap { crate_def_map, module_id }))
    }

    pub(crate) fn push_expr_scope(
        self,
        expr_scopes: Arc<ExprScopes>,
        scope_id: ScopeId,
    ) -> Resolver {
        self.push_scope(Scope::ExprScope(ExprScope { expr_scopes, scope_id }))
    }
}

impl Scope {
    fn resolve_name(&self, db: &impl HirDatabase, name: &Name) -> PerNs<Resolution> {
        match self {
            Scope::ModuleScope(m) => {
                if let Some(KnownName::SelfParam) = name.as_known_name() {
                    PerNs::types(Resolution::Def(m.crate_def_map.mk_module(m.module_id).into()))
                } else {
                    m.crate_def_map
                        .resolve_name_in_module(db, m.module_id, name)
                        .map(Resolution::Def)
                }
            }
            Scope::GenericParams(gp) => match gp.find_by_name(name) {
                Some(gp) => PerNs::types(Resolution::GenericParam(gp.idx)),
                None => PerNs::none(),
            },
            Scope::ImplBlockScope(i) => {
                if name.as_known_name() == Some(KnownName::SelfType) {
                    PerNs::types(Resolution::SelfType(i.clone()))
                } else {
                    PerNs::none()
                }
            }
            Scope::ExprScope(e) => {
                let entry =
                    e.expr_scopes.entries(e.scope_id).iter().find(|entry| entry.name() == name);
                match entry {
                    Some(e) => PerNs::values(Resolution::LocalBinding(e.pat())),
                    None => PerNs::none(),
                }
            }
        }
    }

    fn collect_names(&self, db: &impl HirDatabase, f: &mut dyn FnMut(Name, PerNs<Resolution>)) {
        match self {
            Scope::ModuleScope(m) => {
                // FIXME: should we provide `self` here?
                // f(
                //     Name::self_param(),
                //     PerNs::types(Resolution::Def {
                //         def: m.module.into(),
                //     }),
                // );
                m.crate_def_map[m.module_id].scope.entries().for_each(|(name, res)| {
                    f(name.clone(), res.def.map(Resolution::Def));
                });
                m.crate_def_map.extern_prelude().iter().for_each(|(name, def)| {
                    f(name.clone(), PerNs::types(Resolution::Def(*def)));
                });
                if let Some(prelude) = m.crate_def_map.prelude() {
                    let prelude_def_map = db.crate_def_map(prelude.krate);
                    prelude_def_map[prelude.module_id].scope.entries().for_each(|(name, res)| {
                        f(name.clone(), res.def.map(Resolution::Def));
                    });
                }
            }
            Scope::GenericParams(gp) => {
                for param in &gp.params {
                    f(param.name.clone(), PerNs::types(Resolution::GenericParam(param.idx)))
                }
            }
            Scope::ImplBlockScope(i) => {
                f(Name::self_type(), PerNs::types(Resolution::SelfType(i.clone())));
            }
            Scope::ExprScope(e) => {
                e.expr_scopes.entries(e.scope_id).iter().for_each(|e| {
                    f(e.name().clone(), PerNs::values(Resolution::LocalBinding(e.pat())));
                });
            }
        }
    }
}
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`//! Name resolution.`
			`use std::sync::Arc;`

			`use rustc_hash::FxHashMap;`

			`use crate::{`
remove ItemMap 2019-03-14 04:54:03 -05:00			`ModuleDef,`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`db::HirDatabase,`
			`name::{Name, KnownName},`
rename ModuleId -> CrateModuleId 2019-03-16 10:57:53 -05:00			`nameres::{PerNs, CrateDefMap, CrateModuleId},`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`generics::GenericParams,`
Use the new Resolver API for goto def 2019-01-29 13:49:31 -06:00			`expr::{scope::{ExprScopes, ScopeId}, PatId, Body},`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`impl_block::ImplBlock,`
Basics for trait method resolution 2019-03-24 11:36:15 -05:00			`path::Path, Trait`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`};`

Implement methods to build a resolver 2019-01-23 16:08:41 -06:00			`#[derive(Debug, Clone, Default)]`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`pub struct Resolver {`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`scopes: Vec<Scope>,`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`}`

replace todo with fixme 2019-03-23 02:53:48 -05:00			`// FIXME how to store these best`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`#[derive(Debug, Clone)]`
			`pub(crate) struct ModuleItemMap {`
remove ItemMap 2019-03-14 04:54:03 -05:00			`crate_def_map: Arc<CrateDefMap>,`
rename ModuleId -> CrateModuleId 2019-03-16 10:57:53 -05:00			`module_id: CrateModuleId,`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`}`

			`#[derive(Debug, Clone)]`
			`pub(crate) struct ExprScope {`
			`expr_scopes: Arc<ExprScopes>,`
			`scope_id: ScopeId,`
			`}`

Implement basic support for Associated Methods and Constants This is done in `infer_path_expr`. When `Resolver::resolve_path` returns `PartiallyResolved`, we use the returned `Resolution` together with the given `segment_index` to check if we can find something matching the segment at segment_index in the impls for that particular type. 2019-02-21 04:04:14 -06:00			`#[derive(Debug, Clone)]`
Change resolve_path to return the fully resolved path or PerNs::none This also adds new pub(crate) resolve_path_segments which returns the PathResult, which may or may not be fully resolved. PathResult is also now pub(crate) since it is an implementation detail. 2019-02-22 02:15:23 -06:00			`pub(crate) struct PathResult {`
Remove Const inference for now, refactor PathResult 2019-02-21 15:57:07 -06:00			`/// The actual path resolution`
			`resolution: PerNs<Resolution>,`
			`/// The first index in the path that we`
			`/// were unable to resolve.`
			`/// When path is fully resolved, this is 0.`
			`remaining_index: usize,`
Implement basic support for Associated Methods and Constants This is done in `infer_path_expr`. When `Resolver::resolve_path` returns `PartiallyResolved`, we use the returned `Resolution` together with the given `segment_index` to check if we can find something matching the segment at segment_index in the impls for that particular type. 2019-02-21 04:04:14 -06:00			`}`

			`impl PathResult {`
Remove Const inference for now, refactor PathResult 2019-02-21 15:57:07 -06:00			`/// Returns the remaining index in the result`
			`/// returns None if the path was fully resolved`
Change resolve_path to return the fully resolved path or PerNs::none This also adds new pub(crate) resolve_path_segments which returns the PathResult, which may or may not be fully resolved. PathResult is also now pub(crate) since it is an implementation detail. 2019-02-22 02:15:23 -06:00			`pub(crate) fn remaining_index(&self) -> Option<usize> {`
Remove Const inference for now, refactor PathResult 2019-02-21 15:57:07 -06:00			`if self.remaining_index > 0 {`
			`Some(self.remaining_index)`
			`} else {`
			`None`
Implement basic support for Associated Methods and Constants This is done in `infer_path_expr`. When `Resolver::resolve_path` returns `PartiallyResolved`, we use the returned `Resolution` together with the given `segment_index` to check if we can find something matching the segment at segment_index in the impls for that particular type. 2019-02-21 04:04:14 -06:00			`}`
			`}`

			/// Consumes `PathResult` and returns the contained `PerNs<Resolution>`
Remove Const inference for now, refactor PathResult 2019-02-21 15:57:07 -06:00			`/// if the path was fully resolved, meaning we have no remaining items`
Change resolve_path to return the fully resolved path or PerNs::none This also adds new pub(crate) resolve_path_segments which returns the PathResult, which may or may not be fully resolved. PathResult is also now pub(crate) since it is an implementation detail. 2019-02-22 02:15:23 -06:00			`pub(crate) fn into_fully_resolved(self) -> PerNs<Resolution> {`
			`if self.is_fully_resolved() {`
Remove Const inference for now, refactor PathResult 2019-02-21 15:57:07 -06:00			`self.resolution`
			`} else {`
			`PerNs::none()`
			`}`
			`}`

			/// Consumes `PathResult` and returns the resolution and the
			`/// remaining_index as a tuple.`
Change resolve_path to return the fully resolved path or PerNs::none This also adds new pub(crate) resolve_path_segments which returns the PathResult, which may or may not be fully resolved. PathResult is also now pub(crate) since it is an implementation detail. 2019-02-22 02:15:23 -06:00			`pub(crate) fn into_inner(self) -> (PerNs<Resolution>, Option<usize>) {`
Remove Const inference for now, refactor PathResult 2019-02-21 15:57:07 -06:00			`let index = self.remaining_index();`
			`(self.resolution, index)`
			`}`

			/// Path is fully resolved when `remaining_index` is none
			`/// and the resolution contains anything`
Change resolve_path to return the fully resolved path or PerNs::none This also adds new pub(crate) resolve_path_segments which returns the PathResult, which may or may not be fully resolved. PathResult is also now pub(crate) since it is an implementation detail. 2019-02-22 02:15:23 -06:00			`pub(crate) fn is_fully_resolved(&self) -> bool {`
Remove Const inference for now, refactor PathResult 2019-02-21 15:57:07 -06:00			`!self.resolution.is_none() && self.remaining_index().is_none()`
			`}`

			`fn empty() -> PathResult {`
			`PathResult { resolution: PerNs::none(), remaining_index: 0 }`
			`}`

			`fn from_resolution(res: PerNs<Resolution>) -> PathResult {`
			`PathResult::from_resolution_with_index(res, 0)`
			`}`

			`fn from_resolution_with_index(res: PerNs<Resolution>, remaining_index: usize) -> PathResult {`
			`if res.is_none() {`
			`PathResult::empty()`
			`} else {`
			`PathResult { resolution: res, remaining_index }`
Implement basic support for Associated Methods and Constants This is done in `infer_path_expr`. When `Resolver::resolve_path` returns `PartiallyResolved`, we use the returned `Resolution` together with the given `segment_index` to check if we can find something matching the segment at segment_index in the impls for that particular type. 2019-02-21 04:04:14 -06:00			`}`
			`}`
			`}`

Sketching the resolver API 2019-01-19 14:23:26 -06:00			`#[derive(Debug, Clone)]`
			`pub(crate) enum Scope {`
			`/// All the items and imported names of a module`
			`ModuleScope(ModuleItemMap),`
			`/// Brings the generic parameters of an item into scope`
			`GenericParams(Arc<GenericParams>),`
			/// Brings `Self` into scope
			`ImplBlockScope(ImplBlock),`
			`/// Local bindings`
			`ExprScope(ExprScope),`
			`}`

			`#[derive(Debug, Clone, PartialEq, Eq)]`
			`pub enum Resolution {`
			`/// An item`
Make the Resolution variants tuple variants 2019-01-30 15:41:44 -06:00			`Def(ModuleDef),`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`/// A local binding (only value namespace)`
Make the Resolution variants tuple variants 2019-01-30 15:41:44 -06:00			`LocalBinding(PatId),`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`/// A generic parameter`
Make the Resolution variants tuple variants 2019-01-30 15:41:44 -06:00			`GenericParam(u32),`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`SelfType(ImplBlock),`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`}`

			`impl Resolver {`
Import the prelude 2019-02-10 13:44:34 -06:00			`pub fn resolve_name(&self, db: &impl HirDatabase, name: &Name) -> PerNs<Resolution> {`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`let mut resolution = PerNs::none();`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`for scope in self.scopes.iter().rev() {`
Import the prelude 2019-02-10 13:44:34 -06:00			`resolution = resolution.or(scope.resolve_name(db, name));`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`if resolution.is_both() {`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`return resolution;`
			`}`
			`}`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`resolution`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`}`

Change resolve_path to return the fully resolved path or PerNs::none This also adds new pub(crate) resolve_path_segments which returns the PathResult, which may or may not be fully resolved. PathResult is also now pub(crate) since it is an implementation detail. 2019-02-22 02:15:23 -06:00			`/// Returns the resolved path segments`
			`/// Which may be fully resolved, empty or partially resolved.`
			`pub(crate) fn resolve_path_segments(&self, db: &impl HirDatabase, path: &Path) -> PathResult {`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`if let Some(name) = path.as_ident() {`
Remove Const inference for now, refactor PathResult 2019-02-21 15:57:07 -06:00			`PathResult::from_resolution(self.resolve_name(db, name))`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`} else if path.is_self() {`
Remove Const inference for now, refactor PathResult 2019-02-21 15:57:07 -06:00			`PathResult::from_resolution(self.resolve_name(db, &Name::self_param()))`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`} else {`
			`let (item_map, module) = match self.module() {`
			`Some(m) => m,`
Remove Const inference for now, refactor PathResult 2019-02-21 15:57:07 -06:00			`_ => return PathResult::empty(),`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`};`
Implement basic support for Associated Methods and Constants This is done in `infer_path_expr`. When `Resolver::resolve_path` returns `PartiallyResolved`, we use the returned `Resolution` together with the given `segment_index` to check if we can find something matching the segment at segment_index in the impls for that particular type. 2019-02-21 04:04:14 -06:00			`let (module_res, segment_index) = item_map.resolve_path(db, module, path);`

			`let def = module_res.map(Resolution::Def);`

			`if let Some(index) = segment_index {`
Remove Const inference for now, refactor PathResult 2019-02-21 15:57:07 -06:00			`PathResult::from_resolution_with_index(def, index)`
Implement basic support for Associated Methods and Constants This is done in `infer_path_expr`. When `Resolver::resolve_path` returns `PartiallyResolved`, we use the returned `Resolution` together with the given `segment_index` to check if we can find something matching the segment at segment_index in the impls for that particular type. 2019-02-21 04:04:14 -06:00			`} else {`
Remove Const inference for now, refactor PathResult 2019-02-21 15:57:07 -06:00			`PathResult::from_resolution(def)`
Implement basic support for Associated Methods and Constants This is done in `infer_path_expr`. When `Resolver::resolve_path` returns `PartiallyResolved`, we use the returned `Resolution` together with the given `segment_index` to check if we can find something matching the segment at segment_index in the impls for that particular type. 2019-02-21 04:04:14 -06:00			`}`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`}`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`}`

Change resolve_path to return the fully resolved path or PerNs::none This also adds new pub(crate) resolve_path_segments which returns the PathResult, which may or may not be fully resolved. PathResult is also now pub(crate) since it is an implementation detail. 2019-02-22 02:15:23 -06:00			`/// Returns the fully resolved path if we were able to resolve it.`
			/// otherwise returns `PerNs::none`
			`pub fn resolve_path(&self, db: &impl HirDatabase, path: &Path) -> PerNs<Resolution> {`
			`// into_fully_resolved() returns the fully resolved path or PerNs::none() otherwise`
			`self.resolve_path_segments(db, path).into_fully_resolved()`
			`}`

Complete names from prelude 2019-02-13 13:53:42 -06:00			`pub fn all_names(&self, db: &impl HirDatabase) -> FxHashMap<Name, PerNs<Resolution>> {`
Use the new Resolver API in completion 2019-01-27 13:50:57 -06:00			`let mut names = FxHashMap::default();`
Some cleanup and additional tests 2019-02-01 16:06:57 -06:00			`for scope in self.scopes.iter().rev() {`
Complete names from prelude 2019-02-13 13:53:42 -06:00			`scope.collect_names(db, &mut \|name, res\| {`
Use the new Resolver API in completion 2019-01-27 13:50:57 -06:00			`let current: &mut PerNs<Resolution> = names.entry(name).or_default();`
			`if current.types.is_none() {`
			`current.types = res.types;`
			`}`
			`if current.values.is_none() {`
			`current.values = res.values;`
			`}`
			`});`
			`}`
			`names`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`}`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00
Basics for trait method resolution 2019-03-24 11:36:15 -05:00			`pub(crate) fn traits_in_scope<'a>(&'a self) -> impl Iterator<Item = Trait> + 'a {`
			`// FIXME prelude`
			`self.scopes`
			`.iter()`
			`.rev()`
			`.flat_map(\|scope\| {`
			`match scope {`
			`Scope::ModuleScope(m) => Some(m.crate_def_map[m.module_id].scope.traits()),`
			`_ => None,`
			`}`
			`.into_iter()`
			`})`
Clean up comments / use nicer Iterator methods 2019-03-25 15:24:20 -05:00			`.flatten()`
Basics for trait method resolution 2019-03-24 11:36:15 -05:00			`}`

rename ModuleId -> CrateModuleId 2019-03-16 10:57:53 -05:00			`fn module(&self) -> Option<(&CrateDefMap, CrateModuleId)> {`
Use the new Resolver API for goto def 2019-01-29 13:49:31 -06:00			`self.scopes.iter().rev().find_map(\|scope\| match scope {`
remove ItemMap 2019-03-14 04:54:03 -05:00			`Scope::ModuleScope(m) => Some((&*m.crate_def_map, m.module_id)),`
Use the new Resolver API for goto def 2019-01-29 13:49:31 -06:00
			`_ => None,`
			`})`
			`}`

			/// The body from which any `LocalBinding` resolutions in this resolver come.
			`pub fn body(&self) -> Option<Arc<Body>> {`
			`self.scopes.iter().rev().find_map(\|scope\| match scope {`
			`Scope::ExprScope(expr_scope) => Some(expr_scope.expr_scopes.body()),`
			`_ => None,`
			`})`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`}`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`}`

			`impl Resolver {`
			`pub(crate) fn push_scope(mut self, scope: Scope) -> Resolver {`
			`self.scopes.push(scope);`
			`self`
			`}`

Implement methods to build a resolver 2019-01-23 16:08:41 -06:00			`pub(crate) fn push_generic_params_scope(self, params: Arc<GenericParams>) -> Resolver {`
			`self.push_scope(Scope::GenericParams(params))`
			`}`

			`pub(crate) fn push_impl_block_scope(self, impl_block: ImplBlock) -> Resolver {`
			`self.push_scope(Scope::ImplBlockScope(impl_block))`
			`}`

remove ItemMap 2019-03-14 04:54:03 -05:00			`pub(crate) fn push_module_scope(`
			`self,`
			`crate_def_map: Arc<CrateDefMap>,`
rename ModuleId -> CrateModuleId 2019-03-16 10:57:53 -05:00			`module_id: CrateModuleId,`
remove ItemMap 2019-03-14 04:54:03 -05:00			`) -> Resolver {`
			`self.push_scope(Scope::ModuleScope(ModuleItemMap { crate_def_map, module_id }))`
Implement methods to build a resolver 2019-01-23 16:08:41 -06:00			`}`

			`pub(crate) fn push_expr_scope(`
			`self,`
			`expr_scopes: Arc<ExprScopes>,`
			`scope_id: ScopeId,`
			`) -> Resolver {`
reformat the world 2019-02-08 05:49:43 -06:00			`self.push_scope(Scope::ExprScope(ExprScope { expr_scopes, scope_id }))`
Implement methods to build a resolver 2019-01-23 16:08:41 -06:00			`}`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`}`

			`impl Scope {`
Import the prelude 2019-02-10 13:44:34 -06:00			`fn resolve_name(&self, db: &impl HirDatabase, name: &Name) -> PerNs<Resolution> {`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`match self {`
			`Scope::ModuleScope(m) => {`
			`if let Some(KnownName::SelfParam) = name.as_known_name() {`
remove ItemMap 2019-03-14 04:54:03 -05:00			`PerNs::types(Resolution::Def(m.crate_def_map.mk_module(m.module_id).into()))`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`} else {`
remove ItemMap 2019-03-14 04:54:03 -05:00			`m.crate_def_map`
			`.resolve_name_in_module(db, m.module_id, name)`
			`.map(Resolution::Def)`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`}`
			`}`
			`Scope::GenericParams(gp) => match gp.find_by_name(name) {`
Make the Resolution variants tuple variants 2019-01-30 15:41:44 -06:00			`Some(gp) => PerNs::types(Resolution::GenericParam(gp.idx)),`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`None => PerNs::none(),`
			`},`
			`Scope::ImplBlockScope(i) => {`
			`if name.as_known_name() == Some(KnownName::SelfType) {`
			`PerNs::types(Resolution::SelfType(i.clone()))`
			`} else {`
			`PerNs::none()`
			`}`
			`}`
			`Scope::ExprScope(e) => {`
reformat the world 2019-02-08 05:49:43 -06:00			`let entry =`
			`e.expr_scopes.entries(e.scope_id).iter().find(\|entry\| entry.name() == name);`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`match entry {`
Make the Resolution variants tuple variants 2019-01-30 15:41:44 -06:00			`Some(e) => PerNs::values(Resolution::LocalBinding(e.pat())),`
Use new Resolver API in type inference 2019-01-26 15:52:04 -06:00			`None => PerNs::none(),`
			`}`
			`}`
			`}`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`}`
Use the new Resolver API in completion 2019-01-27 13:50:57 -06:00
Complete names from prelude 2019-02-13 13:53:42 -06:00			`fn collect_names(&self, db: &impl HirDatabase, f: &mut dyn FnMut(Name, PerNs<Resolution>)) {`
Use the new Resolver API in completion 2019-01-27 13:50:57 -06:00			`match self {`
			`Scope::ModuleScope(m) => {`
replace todo with fixme 2019-03-23 02:53:48 -05:00			// FIXME: should we provide `self` here?
Cleanup 2019-01-27 10:23:49 -06:00			`// f(`
			`// Name::self_param(),`
			`// PerNs::types(Resolution::Def {`
			`// def: m.module.into(),`
			`// }),`
			`// );`
remove ItemMap 2019-03-14 04:54:03 -05:00			`m.crate_def_map[m.module_id].scope.entries().for_each(\|(name, res)\| {`
reformat the world 2019-02-08 05:49:43 -06:00			`f(name.clone(), res.def.map(Resolution::Def));`
			`});`
remove ItemMap 2019-03-14 04:54:03 -05:00			`m.crate_def_map.extern_prelude().iter().for_each(\|(name, def)\| {`
Complete extern prelude (again) 2019-02-04 15:09:56 -06:00			`f(name.clone(), PerNs::types(Resolution::Def(*def)));`
			`});`
remove ItemMap 2019-03-14 04:54:03 -05:00			`if let Some(prelude) = m.crate_def_map.prelude() {`
			`let prelude_def_map = db.crate_def_map(prelude.krate);`
			`prelude_def_map[prelude.module_id].scope.entries().for_each(\|(name, res)\| {`
Complete names from prelude 2019-02-13 13:53:42 -06:00			`f(name.clone(), res.def.map(Resolution::Def));`
			`});`
			`}`
Use the new Resolver API in completion 2019-01-27 13:50:57 -06:00			`}`
			`Scope::GenericParams(gp) => {`
			`for param in &gp.params {`
reformat the world 2019-02-08 05:49:43 -06:00			`f(param.name.clone(), PerNs::types(Resolution::GenericParam(param.idx)))`
Use the new Resolver API in completion 2019-01-27 13:50:57 -06:00			`}`
			`}`
			`Scope::ImplBlockScope(i) => {`
reformat the world 2019-02-08 05:49:43 -06:00			`f(Name::self_type(), PerNs::types(Resolution::SelfType(i.clone())));`
Use the new Resolver API in completion 2019-01-27 13:50:57 -06:00			`}`
			`Scope::ExprScope(e) => {`
			`e.expr_scopes.entries(e.scope_id).iter().for_each(\|e\| {`
reformat the world 2019-02-08 05:49:43 -06:00			`f(e.name().clone(), PerNs::values(Resolution::LocalBinding(e.pat())));`
Use the new Resolver API in completion 2019-01-27 13:50:57 -06:00			`});`
			`}`
			`}`
			`}`
Sketching the resolver API 2019-01-19 14:23:26 -06:00			`}`