ee03849017
This adds a "Convert Into to From" assist, useful since clippy has recently started adding lints on every `Into`. It covers converting the signature, and converting any `self`/`Self` references within the body to the correct types. It does assume that every instance of `Into` can be converted to a `From`, which I _think_ is the case now. Let me know if there's something I'm not thinking of and I can try and make it smarter.
182 lines
5.6 KiB
Rust
182 lines
5.6 KiB
Rust
//! A module with ide helpers for high-level ide features.
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pub mod insert_use;
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pub mod import_assets;
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use std::collections::VecDeque;
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use base_db::FileId;
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use either::Either;
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use hir::{Crate, Enum, ItemInNs, MacroDef, Module, ModuleDef, Name, ScopeDef, Semantics, Trait};
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use syntax::ast::{self, make};
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use crate::RootDatabase;
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pub fn item_name(db: &RootDatabase, item: ItemInNs) -> Option<Name> {
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match item {
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ItemInNs::Types(module_def_id) => ModuleDef::from(module_def_id).name(db),
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ItemInNs::Values(module_def_id) => ModuleDef::from(module_def_id).name(db),
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ItemInNs::Macros(macro_def_id) => MacroDef::from(macro_def_id).name(db),
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}
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}
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/// Converts the mod path struct into its ast representation.
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pub fn mod_path_to_ast(path: &hir::ModPath) -> ast::Path {
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let _p = profile::span("mod_path_to_ast");
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let mut segments = Vec::new();
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let mut is_abs = false;
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match path.kind {
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hir::PathKind::Plain => {}
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hir::PathKind::Super(0) => segments.push(make::path_segment_self()),
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hir::PathKind::Super(n) => segments.extend((0..n).map(|_| make::path_segment_super())),
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hir::PathKind::DollarCrate(_) | hir::PathKind::Crate => {
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segments.push(make::path_segment_crate())
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}
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hir::PathKind::Abs => is_abs = true,
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}
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segments.extend(
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path.segments()
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.iter()
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.map(|segment| make::path_segment(make::name_ref(&segment.to_string()))),
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);
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make::path_from_segments(segments, is_abs)
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}
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/// Iterates all `ModuleDef`s and `Impl` blocks of the given file.
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pub fn visit_file_defs(
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sema: &Semantics<RootDatabase>,
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file_id: FileId,
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cb: &mut dyn FnMut(Either<hir::ModuleDef, hir::Impl>),
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) {
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let db = sema.db;
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let module = match sema.to_module_def(file_id) {
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Some(it) => it,
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None => return,
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};
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let mut defs: VecDeque<_> = module.declarations(db).into();
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while let Some(def) = defs.pop_front() {
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if let ModuleDef::Module(submodule) = def {
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if let hir::ModuleSource::Module(_) = submodule.definition_source(db).value {
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defs.extend(submodule.declarations(db));
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submodule.impl_defs(db).into_iter().for_each(|impl_| cb(Either::Right(impl_)));
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}
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}
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cb(Either::Left(def));
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}
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module.impl_defs(db).into_iter().for_each(|impl_| cb(Either::Right(impl_)));
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}
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/// Helps with finding well-know things inside the standard library. This is
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/// somewhat similar to the known paths infra inside hir, but it different; We
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/// want to make sure that IDE specific paths don't become interesting inside
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/// the compiler itself as well.
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pub struct FamousDefs<'a, 'b>(pub &'a Semantics<'b, RootDatabase>, pub Option<Crate>);
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#[allow(non_snake_case)]
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impl FamousDefs<'_, '_> {
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pub const FIXTURE: &'static str = include_str!("helpers/famous_defs_fixture.rs");
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pub fn std(&self) -> Option<Crate> {
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self.find_crate("std")
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}
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pub fn core(&self) -> Option<Crate> {
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self.find_crate("core")
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}
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pub fn core_cmp_Ord(&self) -> Option<Trait> {
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self.find_trait("core:cmp:Ord")
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}
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pub fn core_convert_From(&self) -> Option<Trait> {
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self.find_trait("core:convert:From")
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}
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pub fn core_convert_Into(&self) -> Option<Trait> {
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self.find_trait("core:convert:Into")
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}
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pub fn core_option_Option(&self) -> Option<Enum> {
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self.find_enum("core:option:Option")
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}
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pub fn core_default_Default(&self) -> Option<Trait> {
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self.find_trait("core:default:Default")
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}
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pub fn core_iter_Iterator(&self) -> Option<Trait> {
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self.find_trait("core:iter:traits:iterator:Iterator")
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}
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pub fn core_iter(&self) -> Option<Module> {
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self.find_module("core:iter")
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}
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fn find_trait(&self, path: &str) -> Option<Trait> {
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match self.find_def(path)? {
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hir::ScopeDef::ModuleDef(hir::ModuleDef::Trait(it)) => Some(it),
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_ => None,
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}
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}
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fn find_enum(&self, path: &str) -> Option<Enum> {
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match self.find_def(path)? {
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hir::ScopeDef::ModuleDef(hir::ModuleDef::Adt(hir::Adt::Enum(it))) => Some(it),
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_ => None,
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}
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}
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fn find_module(&self, path: &str) -> Option<Module> {
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match self.find_def(path)? {
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hir::ScopeDef::ModuleDef(hir::ModuleDef::Module(it)) => Some(it),
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_ => None,
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}
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}
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fn find_crate(&self, name: &str) -> Option<Crate> {
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let krate = self.1?;
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let db = self.0.db;
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let res =
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krate.dependencies(db).into_iter().find(|dep| dep.name.to_string() == name)?.krate;
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Some(res)
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}
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fn find_def(&self, path: &str) -> Option<ScopeDef> {
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let db = self.0.db;
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let mut path = path.split(':');
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let trait_ = path.next_back()?;
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let std_crate = path.next()?;
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let std_crate = self.find_crate(std_crate)?;
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let mut module = std_crate.root_module(db);
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for segment in path {
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module = module.children(db).find_map(|child| {
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let name = child.name(db)?;
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if name.to_string() == segment {
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Some(child)
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} else {
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None
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}
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})?;
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}
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let def =
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module.scope(db, None).into_iter().find(|(name, _def)| name.to_string() == trait_)?.1;
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Some(def)
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}
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}
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#[derive(Clone, Copy, Debug, PartialEq, Eq)]
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pub struct SnippetCap {
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_private: (),
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}
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impl SnippetCap {
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pub const fn new(allow_snippets: bool) -> Option<SnippetCap> {
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if allow_snippets {
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Some(SnippetCap { _private: () })
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} else {
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None
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}
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}
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}
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