From: Eduard-Mihai Burtescu Date: Sun, 9 Dec 2018 19:05:22 +0000 (+0200) Subject: rustc: rewrite ty::item_path to be more functional than mutation-oriented. X-Git-Url: https://git.lizzy.rs/?a=commitdiff_plain;h=7d211e5b1287f9140418c4e46461c451d1da42e1;p=rust.git rustc: rewrite ty::item_path to be more functional than mutation-oriented. --- diff --git a/src/librustc/ty/item_path.rs b/src/librustc/ty/item_path.rs index 6734e264305..1eb3952032a 100644 --- a/src/librustc/ty/item_path.rs +++ b/src/librustc/ty/item_path.rs @@ -65,10 +65,9 @@ pub fn item_path_str(self, def_id: DefId) -> String { RootMode::Local } }); - let mut buffer = LocalPathBuffer::new(mode); - debug!("item_path_str: buffer={:?} def_id={:?}", buffer, def_id); - self.push_item_path(&mut buffer, def_id); - buffer.into_string() + let mut printer = LocalPathPrinter::new(mode); + debug!("item_path_str: printer={:?} def_id={:?}", printer, def_id); + self.print_item_path(&mut printer, def_id) } /// Returns a string identifying this local node-id. @@ -79,23 +78,26 @@ pub fn node_path_str(self, id: ast::NodeId) -> String { /// Returns a string identifying this def-id. This string is /// suitable for user output. It always begins with a crate identifier. pub fn absolute_item_path_str(self, def_id: DefId) -> String { - let mut buffer = LocalPathBuffer::new(RootMode::Absolute); - debug!("absolute_item_path_str: buffer={:?} def_id={:?}", buffer, def_id); - self.push_item_path(&mut buffer, def_id); - buffer.into_string() + let mut printer = LocalPathPrinter::new(RootMode::Absolute); + debug!("absolute_item_path_str: printer={:?} def_id={:?}", printer, def_id); + self.print_item_path(&mut printer, def_id) } /// Returns the "path" to a particular crate. This can proceed in - /// various ways, depending on the `root_mode` of the `buffer`. + /// various ways, depending on the `root_mode` of the `printer`. /// (See `RootMode` enum for more details.) - pub fn push_krate_path(self, buffer: &mut T, cnum: CrateNum) - where T: ItemPathBuffer + Debug + fn print_krate_path

( + self, + printer: &mut P, + cnum: CrateNum, + ) -> P::Path + where P: ItemPathPrinter + Debug { debug!( - "push_krate_path: buffer={:?} cnum={:?} LOCAL_CRATE={:?}", - buffer, cnum, LOCAL_CRATE + "print_krate_path: printer={:?} cnum={:?} LOCAL_CRATE={:?}", + printer, cnum, LOCAL_CRATE ); - match *buffer.root_mode() { + match printer.root_mode() { RootMode::Local => { // In local mode, when we encounter a crate other than // LOCAL_CRATE, execution proceeds in one of two ways: @@ -117,56 +119,60 @@ pub fn push_krate_path(self, buffer: &mut T, cnum: CrateNum) span, .. }) if !span.is_dummy() => { - debug!("push_krate_path: def_id={:?}", def_id); - self.push_item_path(buffer, def_id); + debug!("print_krate_path: def_id={:?}", def_id); + self.print_item_path(printer, def_id) } _ => { let name = self.crate_name(cnum).as_str(); - debug!("push_krate_path: name={:?}", name); - buffer.push(&name); + debug!("print_krate_path: name={:?}", name); + printer.path_crate(Some(&name)) } } } else if self.sess.rust_2018() { // We add the `crate::` keyword on Rust 2018, only when desired. if SHOULD_PREFIX_WITH_CRATE.with(|flag| flag.get()) { - buffer.push(&keywords::Crate.name().as_str()) + printer.path_crate(Some(&keywords::Crate.name().as_str())) + } else { + printer.path_crate(None) } + } else { + printer.path_crate(None) } } RootMode::Absolute => { // In absolute mode, just write the crate name // unconditionally. let name = self.original_crate_name(cnum).as_str(); - debug!("push_krate_path: original_name={:?}", name); - buffer.push(&name); + debug!("print_krate_path: original_name={:?}", name); + printer.path_crate(Some(&name)) } } } - /// If possible, this pushes a global path resolving to `external_def_id` that is visible + /// If possible, this returns a global path resolving to `external_def_id` that is visible /// from at least one local module and returns true. If the crate defining `external_def_id` is /// declared with an `extern crate`, the path is guaranteed to use the `extern crate`. - pub fn try_push_visible_item_path( + fn try_print_visible_item_path

( self, - buffer: &mut T, + printer: &mut P, external_def_id: DefId, - ) -> bool - where T: ItemPathBuffer + Debug + ) -> Option + where P: ItemPathPrinter + Debug { debug!( - "try_push_visible_item_path: buffer={:?} external_def_id={:?}", - buffer, external_def_id + "try_print_visible_item_path: printer={:?} external_def_id={:?}", + printer, external_def_id ); let visible_parent_map = self.visible_parent_map(LOCAL_CRATE); let (mut cur_def, mut cur_path) = (external_def_id, Vec::::new()); loop { debug!( - "try_push_visible_item_path: cur_def={:?} cur_path={:?} CRATE_DEF_INDEX={:?}", + "try_print_visible_item_path: cur_def={:?} cur_path={:?} CRATE_DEF_INDEX={:?}", cur_def, cur_path, CRATE_DEF_INDEX, ); - // If `cur_def` is a direct or injected extern crate, push the path to the crate - // followed by the path to the item within the crate and return. + // If `cur_def` is a direct or injected extern crate, return the path to the crate + // followed by the path to the item within the crate. if cur_def.index == CRATE_DEF_INDEX { match *self.extern_crate(cur_def) { Some(ExternCrate { @@ -175,26 +181,32 @@ pub fn try_push_visible_item_path( span, .. }) => { - debug!("try_push_visible_item_path: def_id={:?}", def_id); - if !span.is_dummy() { - self.push_item_path(buffer, def_id); + debug!("try_print_visible_item_path: def_id={:?}", def_id); + let path = if !span.is_dummy() { + self.print_item_path(printer, def_id) } else { - buffer.push(&self.crate_name(cur_def.krate).as_str()); - } - cur_path.iter().rev().for_each(|segment| buffer.push(&segment)); - return true; + printer.path_crate(Some( + &self.crate_name(cur_def.krate).as_str(), + )) + }; + return Some(cur_path.iter().rev().fold(path, |path, segment| { + printer.path_append(path, &segment) + })); } None => { - buffer.push(&self.crate_name(cur_def.krate).as_str()); - cur_path.iter().rev().for_each(|segment| buffer.push(&segment)); - return true; + let path = printer.path_crate(Some( + &self.crate_name(cur_def.krate).as_str(), + )); + return Some(cur_path.iter().rev().fold(path, |path, segment| { + printer.path_append(path, &segment) + })); } _ => {}, } } let mut cur_def_key = self.def_key(cur_def); - debug!("try_push_visible_item_path: cur_def_key={:?}", cur_def_key); + debug!("try_print_visible_item_path: cur_def_key={:?}", cur_def_key); // For a UnitStruct or TupleStruct we want the name of its parent rather than . if let DefPathData::StructCtor = cur_def_key.disambiguated_data.data { @@ -211,7 +223,7 @@ pub fn try_push_visible_item_path( let data = cur_def_key.disambiguated_data.data; debug!( - "try_push_visible_item_path: data={:?} visible_parent={:?} actual_parent={:?}", + "try_print_visible_item_path: data={:?} visible_parent={:?} actual_parent={:?}", data, visible_parent, actual_parent, ); let symbol = match data { @@ -268,39 +280,44 @@ pub fn try_push_visible_item_path( }) }, }; - debug!("try_push_visible_item_path: symbol={:?}", symbol); + debug!("try_print_visible_item_path: symbol={:?}", symbol); cur_path.push(symbol); - match visible_parent { - Some(def) => cur_def = def, - None => return false, - }; + cur_def = visible_parent?; } } - pub fn push_item_path(self, buffer: &mut T, def_id: DefId) - where T: ItemPathBuffer + Debug + pub fn print_item_path

( + self, + printer: &mut P, + def_id: DefId, + ) -> P::Path + where P: ItemPathPrinter + Debug { debug!( - "push_item_path: buffer={:?} def_id={:?}", - buffer, def_id + "print_item_path: printer={:?} def_id={:?}", + printer, def_id ); - match *buffer.root_mode() { - RootMode::Local if !def_id.is_local() => - if self.try_push_visible_item_path(buffer, def_id) { return }, + match printer.root_mode() { + RootMode::Local if !def_id.is_local() => { + match self.try_print_visible_item_path(printer, def_id) { + Some(path) => return path, + None => {} + } + } _ => {} } let key = self.def_key(def_id); - debug!("push_item_path: key={:?}", key); + debug!("print_item_path: key={:?}", key); match key.disambiguated_data.data { DefPathData::CrateRoot => { assert!(key.parent.is_none()); - self.push_krate_path(buffer, def_id.krate); + self.print_krate_path(printer, def_id.krate) } DefPathData::Impl => { - self.push_impl_path(buffer, def_id); + self.print_impl_path(printer, def_id) } // Unclear if there is any value in distinguishing these. @@ -325,26 +342,26 @@ pub fn push_item_path(self, buffer: &mut T, def_id: DefId) data @ DefPathData::ClosureExpr | data @ DefPathData::ImplTrait | data @ DefPathData::GlobalMetaData(..) => { - let parent_def_id = self.parent_def_id(def_id).unwrap(); - self.push_item_path(buffer, parent_def_id); - buffer.push(&data.as_interned_str().as_symbol().as_str()); + let parent_did = self.parent_def_id(def_id).unwrap(); + let path = self.print_item_path(printer, parent_did); + printer.path_append(path, &data.as_interned_str().as_symbol().as_str()) }, DefPathData::StructCtor => { // present `X` instead of `X::{{constructor}}` let parent_def_id = self.parent_def_id(def_id).unwrap(); - self.push_item_path(buffer, parent_def_id); + self.print_item_path(printer, parent_def_id) } } } - fn push_impl_path( + fn print_impl_path

( self, - buffer: &mut T, + printer: &mut P, impl_def_id: DefId, - ) - where T: ItemPathBuffer + Debug + ) -> P::Path + where P: ItemPathPrinter + Debug { - debug!("push_impl_path: buffer={:?} impl_def_id={:?}", buffer, impl_def_id); + debug!("print_impl_path: printer={:?} impl_def_id={:?}", printer, impl_def_id); let parent_def_id = self.parent_def_id(impl_def_id).unwrap(); // Always use types for non-local impls, where types are always @@ -356,7 +373,7 @@ fn push_impl_path( }; if !use_types { - return self.push_impl_path_fallback(buffer, impl_def_id); + return self.print_impl_path_fallback(printer, impl_def_id); } // Decide whether to print the parent path for the impl. @@ -380,13 +397,12 @@ fn push_impl_path( // If the impl is not co-located with either self-type or // trait-type, then fallback to a format that identifies // the module more clearly. - self.push_item_path(buffer, parent_def_id); + let path = self.print_item_path(printer, parent_def_id); if let Some(trait_ref) = impl_trait_ref { - buffer.push(&format!("", trait_ref, self_ty)); + return printer.path_append(path, &format!("", trait_ref, self_ty)); } else { - buffer.push(&format!("", self_ty)); + return printer.path_append(path, &format!("", self_ty)); } - return; } // Otherwise, try to give a good form that would be valid language @@ -394,8 +410,7 @@ fn push_impl_path( if let Some(trait_ref) = impl_trait_ref { // Trait impls. - buffer.push(&format!("<{} as {}>", self_ty, trait_ref)); - return; + return printer.path_impl(&format!("<{} as {}>", self_ty, trait_ref)); } // Inherent impls. Try to print `Foo::bar` for an inherent @@ -403,14 +418,15 @@ fn push_impl_path( // anything other than a simple path. match self_ty.sty { ty::Adt(adt_def, substs) => { + // FIXME(eddyb) always print without <> here. if substs.types().next().is_none() { // ignore regions - self.push_item_path(buffer, adt_def.did); + self.print_item_path(printer, adt_def.did) } else { - buffer.push(&format!("<{}>", self_ty)); + printer.path_impl(&format!("<{}>", self_ty)) } } - ty::Foreign(did) => self.push_item_path(buffer, did), + ty::Foreign(did) => self.print_item_path(printer, did), ty::Bool | ty::Char | @@ -418,31 +434,31 @@ fn push_impl_path( ty::Uint(_) | ty::Float(_) | ty::Str => { - buffer.push(&self_ty.to_string()); + printer.path_impl(&self_ty.to_string()) } _ => { - buffer.push(&format!("<{}>", self_ty)); + printer.path_impl(&format!("<{}>", self_ty)) } } } - fn push_impl_path_fallback( + fn print_impl_path_fallback

( self, - buffer: &mut T, + printer: &mut P, impl_def_id: DefId, - ) - where T: ItemPathBuffer + Debug + ) -> P::Path + where P: ItemPathPrinter + Debug { // If no type info is available, fall back to // pretty printing some span information. This should // only occur very early in the compiler pipeline. let parent_def_id = self.parent_def_id(impl_def_id).unwrap(); - self.push_item_path(buffer, parent_def_id); + let path = self.print_item_path(printer, parent_def_id); let hir_id = self.hir().as_local_hir_id(impl_def_id).unwrap(); let item = self.hir().expect_item_by_hir_id(hir_id); let span_str = self.sess.source_map().span_to_string(item.span); - buffer.push(&format!("", span_str)); + printer.path_append(path, &format!("", span_str)) } /// Returns the `DefId` of `def_id`'s parent in the def tree. If @@ -505,12 +521,17 @@ pub fn characteristic_def_id_of_type(ty: Ty<'_>) -> Option { /// Unifying Trait for different kinds of item paths we might /// construct. The basic interface is that components get pushed: the /// instance can also customize how we handle the root of a crate. -pub trait ItemPathBuffer { - fn root_mode(&self) -> &RootMode; - fn push(&mut self, text: &str); +pub trait ItemPathPrinter { + type Path; + + fn root_mode(&self) -> RootMode; + + fn path_crate(&self, name: Option<&str>) -> Self::Path; + fn path_impl(&self, text: &str) -> Self::Path; + fn path_append(&self, path: Self::Path, text: &str) -> Self::Path; } -#[derive(Debug)] +#[derive(Copy, Clone, Debug)] pub enum RootMode { /// Try to make a path relative to the local crate. In /// particular, local paths have no prefix, and if the path comes @@ -524,33 +545,36 @@ pub enum RootMode { } #[derive(Debug)] -struct LocalPathBuffer { +struct LocalPathPrinter { root_mode: RootMode, - str: String, } -impl LocalPathBuffer { - fn new(root_mode: RootMode) -> LocalPathBuffer { - LocalPathBuffer { +impl LocalPathPrinter { + fn new(root_mode: RootMode) -> LocalPathPrinter { + LocalPathPrinter { root_mode, - str: String::new(), } } - - fn into_string(self) -> String { - self.str - } } -impl ItemPathBuffer for LocalPathBuffer { - fn root_mode(&self) -> &RootMode { - &self.root_mode +impl ItemPathPrinter for LocalPathPrinter { + type Path = String; + + fn root_mode(&self) -> RootMode { + self.root_mode } - fn push(&mut self, text: &str) { - if !self.str.is_empty() { - self.str.push_str("::"); + fn path_crate(&self, name: Option<&str>) -> Self::Path { + name.unwrap_or("").to_string() + } + fn path_impl(&self, text: &str) -> Self::Path { + text.to_string() + } + fn path_append(&self, mut path: Self::Path, text: &str) -> Self::Path { + if !path.is_empty() { + path.push_str("::"); } - self.str.push_str(text); + path.push_str(text); + path } } diff --git a/src/librustc_codegen_utils/symbol_names.rs b/src/librustc_codegen_utils/symbol_names.rs index 70ab185660c..13f8e13c328 100644 --- a/src/librustc_codegen_utils/symbol_names.rs +++ b/src/librustc_codegen_utils/symbol_names.rs @@ -92,7 +92,7 @@ use rustc::hir::CodegenFnAttrFlags; use rustc::hir::map::definitions::DefPathData; use rustc::ich::NodeIdHashingMode; -use rustc::ty::item_path::{self, ItemPathBuffer, RootMode}; +use rustc::ty::item_path::{self, ItemPathPrinter, RootMode}; use rustc::ty::query::Providers; use rustc::ty::subst::SubstsRef; use rustc::ty::{self, Ty, TyCtxt, TypeFoldable}; @@ -223,11 +223,9 @@ fn get_symbol_hash<'a, 'tcx>( } fn def_symbol_name<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>, def_id: DefId) -> ty::SymbolName { - let mut buffer = SymbolPathBuffer::new(tcx); item_path::with_forced_absolute_paths(|| { - tcx.push_item_path(&mut buffer, def_id); - }); - buffer.into_interned() + tcx.push_item_path(&mut SymbolPath::new(tcx), def_id).into_interned() + }) } fn symbol_name<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>, instance: Instance<'tcx>) -> ty::SymbolName { @@ -319,7 +317,7 @@ fn compute_symbol_name<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>, instance: Instance let hash = get_symbol_hash(tcx, def_id, instance, instance_ty, substs); - let mut buf = SymbolPathBuffer::from_interned(tcx.def_symbol_name(def_id), tcx); + let mut buf = SymbolPath::from_interned(tcx.def_symbol_name(def_id), tcx); if instance.is_vtable_shim() { buf.push("{{vtable-shim}}"); @@ -342,15 +340,15 @@ fn compute_symbol_name<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>, instance: Instance // To be able to work on all platforms and get *some* reasonable output, we // use C++ name-mangling. #[derive(Debug)] -struct SymbolPathBuffer { +struct SymbolPath { result: String, temp_buf: String, strict_naming: bool, } -impl SymbolPathBuffer { +impl SymbolPath { fn new(tcx: TyCtxt<'_, '_, '_>) -> Self { - let mut result = SymbolPathBuffer { + let mut result = SymbolPath { result: String::with_capacity(64), temp_buf: String::with_capacity(16), strict_naming: tcx.has_strict_asm_symbol_naming(), @@ -360,7 +358,7 @@ fn new(tcx: TyCtxt<'_, '_, '_>) -> Self { } fn from_interned(symbol: ty::SymbolName, tcx: TyCtxt<'_, '_, '_>) -> Self { - let mut result = SymbolPathBuffer { + let mut result = SymbolPath { result: String::with_capacity(64), temp_buf: String::with_capacity(16), strict_naming: tcx.has_strict_asm_symbol_naming(), @@ -375,19 +373,6 @@ fn into_interned(self) -> ty::SymbolName { } } - fn finish(mut self, hash: u64) -> String { - // E = end name-sequence - let _ = write!(self.result, "17h{:016x}E", hash); - self.result - } -} - -impl ItemPathBuffer for SymbolPathBuffer { - fn root_mode(&self) -> &RootMode { - const ABSOLUTE: &RootMode = &RootMode::Absolute; - ABSOLUTE - } - fn push(&mut self, text: &str) { self.temp_buf.clear(); let need_underscore = sanitize(&mut self.temp_buf, text, self.strict_naming); @@ -401,6 +386,40 @@ fn push(&mut self, text: &str) { } self.result.push_str(&self.temp_buf); } + + fn finish(mut self, hash: u64) -> String { + // E = end name-sequence + let _ = write!(self.result, "17h{:016x}E", hash); + self.result + } +} + +#[derive(Debug)] +struct SymbolPathPrinter; + +impl ItemPathPrinter for SymbolPathPrinter { + type Path = SymbolPath; + + fn root_mode(&self) ->RootMode { + RootMode::Absolute + } + + fn path_crate(&self, name: Option<&str>) -> Self::Path { + let mut path = SymbolPath::new(); + if let Some(name) = name { + path.push(name); + } + path + } + fn path_impl(&self, text: &str) -> Self::Path { + let mut path = SymbolPath::new(); + path.push(text); + path + } + fn path_append(&self, mut path: Self::Path, text: &str) -> Self::Path { + path.push(text); + path + } } // Name sanitation. LLVM will happily accept identifiers with weird names, but