//! This module specifies the input to rust-analyzer. In some sense, this is //! **the** most important module, because all other fancy stuff is strictly //! derived from this input. //! //! Note that neither this module, nor any other part of the analyzer's core do //! actual IO. See `vfs` and `project_model` in the `rust-analyzer` crate for how //! actual IO is done and lowered to input. use std::{fmt, iter::FromIterator, ops, panic::RefUnwindSafe, str::FromStr, sync::Arc}; use cfg::CfgOptions; use rustc_hash::{FxHashMap, FxHashSet}; use syntax::SmolStr; use tt::{ExpansionError, Subtree}; use vfs::{file_set::FileSet, FileId, VfsPath}; /// Files are grouped into source roots. A source root is a directory on the /// file systems which is watched for changes. Typically it corresponds to a /// Rust crate. Source roots *might* be nested: in this case, a file belongs to /// the nearest enclosing source root. Paths to files are always relative to a /// source root, and the analyzer does not know the root path of the source root at /// all. So, a file from one source root can't refer to a file in another source /// root by path. #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash, PartialOrd, Ord)] pub struct SourceRootId(pub u32); #[derive(Clone, Debug, PartialEq, Eq)] pub struct SourceRoot { /// Sysroot or crates.io library. /// /// Libraries are considered mostly immutable, this assumption is used to /// optimize salsa's query structure pub is_library: bool, pub(crate) file_set: FileSet, } impl SourceRoot { pub fn new_local(file_set: FileSet) -> SourceRoot { SourceRoot { is_library: false, file_set } } pub fn new_library(file_set: FileSet) -> SourceRoot { SourceRoot { is_library: true, file_set } } pub fn path_for_file(&self, file: &FileId) -> Option<&VfsPath> { self.file_set.path_for_file(file) } pub fn file_for_path(&self, path: &VfsPath) -> Option<&FileId> { self.file_set.file_for_path(path) } pub fn iter(&self) -> impl Iterator + '_ { self.file_set.iter() } } /// `CrateGraph` is a bit of information which turns a set of text files into a /// number of Rust crates. /// /// Each crate is defined by the `FileId` of its root module, the set of enabled /// `cfg` flags and the set of dependencies. /// /// Note that, due to cfg's, there might be several crates for a single `FileId`! /// /// For the purposes of analysis, a crate does not have a name. Instead, names /// are specified on dependency edges. That is, a crate might be known under /// different names in different dependent crates. /// /// Note that `CrateGraph` is build-system agnostic: it's a concept of the Rust /// language proper, not a concept of the build system. In practice, we get /// `CrateGraph` by lowering `cargo metadata` output. #[derive(Debug, Clone, Default, PartialEq, Eq)] pub struct CrateGraph { arena: FxHashMap, } #[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)] pub struct CrateId(pub u32); #[derive(Debug, Clone, PartialEq, Eq, Hash)] pub struct CrateName(SmolStr); impl CrateName { /// Creates a crate name, checking for dashes in the string provided. /// Dashes are not allowed in the crate names, /// hence the input string is returned as `Err` for those cases. pub fn new(name: &str) -> Result { if name.contains('-') { Err(name) } else { Ok(Self(SmolStr::new(name))) } } /// Creates a crate name, unconditionally replacing the dashes with underscores. pub fn normalize_dashes(name: &str) -> CrateName { Self(SmolStr::new(name.replace('-', "_"))) } } impl fmt::Display for CrateName { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "{}", self.0) } } impl ops::Deref for CrateName { type Target = str; fn deref(&self) -> &str { &*self.0 } } #[derive(Debug, Clone, PartialEq, Eq, Hash)] pub struct CrateDisplayName { // The name we use to display various paths (with `_`). crate_name: CrateName, // The name as specified in Cargo.toml (with `-`). canonical_name: String, } impl From for CrateDisplayName { fn from(crate_name: CrateName) -> CrateDisplayName { let canonical_name = crate_name.to_string(); CrateDisplayName { crate_name, canonical_name } } } impl fmt::Display for CrateDisplayName { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "{}", self.crate_name) } } impl ops::Deref for CrateDisplayName { type Target = str; fn deref(&self) -> &str { &*self.crate_name } } impl CrateDisplayName { pub fn from_canonical_name(canonical_name: String) -> CrateDisplayName { let crate_name = CrateName::normalize_dashes(&canonical_name); CrateDisplayName { crate_name, canonical_name } } } #[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)] pub struct ProcMacroId(pub u32); #[derive(Copy, Clone, Eq, PartialEq, Debug, Hash)] pub enum ProcMacroKind { CustomDerive, FuncLike, Attr, } pub trait ProcMacroExpander: fmt::Debug + Send + Sync + RefUnwindSafe { fn expand( &self, subtree: &Subtree, attrs: Option<&Subtree>, env: &Env, ) -> Result; } #[derive(Debug, Clone)] pub struct ProcMacro { pub name: SmolStr, pub kind: ProcMacroKind, pub expander: Arc, } impl Eq for ProcMacro {} impl PartialEq for ProcMacro { fn eq(&self, other: &ProcMacro) -> bool { self.name == other.name && Arc::ptr_eq(&self.expander, &other.expander) } } #[derive(Debug, Clone, PartialEq, Eq)] pub struct CrateData { pub root_file_id: FileId, pub edition: Edition, /// A name used in the package's project declaration: for Cargo projects, /// its `[package].name` can be different for other project types or even /// absent (a dummy crate for the code snippet, for example). /// /// For purposes of analysis, crates are anonymous (only names in /// `Dependency` matters), this name should only be used for UI. pub display_name: Option, pub cfg_options: CfgOptions, pub potential_cfg_options: CfgOptions, pub env: Env, pub dependencies: Vec, pub proc_macro: Vec, } #[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)] pub enum Edition { Edition2015, Edition2018, Edition2021, } #[derive(Default, Debug, Clone, PartialEq, Eq)] pub struct Env { entries: FxHashMap, } #[derive(Debug, Clone, PartialEq, Eq)] pub struct Dependency { pub crate_id: CrateId, pub name: CrateName, } impl CrateGraph { pub fn add_crate_root( &mut self, file_id: FileId, edition: Edition, display_name: Option, cfg_options: CfgOptions, potential_cfg_options: CfgOptions, env: Env, proc_macro: Vec, ) -> CrateId { let data = CrateData { root_file_id: file_id, edition, display_name, cfg_options, potential_cfg_options, env, proc_macro, dependencies: Vec::new(), }; let crate_id = CrateId(self.arena.len() as u32); let prev = self.arena.insert(crate_id, data); assert!(prev.is_none()); crate_id } pub fn add_dep( &mut self, from: CrateId, name: CrateName, to: CrateId, ) -> Result<(), CyclicDependenciesError> { let _p = profile::span("add_dep"); if self.dfs_find(from, to, &mut FxHashSet::default()) { return Err(CyclicDependenciesError { from: (from, self[from].display_name.clone()), to: (to, self[to].display_name.clone()), }); } self.arena.get_mut(&from).unwrap().add_dep(name, to); Ok(()) } pub fn is_empty(&self) -> bool { self.arena.is_empty() } pub fn iter(&self) -> impl Iterator + '_ { self.arena.keys().copied() } /// Returns an iterator over all transitive dependencies of the given crate, /// including the crate itself. pub fn transitive_deps(&self, of: CrateId) -> impl Iterator + '_ { let mut worklist = vec![of]; let mut deps = FxHashSet::default(); while let Some(krate) = worklist.pop() { if !deps.insert(krate) { continue; } worklist.extend(self[krate].dependencies.iter().map(|dep| dep.crate_id)); } deps.into_iter() } /// Returns all transitive reverse dependencies of the given crate, /// including the crate itself. pub fn transitive_rev_deps(&self, of: CrateId) -> impl Iterator + '_ { let mut worklist = vec![of]; let mut rev_deps = FxHashSet::default(); rev_deps.insert(of); let mut inverted_graph = FxHashMap::<_, Vec<_>>::default(); self.arena.iter().for_each(|(&krate, data)| { data.dependencies .iter() .for_each(|dep| inverted_graph.entry(dep.crate_id).or_default().push(krate)) }); while let Some(krate) = worklist.pop() { if let Some(krate_rev_deps) = inverted_graph.get(&krate) { krate_rev_deps .iter() .copied() .filter(|&rev_dep| rev_deps.insert(rev_dep)) .for_each(|rev_dep| worklist.push(rev_dep)); } } rev_deps.into_iter() } /// Returns all crates in the graph, sorted in topological order (ie. dependencies of a crate /// come before the crate itself). pub fn crates_in_topological_order(&self) -> Vec { let mut res = Vec::new(); let mut visited = FxHashSet::default(); for krate in self.arena.keys().copied() { go(self, &mut visited, &mut res, krate); } return res; fn go( graph: &CrateGraph, visited: &mut FxHashSet, res: &mut Vec, source: CrateId, ) { if !visited.insert(source) { return; } for dep in graph[source].dependencies.iter() { go(graph, visited, res, dep.crate_id) } res.push(source) } } // FIXME: this only finds one crate with the given root; we could have multiple pub fn crate_id_for_crate_root(&self, file_id: FileId) -> Option { let (&crate_id, _) = self.arena.iter().find(|(_crate_id, data)| data.root_file_id == file_id)?; Some(crate_id) } /// Extends this crate graph by adding a complete disjoint second crate /// graph. /// /// The ids of the crates in the `other` graph are shifted by the return /// amount. pub fn extend(&mut self, other: CrateGraph) -> u32 { let start = self.arena.len() as u32; self.arena.extend(other.arena.into_iter().map(|(id, mut data)| { let new_id = id.shift(start); for dep in &mut data.dependencies { dep.crate_id = dep.crate_id.shift(start); } (new_id, data) })); start } fn dfs_find(&self, target: CrateId, from: CrateId, visited: &mut FxHashSet) -> bool { if !visited.insert(from) { return false; } if target == from { return true; } for dep in &self[from].dependencies { let crate_id = dep.crate_id; if self.dfs_find(target, crate_id, visited) { return true; } } false } // Work around for https://github.com/rust-analyzer/rust-analyzer/issues/6038. // As hacky as it gets. pub fn patch_cfg_if(&mut self) -> bool { let cfg_if = self.hacky_find_crate("cfg_if"); let std = self.hacky_find_crate("std"); match (cfg_if, std) { (Some(cfg_if), Some(std)) => { self.arena.get_mut(&cfg_if).unwrap().dependencies.clear(); self.arena .get_mut(&std) .unwrap() .dependencies .push(Dependency { crate_id: cfg_if, name: CrateName::new("cfg_if").unwrap() }); true } _ => false, } } fn hacky_find_crate(&self, display_name: &str) -> Option { self.iter().find(|it| self[*it].display_name.as_deref() == Some(display_name)) } } impl ops::Index for CrateGraph { type Output = CrateData; fn index(&self, crate_id: CrateId) -> &CrateData { &self.arena[&crate_id] } } impl CrateId { pub fn shift(self, amount: u32) -> CrateId { CrateId(self.0 + amount) } } impl CrateData { fn add_dep(&mut self, name: CrateName, crate_id: CrateId) { self.dependencies.push(Dependency { crate_id, name }) } } impl FromStr for Edition { type Err = ParseEditionError; fn from_str(s: &str) -> Result { let res = match s { "2015" => Edition::Edition2015, "2018" => Edition::Edition2018, "2021" => Edition::Edition2021, _ => return Err(ParseEditionError { invalid_input: s.to_string() }), }; Ok(res) } } impl fmt::Display for Edition { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.write_str(match self { Edition::Edition2015 => "2015", Edition::Edition2018 => "2018", Edition::Edition2021 => "2021", }) } } impl FromIterator<(String, String)> for Env { fn from_iter>(iter: T) -> Self { Env { entries: FromIterator::from_iter(iter) } } } impl Env { pub fn set(&mut self, env: &str, value: String) { self.entries.insert(env.to_owned(), value); } pub fn get(&self, env: &str) -> Option { self.entries.get(env).cloned() } pub fn iter(&self) -> impl Iterator { self.entries.iter().map(|(k, v)| (k.as_str(), v.as_str())) } } #[derive(Debug)] pub struct ParseEditionError { invalid_input: String, } impl fmt::Display for ParseEditionError { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "invalid edition: {:?}", self.invalid_input) } } impl std::error::Error for ParseEditionError {} #[derive(Debug)] pub struct CyclicDependenciesError { from: (CrateId, Option), to: (CrateId, Option), } impl fmt::Display for CyclicDependenciesError { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { let render = |(id, name): &(CrateId, Option)| match name { Some(it) => format!("{}({:?})", it, id), None => format!("{:?}", id), }; write!(f, "cyclic deps: {} -> {}", render(&self.from), render(&self.to)) } } #[cfg(test)] mod tests { use super::{CfgOptions, CrateGraph, CrateName, Dependency, Edition::Edition2018, Env, FileId}; #[test] fn detect_cyclic_dependency_indirect() { let mut graph = CrateGraph::default(); let crate1 = graph.add_crate_root( FileId(1u32), Edition2018, None, CfgOptions::default(), CfgOptions::default(), Env::default(), Default::default(), ); let crate2 = graph.add_crate_root( FileId(2u32), Edition2018, None, CfgOptions::default(), CfgOptions::default(), Env::default(), Default::default(), ); let crate3 = graph.add_crate_root( FileId(3u32), Edition2018, None, CfgOptions::default(), CfgOptions::default(), Env::default(), Default::default(), ); assert!(graph.add_dep(crate1, CrateName::new("crate2").unwrap(), crate2).is_ok()); assert!(graph.add_dep(crate2, CrateName::new("crate3").unwrap(), crate3).is_ok()); assert!(graph.add_dep(crate3, CrateName::new("crate1").unwrap(), crate1).is_err()); } #[test] fn detect_cyclic_dependency_direct() { let mut graph = CrateGraph::default(); let crate1 = graph.add_crate_root( FileId(1u32), Edition2018, None, CfgOptions::default(), CfgOptions::default(), Env::default(), Default::default(), ); let crate2 = graph.add_crate_root( FileId(2u32), Edition2018, None, CfgOptions::default(), CfgOptions::default(), Env::default(), Default::default(), ); assert!(graph.add_dep(crate1, CrateName::new("crate2").unwrap(), crate2).is_ok()); assert!(graph.add_dep(crate2, CrateName::new("crate2").unwrap(), crate2).is_err()); } #[test] fn it_works() { let mut graph = CrateGraph::default(); let crate1 = graph.add_crate_root( FileId(1u32), Edition2018, None, CfgOptions::default(), CfgOptions::default(), Env::default(), Default::default(), ); let crate2 = graph.add_crate_root( FileId(2u32), Edition2018, None, CfgOptions::default(), CfgOptions::default(), Env::default(), Default::default(), ); let crate3 = graph.add_crate_root( FileId(3u32), Edition2018, None, CfgOptions::default(), CfgOptions::default(), Env::default(), Default::default(), ); assert!(graph.add_dep(crate1, CrateName::new("crate2").unwrap(), crate2).is_ok()); assert!(graph.add_dep(crate2, CrateName::new("crate3").unwrap(), crate3).is_ok()); } #[test] fn dashes_are_normalized() { let mut graph = CrateGraph::default(); let crate1 = graph.add_crate_root( FileId(1u32), Edition2018, None, CfgOptions::default(), CfgOptions::default(), Env::default(), Default::default(), ); let crate2 = graph.add_crate_root( FileId(2u32), Edition2018, None, CfgOptions::default(), CfgOptions::default(), Env::default(), Default::default(), ); assert!(graph .add_dep(crate1, CrateName::normalize_dashes("crate-name-with-dashes"), crate2) .is_ok()); assert_eq!( graph[crate1].dependencies, vec![Dependency { crate_id: crate2, name: CrateName::new("crate_name_with_dashes").unwrap() }] ); } }