//! In rust-analyzer, we maintain a strict separation between pure abstract //! semantic project model and a concrete model of a particular build system. //! //! Pure model is represented by the [`base_db::CrateGraph`] from another crate. //! //! In this crate, we are conserned with "real world" project models. //! //! Specifically, here we have a representation for a Cargo project //! ([`CargoWorkspace`]) and for manually specified layout ([`ProjectJson`]). //! //! Roughly, the things we do here are: //! //! * Project discovery (where's the relevant Cargo.toml for the current dir). //! * Custom build steps (`build.rs` code generation and compilation of //! procedural macros). //! * Lowering of concrete model to a [`base_db::CrateGraph`] mod cargo_workspace; mod cfg_flag; mod project_json; mod sysroot; mod workspace; mod rustc_cfg; mod build_scripts; use std::{ fs::{self, read_dir, ReadDir}, io, process::Command, }; use anyhow::{bail, Context, Result}; use paths::{AbsPath, AbsPathBuf}; use rustc_hash::FxHashSet; pub use crate::{ build_scripts::WorkspaceBuildScripts, cargo_workspace::{ CargoConfig, CargoWorkspace, Package, PackageData, PackageDependency, RustcSource, Target, TargetData, TargetKind, }, project_json::{ProjectJson, ProjectJsonData}, sysroot::Sysroot, workspace::{CfgOverrides, PackageRoot, ProjectWorkspace}, }; pub use proc_macro_api::ProcMacroClient; #[derive(Debug, Clone, PartialEq, Eq, Hash, Ord, PartialOrd)] pub enum ProjectManifest { ProjectJson(AbsPathBuf), CargoToml(AbsPathBuf), } impl ProjectManifest { pub fn from_manifest_file(path: AbsPathBuf) -> Result { if path.file_name().unwrap_or_default() == "rust-project.json" { return Ok(ProjectManifest::ProjectJson(path)); } if path.file_name().unwrap_or_default() == "Cargo.toml" { return Ok(ProjectManifest::CargoToml(path)); } bail!("project root must point to Cargo.toml or rust-project.json: {}", path.display()) } pub fn discover_single(path: &AbsPath) -> Result { let mut candidates = ProjectManifest::discover(path)?; let res = match candidates.pop() { None => bail!("no projects"), Some(it) => it, }; if !candidates.is_empty() { bail!("more than one project") } Ok(res) } pub fn discover(path: &AbsPath) -> io::Result> { if let Some(project_json) = find_in_parent_dirs(path, "rust-project.json") { return Ok(vec![ProjectManifest::ProjectJson(project_json)]); } return find_cargo_toml(path) .map(|paths| paths.into_iter().map(ProjectManifest::CargoToml).collect()); fn find_cargo_toml(path: &AbsPath) -> io::Result> { match find_in_parent_dirs(path, "Cargo.toml") { Some(it) => Ok(vec![it]), None => Ok(find_cargo_toml_in_child_dir(read_dir(path)?)), } } fn find_in_parent_dirs(path: &AbsPath, target_file_name: &str) -> Option { if path.file_name().unwrap_or_default() == target_file_name { return Some(path.to_path_buf()); } let mut curr = Some(path); while let Some(path) = curr { let candidate = path.join(target_file_name); if fs::metadata(&candidate).is_ok() { return Some(candidate); } curr = path.parent(); } None } fn find_cargo_toml_in_child_dir(entities: ReadDir) -> Vec { // Only one level down to avoid cycles the easy way and stop a runaway scan with large projects entities .filter_map(Result::ok) .map(|it| it.path().join("Cargo.toml")) .filter(|it| it.exists()) .map(AbsPathBuf::assert) .collect() } } pub fn discover_all(paths: &[AbsPathBuf]) -> Vec { let mut res = paths .iter() .filter_map(|it| ProjectManifest::discover(it.as_ref()).ok()) .flatten() .collect::>() .into_iter() .collect::>(); res.sort(); res } } fn utf8_stdout(mut cmd: Command) -> Result { let output = cmd.output().with_context(|| format!("{:?} failed", cmd))?; if !output.status.success() { match String::from_utf8(output.stderr) { Ok(stderr) if !stderr.is_empty() => { bail!("{:?} failed, {}\nstderr:\n{}", cmd, output.status, stderr) } _ => bail!("{:?} failed, {}", cmd, output.status), } } let stdout = String::from_utf8(output.stdout)?; Ok(stdout.trim().to_string()) }