//! See `CargoTargetSpec` use ra_cfg::CfgExpr; use ra_ide::{FileId, RunnableKind, TestId}; use ra_project_model::{self, TargetKind}; use vfs::AbsPathBuf; use crate::{global_state::GlobalStateSnapshot, Result}; /// Abstract representation of Cargo target. /// /// We use it to cook up the set of cli args we need to pass to Cargo to /// build/test/run the target. #[derive(Clone)] pub(crate) struct CargoTargetSpec { pub(crate) workspace_root: AbsPathBuf, pub(crate) package: String, pub(crate) target: String, pub(crate) target_kind: TargetKind, } impl CargoTargetSpec { pub(crate) fn runnable_args( snap: &GlobalStateSnapshot, spec: Option, kind: &RunnableKind, cfgs: &[CfgExpr], ) -> Result<(Vec, Vec)> { let mut args = Vec::new(); let mut extra_args = Vec::new(); match kind { RunnableKind::Test { test_id, attr } => { args.push("test".to_string()); if let Some(spec) = spec { spec.push_to(&mut args, kind); } extra_args.push(test_id.to_string()); if let TestId::Path(_) = test_id { extra_args.push("--exact".to_string()); } extra_args.push("--nocapture".to_string()); if attr.ignore { extra_args.push("--ignored".to_string()); } } RunnableKind::TestMod { path } => { args.push("test".to_string()); if let Some(spec) = spec { spec.push_to(&mut args, kind); } extra_args.push(path.to_string()); extra_args.push("--nocapture".to_string()); } RunnableKind::Bench { test_id } => { args.push("bench".to_string()); if let Some(spec) = spec { spec.push_to(&mut args, kind); } extra_args.push(test_id.to_string()); if let TestId::Path(_) = test_id { extra_args.push("--exact".to_string()); } extra_args.push("--nocapture".to_string()); } RunnableKind::DocTest { test_id } => { args.push("test".to_string()); args.push("--doc".to_string()); if let Some(spec) = spec { spec.push_to(&mut args, kind); } extra_args.push(test_id.to_string()); extra_args.push("--nocapture".to_string()); } RunnableKind::Bin => { args.push("run".to_string()); if let Some(spec) = spec { spec.push_to(&mut args, kind); } } } if snap.config.cargo.all_features { args.push("--all-features".to_string()); } else { let mut features = Vec::new(); for cfg in cfgs { required_features(cfg, &mut features); } for feature in &snap.config.cargo.features { features.push(feature.clone()); } features.dedup(); for feature in features { args.push("--features".to_string()); args.push(feature); } } Ok((args, extra_args)) } pub(crate) fn for_file( global_state_snapshot: &GlobalStateSnapshot, file_id: FileId, ) -> Result> { let crate_id = match global_state_snapshot.analysis.crate_for(file_id)?.first() { Some(crate_id) => *crate_id, None => return Ok(None), }; let (cargo_ws, target) = match global_state_snapshot.cargo_target_for_crate_root(crate_id) { Some(it) => it, None => return Ok(None), }; let res = CargoTargetSpec { workspace_root: cargo_ws.workspace_root().to_path_buf(), package: cargo_ws.package_flag(&cargo_ws[cargo_ws[target].package]), target: cargo_ws[target].name.clone(), target_kind: cargo_ws[target].kind, }; Ok(Some(res)) } pub(crate) fn push_to(self, buf: &mut Vec, kind: &RunnableKind) { buf.push("--package".to_string()); buf.push(self.package); // Can't mix --doc with other target flags if let RunnableKind::DocTest { .. } = kind { return; } match self.target_kind { TargetKind::Bin => { buf.push("--bin".to_string()); buf.push(self.target); } TargetKind::Test => { buf.push("--test".to_string()); buf.push(self.target); } TargetKind::Bench => { buf.push("--bench".to_string()); buf.push(self.target); } TargetKind::Example => { buf.push("--example".to_string()); buf.push(self.target); } TargetKind::Lib => { buf.push("--lib".to_string()); } TargetKind::Other => (), } } } /// Fill minimal features needed fn required_features(cfg_expr: &CfgExpr, features: &mut Vec) { match cfg_expr { CfgExpr::KeyValue { key, value } if key == "feature" => features.push(value.to_string()), CfgExpr::All(preds) => { preds.iter().for_each(|cfg| required_features(cfg, features)); } CfgExpr::Any(preds) => { for cfg in preds { let len_features = features.len(); required_features(cfg, features); if len_features != features.len() { break; } } } _ => {} } } #[cfg(test)] mod tests { use super::*; use mbe::{ast_to_token_tree, TokenMap}; use ra_cfg::parse_cfg; use ra_syntax::{ ast::{self, AstNode}, SmolStr, }; fn get_token_tree_generated(input: &str) -> (tt::Subtree, TokenMap) { let source_file = ast::SourceFile::parse(input).ok().unwrap(); let tt = source_file.syntax().descendants().find_map(ast::TokenTree::cast).unwrap(); ast_to_token_tree(&tt).unwrap() } #[test] fn test_cfg_expr_minimal_features_needed() { let (subtree, _) = get_token_tree_generated(r#"#![cfg(feature = "baz")]"#); let cfg_expr = parse_cfg(&subtree); let mut min_features = vec![]; required_features(&cfg_expr, &mut min_features); assert_eq!(min_features, vec![SmolStr::new("baz")]); let (subtree, _) = get_token_tree_generated(r#"#![cfg(all(feature = "baz", feature = "foo"))]"#); let cfg_expr = parse_cfg(&subtree); let mut min_features = vec![]; required_features(&cfg_expr, &mut min_features); assert_eq!(min_features, vec![SmolStr::new("baz"), SmolStr::new("foo")]); let (subtree, _) = get_token_tree_generated(r#"#![cfg(any(feature = "baz", feature = "foo", unix))]"#); let cfg_expr = parse_cfg(&subtree); let mut min_features = vec![]; required_features(&cfg_expr, &mut min_features); assert_eq!(min_features, vec![SmolStr::new("baz")]); let (subtree, _) = get_token_tree_generated(r#"#![cfg(foo)]"#); let cfg_expr = parse_cfg(&subtree); let mut min_features = vec![]; required_features(&cfg_expr, &mut min_features); assert!(min_features.is_empty()); } }