use std::sync::Arc; use relative_path::{RelativePathBuf}; use test_utils::{extract_offset, parse_fixture, CURSOR_MARKER}; use ra_db::mock::FileMap; use crate::{Analysis, AnalysisChange, AnalysisHost, FileId, FilePosition, SourceRootId}; /// Mock analysis is used in test to bootstrap an AnalysisHost/Analysis /// from a set of in-memory files. #[derive(Debug, Default)] pub struct MockAnalysis { files: Vec<(String, String)>, } impl MockAnalysis { pub fn new() -> MockAnalysis { MockAnalysis::default() } /// Creates `MockAnalysis` using a fixture data in the following format: /// /// ```notrust /// //- /main.rs /// mod foo; /// fn main() {} /// /// //- /foo.rs /// struct Baz; /// ``` pub fn with_files(fixture: &str) -> MockAnalysis { let mut res = MockAnalysis::new(); for entry in parse_fixture(fixture) { res.add_file(&entry.meta, &entry.text); } res } /// Same as `with_files`, but requires that a single file contains a `<|>` marker, /// whose position is also returned. pub fn with_files_and_position(fixture: &str) -> (MockAnalysis, FilePosition) { let mut position = None; let mut res = MockAnalysis::new(); for entry in parse_fixture(fixture) { if entry.text.contains(CURSOR_MARKER) { assert!( position.is_none(), "only one marker (<|>) per fixture is allowed" ); position = Some(res.add_file_with_position(&entry.meta, &entry.text)); } else { res.add_file(&entry.meta, &entry.text); } } let position = position.expect("expected a marker (<|>)"); (res, position) } pub fn add_file(&mut self, path: &str, text: &str) -> FileId { let file_id = FileId((self.files.len() + 1) as u32); self.files.push((path.to_string(), text.to_string())); file_id } pub fn add_file_with_position(&mut self, path: &str, text: &str) -> FilePosition { let (offset, text) = extract_offset(text); let file_id = FileId((self.files.len() + 1) as u32); self.files.push((path.to_string(), text.to_string())); FilePosition { file_id, offset } } pub fn id_of(&self, path: &str) -> FileId { let (idx, _) = self .files .iter() .enumerate() .find(|(_, (p, _text))| path == p) .expect("no file in this mock"); FileId(idx as u32 + 1) } pub fn analysis_host(self) -> AnalysisHost { let mut host = AnalysisHost::default(); let mut file_map = FileMap::default(); let source_root = SourceRootId(0); let mut change = AnalysisChange::new(); change.add_root(source_root); for (path, contents) in self.files.into_iter() { assert!(path.starts_with('/')); let path = RelativePathBuf::from_path(&path[1..]).unwrap(); let file_id = file_map.add(path.clone()); change.add_file(source_root, file_id, path, Arc::new(contents)); } // change.set_file_resolver(Arc::new(file_map)); host.apply_change(change); host } pub fn analysis(self) -> Analysis { self.analysis_host().analysis() } } /// Creates analysis from a multi-file fixture, returns positions marked with <|>. pub fn analysis_and_position(fixture: &str) -> (Analysis, FilePosition) { let (mock, position) = MockAnalysis::with_files_and_position(fixture); (mock.analysis(), position) } /// Creates analysis for a single file. pub fn single_file(code: &str) -> (Analysis, FileId) { let mut mock = MockAnalysis::new(); let file_id = mock.add_file("/main.rs", code); (mock.analysis(), file_id) } /// Creates analysis for a single file, returns position marked with <|>. pub fn single_file_with_position(code: &str) -> (Analysis, FilePosition) { let mut mock = MockAnalysis::new(); let pos = mock.add_file_with_position("/main.rs", code); (mock.analysis(), pos) }