//! Completes mod declarations. use base_db::{SourceDatabaseExt, VfsPath}; use hir::{Module, ModuleSource}; use ide_db::RootDatabase; use super::{completion_context::CompletionContext, completion_item::Completions}; /// Complete mod declaration, i.e. `mod <|> ;` pub(super) fn complete_mod(acc: &mut Completions, ctx: &CompletionContext) { let module_names_for_import = ctx .scope .module() .and_then(|current_module| { let module_path = path_to_closest_containing_module_file(current_module, ctx.db); // TODO kb filter out declarations in possible_sudmobule_names // let declaration_source = current_module.declaration_source(ctx.db); let module_definition_source_file = current_module.definition_source(ctx.db).file_id.original_file(ctx.db); let source_root_id = ctx.db.file_source_root(module_definition_source_file); let source_root = ctx.db.source_root(source_root_id); let directory_to_look_for_submodules = source_root .path_for_file(&module_definition_source_file) .and_then(|module_file_path| get_directory_with_submodules(module_file_path))?; let mod_declaration_candidates = source_root .iter() .filter(|submodule_file| submodule_file != &module_definition_source_file) .filter_map(|submodule_file| { let submodule_path = source_root.path_for_file(&submodule_file)?; if submodule_path.parent()? == directory_to_look_for_submodules { submodule_path.file_name_and_extension() } else { None } }) .filter_map(|file_name_and_extension| { match file_name_and_extension { // TODO kb wrong resolution for nested non-file modules (mod tests { mod <|> }) // TODO kb in src/bin when a module is included into another, // the included file gets "moved" into a directory below and now cannot add any other modules ("mod", Some("rs")) | ("lib", Some("rs")) | ("main", Some("rs")) => None, (file_name, Some("rs")) => Some(file_name.to_owned()), (subdirectory_name, None) => { let mod_rs_path = directory_to_look_for_submodules .join(subdirectory_name)? .join("mod.rs")?; if source_root.file_for_path(&mod_rs_path).is_some() { Some(subdirectory_name.to_owned()) } else { None } } _ => None, } }) .collect::>(); dbg!(mod_declaration_candidates); // TODO kb exlude existing children from the candidates let existing_children = current_module.children(ctx.db).collect::>(); None::> }) .unwrap_or_default(); } fn path_to_closest_containing_module_file( current_module: Module, db: &RootDatabase, ) -> Vec { let mut path = Vec::new(); let mut current_module = Some(current_module); while let Some(ModuleSource::Module(_)) = current_module.map(|module| module.definition_source(db).value) { if let Some(module) = current_module { path.insert(0, module); current_module = module.parent(db); } else { current_module = None; } } path } fn get_directory_with_submodules(module_file_path: &VfsPath) -> Option { let module_directory_path = module_file_path.parent()?; match module_file_path.file_name_and_extension()? { ("mod", Some("rs")) | ("lib", Some("rs")) | ("main", Some("rs")) => { Some(module_directory_path) } (regular_rust_file_name, Some("rs")) => { if matches!( ( module_directory_path .parent() .as_ref() .and_then(|path| path.file_name_and_extension()), module_directory_path.file_name_and_extension(), ), (Some(("src", None)), Some(("bin", None))) ) { // files in /src/bin/ can import each other directly Some(module_directory_path) } else { module_directory_path.join(regular_rust_file_name) } } _ => None, } }