import os import tempfile from pathlib import Path from typing import cast from unittest.mock import Mock, patch import pytest from solidlsp import SolidLanguageServer from solidlsp.language_servers.csharp_language_server import ( CSharpLanguageServer, breadth_first_file_scan, find_solution_or_project_file, ) from solidlsp.ls_config import Language, LanguageServerConfig from solidlsp.ls_utils import SymbolUtils from solidlsp.settings import SolidLSPSettings @pytest.mark.csharp class TestCSharpLanguageServer: @pytest.mark.parametrize("language_server", [Language.CSHARP], indirect=True) def test_find_symbol(self, language_server: SolidLanguageServer) -> None: """Test finding symbols in the full symbol tree.""" symbols = language_server.request_full_symbol_tree() assert SymbolUtils.symbol_tree_contains_name(symbols, "Program"), "Program class not found in symbol tree" assert SymbolUtils.symbol_tree_contains_name(symbols, "Calculator"), "Calculator class not found in symbol tree" assert SymbolUtils.symbol_tree_contains_name(symbols, "Add"), "Add method not found in symbol tree" @pytest.mark.parametrize("language_server", [Language.CSHARP], indirect=True) def test_get_document_symbols(self, language_server: SolidLanguageServer) -> None: """Test getting document symbols from a C# file.""" file_path = os.path.join("Program.cs") symbols = language_server.request_document_symbols(file_path) # Check that we have symbols assert len(symbols) > 0 # Flatten the symbols if they're nested if isinstance(symbols[0], list): symbols = symbols[0] # Look for expected classes class_names = [s.get("name") for s in symbols if s.get("kind") == 5] # 5 is class assert "Program" in class_names assert "Calculator" in class_names @pytest.mark.parametrize("language_server", [Language.CSHARP], indirect=True) def test_find_referencing_symbols(self, language_server: SolidLanguageServer) -> None: """Test finding references using symbol selection range.""" file_path = os.path.join("Program.cs") symbols = language_server.request_document_symbols(file_path) add_symbol = None # Handle nested symbol structure symbol_list = symbols[0] if symbols and isinstance(symbols[0], list) else symbols for sym in symbol_list: if sym.get("name") == "Add": add_symbol = sym break assert add_symbol is not None, "Could not find 'Add' method symbol in Program.cs" sel_start = add_symbol["selectionRange"]["start"] refs = language_server.request_references(file_path, sel_start["line"], sel_start["character"] + 1) assert any( "Program.cs" in ref.get("relativePath", "") for ref in refs ), "Program.cs should reference Add method (tried all positions in selectionRange)" @pytest.mark.parametrize("language_server", [Language.CSHARP], indirect=True) def test_nested_namespace_symbols(self, language_server: SolidLanguageServer) -> None: """Test getting symbols from nested namespace.""" file_path = os.path.join("Models", "Person.cs") symbols = language_server.request_document_symbols(file_path) # Check that we have symbols assert len(symbols) > 0 # Flatten the symbols if they're nested if isinstance(symbols[0], list): symbols = symbols[0] # Check that we have the Person class assert any(s.get("name") == "Person" and s.get("kind") == 5 for s in symbols) # Check for properties and methods symbol_names = [s.get("name") for s in symbols] assert "Name" in symbol_names assert "Age" in symbol_names assert "Email" in symbol_names assert "ToString" in symbol_names assert "IsAdult" in symbol_names @pytest.mark.parametrize("language_server", [Language.CSHARP], indirect=True) def test_find_referencing_symbols_across_files(self, language_server: SolidLanguageServer) -> None: """Test finding references to Calculator.Subtract method across files.""" # First, find the Subtract method in Program.cs file_path = os.path.join("Program.cs") symbols = language_server.request_document_symbols(file_path) # Flatten the symbols if they're nested symbol_list = symbols[0] if symbols and isinstance(symbols[0], list) else symbols subtract_symbol = None for sym in symbol_list: if sym.get("name") == "Subtract": subtract_symbol = sym break assert subtract_symbol is not None, "Could not find 'Subtract' method symbol in Program.cs" # Get references to the Subtract method sel_start = subtract_symbol["selectionRange"]["start"] refs = language_server.request_references(file_path, sel_start["line"], sel_start["character"] + 1) # Should find references in both Program.cs and Models/Person.cs ref_files = cast(list[str], [ref.get("relativePath", "") for ref in refs]) print(f"Found references: {refs}") print(f"Reference files: {ref_files}") # Check that we have references from both files assert any("Program.cs" in ref_file for ref_file in ref_files), "Should find reference in Program.cs" assert any( os.path.join("Models", "Person.cs") in ref_file for ref_file in ref_files ), "Should find reference in Models/Person.cs where Calculator.Subtract is called" # check for a second time, since the first call may trigger initialization and change the state of the LS refs_second_call = language_server.request_references(file_path, sel_start["line"], sel_start["character"] + 1) assert refs_second_call == refs, "Second call to request_references should return the same results" @pytest.mark.csharp class TestCSharpSolutionProjectOpening: """Test C# language server solution and project opening functionality.""" def test_breadth_first_file_scan(self): """Test that breadth_first_file_scan finds files in breadth-first order.""" with tempfile.TemporaryDirectory() as temp_dir: temp_path = Path(temp_dir) # Create test directory structure (temp_path / "file1.txt").touch() (temp_path / "subdir1").mkdir() (temp_path / "subdir1" / "file2.txt").touch() (temp_path / "subdir2").mkdir() (temp_path / "subdir2" / "file3.txt").touch() (temp_path / "subdir1" / "subdir3").mkdir() (temp_path / "subdir1" / "subdir3" / "file4.txt").touch() # Scan files files = list(breadth_first_file_scan(str(temp_path))) filenames = [os.path.basename(f) for f in files] # Should find all files assert len(files) == 4 assert "file1.txt" in filenames assert "file2.txt" in filenames assert "file3.txt" in filenames assert "file4.txt" in filenames # file1.txt should be found first (breadth-first) assert filenames[0] == "file1.txt" def test_find_solution_or_project_file_with_solution(self): """Test that find_solution_or_project_file prefers .sln files.""" with tempfile.TemporaryDirectory() as temp_dir: temp_path = Path(temp_dir) # Create both .sln and .csproj files solution_file = temp_path / "MySolution.sln" project_file = temp_path / "MyProject.csproj" solution_file.touch() project_file.touch() result = find_solution_or_project_file(str(temp_path)) # Should prefer .sln file assert result == str(solution_file) def test_find_solution_or_project_file_with_project_only(self): """Test that find_solution_or_project_file falls back to .csproj files.""" with tempfile.TemporaryDirectory() as temp_dir: temp_path = Path(temp_dir) # Create only .csproj file project_file = temp_path / "MyProject.csproj" project_file.touch() result = find_solution_or_project_file(str(temp_path)) # Should return .csproj file assert result == str(project_file) def test_find_solution_or_project_file_with_nested_files(self): """Test that find_solution_or_project_file finds files in subdirectories.""" with tempfile.TemporaryDirectory() as temp_dir: temp_path = Path(temp_dir) # Create nested structure (temp_path / "src").mkdir() solution_file = temp_path / "src" / "MySolution.sln" solution_file.touch() result = find_solution_or_project_file(str(temp_path)) # Should find nested .sln file assert result == str(solution_file) def test_find_solution_or_project_file_returns_none_when_no_files(self): """Test that find_solution_or_project_file returns None when no .sln or .csproj files exist.""" with tempfile.TemporaryDirectory() as temp_dir: temp_path = Path(temp_dir) # Create some other files (temp_path / "readme.txt").touch() (temp_path / "other.cs").touch() result = find_solution_or_project_file(str(temp_path)) # Should return None assert result is None def test_find_solution_or_project_file_prefers_solution_breadth_first(self): """Test that solution files are preferred even when deeper in the tree.""" with tempfile.TemporaryDirectory() as temp_dir: temp_path = Path(temp_dir) # Create .csproj at root and .sln in subdirectory project_file = temp_path / "MyProject.csproj" project_file.touch() (temp_path / "src").mkdir() solution_file = temp_path / "src" / "MySolution.sln" solution_file.touch() result = find_solution_or_project_file(str(temp_path)) # Should still prefer .sln file even though it's deeper assert result == str(solution_file) @patch("solidlsp.language_servers.csharp_language_server.CSharpLanguageServer._ensure_server_installed") @patch("solidlsp.language_servers.csharp_language_server.CSharpLanguageServer._start_server") def test_csharp_language_server_logs_solution_discovery(self, mock_start_server, mock_ensure_server_installed): """Test that CSharpLanguageServer logs solution/project discovery during initialization.""" mock_ensure_server_installed.return_value = ("/usr/bin/dotnet", "/path/to/server.dll") # Create test directory with solution file with tempfile.TemporaryDirectory() as temp_dir: temp_path = Path(temp_dir) solution_file = temp_path / "TestSolution.sln" solution_file.touch() # Mock logger to capture log messages mock_logger = Mock() mock_config = Mock(spec=LanguageServerConfig) mock_config.ignored_paths = [] # Create CSharpLanguageServer instance mock_settings = Mock(spec=SolidLSPSettings) mock_settings.ls_resources_dir = "/tmp/test_ls_resources" mock_settings.project_data_relative_path = "project_data" CSharpLanguageServer(mock_config, mock_logger, str(temp_path), mock_settings) # Verify that logger was called with solution file discovery mock_logger.log.assert_any_call(f"Found solution/project file: {solution_file}", 20) # logging.INFO @patch("solidlsp.language_servers.csharp_language_server.CSharpLanguageServer._ensure_server_installed") @patch("solidlsp.language_servers.csharp_language_server.CSharpLanguageServer._start_server") def test_csharp_language_server_logs_no_solution_warning(self, mock_start_server, mock_ensure_server_installed): """Test that CSharpLanguageServer logs warning when no solution/project files are found.""" # Mock the server installation mock_ensure_server_installed.return_value = ("/usr/bin/dotnet", "/path/to/server.dll") # Create empty test directory with tempfile.TemporaryDirectory() as temp_dir: temp_path = Path(temp_dir) # Mock logger to capture log messages mock_logger = Mock() mock_config = Mock(spec=LanguageServerConfig) mock_config.ignored_paths = [] # Create CSharpLanguageServer instance mock_settings = Mock(spec=SolidLSPSettings) mock_settings.ls_resources_dir = "/tmp/test_ls_resources" mock_settings.project_data_relative_path = "project_data" CSharpLanguageServer(mock_config, mock_logger, str(temp_path), mock_settings) # Verify that logger was called with warning about no solution/project files mock_logger.log.assert_any_call( "No .sln or .csproj file found, language server will attempt auto-discovery", 30 # logging.WARNING ) def test_solution_and_project_opening_with_real_test_repo(self): """Test solution and project opening with the actual C# test repository.""" # Get the C# test repo path test_repo_path = Path(__file__).parent.parent.parent / "resources" / "repos" / "csharp" / "test_repo" if not test_repo_path.exists(): pytest.skip("C# test repository not found") # Test solution/project discovery in the real test repo result = find_solution_or_project_file(str(test_repo_path)) # Should find either .sln or .csproj file assert result is not None assert result.endswith((".sln", ".csproj")) # Verify the file actually exists assert os.path.exists(result)