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import pytest
from serena.project import Project
from solidlsp.ls import SolidLanguageServer
from solidlsp.ls_config import Language
from solidlsp.ls_types import UnifiedSymbolInformation
from . import CLI_FAIL, CORE_PATH, UTILS_PATH
@pytest.mark.clojure
@pytest.mark.skipif(CLI_FAIL, reason=f"Clojure CLI not available: {CLI_FAIL}")
class TestLanguageServerBasics:
@pytest.mark.parametrize("language_server", [Language.CLOJURE], indirect=True)
def test_basic_definition(self, language_server: SolidLanguageServer):
"""
Test finding definition of 'greet' function call in core.clj
"""
result = language_server.request_definition(CORE_PATH, 20, 12) # Position of 'greet' in (greet "World")
assert isinstance(result, list)
assert len(result) >= 1
definition = result[0]
assert definition["relativePath"] == CORE_PATH
assert definition["range"]["start"]["line"] == 2, "Should find the definition of greet function at line 2"
@pytest.mark.parametrize("language_server", [Language.CLOJURE], indirect=True)
def test_cross_file_references(self, language_server: SolidLanguageServer):
"""
Test finding references to 'multiply' function from core.clj
"""
result = language_server.request_references(CORE_PATH, 12, 6)
assert isinstance(result, list) and len(result) >= 2, "Should find definition + usage in utils.clj"
usage_found = any(
item["relativePath"] == UTILS_PATH and item["range"]["start"]["line"] == 6 # multiply usage in calculate-area
for item in result
)
assert usage_found, "Should find multiply usage in utils.clj"
@pytest.mark.parametrize("language_server", [Language.CLOJURE], indirect=True)
def test_completions(self, language_server: SolidLanguageServer):
with language_server.open_file(UTILS_PATH):
# After "core/" in calculate-area
result = language_server.request_completions(UTILS_PATH, 6, 8)
assert isinstance(result, list) and len(result) > 0
completion_texts = [item["completionText"] for item in result]
assert any("multiply" in text for text in completion_texts), "Should find 'multiply' function in completions after 'core/'"
@pytest.mark.parametrize("language_server", [Language.CLOJURE], indirect=True)
def test_document_symbols(self, language_server: SolidLanguageServer):
symbols, _ = language_server.request_document_symbols(CORE_PATH)
assert isinstance(symbols, list) and len(symbols) >= 4, "greet, add, multiply, -main functions"
# Check that we find the expected function symbols
symbol_names = [symbol["name"] for symbol in symbols]
expected_functions = ["greet", "add", "multiply", "-main"]
for func_name in expected_functions:
assert func_name in symbol_names, f"Should find {func_name} function in symbols"
@pytest.mark.parametrize("language_server", [Language.CLOJURE], indirect=True)
def test_hover(self, language_server: SolidLanguageServer):
"""Test hover on greet function"""
result = language_server.request_hover(CORE_PATH, 2, 7)
assert result is not None, "Hover should return information for greet function"
assert "contents" in result
# Should contain function signature or documentation
contents = result["contents"]
if isinstance(contents, str):
assert "greet" in contents.lower()
elif isinstance(contents, dict) and "value" in contents:
assert "greet" in contents["value"].lower()
else:
assert False, f"Unexpected contents format: {type(contents)}"
@pytest.mark.parametrize("language_server", [Language.CLOJURE], indirect=True)
def test_workspace_symbols(self, language_server: SolidLanguageServer):
# Search for functions containing "add"
result = language_server.request_workspace_symbol("add")
assert isinstance(result, list) and len(result) > 0, "Should find at least one symbol containing 'add'"
# Should find the 'add' function
symbol_names = [symbol["name"] for symbol in result]
assert any("add" in name.lower() for name in symbol_names), f"Should find 'add' function in symbols: {symbol_names}"
@pytest.mark.parametrize("language_server", [Language.CLOJURE], indirect=True)
def test_namespace_functions(self, language_server: SolidLanguageServer):
"""Test definition lookup for core/greet usage in utils.clj"""
# Position of 'greet' in core/greet call
result = language_server.request_definition(UTILS_PATH, 11, 25)
assert isinstance(result, list)
assert len(result) >= 1
definition = result[0]
assert definition["relativePath"] == CORE_PATH, "Should find the definition of greet in core.clj"
@pytest.mark.parametrize("language_server", [Language.CLOJURE], indirect=True)
def test_request_references_with_content(self, language_server: SolidLanguageServer):
"""Test references to multiply function with content"""
references = language_server.request_references(CORE_PATH, 12, 6)
result = [
language_server.retrieve_content_around_line(ref1["relativePath"], ref1["range"]["start"]["line"], 3, 0) for ref1 in references
]
assert result is not None, "Should find references with content"
assert isinstance(result, list)
assert len(result) >= 2, "Should find definition + usage in utils.clj"
for ref in result:
assert ref.source_file_path is not None, "Each reference should have a source file path"
content_str = ref.to_display_string()
assert len(content_str) > 0, "Content should not be empty"
# Verify we find the reference in utils.clj with context
utils_refs = [ref for ref in result if ref.source_file_path and "utils.clj" in ref.source_file_path]
assert len(utils_refs) > 0, "Should find reference in utils.clj"
# The context should contain the calculate-area function
utils_content = utils_refs[0].to_display_string()
assert "calculate-area" in utils_content
@pytest.mark.parametrize("language_server", [Language.CLOJURE], indirect=True)
def test_request_full_symbol_tree(self, language_server: SolidLanguageServer):
"""Test retrieving the full symbol tree for project overview
We just check that we find some expected symbols.
"""
result = language_server.request_full_symbol_tree()
assert result is not None, "Should return symbol tree"
assert isinstance(result, list), "Symbol tree should be a list"
assert len(result) > 0, "Should find symbols in the project"
def traverse_symbols(symbols, indent=0):
"""Recursively traverse symbols to print their structure"""
info = []
for s in symbols:
name = getattr(s, "name", "NO_NAME")
kind = getattr(s, "kind", "NO_KIND")
info.append(f"{' ' * indent}Symbol: {name}, Kind: {kind}")
if hasattr(s, "children") and s.children:
info.append(" " * indent + "Children:")
info.extend(traverse_symbols(s.children, indent + 2))
return info
def list_all_symbols(symbols: list[UnifiedSymbolInformation]):
found = []
for symbol in symbols:
found.append(symbol["name"])
found.extend(list_all_symbols(symbol["children"]))
return found
all_symbol_names = list_all_symbols(result)
expected_symbols = ["greet", "add", "multiply", "-main", "calculate-area", "format-greeting", "sum-list"]
found_expected = [name for name in expected_symbols if any(name in symbol_name for symbol_name in all_symbol_names)]
if len(found_expected) < 7:
pytest.fail(
f"Expected to find at least 3 symbols from {expected_symbols}, but found: {found_expected}.\n"
f"All symbol names: {all_symbol_names}\n"
f"Symbol tree structure:\n{traverse_symbols(result)}"
)
@pytest.mark.parametrize("language_server", [Language.CLOJURE], indirect=True)
def test_request_referencing_symbols(self, language_server: SolidLanguageServer):
"""Test finding symbols that reference a given symbol
Finds references to the 'multiply' function.
"""
result = language_server.request_referencing_symbols(CORE_PATH, 12, 6)
assert isinstance(result, list) and len(result) > 0, "Should find at least one referencing symbol"
found_relevant_references = False
for ref in result:
if hasattr(ref, "symbol") and "calculate-area" in ref.symbol["name"]:
found_relevant_references = True
break
assert found_relevant_references, f"Should have found calculate-area referencing multiply, but got: {result}"
class TestProjectBasics:
@pytest.mark.parametrize("project", [Language.CLOJURE], indirect=True)
def test_retrieve_content_around_line(self, project: Project):
"""Test retrieving content around specific lines"""
# Test retrieving content around the greet function definition (line 2)
result = project.retrieve_content_around_line(CORE_PATH, 2, 2)
assert result is not None, "Should retrieve content around line 2"
content_str = result.to_display_string()
assert "greet" in content_str, "Should contain the greet function definition"
assert "defn" in content_str, "Should contain defn keyword"
# Test retrieving content around multiply function (around line 13)
result = project.retrieve_content_around_line(CORE_PATH, 13, 1)
assert result is not None, "Should retrieve content around line 13"
content_str = result.to_display_string()
assert "multiply" in content_str, "Should contain multiply function"
@pytest.mark.parametrize("project", [Language.CLOJURE], indirect=True)
def test_search_files_for_pattern(self, project: Project) -> None:
result = project.search_source_files_for_pattern("defn.*greet")
assert result is not None, "Pattern search should return results"
assert len(result) > 0, "Should find at least one match for 'defn.*greet'"
core_matches = [match for match in result if match.source_file_path and "core.clj" in match.source_file_path]
assert len(core_matches) > 0, "Should find greet function in core.clj"
result = project.search_source_files_for_pattern(":require")
assert result is not None, "Should find require statements"
utils_matches = [match for match in result if match.source_file_path and "utils.clj" in match.source_file_path]
assert len(utils_matches) > 0, "Should find require statement in utils.clj"
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