import os import io import re import sys import json import traceback import platform jediPreview = False class RedirectStdout(object): def __init__(self, new_stdout=None): """If stdout is None, redirect to /dev/null""" self._new_stdout = new_stdout or open(os.devnull, 'w') def __enter__(self): sys.stdout.flush() self.oldstdout_fno = os.dup(sys.stdout.fileno()) os.dup2(self._new_stdout.fileno(), 1) def __exit__(self, exc_type, exc_value, traceback): self._new_stdout.flush() os.dup2(self.oldstdout_fno, 1) os.close(self.oldstdout_fno) class JediCompletion(object): basic_types = { 'module': 'import', 'instance': 'variable', 'statement': 'value', 'param': 'variable', } def __init__(self): self.default_sys_path = sys.path self.environment = jedi.api.environment.Environment(sys.prefix, sys.executable) self._input = io.open(sys.stdin.fileno(), encoding='utf-8') if (os.path.sep == '/') and (platform.uname()[2].find('Microsoft') > -1): # WSL; does not support UNC paths self.drive_mount = '/mnt/' elif sys.platform == 'cygwin': # cygwin self.drive_mount = '/cygdrive/' else: # Do no normalization, e.g. Windows build of Python. # Could add additional test: ((os.path.sep == '/') and os.path.isdir('/mnt/c')) # However, this may have more false positives trying to identify Windows/*nix hybrids self.drive_mount = '' def _get_definition_type(self, definition): # if definition.type not in ['import', 'keyword'] and is_built_in(): # return 'builtin' try: if definition.type in ['statement'] and definition.name.isupper(): return 'constant' return self.basic_types.get(definition.type, definition.type) except Exception: return 'builtin' def _additional_info(self, completion): """Provide additional information about the completion object.""" if not hasattr(completion, '_definition') or completion._definition is None: return '' if completion.type == 'statement': nodes_to_display = ['InstanceElement', 'String', 'Node', 'Lambda', 'Number'] return ''.join(c.get_code() for c in completion._definition.children if type(c).__name__ in nodes_to_display).replace('\n', '') return '' @classmethod def _get_top_level_module(cls, path): """Recursively walk through directories looking for top level module. Jedi will use current filepath to look for another modules at same path, but it will not be able to see modules **above**, so our goal is to find the higher python module available from filepath. """ _path, _ = os.path.split(path) if os.path.isfile(os.path.join(_path, '__init__.py')): return cls._get_top_level_module(_path) return path def _generate_signature(self, completion): """Generate signature with function arguments. """ if completion.type in ['module'] or not hasattr(completion, 'params'): return '' return '%s(%s)' % ( completion.name, ', '.join(p.description[6:] for p in completion.params if p)) def _get_call_signatures(self, script): """Extract call signatures from jedi.api.Script object in failsafe way. Returns: Tuple with original signature object, name and value. """ _signatures = [] try: call_signatures = script.call_signatures() except KeyError: call_signatures = [] except : call_signatures = [] for signature in call_signatures: for pos, param in enumerate(signature.params): if not param.name: continue name = self._get_param_name(param) if param.name == 'self' and pos == 0: continue if name.startswith('*'): continue value = self._get_param_value(param) _signatures.append((signature, name, value)) return _signatures def _get_param_name(self, p): if(p.name.startswith('param ')): return p.name[6:] # drop leading 'param ' return p.name def _get_param_value(self, p): pair = p.description.split('=') if(len(pair) > 1): return pair[1] return None def _get_call_signatures_with_args(self, script): """Extract call signatures from jedi.api.Script object in failsafe way. Returns: Array with dictionary """ _signatures = [] try: call_signatures = script.call_signatures() except KeyError: call_signatures = [] for signature in call_signatures: sig = {"name": "", "description": "", "docstring": "", "paramindex": 0, "params": [], "bracketstart": []} sig["description"] = signature.description try: sig["docstring"] = signature.docstring() sig["raw_docstring"] = signature.docstring(raw=True) except Exception: sig["docstring"] = '' sig["raw_docstring"] = '' sig["name"] = signature.name sig["paramindex"] = signature.index sig["bracketstart"].append(signature.index) _signatures.append(sig) for pos, param in enumerate(signature.params): if not param.name: continue name = self._get_param_name(param) if param.name == 'self' and pos == 0: continue value = self._get_param_value(param) paramDocstring = '' try: paramDocstring = param.docstring() except Exception: paramDocstring = '' sig["params"].append({"name": name, "value": value, "docstring": paramDocstring, "description": param.description}) return _signatures def _serialize_completions(self, script, identifier=None, prefix=''): """Serialize response to be read from VSCode. Args: script: Instance of jedi.api.Script object. identifier: Unique completion identifier to pass back to VSCode. prefix: String with prefix to filter function arguments. Used only when fuzzy matcher turned off. Returns: Serialized string to send to VSCode. """ _completions = [] for signature, name, value in self._get_call_signatures(script): if not self.fuzzy_matcher and not name.lower().startswith( prefix.lower()): continue _completion = { 'type': 'property', 'raw_type': '', 'rightLabel': self._additional_info(signature) } _completion['description'] = '' _completion['raw_docstring'] = '' # we pass 'text' here only for fuzzy matcher if value: _completion['snippet'] = '%s=${1:%s}$0' % (name, value) _completion['text'] = '%s=' % (name) else: _completion['snippet'] = '%s=$1$0' % name _completion['text'] = name _completion['displayText'] = name _completions.append(_completion) try: completions = script.completions() except KeyError: completions = [] except : completions = [] for completion in completions: try: _completion = { 'text': completion.name, 'type': self._get_definition_type(completion), 'raw_type': completion.type, 'rightLabel': self._additional_info(completion) } except Exception: continue for c in _completions: if c['text'] == _completion['text']: c['type'] = _completion['type'] c['raw_type'] = _completion['raw_type'] if any([c['text'].split('=')[0] == _completion['text'] for c in _completions]): # ignore function arguments we already have continue _completions.append(_completion) return json.dumps({'id': identifier, 'results': _completions}) def _serialize_methods(self, script, identifier=None, prefix=''): _methods = [] try: completions = script.completions() except KeyError: return [] for completion in completions: if completion.name == '__autocomplete_python': instance = completion.parent().name break else: instance = 'self.__class__' for completion in completions: params = [] if hasattr(completion, 'params'): params = [p.description for p in completion.params if p] if completion.parent().type == 'class': _methods.append({ 'parent': completion.parent().name, 'instance': instance, 'name': completion.name, 'params': params, 'moduleName': completion.module_name, 'fileName': completion.module_path, 'line': completion.line, 'column': completion.column, }) return json.dumps({'id': identifier, 'results': _methods}) def _serialize_arguments(self, script, identifier=None): """Serialize response to be read from VSCode. Args: script: Instance of jedi.api.Script object. identifier: Unique completion identifier to pass back to VSCode. Returns: Serialized string to send to VSCode. """ return json.dumps({"id": identifier, "results": self._get_call_signatures_with_args(script)}) def _top_definition(self, definition): for d in definition.goto_assignments(): if d == definition: continue if d.type == 'import': return self._top_definition(d) else: return d return definition def _extract_range_jedi_0_11_1(self, definition): from parso.utils import split_lines # get the scope range try: if definition.type in ['class', 'function']: tree_name = definition._name.tree_name scope = tree_name.get_definition() start_line = scope.start_pos[0] - 1 start_column = scope.start_pos[1] # get the lines code = scope.get_code(include_prefix=False) lines = split_lines(code) # trim the lines lines = '\n'.join(lines).rstrip().split('\n') end_line = start_line + len(lines) - 1 end_column = len(lines[-1]) - 1 else: symbol = definition._name.tree_name start_line = symbol.start_pos[0] - 1 start_column = symbol.start_pos[1] end_line = symbol.end_pos[0] - 1 end_column = symbol.end_pos[1] return { 'start_line': start_line, 'start_column': start_column, 'end_line': end_line, 'end_column': end_column } except Exception as e: return { 'start_line': definition.line - 1, 'start_column': definition.column, 'end_line': definition.line - 1, 'end_column': definition.column } def _extract_range(self, definition): """Provides the definition range of a given definition For regular symbols it returns the start and end location of the characters making up the symbol. For scoped containers it will return the entire definition of the scope. The scope that jedi provides ends with the first character of the next scope so it's not ideal. For vscode we need the scope to end with the last character of actual code. That's why we extract the lines that make up our scope and trim the trailing whitespace. """ return self._extract_range_jedi_0_11_1(definition) def _get_definitionsx(self, definitions, identifier=None, ignoreNoModulePath=False): """Serialize response to be read from VSCode. Args: definitions: List of jedi.api.classes.Definition objects. identifier: Unique completion identifier to pass back to VSCode. Returns: Serialized string to send to VSCode. """ _definitions = [] for definition in definitions: try: if definition.type == 'import': definition = self._top_definition(definition) definitionRange = { 'start_line': 0, 'start_column': 0, 'end_line': 0, 'end_column': 0 } module_path = '' if hasattr(definition, 'module_path') and definition.module_path: module_path = definition.module_path definitionRange = self._extract_range(definition) else: if not ignoreNoModulePath: continue try: parent = definition.parent() container = parent.name if parent.type != 'module' else '' except Exception: container = '' try: docstring = definition.docstring() rawdocstring = definition.docstring(raw=True) except Exception: docstring = '' rawdocstring = '' _definition = { 'text': definition.name, 'type': self._get_definition_type(definition), 'raw_type': definition.type, 'fileName': module_path, 'container': container, 'range': definitionRange, 'description': definition.description, 'docstring': docstring, 'raw_docstring': rawdocstring, 'signature': self._generate_signature(definition) } _definitions.append(_definition) except Exception as e: pass return _definitions def _serialize_definitions(self, definitions, identifier=None): """Serialize response to be read from VSCode. Args: definitions: List of jedi.api.classes.Definition objects. identifier: Unique completion identifier to pass back to VSCode. Returns: Serialized string to send to VSCode. """ _definitions = [] for definition in definitions: try: if definition.module_path: if definition.type == 'import': definition = self._top_definition(definition) if not definition.module_path: continue try: parent = definition.parent() container = parent.name if parent.type != 'module' else '' except Exception: container = '' try: docstring = definition.docstring() rawdocstring = definition.docstring(raw=True) except Exception: docstring = '' rawdocstring = '' _definition = { 'text': definition.name, 'type': self._get_definition_type(definition), 'raw_type': definition.type, 'fileName': definition.module_path, 'container': container, 'range': self._extract_range(definition), 'description': definition.description, 'docstring': docstring, 'raw_docstring': rawdocstring } _definitions.append(_definition) except Exception as e: pass return json.dumps({'id': identifier, 'results': _definitions}) def _serialize_tooltip(self, definitions, identifier=None): _definitions = [] for definition in definitions: signature = definition.name description = None if definition.type in ['class', 'function']: signature = self._generate_signature(definition) try: description = definition.docstring(raw=True).strip() except Exception: description = '' if not description and not hasattr(definition, 'get_line_code'): # jedi returns an empty string for compiled objects description = definition.docstring().strip() if definition.type == 'module': signature = definition.full_name try: description = definition.docstring(raw=True).strip() except Exception: description = '' if not description and hasattr(definition, 'get_line_code'): # jedi returns an empty string for compiled objects description = definition.docstring().strip() _definition = { 'type': self._get_definition_type(definition), 'text': definition.name, 'description': description, 'docstring': description, 'signature': signature } _definitions.append(_definition) return json.dumps({'id': identifier, 'results': _definitions}) def _serialize_usages(self, usages, identifier=None): _usages = [] for usage in usages: _usages.append({ 'name': usage.name, 'moduleName': usage.module_name, 'fileName': usage.module_path, 'line': usage.line, 'column': usage.column, }) return json.dumps({'id': identifier, 'results': _usages}) def _deserialize(self, request): """Deserialize request from VSCode. Args: request: String with raw request from VSCode. Returns: Python dictionary with request data. """ return json.loads(request) def _set_request_config(self, config): """Sets config values for current request. This includes sys.path modifications which is getting restored to default value on each request so each project should be isolated from each other. Args: config: Dictionary with config values. """ sys.path = self.default_sys_path self.use_snippets = config.get('useSnippets') self.show_doc_strings = config.get('showDescriptions', True) self.fuzzy_matcher = config.get('fuzzyMatcher', False) jedi.settings.case_insensitive_completion = config.get( 'caseInsensitiveCompletion', True) for path in config.get('extraPaths', []): if path and path not in sys.path: sys.path.insert(0, path) def _normalize_request_path(self, request): """Normalize any Windows paths received by a *nix build of Python. Does not alter the reverse os.path.sep=='\\', i.e. *nix paths received by a Windows build of Python. """ if 'path' in request: if not self.drive_mount: return newPath = request['path'].replace('\\', '/') if newPath[0:1] == '/': # is absolute path with no drive letter request['path'] = newPath elif newPath[1:2] == ':': # is path with drive letter, only absolute can be mapped request['path'] = self.drive_mount + newPath[0:1].lower() + newPath[2:] else: # is relative path request['path'] = newPath def _process_request(self, request): """Accept serialized request from VSCode and write response. """ request = self._deserialize(request) self._set_request_config(request.get('config', {})) self._normalize_request_path(request) path = self._get_top_level_module(request.get('path', '')) if len(path) > 0 and path not in sys.path: sys.path.insert(0, path) lookup = request.get('lookup', 'completions') if lookup == 'names': return self._serialize_definitions( jedi.api.names( source=request.get('source', None), path=request.get('path', ''), all_scopes=True), request['id']) script = jedi.Script( source=request.get('source', None), line=request['line'] + 1, column=request['column'], path=request.get('path', ''), sys_path=sys.path, environment=self.environment) if lookup == 'definitions': defs = self._get_definitionsx(script.goto_assignments(follow_imports=True), request['id']) return json.dumps({'id': request['id'], 'results': defs}) if lookup == 'tooltip': if jediPreview: defs = [] try: defs = self._get_definitionsx(script.goto_definitions(), request['id'], True) except: pass try: if len(defs) == 0: defs = self._get_definitionsx(script.goto_assignments(), request['id'], True) except: pass return json.dumps({'id': request['id'], 'results': defs}) else: try: return self._serialize_tooltip(script.goto_definitions(), request['id']) except: return json.dumps({'id': request['id'], 'results': []}) elif lookup == 'arguments': return self._serialize_arguments( script, request['id']) elif lookup == 'usages': return self._serialize_usages( script.usages(), request['id']) elif lookup == 'methods': return self._serialize_methods(script, request['id'], request.get('prefix', '')) else: return self._serialize_completions(script, request['id'], request.get('prefix', '')) def _write_response(self, response): sys.stdout.write(response + '\n') sys.stdout.flush() def watch(self): while True: try: rq = self._input.readline() if len(rq) == 0: # Reached EOF - indication our parent process is gone. sys.stderr.write('Received EOF from the standard input,exiting' + '\n') sys.stderr.flush() return with RedirectStdout(): response = self._process_request(rq) self._write_response(response) except Exception: sys.stderr.write(traceback.format_exc() + '\n') sys.stderr.flush() if __name__ == '__main__': cachePrefix = 'v' modulesToLoad = '' if len(sys.argv) > 2 and sys.argv[1] == 'custom': jediPath = sys.argv[2] jediPreview = True cachePrefix = 'custom_v' if len(sys.argv) > 3: modulesToLoad = sys.argv[3] else: #release jediPath = os.path.dirname(__file__) if len(sys.argv) > 1: modulesToLoad = sys.argv[1] sys.path.insert(0, jediPath) import jedi if jediPreview: jedi.settings.cache_directory = os.path.join( jedi.settings.cache_directory, cachePrefix + jedi.__version__.replace('.', '')) # remove jedi from path after we import it so it will not be completed sys.path.pop(0) if len(modulesToLoad) > 0: jedi.preload_module(*modulesToLoad.split(',')) JediCompletion().watch()