Mercurial Repositories > eric / file revision
src/eric7/Plugins/CheckerPlugins/CodeStyleChecker/CodeStyleChecker.py@3f23dbf37dbe
src/eric7/Plugins/CheckerPlugins/CodeStyleChecker/CodeStyleChecker.py
Fri, 04 Nov 2022 13:52:26 +0100
- author
- Detlev Offenbach <detlev@die-offenbachs.de>
- date
- Fri, 04 Nov 2022 13:52:26 +0100
- branch
- eric7
- changeset 9473
- 3f23dbf37dbe
- parent 9292
- a5c8a0213fe3
- child 9482
- a2bc06a54d9d
- permissions
- -rw-r--r--
Resorted the import statements using isort.
# -*- coding: utf-8 -*- # Copyright (c) 2011 - 2022 Detlev Offenbach <detlev@die-offenbachs.de> # """ Module implementing the code style checker. """ import ast import contextlib import multiprocessing import queue import sys import pycodestyle from Complexity.ComplexityChecker import ComplexityChecker from DocStyle.DocStyleChecker import DocStyleChecker from Imports.ImportsChecker import ImportsChecker from Miscellaneous.MiscellaneousChecker import MiscellaneousChecker from Naming.NamingStyleChecker import NamingStyleChecker from PathLib.PathlibChecker import PathlibChecker from Security.SecurityChecker import SecurityChecker from Simplify.SimplifyChecker import SimplifyChecker # register the name checker pycodestyle.register_check(NamingStyleChecker, NamingStyleChecker.Codes) def initService(): """ Initialize the service and return the entry point. @return the entry point for the background client (function) """ return codeStyleCheck def initBatchService(): """ Initialize the batch service and return the entry point. @return the entry point for the background client (function) """ return codeStyleBatchCheck class CodeStyleCheckerReport(pycodestyle.BaseReport): """ Class implementing a special report to be used with our dialog. """ def __init__(self, options): """ Constructor @param options options for the report (optparse.Values) """ super().__init__(options) self.__repeat = options.repeat self.errors = [] def error_args(self, line_number, offset, code, check, *args): """ Public method to collect the error messages. @param line_number line number of the issue (integer) @param offset position within line of the issue (integer) @param code message code (string) @param check reference to the checker function (function) @param args arguments for the message (list) @return error code (string) """ code = super().error_args(line_number, offset, code, check, *args) if code and (self.counters[code] == 1 or self.__repeat): self.errors.append( { "file": self.filename, "line": line_number, "offset": offset, "code": code, "args": args, } ) return code def extractLineFlags(line, startComment="#", endComment="", flagsLine=False): """ Function to extract flags starting and ending with '__' from a line comment. @param line line to extract flags from (string) @param startComment string identifying the start of the comment (string) @param endComment string identifying the end of a comment (string) @param flagsLine flag indicating to check for a flags only line (bool) @return list containing the extracted flags (list of strings) """ flags = [] if not flagsLine or (flagsLine and line.strip().startswith(startComment)): pos = line.rfind(startComment) if pos >= 0: comment = line[pos + len(startComment) :].strip() if endComment: endPos = line.rfind(endComment) if endPos >= 0: comment = comment[:endPos] flags = [ f.strip() for f in comment.split() if (f.startswith("__") and f.endswith("__")) ] flags += [ f.strip().lower() for f in comment.split() if f in ("noqa", "NOQA", "nosec", "NOSEC", "secok", "SECOK") ] return flags def ignoreCode(code, lineFlags): """ Function to check, if the given code should be ignored as per line flags. @param code error code to be checked @type str @param lineFlags list of line flags to check against @type list of str @return flag indicating to ignore the code @rtype bool """ if lineFlags: if ( "__IGNORE_WARNING__" in lineFlags or "noqa" in lineFlags or "nosec" in lineFlags ): # ignore all warning codes return True for flag in lineFlags: # check individual warning code if flag.startswith("__IGNORE_WARNING_"): ignoredCode = flag[2:-2].rsplit("_", 1)[-1] if code.startswith(ignoredCode): return True return False def securityOk(code, lineFlags): """ Function to check, if the given code is an acknowledged security report. @param code error code to be checked @type str @param lineFlags list of line flags to check against @type list of str @return flag indicating an acknowledged security report @rtype bool """ if lineFlags: return "secok" in lineFlags return False def codeStyleCheck(filename, source, args): """ Do the code style check and/or fix found errors. @param filename source filename @type str @param source string containing the code to check @type str @param args arguments used by the codeStyleCheck function (list of excludeMessages, includeMessages, repeatMessages, fixCodes, noFixCodes, fixIssues, maxLineLength, maxDocLineLength, blankLines, hangClosing, docType, codeComplexityArgs, miscellaneousArgs, annotationArgs, securityArgs, importsArgs, errors, eol, encoding, backup) @type list of (str, str, bool, str, str, bool, int, list of (int, int), bool, str, dict, dict, dict, dict, list of str, str, str, bool) @return tuple of statistics (dict) and list of results (tuple for each found violation of style (lineno, position, text, ignored, fixed, autofixing, fixedMsg)) @rtype tuple of (dict, list of tuples of (int, int, str, bool, bool, bool, str)) """ return __checkCodeStyle(filename, source, args) def codeStyleBatchCheck(argumentsList, send, fx, cancelled, maxProcesses=0): """ Module function to check code style for a batch of files. @param argumentsList list of arguments tuples as given for codeStyleCheck @type list @param send reference to send function @type func @param fx registered service name @type str @param cancelled reference to function checking for a cancellation @type func @param maxProcesses number of processes to be used @type int """ if maxProcesses == 0: # determine based on CPU count try: NumberOfProcesses = multiprocessing.cpu_count() if NumberOfProcesses >= 1: NumberOfProcesses -= 1 except NotImplementedError: NumberOfProcesses = 1 else: NumberOfProcesses = maxProcesses # Create queues taskQueue = multiprocessing.Queue() doneQueue = multiprocessing.Queue() # Submit tasks (initially two times the number of processes) tasks = len(argumentsList) initialTasks = min(2 * NumberOfProcesses, tasks) for _ in range(initialTasks): taskQueue.put(argumentsList.pop(0)) # Start worker processes workers = [ multiprocessing.Process(target=workerTask, args=(taskQueue, doneQueue)) for _ in range(NumberOfProcesses) ] for worker in workers: worker.start() # Get and send results for _ in range(tasks): resultSent = False wasCancelled = False while not resultSent: try: # get result (waiting max. 3 seconds and send it to frontend filename, result = doneQueue.get(timeout=3) send(fx, filename, result) resultSent = True except queue.Empty: # ignore empty queue, just carry on if cancelled(): wasCancelled = True break if wasCancelled or cancelled(): # just exit the loop ignoring the results of queued tasks break if argumentsList: taskQueue.put(argumentsList.pop(0)) # Tell child processes to stop for _ in range(NumberOfProcesses): taskQueue.put("STOP") for worker in workers: worker.join() worker.close() taskQueue.close() doneQueue.close() def workerTask(inputQueue, outputQueue): """ Module function acting as the parallel worker for the style check. @param inputQueue input queue (multiprocessing.Queue) @param outputQueue output queue (multiprocessing.Queue) """ for filename, source, args in iter(inputQueue.get, "STOP"): result = __checkCodeStyle(filename, source, args) outputQueue.put((filename, result)) def __checkSyntax(filename, source): """ Private module function to perform a syntax check. @param filename source filename @type str @param source string containing the code to check @type str @return tuple containing the error dictionary with syntax error details, a statistics dictionary and None or a tuple containing two None and the generated AST tree @rtype tuple of (dict, dict, None) or tuple of (None, None, ast.Module) """ src = "".join(source) try: tree = ( ast.parse(src, filename, "exec", type_comments=True) # need the 'type_comments' parameter to include type annotations if sys.version_info >= (3, 8) else ast.parse(src, filename, "exec") ) return None, None, tree except (SyntaxError, TypeError): exc_type, exc = sys.exc_info()[:2] if len(exc.args) > 1: offset = exc.args[1] if len(offset) > 2: offset = offset[1:3] else: offset = (1, 0) return ( { "file": filename, "line": offset[0], "offset": offset[1], "code": "E901", "args": [exc_type.__name__, exc.args[0]], }, { "E901": 1, }, None, ) def __checkCodeStyle(filename, source, args): """ Private module function to perform the code style check and/or fix found errors. @param filename source filename @type str @param source string containing the code to check @type str @param args arguments used by the codeStyleCheck function (list of excludeMessages, includeMessages, repeatMessages, fixCodes, noFixCodes, fixIssues, maxLineLength, maxDocLineLength, blankLines, hangClosing, docType, codeComplexityArgs, miscellaneousArgs, annotationArgs, securityArgs, importsArgs, errors, eol, encoding, backup) @type list of (str, str, bool, str, str, bool, int, list of (int, int), bool, str, dict, dict, dict, dict, list of str, str, str, bool) @return tuple of statistics data and list of result dictionaries with keys: <ul> <li>file: file name</li> <li>line: line_number</li> <li>offset: offset within line</li> <li>code: message code</li> <li>args: list of arguments to format the message</li> <li>ignored: flag indicating this issue was ignored</li> <li>fixed: flag indicating this issue was fixed</li> <li>autofixing: flag indicating that a fix can be done</li> <li>fixcode: message code for the fix</li> <li>fixargs: list of arguments to format the fix message</li> </ul> @rtype tuple of (dict, list of dict) """ ( excludeMessages, includeMessages, repeatMessages, fixCodes, noFixCodes, fixIssues, maxLineLength, maxDocLineLength, blankLines, hangClosing, docType, codeComplexityArgs, miscellaneousArgs, annotationArgs, securityArgs, importsArgs, errors, eol, encoding, backup, ) = args stats = {} if fixIssues: from CodeStyleFixer import CodeStyleFixer fixer = CodeStyleFixer( filename, source, fixCodes, noFixCodes, maxLineLength, blankLines, True, eol, backup, ) # always fix in place else: fixer = None if not errors: if includeMessages: select = [s.strip() for s in includeMessages.split(",") if s.strip()] else: select = [] if excludeMessages: ignore = [i.strip() for i in excludeMessages.split(",") if i.strip()] else: ignore = [] syntaxError, syntaxStats, tree = __checkSyntax(filename, source) # perform the checks only, if syntax is ok and AST tree was generated if tree: # check coding style pycodestyle.BLANK_LINES_CONFIG = { # Top level class and function. "top_level": blankLines[0], # Methods and nested class and function. "method": blankLines[1], } styleGuide = pycodestyle.StyleGuide( reporter=CodeStyleCheckerReport, repeat=repeatMessages, select=select, ignore=ignore, max_line_length=maxLineLength, max_doc_length=maxDocLineLength, hang_closing=hangClosing, ) report = styleGuide.check_files([filename]) stats.update(report.counters) errors = report.errors # check documentation style docStyleChecker = DocStyleChecker( source, filename, select, ignore, [], repeatMessages, maxLineLength=maxDocLineLength, docType=docType, ) docStyleChecker.run() stats.update(docStyleChecker.counters) errors += docStyleChecker.errors # miscellaneous additional checks miscellaneousChecker = MiscellaneousChecker( source, filename, tree, select, ignore, [], repeatMessages, miscellaneousArgs, ) miscellaneousChecker.run() stats.update(miscellaneousChecker.counters) errors += miscellaneousChecker.errors # check code complexity complexityChecker = ComplexityChecker( source, filename, tree, select, ignore, codeComplexityArgs ) complexityChecker.run() stats.update(complexityChecker.counters) errors += complexityChecker.errors # check function annotations if sys.version_info >= (3, 8, 0): # annotations with type comments are supported from # Python 3.8 on from Annotations.AnnotationsChecker import AnnotationsChecker annotationsChecker = AnnotationsChecker( source, filename, tree, select, ignore, [], repeatMessages, annotationArgs, ) annotationsChecker.run() stats.update(annotationsChecker.counters) errors += annotationsChecker.errors # check for security issues securityChecker = SecurityChecker( source, filename, tree, select, ignore, [], repeatMessages, securityArgs ) securityChecker.run() stats.update(securityChecker.counters) errors += securityChecker.errors # check for pathlib usage pathlibChecker = PathlibChecker( source, filename, tree, select, ignore, [], repeatMessages ) pathlibChecker.run() stats.update(pathlibChecker.counters) errors += pathlibChecker.errors # check for code simplifications simplifyChecker = SimplifyChecker( source, filename, tree, select, ignore, [], repeatMessages ) simplifyChecker.run() stats.update(simplifyChecker.counters) errors += simplifyChecker.errors # check import statements importsChecker = ImportsChecker( source, filename, tree, select, ignore, [], repeatMessages, importsArgs ) importsChecker.run() stats.update(importsChecker.counters) errors += importsChecker.errors elif syntaxError: errors = [syntaxError] stats.update(syntaxStats) errorsDict = {} for error in errors: if error["line"] > len(source): error["line"] = len(source) # inverse processing of messages and fixes errorLine = errorsDict.setdefault(error["line"], []) errorLine.append((error["offset"], error)) deferredFixes = {} results = [] for lineno, errorsList in errorsDict.items(): errorsList.sort(key=lambda x: x[0], reverse=True) for _, error in errorsList: error.update( { "ignored": False, "fixed": False, "autofixing": False, "fixcode": "", "fixargs": [], "securityOk": False, } ) if source: code = error["code"] lineFlags = extractLineFlags(source[lineno - 1].strip()) with contextlib.suppress(IndexError): lineFlags += extractLineFlags( source[lineno].strip(), flagsLine=True ) if securityOk(code, lineFlags): error["securityOk"] = True if ignoreCode(code, lineFlags): error["ignored"] = True else: if fixer: res, fixcode, fixargs, id_ = fixer.fixIssue( lineno, error["offset"], code ) if res == -1: deferredFixes[id_] = error else: error.update( { "fixed": res == 1, "autofixing": True, "fixcode": fixcode, "fixargs": fixargs, } ) results.append(error) if fixer: deferredResults = fixer.finalize() for id_ in deferredResults: fixed, fixcode, fixargs = deferredResults[id_] error = deferredFixes[id_] error.update( { "ignored": False, "fixed": fixed == 1, "autofixing": True, "fixcode": fixcode, "fixargs": fixargs, } ) saveError = fixer.saveFile(encoding) if saveError: for error in results: error.update( { "fixcode": saveError[0], "fixargs": saveError[1], } ) return stats, results
