Mercurial Repositories > eric / file revision
src/eric7/Plugins/CheckerPlugins/CodeStyleChecker/Complexity/ComplexityChecker.py@e67609152c5e
src/eric7/Plugins/CheckerPlugins/CodeStyleChecker/Complexity/ComplexityChecker.py
Sat, 31 Dec 2022 16:23:21 +0100
- author
- Detlev Offenbach <detlev@die-offenbachs.de>
- date
- Sat, 31 Dec 2022 16:23:21 +0100
- branch
- eric7
- changeset 9653
- e67609152c5e
- parent 9473
- 3f23dbf37dbe
- child 10373
- 093dcebe5ecb
- permissions
- -rw-r--r--
Updated copyright for 2023.
# -*- coding: utf-8 -*- # Copyright (c) 2015 - 2023 Detlev Offenbach <detlev@die-offenbachs.de> # """ Module implementing a checker for code complexity. """ import ast import copy from .mccabe import PathGraphingAstVisitor class ComplexityChecker: """ Class implementing a checker for code complexity. """ Codes = [ "C101", "C111", "C112", ] def __init__(self, source, filename, tree, select, ignore, args): """ Constructor @param source source code to be checked @type list of str @param filename name of the source file @type str @param tree AST tree of the source code @type ast.Module @param select list of selected codes @type list of str @param ignore list of codes to be ignored @type list of str @param args dictionary of arguments for the miscellaneous checks @type dict """ self.__filename = filename self.__source = source[:] self.__tree = copy.deepcopy(tree) self.__select = tuple(select) self.__ignore = ("",) if select else tuple(ignore) self.__args = args self.__defaultArgs = { "McCabeComplexity": 10, "LineComplexity": 15, "LineComplexityScore": 10, } # statistics counters self.counters = {} # collection of detected errors self.errors = [] checkersWithCodes = [ (self.__checkMcCabeComplexity, ("C101",)), (self.__checkLineComplexity, ("C111", "C112")), ] self.__checkers = [] for checker, codes in checkersWithCodes: if any(not (code and self.__ignoreCode(code)) for code in codes): self.__checkers.append(checker) def __ignoreCode(self, code): """ Private method to check if the message code should be ignored. @param code message code to check for @type str @return flag indicating to ignore the given code @rtype bool """ return code.startswith(self.__ignore) and not code.startswith(self.__select) def __error(self, lineNumber, offset, code, *args): """ Private method to record an issue. @param lineNumber line number of the issue @type int @param offset position within line of the issue @type int @param code message code @type str @param args arguments for the message @type list """ if self.__ignoreCode(code): return if code in self.counters: self.counters[code] += 1 else: self.counters[code] = 1 if code: # record the issue with one based line number self.errors.append( { "file": self.__filename, "line": lineNumber, "offset": offset, "code": code, "args": args, } ) def run(self): """ Public method to check the given source for code complexity. """ if not self.__filename or not self.__source: # don't do anything, if essential data is missing return if not self.__checkers: # don't do anything, if no codes were selected return for check in self.__checkers: check() def __checkMcCabeComplexity(self): """ Private method to check the McCabe code complexity. """ try: # create the AST again because it is modified by the checker tree = compile( "".join(self.__source), self.__filename, "exec", ast.PyCF_ONLY_AST ) except (SyntaxError, TypeError): # compile errors are already reported by the run() method return maxComplexity = self.__args.get( "McCabeComplexity", self.__defaultArgs["McCabeComplexity"] ) visitor = PathGraphingAstVisitor() visitor.preorder(tree, visitor) for graph in visitor.graphs.values(): if graph.complexity() > maxComplexity: self.__error(graph.lineno, 0, "C101", graph.entity, graph.complexity()) def __checkLineComplexity(self): """ Private method to check the complexity of a single line of code and the median line complexity of the source code. Complexity is defined as the number of AST nodes produced by a line of code. """ maxLineComplexity = self.__args.get( "LineComplexity", self.__defaultArgs["LineComplexity"] ) maxLineComplexityScore = self.__args.get( "LineComplexityScore", self.__defaultArgs["LineComplexityScore"] ) visitor = LineComplexityVisitor() visitor.visit(self.__tree) sortedItems = visitor.sortedList() score = visitor.score() for line, complexity in sortedItems: if complexity > maxLineComplexity: self.__error(line, 0, "C111", complexity) if score > maxLineComplexityScore: self.__error(0, 0, "C112", score) class LineComplexityVisitor(ast.NodeVisitor): """ Class calculating the number of AST nodes per line of code and the median nodes/line score. """ def __init__(self): """ Constructor """ super().__init__() self.__count = {} def visit(self, node): """ Public method to recursively visit all the nodes and add up the instructions. @param node reference to the node @type ast.AST """ if hasattr(node, "lineno"): self.__count[node.lineno] = self.__count.get(node.lineno, 0) + 1 self.generic_visit(node) def sortedList(self): """ Public method to get a sorted list of (line, nodes) tuples. @return sorted list of (line, nodes) tuples @rtype list of tuple of (int,int) """ lst = [(line, self.__count[line]) for line in sorted(self.__count.keys())] return lst def score(self): """ Public method to calculate the median. @return median line complexity value @rtype float """ lst = self.__count.values() sortedList = sorted(lst) listLength = len(lst) medianIndex = (listLength - 1) // 2 if listLength == 0: return 0.0 elif listLength % 2: return float(sortedList[medianIndex]) else: return (sortedList[medianIndex] + sortedList[medianIndex + 1]) / 2.0
