Mercurial Repositories > eric / file revision
Plugins/CheckerPlugins/CodeStyleChecker/mccabe.py@0672146bad2a
Plugins/CheckerPlugins/CodeStyleChecker/mccabe.py
Tue, 28 Mar 2017 19:17:26 +0200
- author
- Detlev Offenbach <detlev@die-offenbachs.de>
- date
- Tue, 28 Mar 2017 19:17:26 +0200
- changeset 5665
- 0672146bad2a
- parent 5620
- 6bca68319bb4
- permissions
- -rw-r--r--
Fixed an issue with the code style checker dialog not showing tooltips for the complexity spin boxes because the text was entered as status text instead of tool tip.
""" Meager code path measurement tool. Ned Batchelder http://nedbatchelder.com/blog/200803/python_code_complexity_microtool.html MIT License. """ from __future__ import with_statement import collections import ast __version__ = '0.6.1_eric6' class ASTVisitor(object): """Performs a depth-first walk of the AST.""" def __init__(self): self.node = None self._cache = {} def default(self, node, *args): for child in ast.iter_child_nodes(node): self.dispatch(child, *args) def dispatch(self, node, *args): self.node = node klass = node.__class__ meth = self._cache.get(klass) if meth is None: className = klass.__name__ meth = getattr(self.visitor, 'visit' + className, self.default) self._cache[klass] = meth return meth(node, *args) def preorder(self, tree, visitor, *args): """Do preorder walk of tree using visitor""" self.visitor = visitor visitor.visit = self.dispatch self.dispatch(tree, *args) # XXX *args make sense? class PathNode(object): def __init__(self, name, look="circle"): self.name = name self.look = look def to_dot(self): print('node [shape=%s,label="%s"] %d;' % ( self.look, self.name, self.dot_id())) def dot_id(self): return id(self) class PathGraph(object): def __init__(self, name, entity, lineno, column=0): self.name = name self.entity = entity self.lineno = lineno self.column = column self.nodes = collections.defaultdict(list) def connect(self, n1, n2): self.nodes[n1].append(n2) # Ensure that the destination node is always counted. self.nodes[n2] = [] def to_dot(self): print('subgraph {') for node in self.nodes: node.to_dot() for node, nexts in self.nodes.items(): for next in nexts: print('%s -- %s;' % (node.dot_id(), next.dot_id())) print('}') def complexity(self): """ Return the McCabe complexity for the graph. V-E+2 """ num_edges = sum([len(n) for n in self.nodes.values()]) num_nodes = len(self.nodes) return num_edges - num_nodes + 2 class PathGraphingAstVisitor(ASTVisitor): """ A visitor for a parsed Abstract Syntax Tree which finds executable statements. """ def __init__(self): super(PathGraphingAstVisitor, self).__init__() self.classname = "" self.graphs = {} self.reset() def reset(self): self.graph = None self.tail = None def dispatch_list(self, node_list): for node in node_list: self.dispatch(node) def visitFunctionDef(self, node): if self.classname: entity = '%s%s' % (self.classname, node.name) else: entity = node.name name = '%d:%d: %r' % (node.lineno, node.col_offset, entity) if self.graph is not None: # closure pathnode = self.appendPathNode(name) self.tail = pathnode self.dispatch_list(node.body) bottom = PathNode("", look='point') self.graph.connect(self.tail, bottom) self.graph.connect(pathnode, bottom) self.tail = bottom else: self.graph = PathGraph(name, entity, node.lineno, node.col_offset) pathnode = PathNode(name) self.tail = pathnode self.dispatch_list(node.body) self.graphs["%s%s" % (self.classname, node.name)] = self.graph self.reset() visitAsyncFunctionDef = visitFunctionDef def visitClassDef(self, node): old_classname = self.classname self.classname += node.name + "." self.dispatch_list(node.body) self.classname = old_classname def appendPathNode(self, name): if not self.tail: return pathnode = PathNode(name) self.graph.connect(self.tail, pathnode) self.tail = pathnode return pathnode def visitSimpleStatement(self, node): if node.lineno is None: lineno = 0 else: lineno = node.lineno name = "Stmt %d" % lineno self.appendPathNode(name) def default(self, node, *args): if isinstance(node, ast.stmt): self.visitSimpleStatement(node) else: super(PathGraphingAstVisitor, self).default(node, *args) def visitLoop(self, node): name = "Loop %d" % node.lineno self._subgraph(node, name) visitAsyncFor = visitFor = visitWhile = visitLoop def visitIf(self, node): name = "If %d" % node.lineno self._subgraph(node, name) def _subgraph(self, node, name, extra_blocks=()): """create the subgraphs representing any `if` and `for` statements""" if self.graph is None: # global loop self.graph = PathGraph(name, name, node.lineno, node.col_offset) pathnode = PathNode(name) self._subgraph_parse(node, pathnode, extra_blocks) self.graphs["%s%s" % (self.classname, name)] = self.graph self.reset() else: pathnode = self.appendPathNode(name) self._subgraph_parse(node, pathnode, extra_blocks) def _subgraph_parse(self, node, pathnode, extra_blocks): """parse the body and any `else` block of `if` and `for` statements""" loose_ends = [] self.tail = pathnode self.dispatch_list(node.body) loose_ends.append(self.tail) for extra in extra_blocks: self.tail = pathnode self.dispatch_list(extra.body) loose_ends.append(self.tail) if node.orelse: self.tail = pathnode self.dispatch_list(node.orelse) loose_ends.append(self.tail) else: loose_ends.append(pathnode) if pathnode: bottom = PathNode("", look='point') for le in loose_ends: self.graph.connect(le, bottom) self.tail = bottom def visitTryExcept(self, node): name = "TryExcept %d" % node.lineno self._subgraph(node, name, extra_blocks=node.handlers) visitTry = visitTryExcept def visitWith(self, node): name = "With %d" % node.lineno self.appendPathNode(name) self.dispatch_list(node.body) visitAsyncWith = visitWith # # eflag: noqa = M702
