Mercurial Repositories > eric / file revision
Plugins/CheckerPlugins/CodeStyleChecker/mccabe.py@ae4f5cdc3d00
Plugins/CheckerPlugins/CodeStyleChecker/mccabe.py
Sat, 25 Mar 2017 17:36:50 +0100
- author
- Detlev Offenbach <detlev@die-offenbachs.de>
- date
- Sat, 25 Mar 2017 17:36:50 +0100
- changeset 5661
- ae4f5cdc3d00
- parent 5620
- 6bca68319bb4
- permissions
- -rw-r--r--
Added a line complexity checker to the code style checker.
""" 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
