import types from consts import CO_VARARGS, CO_VARKEYWORDS nodes = {} def flatten(list): l = [] for elt in list: if type(elt) is types.TupleType: for elt2 in flatten(elt): l.append(elt2) elif type(elt) is types.ListType: for elt2 in flatten(elt): l.append(elt2) else: l.append(elt) return l def asList(nodes): l = [] for item in nodes: if hasattr(item, "asList"): l.append(item.asList()) else: if type(item) is types.TupleType: l.append(tuple(asList(item))) elif type(item) is types.ListType: l.append(asList(item)) else: l.append(item) return l class Node: def __init__(self, *args): self._children = args self.lineno = None def __getitem__(self, index): return self._children[index] def __repr__(self): return "" % self._children[0] def __len__(self): return len(self._children) def __getslice__(self, low, high): return self._children[low:high] def getChildren(self): return tuple(flatten(self._children[1:])) def getType(self): return self._children[0] def asList(self): return tuple(asList(self._children)) class EmptyNode(Node): def __init__(self): self.lineno = None class Module(Node): nodes['module'] = 'Module' def __init__(self, doc, node): self.doc = doc self.node = node self._children = ('module', doc, node) def __repr__(self): return "Module(%s,%s)" % self._children[1:] class Stmt(Node): nodes['stmt'] = 'Stmt' def __init__(self, nodes): self.nodes = nodes self._children = ('stmt', nodes) def __repr__(self): return "Stmt(%s)" % self._children[1:] class Function(Node): nodes['function'] = 'Function' def __init__(self, name, argnames, defaults, flags, doc, code): self.name = name self.argnames = argnames self.defaults = defaults self.flags = flags self.doc = doc self.code = code self._children = ('function', name, argnames, defaults, flags, doc, code) self.varargs = self.kwargs = None if flags & CO_VARARGS: self.varargs = 1 if flags & CO_VARKEYWORDS: self.kwargs = 1 def __repr__(self): return "Function(%s,%s,%s,%s,%s,%s)" % self._children[1:] class Lambda(Node): nodes['lambda'] = 'Lambda' def __init__(self, argnames, defaults, flags, code): self.argnames = argnames self.defaults = defaults self.flags = flags self.code = code self._children = ('lambda', argnames, defaults, flags, code) def __repr__(self): return "Lambda(%s,%s,%s,%s)" % self._children[1:] class Classdef(Node): nodes['classdef'] = 'Classdef' def __init__(self, name, bases, doc, code): self.name = name self.bases = bases self.doc = doc self.code = code self._children = ('classdef', name, bases, doc, code) def __repr__(self): return "Classdef(%s,%s,%s,%s)" % self._children[1:] class Pass(EmptyNode): nodes['pass'] = 'Pass' _children = ('pass',) def __repr__(self): return "Pass()" class Break(EmptyNode): nodes['break'] = 'Break' _children = ('break',) def __repr__(self): return "Break()" class Continue(EmptyNode): nodes['continue'] = 'Continue' _children = ('continue',) def __repr__(self): return "Continue()" class For(Node): nodes['for'] = 'For' def __init__(self, assign, list, body, else_): self.assign = assign self.list = list self.body = body self.else_ = else_ self._children = ('for', assign, list, body, else_) def __repr__(self): return "For(%s,%s,%s,%s)" % self._children[1:] class While(Node): nodes['while'] = 'While' def __init__(self, test, body, else_): self.test = test self.body = body self.else_ = else_ self._children = ('while', test, body, else_) def __repr__(self): return "While(%s,%s,%s)" % self._children[1:] class If(Node): """if: [ (testNode, suiteNode), ...], elseNode""" nodes['if'] = 'If' def __init__(self, tests, else_): self.tests = tests self.else_ = else_ self._children = ('if', tests, else_) def __repr__(self): return "If(%s,%s)" % self._children[1:] class Exec(Node): nodes['exec'] = 'Exec' def __init__(self, expr, locals, globals): self.expr = expr self.locals = locals self.globals = globals self._children = ('exec', expr, locals, globals) def __repr__(self): return "Exec(%s,%s,%s)" % self._children[1:] class From(Node): nodes['from'] = 'From' def __init__(self, modname, names): self.modname = modname self.names = names self._children = ('from', modname, names) def __repr__(self): return "From(%s,%s)" % self._children[1:] class Import(Node): nodes['import'] = 'Import' def __init__(self, names): self.names = names self._children = ('import', names) def __repr__(self): return "Import(%s)" % self._children[1:] class Raise(Node): nodes['raise'] = 'Raise' def __init__(self, expr1, expr2, expr3): self.expr1 = expr1 self.expr2 = expr2 self.expr3 = expr3 self._children = ('raise', expr1, expr2, expr3) def __repr__(self): return "Raise(%s,%s,%s)" % self._children[1:] class TryFinally(Node): nodes['tryfinally'] = 'TryFinally' def __init__(self, body, final): self.body = body self.final = final self._children = ('tryfinally', body, final) def __repr__(self): return "TryFinally(%s,%s)" % self._children[1:] class TryExcept(Node): """Try/Except body and handlers The handlers attribute is a sequence of tuples. The elements of the tuple are the exception name, the name to bind the exception to, and the body of the except clause. """ nodes['tryexcept'] = 'TryExcept' def __init__(self, body, handlers, else_): self.body = body self.handlers = handlers self.else_ = else_ self._children = ('tryexcept', body, handlers, else_) def __repr__(self): return "TryExcept(%s,%s,%s)" % self._children[1:] class Return(Node): nodes['return'] = 'Return' def __init__(self, value): self.value = value self._children = ('return', value) def __repr__(self): return "Return(%s)" % self._children[1:] class Const(Node): nodes['const'] = 'Const' def __init__(self, value): self.value = value self._children = ('const', value) def __repr__(self): return "Const(%s)" % self._children[1:] class Print(Node): nodes['print'] = 'Print' def __init__(self, nodes): self.nodes = nodes self._children = ('print', nodes) def __repr__(self): return "Print(%s)" % self._children[1:] class Printnl(Node): nodes['printnl'] = 'Printnl' def __init__(self, nodes): self.nodes = nodes self._children = ('printnl', nodes) def __repr__(self): return "Printnl(%s)" % self._children[1:] class Discard(Node): nodes['discard'] = 'Discard' def __init__(self, expr): self.expr = expr self._children = ('discard', expr) def __repr__(self): return "Discard(%s)" % self._children[1:] class Assign(Node): nodes['assign'] = 'Assign' def __init__(self, nodes, expr): self.nodes = nodes self.expr = expr self._children = ('assign', nodes, expr) def __repr__(self): return "Assign(%s,%s)" % self._children[1:] class AssTuple(Node): nodes['ass_tuple'] = 'AssTuple' def __init__(self, nodes): self.nodes = nodes self._children = ('ass_tuple', nodes) def __repr__(self): return "AssTuple(%s)" % self._children[1:] class AssList(Node): nodes['ass_list'] = 'AssList' def __init__(self, nodes): self.nodes = nodes self._children = ('ass_list', nodes) def __repr__(self): return "AssList(%s)" % self._children[1:] class AssName(Node): nodes['ass_name'] = 'AssName' def __init__(self, name, flags): self.name = name self.flags = flags self._children = ('ass_name', name, flags) def __repr__(self): return "AssName(%s,%s)" % self._children[1:] class AssAttr(Node): nodes['ass_attr'] = 'AssAttr' def __init__(self, expr, attrname, flags): self.expr = expr self.attrname = attrname self.flags = flags self._children = ('ass_attr', expr, attrname, flags) def __repr__(self): return "AssAttr(%s,%s,%s)" % self._children[1:] class List(Node): nodes['list'] = 'List' def __init__(self, nodes): self.nodes = nodes self._children = ('list', nodes) def __repr__(self): return "List(%s)" % self._children[1:] class Dict(Node): nodes['dict'] = 'Dict' def __init__(self, items): self.items = items self._children = ('dict', items) def __repr__(self): return "Dict(%s)" % self._children[1:] class Not(Node): nodes['not'] = 'Not' def __init__(self, expr): self.expr = expr self._children = ('not', expr) def __repr__(self): return "Not(%s)" % self._children[1:] class Compare(Node): nodes['compare'] = 'Compare' def __init__(self, expr, ops): self.expr = expr self.ops = ops self._children = ('compare', expr, ops) def __repr__(self): return "Compare(%s,%s)" % self._children[1:] class Name(Node): nodes['name'] = 'Name' def __init__(self, name): self.name = name self._children = ('name', name) def __repr__(self): return "Name(%s)" % self._children[1:] class Global(Node): nodes['global'] = 'Global' def __init__(self, names): self.names = names self._children = ('global', names) def __repr__(self): return "Global(%s)" % self._children[1:] class Backquote(Node): nodes['backquote'] = 'Backquote' def __init__(self, node): self.expr = node self._children = ('backquote', node) def __repr__(self): return "Backquote(%s)" % self._children[1:] class Getattr(Node): nodes['getattr'] = 'Getattr' def __init__(self, expr, attrname): self.expr = expr self.attrname = attrname self._children = ('getattr', expr, attrname) def __repr__(self): return "Getattr(%s,%s)" % self._children[1:] class CallFunc(Node): nodes['call_func'] = 'CallFunc' def __init__(self, node, args): self.node = node self.args = args self._children = ('call_func', node, args) def __repr__(self): return "CallFunc(%s,%s)" % self._children[1:] class Keyword(Node): nodes['keyword'] = 'Keyword' def __init__(self, name, expr): self.name = name self.expr = expr self._children = ('keyword', name, expr) def __repr__(self): return "Keyword(%s,%s)" % self._children[1:] class Subscript(Node): nodes['subscript'] = 'Subscript' def __init__(self, expr, flags, subs): self.expr = expr self.flags = flags self.subs = subs self._children = ('subscript', expr, flags, subs) def __repr__(self): return "Subscript(%s,%s,%s)" % self._children[1:] class Ellipsis(EmptyNode): nodes['ellipsis'] = 'Ellipsis' _children = ('ellipsis',) def __repr__(self): return "Ellipsis()" class Sliceobj(Node): nodes['sliceobj'] = 'Sliceobj' def __init__(self, nodes): self.nodes = nodes self._children = ('sliceobj', nodes) def __repr__(self): return "Sliceobj(%s)" % self._children[1:] class Slice(Node): nodes['slice'] = 'Slice' def __init__(self, expr, flags, lower, upper): self.expr = expr self.flags = flags self.lower = lower self.upper = upper self._children = ('slice', expr, flags, lower, upper) def __repr__(self): return "Slice(%s,%s,%s,%s)" % self._children[1:] class Assert(Node): nodes['assert'] = 'Assert' def __init__(self, test, fail): self.test = test self.fail = fail self._children = ('assert', test, fail) def __repr__(self): return "Assert(%s,%s)" % self._children[1:] class Tuple(Node): nodes['tuple'] = 'Tuple' def __init__(self, nodes): self.nodes = nodes self._children = ('tuple', nodes) def __repr__(self): return "Tuple(%s)" % self._children[1:] class Or(Node): nodes['or'] = 'Or' def __init__(self, nodes): self.nodes = nodes self._children = ('or', nodes) def __repr__(self): return "Or(%s)" % self._children[1:] class And(Node): nodes['and'] = 'And' def __init__(self, nodes): self.nodes = nodes self._children = ('and', nodes) def __repr__(self): return "And(%s)" % self._children[1:] class Bitor(Node): nodes['bitor'] = 'Bitor' def __init__(self, nodes): self.nodes = nodes self._children = ('bitor', nodes) def __repr__(self): return "Bitor(%s)" % self._children[1:] class Bitxor(Node): nodes['bitxor'] = 'Bitxor' def __init__(self, nodes): self.nodes = nodes self._children = ('bitxor', nodes) def __repr__(self): return "Bitxor(%s)" % self._children[1:] class Bitand(Node): nodes['bitand'] = 'Bitand' def __init__(self, nodes): self.nodes = nodes self._children = ('bitand', nodes) def __repr__(self): return "Bitand(%s)" % self._children[1:] class LeftShift(Node): nodes['<<'] = 'LeftShift' def __init__(self, (left, right)): self.left = left self.right = right self._children = ('<<', (left, right)) def __repr__(self): return "LeftShift(%s)" % self._children[1:] class RightShift(Node): nodes['>>'] = 'RightShift' def __init__(self, (left, right)): self.left = left self.right = right self._children = ('>>', (left, right)) def __repr__(self): return "RightShift(%s)" % self._children[1:] class Add(Node): nodes['+'] = 'Add' def __init__(self, (left, right)): self.left = left self.right = right self._children = ('+', (left, right)) def __repr__(self): return "Add(%s)" % self._children[1:] class Sub(Node): nodes['-'] = 'Sub' def __init__(self, (left, right)): self.left = left self.right = right self._children = ('-', (left, right)) def __repr__(self): return "Sub(%s)" % self._children[1:] class Mul(Node): nodes['*'] = 'Mul' def __init__(self, (left, right)): self.left = left self.right = right self._children = ('*', (left, right)) def __repr__(self): return "Mul(%s)" % self._children[1:] class Div(Node): nodes['/'] = 'Div' def __init__(self, (left, right)): self.left = left self.right = right self._children = ('/', (left, right)) def __repr__(self): return "Div(%s)" % self._children[1:] class Mod(Node): nodes['%'] = 'Mod' def __init__(self, (left, right)): self.left = left self.right = right self._children = ('%', (left, right)) def __repr__(self): return "Mod(%s)" % self._children[1:] class Power(Node): nodes['power'] = 'Power' def __init__(self, (left, right)): self.left = left self.right = right self._children = ('power', (left, right)) def __repr__(self): return "Power(%s)" % self._children[1:] class UnaryAdd(Node): nodes['unary+'] = 'UnaryAdd' def __init__(self, node): self.expr = node self._children = ('unary+', node) def __repr__(self): return "UnaryAdd(%s)" % self._children[1:] class UnarySub(Node): nodes['unary-'] = 'UnarySub' def __init__(self, node): self.expr = node self._children = ('unary-', node) def __repr__(self): return "UnarySub(%s)" % self._children[1:] class Invert(Node): nodes['invert'] = 'Invert' def __init__(self, node): self.expr = node self._children = ('invert', node) def __repr__(self): return "Invert(%s)" % self._children[1:] # now clean up the nodes dictionary klasses = globals() for k in nodes.keys(): nodes[k] = klasses[nodes[k]] # Local Variables: # mode:python # indent-tabs-mode: nil # py-indent-offset: 2 # py-smart-indentation: nil # End: