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Direktori : /proc/66090/cwd/lib64/python2.7/compiler/ |
Current File : //proc/66090/cwd/lib64/python2.7/compiler/ast.py |
"""Python abstract syntax node definitions This file is automatically generated by Tools/compiler/astgen.py """ from compiler.consts import CO_VARARGS, CO_VARKEYWORDS def flatten(seq): l = [] for elt in seq: t = type(elt) if t is tuple or t is list: for elt2 in flatten(elt): l.append(elt2) else: l.append(elt) return l def flatten_nodes(seq): return [n for n in flatten(seq) if isinstance(n, Node)] nodes = {} class Node: """Abstract base class for ast nodes.""" def getChildren(self): pass # implemented by subclasses def __iter__(self): for n in self.getChildren(): yield n def asList(self): # for backwards compatibility return self.getChildren() def getChildNodes(self): pass # implemented by subclasses class EmptyNode(Node): pass class Expression(Node): # Expression is an artificial node class to support "eval" nodes["expression"] = "Expression" def __init__(self, node): self.node = node def getChildren(self): return self.node, def getChildNodes(self): return self.node, def __repr__(self): return "Expression(%s)" % (repr(self.node)) class Add(Node): def __init__(self, leftright, lineno=None): self.left = leftright[0] self.right = leftright[1] self.lineno = lineno def getChildren(self): return self.left, self.right def getChildNodes(self): return self.left, self.right def __repr__(self): return "Add((%s, %s))" % (repr(self.left), repr(self.right)) class And(Node): def __init__(self, nodes, lineno=None): self.nodes = nodes self.lineno = lineno def getChildren(self): return tuple(flatten(self.nodes)) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.nodes)) return tuple(nodelist) def __repr__(self): return "And(%s)" % (repr(self.nodes),) class AssAttr(Node): def __init__(self, expr, attrname, flags, lineno=None): self.expr = expr self.attrname = attrname self.flags = flags self.lineno = lineno def getChildren(self): return self.expr, self.attrname, self.flags def getChildNodes(self): return self.expr, def __repr__(self): return "AssAttr(%s, %s, %s)" % (repr(self.expr), repr(self.attrname), repr(self.flags)) class AssList(Node): def __init__(self, nodes, lineno=None): self.nodes = nodes self.lineno = lineno def getChildren(self): return tuple(flatten(self.nodes)) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.nodes)) return tuple(nodelist) def __repr__(self): return "AssList(%s)" % (repr(self.nodes),) class AssName(Node): def __init__(self, name, flags, lineno=None): self.name = name self.flags = flags self.lineno = lineno def getChildren(self): return self.name, self.flags def getChildNodes(self): return () def __repr__(self): return "AssName(%s, %s)" % (repr(self.name), repr(self.flags)) class AssTuple(Node): def __init__(self, nodes, lineno=None): self.nodes = nodes self.lineno = lineno def getChildren(self): return tuple(flatten(self.nodes)) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.nodes)) return tuple(nodelist) def __repr__(self): return "AssTuple(%s)" % (repr(self.nodes),) class Assert(Node): def __init__(self, test, fail, lineno=None): self.test = test self.fail = fail self.lineno = lineno def getChildren(self): children = [] children.append(self.test) children.append(self.fail) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.append(self.test) if self.fail is not None: nodelist.append(self.fail) return tuple(nodelist) def __repr__(self): return "Assert(%s, %s)" % (repr(self.test), repr(self.fail)) class Assign(Node): def __init__(self, nodes, expr, lineno=None): self.nodes = nodes self.expr = expr self.lineno = lineno def getChildren(self): children = [] children.extend(flatten(self.nodes)) children.append(self.expr) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.nodes)) nodelist.append(self.expr) return tuple(nodelist) def __repr__(self): return "Assign(%s, %s)" % (repr(self.nodes), repr(self.expr)) class AugAssign(Node): def __init__(self, node, op, expr, lineno=None): self.node = node self.op = op self.expr = expr self.lineno = lineno def getChildren(self): return self.node, self.op, self.expr def getChildNodes(self): return self.node, self.expr def __repr__(self): return "AugAssign(%s, %s, %s)" % (repr(self.node), repr(self.op), repr(self.expr)) class Backquote(Node): def __init__(self, expr, lineno=None): self.expr = expr self.lineno = lineno def getChildren(self): return self.expr, def getChildNodes(self): return self.expr, def __repr__(self): return "Backquote(%s)" % (repr(self.expr),) class Bitand(Node): def __init__(self, nodes, lineno=None): self.nodes = nodes self.lineno = lineno def getChildren(self): return tuple(flatten(self.nodes)) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.nodes)) return tuple(nodelist) def __repr__(self): return "Bitand(%s)" % (repr(self.nodes),) class Bitor(Node): def __init__(self, nodes, lineno=None): self.nodes = nodes self.lineno = lineno def getChildren(self): return tuple(flatten(self.nodes)) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.nodes)) return tuple(nodelist) def __repr__(self): return "Bitor(%s)" % (repr(self.nodes),) class Bitxor(Node): def __init__(self, nodes, lineno=None): self.nodes = nodes self.lineno = lineno def getChildren(self): return tuple(flatten(self.nodes)) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.nodes)) return tuple(nodelist) def __repr__(self): return "Bitxor(%s)" % (repr(self.nodes),) class Break(Node): def __init__(self, lineno=None): self.lineno = lineno def getChildren(self): return () def getChildNodes(self): return () def __repr__(self): return "Break()" class CallFunc(Node): def __init__(self, node, args, star_args = None, dstar_args = None, lineno=None): self.node = node self.args = args self.star_args = star_args self.dstar_args = dstar_args self.lineno = lineno def getChildren(self): children = [] children.append(self.node) children.extend(flatten(self.args)) children.append(self.star_args) children.append(self.dstar_args) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.append(self.node) nodelist.extend(flatten_nodes(self.args)) if self.star_args is not None: nodelist.append(self.star_args) if self.dstar_args is not None: nodelist.append(self.dstar_args) return tuple(nodelist) def __repr__(self): return "CallFunc(%s, %s, %s, %s)" % (repr(self.node), repr(self.args), repr(self.star_args), repr(self.dstar_args)) class Class(Node): def __init__(self, name, bases, doc, code, decorators = None, lineno=None): self.name = name self.bases = bases self.doc = doc self.code = code self.decorators = decorators self.lineno = lineno def getChildren(self): children = [] children.append(self.name) children.extend(flatten(self.bases)) children.append(self.doc) children.append(self.code) children.append(self.decorators) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.bases)) nodelist.append(self.code) if self.decorators is not None: nodelist.append(self.decorators) return tuple(nodelist) def __repr__(self): return "Class(%s, %s, %s, %s, %s)" % (repr(self.name), repr(self.bases), repr(self.doc), repr(self.code), repr(self.decorators)) class Compare(Node): def __init__(self, expr, ops, lineno=None): self.expr = expr self.ops = ops self.lineno = lineno def getChildren(self): children = [] children.append(self.expr) children.extend(flatten(self.ops)) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.append(self.expr) nodelist.extend(flatten_nodes(self.ops)) return tuple(nodelist) def __repr__(self): return "Compare(%s, %s)" % (repr(self.expr), repr(self.ops)) class Const(Node): def __init__(self, value, lineno=None): self.value = value self.lineno = lineno def getChildren(self): return self.value, def getChildNodes(self): return () def __repr__(self): return "Const(%s)" % (repr(self.value),) class Continue(Node): def __init__(self, lineno=None): self.lineno = lineno def getChildren(self): return () def getChildNodes(self): return () def __repr__(self): return "Continue()" class Decorators(Node): def __init__(self, nodes, lineno=None): self.nodes = nodes self.lineno = lineno def getChildren(self): return tuple(flatten(self.nodes)) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.nodes)) return tuple(nodelist) def __repr__(self): return "Decorators(%s)" % (repr(self.nodes),) class Dict(Node): def __init__(self, items, lineno=None): self.items = items self.lineno = lineno def getChildren(self): return tuple(flatten(self.items)) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.items)) return tuple(nodelist) def __repr__(self): return "Dict(%s)" % (repr(self.items),) class Discard(Node): def __init__(self, expr, lineno=None): self.expr = expr self.lineno = lineno def getChildren(self): return self.expr, def getChildNodes(self): return self.expr, def __repr__(self): return "Discard(%s)" % (repr(self.expr),) class Div(Node): def __init__(self, leftright, lineno=None): self.left = leftright[0] self.right = leftright[1] self.lineno = lineno def getChildren(self): return self.left, self.right def getChildNodes(self): return self.left, self.right def __repr__(self): return "Div((%s, %s))" % (repr(self.left), repr(self.right)) class Ellipsis(Node): def __init__(self, lineno=None): self.lineno = lineno def getChildren(self): return () def getChildNodes(self): return () def __repr__(self): return "Ellipsis()" class Exec(Node): def __init__(self, expr, locals, globals, lineno=None): self.expr = expr self.locals = locals self.globals = globals self.lineno = lineno def getChildren(self): children = [] children.append(self.expr) children.append(self.locals) children.append(self.globals) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.append(self.expr) if self.locals is not None: nodelist.append(self.locals) if self.globals is not None: nodelist.append(self.globals) return tuple(nodelist) def __repr__(self): return "Exec(%s, %s, %s)" % (repr(self.expr), repr(self.locals), repr(self.globals)) class FloorDiv(Node): def __init__(self, leftright, lineno=None): self.left = leftright[0] self.right = leftright[1] self.lineno = lineno def getChildren(self): return self.left, self.right def getChildNodes(self): return self.left, self.right def __repr__(self): return "FloorDiv((%s, %s))" % (repr(self.left), repr(self.right)) class For(Node): def __init__(self, assign, list, body, else_, lineno=None): self.assign = assign self.list = list self.body = body self.else_ = else_ self.lineno = lineno def getChildren(self): children = [] children.append(self.assign) children.append(self.list) children.append(self.body) children.append(self.else_) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.append(self.assign) nodelist.append(self.list) nodelist.append(self.body) if self.else_ is not None: nodelist.append(self.else_) return tuple(nodelist) def __repr__(self): return "For(%s, %s, %s, %s)" % (repr(self.assign), repr(self.list), repr(self.body), repr(self.else_)) class From(Node): def __init__(self, modname, names, level, lineno=None): self.modname = modname self.names = names self.level = level self.lineno = lineno def getChildren(self): return self.modname, self.names, self.level def getChildNodes(self): return () def __repr__(self): return "From(%s, %s, %s)" % (repr(self.modname), repr(self.names), repr(self.level)) class Function(Node): def __init__(self, decorators, name, argnames, defaults, flags, doc, code, lineno=None): self.decorators = decorators self.name = name self.argnames = argnames self.defaults = defaults self.flags = flags self.doc = doc self.code = code self.lineno = lineno self.varargs = self.kwargs = None if flags & CO_VARARGS: self.varargs = 1 if flags & CO_VARKEYWORDS: self.kwargs = 1 def getChildren(self): children = [] children.append(self.decorators) children.append(self.name) children.append(self.argnames) children.extend(flatten(self.defaults)) children.append(self.flags) children.append(self.doc) children.append(self.code) return tuple(children) def getChildNodes(self): nodelist = [] if self.decorators is not None: nodelist.append(self.decorators) nodelist.extend(flatten_nodes(self.defaults)) nodelist.append(self.code) return tuple(nodelist) def __repr__(self): return "Function(%s, %s, %s, %s, %s, %s, %s)" % (repr(self.decorators), repr(self.name), repr(self.argnames), repr(self.defaults), repr(self.flags), repr(self.doc), repr(self.code)) class GenExpr(Node): def __init__(self, code, lineno=None): self.code = code self.lineno = lineno self.argnames = ['.0'] self.varargs = self.kwargs = None def getChildren(self): return self.code, def getChildNodes(self): return self.code, def __repr__(self): return "GenExpr(%s)" % (repr(self.code),) class GenExprFor(Node): def __init__(self, assign, iter, ifs, lineno=None): self.assign = assign self.iter = iter self.ifs = ifs self.lineno = lineno self.is_outmost = False def getChildren(self): children = [] children.append(self.assign) children.append(self.iter) children.extend(flatten(self.ifs)) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.append(self.assign) nodelist.append(self.iter) nodelist.extend(flatten_nodes(self.ifs)) return tuple(nodelist) def __repr__(self): return "GenExprFor(%s, %s, %s)" % (repr(self.assign), repr(self.iter), repr(self.ifs)) class GenExprIf(Node): def __init__(self, test, lineno=None): self.test = test self.lineno = lineno def getChildren(self): return self.test, def getChildNodes(self): return self.test, def __repr__(self): return "GenExprIf(%s)" % (repr(self.test),) class GenExprInner(Node): def __init__(self, expr, quals, lineno=None): self.expr = expr self.quals = quals self.lineno = lineno def getChildren(self): children = [] children.append(self.expr) children.extend(flatten(self.quals)) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.append(self.expr) nodelist.extend(flatten_nodes(self.quals)) return tuple(nodelist) def __repr__(self): return "GenExprInner(%s, %s)" % (repr(self.expr), repr(self.quals)) class Getattr(Node): def __init__(self, expr, attrname, lineno=None): self.expr = expr self.attrname = attrname self.lineno = lineno def getChildren(self): return self.expr, self.attrname def getChildNodes(self): return self.expr, def __repr__(self): return "Getattr(%s, %s)" % (repr(self.expr), repr(self.attrname)) class Global(Node): def __init__(self, names, lineno=None): self.names = names self.lineno = lineno def getChildren(self): return self.names, def getChildNodes(self): return () def __repr__(self): return "Global(%s)" % (repr(self.names),) class If(Node): def __init__(self, tests, else_, lineno=None): self.tests = tests self.else_ = else_ self.lineno = lineno def getChildren(self): children = [] children.extend(flatten(self.tests)) children.append(self.else_) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.tests)) if self.else_ is not None: nodelist.append(self.else_) return tuple(nodelist) def __repr__(self): return "If(%s, %s)" % (repr(self.tests), repr(self.else_)) class IfExp(Node): def __init__(self, test, then, else_, lineno=None): self.test = test self.then = then self.else_ = else_ self.lineno = lineno def getChildren(self): return self.test, self.then, self.else_ def getChildNodes(self): return self.test, self.then, self.else_ def __repr__(self): return "IfExp(%s, %s, %s)" % (repr(self.test), repr(self.then), repr(self.else_)) class Import(Node): def __init__(self, names, lineno=None): self.names = names self.lineno = lineno def getChildren(self): return self.names, def getChildNodes(self): return () def __repr__(self): return "Import(%s)" % (repr(self.names),) class Invert(Node): def __init__(self, expr, lineno=None): self.expr = expr self.lineno = lineno def getChildren(self): return self.expr, def getChildNodes(self): return self.expr, def __repr__(self): return "Invert(%s)" % (repr(self.expr),) class Keyword(Node): def __init__(self, name, expr, lineno=None): self.name = name self.expr = expr self.lineno = lineno def getChildren(self): return self.name, self.expr def getChildNodes(self): return self.expr, def __repr__(self): return "Keyword(%s, %s)" % (repr(self.name), repr(self.expr)) class Lambda(Node): def __init__(self, argnames, defaults, flags, code, lineno=None): self.argnames = argnames self.defaults = defaults self.flags = flags self.code = code self.lineno = lineno self.varargs = self.kwargs = None if flags & CO_VARARGS: self.varargs = 1 if flags & CO_VARKEYWORDS: self.kwargs = 1 def getChildren(self): children = [] children.append(self.argnames) children.extend(flatten(self.defaults)) children.append(self.flags) children.append(self.code) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.defaults)) nodelist.append(self.code) return tuple(nodelist) def __repr__(self): return "Lambda(%s, %s, %s, %s)" % (repr(self.argnames), repr(self.defaults), repr(self.flags), repr(self.code)) class LeftShift(Node): def __init__(self, leftright, lineno=None): self.left = leftright[0] self.right = leftright[1] self.lineno = lineno def getChildren(self): return self.left, self.right def getChildNodes(self): return self.left, self.right def __repr__(self): return "LeftShift((%s, %s))" % (repr(self.left), repr(self.right)) class List(Node): def __init__(self, nodes, lineno=None): self.nodes = nodes self.lineno = lineno def getChildren(self): return tuple(flatten(self.nodes)) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.nodes)) return tuple(nodelist) def __repr__(self): return "List(%s)" % (repr(self.nodes),) class ListComp(Node): def __init__(self, expr, quals, lineno=None): self.expr = expr self.quals = quals self.lineno = lineno def getChildren(self): children = [] children.append(self.expr) children.extend(flatten(self.quals)) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.append(self.expr) nodelist.extend(flatten_nodes(self.quals)) return tuple(nodelist) def __repr__(self): return "ListComp(%s, %s)" % (repr(self.expr), repr(self.quals)) class ListCompFor(Node): def __init__(self, assign, list, ifs, lineno=None): self.assign = assign self.list = list self.ifs = ifs self.lineno = lineno def getChildren(self): children = [] children.append(self.assign) children.append(self.list) children.extend(flatten(self.ifs)) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.append(self.assign) nodelist.append(self.list) nodelist.extend(flatten_nodes(self.ifs)) return tuple(nodelist) def __repr__(self): return "ListCompFor(%s, %s, %s)" % (repr(self.assign), repr(self.list), repr(self.ifs)) class ListCompIf(Node): def __init__(self, test, lineno=None): self.test = test self.lineno = lineno def getChildren(self): return self.test, def getChildNodes(self): return self.test, def __repr__(self): return "ListCompIf(%s)" % (repr(self.test),) class SetComp(Node): def __init__(self, expr, quals, lineno=None): self.expr = expr self.quals = quals self.lineno = lineno def getChildren(self): children = [] children.append(self.expr) children.extend(flatten(self.quals)) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.append(self.expr) nodelist.extend(flatten_nodes(self.quals)) return tuple(nodelist) def __repr__(self): return "SetComp(%s, %s)" % (repr(self.expr), repr(self.quals)) class DictComp(Node): def __init__(self, key, value, quals, lineno=None): self.key = key self.value = value self.quals = quals self.lineno = lineno def getChildren(self): children = [] children.append(self.key) children.append(self.value) children.extend(flatten(self.quals)) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.append(self.key) nodelist.append(self.value) nodelist.extend(flatten_nodes(self.quals)) return tuple(nodelist) def __repr__(self): return "DictComp(%s, %s, %s)" % (repr(self.key), repr(self.value), repr(self.quals)) class Mod(Node): def __init__(self, leftright, lineno=None): self.left = leftright[0] self.right = leftright[1] self.lineno = lineno def getChildren(self): return self.left, self.right def getChildNodes(self): return self.left, self.right def __repr__(self): return "Mod((%s, %s))" % (repr(self.left), repr(self.right)) class Module(Node): def __init__(self, doc, node, lineno=None): self.doc = doc self.node = node self.lineno = lineno def getChildren(self): return self.doc, self.node def getChildNodes(self): return self.node, def __repr__(self): return "Module(%s, %s)" % (repr(self.doc), repr(self.node)) class Mul(Node): def __init__(self, leftright, lineno=None): self.left = leftright[0] self.right = leftright[1] self.lineno = lineno def getChildren(self): return self.left, self.right def getChildNodes(self): return self.left, self.right def __repr__(self): return "Mul((%s, %s))" % (repr(self.left), repr(self.right)) class Name(Node): def __init__(self, name, lineno=None): self.name = name self.lineno = lineno def getChildren(self): return self.name, def getChildNodes(self): return () def __repr__(self): return "Name(%s)" % (repr(self.name),) class Not(Node): def __init__(self, expr, lineno=None): self.expr = expr self.lineno = lineno def getChildren(self): return self.expr, def getChildNodes(self): return self.expr, def __repr__(self): return "Not(%s)" % (repr(self.expr),) class Or(Node): def __init__(self, nodes, lineno=None): self.nodes = nodes self.lineno = lineno def getChildren(self): return tuple(flatten(self.nodes)) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.nodes)) return tuple(nodelist) def __repr__(self): return "Or(%s)" % (repr(self.nodes),) class Pass(Node): def __init__(self, lineno=None): self.lineno = lineno def getChildren(self): return () def getChildNodes(self): return () def __repr__(self): return "Pass()" class Power(Node): def __init__(self, leftright, lineno=None): self.left = leftright[0] self.right = leftright[1] self.lineno = lineno def getChildren(self): return self.left, self.right def getChildNodes(self): return self.left, self.right def __repr__(self): return "Power((%s, %s))" % (repr(self.left), repr(self.right)) class Print(Node): def __init__(self, nodes, dest, lineno=None): self.nodes = nodes self.dest = dest self.lineno = lineno def getChildren(self): children = [] children.extend(flatten(self.nodes)) children.append(self.dest) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.nodes)) if self.dest is not None: nodelist.append(self.dest) return tuple(nodelist) def __repr__(self): return "Print(%s, %s)" % (repr(self.nodes), repr(self.dest)) class Printnl(Node): def __init__(self, nodes, dest, lineno=None): self.nodes = nodes self.dest = dest self.lineno = lineno def getChildren(self): children = [] children.extend(flatten(self.nodes)) children.append(self.dest) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.nodes)) if self.dest is not None: nodelist.append(self.dest) return tuple(nodelist) def __repr__(self): return "Printnl(%s, %s)" % (repr(self.nodes), repr(self.dest)) class Raise(Node): def __init__(self, expr1, expr2, expr3, lineno=None): self.expr1 = expr1 self.expr2 = expr2 self.expr3 = expr3 self.lineno = lineno def getChildren(self): children = [] children.append(self.expr1) children.append(self.expr2) children.append(self.expr3) return tuple(children) def getChildNodes(self): nodelist = [] if self.expr1 is not None: nodelist.append(self.expr1) if self.expr2 is not None: nodelist.append(self.expr2) if self.expr3 is not None: nodelist.append(self.expr3) return tuple(nodelist) def __repr__(self): return "Raise(%s, %s, %s)" % (repr(self.expr1), repr(self.expr2), repr(self.expr3)) class Return(Node): def __init__(self, value, lineno=None): self.value = value self.lineno = lineno def getChildren(self): return self.value, def getChildNodes(self): return self.value, def __repr__(self): return "Return(%s)" % (repr(self.value),) class RightShift(Node): def __init__(self, leftright, lineno=None): self.left = leftright[0] self.right = leftright[1] self.lineno = lineno def getChildren(self): return self.left, self.right def getChildNodes(self): return self.left, self.right def __repr__(self): return "RightShift((%s, %s))" % (repr(self.left), repr(self.right)) class Set(Node): def __init__(self, nodes, lineno=None): self.nodes = nodes self.lineno = lineno def getChildren(self): return tuple(flatten(self.nodes)) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.nodes)) return tuple(nodelist) def __repr__(self): return "Set(%s)" % (repr(self.nodes),) class Slice(Node): def __init__(self, expr, flags, lower, upper, lineno=None): self.expr = expr self.flags = flags self.lower = lower self.upper = upper self.lineno = lineno def getChildren(self): children = [] children.append(self.expr) children.append(self.flags) children.append(self.lower) children.append(self.upper) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.append(self.expr) if self.lower is not None: nodelist.append(self.lower) if self.upper is not None: nodelist.append(self.upper) return tuple(nodelist) def __repr__(self): return "Slice(%s, %s, %s, %s)" % (repr(self.expr), repr(self.flags), repr(self.lower), repr(self.upper)) class Sliceobj(Node): def __init__(self, nodes, lineno=None): self.nodes = nodes self.lineno = lineno def getChildren(self): return tuple(flatten(self.nodes)) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.nodes)) return tuple(nodelist) def __repr__(self): return "Sliceobj(%s)" % (repr(self.nodes),) class Stmt(Node): def __init__(self, nodes, lineno=None): self.nodes = nodes self.lineno = lineno def getChildren(self): return tuple(flatten(self.nodes)) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.nodes)) return tuple(nodelist) def __repr__(self): return "Stmt(%s)" % (repr(self.nodes),) class Sub(Node): def __init__(self, leftright, lineno=None): self.left = leftright[0] self.right = leftright[1] self.lineno = lineno def getChildren(self): return self.left, self.right def getChildNodes(self): return self.left, self.right def __repr__(self): return "Sub((%s, %s))" % (repr(self.left), repr(self.right)) class Subscript(Node): def __init__(self, expr, flags, subs, lineno=None): self.expr = expr self.flags = flags self.subs = subs self.lineno = lineno def getChildren(self): children = [] children.append(self.expr) children.append(self.flags) children.extend(flatten(self.subs)) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.append(self.expr) nodelist.extend(flatten_nodes(self.subs)) return tuple(nodelist) def __repr__(self): return "Subscript(%s, %s, %s)" % (repr(self.expr), repr(self.flags), repr(self.subs)) class TryExcept(Node): def __init__(self, body, handlers, else_, lineno=None): self.body = body self.handlers = handlers self.else_ = else_ self.lineno = lineno def getChildren(self): children = [] children.append(self.body) children.extend(flatten(self.handlers)) children.append(self.else_) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.append(self.body) nodelist.extend(flatten_nodes(self.handlers)) if self.else_ is not None: nodelist.append(self.else_) return tuple(nodelist) def __repr__(self): return "TryExcept(%s, %s, %s)" % (repr(self.body), repr(self.handlers), repr(self.else_)) class TryFinally(Node): def __init__(self, body, final, lineno=None): self.body = body self.final = final self.lineno = lineno def getChildren(self): return self.body, self.final def getChildNodes(self): return self.body, self.final def __repr__(self): return "TryFinally(%s, %s)" % (repr(self.body), repr(self.final)) class Tuple(Node): def __init__(self, nodes, lineno=None): self.nodes = nodes self.lineno = lineno def getChildren(self): return tuple(flatten(self.nodes)) def getChildNodes(self): nodelist = [] nodelist.extend(flatten_nodes(self.nodes)) return tuple(nodelist) def __repr__(self): return "Tuple(%s)" % (repr(self.nodes),) class UnaryAdd(Node): def __init__(self, expr, lineno=None): self.expr = expr self.lineno = lineno def getChildren(self): return self.expr, def getChildNodes(self): return self.expr, def __repr__(self): return "UnaryAdd(%s)" % (repr(self.expr),) class UnarySub(Node): def __init__(self, expr, lineno=None): self.expr = expr self.lineno = lineno def getChildren(self): return self.expr, def getChildNodes(self): return self.expr, def __repr__(self): return "UnarySub(%s)" % (repr(self.expr),) class While(Node): def __init__(self, test, body, else_, lineno=None): self.test = test self.body = body self.else_ = else_ self.lineno = lineno def getChildren(self): children = [] children.append(self.test) children.append(self.body) children.append(self.else_) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.append(self.test) nodelist.append(self.body) if self.else_ is not None: nodelist.append(self.else_) return tuple(nodelist) def __repr__(self): return "While(%s, %s, %s)" % (repr(self.test), repr(self.body), repr(self.else_)) class With(Node): def __init__(self, expr, vars, body, lineno=None): self.expr = expr self.vars = vars self.body = body self.lineno = lineno def getChildren(self): children = [] children.append(self.expr) children.append(self.vars) children.append(self.body) return tuple(children) def getChildNodes(self): nodelist = [] nodelist.append(self.expr) if self.vars is not None: nodelist.append(self.vars) nodelist.append(self.body) return tuple(nodelist) def __repr__(self): return "With(%s, %s, %s)" % (repr(self.expr), repr(self.vars), repr(self.body)) class Yield(Node): def __init__(self, value, lineno=None): self.value = value self.lineno = lineno def getChildren(self): return self.value, def getChildNodes(self): return self.value, def __repr__(self): return "Yield(%s)" % (repr(self.value),) for name, obj in globals().items(): if isinstance(obj, type) and issubclass(obj, Node): nodes[name.lower()] = obj