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authorAnthony Baxter <anthonybaxter@gmail.com>2004-08-02 06:10:11 (GMT)
committerAnthony Baxter <anthonybaxter@gmail.com>2004-08-02 06:10:11 (GMT)
commitc2a5a636545a88f349dbe3e452ffb4494b68e534 (patch)
treeaaa24074dcdcce5afa51523969971bdd05381b01 /Lib
parentfd7dc5169c3ca7d64109512f38762c4ce9e96c5f (diff)
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PEP-0318, @decorator-style. In Guido's words:
"@ seems the syntax that everybody can hate equally" Implementation by Mark Russell, from SF #979728.
Diffstat (limited to 'Lib')
-rw-r--r--Lib/compiler/ast.py1281
-rw-r--r--Lib/compiler/pycodegen.py10
-rw-r--r--Lib/compiler/symbols.py2
-rw-r--r--Lib/compiler/transformer.py66
-rw-r--r--Lib/pyclbr.py2
-rwxr-xr-xLib/symbol.py140
-rw-r--r--Lib/test/output/test_tokenize13
-rw-r--r--Lib/test/pyclbr_input.py33
-rw-r--r--Lib/test/test_decorators.py194
-rw-r--r--Lib/test/test_parser.py12
-rw-r--r--Lib/test/test_pyclbr.py44
-rw-r--r--Lib/test/tokenize_tests.txt3
-rwxr-xr-xLib/token.py7
-rw-r--r--Lib/tokenize.py2
14 files changed, 1084 insertions, 725 deletions
diff --git a/Lib/compiler/ast.py b/Lib/compiler/ast.py
index 064df50..a81937f 100644
--- a/Lib/compiler/ast.py
+++ b/Lib/compiler/ast.py
@@ -48,132 +48,181 @@ class Node: # an abstract base class
class EmptyNode(Node):
pass
-class Slice(Node):
- nodes["slice"] = "Slice"
- def __init__(self, expr, flags, lower, upper):
+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):
+ nodes["add"] = "Add"
+ def __init__(self, (left, right)):
+ self.left = left
+ self.right = right
+
+ 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):
+ nodes["and"] = "And"
+ def __init__(self, nodes):
+ self.nodes = nodes
+
+ def getChildren(self):
+ children = []
+ children.extend(flatten(self.nodes))
+ return tuple(children)
+
+ 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):
+ nodes["assattr"] = "AssAttr"
+ def __init__(self, expr, attrname, flags):
self.expr = expr
+ self.attrname = attrname
self.flags = flags
- self.lower = lower
- self.upper = upper
+
+ 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):
+ nodes["asslist"] = "AssList"
+ def __init__(self, nodes):
+ self.nodes = nodes
def getChildren(self):
children = []
- children.append(self.expr)
- children.append(self.flags)
- children.append(self.lower)
- children.append(self.upper)
+ children.extend(flatten(self.nodes))
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)
+ nodelist.extend(flatten_nodes(self.nodes))
return tuple(nodelist)
def __repr__(self):
- return "Slice(%s, %s, %s, %s)" % (repr(self.expr), repr(self.flags), repr(self.lower), repr(self.upper))
+ return "AssList(%s)" % (repr(self.nodes),)
-class Const(Node):
- nodes["const"] = "Const"
- def __init__(self, value):
- self.value = value
+class AssName(Node):
+ nodes["assname"] = "AssName"
+ def __init__(self, name, flags):
+ self.name = name
+ self.flags = flags
def getChildren(self):
- return self.value,
+ return self.name, self.flags
def getChildNodes(self):
return ()
def __repr__(self):
- return "Const(%s)" % (repr(self.value),)
+ return "AssName(%s, %s)" % (repr(self.name), repr(self.flags))
-class Raise(Node):
- nodes["raise"] = "Raise"
- def __init__(self, expr1, expr2, expr3):
- self.expr1 = expr1
- self.expr2 = expr2
- self.expr3 = expr3
+class AssTuple(Node):
+ nodes["asstuple"] = "AssTuple"
+ def __init__(self, nodes):
+ self.nodes = nodes
def getChildren(self):
children = []
- children.append(self.expr1)
- children.append(self.expr2)
- children.append(self.expr3)
+ children.extend(flatten(self.nodes))
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)
+ nodelist.extend(flatten_nodes(self.nodes))
return tuple(nodelist)
def __repr__(self):
- return "Raise(%s, %s, %s)" % (repr(self.expr1), repr(self.expr2), repr(self.expr3))
+ return "AssTuple(%s)" % (repr(self.nodes),)
-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_
+class Assert(Node):
+ nodes["assert"] = "Assert"
+ def __init__(self, test, fail):
+ self.test = test
+ self.fail = fail
def getChildren(self):
children = []
- children.append(self.assign)
- children.append(self.list)
- children.append(self.body)
- children.append(self.else_)
+ children.append(self.test)
+ children.append(self.fail)
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_)
+ nodelist.append(self.test)
+ if self.fail is not None: nodelist.append(self.fail)
return tuple(nodelist)
def __repr__(self):
- return "For(%s, %s, %s, %s)" % (repr(self.assign), repr(self.list), repr(self.body), repr(self.else_))
+ return "Assert(%s, %s)" % (repr(self.test), repr(self.fail))
-class AssTuple(Node):
- nodes["asstuple"] = "AssTuple"
- def __init__(self, nodes):
+class Assign(Node):
+ nodes["assign"] = "Assign"
+ def __init__(self, nodes, expr):
self.nodes = nodes
+ self.expr = expr
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 "AssTuple(%s)" % (repr(self.nodes),)
+ return "Assign(%s, %s)" % (repr(self.nodes), repr(self.expr))
-class Mul(Node):
- nodes["mul"] = "Mul"
- def __init__(self, (left, right)):
- self.left = left
- self.right = right
+class AugAssign(Node):
+ nodes["augassign"] = "AugAssign"
+ def __init__(self, node, op, expr):
+ self.node = node
+ self.op = op
+ self.expr = expr
def getChildren(self):
- return self.left, self.right
+ return self.node, self.op, self.expr
def getChildNodes(self):
- return self.left, self.right
+ return self.node, self.expr
def __repr__(self):
- return "Mul((%s, %s))" % (repr(self.left), repr(self.right))
+ return "AugAssign(%s, %s, %s)" % (repr(self.node), repr(self.op), repr(self.expr))
-class Invert(Node):
- nodes["invert"] = "Invert"
+class Backquote(Node):
+ nodes["backquote"] = "Backquote"
def __init__(self, expr):
self.expr = expr
@@ -184,25 +233,28 @@ class Invert(Node):
return self.expr,
def __repr__(self):
- return "Invert(%s)" % (repr(self.expr),)
+ return "Backquote(%s)" % (repr(self.expr),)
-class RightShift(Node):
- nodes["rightshift"] = "RightShift"
- def __init__(self, (left, right)):
- self.left = left
- self.right = right
+class Bitand(Node):
+ nodes["bitand"] = "Bitand"
+ def __init__(self, nodes):
+ self.nodes = nodes
def getChildren(self):
- return self.left, self.right
+ children = []
+ children.extend(flatten(self.nodes))
+ return tuple(children)
def getChildNodes(self):
- return self.left, self.right
+ nodelist = []
+ nodelist.extend(flatten_nodes(self.nodes))
+ return tuple(nodelist)
def __repr__(self):
- return "RightShift((%s, %s))" % (repr(self.left), repr(self.right))
+ return "Bitand(%s)" % (repr(self.nodes),)
-class AssList(Node):
- nodes["asslist"] = "AssList"
+class Bitor(Node):
+ nodes["bitor"] = "Bitor"
def __init__(self, nodes):
self.nodes = nodes
@@ -217,102 +269,129 @@ class AssList(Node):
return tuple(nodelist)
def __repr__(self):
- return "AssList(%s)" % (repr(self.nodes),)
+ return "Bitor(%s)" % (repr(self.nodes),)
-class From(Node):
- nodes["from"] = "From"
- def __init__(self, modname, names):
- self.modname = modname
- self.names = names
+class Bitxor(Node):
+ nodes["bitxor"] = "Bitxor"
+ def __init__(self, nodes):
+ self.nodes = nodes
def getChildren(self):
- return self.modname, self.names
+ children = []
+ children.extend(flatten(self.nodes))
+ return tuple(children)
def getChildNodes(self):
- return ()
+ nodelist = []
+ nodelist.extend(flatten_nodes(self.nodes))
+ return tuple(nodelist)
def __repr__(self):
- return "From(%s, %s)" % (repr(self.modname), repr(self.names))
+ return "Bitxor(%s)" % (repr(self.nodes),)
-class Getattr(Node):
- nodes["getattr"] = "Getattr"
- def __init__(self, expr, attrname):
- self.expr = expr
- self.attrname = attrname
+class Break(Node):
+ nodes["break"] = "Break"
+ def __init__(self, ):
+ pass
def getChildren(self):
- return self.expr, self.attrname
+ return ()
def getChildNodes(self):
- return self.expr,
+ return ()
def __repr__(self):
- return "Getattr(%s, %s)" % (repr(self.expr), repr(self.attrname))
+ return "Break()"
-class Dict(Node):
- nodes["dict"] = "Dict"
- def __init__(self, items):
- self.items = items
+class CallFunc(Node):
+ nodes["callfunc"] = "CallFunc"
+ def __init__(self, node, args, star_args = None, dstar_args = None):
+ self.node = node
+ self.args = args
+ self.star_args = star_args
+ self.dstar_args = dstar_args
def getChildren(self):
children = []
- children.extend(flatten(self.items))
+ 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.extend(flatten_nodes(self.items))
+ 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 "Dict(%s)" % (repr(self.items),)
+ return "CallFunc(%s, %s, %s, %s)" % (repr(self.node), repr(self.args), repr(self.star_args), repr(self.dstar_args))
-class Module(Node):
- nodes["module"] = "Module"
- def __init__(self, doc, node):
+class Class(Node):
+ nodes["class"] = "Class"
+ def __init__(self, name, bases, doc, code):
+ self.name = name
+ self.bases = bases
self.doc = doc
- self.node = node
+ self.code = code
def getChildren(self):
- return self.doc, self.node
+ children = []
+ children.append(self.name)
+ children.extend(flatten(self.bases))
+ children.append(self.doc)
+ children.append(self.code)
+ return tuple(children)
def getChildNodes(self):
- return self.node,
+ nodelist = []
+ nodelist.extend(flatten_nodes(self.bases))
+ nodelist.append(self.code)
+ return tuple(nodelist)
def __repr__(self):
- return "Module(%s, %s)" % (repr(self.doc), repr(self.node))
+ return "Class(%s, %s, %s, %s)" % (repr(self.name), repr(self.bases), repr(self.doc), repr(self.code))
-class Expression(Node):
- # Expression is an artificial node class to support "eval"
- nodes["expression"] = "Expression"
- def __init__(self, node):
- self.node = node
+class Compare(Node):
+ nodes["compare"] = "Compare"
+ def __init__(self, expr, ops):
+ self.expr = expr
+ self.ops = ops
def getChildren(self):
- return self.node,
+ children = []
+ children.append(self.expr)
+ children.extend(flatten(self.ops))
+ return tuple(children)
def getChildNodes(self):
- return self.node,
+ nodelist = []
+ nodelist.append(self.expr)
+ nodelist.extend(flatten_nodes(self.ops))
+ return tuple(nodelist)
def __repr__(self):
- return "Expression(%s)" % (repr(self.node))
+ return "Compare(%s, %s)" % (repr(self.expr), repr(self.ops))
-class UnaryAdd(Node):
- nodes["unaryadd"] = "UnaryAdd"
- def __init__(self, expr):
- self.expr = expr
+class Const(Node):
+ nodes["const"] = "Const"
+ def __init__(self, value):
+ self.value = value
def getChildren(self):
- return self.expr,
+ return self.value,
def getChildNodes(self):
- return self.expr,
+ return ()
def __repr__(self):
- return "UnaryAdd(%s)" % (repr(self.expr),)
+ return "Const(%s)" % (repr(self.value),)
-class Ellipsis(Node):
- nodes["ellipsis"] = "Ellipsis"
+class Continue(Node):
+ nodes["continue"] = "Continue"
def __init__(self, ):
pass
@@ -323,125 +402,168 @@ class Ellipsis(Node):
return ()
def __repr__(self):
- return "Ellipsis()"
+ return "Continue()"
-class Print(Node):
- nodes["print"] = "Print"
- def __init__(self, nodes, dest):
+class Decorators(Node):
+ nodes["decorators"] = "Decorators"
+ def __init__(self, nodes):
self.nodes = nodes
- self.dest = dest
+
+ def getChildren(self):
+ return tuple(flatten(self.nodes))
+
+ def getChildNodes(self):
+ return flatten_nodes(self.nodes)
+
+ def __repr__(self):
+ return "Decorators(%s)" % (repr(self.nodes),)
+
+class Dict(Node):
+ nodes["dict"] = "Dict"
+ def __init__(self, items):
+ self.items = items
def getChildren(self):
children = []
- children.extend(flatten(self.nodes))
- children.append(self.dest)
+ children.extend(flatten(self.items))
return tuple(children)
def getChildNodes(self):
nodelist = []
- nodelist.extend(flatten_nodes(self.nodes))
- if self.dest is not None: nodelist.append(self.dest)
+ nodelist.extend(flatten_nodes(self.items))
return tuple(nodelist)
def __repr__(self):
- return "Print(%s, %s)" % (repr(self.nodes), repr(self.dest))
+ return "Dict(%s)" % (repr(self.items),)
-class Import(Node):
- nodes["import"] = "Import"
- def __init__(self, names):
- self.names = names
+class Discard(Node):
+ nodes["discard"] = "Discard"
+ def __init__(self, expr):
+ self.expr = expr
def getChildren(self):
- return self.names,
+ return self.expr,
+
+ def getChildNodes(self):
+ return self.expr,
+
+ def __repr__(self):
+ return "Discard(%s)" % (repr(self.expr),)
+
+class Div(Node):
+ nodes["div"] = "Div"
+ def __init__(self, (left, right)):
+ self.left = left
+ self.right = right
+
+ 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):
+ nodes["ellipsis"] = "Ellipsis"
+ def __init__(self, ):
+ pass
+
+ def getChildren(self):
+ return ()
def getChildNodes(self):
return ()
def __repr__(self):
- return "Import(%s)" % (repr(self.names),)
+ return "Ellipsis()"
-class Subscript(Node):
- nodes["subscript"] = "Subscript"
- def __init__(self, expr, flags, subs):
+class Exec(Node):
+ nodes["exec"] = "Exec"
+ def __init__(self, expr, locals, globals):
self.expr = expr
- self.flags = flags
- self.subs = subs
+ self.locals = locals
+ self.globals = globals
def getChildren(self):
children = []
children.append(self.expr)
- children.append(self.flags)
- children.extend(flatten(self.subs))
+ children.append(self.locals)
+ children.append(self.globals)
return tuple(children)
def getChildNodes(self):
nodelist = []
nodelist.append(self.expr)
- nodelist.extend(flatten_nodes(self.subs))
+ 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 "Subscript(%s, %s, %s)" % (repr(self.expr), repr(self.flags), repr(self.subs))
+ return "Exec(%s, %s, %s)" % (repr(self.expr), repr(self.locals), repr(self.globals))
-class TryExcept(Node):
- nodes["tryexcept"] = "TryExcept"
- def __init__(self, body, handlers, else_):
- self.body = body
- self.handlers = handlers
- self.else_ = else_
+class FloorDiv(Node):
+ nodes["floordiv"] = "FloorDiv"
+ def __init__(self, (left, right)):
+ self.left = left
+ self.right = right
def getChildren(self):
- children = []
- children.append(self.body)
- children.extend(flatten(self.handlers))
- children.append(self.else_)
- return tuple(children)
+ return self.left, self.right
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)
+ return self.left, self.right
def __repr__(self):
- return "TryExcept(%s, %s, %s)" % (repr(self.body), repr(self.handlers), repr(self.else_))
+ return "FloorDiv((%s, %s))" % (repr(self.left), repr(self.right))
-class Or(Node):
- nodes["or"] = "Or"
- def __init__(self, nodes):
- self.nodes = nodes
+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_
def getChildren(self):
children = []
- children.extend(flatten(self.nodes))
+ children.append(self.assign)
+ children.append(self.list)
+ children.append(self.body)
+ children.append(self.else_)
return tuple(children)
def getChildNodes(self):
nodelist = []
- nodelist.extend(flatten_nodes(self.nodes))
+ 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 "Or(%s)" % (repr(self.nodes),)
+ return "For(%s, %s, %s, %s)" % (repr(self.assign), repr(self.list), repr(self.body), repr(self.else_))
-class Name(Node):
- nodes["name"] = "Name"
- def __init__(self, name):
- self.name = name
+class From(Node):
+ nodes["from"] = "From"
+ def __init__(self, modname, names):
+ self.modname = modname
+ self.names = names
def getChildren(self):
- return self.name,
+ return self.modname, self.names
def getChildNodes(self):
return ()
def __repr__(self):
- return "Name(%s)" % (repr(self.name),)
+ return "From(%s, %s)" % (repr(self.modname), repr(self.names))
class Function(Node):
nodes["function"] = "Function"
- def __init__(self, name, argnames, defaults, flags, doc, code):
+ def __init__(self, decorators, name, argnames, defaults, flags, doc, code):
+ self.decorators = decorators
self.name = name
self.argnames = argnames
self.defaults = defaults
@@ -458,6 +580,8 @@ class Function(Node):
def getChildren(self):
children = []
+ if self.decorators:
+ children.append(flatten(self.decorators.nodes))
children.append(self.name)
children.append(self.argnames)
children.extend(flatten(self.defaults))
@@ -468,226 +592,221 @@ class Function(Node):
def getChildNodes(self):
nodelist = []
+ if self.decorators:
+ nodelist.extend(flatten_nodes(self.decorators.nodes))
nodelist.extend(flatten_nodes(self.defaults))
nodelist.append(self.code)
return tuple(nodelist)
def __repr__(self):
- return "Function(%s, %s, %s, %s, %s, %s)" % (repr(self.name), repr(self.argnames), repr(self.defaults), repr(self.flags), repr(self.doc), repr(self.code))
+ 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):
+ nodes["genexpr"] = "GenExpr"
+ def __init__(self, code):
+ self.code = code
+ self.argnames = ['[outmost-iterable]']
+ self.varargs = self.kwargs = None
+
-class Assert(Node):
- nodes["assert"] = "Assert"
- def __init__(self, test, fail):
- self.test = test
- self.fail = fail
def getChildren(self):
- children = []
- children.append(self.test)
- children.append(self.fail)
- return tuple(children)
+ return self.code,
def getChildNodes(self):
- nodelist = []
- nodelist.append(self.test)
- if self.fail is not None: nodelist.append(self.fail)
- return tuple(nodelist)
+ return self.code,
def __repr__(self):
- return "Assert(%s, %s)" % (repr(self.test), repr(self.fail))
+ return "GenExpr(%s)" % (repr(self.code),)
+
+class GenExprFor(Node):
+ nodes["genexprfor"] = "GenExprFor"
+ def __init__(self, assign, iter, ifs):
+ self.assign = assign
+ self.iter = iter
+ self.ifs = ifs
+ self.is_outmost = False
-class Return(Node):
- nodes["return"] = "Return"
- def __init__(self, value):
- self.value = value
def getChildren(self):
- return self.value,
+ children = []
+ children.append(self.assign)
+ children.append(self.iter)
+ children.extend(flatten(self.ifs))
+ return tuple(children)
def getChildNodes(self):
- return self.value,
+ nodelist = []
+ nodelist.append(self.assign)
+ nodelist.append(self.iter)
+ nodelist.extend(flatten_nodes(self.ifs))
+ return tuple(nodelist)
def __repr__(self):
- return "Return(%s)" % (repr(self.value),)
+ return "GenExprFor(%s, %s, %s)" % (repr(self.assign), repr(self.iter), repr(self.ifs))
-class Power(Node):
- nodes["power"] = "Power"
- def __init__(self, (left, right)):
- self.left = left
- self.right = right
+class GenExprIf(Node):
+ nodes["genexprif"] = "GenExprIf"
+ def __init__(self, test):
+ self.test = test
def getChildren(self):
- return self.left, self.right
+ return self.test,
def getChildNodes(self):
- return self.left, self.right
+ return self.test,
def __repr__(self):
- return "Power((%s, %s))" % (repr(self.left), repr(self.right))
+ return "GenExprIf(%s)" % (repr(self.test),)
-class Exec(Node):
- nodes["exec"] = "Exec"
- def __init__(self, expr, locals, globals):
+class GenExprInner(Node):
+ nodes["genexprinner"] = "GenExprInner"
+ def __init__(self, expr, quals):
self.expr = expr
- self.locals = locals
- self.globals = globals
+ self.quals = quals
def getChildren(self):
children = []
children.append(self.expr)
- children.append(self.locals)
- children.append(self.globals)
+ children.extend(flatten(self.quals))
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 Stmt(Node):
- nodes["stmt"] = "Stmt"
- def __init__(self, nodes):
- self.nodes = nodes
-
- def getChildren(self):
- children = []
- children.extend(flatten(self.nodes))
- return tuple(children)
-
- def getChildNodes(self):
- nodelist = []
- nodelist.extend(flatten_nodes(self.nodes))
+ nodelist.extend(flatten_nodes(self.quals))
return tuple(nodelist)
def __repr__(self):
- return "Stmt(%s)" % (repr(self.nodes),)
+ return "GenExprInner(%s, %s)" % (repr(self.expr), repr(self.quals))
-class Sliceobj(Node):
- nodes["sliceobj"] = "Sliceobj"
- def __init__(self, nodes):
- self.nodes = nodes
+class Getattr(Node):
+ nodes["getattr"] = "Getattr"
+ def __init__(self, expr, attrname):
+ self.expr = expr
+ self.attrname = attrname
def getChildren(self):
- children = []
- children.extend(flatten(self.nodes))
- return tuple(children)
+ return self.expr, self.attrname
def getChildNodes(self):
- nodelist = []
- nodelist.extend(flatten_nodes(self.nodes))
- return tuple(nodelist)
+ return self.expr,
def __repr__(self):
- return "Sliceobj(%s)" % (repr(self.nodes),)
+ return "Getattr(%s, %s)" % (repr(self.expr), repr(self.attrname))
-class Break(Node):
- nodes["break"] = "Break"
- def __init__(self, ):
- pass
+class Global(Node):
+ nodes["global"] = "Global"
+ def __init__(self, names):
+ self.names = names
def getChildren(self):
- return ()
+ return self.names,
def getChildNodes(self):
return ()
def __repr__(self):
- return "Break()"
+ return "Global(%s)" % (repr(self.names),)
-class Bitand(Node):
- nodes["bitand"] = "Bitand"
- def __init__(self, nodes):
- self.nodes = nodes
+class If(Node):
+ nodes["if"] = "If"
+ def __init__(self, tests, else_):
+ self.tests = tests
+ self.else_ = else_
def getChildren(self):
children = []
- children.extend(flatten(self.nodes))
+ children.extend(flatten(self.tests))
+ children.append(self.else_)
return tuple(children)
def getChildNodes(self):
nodelist = []
- nodelist.extend(flatten_nodes(self.nodes))
+ nodelist.extend(flatten_nodes(self.tests))
+ if self.else_ is not None: nodelist.append(self.else_)
return tuple(nodelist)
def __repr__(self):
- return "Bitand(%s)" % (repr(self.nodes),)
+ return "If(%s, %s)" % (repr(self.tests), repr(self.else_))
-class FloorDiv(Node):
- nodes["floordiv"] = "FloorDiv"
- def __init__(self, (left, right)):
- self.left = left
- self.right = right
+class Import(Node):
+ nodes["import"] = "Import"
+ def __init__(self, names):
+ self.names = names
def getChildren(self):
- return self.left, self.right
+ return self.names,
def getChildNodes(self):
- return self.left, self.right
+ return ()
def __repr__(self):
- return "FloorDiv((%s, %s))" % (repr(self.left), repr(self.right))
+ return "Import(%s)" % (repr(self.names),)
-class TryFinally(Node):
- nodes["tryfinally"] = "TryFinally"
- def __init__(self, body, final):
- self.body = body
- self.final = final
+class Invert(Node):
+ nodes["invert"] = "Invert"
+ def __init__(self, expr):
+ self.expr = expr
def getChildren(self):
- return self.body, self.final
+ return self.expr,
def getChildNodes(self):
- return self.body, self.final
+ return self.expr,
def __repr__(self):
- return "TryFinally(%s, %s)" % (repr(self.body), repr(self.final))
+ return "Invert(%s)" % (repr(self.expr),)
-class Not(Node):
- nodes["not"] = "Not"
- def __init__(self, expr):
+class Keyword(Node):
+ nodes["keyword"] = "Keyword"
+ def __init__(self, name, expr):
+ self.name = name
self.expr = expr
def getChildren(self):
- return self.expr,
+ return self.name, self.expr
def getChildNodes(self):
return self.expr,
def __repr__(self):
- return "Not(%s)" % (repr(self.expr),)
+ return "Keyword(%s, %s)" % (repr(self.name), repr(self.expr))
-class Class(Node):
- nodes["class"] = "Class"
- def __init__(self, name, bases, doc, code):
- self.name = name
- self.bases = bases
- self.doc = doc
+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.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.name)
- children.extend(flatten(self.bases))
- children.append(self.doc)
+ 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.bases))
+ nodelist.extend(flatten_nodes(self.defaults))
nodelist.append(self.code)
return tuple(nodelist)
def __repr__(self):
- return "Class(%s, %s, %s, %s)" % (repr(self.name), repr(self.bases), repr(self.doc), repr(self.code))
+ return "Lambda(%s, %s, %s, %s)" % (repr(self.argnames), repr(self.defaults), repr(self.flags), repr(self.code))
-class Mod(Node):
- nodes["mod"] = "Mod"
+class LeftShift(Node):
+ nodes["leftshift"] = "LeftShift"
def __init__(self, (left, right)):
self.left = left
self.right = right
@@ -699,128 +818,117 @@ class Mod(Node):
return self.left, self.right
def __repr__(self):
- return "Mod((%s, %s))" % (repr(self.left), repr(self.right))
+ return "LeftShift((%s, %s))" % (repr(self.left), repr(self.right))
-class Printnl(Node):
- nodes["printnl"] = "Printnl"
- def __init__(self, nodes, dest):
+class List(Node):
+ nodes["list"] = "List"
+ def __init__(self, nodes):
self.nodes = nodes
- self.dest = dest
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))
+ return "List(%s)" % (repr(self.nodes),)
-class Tuple(Node):
- nodes["tuple"] = "Tuple"
- def __init__(self, nodes):
- self.nodes = nodes
+class ListComp(Node):
+ nodes["listcomp"] = "ListComp"
+ def __init__(self, expr, quals):
+ self.expr = expr
+ self.quals = quals
def getChildren(self):
children = []
- children.extend(flatten(self.nodes))
+ children.append(self.expr)
+ children.extend(flatten(self.quals))
return tuple(children)
def getChildNodes(self):
nodelist = []
- nodelist.extend(flatten_nodes(self.nodes))
+ nodelist.append(self.expr)
+ nodelist.extend(flatten_nodes(self.quals))
return tuple(nodelist)
def __repr__(self):
- return "Tuple(%s)" % (repr(self.nodes),)
-
-class AssAttr(Node):
- nodes["assattr"] = "AssAttr"
- def __init__(self, expr, attrname, flags):
- self.expr = expr
- self.attrname = attrname
- self.flags = flags
-
- 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))
+ return "ListComp(%s, %s)" % (repr(self.expr), repr(self.quals))
-class Keyword(Node):
- nodes["keyword"] = "Keyword"
- def __init__(self, name, expr):
- self.name = name
- self.expr = expr
+class ListCompFor(Node):
+ nodes["listcompfor"] = "ListCompFor"
+ def __init__(self, assign, list, ifs):
+ self.assign = assign
+ self.list = list
+ self.ifs = ifs
def getChildren(self):
- return self.name, self.expr
+ children = []
+ children.append(self.assign)
+ children.append(self.list)
+ children.extend(flatten(self.ifs))
+ return tuple(children)
def getChildNodes(self):
- return self.expr,
+ nodelist = []
+ nodelist.append(self.assign)
+ nodelist.append(self.list)
+ nodelist.extend(flatten_nodes(self.ifs))
+ return tuple(nodelist)
def __repr__(self):
- return "Keyword(%s, %s)" % (repr(self.name), repr(self.expr))
+ return "ListCompFor(%s, %s, %s)" % (repr(self.assign), repr(self.list), repr(self.ifs))
-class AugAssign(Node):
- nodes["augassign"] = "AugAssign"
- def __init__(self, node, op, expr):
- self.node = node
- self.op = op
- self.expr = expr
+class ListCompIf(Node):
+ nodes["listcompif"] = "ListCompIf"
+ def __init__(self, test):
+ self.test = test
def getChildren(self):
- return self.node, self.op, self.expr
+ return self.test,
def getChildNodes(self):
- return self.node, self.expr
+ return self.test,
def __repr__(self):
- return "AugAssign(%s, %s, %s)" % (repr(self.node), repr(self.op), repr(self.expr))
+ return "ListCompIf(%s)" % (repr(self.test),)
-class List(Node):
- nodes["list"] = "List"
- def __init__(self, nodes):
- self.nodes = nodes
+class Mod(Node):
+ nodes["mod"] = "Mod"
+ def __init__(self, (left, right)):
+ self.left = left
+ self.right = right
def getChildren(self):
- children = []
- children.extend(flatten(self.nodes))
- return tuple(children)
+ return self.left, self.right
def getChildNodes(self):
- nodelist = []
- nodelist.extend(flatten_nodes(self.nodes))
- return tuple(nodelist)
+ return self.left, self.right
def __repr__(self):
- return "List(%s)" % (repr(self.nodes),)
+ return "Mod((%s, %s))" % (repr(self.left), repr(self.right))
-class Yield(Node):
- nodes["yield"] = "Yield"
- def __init__(self, value):
- self.value = value
+class Module(Node):
+ nodes["module"] = "Module"
+ def __init__(self, doc, node):
+ self.doc = doc
+ self.node = node
def getChildren(self):
- return self.value,
+ return self.doc, self.node
def getChildNodes(self):
- return self.value,
+ return self.node,
def __repr__(self):
- return "Yield(%s)" % (repr(self.value),)
+ return "Module(%s, %s)" % (repr(self.doc), repr(self.node))
-class LeftShift(Node):
- nodes["leftshift"] = "LeftShift"
+class Mul(Node):
+ nodes["mul"] = "Mul"
def __init__(self, (left, right)):
self.left = left
self.right = right
@@ -832,49 +940,56 @@ class LeftShift(Node):
return self.left, self.right
def __repr__(self):
- return "LeftShift((%s, %s))" % (repr(self.left), repr(self.right))
+ return "Mul((%s, %s))" % (repr(self.left), repr(self.right))
-class AssName(Node):
- nodes["assname"] = "AssName"
- def __init__(self, name, flags):
+class Name(Node):
+ nodes["name"] = "Name"
+ def __init__(self, name):
self.name = name
- self.flags = flags
def getChildren(self):
- return self.name, self.flags
+ return self.name,
def getChildNodes(self):
return ()
def __repr__(self):
- return "AssName(%s, %s)" % (repr(self.name), repr(self.flags))
+ return "Name(%s)" % (repr(self.name),)
-class While(Node):
- nodes["while"] = "While"
- def __init__(self, test, body, else_):
- self.test = test
- self.body = body
- self.else_ = else_
+class Not(Node):
+ nodes["not"] = "Not"
+ def __init__(self, expr):
+ self.expr = expr
+
+ def getChildren(self):
+ return self.expr,
+
+ def getChildNodes(self):
+ return self.expr,
+
+ def __repr__(self):
+ return "Not(%s)" % (repr(self.expr),)
+
+class Or(Node):
+ nodes["or"] = "Or"
+ def __init__(self, nodes):
+ self.nodes = nodes
def getChildren(self):
children = []
- children.append(self.test)
- children.append(self.body)
- children.append(self.else_)
+ children.extend(flatten(self.nodes))
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_)
+ nodelist.extend(flatten_nodes(self.nodes))
return tuple(nodelist)
def __repr__(self):
- return "While(%s, %s, %s)" % (repr(self.test), repr(self.body), repr(self.else_))
+ return "Or(%s)" % (repr(self.nodes),)
-class Continue(Node):
- nodes["continue"] = "Continue"
+class Pass(Node):
+ nodes["pass"] = "Pass"
def __init__(self, ):
pass
@@ -885,38 +1000,10 @@ class Continue(Node):
return ()
def __repr__(self):
- return "Continue()"
-
-class Backquote(Node):
- nodes["backquote"] = "Backquote"
- def __init__(self, expr):
- self.expr = expr
-
- def getChildren(self):
- return self.expr,
-
- def getChildNodes(self):
- return self.expr,
-
- def __repr__(self):
- return "Backquote(%s)" % (repr(self.expr),)
-
-class Discard(Node):
- nodes["discard"] = "Discard"
- def __init__(self, expr):
- self.expr = expr
-
- def getChildren(self):
- return self.expr,
-
- def getChildNodes(self):
- return self.expr,
-
- def __repr__(self):
- return "Discard(%s)" % (repr(self.expr),)
+ return "Pass()"
-class Div(Node):
- nodes["div"] = "Div"
+class Power(Node):
+ nodes["power"] = "Power"
def __init__(self, (left, right)):
self.left = left
self.right = right
@@ -928,119 +1015,131 @@ class Div(Node):
return self.left, self.right
def __repr__(self):
- return "Div((%s, %s))" % (repr(self.left), repr(self.right))
+ return "Power((%s, %s))" % (repr(self.left), repr(self.right))
-class Assign(Node):
- nodes["assign"] = "Assign"
- def __init__(self, nodes, expr):
+class Print(Node):
+ nodes["print"] = "Print"
+ def __init__(self, nodes, dest):
self.nodes = nodes
- self.expr = expr
+ self.dest = dest
def getChildren(self):
children = []
children.extend(flatten(self.nodes))
- children.append(self.expr)
+ children.append(self.dest)
return tuple(children)
def getChildNodes(self):
nodelist = []
nodelist.extend(flatten_nodes(self.nodes))
- nodelist.append(self.expr)
+ if self.dest is not None: nodelist.append(self.dest)
return tuple(nodelist)
def __repr__(self):
- return "Assign(%s, %s)" % (repr(self.nodes), repr(self.expr))
-
-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.varargs = self.kwargs = None
- if flags & CO_VARARGS:
- self.varargs = 1
- if flags & CO_VARKEYWORDS:
- self.kwargs = 1
+ return "Print(%s, %s)" % (repr(self.nodes), repr(self.dest))
+class Printnl(Node):
+ nodes["printnl"] = "Printnl"
+ def __init__(self, nodes, dest):
+ self.nodes = nodes
+ self.dest = dest
def getChildren(self):
children = []
- children.append(self.argnames)
- children.extend(flatten(self.defaults))
- children.append(self.flags)
- children.append(self.code)
+ children.extend(flatten(self.nodes))
+ children.append(self.dest)
return tuple(children)
def getChildNodes(self):
nodelist = []
- nodelist.extend(flatten_nodes(self.defaults))
- nodelist.append(self.code)
+ nodelist.extend(flatten_nodes(self.nodes))
+ if self.dest is not None: nodelist.append(self.dest)
return tuple(nodelist)
def __repr__(self):
- return "Lambda(%s, %s, %s, %s)" % (repr(self.argnames), repr(self.defaults), repr(self.flags), repr(self.code))
+ return "Printnl(%s, %s)" % (repr(self.nodes), repr(self.dest))
-class And(Node):
- nodes["and"] = "And"
- def __init__(self, nodes):
- self.nodes = nodes
+class Raise(Node):
+ nodes["raise"] = "Raise"
+ def __init__(self, expr1, expr2, expr3):
+ self.expr1 = expr1
+ self.expr2 = expr2
+ self.expr3 = expr3
def getChildren(self):
children = []
- children.extend(flatten(self.nodes))
+ children.append(self.expr1)
+ children.append(self.expr2)
+ children.append(self.expr3)
return tuple(children)
def getChildNodes(self):
nodelist = []
- nodelist.extend(flatten_nodes(self.nodes))
+ 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 "And(%s)" % (repr(self.nodes),)
+ return "Raise(%s, %s, %s)" % (repr(self.expr1), repr(self.expr2), repr(self.expr3))
-class Compare(Node):
- nodes["compare"] = "Compare"
- def __init__(self, expr, ops):
- self.expr = expr
- self.ops = ops
+class Return(Node):
+ nodes["return"] = "Return"
+ def __init__(self, value):
+ self.value = value
def getChildren(self):
- children = []
- children.append(self.expr)
- children.extend(flatten(self.ops))
- return tuple(children)
+ return self.value,
def getChildNodes(self):
- nodelist = []
- nodelist.append(self.expr)
- nodelist.extend(flatten_nodes(self.ops))
- return tuple(nodelist)
+ return self.value,
def __repr__(self):
- return "Compare(%s, %s)" % (repr(self.expr), repr(self.ops))
+ return "Return(%s)" % (repr(self.value),)
-class Bitor(Node):
- nodes["bitor"] = "Bitor"
- def __init__(self, nodes):
- self.nodes = nodes
+class RightShift(Node):
+ nodes["rightshift"] = "RightShift"
+ def __init__(self, (left, right)):
+ self.left = left
+ self.right = right
+
+ 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 Slice(Node):
+ nodes["slice"] = "Slice"
+ def __init__(self, expr, flags, lower, upper):
+ self.expr = expr
+ self.flags = flags
+ self.lower = lower
+ self.upper = upper
def getChildren(self):
children = []
- children.extend(flatten(self.nodes))
+ children.append(self.expr)
+ children.append(self.flags)
+ children.append(self.lower)
+ children.append(self.upper)
return tuple(children)
def getChildNodes(self):
nodelist = []
- nodelist.extend(flatten_nodes(self.nodes))
+ 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 "Bitor(%s)" % (repr(self.nodes),)
+ return "Slice(%s, %s, %s, %s)" % (repr(self.expr), repr(self.flags), repr(self.lower), repr(self.upper))
-class Bitxor(Node):
- nodes["bitxor"] = "Bitxor"
+class Sliceobj(Node):
+ nodes["sliceobj"] = "Sliceobj"
def __init__(self, nodes):
self.nodes = nodes
@@ -1055,77 +1154,25 @@ class Bitxor(Node):
return tuple(nodelist)
def __repr__(self):
- return "Bitxor(%s)" % (repr(self.nodes),)
+ return "Sliceobj(%s)" % (repr(self.nodes),)
-class CallFunc(Node):
- nodes["callfunc"] = "CallFunc"
- def __init__(self, node, args, star_args = None, dstar_args = None):
- self.node = node
- self.args = args
- self.star_args = star_args
- self.dstar_args = dstar_args
+class Stmt(Node):
+ nodes["stmt"] = "Stmt"
+ def __init__(self, nodes):
+ self.nodes = nodes
def getChildren(self):
children = []
- children.append(self.node)
- children.extend(flatten(self.args))
- children.append(self.star_args)
- children.append(self.dstar_args)
+ children.extend(flatten(self.nodes))
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)
+ nodelist.extend(flatten_nodes(self.nodes))
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 Global(Node):
- nodes["global"] = "Global"
- def __init__(self, names):
- self.names = names
-
- def getChildren(self):
- return self.names,
-
- def getChildNodes(self):
- return ()
-
- def __repr__(self):
- return "Global(%s)" % (repr(self.names),)
-
-class Add(Node):
- nodes["add"] = "Add"
- def __init__(self, (left, right)):
- self.left = left
- self.right = right
-
- 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 ListCompIf(Node):
- nodes["listcompif"] = "ListCompIf"
- def __init__(self, test):
- self.test = test
-
- def getChildren(self):
- return self.test,
-
- def getChildNodes(self):
- return self.test,
-
- def __repr__(self):
- return "ListCompIf(%s)" % (repr(self.test),)
+ return "Stmt(%s)" % (repr(self.nodes),)
class Sub(Node):
nodes["sub"] = "Sub"
@@ -1142,175 +1189,151 @@ class Sub(Node):
def __repr__(self):
return "Sub((%s, %s))" % (repr(self.left), repr(self.right))
-class Pass(Node):
- nodes["pass"] = "Pass"
- def __init__(self, ):
- pass
-
- def getChildren(self):
- return ()
-
- def getChildNodes(self):
- return ()
-
- def __repr__(self):
- return "Pass()"
-
-class UnarySub(Node):
- nodes["unarysub"] = "UnarySub"
- def __init__(self, expr):
+class Subscript(Node):
+ nodes["subscript"] = "Subscript"
+ def __init__(self, expr, flags, subs):
self.expr = expr
+ self.flags = flags
+ self.subs = subs
def getChildren(self):
- return self.expr,
+ children = []
+ children.append(self.expr)
+ children.append(self.flags)
+ children.extend(flatten(self.subs))
+ return tuple(children)
def getChildNodes(self):
- return self.expr,
+ nodelist = []
+ nodelist.append(self.expr)
+ nodelist.extend(flatten_nodes(self.subs))
+ return tuple(nodelist)
def __repr__(self):
- return "UnarySub(%s)" % (repr(self.expr),)
+ return "Subscript(%s, %s, %s)" % (repr(self.expr), repr(self.flags), repr(self.subs))
-class If(Node):
- nodes["if"] = "If"
- def __init__(self, tests, else_):
- self.tests = tests
+class TryExcept(Node):
+ nodes["tryexcept"] = "TryExcept"
+ def __init__(self, body, handlers, else_):
+ self.body = body
+ self.handlers = handlers
self.else_ = else_
def getChildren(self):
children = []
- children.extend(flatten(self.tests))
+ children.append(self.body)
+ children.extend(flatten(self.handlers))
children.append(self.else_)
return tuple(children)
def getChildNodes(self):
nodelist = []
- nodelist.extend(flatten_nodes(self.tests))
+ 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 "If(%s, %s)" % (repr(self.tests), repr(self.else_))
+ return "TryExcept(%s, %s, %s)" % (repr(self.body), repr(self.handlers), repr(self.else_))
-class ListComp(Node):
- nodes["listcomp"] = "ListComp"
- def __init__(self, expr, quals):
- self.expr = expr
- self.quals = quals
+class TryFinally(Node):
+ nodes["tryfinally"] = "TryFinally"
+ def __init__(self, body, final):
+ self.body = body
+ self.final = final
def getChildren(self):
- children = []
- children.append(self.expr)
- children.extend(flatten(self.quals))
- return tuple(children)
+ return self.body, self.final
def getChildNodes(self):
- nodelist = []
- nodelist.append(self.expr)
- nodelist.extend(flatten_nodes(self.quals))
- return tuple(nodelist)
+ return self.body, self.final
def __repr__(self):
- return "ListComp(%s, %s)" % (repr(self.expr), repr(self.quals))
+ return "TryFinally(%s, %s)" % (repr(self.body), repr(self.final))
-class ListCompFor(Node):
- nodes["listcompfor"] = "ListCompFor"
- def __init__(self, assign, list, ifs):
- self.assign = assign
- self.list = list
- self.ifs = ifs
+class Tuple(Node):
+ nodes["tuple"] = "Tuple"
+ def __init__(self, nodes):
+ self.nodes = nodes
def getChildren(self):
children = []
- children.append(self.assign)
- children.append(self.list)
- children.extend(flatten(self.ifs))
+ children.extend(flatten(self.nodes))
return tuple(children)
def getChildNodes(self):
nodelist = []
- nodelist.append(self.assign)
- nodelist.append(self.list)
- nodelist.extend(flatten_nodes(self.ifs))
+ nodelist.extend(flatten_nodes(self.nodes))
return tuple(nodelist)
def __repr__(self):
- return "ListCompFor(%s, %s, %s)" % (repr(self.assign), repr(self.list), repr(self.ifs))
+ return "Tuple(%s)" % (repr(self.nodes),)
-class GenExpr(Node):
- nodes["genexpr"] = "GenExpr"
- def __init__(self, code):
- self.code = code
- self.argnames = ['[outmost-iterable]']
- self.varargs = self.kwargs = None
+class UnaryAdd(Node):
+ nodes["unaryadd"] = "UnaryAdd"
+ def __init__(self, expr):
+ self.expr = expr
def getChildren(self):
- return self.code,
+ return self.expr,
def getChildNodes(self):
- return self.code,
+ return self.expr,
def __repr__(self):
- return "GenExpr(%s)" % (repr(self.code),)
+ return "UnaryAdd(%s)" % (repr(self.expr),)
-class GenExprInner(Node):
- nodes["genexprinner"] = "GenExprInner"
- def __init__(self, expr, quals):
+class UnarySub(Node):
+ nodes["unarysub"] = "UnarySub"
+ def __init__(self, expr):
self.expr = expr
- self.quals = quals
def getChildren(self):
- children = []
- children.append(self.expr)
- children.extend(flatten(self.quals))
- return tuple(children)
+ return self.expr,
def getChildNodes(self):
- nodelist = []
- nodelist.append(self.expr)
- nodelist.extend(flatten_nodes(self.quals))
- return tuple(nodelist)
+ return self.expr,
def __repr__(self):
- return "GenExprInner(%s, %s)" % (repr(self.expr), repr(self.quals))
+ return "UnarySub(%s)" % (repr(self.expr),)
-class GenExprFor(Node):
- nodes["genexprfor"] = "GenExprFor"
- def __init__(self, assign, iter, ifs):
- self.assign = assign
- self.iter = iter
- self.ifs = ifs
- self.is_outmost = False
+class While(Node):
+ nodes["while"] = "While"
+ def __init__(self, test, body, else_):
+ self.test = test
+ self.body = body
+ self.else_ = else_
def getChildren(self):
children = []
- children.append(self.assign)
- children.append(self.iter)
- children.extend(flatten(self.ifs))
+ children.append(self.test)
+ children.append(self.body)
+ children.append(self.else_)
return tuple(children)
def getChildNodes(self):
nodelist = []
- nodelist.append(self.assign)
- nodelist.append(self.iter)
- nodelist.extend(flatten_nodes(self.ifs))
+ 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 "GenExprFor(%s, %s, %s)" % (repr(self.assign), repr(self.iter), repr(self.ifs))
+ return "While(%s, %s, %s)" % (repr(self.test), repr(self.body), repr(self.else_))
-class GenExprIf(Node):
- nodes["genexprif"] = "GenExprIf"
- def __init__(self, test):
- self.test = test
+class Yield(Node):
+ nodes["yield"] = "Yield"
+ def __init__(self, value):
+ self.value = value
def getChildren(self):
- return self.test,
+ return self.value,
def getChildNodes(self):
- return self.test,
+ return self.value,
def __repr__(self):
- return "GenExprIf(%s)" % (repr(self.test),)
+ return "Yield(%s)" % (repr(self.value),)
klasses = globals()
for k in nodes.keys():
diff --git a/Lib/compiler/pycodegen.py b/Lib/compiler/pycodegen.py
index 4d5f728..e859ac5 100644
--- a/Lib/compiler/pycodegen.py
+++ b/Lib/compiler/pycodegen.py
@@ -366,6 +366,13 @@ class CodeGenerator:
self._visitFuncOrLambda(node, isLambda=1)
def _visitFuncOrLambda(self, node, isLambda=0):
+ if not isLambda and node.decorators:
+ for decorator in reversed(node.decorators.nodes):
+ self.visit(decorator)
+ ndecorators = len(node.decorators.nodes)
+ else:
+ ndecorators = 0
+
gen = self.FunctionGen(node, self.scopes, isLambda,
self.class_name, self.get_module())
walk(node.code, gen)
@@ -382,6 +389,9 @@ class CodeGenerator:
else:
self.emit('LOAD_CONST', gen)
self.emit('MAKE_FUNCTION', len(node.defaults))
+
+ for i in range(ndecorators):
+ self.emit('CALL_FUNCTION', 1)
def visitClass(self, node):
gen = self.ClassGen(node, self.scopes,
diff --git a/Lib/compiler/symbols.py b/Lib/compiler/symbols.py
index e1581a4..9d4605a 100644
--- a/Lib/compiler/symbols.py
+++ b/Lib/compiler/symbols.py
@@ -224,6 +224,8 @@ class SymbolVisitor:
visitExpression = visitModule
def visitFunction(self, node, parent):
+ if node.decorators:
+ self.visit(node.decorators, parent)
parent.add_def(node.name)
for n in node.defaults:
self.visit(n, parent)
diff --git a/Lib/compiler/transformer.py b/Lib/compiler/transformer.py
index aa5a28b..229657b 100644
--- a/Lib/compiler/transformer.py
+++ b/Lib/compiler/transformer.py
@@ -185,29 +185,81 @@ class Transformer:
### is this sufficient?
return Expression(self.com_node(nodelist[0]))
+ def decorator_name(self, nodelist):
+ listlen = len(nodelist)
+ assert listlen >= 1 and listlen % 2 == 1
+
+ item = self.atom_name(nodelist)
+ i = 1
+ while i < listlen:
+ assert nodelist[i][0] == token.DOT
+ assert nodelist[i + 1][0] == token.NAME
+ item = Getattr(item, nodelist[i + 1][1])
+ i += 2
+
+ return item
+
+ def decorator(self, nodelist):
+ # '@' dotted_name [ '(' [arglist] ')' ]
+ assert len(nodelist) in (2, 4, 5)
+ assert nodelist[0][0] == token.AT
+
+ assert nodelist[1][0] == symbol.dotted_name
+ funcname = self.decorator_name(nodelist[1][1:])
+
+ if len(nodelist) > 2:
+ assert nodelist[2][0] == token.LPAR
+ expr = self.com_call_function(funcname, nodelist[3])
+ else:
+ expr = funcname
+
+ return expr
+
+ def decorators(self, nodelist):
+ # decorators: decorator ([NEWLINE] decorator)* NEWLINE
+ listlen = len(nodelist)
+ i = 0
+ items = []
+ while i < listlen:
+ assert nodelist[i][0] == symbol.decorator
+ items.append(self.decorator(nodelist[i][1:]))
+ i += 1
+
+ if i < listlen and nodelist[i][0] == token.NEWLINE:
+ i += 1
+ return Decorators(items)
+
def funcdef(self, nodelist):
- # funcdef: 'def' NAME parameters ':' suite
+ # -6 -5 -4 -3 -2 -1
+ # funcdef: [decorators] 'def' NAME parameters ':' suite
# parameters: '(' [varargslist] ')'
- lineno = nodelist[1][2]
- name = nodelist[1][1]
- args = nodelist[2][2]
+ if len(nodelist) == 6:
+ assert nodelist[0][0] == symbol.decorators
+ decorators = self.decorators(nodelist[0][1:])
+ else:
+ assert len(nodelist) == 5
+ decorators = None
+
+ lineno = nodelist[-4][2]
+ name = nodelist[-4][1]
+ args = nodelist[-3][2]
if args[0] == symbol.varargslist:
names, defaults, flags = self.com_arglist(args[1:])
else:
names = defaults = ()
flags = 0
- doc = self.get_docstring(nodelist[4])
+ doc = self.get_docstring(nodelist[-1])
# code for function
- code = self.com_node(nodelist[4])
+ code = self.com_node(nodelist[-1])
if doc is not None:
assert isinstance(code, Stmt)
assert isinstance(code.nodes[0], Discard)
del code.nodes[0]
- n = Function(name, names, defaults, flags, doc, code)
+ n = Function(decorators, name, names, defaults, flags, doc, code)
n.lineno = lineno
return n
diff --git a/Lib/pyclbr.py b/Lib/pyclbr.py
index 9e6bcb0..0812e22 100644
--- a/Lib/pyclbr.py
+++ b/Lib/pyclbr.py
@@ -222,7 +222,7 @@ def _readmodule(module, path, inpackage=None):
else:
super.append(token)
inherit = names
- cur_class = Class(module, class_name, inherit, file, lineno)
+ cur_class = Class(fullmodule, class_name, inherit, file, lineno)
if not stack:
dict[class_name] = cur_class
stack.append((cur_class, thisindent))
diff --git a/Lib/symbol.py b/Lib/symbol.py
index c839e4a..cb57208 100755
--- a/Lib/symbol.py
+++ b/Lib/symbol.py
@@ -13,75 +13,77 @@
single_input = 256
file_input = 257
eval_input = 258
-funcdef = 259
-parameters = 260
-varargslist = 261
-fpdef = 262
-fplist = 263
-stmt = 264
-simple_stmt = 265
-small_stmt = 266
-expr_stmt = 267
-augassign = 268
-print_stmt = 269
-del_stmt = 270
-pass_stmt = 271
-flow_stmt = 272
-break_stmt = 273
-continue_stmt = 274
-return_stmt = 275
-yield_stmt = 276
-raise_stmt = 277
-import_stmt = 278
-import_as_name = 279
-dotted_as_name = 280
-dotted_name = 281
-global_stmt = 282
-exec_stmt = 283
-assert_stmt = 284
-compound_stmt = 285
-if_stmt = 286
-while_stmt = 287
-for_stmt = 288
-try_stmt = 289
-except_clause = 290
-suite = 291
-test = 292
-and_test = 293
-not_test = 294
-comparison = 295
-comp_op = 296
-expr = 297
-xor_expr = 298
-and_expr = 299
-shift_expr = 300
-arith_expr = 301
-term = 302
-factor = 303
-power = 304
-atom = 305
-listmaker = 306
-testlist_gexp = 307
-lambdef = 308
-trailer = 309
-subscriptlist = 310
-subscript = 311
-sliceop = 312
-exprlist = 313
-testlist = 314
-testlist_safe = 315
-dictmaker = 316
-classdef = 317
-arglist = 318
-argument = 319
-list_iter = 320
-list_for = 321
-list_if = 322
-gen_iter = 323
-gen_for = 324
-gen_if = 325
-testlist1 = 326
-encoding_decl = 327
+decorator = 259
+decorators = 260
+funcdef = 261
+parameters = 262
+varargslist = 263
+fpdef = 264
+fplist = 265
+stmt = 266
+simple_stmt = 267
+small_stmt = 268
+expr_stmt = 269
+augassign = 270
+print_stmt = 271
+del_stmt = 272
+pass_stmt = 273
+flow_stmt = 274
+break_stmt = 275
+continue_stmt = 276
+return_stmt = 277
+yield_stmt = 278
+raise_stmt = 279
+import_stmt = 280
+import_as_name = 281
+dotted_as_name = 282
+dotted_name = 283
+global_stmt = 284
+exec_stmt = 285
+assert_stmt = 286
+compound_stmt = 287
+if_stmt = 288
+while_stmt = 289
+for_stmt = 290
+try_stmt = 291
+except_clause = 292
+suite = 293
+test = 294
+and_test = 295
+not_test = 296
+comparison = 297
+comp_op = 298
+expr = 299
+xor_expr = 300
+and_expr = 301
+shift_expr = 302
+arith_expr = 303
+term = 304
+factor = 305
+power = 306
+atom = 307
+listmaker = 308
+testlist_gexp = 309
+lambdef = 310
+trailer = 311
+subscriptlist = 312
+subscript = 313
+sliceop = 314
+exprlist = 315
+testlist = 316
+testlist_safe = 317
+dictmaker = 318
+classdef = 319
+arglist = 320
+argument = 321
+list_iter = 322
+list_for = 323
+list_if = 324
+gen_iter = 325
+gen_for = 326
+gen_if = 327
+testlist1 = 328
+encoding_decl = 329
#--end constants--
sym_name = {}
diff --git a/Lib/test/output/test_tokenize b/Lib/test/output/test_tokenize
index ea55181..b78a223 100644
--- a/Lib/test/output/test_tokenize
+++ b/Lib/test/output/test_tokenize
@@ -645,4 +645,15 @@ test_tokenize
174,29-174,30: OP ')'
174,30-174,31: NEWLINE '\n'
175,0-175,1: NL '\n'
-176,0-176,0: ENDMARKER ''
+176,0-176,1: OP '@'
+176,1-176,13: NAME 'staticmethod'
+176,13-176,14: NEWLINE '\n'
+177,0-177,3: NAME 'def'
+177,4-177,7: NAME 'foo'
+177,7-177,8: OP '('
+177,8-177,9: OP ')'
+177,9-177,10: OP ':'
+177,11-177,15: NAME 'pass'
+177,15-177,16: NEWLINE '\n'
+178,0-178,1: NL '\n'
+179,0-179,0: ENDMARKER ''
diff --git a/Lib/test/pyclbr_input.py b/Lib/test/pyclbr_input.py
new file mode 100644
index 0000000..b410fcc
--- /dev/null
+++ b/Lib/test/pyclbr_input.py
@@ -0,0 +1,33 @@
+"""Test cases for test_pyclbr.py"""
+
+def f(): pass
+
+class Other(object):
+ @classmethod
+ def foo(c): pass
+
+ def om(self): pass
+
+class B (object):
+ def bm(self): pass
+
+class C (B):
+ foo = Other().foo
+ om = Other.om
+
+ d = 10
+
+ # XXX: This causes test_pyclbr.py to fail, but only because the
+ # introspection-based is_method() code in the test can't
+ # distinguish between this and a geniune method function like m().
+ # The pyclbr.py module gets this right as it parses the text.
+ #
+ #f = f
+
+ def m(self): pass
+
+ @staticmethod
+ def sm(self): pass
+
+ @classmethod
+ def cm(self): pass
diff --git a/Lib/test/test_decorators.py b/Lib/test/test_decorators.py
new file mode 100644
index 0000000..98d5d3e
--- /dev/null
+++ b/Lib/test/test_decorators.py
@@ -0,0 +1,194 @@
+import unittest
+from test import test_support
+
+def funcattrs(**kwds):
+ def decorate(func):
+ func.__dict__.update(kwds)
+ return func
+ return decorate
+
+class MiscDecorators (object):
+ @staticmethod
+ def author(name):
+ def decorate(func):
+ func.__dict__['author'] = name
+ return func
+ return decorate
+
+# -----------------------------------------------
+
+class DbcheckError (Exception):
+ def __init__(self, exprstr, func, args, kwds):
+ # A real version of this would set attributes here
+ Exception.__init__(self, "dbcheck %r failed (func=%s args=%s kwds=%s)" %
+ (exprstr, func, args, kwds))
+
+
+def dbcheck(exprstr, globals=None, locals=None):
+ "Decorator to implement debugging assertions"
+ def decorate(func):
+ expr = compile(exprstr, "dbcheck-%s" % func.func_name, "eval")
+ def check(*args, **kwds):
+ if not eval(expr, globals, locals):
+ raise DbcheckError(exprstr, func, args, kwds)
+ return func(*args, **kwds)
+ return check
+ return decorate
+
+# -----------------------------------------------
+
+def countcalls(counts):
+ "Decorator to count calls to a function"
+ def decorate(func):
+ name = func.func_name
+ counts[name] = 0
+ def call(*args, **kwds):
+ counts[name] += 1
+ return func(*args, **kwds)
+ # XXX: Would like to say: call.func_name = func.func_name here
+ # to make nested decorators work in any order, but func_name
+ # is a readonly attribute
+ return call
+ return decorate
+
+# -----------------------------------------------
+
+def memoize(func):
+ saved = {}
+ def call(*args):
+ try:
+ return saved[args]
+ except KeyError:
+ res = func(*args)
+ saved[args] = res
+ return res
+ except TypeError:
+ # Unhashable argument
+ return func(*args)
+ return call
+
+# -----------------------------------------------
+
+class TestDecorators(unittest.TestCase):
+
+ def test_single(self):
+ class C(object):
+ @staticmethod
+ def foo(): return 42
+ self.assertEqual(C.foo(), 42)
+ self.assertEqual(C().foo(), 42)
+
+ def test_dotted(self):
+ decorators = MiscDecorators()
+ @decorators.author('Cleese')
+ def foo(): return 42
+ self.assertEqual(foo(), 42)
+ self.assertEqual(foo.author, 'Cleese')
+
+ def test_argforms(self):
+ # A few tests of argument passing, as we use restricted form
+ # of expressions for decorators.
+
+ def noteargs(*args, **kwds):
+ def decorate(func):
+ setattr(func, 'dbval', (args, kwds))
+ return func
+ return decorate
+
+ args = ( 'Now', 'is', 'the', 'time' )
+ kwds = dict(one=1, two=2)
+ @noteargs(*args, **kwds)
+ def f1(): return 42
+ self.assertEqual(f1(), 42)
+ self.assertEqual(f1.dbval, (args, kwds))
+
+ @noteargs('terry', 'gilliam', eric='idle', john='cleese')
+ def f2(): return 84
+ self.assertEqual(f2(), 84)
+ self.assertEqual(f2.dbval, (('terry', 'gilliam'),
+ dict(eric='idle', john='cleese')))
+
+ @noteargs(1, 2,)
+ def f3(): pass
+ self.assertEqual(f3.dbval, ((1, 2), {}))
+
+ def test_dbcheck(self):
+ @dbcheck('args[1] is not None')
+ def f(a, b):
+ return a + b
+ self.assertEqual(f(1, 2), 3)
+ self.assertRaises(DbcheckError, f, 1, None)
+
+ def test_memoize(self):
+ # XXX: This doesn't work unless memoize is the last decorator -
+ # see the comment in countcalls.
+ counts = {}
+ @countcalls(counts) @memoize
+ def double(x):
+ return x * 2
+
+ self.assertEqual(counts, dict(double=0))
+
+ # Only the first call with a given argument bumps the call count:
+ #
+ self.assertEqual(double(2), 4)
+ self.assertEqual(counts['double'], 1)
+ self.assertEqual(double(2), 4)
+ self.assertEqual(counts['double'], 1)
+ self.assertEqual(double(3), 6)
+ self.assertEqual(counts['double'], 2)
+
+ # Unhashable arguments do not get memoized:
+ #
+ self.assertEqual(double([10]), [10, 10])
+ self.assertEqual(counts['double'], 3)
+ self.assertEqual(double([10]), [10, 10])
+ self.assertEqual(counts['double'], 4)
+
+ def test_errors(self):
+ # Test syntax restrictions - these are all compile-time errors:
+ #
+ for expr in [ "1+2", "x[3]", "(1, 2)" ]:
+ # Sanity check: is expr is a valid expression by itself?
+ compile(expr, "testexpr", "exec")
+
+ codestr = "@%s\ndef f(): pass" % expr
+ self.assertRaises(SyntaxError, compile, codestr, "test", "exec")
+
+ # Test runtime errors
+
+ def unimp(func):
+ raise NotImplementedError
+ context = dict(nullval=None, unimp=unimp)
+
+ for expr, exc in [ ("undef", NameError),
+ ("nullval", TypeError),
+ ("nullval.attr", AttributeError),
+ ("unimp", NotImplementedError)]:
+ codestr = "@%s\ndef f(): pass\nassert f() is None" % expr
+ code = compile(codestr, "test", "exec")
+ self.assertRaises(exc, eval, code, context)
+
+ def test_double(self):
+ class C(object):
+ @funcattrs(abc=1, xyz="haha")
+ @funcattrs(booh=42)
+ def foo(self): return 42
+ self.assertEqual(C().foo(), 42)
+ self.assertEqual(C.foo.abc, 1)
+ self.assertEqual(C.foo.xyz, "haha")
+ self.assertEqual(C.foo.booh, 42)
+
+ def test_order(self):
+ class C(object):
+ @funcattrs(abc=1) @staticmethod
+ def foo(): return 42
+ # This wouldn't work if staticmethod was called first
+ self.assertEqual(C.foo(), 42)
+ self.assertEqual(C().foo(), 42)
+
+def test_main():
+ test_support.run_unittest(TestDecorators)
+
+if __name__=="__main__":
+ test_main()
diff --git a/Lib/test/test_parser.py b/Lib/test/test_parser.py
index 9652f6b..978ce57 100644
--- a/Lib/test/test_parser.py
+++ b/Lib/test/test_parser.py
@@ -15,8 +15,8 @@ class RoundtripLegalSyntaxTestCase(unittest.TestCase):
t = st1.totuple()
try:
st2 = parser.sequence2st(t)
- except parser.ParserError:
- self.fail("could not roundtrip %r" % s)
+ except parser.ParserError, why:
+ self.fail("could not roundtrip %r: %s" % (s, why))
self.assertEquals(t, st2.totuple(),
"could not re-generate syntax tree")
@@ -119,6 +119,14 @@ class RoundtripLegalSyntaxTestCase(unittest.TestCase):
self.check_suite("def f(a, b, foo=bar, *args, **kw): pass")
self.check_suite("def f(a, b, foo=bar, **kw): pass")
+ self.check_suite("@staticmethod\n"
+ "def f(): pass")
+ self.check_suite("@staticmethod\n"
+ "@funcattrs(x, y)\n"
+ "def f(): pass")
+ self.check_suite("@funcattrs()\n"
+ "def f(): pass")
+
def test_import_from_statement(self):
self.check_suite("from sys.path import *")
self.check_suite("from sys.path import dirname")
diff --git a/Lib/test/test_pyclbr.py b/Lib/test/test_pyclbr.py
index 48e8bf7..eddd593 100644
--- a/Lib/test/test_pyclbr.py
+++ b/Lib/test/test_pyclbr.py
@@ -8,6 +8,9 @@ from types import ClassType, FunctionType, MethodType
import pyclbr
from unittest import TestCase
+StaticMethodType = type(staticmethod(lambda: None))
+ClassMethodType = type(classmethod(lambda c: None))
+
# This next line triggers an error on old versions of pyclbr.
from commands import getstatus
@@ -43,11 +46,10 @@ class PyclbrTest(TestCase):
print >>sys.stderr, "***",key
self.failUnless(obj.has_key(key))
- def assertEquals(self, a, b, ignore=None):
+ def assertEqualsOrIgnored(self, a, b, ignore):
''' succeed iff a == b or a in ignore or b in ignore '''
- if (ignore == None) or (a in ignore) or (b in ignore): return
-
- unittest.TestCase.assertEquals(self, a, b)
+ if a not in ignore and b not in ignore:
+ self.assertEquals(a, b)
def checkModule(self, moduleName, module=None, ignore=()):
''' succeed iff pyclbr.readmodule_ex(modulename) corresponds
@@ -62,11 +64,22 @@ class PyclbrTest(TestCase):
dict = pyclbr.readmodule_ex(moduleName)
- def ismethod(obj, name):
- if not isinstance(obj, MethodType):
- return False
- if obj.im_self is not None:
- return False
+ def ismethod(oclass, obj, name):
+ classdict = oclass.__dict__
+ if isinstance(obj, FunctionType):
+ if not isinstance(classdict[name], StaticMethodType):
+ return False
+ else:
+ if not isinstance(obj, MethodType):
+ return False
+ if obj.im_self is not None:
+ if (not isinstance(classdict[name], ClassMethodType) or
+ obj.im_self is not oclass):
+ return False
+ else:
+ if not isinstance(classdict[name], FunctionType):
+ return False
+
objname = obj.__name__
if objname.startswith("__") and not objname.endswith("__"):
objname = "_%s%s" % (obj.im_class.__name__, objname)
@@ -81,7 +94,7 @@ class PyclbrTest(TestCase):
if isinstance(value, pyclbr.Function):
self.assertEquals(type(py_item), FunctionType)
else:
- self.assertEquals(type(py_item), ClassType)
+ self.failUnless(isinstance(py_item, (ClassType, type)))
real_bases = [base.__name__ for base in py_item.__bases__]
pyclbr_bases = [ getattr(base, 'name', base)
for base in value.super ]
@@ -94,7 +107,7 @@ class PyclbrTest(TestCase):
actualMethods = []
for m in py_item.__dict__.keys():
- if ismethod(getattr(py_item, m), m):
+ if ismethod(py_item, getattr(py_item, m), m):
actualMethods.append(m)
foundMethods = []
for m in value.methods.keys():
@@ -107,7 +120,8 @@ class PyclbrTest(TestCase):
self.assertListEq(foundMethods, actualMethods, ignore)
self.assertEquals(py_item.__module__, value.module)
- self.assertEquals(py_item.__name__, value.name, ignore)
+ self.assertEqualsOrIgnored(py_item.__name__, value.name,
+ ignore)
# can't check file or lineno
except:
print >>sys.stderr, "class=%s" % py_item
@@ -132,6 +146,12 @@ class PyclbrTest(TestCase):
self.checkModule('rfc822')
self.checkModule('difflib')
+ def test_decorators(self):
+ # XXX: See comment in pyclbr_input.py for a test that would fail
+ # if it were not commented out.
+ #
+ self.checkModule('test.pyclbr_input')
+
def test_others(self):
cm = self.checkModule
diff --git a/Lib/test/tokenize_tests.txt b/Lib/test/tokenize_tests.txt
index e990a36..4ef3bf1 100644
--- a/Lib/test/tokenize_tests.txt
+++ b/Lib/test/tokenize_tests.txt
@@ -173,3 +173,6 @@ x = -1*1/1 + 1*1 - ---1*1
import sys, time
x = sys.modules['time'].time()
+@staticmethod
+def foo(): pass
+
diff --git a/Lib/token.py b/Lib/token.py
index f75412c..c4db6c5 100755
--- a/Lib/token.py
+++ b/Lib/token.py
@@ -60,9 +60,10 @@ RIGHTSHIFTEQUAL = 46
DOUBLESTAREQUAL = 47
DOUBLESLASH = 48
DOUBLESLASHEQUAL = 49
-OP = 50
-ERRORTOKEN = 51
-N_TOKENS = 52
+AT = 50
+OP = 51
+ERRORTOKEN = 52
+N_TOKENS = 53
NT_OFFSET = 256
#--end constants--
diff --git a/Lib/tokenize.py b/Lib/tokenize.py
index 7e6fa12..9087e84 100644
--- a/Lib/tokenize.py
+++ b/Lib/tokenize.py
@@ -83,7 +83,7 @@ Operator = group(r"\*\*=?", r">>=?", r"<<=?", r"<>", r"!=",
r"~")
Bracket = '[][(){}]'
-Special = group(r'\r?\n', r'[:;.,`]')
+Special = group(r'\r?\n', r'[:;.,`@]')
Funny = group(Operator, Bracket, Special)
PlainToken = group(Number, Funny, String, Name)