def visit_while(self, node, parent):
"""visit a While node by returning a fresh instance of it"""
newnode = nodes.While(node.lineno, node.col_offset, parent)
body = nodes.Block(
'body',
[self.visit(child, newnode) for child in node.body],
newnode)
orelse = nodes.Block(
'orelse',
[self.visit(child, newnode) for child in node.orelse],
newnode)
newnode.postinit(self.visit(node.test, newnode), body, orelse)
return newnode
def visit_tryfinally(self, node, parent):
"""visit a TryFinally node by returning a fresh instance of it"""
newnode = nodes.TryFinally(node.lineno, node.col_offset, parent)
body = nodes.Block(
'body',
[self.visit(n, newnode) for n in node.body],
newnode)
finalbody = nodes.Block(
'finalbody',
[self.visit(n, newnode) for n in node.finalbody],
newnode)
newnode.postinit(body, finalbody)
return newnode
def visit_tryexcept(self, node, parent):
"""visit a TryExcept node by returning a fresh instance of it"""
newnode = nodes.TryExcept(node.lineno, node.col_offset, parent)
body = nodes.Block(
'body',
[self.visit(child, newnode) for child in node.body],
newnode)
handlers = [self.visit(child, newnode) for child in node.handlers]
orelse = nodes.Block(
'orelse',
[self.visit(child, newnode) for child in node.orelse],
newnode)
newnode.postinit(body, handlers, orelse)
return newnode
def _visit_functiondef(self, cls, node, parent):
"""visit an FunctionDef node to become astroid"""
self._global_names.append({})
node, doc = self._get_doc(node)
newnode = cls(node.name, doc, node.lineno,
node.col_offset, parent)
if node.decorator_list:
decorators = self.visit_decorators(node, newnode)
else:
decorators = None
if PY3 and node.returns:
returns = self.visit(node.returns, newnode)
else:
returns = None
type_comment_args = type_comment_returns = None
type_comment_annotation = self.check_function_type_comment(node)
if type_comment_annotation:
type_comment_returns, type_comment_args = type_comment_annotation
body = nodes.Block(
'body',
[self.visit(child, newnode) for child in node.body],
newnode)
newnode.postinit(
args=self.visit(node.args, newnode),
body=body,
decorators=decorators,
returns=returns,
type_comment_returns=type_comment_returns,
type_comment_args=type_comment_args,
)
self._global_names.pop()
return newnode
def visit_classdef(self, node, parent, newstyle=None):
"""visit a ClassDef node to become astroid"""
node, doc = self._get_doc(node)
newnode = nodes.ClassDef(node.name, doc, node.lineno,
node.col_offset, parent)
metaclass = None
if PY3:
for keyword in node.keywords:
if keyword.arg == 'metaclass':
metaclass = self.visit(keyword, newnode).value
break
if node.decorator_list:
decorators = self.visit_decorators(node, newnode)
else:
decorators = None
body = nodes.Block(
'body',
[self.visit(child, newnode) for child in node.body],
newnode)
newnode.postinit([self.visit(child, newnode) for child in node.bases],
body,
decorators, newstyle, metaclass,
[self.visit(kwd, newnode) for kwd in node.keywords
if kwd.arg != 'metaclass'] if PY3 else [])
return newnode
def visit_if(self, node, parent):
"""visit an If node by returning a fresh instance of it"""
newnode = nodes.If(node.lineno, node.col_offset, parent)
body = nodes.Block(
'body',
[self.visit(child, newnode) for child in node.body],
newnode)
orelse = nodes.Block(
'orelse',
[self.visit(child, newnode) for child in node.orelse],
newnode)
has_elif_block = (
len(node.orelse) == 1 and type(node.orelse[0]).__name__ == 'If'
and node.orelse[0].col_offset == node.orelse[0].test.col_offset)
newnode.postinit(
self.visit(node.test, newnode),
body,
orelse,
has_elif_block)
return newnode
def _visit_for(self, cls, node, parent):
"""visit a For node by returning a fresh instance of it"""
newnode = cls(node.lineno, node.col_offset, parent)
type_annotation = self.check_type_comment(node)
body = nodes.Block(
'body',
[self.visit(child, newnode) for child in node.body],
newnode)
orelse = nodes.Block(
'orelse',
[self.visit(child, newnode) for child in node.orelse],
newnode)
newnode.postinit(
target=self.visit(node.target, newnode),
iter=self.visit(node.iter, newnode),
body=body,
orelse=orelse,
type_annotation=type_annotation,
)
return newnode
def visit_excepthandler(self, node, parent):
"""visit an ExceptHandler node by returning a fresh instance of it"""
newnode = nodes.ExceptHandler(node.lineno, node.col_offset, parent)
# /!\ node.name can be a tuple
body = nodes.Block(
'body',
[self.visit(child, newnode) for child in node.body],
newnode)
newnode.postinit(_visit_or_none(node, 'type', self, newnode),
_visit_or_none(node, 'name', self, newnode),
body)
return newnode
def visit_module(self, node, modname, modpath, package):
"""visit a Module node by returning a fresh instance of it"""
node, doc = self._get_doc(node)
newnode = nodes.Module(name=modname, doc=doc, file=modpath,
path=[modpath],
package=package, parent=None)
body = nodes.Block(
'body',
[self.visit(child, newnode) for child in node.body],
newnode)
newnode.postinit(body)
return newnode
def visit_try(self, node, parent):
# python 3.3 introduce a new Try node replacing
# TryFinally/TryExcept nodes
if node.finalbody:
newnode = nodes.TryFinally(node.lineno, node.col_offset, parent)
if node.handlers:
body = nodes.Block(
'body',
[self.visit_tryexcept(node, newnode)],
newnode)
else:
body = nodes.Block(
'body',
[self.visit(child, newnode) for child in node.body],
newnode)
finalbody = nodes.Block(
'finalbody',
[self.visit(n, newnode) for n in node.finalbody],
newnode)
newnode.postinit(body, finalbody)
return newnode
elif node.handlers:
return self.visit_tryexcept(node, parent)
return None
def visit_excepthandler(self, node, parent):
"""visit an ExceptHandler node by returning a fresh instance of it"""
newnode = nodes.ExceptHandler(node.lineno, node.col_offset, parent)
if node.name:
name = self.visit_assignname(node, newnode, node.name)
else:
name = None
body = nodes.Block(
'body',
[self.visit(child, newnode) for child in node.body],
newnode)
newnode.postinit(
_visit_or_none(node, 'type', self, newnode),
name,
body)
return newnode
def visit_with(self, node, parent):
newnode = nodes.With(node.lineno, node.col_offset, parent)
expr = self.visit(node.context_expr, newnode)
if node.optional_vars is not None:
optional_vars = self.visit(node.optional_vars, newnode)
else:
optional_vars = None
body = nodes.Block(
'body',
[self.visit(child, newnode) for child in node.body],
newnode)
type_annotation = self.check_type_comment(node)
newnode.postinit(
items=[(expr, optional_vars)],
body=body,
type_annotation=type_annotation,
)
return newnode
def _visit_with(self, cls, node, parent):
if 'items' not in node._fields:
# python < 3.3
return super(TreeRebuilder3, self).visit_with(node, parent)
newnode = cls(node.lineno, node.col_offset, parent)
def visit_child(child):
expr = self.visit(child.context_expr, newnode)
var = _visit_or_none(child, 'optional_vars', self, newnode)
return expr, var
type_annotation = self.check_type_comment(node)
body = nodes.Block(
'body',
[self.visit(child, newnode) for child in node.body],
newnode)
newnode.postinit(
items=[visit_child(child) for child in node.items],
body=body,
type_annotation=type_annotation,
)
return newnode
def _infer_type_new_call(self, caller, context):
"""Try to infer what type.__new__(mcs, name, bases, attrs) returns.
In order for such call to be valid, the metaclass needs to be
a subtype of ``type``, the name needs to be a string, the bases
needs to be a tuple of classes
"""
from astroid import node_classes
# Verify the metaclass
mcs = next(caller.args[0].infer(context=context))
if mcs.__class__.__name__ != 'ClassDef':
# Not a valid first argument.
return None
if not mcs.is_subtype_of("%s.type" % BUILTINS):
# Not a valid metaclass.
return None
# Verify the name
name = next(caller.args[1].infer(context=context))
if name.__class__.__name__ != 'Const':
# Not a valid name, needs to be a const.
return None
if not isinstance(name.value, str):
# Needs to be a string.
return None
# Verify the bases
bases = next(caller.args[2].infer(context=context))
if bases.__class__.__name__ != 'Tuple':
# Needs to be a tuple.
return None
inferred_bases = [next(elt.infer(context=context))
for elt in bases.elts]
if any(base.__class__.__name__ != 'ClassDef'
for base in inferred_bases):
# All the bases needs to be Classes
return None
# Verify the attributes.
attrs = next(caller.args[3].infer(context=context))
if attrs.__class__.__name__ != 'Dict':
# Needs to be a dictionary.
return None
cls_locals = collections.defaultdict(list)
for key, value in attrs.items:
key = next(key.infer(context=context))
value = next(value.infer(context=context))
# Ignore non string keys
if (key.__class__.__name__ == 'Const' and
isinstance(key.value, str)):
cls_locals[key.value].append(value)
# Build the class from now.
cls = mcs.__class__(name=name.value, lineno=caller.lineno,
col_offset=caller.col_offset,
parent=caller)
cls.postinit(
bases=bases.elts,
body=nodes.Block('body', [node_classes.Pass()], cls),
decorators=[],
newstyle=True,
metaclass=mcs,
keywords=[])
cls.locals = cls_locals
return cls
