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/ Compiler / AutoDocTransforms.py
from __future__ import absolute_import, print_function
from .Visitor import CythonTransform
from .StringEncoding import EncodedString
from . import Options
from . import PyrexTypes, ExprNodes
from ..CodeWriter import ExpressionWriter
class AnnotationWriter(ExpressionWriter):
def visit_Node(self, node):
self.put(u"<???>")
def visit_LambdaNode(self, node):
# XXX Should we do better?
self.put("<lambda>")
class EmbedSignature(CythonTransform):
def __init__(self, context):
super(EmbedSignature, self).__init__(context)
self.class_name = None
self.class_node = None
def _fmt_expr(self, node):
writer = AnnotationWriter()
result = writer.write(node)
# print(type(node).__name__, '-->', result)
return result
def _fmt_arg(self, arg):
if arg.type is PyrexTypes.py_object_type or arg.is_self_arg:
doc = arg.name
else:
doc = arg.type.declaration_code(arg.name, for_display=1)
if arg.annotation:
annotation = self._fmt_expr(arg.annotation)
doc = doc + (': %s' % annotation)
if arg.default:
default = self._fmt_expr(arg.default)
doc = doc + (' = %s' % default)
elif arg.default:
default = self._fmt_expr(arg.default)
doc = doc + ('=%s' % default)
return doc
def _fmt_star_arg(self, arg):
arg_doc = arg.name
if arg.annotation:
annotation = self._fmt_expr(arg.annotation)
arg_doc = arg_doc + (': %s' % annotation)
return arg_doc
def _fmt_arglist(self, args,
npargs=0, pargs=None,
nkargs=0, kargs=None,
hide_self=False):
arglist = []
for arg in args:
if not hide_self or not arg.entry.is_self_arg:
arg_doc = self._fmt_arg(arg)
arglist.append(arg_doc)
if pargs:
arg_doc = self._fmt_star_arg(pargs)
arglist.insert(npargs, '*%s' % arg_doc)
elif nkargs:
arglist.insert(npargs, '*')
if kargs:
arg_doc = self._fmt_star_arg(kargs)
arglist.append('**%s' % arg_doc)
return arglist
def _fmt_ret_type(self, ret):
if ret is PyrexTypes.py_object_type:
return None
else:
return ret.declaration_code("", for_display=1)
def _fmt_signature(self, cls_name, func_name, args,
npargs=0, pargs=None,
nkargs=0, kargs=None,
return_expr=None,
return_type=None, hide_self=False):
arglist = self._fmt_arglist(args,
npargs, pargs,
nkargs, kargs,
hide_self=hide_self)
arglist_doc = ', '.join(arglist)
func_doc = '%s(%s)' % (func_name, arglist_doc)
if cls_name:
func_doc = '%s.%s' % (cls_name, func_doc)
ret_doc = None
if return_expr:
ret_doc = self._fmt_expr(return_expr)
elif return_type:
ret_doc = self._fmt_ret_type(return_type)
if ret_doc:
func_doc = '%s -> %s' % (func_doc, ret_doc)
return func_doc
def _embed_signature(self, signature, node_doc):
if node_doc:
return "%s\n%s" % (signature, node_doc)
else:
return signature
def __call__(self, node):
if not Options.docstrings:
return node
else:
return super(EmbedSignature, self).__call__(node)
def visit_ClassDefNode(self, node):
oldname = self.class_name
oldclass = self.class_node
self.class_node = node
try:
# PyClassDefNode
self.class_name = node.name
except AttributeError:
# CClassDefNode
self.class_name = node.class_name
self.visitchildren(node)
self.class_name = oldname
self.class_node = oldclass
return node
def visit_LambdaNode(self, node):
# lambda expressions so not have signature or inner functions
return node
def visit_DefNode(self, node):
if not self.current_directives['embedsignature']:
return node
is_constructor = False
hide_self = False
if node.entry.is_special:
is_constructor = self.class_node and node.name == '__init__'
if not is_constructor:
return node
class_name, func_name = None, self.class_name
hide_self = True
else:
class_name, func_name = self.class_name, node.name
nkargs = getattr(node, 'num_kwonly_args', 0)
npargs = len(node.args) - nkargs
signature = self._fmt_signature(
class_name, func_name, node.args,
npargs, node.star_arg,
nkargs, node.starstar_arg,
return_expr=node.return_type_annotation,
return_type=None, hide_self=hide_self)
if signature:
if is_constructor:
doc_holder = self.class_node.entry.type.scope
else:
doc_holder = node.entry
if doc_holder.doc is not None:
old_doc = doc_holder.doc
elif not is_constructor and getattr(node, 'py_func', None) is not None:
old_doc = node.py_func.entry.doc
else:
old_doc = None
new_doc = self._embed_signature(signature, old_doc)
doc_holder.doc = EncodedString(new_doc)
if not is_constructor and getattr(node, 'py_func', None) is not None:
node.py_func.entry.doc = EncodedString(new_doc)
return node
def visit_CFuncDefNode(self, node):
if not self.current_directives['embedsignature']:
return node
if not node.overridable: # not cpdef FOO(...):
return node
signature = self._fmt_signature(
self.class_name, node.declarator.base.name,
node.declarator.args,
return_type=node.return_type)
if signature:
if node.entry.doc is not None:
old_doc = node.entry.doc
elif getattr(node, 'py_func', None) is not None:
old_doc = node.py_func.entry.doc
else:
old_doc = None
new_doc = self._embed_signature(signature, old_doc)
node.entry.doc = EncodedString(new_doc)
if hasattr(node, 'py_func') and node.py_func is not None:
node.py_func.entry.doc = EncodedString(new_doc)
return node
def visit_PropertyNode(self, node):
if not self.current_directives['embedsignature']:
return node
entry = node.entry
if entry.visibility == 'public':
# property synthesised from a cdef public attribute
type_name = entry.type.declaration_code("", for_display=1)
if not entry.type.is_pyobject:
type_name = "'%s'" % type_name
elif entry.type.is_extension_type:
type_name = entry.type.module_name + '.' + type_name
signature = '%s: %s' % (entry.name, type_name)
new_doc = self._embed_signature(signature, entry.doc)
entry.doc = EncodedString(new_doc)
return node