Commit 01d41d21 authored by Xavier Thompson's avatar Xavier Thompson

Support pyclass wrappers for multiple inheritance

parent c03309b2
......@@ -87,6 +87,7 @@ def cypclass_iter_scopes(scope):
underlying_name = EncodedString("nogil_cyobject")
#
# Visitor for wrapper cclass injection
#
......@@ -101,30 +102,30 @@ class CypclassWrapperInjection(CythonTransform):
- The root node passed when calling this visitor should not be lower than a ModuleNode.
"""
def __call__(self, root):
from .ParseTreeTransforms import AnalyseDeclarationsTransform
self.analyser = AnalyseDeclarationsTransform(self.context)
from .ParseTreeTransforms import AnalyseDeclarationsTransform, InterpretCompilerDirectives
self.pipeline = [
InterpretCompilerDirectives(self.context, self.context.compiler_directives),
AnalyseDeclarationsTransform(self.context)
]
return super(CypclassWrapperInjection, self).__call__(root)
def visit_ExprNode(self, node):
# avoid visiting sub expressions
return node
def visit_ModuleNode(self, node):
self.cypclass_wrappers = []
self.cypclass_entries_to_wrapper_names = {}
self.collected_cypclasses = []
self.wrappers = []
self.type_to_names = {}
self.base_type_to_deferred = defaultdict(list)
self.synthesized = set()
self.nesting_stack = []
self.module_scope = node.scope
self.cimport_cython = True
self.visitchildren(node)
self.inject_cypclass_wrappers(node)
return node
def inject_cypclass_wrappers(self, module_node):
fake_module_node = module_node.clone_node()
fake_module_node.body = Nodes.StatListNode(
module_node.body.pos,
stats = self.cypclass_wrappers
)
self.analyser(fake_module_node)
module_node.body.stats.extend(fake_module_node.body.stats)
# TODO: can cypclasses be nested in something other than this ?
# can cypclasses even be nested in non-cypclass cpp classes, or structs ?
def visit_CStructOrUnionDefNode(self, node):
......@@ -135,78 +136,166 @@ class CypclassWrapperInjection(CythonTransform):
def visit_CppClassNode(self, node):
if node.cypclass:
wrapper = self.synthesize_wrapper_cclass(node)
if wrapper is not None:
# forward-declare the wrapper
wrapper.declare(self.module_scope)
self.cypclass_wrappers.append(wrapper)
self.collect_cypclass(node)
# visit children and keep track of nesting
return self.visit_CStructOrUnionDefNode(node)
def synthesize_wrapper_cclass(self, node):
def collect_cypclass(self, node):
if node.templates:
# Python wrapper for templated cypclasses not supported yet
# this is signaled to the compiler by not doing what is below
return None
return
if node.attributes is None:
# skip forward declarations
return
# indicate that the cypclass will have a wrapper
node.entry.type.support_wrapper = True
self.derive_names(node)
self.collected_cypclasses.append(node)
# whether the is declared with ':' and a suite, or just a forward declaration
node_has_suite = node.attributes is not None
def create_unique_name(self, nested_name, suffix):
wrapper_name = "%s%s" % (nested_name, suffix)
while wrapper_name in self.module_scope.entries:
# the end of the suffix must be modified to avoid collisions
# between cypclasses having the same prefix, e.g. 'A' and 'A_'.
wrapper_name = "%s_" % (wrapper_name, suffix)
return EncodedString(wrapper_name)
def derive_names(self, node):
nested_names = [node.name for node in self.nesting_stack]
nested_names.append(node.name)
qualified_name = ".".join(nested_names)
qualified_name = EncodedString(qualified_name)
# if a wrapper for this cypclass entry has already been declared, use the same name
# (only happens when there are forward declarations for the cypclass itself)
if node.entry in self.cypclass_entries_to_wrapper_names:
cclass_name = self.cypclass_entries_to_wrapper_names[node.entry]
nested_name = "_".join(nested_names)
# otherwise derive a unique name that avoids collisions with user-defined names
else:
cclass_nested_name = "_".join(nested_names)
suffix_name = "__cyp_wrapper"
cclass_name = "%s%s" % (cclass_nested_name, suffix_name)
while cclass_name in self.module_scope.entries:
suffix_name = "%s__cyp_wrapper" % "_"
cclass_name = "%s%s" % (cclass_nested_name, suffix_name)
cclass_name = EncodedString(cclass_name)
# determine if the wrapper has a base class
from .ExprNodes import TupleNode
bases_args = []
cclass_name = self.create_unique_name(nested_name, "__cyp_cclass_wrapper")
pyclass_name = self.create_unique_name(nested_name, "__cyp_pyclass_wrapper")
self.type_to_names[node.entry.type] = qualified_name, cclass_name, pyclass_name
def inject_cypclass_wrappers(self, module_node):
if self.cimport_cython:
# cimport cython to access the @cython.binding decorator
cimport_stmt = Nodes.CImportStatNode(
module_node.pos,
module_name="cython",
as_name=None,
is_absolute=True
)
self.wrappers.append(cimport_stmt)
for collected in self.collected_cypclasses:
self.synthesize_wrappers(collected)
# only a shallow copy: retains the same scope etc
fake_module_node = module_node.clone_node()
fake_module_node.body = Nodes.StatListNode(
module_node.body.pos,
stats = self.wrappers
)
for phase in self.pipeline:
fake_module_node = phase(fake_module_node)
module_node.body.stats.extend(fake_module_node.body.stats)
def synthesize_wrappers(self, node):
node_type = node.entry.type
for wrapped_base_type in node_type.iter_wrapped_base_types():
if not wrapped_base_type in self.synthesized:
self.base_type_to_deferred[wrapped_base_type].append(lambda: self.synthesize_wrappers(node))
return
qualified_name, cclass_name, pyclass_name = self.type_to_names[node_type]
# determine the oldest wrapped base type once and for all
node_type.find_wrapped_base_type()
first_wrapped_base = node_type.first_wrapped_base
if first_wrapped_base:
first_base_wrapper_name = first_wrapped_base.wrapper_type.name
wrapped_first_base = Nodes.CSimpleBaseTypeNode(
cclass = self.synthesize_wrapper_cclass(node, cclass_name, qualified_name)
# mark this cypclass as having synthesized wrappers
self.synthesized.add(node_type)
# forward declare the cclass wrapper
cclass.declare(self.module_scope)
pyclass = self.synthesize_wrapper_pyclass(node, cclass, qualified_name, cclass_name, pyclass_name)
# allow the cclass methods to bind on instance of the pyclass
from .ExprNodes import SimpleCallNode, AttributeNode, NameNode, BoolNode
binding_decorator = Nodes.DecoratorNode(
node.pos,
decorator=SimpleCallNode(
node.pos,
name = first_base_wrapper_name,
module_path = [],
is_basic_c_type = 0,
signed = 1,
complex = 0,
longness = 0,
is_self_arg = 0,
templates = None
function=AttributeNode(
node.pos,
attribute="binding",
obj=NameNode(node.pos, name="cython")
),
args=[BoolNode(node.pos, value=True)]
)
)
cclass.decorators = [binding_decorator]
self.wrappers.append(cclass)
self.wrappers.append(pyclass)
# synthesize deferred dependent subclasses
for thunk in self.base_type_to_deferred[node_type]:
thunk()
def synthesize_base_tuple(self, node):
from .ExprNodes import NameNode, TupleNode
node_type = node.entry.type
bases_args = []
first_wrapped_base = node_type.first_wrapped_base
wrapped_bases_iterator = node_type.iter_wrapped_base_types()
if first_wrapped_base:
first_base_cclass_name = first_wrapped_base.wrapper_type.name
wrapped_first_base = NameNode(node.pos, name=first_base_cclass_name)
bases_args.append(wrapped_first_base)
cclass_bases = TupleNode(node.pos, args=bases_args)
# consume the first wrapped base from the iterator
next(wrapped_bases_iterator)
if node_has_suite:
stats = []
if not bases_args:
underlying_cyobject = self.synthesize_underlying_cyobject_attribute(node)
stats.append(underlying_cyobject)
cclass_body = Nodes.StatListNode(pos=node.pos, stats=stats)
# use the pyclass wrapper for the other bases
for other_base in wrapped_bases_iterator:
_, __, other_base_pyclass_name = self.type_to_names[other_base]
other_base_arg = NameNode(node.pos, name=other_base_pyclass_name)
bases_args.append(other_base_arg)
cclass_doc = EncodedString("Python Object wrapper for underlying cypclass %s" % qualified_name)
return TupleNode(node.pos, args=bases_args)
else:
cclass_body = cclass_doc = None
def synthesize_wrapper_cclass(self, node, cclass_name, qualified_name):
cclass_bases = self.synthesize_base_tuple(node)
stats = []
if not cclass_bases.args:
# the memory layout for the underlying cyobject and the __dict__should always be the same
# -> maybe use a single common base cclass in the future
underlying_cyobject = self.synthesize_underlying_cyobject_attribute(node)
stats.append(underlying_cyobject)
# add a __dict__ to support inheriting from a pyclass
dict_attribute = self.synthesize_dict_attribute(node)
stats.append(dict_attribute)
# insert method wrappers in the statement list
self.insert_cypclass_method_wrappers(node, cclass_name, stats)
cclass_body = Nodes.StatListNode(pos=node.pos, stats=stats)
cclass_doc = EncodedString("Python Object wrapper for underlying cypclass %s" % qualified_name)
wrapper = Nodes.CypclassWrapperDefNode(
node.pos,
......@@ -227,13 +316,6 @@ class CypclassWrapperInjection(CythonTransform):
wrapped_nested_name = qualified_name
)
# indicate that the cypclass will have a wrapper
node.entry.type.support_wrapper = True
# associate the wrapper name to the cypclass entry to distinguish
# future declarations from collisions with user defined names
self.cypclass_entries_to_wrapper_names[node.entry] = cclass_name
return wrapper
def synthesize_underlying_cyobject_attribute(self, node):
......@@ -274,6 +356,208 @@ class CypclassWrapperInjection(CythonTransform):
return underlying_cyobject
def synthesize_dict_attribute(self, node):
base_type_node = Nodes.CSimpleBaseTypeNode(
node.pos,
name = "dict",
module_path = [],
is_basic_c_type = 0,
signed = 1,
complex = 0,
longness = 0,
is_self_arg = 0,
templates = None
)
dict_name_declarator = Nodes.CNameDeclaratorNode(node.pos, name="__dict__", cname=None)
dict_attribute = Nodes.CVarDefNode(
pos = node.pos,
visibility = 'private',
base_type = base_type_node,
declarators = [dict_name_declarator],
in_pxd = node.in_pxd,
doc = None,
api = 0,
modifiers = [],
overridable = 0
)
return dict_attribute
def insert_cypclass_method_wrappers(self, node, cclass_name, stats):
for attr in node.attributes:
if isinstance(attr, Nodes.CFuncDefNode):
py_method_wrapper = self.synthesize_cypclass_method_wrapper(node, cclass_name, attr)
if py_method_wrapper:
stats.append(py_method_wrapper)
def synthesize_cypclass_method_wrapper(self, node, cclass_name, cfunc_method):
if cfunc_method.is_static_method:
return # for now skip static methods
if cfunc_method.entry.name in ("<del>", ):
# skip special methods that should not be wrapped
return
alternatives = cfunc_method.entry.all_alternatives()
# > consider only the alternatives that are actually defined in this wrapped cypclass
alternatives = list(filter(lambda e: e.mro_index == 0, alternatives))
if len(alternatives) > 1:
return # for now skip overloaded methods
cfunc_declarator = cfunc_method.cfunc_declarator
# > c++ methods have an implict 'this', so the 'self' argument is skipped in the declarator
skipped_self = cfunc_declarator.skipped_self
if not skipped_self:
return # if this ever happens (?), skip non-static methods without a self argument
cfunc_type = cfunc_method.type
cfunc_return_type = cfunc_type.return_type
# we pass the global scope as argument, should not affect the result (?)
if not cfunc_return_type.can_coerce_to_pyobject(self.module_scope):
return # skip c methods with Python-incompatible return types
for argtype in cfunc_type.args:
if not argtype.type.can_coerce_to_pyobject(self.module_scope):
return # skip c methods with Python-incompatible argument types
from .CypclassWrapper import underlying_name
from . import ExprNodes
# > name of the wrapping method: same name as in the original code
cfunc_name = cfunc_declarator.base.name
py_name = cfunc_name
# > self argument of the wrapper method: same name, but type of the wrapper cclass
self_name, self_type, self_pos, self_arg = skipped_self
py_self_arg = Nodes.CArgDeclNode(
self_pos,
base_type = Nodes.CSimpleBaseTypeNode(
self_pos,
name = cclass_name,
module_path = [],
signed = 1,
is_basic_c_type = 0,
longness = 0,
is_self_arg = 0, # only true for C methods
templates = None
),
declarator = Nodes.CNameDeclaratorNode(self_pos, name=self_name, cname=None),
not_none = 0,
or_none = 0,
default = None,
annotation = None,
kw_only = 0
)
# > all arguments of the wrapper method declaration
py_args = [py_self_arg]
for arg in cfunc_declarator.args:
py_args.append(arg.clone_node())
# > same docstring
py_doc = cfunc_method.doc
# > names of the arguments passed when calling the underlying method; self not included
arg_objs = [ExprNodes.NameNode(arg.pos, name=arg.name) for arg in cfunc_declarator.args]
# > reference to the self argument of the wrapper method
self_obj = ExprNodes.NameNode(self_pos, name=self_name)
# > access the underlying cyobject from the self argument of the wrapper method
underlying_obj = ExprNodes.AttributeNode(cfunc_method.pos, obj=self_obj, attribute=underlying_name)
# > cast the underlying object back to this type
underlying_type = node.entry.type
cast_operation = ExprNodes.TypecastNode(
cfunc_method.pos,
type = underlying_type,
operand = underlying_obj,
typecheck = False
)
cast_underlying_obj = ExprNodes.NameNode(self_pos, name=EncodedString("cast_cyobject"))
cast_assignment = Nodes.SingleAssignmentNode(self_pos, lhs=cast_underlying_obj, rhs=cast_operation)
# > access the method of the underlying object
cfunc = ExprNodes.AttributeNode(cfunc_method.pos, obj=cast_underlying_obj, attribute=cfunc_name)
# > call to the underlying method
c_call = ExprNodes.SimpleCallNode(
cfunc_method.pos,
function=cfunc,
args=arg_objs
)
# > return the result of the call if the underlying return type is not void
if cfunc_return_type.is_void:
py_stat = Nodes.ExprStatNode(cfunc_method.pos, expr=c_call)
else:
py_stat = Nodes.ReturnStatNode(cfunc_method.pos, return_type=PyrexTypes.py_object_type, value=c_call)
py_body = Nodes.StatListNode(cfunc_method.pos, stats=[cast_assignment, py_stat])
# > lock around the call in checklock mode
if node.lock_mode == 'checklock':
need_wlock = not cfunc_type.is_const_method
lock_node = Nodes.LockCypclassNode(
cfunc_method.pos,
state = 'wlocked' if need_wlock else 'rlocked',
obj = cast_underlying_obj,
body = py_body
)
py_body = lock_node
# > the wrapper method
return Nodes.DefNode(
cfunc_method.pos,
name = py_name,
args = py_args,
star_arg = None,
starstar_arg = None,
doc = py_doc,
body = py_body,
decorators = None,
is_async_def = 0,
return_type_annotation = None
)
def synthesize_wrapper_pyclass(self, node, cclass_wrapper, qualified_name, cclass_name, pyclass_name):
from .ExprNodes import AttributeNode, NameNode
py_bases = self.synthesize_base_tuple(node)
py_stats = []
for defnode in cclass_wrapper.body.stats:
if isinstance(defnode, Nodes.DefNode):
def_name = defnode.name
lhs = NameNode(defnode.pos, name=def_name)
rhs_obj = NameNode(defnode.pos, name=cclass_name)
rhs = AttributeNode(defnode.pos, obj=rhs_obj, attribute=def_name)
stat = Nodes.SingleAssignmentNode(defnode.pos, lhs=lhs, rhs=rhs)
py_stats.append(stat)
py_body = Nodes.StatListNode(cclass_wrapper.pos, stats=py_stats)
py_class_node = Nodes.PyClassDefNode(
cclass_wrapper.pos,
name=pyclass_name,
bases=py_bases,
keyword_args=None,
doc=cclass_wrapper.doc,
body=py_body,
decorators=None,
)
return py_class_node
#
# Cypclass code generation
......
......@@ -5117,7 +5117,6 @@ class CClassDefNode(ClassDefNode):
if scope is not None and self.is_cyp_wrapper:
# > correct a cypclass wrapper scope's name
# scope.name = self.wrapped_cypclass.name
scope.qualified_name = scope.qualifying_scope().qualify_name(self.wrapped_nested_name)
scope.class_name = self.wrapped_nested_name
......@@ -5370,152 +5369,6 @@ class CypclassWrapperDefNode(CClassDefNode):
# > remember the cname of the wrapped type
self.entry.type.wrapped_decl = self.wrapped_cypclass.entry.type.empty_declaration_code()
def analyse_declarations(self, env):
# > analyse declarations before inserting methods
super(CypclassWrapperDefNode, self).analyse_declarations(env)
# > insert and analyse each method wrapper
self.insert_cypclass_method_wrappers(env)
def insert_cypclass_method_wrappers(self, env):
if self.wrapped_cypclass.attributes is None:
return
for attr in self.wrapped_cypclass.attributes:
if isinstance(attr, CFuncDefNode):
py_method_wrapper = self.synthesize_cypclass_method_wrapper(attr, env)
if py_method_wrapper:
self.body.stats.append(py_method_wrapper)
py_method_wrapper.analyse_declarations(self.scope)
def synthesize_cypclass_method_wrapper(self, cfunc_method, env):
if cfunc_method.is_static_method:
return # for now skip static methods
alternatives = cfunc_method.entry.all_alternatives()
# > consider only the alternatives that are actually defined in this wrapped cypclass
alternatives = list(filter(lambda e: e.mro_index == 0, alternatives))
if len(alternatives) > 1:
return # for now skip overloaded methods
cfunc_declarator = cfunc_method.cfunc_declarator
# > c++ methods have an implict 'this', so the 'self' argument is skipped in the declarator
skipped_self = cfunc_declarator.skipped_self
if not skipped_self:
return # if this ever happens (?), skip non-static methods without a self argument
cfunc_type = cfunc_method.type
cfunc_return_type = cfunc_type.return_type
# we pass the global scope as argument, should not affect the result (?)
if not cfunc_return_type.can_coerce_to_pyobject(env.global_scope()):
return # skip c methods with Python-incompatible return types
for argtype in cfunc_type.args:
if not argtype.type.can_coerce_to_pyobject(env.global_scope()):
return # skip c methods with Python-incompatible argument types
from .CypclassWrapper import underlying_name
from . import ExprNodes
# > name of the wrapping method: same name as in the original code
cfunc_name = cfunc_declarator.base.name
py_name = cfunc_name
# > self argument of the wrapper method: same name, but type of the wrapper cclass
self_name, self_type, self_pos, self_arg = skipped_self
py_self_arg = CArgDeclNode(
self_pos,
base_type = CSimpleBaseTypeNode(
self_pos,
name = self.class_name,
module_path = [],
signed = 1,
is_basic_c_type = 0,
longness = 0,
is_self_arg = 0, # only true for C methods
templates = None
),
declarator = CNameDeclaratorNode(self_pos, name=self_name, cname=None),
not_none = 0,
or_none = 0,
default = None,
annotation = None,
kw_only = 0
)
# > all arguments of the wrapper method declaration
py_args = [py_self_arg]
for arg in cfunc_declarator.args:
py_args.append(arg.clone_node())
# > same docstring
py_doc = cfunc_method.doc
# > names of the arguments passed when calling the underlying method; self not included
arg_objs = [ExprNodes.NameNode(arg.pos, name=arg.name) for arg in cfunc_declarator.args]
# > reference to the self argument of the wrapper method
self_obj = ExprNodes.NameNode(self_pos, name=self_name)
# > access the underlying cyobject from the self argument of the wrapper method
underlying_obj = ExprNodes.AttributeNode(cfunc_method.pos, obj=self_obj, attribute=underlying_name)
# > cast the underlying object back to this type
underlying_type = self.wrapped_cypclass.entry.type
cast_operation = ExprNodes.TypecastNode(
cfunc_method.pos,
type = underlying_type,
operand = underlying_obj,
typecheck = False
)
cast_underlying_obj = ExprNodes.NameNode(self_pos, name=EncodedString("cast_cyobject"))
cast_assignment = SingleAssignmentNode(self_pos, lhs=cast_underlying_obj, rhs=cast_operation)
# > access the method of the underlying object
cfunc = ExprNodes.AttributeNode(cfunc_method.pos, obj=cast_underlying_obj, attribute=cfunc_name)
# > call to the underlying method
c_call = ExprNodes.SimpleCallNode(
cfunc_method.pos,
function=cfunc,
args=arg_objs
)
# > return the result of the call if the underlying return type is not void
if cfunc_return_type.is_void:
py_stat = ExprStatNode(cfunc_method.pos, expr=c_call)
else:
py_stat = ReturnStatNode(cfunc_method.pos, return_type=PyrexTypes.py_object_type, value=c_call)
py_body = StatListNode(cfunc_method.pos, stats=[cast_assignment, py_stat])
# > lock around the call in checklock mode
if self.wrapped_cypclass.lock_mode == 'checklock':
need_wlock = not cfunc_type.is_const_method
lock_node = LockCypclassNode(
cfunc_method.pos,
state = 'wlocked' if need_wlock else 'rlocked',
obj = cast_underlying_obj,
body = py_body
)
py_body = lock_node
# > the wrapper method
return DefNode(
cfunc_method.pos,
name = py_name,
args = py_args,
star_arg = None,
starstar_arg = None,
doc = py_doc,
body = py_body,
decorators = None,
is_async_def = 0,
return_type_annotation = None
)
class PropertyNode(StatNode):
# Definition of a property in an extension type.
......
......@@ -3996,6 +3996,12 @@ class CypClassType(CppClassType):
self.wrapped_base_type = base_type.wrapped_base_type
break
# iterate over the bases that support wrapping
def iter_wrapped_base_types(self):
for base_type in self.base_classes:
if base_type.is_cyp_class and base_type.support_wrapper:
yield base_type
# Return the MRO for this cypclass
# Compute all the mro needed when a previous computation is not available
# based on https://mail.python.org/pipermail/python-dev/2002-October/029176.html
......
Markdown is supported
0%
or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment