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blender/release/scripts/modules/bpy/ops.py
Bastien Montagne 0c6e74436f Fix T39158: Help > Operator Cheat Sheet causes a python recursive loop. 
Core issue exists since ages - the thing you get from bpy.types.YOUR_OT_operator is fuzzy, and may change,
due to the fact that both Operator and OperatorProperties share the same name...
Would be cool to get rid of this issue one day, but for now it's safer to use rna acessor...

This commit is to be backported to 2.70.
2014-03-13 17:37:19 +01:00

226 lines
6.4 KiB
Python
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# ##### BEGIN GPL LICENSE BLOCK #####
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software Foundation,
# Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
#
# ##### END GPL LICENSE BLOCK #####
# <pep8-80 compliant>
# for slightly faster access
from _bpy import ops as ops_module
# op_add = ops_module.add
op_dir = ops_module.dir
op_poll = ops_module.poll
op_call = ops_module.call
op_as_string = ops_module.as_string
op_get_rna = ops_module.get_rna
op_get_instance = ops_module.get_instance
class BPyOps(object):
"""
Fake module like class.
bpy.ops
"""
def __getattr__(self, module):
"""
gets a bpy.ops submodule
"""
if module.startswith('__'):
raise AttributeError(module)
return BPyOpsSubMod(module)
def __dir__(self):
submodules = set()
# add this classes functions
for id_name in dir(self.__class__):
if not id_name.startswith('__'):
submodules.add(id_name)
for id_name in op_dir():
id_split = id_name.split('_OT_', 1)
if len(id_split) == 2:
submodules.add(id_split[0].lower())
else:
submodules.add(id_split[0])
return list(submodules)
def __repr__(self):
return "<module like class 'bpy.ops'>"
class BPyOpsSubMod(object):
"""
Utility class to fake submodules.
eg. bpy.ops.object
"""
__slots__ = ("_module",)
def __init__(self, module):
self._module = module
def __getattr__(self, func):
"""
gets a bpy.ops.submodule function
"""
if func.startswith('__'):
raise AttributeError(func)
return BPyOpsSubModOp(self._module, func)
def __dir__(self):
functions = set()
module_upper = self._module.upper()
for id_name in op_dir():
id_split = id_name.split('_OT_', 1)
if len(id_split) == 2 and module_upper == id_split[0]:
functions.add(id_split[1])
return list(functions)
def __repr__(self):
return "<module like class 'bpy.ops.%s'>" % self._module
class BPyOpsSubModOp(object):
"""
Utility class to fake submodule operators.
eg. bpy.ops.object.somefunc
"""
__slots__ = ("_module", "_func")
def _get_doc(self):
return op_as_string(self.idname())
@staticmethod
def _parse_args(args):
C_dict = None
C_exec = 'EXEC_DEFAULT'
C_undo = False
is_dict = is_exec = is_undo = False
for i, arg in enumerate(args):
if is_dict is False and isinstance(arg, dict):
if is_exec is True or is_undo is True:
raise ValueError("dict arg must come first")
C_dict = arg
is_dict = True
elif is_exec is False and isinstance(arg, str):
if is_undo is True:
raise ValueError("string arg must come before the boolean")
C_exec = arg
is_exec = True
elif is_undo is False and isinstance(arg, int):
C_undo = arg
is_undo = True
else:
raise ValueError("1-3 args execution context is supported")
return C_dict, C_exec, C_undo
@staticmethod
def _scene_update(context):
scene = context.scene
if scene: # None in background mode
scene.update()
else:
import bpy
for scene in bpy.data.scenes:
scene.update()
__doc__ = property(_get_doc)
def __init__(self, module, func):
self._module = module
self._func = func
def poll(self, *args):
C_dict, C_exec, C_undo = BPyOpsSubModOp._parse_args(args)
return op_poll(self.idname_py(), C_dict, C_exec)
def idname(self):
# submod.foo -> SUBMOD_OT_foo
return self._module.upper() + "_OT_" + self._func
def idname_py(self):
# submod.foo -> SUBMOD_OT_foo
return self._module + "." + self._func
def __call__(self, *args, **kw):
import bpy
context = bpy.context
# Get the operator from blender
wm = context.window_manager
# run to account for any rna values the user changes.
BPyOpsSubModOp._scene_update(context)
if args:
C_dict, C_exec, C_undo = BPyOpsSubModOp._parse_args(args)
ret = op_call(self.idname_py(), C_dict, kw, C_exec, C_undo)
else:
ret = op_call(self.idname_py(), None, kw)
if 'FINISHED' in ret and context.window_manager == wm:
BPyOpsSubModOp._scene_update(context)
return ret
def get_rna(self):
"""Internal function for introspection"""
return op_get_rna(self.idname())
def get_instance(self):
"""Internal function for introspection"""
return op_get_instance(self.idname())
def __repr__(self): # useful display, repr(op)
import bpy
idname = self.idname()
as_string = op_as_string(idname)
# XXX You never quite know what you get from bpy.types, with operators... Operator and OperatorProperties
# are shadowing each other, and not in the same way for native ops and py ones! See T39158.
# op_class = getattr(bpy.types, idname)
op_class = op_get_rna(idname)
descr = op_class.bl_rna.description
# XXX, workaround for not registering
# every __doc__ to save time on load.
if not descr:
descr = op_class.__doc__
if not descr:
descr = ""
return "# %s\n%s" % (descr, as_string)
def __str__(self): # used for print(...)
return ("<function bpy.ops.%s.%s at 0x%x'>" %
(self._module, self._func, id(self)))
ops_fake_module = BPyOps()
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