blender/po/update_msg.py
Campbell Barton 5da894b1fe misc edits
- cmake/windows was installing locale & font when internationalization was disabled, twice when enabled.
- file selector was using the string size-1, where this isn't needed since string buttons expected this value to be the sizeof(), accounting for '\0'.
- use const char for extension checking funcs.
- minor pep8 edits
2011-10-15 05:01:47 +00:00

382 lines
13 KiB
Python

# $Id$
# ***** 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>
# Write out messages.txt from blender
# Execite:
# blender --background --python po/update_msg.py
import os
CURRENT_DIR = os.path.abspath(os.path.dirname(__file__))
SOURCE_DIR = os.path.normpath(os.path.abspath(os.path.join(CURRENT_DIR, "..")))
FILE_NAME_MESSAGES = os.path.join(CURRENT_DIR, "messages.txt")
COMMENT_PREFIX = "#~ "
def dump_messages_rna(messages):
import bpy
def classBlackList():
blacklist_rna_class = [
# core classes
"Context", "Event", "Function", "UILayout",
"BlendData",
# registerable classes
"Panel", "Menu", "Header", "RenderEngine",
"Operator", "OperatorMacro", "Macro",
"KeyingSetInfo", "UnknownType",
# window classes
"WindowManager", "Window"
]
# ---------------------------------------------------------------------
# Collect internal operators
# extend with all internal operators
# note that this uses internal api introspection functions
# all possible operator names
op_names = list(sorted(set(
[cls.bl_rna.identifier for cls in
bpy.types.OperatorProperties.__subclasses__()] +
[cls.bl_rna.identifier for cls in
bpy.types.Operator.__subclasses__()] +
[cls.bl_rna.identifier for cls in
bpy.types.OperatorMacro.__subclasses__()]
)))
get_inatance = __import__("_bpy").ops.get_instance
path_resolve = type(bpy.context).__base__.path_resolve
for idname in op_names:
op = get_inatance(idname)
if 'INTERNAL' in path_resolve(op, "bl_options"):
blacklist_rna_class.append(idname)
# ---------------------------------------------------------------------
# Collect builtin classes we dont need to doc
blacklist_rna_class.append("Property")
blacklist_rna_class.extend(
[cls.__name__ for cls in
bpy.types.Property.__subclasses__()])
# ---------------------------------------------------------------------
# Collect classes which are attached to collections, these are api
# access only.
collection_props = set()
for cls_id in dir(bpy.types):
cls = getattr(bpy.types, cls_id)
for prop in cls.bl_rna.properties:
if prop.type == 'COLLECTION':
prop_cls = prop.srna
if prop_cls is not None:
collection_props.add(prop_cls.identifier)
blacklist_rna_class.extend(sorted(collection_props))
return blacklist_rna_class
blacklist_rna_class = classBlackList()
def filterRNA(bl_rna):
id = bl_rna.identifier
if id in blacklist_rna_class:
print(" skipping", id)
return True
return False
# -------------------------------------------------------------------------
# Function definitions
def walkProperties(bl_rna):
import bpy
# get our parents properties not to export them multiple times
bl_rna_base = bl_rna.base
if bl_rna_base:
bl_rna_base_props = bl_rna_base.properties.values()
else:
bl_rna_base_props = ()
for prop in bl_rna.properties:
# only write this property is our parent hasn't got it.
if prop in bl_rna_base_props:
continue
if prop.identifier == "rna_type":
continue
msgsrc = "bpy.types.%s.%s" % (bl_rna.identifier, prop.identifier)
if prop.name and prop.name != prop.identifier:
messages.setdefault(prop.name, []).append(msgsrc)
if prop.description:
messages.setdefault(prop.description, []).append(msgsrc)
if isinstance(prop, bpy.types.EnumProperty):
for item in prop.enum_items:
msgsrc = "bpy.types.%s.%s, '%s'" % (bl_rna.identifier,
prop.identifier,
item.identifier,
)
# Here identifier and name can be the same!
if item.name: # and item.name != item.identifier:
messages.setdefault(item.name,
[]).append(msgsrc)
if item.description:
messages.setdefault(item.description,
[]).append(msgsrc)
def walkRNA(bl_rna):
if filterRNA(bl_rna):
return
msgsrc = "bpy.types.%s" % bl_rna.identifier
if bl_rna.name and bl_rna.name != bl_rna.identifier:
messages.setdefault(bl_rna.name, []).append(msgsrc)
if bl_rna.description:
messages.setdefault(bl_rna.description, []).append(msgsrc)
if hasattr(bl_rna, 'bl_label') and bl_rna.bl_label:
messages.setdefault(bl_rna.bl_label, []).append(msgsrc)
walkProperties(bl_rna)
def walkClass(cls):
walkRNA(cls.bl_rna)
def walk_keymap_hierarchy(hier, msgsrc_prev):
for lvl in hier:
msgsrc = "%s.%s" % (msgsrc_prev, lvl[1])
messages.setdefault(lvl[0], []).append(msgsrc)
if lvl[3]:
walk_keymap_hierarchy(lvl[3], msgsrc)
# -------------------------------------------------------------------------
# Dump Messages
def full_class_id(cls):
""" gives us 'ID.Lamp.AreaLamp' which is best for sorting.
"""
cls_id = ""
bl_rna = cls.bl_rna
while bl_rna:
cls_id = "%s.%s" % (bl_rna.identifier, cls_id)
bl_rna = bl_rna.base
return cls_id
cls_list = type(bpy.context).__base__.__subclasses__()
cls_list.sort(key=full_class_id)
for cls in cls_list:
walkClass(cls)
cls_list = bpy.types.Space.__subclasses__()
cls_list.sort(key=full_class_id)
for cls in cls_list:
walkClass(cls)
cls_list = bpy.types.Operator.__subclasses__()
cls_list.sort(key=full_class_id)
for cls in cls_list:
walkClass(cls)
cls_list = bpy.types.OperatorProperties.__subclasses__()
cls_list.sort(key=full_class_id)
for cls in cls_list:
walkClass(cls)
cls_list = bpy.types.Menu.__subclasses__()
cls_list.sort(key=full_class_id)
for cls in cls_list:
walkClass(cls)
from bpy_extras.keyconfig_utils import KM_HIERARCHY
walk_keymap_hierarchy(KM_HIERARCHY, "KM_HIERARCHY")
def dump_messages_pytext(messages):
""" dumps text inlined in the python user interface: eg.
layout.prop("someprop", text="My Name")
"""
import ast
# -------------------------------------------------------------------------
# Gather function names
import bpy
# key: func_id
# val: [(arg_kw, arg_pos), (arg_kw, arg_pos), ...]
func_translate_args = {}
# so far only 'text' keywords, but we may want others translated later
translate_kw = ("text", )
for func_id, func in bpy.types.UILayout.bl_rna.functions.items():
# check it has a 'text' argument
for (arg_pos, (arg_kw, arg)) in enumerate(func.parameters.items()):
if ((arg_kw in translate_kw) and
(arg.is_output == False) and
(arg.type == 'STRING')):
func_translate_args.setdefault(func_id, []).append((arg_kw,
arg_pos))
# print(func_translate_args)
# -------------------------------------------------------------------------
# Function definitions
def extract_strings(fp_rel, node_container):
""" Recursively get strings, needed incase we have "Blah" + "Blah",
passed as an argument in that case it wont evaluate to a string.
"""
for node in ast.walk(node_container):
if type(node) == ast.Str:
eval_str = ast.literal_eval(node)
if eval_str:
# print("%s:%d: %s" % (fp, node.lineno, eval_str))
msgsrc = "%s:%s" % (fp_rel, node.lineno)
messages.setdefault(eval_str, []).append(msgsrc)
def extract_strings_from_file(fp):
filedata = open(fp, 'r', encoding="utf8")
root_node = ast.parse(filedata.read(), fp, 'exec')
filedata.close()
fp_rel = os.path.relpath(fp, SOURCE_DIR)
for node in ast.walk(root_node):
if type(node) == ast.Call:
# print("found function at")
# print("%s:%d" % (fp, node.lineno))
# lambda's
if type(node.func) == ast.Name:
continue
# getattr(self, con.type)(context, box, con)
if not hasattr(node.func, "attr"):
continue
translate_args = func_translate_args.get(node.func.attr, ())
# do nothing if not found
for arg_kw, arg_pos in translate_args:
if arg_pos < len(node.args):
extract_strings(fp_rel, node.args[arg_pos])
else:
for kw in node.keywords:
if kw.arg == arg_kw:
extract_strings(fp_rel, kw.value)
# -------------------------------------------------------------------------
# Dump Messages
mod_dir = os.path.join(SOURCE_DIR,
"release",
"scripts",
"startup",
"bl_ui")
files = [os.path.join(mod_dir, fn)
for fn in sorted(os.listdir(mod_dir))
if not fn.startswith("_")
if fn.endswith("py")
]
for fp in files:
extract_strings_from_file(fp)
def dump_messages():
def filter_message(msg):
# check for strings like ": %d"
msg_test = msg
for ignore in ("%d", "%s", "%r", # string formatting
"*", ".", "(", ")", "-", "/", "\\", "+", ":", "#", "%"
"0", "1", "2", "3", "4", "5", "6", "7", "8", "9",
"x", # used on its own eg: 100x200
"X", "Y", "Z", # used alone. no need to include
):
msg_test = msg_test.replace(ignore, "")
msg_test = msg_test.strip()
if not msg_test:
# print("Skipping: '%s'" % msg)
return True
# we could filter out different strings here
return False
if 1:
import collections
messages = collections.OrderedDict()
else:
messages = {}
messages[""] = []
# get strings from RNA
dump_messages_rna(messages)
# get strings from UI layout definitions text="..." args
dump_messages_pytext(messages)
del messages[""]
message_file = open(FILE_NAME_MESSAGES, 'w', encoding="utf8")
# message_file.writelines("\n".join(sorted(messages)))
for key, value in messages.items():
# filter out junk values
if filter_message(key):
continue
for msgsrc in value:
message_file.write("%s%s\n" % (COMMENT_PREFIX, msgsrc))
message_file.write("%s\n" % key)
message_file.close()
print("Written %d messages to: %r" % (len(messages), FILE_NAME_MESSAGES))
def main():
try:
import bpy
except ImportError:
print("This script must run from inside blender")
return
dump_messages()
if __name__ == "__main__":
print("\n\n *** Running %r *** \n" % __file__)
main()