blender/doc/python_api/rst_from_bmesh_opdefines.py

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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 compliant>
# This is a quite stupid script which extracts bmesh api docs from
# 'bmesh_opdefines.c' in order to avoid having to add a lot of introspection
# data access into the api.
#
# The script is stupid becase it makes assumptions about formatting...
# that each arg has its own line, that comments above or directly after will be __doc__ etc...
#
# We may want to replace this script with something else one day but for now its good enough.
# if it needs large updates it may be better to rewrite using a real parser or
# add introspection into bmesh.ops.
# - campbell
import os
CURRENT_DIR = os.path.abspath(os.path.dirname(__file__))
SOURCE_DIR = os.path.normpath(os.path.abspath(os.path.normpath(os.path.join(CURRENT_DIR, "..", ".."))))
FILE_OP_DEFINES_C = os.path.join(SOURCE_DIR, "source", "blender", "bmesh", "intern", "bmesh_opdefines.c")
OUT_RST = os.path.join(CURRENT_DIR, "rst", "bmesh.ops.rst")
HEADER = r"""
BMesh Operators (bmesh.ops)
===========================
.. module:: bmesh.ops
This module gives access to low level bmesh operations.
Most operators take input and return output, they can be chained together
to perform useful operations.
.. note::
This API us new in 2.65 and not yet well tested.
Operator Example
++++++++++++++++
This script shows how operators can be used to model a link of a chain.
.. literalinclude:: ../examples/bmesh.ops.1.py
"""
def main():
fsrc = open(FILE_OP_DEFINES_C, 'r', encoding="utf-8")
blocks = []
is_block = False
is_comment = False # /* global comments only */
comment_ctx = None
block_ctx = None
for l in fsrc:
l = l[:-1]
# weak but ok
if ("BMOpDefine" in l and l.split()[1] == "BMOpDefine") and not "bmo_opdefines[]" in l:
is_block = True
block_ctx = []
blocks.append((comment_ctx, block_ctx))
elif l.strip().startswith("/*"):
is_comment = True
comment_ctx = []
if is_block:
if l.strip().startswith("//"):
pass
else:
# remove c++ comment if we have one
cpp_comment = l.find("//")
if cpp_comment != -1:
l = l[:cpp_comment]
block_ctx.append(l)
if l.strip() == "};":
is_block = False
comment_ctx = None
if is_comment:
c_comment_start = l.find("/*")
if c_comment_start != -1:
l = l[c_comment_start + 2:]
c_comment_end = l.find("*/")
if c_comment_end != -1:
l = l[:c_comment_end]
is_comment = False
comment_ctx.append(l)
fsrc.close()
del fsrc
# namespace hack
vars = (
"BMO_OP_SLOT_ELEMENT_BUF",
"BMO_OP_SLOT_BOOL",
"BMO_OP_SLOT_FLT",
"BMO_OP_SLOT_INT",
"BMO_OP_SLOT_MAT",
"BMO_OP_SLOT_VEC",
"BMO_OP_SLOT_PTR",
"BMO_OP_SLOT_MAPPING",
"BMO_OP_SLOT_SUBTYPE_MAP_ELEM",
"BMO_OP_SLOT_SUBTYPE_MAP_BOOL",
"BMO_OP_SLOT_SUBTYPE_MAP_INT",
"BMO_OP_SLOT_SUBTYPE_MAP_FLT",
"BMO_OP_SLOT_SUBTYPE_MAP_EMPTY",
"BMO_OP_SLOT_SUBTYPE_MAP_INTERNAL",
"BMO_OP_SLOT_SUBTYPE_PTR_SCENE",
"BMO_OP_SLOT_SUBTYPE_PTR_OBJECT",
"BMO_OP_SLOT_SUBTYPE_PTR_MESH",
"BMO_OP_SLOT_SUBTYPE_PTR_BMESH",
"BMO_OP_SLOT_SUBTYPE_ELEM_IS_SINGLE",
"BM_VERT",
"BM_EDGE",
"BM_FACE",
"BMO_OPTYPE_FLAG_NORMALS_CALC",
"BMO_OPTYPE_FLAG_UNTAN_MULTIRES",
"BMO_OPTYPE_FLAG_SELECT_FLUSH",
"BMO_OPTYPE_FLAG_NOP",
)
vars_dict = {}
for i, v in enumerate(vars):
vars_dict[v] = (1 << i)
globals().update(vars_dict)
# reverse lookup
vars_dict_reverse = {v: k for k, v in vars_dict.items()}
# end namespace hack
blocks_py = []
for comment, b in blocks:
# magic, translate into python
b[0] = b[0].replace("static BMOpDefine ", "")
for i, l in enumerate(b):
l = l.strip()
l = l.replace("{", "(")
l = l.replace("}", ")")
if l.startswith("/*"):
l = l.replace("/*", "'''own <")
else:
l = l.replace("/*", "'''inline <")
l = l.replace("*/", ">''',")
# exec func. eg: bmo_rotate_edges_exec,
if l.startswith("bmo_") and l.endswith("_exec,"):
l = "None,"
b[i] = l
#for l in b:
# print(l)
text = "\n".join(b)
global_namespace = {
"__file__": "generated",
"__name__": "__main__",
}
global_namespace.update(vars_dict)
text_a, text_b = text.split("=", 1)
text = "result = " + text_b
exec(compile(text, "generated", 'exec'), global_namespace)
# print(global_namespace["result"])
blocks_py.append((comment, global_namespace["result"]))
# ---------------------
# Now convert into rst.
fout = open(OUT_RST, 'w', encoding="utf-8")
fw = fout.write
fw(HEADER)
for comment, b in blocks_py:
args_in = None
args_out = None
for member in b[1:]:
if type(member) == tuple:
if args_in is None:
args_in = member
elif args_out is None:
args_out = member
break
args_in_index = []
args_out_index = []
if args_in is not None:
args_in_index[:] = [i for (i, a) in enumerate(args_in) if type(a) == tuple]
if args_out is not None:
args_out_index[:] = [i for (i, a) in enumerate(args_out) if type(a) == tuple]
fw(".. function:: %s(bm, %s)\n\n" % (b[0], ", ".join([args_in[i][0] for i in args_in_index])))
# -- wash the comment
comment_washed = []
for i, l in enumerate(comment):
assert((l.strip() == "") or
(l in {"/*", " *"}) or
(l.startswith(("/* ", " * "))))
l = l[3:]
if i == 0 and not l.strip():
continue
if l.strip():
l = " " + l
comment_washed.append(l)
fw("\n".join(comment_washed))
fw("\n")
# -- done
# get the args
def get_args_wash(args, args_index, is_ret):
args_wash = []
for i in args_index:
arg = args[i]
if len(arg) == 3:
name, tp, tp_sub = arg
elif len(arg) == 2:
name, tp = arg
tp_sub = None
else:
print(arg)
assert(0)
tp_str = ""
comment_prev = ""
comment_next = ""
if i != 0:
comment_prev = args[i + 1]
if type(comment_prev) == str and comment_prev.startswith("our <"):
comment_prev = comment_next[5:-1] # strip inline <...>
else:
comment_prev = ""
if i + 1 < len(args):
comment_next = args[i + 1]
if type(comment_next) == str and comment_next.startswith("inline <"):
comment_next = comment_next[8:-1] # strip inline <...>
else:
comment_next = ""
comment = ""
if comment_prev:
comment += comment_prev.strip()
if comment_next:
comment += ("\n" if comment_prev else "") + comment_next.strip()
if tp == BMO_OP_SLOT_FLT:
tp_str = "float"
elif tp == BMO_OP_SLOT_INT:
tp_str = "int"
elif tp == BMO_OP_SLOT_BOOL:
tp_str = "bool"
elif tp == BMO_OP_SLOT_MAT:
tp_str = ":class:`mathutils.Matrix`"
elif tp == BMO_OP_SLOT_VEC:
tp_str = ":class:`mathutils.Vector`"
if not is_ret:
tp_str += " or any sequence of 3 floats"
elif tp == BMO_OP_SLOT_PTR:
tp_str = "dict"
assert(tp_sub is not None)
if tp_sub == BMO_OP_SLOT_SUBTYPE_PTR_BMESH:
tp_str = ":class:`bmesh.types.BMesh`"
elif tp_sub == BMO_OP_SLOT_SUBTYPE_PTR_SCENE:
tp_str = ":class:`bpy.types.Scene`"
elif tp_sub == BMO_OP_SLOT_SUBTYPE_PTR_OBJECT:
tp_str = ":class:`bpy.types.Object`"
elif tp_sub == BMO_OP_SLOT_SUBTYPE_PTR_MESH:
tp_str = ":class:`bpy.types.Mesh`"
else:
print("Cant find", vars_dict_reverse[tp_sub])
assert(0)
elif tp == BMO_OP_SLOT_ELEMENT_BUF:
assert(tp_sub is not None)
ls = []
if tp_sub & BM_VERT:
ls.append(":class:`bmesh.types.BMVert`")
if tp_sub & BM_EDGE:
ls.append(":class:`bmesh.types.BMEdge`")
if tp_sub & BM_FACE:
ls.append(":class:`bmesh.types.BMFace`")
assert(ls) # must be at least one
if tp_sub & BMO_OP_SLOT_SUBTYPE_ELEM_IS_SINGLE:
tp_str = "/".join(ls)
else:
tp_str = ("list of (%s)" % ", ".join(ls))
del ls
elif tp == BMO_OP_SLOT_MAPPING:
if tp_sub & BMO_OP_SLOT_SUBTYPE_MAP_EMPTY:
tp_str = "set of vert/edge/face type"
else:
tp_str = "dict mapping vert/edge/face types to "
if tp_sub == BMO_OP_SLOT_SUBTYPE_MAP_BOOL:
tp_str += "bool"
elif tp_sub == BMO_OP_SLOT_SUBTYPE_MAP_INT:
tp_str += "int"
elif tp_sub == BMO_OP_SLOT_SUBTYPE_MAP_FLT:
tp_str += "float"
elif tp_sub == BMO_OP_SLOT_SUBTYPE_MAP_ELEM:
tp_str += ":class:`bmesh.types.BMVert`/:class:`bmesh.types.BMEdge`/:class:`bmesh.types.BMFace`"
elif tp_sub == BMO_OP_SLOT_SUBTYPE_MAP_INTERNAL:
tp_str += "unknown internal data, not compatible with python"
else:
print("Cant find", vars_dict_reverse[tp_sub])
assert(0)
else:
print("Cant find", vars_dict_reverse[tp])
assert(0)
args_wash.append((name, tp_str, comment))
return args_wash
# end get_args_wash
# all ops get this arg
fw(" :arg bm: The bmesh to operate on.\n")
fw(" :type bm: :class:`bmesh.types.BMesh`\n")
args_in_wash = get_args_wash(args_in, args_in_index, False)
args_out_wash = get_args_wash(args_out, args_out_index, True)
for (name, tp, comment) in args_in_wash:
if comment == "":
comment = "Undocumented."
fw(" :arg %s: %s\n" % (name, comment))
fw(" :type %s: %s\n" % (name, tp))
if args_out_wash:
fw(" :return:\n\n")
for (name, tp, comment) in args_out_wash:
assert(name.endswith(".out"))
name = name[:-4]
fw(" - ``%s``: %s\n\n" % (name, comment))
fw(" **type** %s\n" % tp)
fw("\n")
fw(" :rtype: dict with string keys\n")
fw("\n\n")
fout.close()
del fout
print(OUT_RST)
if __name__ == "__main__":
main()