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#!/usr/bin/python
#
# Copyright (C) 2009 Chia-I Wu <olv@0xlab.org>
#
# Permission is hereby granted, free of charge, to any person obtaining a
# copy of this software and associated documentation files (the "Software"),
# to deal in the Software without restriction, including without limitation
# on the rights to use, copy, modify, merge, publish, distribute, sub
# license, and/or sell copies of the Software, and to permit persons to whom
# the Software is furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice (including the next
# paragraph) shall be included in all copies or substantial portions of the
# Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL
# IBM AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
# FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
# IN THE SOFTWARE.
import sys
import os.path
import getopt
GLAPI = "../../glapi"
sys.path.append(GLAPI)
import gl_XML
import glX_XML
class ApiSet(object):
def __init__(self, api, elts=["enum", "type", "function"]):
self.api = api
self.elts = elts
def _check_enum(self, e1, e2, strict=True):
if e1.name != e2.name:
raise ValueError("%s: name mismatch" % e1.name)
if e1.value != e2.value:
raise ValueError("%s: value 0x%04x != 0x%04x"
% (e1.name, e1.value, e2.value))
def _check_type(self, t1, t2, strict=True):
if t1.name != t2.name:
raise ValueError("%s: name mismatch" % t1.name)
if t1.type_expr.string() != t2.type_expr.string():
raise ValueError("%s: type %s != %s"
% (t1.name, t1.type_expr.string(), t2.type_expr.string()))
def _check_function(self, f1, f2, strict=True):
if f1.name != f2.name:
raise ValueError("%s: name mismatch" % f1.name)
if f1.return_type != f2.return_type:
raise ValueError("%s: return type %s != %s"
% (f1.name, f1.return_type, f2.return_type))
# there might be padded parameters
if strict and len(f1.parameters) != len(f2.parameters):
raise ValueError("%s: parameter length %d != %d"
% (f1.name, len(f1.parameters), len(f2.parameters)))
if f1.assign_offset != f2.assign_offset:
if ((f1.assign_offset and f2.offset < 0) or
(f2.assign_offset and f1.offset < 0)):
raise ValueError("%s: assign offset %d != %d"
% (f1.name, f1.assign_offset, f2.assign_offset))
elif not f1.assign_offset:
if f1.offset != f2.offset:
raise ValueError("%s: offset %d != %d"
% (f1.name, f1.offset, f2.offset))
if strict:
l1 = f1.entry_points
l2 = f2.entry_points
l1.sort()
l2.sort()
if l1 != l2:
raise ValueError("%s: entry points %s != %s"
% (f1.name, l1, l2))
l1 = f1.static_entry_points
l2 = f2.static_entry_points
l1.sort()
l2.sort()
if l1 != l2:
raise ValueError("%s: static entry points %s != %s"
% (f1.name, l1, l2))
pad = 0
for i in xrange(len(f1.parameters)):
p1 = f1.parameters[i]
p2 = f2.parameters[i + pad]
if not strict and p1.is_padding != p2.is_padding:
if p1.is_padding:
pad -= 1
continue
else:
pad += 1
p2 = f2.parameters[i + pad]
if strict and p1.name != p2.name:
raise ValueError("%s: parameter %d name %s != %s"
% (f1.name, i, p1.name, p2.name))
if p1.type_expr.string() != p2.type_expr.string():
if (strict or
# special case
f1.name == "TexImage2D" and p1.name != "internalformat"):
raise ValueError("%s: parameter %s type %s != %s"
% (f1.name, p1.name, p1.type_expr.string(),
p2.type_expr.string()))
def union(self, other):
union = gl_XML.gl_api(None)
if "enum" in self.elts:
union.enums_by_name = other.enums_by_name.copy()
for key, val in self.api.enums_by_name.iteritems():
if key not in union.enums_by_name:
union.enums_by_name[key] = val
else:
self._check_enum(val, other.enums_by_name[key])
if "type" in self.elts:
union.types_by_name = other.types_by_name.copy()
for key, val in self.api.types_by_name.iteritems():
if key not in union.types_by_name:
union.types_by_name[key] = val
else:
self._check_type(val, other.types_by_name[key])
if "function" in self.elts:
union.functions_by_name = other.functions_by_name.copy()
for key, val in self.api.functions_by_name.iteritems():
if key not in union.functions_by_name:
union.functions_by_name[key] = val
else:
self._check_function(val, other.functions_by_name[key])
return union
def intersection(self, other):
intersection = gl_XML.gl_api(None)
if "enum" in self.elts:
for key, val in self.api.enums_by_name.iteritems():
if key in other.enums_by_name:
self._check_enum(val, other.enums_by_name[key])
intersection.enums_by_name[key] = val
if "type" in self.elts:
for key, val in self.api.types_by_name.iteritems():
if key in other.types_by_name:
self._check_type(val, other.types_by_name[key])
intersection.types_by_name[key] = val
if "function" in self.elts:
for key, val in self.api.functions_by_name.iteritems():
if key in other.functions_by_name:
self._check_function(val, other.functions_by_name[key])
intersection.functions_by_name[key] = val
return intersection
def difference(self, other):
difference = gl_XML.gl_api(None)
if "enum" in self.elts:
for key, val in self.api.enums_by_name.iteritems():
if key not in other.enums_by_name:
difference.enums_by_name[key] = val
else:
self._check_enum(val, other.enums_by_name[key])
if "type" in self.elts:
for key, val in self.api.types_by_name.iteritems():
if key not in other.types_by_name:
difference.types_by_name[key] = val
else:
self._check_type(val, other.types_by_name[key])
if "function" in self.elts:
for key, val in self.api.functions_by_name.iteritems():
if key not in other.functions_by_name:
difference.functions_by_name[key] = val
else:
self._check_function(val, other.functions_by_name[key], False)
return difference
def cmp_enum(e1, e2):
if e1.value < e2.value:
return -1
elif e1.value > e2.value:
return 1
else:
return 0
def cmp_type(t1, t2):
return t1.size - t2.size
def cmp_function(f1, f2):
if f1.name > f2.name:
return 1
elif f1.name < f2.name:
return -1
else:
return 0
def spaces(n, str=""):
spaces = n - len(str)
if spaces < 1:
spaces = 1
return " " * spaces
def output_enum(e, indent=0):
attrs = 'name="%s"' % e.name
if e.default_count > 0:
tab = spaces(37, attrs)
attrs += '%scount="%d"' % (tab, e.default_count)
tab = spaces(48, attrs)
val = "%04x" % e.value
val = "0x" + val.upper()
attrs += '%svalue="%s"' % (tab, val)
# no child
if not e.functions:
print '%s<enum %s/>' % (spaces(indent), attrs)
return
print '%s<enum %s>' % (spaces(indent), attrs)
for key, val in e.functions.iteritems():
attrs = 'name="%s"' % key
if val[0] != e.default_count:
attrs += ' count="%d"' % val[0]
if not val[1]:
attrs += ' mode="get"'
print '%s<size %s/>' % (spaces(indent * 2), attrs)
print '%s</enum>' % spaces(indent)
def output_type(t, indent=0):
tab = spaces(16, t.name)
attrs = 'name="%s"%ssize="%d"' % (t.name, tab, t.size)
ctype = t.type_expr.string()
if ctype.find("unsigned") != -1:
attrs += ' unsigned="true"'
elif ctype.find("signed") == -1:
attrs += ' float="true"'
print '%s<type %s/>' % (spaces(indent), attrs)
def output_function(f, indent=0):
attrs = 'name="%s"' % f.name
if f.offset > 0:
if f.assign_offset:
attrs += ' offset="assign"'
else:
attrs += ' offset="%d"' % f.offset
print '%s<function %s>' % (spaces(indent), attrs)
for p in f.parameters:
attrs = 'name="%s" type="%s"' \
% (p.name, p.type_expr.original_string)
print '%s<param %s/>' % (spaces(indent * 2), attrs)
if f.return_type != "void":
attrs = 'type="%s"' % f.return_type
print '%s<return %s/>' % (spaces(indent * 2), attrs)
print '%s</function>' % spaces(indent)
def output_category(api, indent=0):
enums = api.enums_by_name.values()
enums.sort(cmp_enum)
types = api.types_by_name.values()
types.sort(cmp_type)
functions = api.functions_by_name.values()
functions.sort(cmp_function)
for e in enums:
output_enum(e, indent)
if enums and types:
print
for t in types:
output_type(t, indent)
if enums or types:
print
for f in functions:
output_function(f, indent)
if f != functions[-1]:
print
def is_api_empty(api):
return bool(not api.enums_by_name and
not api.types_by_name and
not api.functions_by_name)
def show_usage(ops):
print "Usage: %s [-k elts] <%s> <file1> <file2>" % (sys.argv[0], "|".join(ops))
print " -k elts A comma separated string of types of elements to"
print " skip. Possible types are enum, type, and function."
sys.exit(1)
def main():
ops = ["union", "intersection", "difference"]
elts = ["enum", "type", "function"]
try:
options, args = getopt.getopt(sys.argv[1:], "k:")
except Exception, e:
show_usage(ops)
if len(args) != 3:
show_usage(ops)
op, file1, file2 = args
if op not in ops:
show_usage(ops)
skips = []
for opt, val in options:
if opt == "-k":
skips = val.split(",")
for elt in skips:
try:
elts.remove(elt)
except ValueError:
show_usage(ops)
api1 = gl_XML.parse_GL_API(file1, glX_XML.glx_item_factory())
api2 = gl_XML.parse_GL_API(file2, glX_XML.glx_item_factory())
set = ApiSet(api1, elts)
func = getattr(set, op)
result = func(api2)
if not is_api_empty(result):
cat_name = "%s_of_%s_and_%s" \
% (op, os.path.basename(file1), os.path.basename(file2))
print '<?xml version="1.0"?>'
print '<!DOCTYPE OpenGLAPI SYSTEM "%s/gl_API.dtd">' % GLAPI
print
print '<OpenGLAPI>'
print
print '<category name="%s">' % (cat_name)
output_category(result, 4)
print '</category>'
print
print '</OpenGLAPI>'
if __name__ == "__main__":
main()
|