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#!/usr/bin/python
#
# Comedy python script to generate cdecl to stdcall wrappers for GL functions
#
# This is designed to operate on OpenGL spec files from
# http://www.opengl.org/registry/api/
#
#
# Copyright (c) Jon TURNEY 2009
#
# 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
# the rights to use, copy, modify, merge, publish, distribute, sublicense,
# 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 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 NONINFRINGEMENT. IN NO EVENT SHALL
# THE ABOVE LISTED COPYRIGHT HOLDER(S) 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.
#
# Except as contained in this notice, the name(s) of the above copyright
# holders shall not be used in advertising or otherwise to promote the sale,
# use or other dealings in this Software without prior written authorization.
#
import sys
import re
import getopt
dispatchheader = ''
prefix = 'gl'
preresolve = False
staticwrappers = False
opts, args = getopt.getopt(sys.argv[1:], "", ['spec=', 'typemap=', 'dispatch-header=', 'prefix=', 'preresolve', 'staticwrappers' ])
for o,a in opts:
if o == '--typemap' :
typemapfile = a
elif o == '--dispatch-header' :
dispatchheader = a
elif o == '--spec' :
specfile = a
elif o == '--prefix' :
prefix = a
elif o == '--preresolve' :
preresolve = True
elif o == '--staticwrappers' :
staticwrappers = True
#
# look for all the SET_ macros in dispatch.h, this is the set of functions
# we need to generate
#
dispatch = {}
if dispatchheader :
fh = open(dispatchheader)
dispatchh = fh.readlines()
dispatch_regex = re.compile(r'#define\sSET_(\S*)\(')
for line in dispatchh :
line = line.strip()
m1 = dispatch_regex.search(line)
if m1 :
dispatch[m1.group(1)] = 1
del dispatch['by_offset']
#
# read the typemap .tm file
#
typemap = {}
fh = open(typemapfile)
tm = fh.readlines()
typemap_regex = re.compile(r'#define\sSET_(\S*)\(')
for line in tm :
# ignore everything after a '#' as a comment
hash = line.find('#')
if hash != -1 :
line = line[:hash-1]
# ignore blank lines
if line.startswith('#') or len(line) == 0 :
continue
l = line.split(',')
typemap[l[0]] = l[3].strip()
# interestingly, * is not a C type
if typemap['void'] == '*' :
typemap['void'] = 'void'
#
# crudely parse the .spec file
#
r1 = re.compile(r'\t(\S*)\s+(\S*.*)')
r2 = re.compile(r'(.*)\((.*)\)')
r3 = re.compile(r'glWindowPos.*MESA')
r4 = re.compile(r'gl.*Program(s|)NV')
r5 = re.compile(r'glGetVertexAttribfvNV')
wrappers = {}
fh = open(specfile)
glspec = fh.readlines()
param_count = 0
for line in glspec :
line = line.rstrip()
# ignore everything after a '#' as a comment
hash = line.find('#')
if hash != -1 :
line = line[:hash-1]
# ignore blank lines
if line.startswith('#') or len(line) == 0 :
continue
# lines containing ':' aren't intersting to us
if line.count(':') != 0 :
continue
# attributes of each function follow the name, indented by a tab
if not line.startswith('\t') :
m1 = r2.search(line)
if m1 :
function = m1.group(1)
arglist_use = m1.group(2)
wrappers[function] = {}
# near and far might be reserved words or macros so can't be used as formal parameter names
arglist_use = arglist_use.replace('near','zNear')
arglist_use = arglist_use.replace('far','zFar')
wrappers[function]['arglist_use'] = arglist_use
param_count = 0
else :
m1 = r1.search(line)
if m1 :
attribute = m1.group(1)
value = m1.group(2)
# make param attributes unique and ordered
if attribute == 'param' :
attribute = 'param' + '%02d' % param_count
param_count += 1
wrappers[function][attribute] = value
#
# now emit code
#
print '/* Automatically generated by ' + sys.argv[0] + ' DO NOT EDIT */'
print '/* from ' + specfile + ' and typemap ' + typemapfile + ' */'
print ''
#
# if required, emit code for non-lazy function resolving
#
if preresolve :
for w in sorted(wrappers.keys()) :
funcname = prefix + w
print 'RESOLVE_DECL(PFN' + funcname.upper() + 'PROC);'
print ''
print 'void ' + prefix + 'ResolveExtensionProcs(void)'
print '{'
for w in sorted(wrappers.keys()) :
funcname = prefix + w
print ' PRERESOLVE(PFN' + funcname.upper() + 'PROC, "' + funcname + '");'
print '}\n'
#
# now emit the wrappers
# for GL 1.0 and 1.1 functions, generate stdcall wrappers which call the function directly
# for GL 1.2+ functions, generate wrappers which use wglGetProcAddress()
#
for w in sorted(wrappers.keys()) :
funcname = prefix + w
returntype = wrappers[w]['return']
if returntype != 'void' :
returntype = typemap[returntype]
# Avoid generating wrappers which aren't referenced by the dispatch table
if dispatchheader and not dispatch.has_key(w) :
print '/* No wrapper for ' + funcname + ', not in dispatch table */'
continue
# manufacture arglist
# if no param attributes were found, it should be 'void'
al = []
for k in sorted(wrappers[w].keys()) :
if k.startswith('param') :
l = wrappers[w][k].split()
# near and far might be reserved words or macros so can't be used as formal parameter names
l[0] = l[0].replace('near','zNear')
l[0] = l[0].replace('far','zFar')
if l[2] == 'in' :
if l[3] == 'array' :
arg = 'const ' + typemap[l[1]] + ' *' + l[0]
else :
arg = typemap[l[1]] + ' ' + l[0]
elif l[2] == 'out' :
arg = typemap[l[1]] + ' *' + l[0]
al.append(arg)
if len(al) == 0 :
arglist = 'void'
else:
arglist = ', '.join(al)
if wrappers[w]['category'].startswith('VERSION_1_0') or wrappers[w]['category'].startswith('VERSION_1_1') :
if staticwrappers :
print 'static',
print returntype + ' __stdcall ' + funcname + 'Wrapper(' + arglist + ')'
print '{'
print '#ifdef _DEBUG'
print ' if (glxWinDebugSettings.enable' + prefix.upper() + 'callTrace) ErrorF("'+ funcname + '\\n");'
print ' glWinDirectProcCalls++;'
print '#endif'
if returntype.lower() == 'void' :
print ' ' + funcname + '(',
else :
print ' /* returntype was ' + returntype.lower() + '*/'
print ' return ' + funcname + '(',
if arglist != 'void' :
print wrappers[w]['arglist_use'],
print ');'
print "}\n"
else:
if staticwrappers :
print 'static',
print returntype + ' __stdcall ' + funcname + 'Wrapper(' + arglist + ')'
print '{'
stringname = funcname
#
# special case: Windows OpenGL implementations are far more likely to have GL_ARB_window_pos than GL_MESA_window_pos,
# so arrange for the wrapper to use the ARB strings to find functions...
#
m2 = r3.search(funcname)
if m2 :
stringname = stringname.replace('MESA','ARB')
#
# special case: likewise, implementations are more likely to have GL_ARB_vertex_program than GL_NV_vertex_program,
# especially if they are not NV implementations, so arrange for the wrapper to use ARB strings to find functions
#
m3 = r4.search(funcname)
if m3 :
stringname = stringname.replace('NV','ARB')
m4 = r5.search(funcname)
if m4 :
stringname = stringname.replace('NV','ARB')
pfntypename = 'PFN' + funcname.upper() + 'PROC'
if returntype.lower() == 'void' :
print ' RESOLVE(' + pfntypename + ', "' + stringname + '");'
print '#ifdef _DEBUG'
print ' if (glxWinDebugSettings.enable' + prefix.upper() + 'callTrace) ErrorF("'+ funcname + '\\n");'
print '#endif'
print ' RESOLVED_PROC(' + pfntypename + ')(',
else :
print ' RESOLVE_RET(' + pfntypename + ', "' + stringname + '", FALSE);'
print '#ifdef _DEBUG'
print ' if (glxWinDebugSettings.enable' + prefix.upper() + 'callTrace) ErrorF("'+ funcname + '\\n");'
print '#endif'
print ' return RESOLVED_PROC(' + pfntypename + ')(',
if arglist != 'void' :
print wrappers[w]['arglist_use'],
print ');'
print "}\n"
# generate function to setup the dispatch table, which sets each
# dispatch table entry to point to it's wrapper function
# (assuming we were able to make one)
if dispatchheader :
print 'void glWinSetupDispatchTable(void)'
print '{'
print ' struct _glapi_table *disp = _glapi_get_dispatch();'
for d in sorted(dispatch.keys()) :
if wrappers.has_key(d) :
print ' SET_'+ d + '(disp, ' + prefix + d + 'Wrapper);'
else :
print '#pragma message("No wrapper for ' + prefix + d + ' !")'
print '}'
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