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diff --git a/mesalib/src/mapi/glapi/gen-es/gl_parse_header.py b/mesalib/src/mapi/glapi/gen-es/gl_parse_header.py
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+++ b/mesalib/src/mapi/glapi/gen-es/gl_parse_header.py
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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
+import re
+
+GLAPI = "../../glapi/gen"
+sys.path.append(GLAPI)
+
+class HeaderParser(object):
+ """Parser for GL header files."""
+
+ def __init__(self, verbose=0):
+ # match #if and #ifdef
+ self.IFDEF = re.compile('#\s*if(n?def\s+(?P<ifdef>\w+)|\s+(?P<if>.+))')
+ # match #endif
+ self.ENDIF = re.compile('#\s*endif')
+ # match typedef abc def;
+ self.TYPEDEF = re.compile('typedef\s+(?P<from>[\w ]+)\s+(?P<to>\w+);')
+ # match #define XYZ VAL
+ self.DEFINE = re.compile('#\s*define\s+(?P<key>\w+)(?P<value>\s+[\w"]*)?')
+ # match GLAPI
+ self.GLAPI = re.compile('^GL_?API(CALL)?\s+(?P<return>[\w\s*]+[\w*])\s+(GL)?_?APIENTRY\s+(?P<name>\w+)\s*\((?P<params>[\w\s(,*\[\])]+)\)\s*;')
+
+ self.split_params = re.compile('\s*,\s*')
+ self.split_ctype = re.compile('(\W)')
+ # ignore GL_VERSION_X_Y
+ self.ignore_enum = re.compile('GL(_ES)?_VERSION(_ES_C[ML])?_\d_\d')
+
+ self.verbose = verbose
+ self._reset()
+
+ def _reset(self):
+ """Reset to initial state."""
+ self.ifdef_levels = []
+ self.need_char = False
+
+ # use typeexpr?
+ def _format_ctype(self, ctype, fix=True):
+ """Format a ctype string, optionally fix it."""
+ # split the type string
+ tmp = self.split_ctype.split(ctype)
+ tmp = [s for s in tmp if s and s != " "]
+
+ pretty = ""
+ for i in xrange(len(tmp)):
+ # add missing GL prefix
+ if (fix and tmp[i] != "const" and tmp[i] != "*" and
+ not tmp[i].startswith("GL")):
+ tmp[i] = "GL" + tmp[i]
+
+ if i == 0:
+ pretty = tmp[i]
+ else:
+ sep = " "
+ if tmp[i - 1] == "*":
+ sep = ""
+ pretty += sep + tmp[i]
+ return pretty
+
+ # use typeexpr?
+ def _get_ctype_attrs(self, ctype):
+ """Get the attributes of a ctype."""
+ is_float = (ctype.find("float") != -1 or ctype.find("double") != -1)
+ is_signed = not (ctype.find("unsigned") != -1)
+
+ size = 0
+ if ctype.find("char") != -1:
+ size = 1
+ elif ctype.find("short") != -1:
+ size = 2
+ elif ctype.find("int") != -1:
+ size = 4
+ elif is_float:
+ if ctype.find("float") != -1:
+ size = 4
+ else:
+ size = 8
+
+ return (size, is_float, is_signed)
+
+ def _parse_define(self, line):
+ """Parse a #define line for an <enum>."""
+ m = self.DEFINE.search(line)
+ if not m:
+ if self.verbose and line.find("#define") >= 0:
+ print "ignore %s" % (line)
+ return None
+
+ key = m.group("key").strip()
+ val = m.group("value").strip()
+
+ # enum must begin with GL_ and be all uppercase
+ if ((not (key.startswith("GL_") and key.isupper())) or
+ (self.ignore_enum.match(key) and val == "1")):
+ if self.verbose:
+ print "ignore enum %s" % (key)
+ return None
+
+ return (key, val)
+
+ def _parse_typedef(self, line):
+ """Parse a typedef line for a <type>."""
+ m = self.TYPEDEF.search(line)
+ if not m:
+ if self.verbose and line.find("typedef") >= 0:
+ print "ignore %s" % (line)
+ return None
+
+ f = m.group("from").strip()
+ t = m.group("to").strip()
+ if not t.startswith("GL"):
+ if self.verbose:
+ print "ignore type %s" % (t)
+ return None
+ attrs = self._get_ctype_attrs(f)
+
+ return (f, t, attrs)
+
+ def _parse_gl_api(self, line):
+ """Parse a GLAPI line for a <function>."""
+ m = self.GLAPI.search(line)
+ if not m:
+ if self.verbose and line.find("APIENTRY") >= 0:
+ print "ignore %s" % (line)
+ return None
+
+ rettype = m.group("return")
+ rettype = self._format_ctype(rettype)
+ if rettype == "GLvoid":
+ rettype = ""
+
+ name = m.group("name")
+
+ param_str = m.group("params")
+ chunks = self.split_params.split(param_str)
+ chunks = [s.strip() for s in chunks]
+ if len(chunks) == 1 and (chunks[0] == "void" or chunks[0] == "GLvoid"):
+ chunks = []
+
+ params = []
+ for c in chunks:
+ # split type and variable name
+ idx = c.rfind("*")
+ if idx < 0:
+ idx = c.rfind(" ")
+ if idx >= 0:
+ idx += 1
+ ctype = c[:idx]
+ var = c[idx:]
+ else:
+ ctype = c
+ var = "unnamed"
+
+ # convert array to pointer
+ idx = var.find("[")
+ if idx >= 0:
+ var = var[:idx]
+ ctype += "*"
+
+ ctype = self._format_ctype(ctype)
+ var = var.strip()
+
+ if not self.need_char and ctype.find("GLchar") >= 0:
+ self.need_char = True
+
+ params.append((ctype, var))
+
+ return (rettype, name, params)
+
+ def _change_level(self, line):
+ """Parse a #ifdef line and change level."""
+ m = self.IFDEF.search(line)
+ if m:
+ ifdef = m.group("ifdef")
+ if not ifdef:
+ ifdef = m.group("if")
+ self.ifdef_levels.append(ifdef)
+ return True
+ m = self.ENDIF.search(line)
+ if m:
+ self.ifdef_levels.pop()
+ return True
+ return False
+
+ def _read_header(self, header):
+ """Open a header file and read its contents."""
+ lines = []
+ try:
+ fp = open(header, "rb")
+ lines = fp.readlines()
+ fp.close()
+ except IOError, e:
+ print "failed to read %s: %s" % (header, e)
+ return lines
+
+ def _cmp_enum(self, enum1, enum2):
+ """Compare two enums."""
+ # sort by length of the values as strings
+ val1 = enum1[1]
+ val2 = enum2[1]
+ ret = len(val1) - len(val2)
+ # sort by the values
+ if not ret:
+ val1 = int(val1, 16)
+ val2 = int(val2, 16)
+ ret = val1 - val2
+ # in case int cannot hold the result
+ if ret > 0:
+ ret = 1
+ elif ret < 0:
+ ret = -1
+ # sort by the names
+ if not ret:
+ if enum1[0] < enum2[0]:
+ ret = -1
+ elif enum1[0] > enum2[0]:
+ ret = 1
+ return ret
+
+ def _cmp_type(self, type1, type2):
+ """Compare two types."""
+ attrs1 = type1[2]
+ attrs2 = type2[2]
+ # sort by type size
+ ret = attrs1[0] - attrs2[0]
+ # float is larger
+ if not ret:
+ ret = attrs1[1] - attrs2[1]
+ # signed is larger
+ if not ret:
+ ret = attrs1[2] - attrs2[2]
+ # reverse
+ ret = -ret
+ return ret
+
+ def _cmp_function(self, func1, func2):
+ """Compare two functions."""
+ name1 = func1[1]
+ name2 = func2[1]
+ ret = 0
+ # sort by the names
+ if name1 < name2:
+ ret = -1
+ elif name1 > name2:
+ ret = 1
+ return ret
+
+ def _postprocess_dict(self, hdict):
+ """Post-process a header dict and return an ordered list."""
+ hlist = []
+ largest = 0
+ for key, cat in hdict.iteritems():
+ size = len(cat["enums"]) + len(cat["types"]) + len(cat["functions"])
+ # ignore empty category
+ if not size:
+ continue
+
+ cat["enums"].sort(self._cmp_enum)
+ # remove duplicates
+ dup = []
+ for i in xrange(1, len(cat["enums"])):
+ if cat["enums"][i] == cat["enums"][i - 1]:
+ dup.insert(0, i)
+ for i in dup:
+ e = cat["enums"].pop(i)
+ if self.verbose:
+ print "remove duplicate enum %s" % e[0]
+
+ cat["types"].sort(self._cmp_type)
+ cat["functions"].sort(self._cmp_function)
+
+ # largest category comes first
+ if size > largest:
+ hlist.insert(0, (key, cat))
+ largest = size
+ else:
+ hlist.append((key, cat))
+ return hlist
+
+ def parse(self, header):
+ """Parse a header file."""
+ self._reset()
+
+ if self.verbose:
+ print "Parsing %s" % (header)
+
+ hdict = {}
+ lines = self._read_header(header)
+ for line in lines:
+ if self._change_level(line):
+ continue
+
+ # skip until the first ifdef (i.e. __gl_h_)
+ if not self.ifdef_levels:
+ continue
+
+ cat_name = os.path.basename(header)
+ # check if we are in an extension
+ if (len(self.ifdef_levels) > 1 and
+ self.ifdef_levels[-1].startswith("GL_")):
+ cat_name = self.ifdef_levels[-1]
+
+ try:
+ cat = hdict[cat_name]
+ except KeyError:
+ cat = {
+ "enums": [],
+ "types": [],
+ "functions": []
+ }
+ hdict[cat_name] = cat
+
+ key = "enums"
+ elem = self._parse_define(line)
+ if not elem:
+ key = "types"
+ elem = self._parse_typedef(line)
+ if not elem:
+ key = "functions"
+ elem = self._parse_gl_api(line)
+
+ if elem:
+ cat[key].append(elem)
+
+ if self.need_char:
+ if self.verbose:
+ print "define GLchar"
+ elem = self._parse_typedef("typedef char GLchar;")
+ cat["types"].append(elem)
+ return self._postprocess_dict(hdict)
+
+def spaces(n, str=""):
+ spaces = n - len(str)
+ if spaces < 1:
+ spaces = 1
+ return " " * spaces
+
+def output_xml(name, hlist):
+ """Output a parsed header in OpenGLAPI XML."""
+
+ for i in xrange(len(hlist)):
+ cat_name, cat = hlist[i]
+
+ print '<category name="%s">' % (cat_name)
+ indent = 4
+
+ for enum in cat["enums"]:
+ name = enum[0][3:]
+ value = enum[1]
+ tab = spaces(41, name)
+ attrs = 'name="%s"%svalue="%s"' % (name, tab, value)
+ print '%s<enum %s/>' % (spaces(indent), attrs)
+
+ if cat["enums"] and cat["types"]:
+ print
+
+ for type in cat["types"]:
+ ctype = type[0]
+ size, is_float, is_signed = type[2]
+
+ attrs = 'name="%s"' % (type[1][2:])
+ attrs += spaces(16, attrs) + 'size="%d"' % (size)
+ if is_float:
+ attrs += ' float="true"'
+ elif not is_signed:
+ attrs += ' unsigned="true"'
+
+ print '%s<type %s/>' % (spaces(indent), attrs)
+
+ for func in cat["functions"]:
+ print
+ ret = func[0]
+ name = func[1][2:]
+ params = func[2]
+
+ attrs = 'name="%s" offset="assign"' % name
+ print '%s<function %s>' % (spaces(indent), attrs)
+
+ for param in params:
+ attrs = 'name="%s" type="%s"' % (param[1], param[0])
+ print '%s<param %s/>' % (spaces(indent * 2), attrs)
+ if ret:
+ attrs = 'type="%s"' % ret
+ print '%s<return %s/>' % (spaces(indent * 2), attrs)
+
+ print '%s</function>' % spaces(indent)
+
+ print '</category>'
+ print
+
+def show_usage():
+ print "Usage: %s [-v] <header> ..." % sys.argv[0]
+ sys.exit(1)
+
+def main():
+ try:
+ args, headers = getopt.getopt(sys.argv[1:], "v")
+ except Exception, e:
+ show_usage()
+ if not headers:
+ show_usage()
+
+ verbose = 0
+ for arg in args:
+ if arg[0] == "-v":
+ verbose += 1
+
+ need_xml_header = True
+ parser = HeaderParser(verbose)
+ for h in headers:
+ h = os.path.abspath(h)
+ hlist = parser.parse(h)
+
+ if need_xml_header:
+ print '<?xml version="1.0"?>'
+ print '<!DOCTYPE OpenGLAPI SYSTEM "%s/gl_API.dtd">' % GLAPI
+ need_xml_header = False
+
+ print
+ print '<!-- %s -->' % (h)
+ print '<OpenGLAPI>'
+ print
+ output_xml(h, hlist)
+ print '</OpenGLAPI>'
+
+if __name__ == '__main__':
+ main()