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Diffstat (limited to 'src/mesa/glapi/gl_XML.py')
-rw-r--r-- | src/mesa/glapi/gl_XML.py | 813 |
1 files changed, 0 insertions, 813 deletions
diff --git a/src/mesa/glapi/gl_XML.py b/src/mesa/glapi/gl_XML.py deleted file mode 100644 index 11b23b7a867..00000000000 --- a/src/mesa/glapi/gl_XML.py +++ /dev/null @@ -1,813 +0,0 @@ -#!/usr/bin/env python - -# (C) Copyright IBM Corporation 2004, 2005 -# All Rights Reserved. -# -# 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. -# -# Authors: -# Ian Romanick <[email protected]> - -import libxml2 -import re, sys, string -import typeexpr - - -def parse_GL_API( file_name, factory = None ): - doc = libxml2.readFile( file_name, None, libxml2.XML_PARSE_XINCLUDE + libxml2.XML_PARSE_NOBLANKS + libxml2.XML_PARSE_DTDVALID + libxml2.XML_PARSE_DTDATTR + libxml2.XML_PARSE_DTDLOAD + libxml2.XML_PARSE_NOENT ) - ret = doc.xincludeProcess() - - if not factory: - factory = gl_item_factory() - - api = factory.create_item( "api", None, None ) - api.process_element( doc ) - - doc.freeDoc() - - return api - - -def is_attr_true( element, name ): - """Read a name value from an element's attributes. - - The value read from the attribute list must be either 'true' or - 'false'. If the value is 'false', zero will be returned. If the - value is 'true', non-zero will be returned. An exception will be - raised for any other value.""" - - value = element.nsProp( name, None ) - if value == "true": - return 1 - elif value == "false": - return 0 - else: - raise RuntimeError('Invalid value "%s" for boolean "%s".' % (value, name)) - - -class gl_print_base: - """Base class of all API pretty-printers. - - In the model-view-controller pattern, this is the view. Any derived - class will want to over-ride the printBody, printRealHader, and - printRealFooter methods. Some derived classes may want to over-ride - printHeader and printFooter, or even Print (though this is unlikely). - """ - - def __init__(self): - # Name of the script that is generating the output file. - # Every derived class should set this to the name of its - # source file. - - self.name = "a" - - - # License on the *generated* source file. This may differ - # from the license on the script that is generating the file. - # Every derived class should set this to some reasonable - # value. - # - # See license.py for an example of a reasonable value. - - self.license = "The license for this file is unspecified." - - - # The header_tag is the name of the C preprocessor define - # used to prevent multiple inclusion. Typically only - # generated C header files need this to be set. Setting it - # causes code to be generated automatically in printHeader - # and printFooter. - - self.header_tag = None - - - # List of file-private defines that must be undefined at the - # end of the file. This can be used in header files to define - # names for use in the file, then undefine them at the end of - # the header file. - - self.undef_list = [] - return - - - def Print(self, api): - self.printHeader() - self.printBody(api) - self.printFooter() - return - - - def printHeader(self): - """Print the header associated with all files and call the printRealHeader method.""" - - print '/* DO NOT EDIT - This file generated automatically by %s script */' \ - % (self.name) - print '' - print '/*' - print ' * ' + self.license.replace('\n', '\n * ') - print ' */' - print '' - if self.header_tag: - print '#if !defined( %s )' % (self.header_tag) - print '# define %s' % (self.header_tag) - print '' - self.printRealHeader(); - return - - - def printFooter(self): - """Print the header associated with all files and call the printRealFooter method.""" - - self.printRealFooter() - - if self.undef_list: - print '' - for u in self.undef_list: - print "# undef %s" % (u) - - if self.header_tag: - print '' - print '#endif /* !defined( %s ) */' % (self.header_tag) - - - def printRealHeader(self): - """Print the "real" header for the created file. - - In the base class, this function is empty. All derived - classes should over-ride this function.""" - return - - - def printRealFooter(self): - """Print the "real" footer for the created file. - - In the base class, this function is empty. All derived - classes should over-ride this function.""" - return - - - def printPure(self): - """Conditionally define `PURE' function attribute. - - Conditionally defines a preprocessor macro `PURE' that wraps - GCC's `pure' function attribute. The conditional code can be - easilly adapted to other compilers that support a similar - feature. - - The name is also added to the file's undef_list. - """ - self.undef_list.append("PURE") - print """# if __GNUC__ > 2 || (__GNUC__ == 2 && __GNUC_MINOR__ >= 96) -# define PURE __attribute__((pure)) -# else -# define PURE -# endif""" - return - - - def printFastcall(self): - """Conditionally define `FASTCALL' function attribute. - - Conditionally defines a preprocessor macro `FASTCALL' that - wraps GCC's `fastcall' function attribute. The conditional - code can be easilly adapted to other compilers that support a - similar feature. - - The name is also added to the file's undef_list. - """ - - self.undef_list.append("FASTCALL") - print """# if defined(__i386__) && defined(__GNUC__) && !defined(__CYGWIN__) && !defined(__MINGW32__) -# define FASTCALL __attribute__((fastcall)) -# else -# define FASTCALL -# endif""" - return - - - def printVisibility(self, S, s): - """Conditionally define visibility function attribute. - - Conditionally defines a preprocessor macro name S that wraps - GCC's visibility function attribute. The visibility used is - the parameter s. The conditional code can be easilly adapted - to other compilers that support a similar feature. - - The name is also added to the file's undef_list. - """ - - self.undef_list.append(S) - print """# if (__GNUC__ > 3 || (__GNUC__ == 3 && __GNUC_MINOR__ >= 3)) && defined(__ELF__) -# define %s __attribute__((visibility("%s"))) -# else -# define %s -# endif""" % (S, s, S) - return - - - def printNoinline(self): - """Conditionally define `NOINLINE' function attribute. - - Conditionally defines a preprocessor macro `NOINLINE' that - wraps GCC's `noinline' function attribute. The conditional - code can be easilly adapted to other compilers that support a - similar feature. - - The name is also added to the file's undef_list. - """ - - self.undef_list.append("NOINLINE") - print """# if defined(__GNUC__) -# define NOINLINE __attribute__((noinline)) -# else -# define NOINLINE -# endif""" - return - - -def real_function_name(element): - name = element.nsProp( "name", None ) - alias = element.nsProp( "alias", None ) - - if alias: - return alias - else: - return name - - -def real_category_name(c): - if re.compile("[1-9][0-9]*[.][0-9]+").match(c): - return "GL_VERSION_" + c.replace(".", "_") - else: - return c - - -def create_parameter_string(parameters, include_names): - """Create a parameter string from a list of gl_parameters.""" - - list = [] - for p in parameters: - if include_names: - list.append( p.string() ) - else: - list.append( p.type_string() ) - - if len(list) == 0: list = ["void"] - - return string.join(list, ", ") - - -class gl_item: - def __init__(self, element, context): - self.context = context - self.name = element.nsProp( "name", None ) - self.category = real_category_name( element.parent.nsProp( "name", None ) ) - return - - -class gl_type( gl_item ): - def __init__(self, element, context): - gl_item.__init__(self, element, context) - self.size = int( element.nsProp( "size", None ), 0 ) - - te = typeexpr.type_expression( None ) - tn = typeexpr.type_node() - tn.size = int( element.nsProp( "size", None ), 0 ) - tn.integer = not is_attr_true( element, "float" ) - tn.unsigned = is_attr_true( element, "unsigned" ) - tn.name = "GL" + self.name - te.set_base_type_node( tn ) - - self.type_expr = te - return - - - def get_type_expression(self): - return self.type_expr - - -class gl_enum( gl_item ): - def __init__(self, element, context): - gl_item.__init__(self, element, context) - self.value = int( element.nsProp( "value", None ), 0 ) - - temp = element.nsProp( "count", None ) - if not temp or temp == "?": - self.default_count = -1 - else: - try: - c = int(temp) - except Exception,e: - raise RuntimeError('Invalid count value "%s" for enum "%s" in function "%s" when an integer was expected.' % (temp, self.name, n)) - - self.default_count = c - - return - - - def priority(self): - """Calculate a 'priority' for this enum name. - - When an enum is looked up by number, there may be many - possible names, but only one is the 'prefered' name. The - priority is used to select which name is the 'best'. - - Highest precedence is given to core GL name. ARB extension - names have the next highest, followed by EXT extension names. - Vendor extension names are the lowest. - """ - - if self.name.endswith( "_BIT" ): - bias = 1 - else: - bias = 0 - - if self.category.startswith( "GL_VERSION_" ): - priority = 0 - elif self.category.startswith( "GL_ARB_" ): - priority = 2 - elif self.category.startswith( "GL_EXT_" ): - priority = 4 - else: - priority = 6 - - return priority + bias - - - -class gl_parameter: - def __init__(self, element, context): - self.name = element.nsProp( "name", None ) - - ts = element.nsProp( "type", None ) - self.type_expr = typeexpr.type_expression( ts, context ) - - temp = element.nsProp( "variable_param", None ) - if temp: - self.count_parameter_list = temp.split( ' ' ) - else: - self.count_parameter_list = [] - - # The count tag can be either a numeric string or the name of - # a variable. If it is the name of a variable, the int(c) - # statement will throw an exception, and the except block will - # take over. - - c = element.nsProp( "count", None ) - try: - count = int(c) - self.count = count - self.counter = None - except Exception,e: - count = 1 - self.count = 0 - self.counter = c - - self.count_scale = int(element.nsProp( "count_scale", None )) - - elements = (count * self.count_scale) - if elements == 1: - elements = 0 - - #if ts == "GLdouble": - # print '/* stack size -> %s = %u (before)*/' % (self.name, self.type_expr.get_stack_size()) - # print '/* # elements = %u */' % (elements) - self.type_expr.set_elements( elements ) - #if ts == "GLdouble": - # print '/* stack size -> %s = %u (after) */' % (self.name, self.type_expr.get_stack_size()) - - self.is_counter = is_attr_true( element, 'counter' ) - self.is_output = is_attr_true( element, 'output' ) - - - # Pixel data has special parameters. - - self.width = element.nsProp('img_width', None) - self.height = element.nsProp('img_height', None) - self.depth = element.nsProp('img_depth', None) - self.extent = element.nsProp('img_extent', None) - - self.img_xoff = element.nsProp('img_xoff', None) - self.img_yoff = element.nsProp('img_yoff', None) - self.img_zoff = element.nsProp('img_zoff', None) - self.img_woff = element.nsProp('img_woff', None) - - self.img_format = element.nsProp('img_format', None) - self.img_type = element.nsProp('img_type', None) - self.img_target = element.nsProp('img_target', None) - - self.img_pad_dimensions = is_attr_true( element, 'img_pad_dimensions' ) - self.img_null_flag = is_attr_true( element, 'img_null_flag' ) - self.img_send_null = is_attr_true( element, 'img_send_null' ) - - return - - - def compatible(self, other): - return 1 - - - def is_array(self): - return self.is_pointer() - - - def is_pointer(self): - return self.type_expr.is_pointer() - - - def is_image(self): - if self.width: - return 1 - else: - return 0 - - - def is_variable_length(self): - return len(self.count_parameter_list) or self.counter - - - def is_64_bit(self): - count = self.type_expr.get_element_count() - if count: - if (self.size() / count) == 8: - return 1 - else: - if self.size() == 8: - return 1 - - return 0 - - - def string(self): - return self.type_expr.original_string + " " + self.name - - - def type_string(self): - return self.type_expr.original_string - - - def get_base_type_string(self): - return self.type_expr.get_base_name() - - - def get_dimensions(self): - if not self.width: - return [ 0, "0", "0", "0", "0" ] - - dim = 1 - w = self.width - h = "1" - d = "1" - e = "1" - - if self.height: - dim = 2 - h = self.height - - if self.depth: - dim = 3 - d = self.depth - - if self.extent: - dim = 4 - e = self.extent - - return [ dim, w, h, d, e ] - - - def get_stack_size(self): - return self.type_expr.get_stack_size() - - - def size(self): - if self.is_image(): - return 0 - else: - return self.type_expr.get_element_size() - - - def get_element_count(self): - c = self.type_expr.get_element_count() - if c == 0: - return 1 - - return c - - - def size_string(self, use_parens = 1): - s = self.size() - if self.counter or self.count_parameter_list: - list = [ "compsize" ] - - if self.counter and self.count_parameter_list: - list.append( self.counter ) - elif self.counter: - list = [ self.counter ] - - if s > 1: - list.append( str(s) ) - - if len(list) > 1 and use_parens : - return "(%s)" % (string.join(list, " * ")) - else: - return string.join(list, " * ") - - elif self.is_image(): - return "compsize" - else: - return str(s) - - - def format_string(self): - if self.type_expr.original_string == "GLenum": - return "0x%x" - else: - return self.type_expr.format_string() - - - -class gl_function( gl_item ): - def __init__(self, element, context): - self.context = context - self.name = None - - self.entry_points = [] - self.return_type = "void" - self.parameters = [] - self.offset = -1 - self.initialized = 0 - self.images = [] - - # Track the parameter string (for the function prototype) - # for each entry-point. This is done because some functions - # change their prototype slightly when promoted from extension - # to ARB extension to core. glTexImage3DEXT and glTexImage3D - # are good examples of this. Scripts that need to generate - # code for these differing aliases need to real prototype - # for each entry-point. Otherwise, they may generate code - # that won't compile. - - self.parameter_strings = {} - - self.process_element( element ) - - return - - - def process_element(self, element): - name = element.nsProp( "name", None ) - alias = element.nsProp( "alias", None ) - - self.entry_points.append( name ) - if alias: - true_name = alias - else: - true_name = name - - # Only try to set the offset when a non-alias - # entry-point is being processes. - - offset = element.nsProp( "offset", None ) - if offset: - try: - o = int( offset ) - self.offset = o - except Exception, e: - self.offset = -1 - - - if not self.name: - self.name = true_name - elif self.name != true_name: - raise RuntimeError("Function true name redefined. Was %s, now %s." % (self.name, true_name)) - - - # There are two possible cases. The first time an entry-point - # with data is seen, self.initialized will be 0. On that - # pass, we just fill in the data. The next time an - # entry-point with data is seen, self.initialized will be 1. - # On that pass we have to make that the new values match the - # valuse from the previous entry-point. - - parameters = [] - return_type = "void" - child = element.children - while child: - if child.type == "element": - if child.name == "return": - return_type = child.nsProp( "type", None ) - elif child.name == "param": - param = self.context.factory.create_item( "parameter", child, self.context) - parameters.append( param ) - - child = child.next - - - if self.initialized: - if self.return_type != return_type: - raise RuntimeError( "Return type changed in %s. Was %s, now %s." % (name, self.return_type, return_type)) - - if len(parameters) != len(self.parameters): - raise RuntimeError( "Parameter count mismatch in %s. Was %d, now %d." % (name, len(self.parameters), len(parameters))) - - for j in range(0, len(parameters)): - p1 = parameters[j] - p2 = self.parameters[j] - if not p1.compatible( p2 ): - raise RuntimeError( 'Parameter type mismatch in %s. "%s" was "%s", now "%s".' % (name, p2.name, p2.type_expr.original_string, p1.type_expr.original_string)) - - - if true_name == name or not self.initialized: - self.return_type = return_type - self.parameters = parameters - - for param in self.parameters: - if param.is_image(): - self.images.append( param ) - - if element.children: - self.initialized = 1 - self.parameter_strings[name] = create_parameter_string(parameters, 1) - else: - self.parameter_strings[name] = None - - return - - - def get_images(self): - """Return potentially empty list of input images.""" - return self.images - - - def parameterIterator(self): - return self.parameters.__iter__(); - - - def get_parameter_string(self, entrypoint = None): - if entrypoint: - s = self.parameter_strings[ entrypoint ] - if s: - return s - - return create_parameter_string( self.parameters, 1 ) - - -class gl_item_factory: - """Factory to create objects derived from gl_item.""" - - def create_item(self, item_name, element, context): - if item_name == "function": - return gl_function(element, context) - if item_name == "type": - return gl_type(element, context) - elif item_name == "enum": - return gl_enum(element, context) - elif item_name == "parameter": - return gl_parameter(element, context) - elif item_name == "api": - return gl_api(self) - else: - return None - - -class gl_api: - def __init__(self, factory): - self.functions_by_name = {} - self.enums_by_name = {} - self.types_by_name = {} - self.category_dict = {} - - self.factory = factory - - typeexpr.create_initial_types() - return - - - def process_element(self, doc): - element = doc.children - while element.type != "element" or element.name != "OpenGLAPI": - element = element.next - - if element: - self.process_OpenGLAPI(element) - return - - - def process_OpenGLAPI(self, element): - child = element.children - while child: - if child.type == "element": - if child.name == "category": - self.process_category( child ) - elif child.name == "OpenGLAPI": - self.process_OpenGLAPI( child ) - - child = child.next - - return - - - def process_category(self, cat): - cat_name = cat.nsProp( "name", None ) - cat_number = cat.nsProp( "number", None ) - - child = cat.children - while child: - if child.type == "element": - if child.name == "function": - func_name = real_function_name( child ) - - temp_name = child.nsProp( "name", None ) - self.category_dict[ temp_name ] = [cat_name, cat_number] - - if self.functions_by_name.has_key( func_name ): - func = self.functions_by_name[ func_name ] - func.process_element( child ) - else: - func = self.factory.create_item( "function", child, self ) - self.functions_by_name[ func_name ] = func - - - elif child.name == "enum": - enum = self.factory.create_item( "enum", child, self ) - self.enums_by_name[ enum.name ] = enum - elif child.name == "type": - t = self.factory.create_item( "type", child, self ) - self.types_by_name[ "GL" + t.name ] = t - - - child = child.next - - return - - - def functionIterateByOffset(self): - max_offset = -1 - for func in self.functions_by_name.itervalues(): - if func.offset > max_offset: - max_offset = func.offset - - - temp = [None for i in range(0, max_offset + 1)] - for func in self.functions_by_name.itervalues(): - if func.offset != -1: - temp[ func.offset ] = func - - - list = [] - for i in range(0, max_offset + 1): - if temp[i]: - list.append(temp[i]) - - return list.__iter__(); - - - def functionIterateAll(self): - return self.functions_by_name.itervalues() - - - def enumIterateByName(self): - keys = self.enums_by_name.keys() - keys.sort() - - list = [] - for enum in keys: - list.append( self.enums_by_name[ enum ] ) - - return list.__iter__() - - - def get_category_for_name( self, name ): - if self.category_dict.has_key(name): - return self.category_dict[name] - else: - return ["<unknown category>", None] - - - def typeIterate(self): - return self.types_by_name.itervalues() - - - def find_type( self, type_name ): - if type_name in self.types_by_name: - return self.types_by_name[ type_name ].type_expr - else: - print "Unable to find base type matching \"%s\"." % (type_name) - return None |