scripts/generate_entry_points.py - platform/external/angle - Gitiles

 #!/usr/bin/python2
 #
 # Copyright 2017 The ANGLE Project Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.
 #
 # generate_entry_points.py:
 #   Generates the OpenGL bindings and entry point layers for ANGLE.

 import sys, os, pprint, json
 import xml.etree.ElementTree as etree
 from datetime import date

 template_entry_point_header = """// GENERATED FILE - DO NOT EDIT.
 // Generated by {script_name} using data from {data_source_name}.
 //
 // Copyright {year} The ANGLE Project Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.
 //
 // entry_points_gles_{major_version}_{minor_version}_autogen.h:
 //   Defines the GLES {major_version}.{minor_version} entry points.

 #ifndef LIBGLESV2_ENTRYPOINTSGLES{major_version}{minor_version}_AUTOGEN_H_
 #define LIBGLESV2_ENTRYPOINTSGLES{major_version}{minor_version}_AUTOGEN_H_

 #include <GLES{major_version}/gl{major_version}{minor_version_nonzero}.h>
 #include <export.h>
 {include_platform}
 namespace gl
 {{
 {entry_points}
 }}  // namespace gl

 #endif  // LIBGLESV2_ENTRYPOINTSGLES{major_version}{minor_version}_AUTOGEN_H_
 """

 template_entry_point_source = """// GENERATED FILE - DO NOT EDIT.
 // Generated by {script_name} using data from {data_source_name}.
 //
 // Copyright {year} The ANGLE Project Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.
 //
 // entry_points_gles_{major_version}_{minor_version}_autogen.cpp:
 //   Defines the GLES {major_version}.{minor_version} entry points.

 #include "libANGLE/Context.h"
 #include "libANGLE/validationES{major_version}{minor_version_nonzero}.h"
 #include "libGLESv2/global_state.h"

 namespace gl
 {{
 {entry_points}}}  // namespace gl
 """

 template_entry_points_enum_header = """// GENERATED FILE - DO NOT EDIT.
 // Generated by {script_name} using data from {data_source_name}.
 //
 // Copyright {year} The ANGLE Project Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.
 //
 // entry_points_enum_autogen.h:
 //   Defines the GLES entry points enumeration.

 #ifndef LIBGLESV2_ENTRYPOINTSENUM_AUTOGEN_H_
 #define LIBGLESV2_ENTRYPOINTSENUM_AUTOGEN_H_

 namespace gl
 {{
 enum class EntryPoint
 {{
 {entry_points_list}
 }};
 }}  // namespace gl
 #endif  // LIBGLESV2_ENTRY_POINTS_ENUM_AUTOGEN_H_
 """

 template_entry_point_decl = """ANGLE_EXPORT {return_type}GL_APIENTRY {name}({params});"""

 template_entry_point_def = """{return_type}GL_APIENTRY {name}({params})
 {{
     EVENT("({format_params})"{comma_if_needed}{pass_params});

     Context *context = {context_getter}();
     if (context)
     {{{packed_gl_enum_conversions}
         context->gatherParams<EntryPoint::{name}>({internal_params});

         if (context->skipValidation() || Validate{name}({validate_params}))
         {{
             {return_if_needed}context->{name_lower}({internal_params});
         }}
     }}
 {default_return_if_needed}}}
 """

 template_entry_point_def_oldstyle = """{return_type}GL_APIENTRY {name}({params})
 {{
     EVENT("({format_params})"{comma_if_needed}{pass_params});

     Context *context = {context_getter}();
     if (context)
     {{
         if (!context->skipValidation() && !Validate{name}({validate_params}))
         {{
             return{default_value_if_needed};
         }}

         {return_if_needed}context->{name_lower}({pass_params});
     }}
 {default_return_if_needed}}}
 """

 def script_relative(path):
     return os.path.join(os.path.dirname(sys.argv[0]), path)

 tree = etree.parse(script_relative('gl.xml'))
 root = tree.getroot()
 commands = root.find(".//commands[@namespace='GL']")
 cmd_names = []

 with open(script_relative('entry_point_packed_gl_enums.json')) as f:
     cmd_packed_gl_enums = json.loads(f.read())

 def format_entry_point_decl(cmd_name, proto, params):
     return template_entry_point_decl.format(
         name = cmd_name[2:],
         return_type = proto[:-len(cmd_name)],
         params = ", ".join(params))

 def type_name_sep_index(param):
     space = param.rfind(" ")
     pointer = param.rfind("*")
     return max(space, pointer)

 def just_the_type(param):
     return param[:type_name_sep_index(param)]

 def just_the_name(param):
     return param[type_name_sep_index(param)+1:]

 def just_the_name_packed(param, reserved_set):
     name = just_the_name(param)
     if name in reserved_set:
         return name + 'Packed'
     else:
         return name

 format_dict = {
     "GLbitfield": "0x%X",
     "GLboolean": "%u",
     "GLenum": "0x%X",
     "GLfloat": "%f",
     "GLint": "%d",
     "GLintptr": "%d",
     "GLsizei": "%d",
     "GLsizeiptr": "%d",
     "GLsync": "0x%0.8p",
     "GLuint": "%u",
     "GLuint64": "%llu"
 }

 def param_format_string(param):
     if "*" in param:
         return param + " = 0x%0.8p"
     else:
         type_only = just_the_type(param)
         if type_only not in format_dict:
             raise Exception(type_only + " is not a known type in 'format_dict'")

         return param + " = " + format_dict[type_only]

 def default_return_value(cmd_name, return_type):
     if return_type == "void":
         return ""
     return "GetDefaultReturnValue<EntryPoint::" + cmd_name[2:] + ", " + return_type + ">()"

 def get_context_getter_function(cmd_name):
     if cmd_name == "glGetError":
         return "GetGlobalContext"
     else:
         return "GetValidGlobalContext"

 def format_entry_point_def(cmd_name, proto, params):
     packed_gl_enums = cmd_packed_gl_enums.get(cmd_name, {})
     internal_params = [just_the_name_packed(param, packed_gl_enums) for param in params]
     packed_gl_enum_conversions = []
     for param in params:
         name = just_the_name(param)
         if name in packed_gl_enums:
             internal_name = name + "Packed"
             internal_type = packed_gl_enums[name]
             packed_gl_enum_conversions += ["\n        " + internal_type + " " + internal_name +" = FromGLenum<" +
                                           internal_type + ">(" + name + ");"]

     pass_params = [just_the_name(param) for param in params]
     format_params = [param_format_string(param) for param in params]
     return_type = proto[:-len(cmd_name)]
     default_return = default_return_value(cmd_name, return_type.strip())
     return template_entry_point_def.format(
         name = cmd_name[2:],
         name_lower = cmd_name[2:3].lower() + cmd_name[3:],
         return_type = return_type,
         params = ", ".join(params),
         internal_params = ", ".join(internal_params),
         packed_gl_enum_conversions = "".join(packed_gl_enum_conversions),
         pass_params = ", ".join(pass_params),
         comma_if_needed = ", " if len(params) > 0 else "",
         validate_params = ", ".join(["context"] + internal_params),
         format_params = ", ".join(format_params),
         return_if_needed = "" if default_return == "" else "return ",
         default_return_if_needed = "" if default_return == "" else "\n    return " + default_return + ";\n",
         context_getter = get_context_getter_function(cmd_name))

 def format_entry_point_def_oldstyle(cmd_name, proto, params):
     pass_params = [just_the_name(param) for param in params]
     format_params = [param_format_string(param) for param in params]
     return_type = proto[:-len(cmd_name)]
     default_return = default_return_value(cmd_name, return_type.strip())
     return template_entry_point_def_oldstyle.format(
         name = cmd_name[2:],
         name_lower = cmd_name[2:3].lower() + cmd_name[3:],
         return_type = return_type,
         params = ", ".join(params),
         pass_params = ", ".join(pass_params),
         comma_if_needed = ", " if len(params) > 0 else "",
         validate_params = ", ".join(["context"] + pass_params),
         format_params = ", ".join(format_params),
         return_if_needed = "" if default_return == "" else "return ",
         default_return_if_needed = "" if default_return == "" else "\n    return " + default_return + ";\n",
         default_value_if_needed = "" if default_return == "" else (" " + default_return),
         context_getter = get_context_getter_function(cmd_name))

 def path_to(folder, file):
     return os.path.join(script_relative(".."), "src", folder, file)

 all_commands = root.findall('commands/command')

 for major_version, minor_version in [[2, 0], [3, 0], [3, 1]]:
     gles_xpath = ".//feature[@name='GL_ES_VERSION_{}_{}']//command".format(major_version, minor_version)
     gles_commands = [cmd.attrib['name'] for cmd in root.findall(gles_xpath)]

     entry_point_decls = []
     entry_point_defs = []

     for command in all_commands:
         proto = command.find('proto')
         cmd_name = proto.find('name').text

         if cmd_name not in gles_commands:
             continue

         param_text = ["".join(param.itertext()) for param in command.findall('param')]
         proto_text = "".join(proto.itertext())
         cmd_names += [cmd_name]
         entry_point_decls += [format_entry_point_decl(cmd_name, proto_text, param_text)]
         entry_point_defs += [format_entry_point_def(cmd_name, proto_text, param_text)]

     for type in ["header", "source"]:
         if type == "header":
             template = template_entry_point_header
             entry_points = "\n".join(entry_point_decls)
             suffix = "h"
         else:
             template = template_entry_point_source
             entry_points = "\n".join(entry_point_defs)
             suffix = "cpp"

         if type == "header" and major_version == 3 and minor_version == 1:
             # We include the platform.h header since it undefines the conflicting MemoryBarrier macro.
             include_platform = "\n#include \"common/platform.h\"\n"
         else:
             include_platform = ""

         content = template.format(
             script_name = os.path.basename(sys.argv[0]),
             data_source_name = "gl.xml",
             year = date.today().year,
             major_version = major_version,
             minor_version = minor_version,
             minor_version_nonzero = minor_version if minor_version else "",
             include_platform = include_platform,
             entry_points = entry_points)

         path = path_to("libGLESv2", "entry_points_gles_{}_{}_autogen.{}".format(major_version, minor_version, suffix))

         with open(path, "w") as out:
             out.write(content)
             out.close()

 # TODO(jmadill): Remove manually added entry points once we auto-gen them.
 manual_cmd_names = ["Invalid"] + [cmd[2:] for cmd in sorted(cmd_names)] + ["DrawElementsInstancedANGLE"]
 entry_points_enum = template_entry_points_enum_header.format(
     script_name = os.path.basename(sys.argv[0]),
     data_source_name = "gl.xml",
     year = date.today().year,
     entry_points_list = ",\n".join(["    " + cmd for cmd in manual_cmd_names]))

 entry_points_enum_header_path = path_to("libANGLE", "entry_points_enum_autogen.h")
 with open(entry_points_enum_header_path, "w") as out:
     out.write(entry_points_enum)
     out.close()
	#!/usr/bin/python2
	#
	# Copyright 2017 The ANGLE Project Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.
	#
	# generate_entry_points.py:
	# Generates the OpenGL bindings and entry point layers for ANGLE.

	import sys, os, pprint, json
	import xml.etree.ElementTree as etree
	from datetime import date

	template_entry_point_header = """// GENERATED FILE - DO NOT EDIT.
	// Generated by {script_name} using data from {data_source_name}.
	//
	// Copyright {year} The ANGLE Project Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.
	//
	// entry_points_gles_{major_version}_{minor_version}_autogen.h:
	// Defines the GLES {major_version}.{minor_version} entry points.

	#ifndef LIBGLESV2_ENTRYPOINTSGLES{major_version}{minor_version}_AUTOGEN_H_
	#define LIBGLESV2_ENTRYPOINTSGLES{major_version}{minor_version}_AUTOGEN_H_

	#include <GLES{major_version}/gl{major_version}{minor_version_nonzero}.h>
	#include <export.h>
	{include_platform}
	namespace gl
	{{
	{entry_points}
	}} // namespace gl

	#endif // LIBGLESV2_ENTRYPOINTSGLES{major_version}{minor_version}_AUTOGEN_H_
	"""

	template_entry_point_source = """// GENERATED FILE - DO NOT EDIT.
	// Generated by {script_name} using data from {data_source_name}.
	//
	// Copyright {year} The ANGLE Project Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.
	//
	// entry_points_gles_{major_version}_{minor_version}_autogen.cpp:
	// Defines the GLES {major_version}.{minor_version} entry points.

	#include "libANGLE/Context.h"
	#include "libANGLE/validationES{major_version}{minor_version_nonzero}.h"
	#include "libGLESv2/global_state.h"

	namespace gl
	{{
	{entry_points}}} // namespace gl
	"""

	template_entry_points_enum_header = """// GENERATED FILE - DO NOT EDIT.
	// Generated by {script_name} using data from {data_source_name}.
	//
	// Copyright {year} The ANGLE Project Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.
	//
	// entry_points_enum_autogen.h:
	// Defines the GLES entry points enumeration.

	#ifndef LIBGLESV2_ENTRYPOINTSENUM_AUTOGEN_H_
	#define LIBGLESV2_ENTRYPOINTSENUM_AUTOGEN_H_

	namespace gl
	{{
	enum class EntryPoint
	{{
	{entry_points_list}
	}};
	}} // namespace gl
	#endif // LIBGLESV2_ENTRY_POINTS_ENUM_AUTOGEN_H_
	"""

	template_entry_point_decl = """ANGLE_EXPORT {return_type}GL_APIENTRY {name}({params});"""

	template_entry_point_def = """{return_type}GL_APIENTRY {name}({params})
	{{
	EVENT("({format_params})"{comma_if_needed}{pass_params});

	Context *context = {context_getter}();
	if (context)
	{{{packed_gl_enum_conversions}
	context->gatherParams<EntryPoint::{name}>({internal_params});

	if (context->skipValidation() \|\| Validate{name}({validate_params}))
	{{
	{return_if_needed}context->{name_lower}({internal_params});
	}}
	}}
	{default_return_if_needed}}}
	"""

	template_entry_point_def_oldstyle = """{return_type}GL_APIENTRY {name}({params})
	{{
	EVENT("({format_params})"{comma_if_needed}{pass_params});

	Context *context = {context_getter}();
	if (context)
	{{
	if (!context->skipValidation() && !Validate{name}({validate_params}))
	{{
	return{default_value_if_needed};
	}}

	{return_if_needed}context->{name_lower}({pass_params});
	}}
	{default_return_if_needed}}}
	"""

	def script_relative(path):
	return os.path.join(os.path.dirname(sys.argv[0]), path)

	tree = etree.parse(script_relative('gl.xml'))
	root = tree.getroot()
	commands = root.find(".//commands[@namespace='GL']")
	cmd_names = []

	with open(script_relative('entry_point_packed_gl_enums.json')) as f:
	cmd_packed_gl_enums = json.loads(f.read())

	def format_entry_point_decl(cmd_name, proto, params):
	return template_entry_point_decl.format(
	name = cmd_name[2:],
	return_type = proto[:-len(cmd_name)],
	params = ", ".join(params))

	def type_name_sep_index(param):
	space = param.rfind(" ")
	pointer = param.rfind("*")
	return max(space, pointer)

	def just_the_type(param):
	return param[:type_name_sep_index(param)]

	def just_the_name(param):
	return param[type_name_sep_index(param)+1:]

	def just_the_name_packed(param, reserved_set):
	name = just_the_name(param)
	if name in reserved_set:
	return name + 'Packed'
	else:
	return name

	format_dict = {
	"GLbitfield": "0x%X",
	"GLboolean": "%u",
	"GLenum": "0x%X",
	"GLfloat": "%f",
	"GLint": "%d",
	"GLintptr": "%d",
	"GLsizei": "%d",
	"GLsizeiptr": "%d",
	"GLsync": "0x%0.8p",
	"GLuint": "%u",
	"GLuint64": "%llu"
	}

	def param_format_string(param):
	if "*" in param:
	return param + " = 0x%0.8p"
	else:
	type_only = just_the_type(param)
	if type_only not in format_dict:
	raise Exception(type_only + " is not a known type in 'format_dict'")

	return param + " = " + format_dict[type_only]

	def default_return_value(cmd_name, return_type):
	if return_type == "void":
	return ""
	return "GetDefaultReturnValue<EntryPoint::" + cmd_name[2:] + ", " + return_type + ">()"

	def get_context_getter_function(cmd_name):
	if cmd_name == "glGetError":
	return "GetGlobalContext"
	else:
	return "GetValidGlobalContext"

	def format_entry_point_def(cmd_name, proto, params):
	packed_gl_enums = cmd_packed_gl_enums.get(cmd_name, {})
	internal_params = [just_the_name_packed(param, packed_gl_enums) for param in params]
	packed_gl_enum_conversions = []
	for param in params:
	name = just_the_name(param)
	if name in packed_gl_enums:
	internal_name = name + "Packed"
	internal_type = packed_gl_enums[name]
	packed_gl_enum_conversions += ["\n " + internal_type + " " + internal_name +" = FromGLenum<" +
	internal_type + ">(" + name + ");"]

	pass_params = [just_the_name(param) for param in params]
	format_params = [param_format_string(param) for param in params]
	return_type = proto[:-len(cmd_name)]
	default_return = default_return_value(cmd_name, return_type.strip())
	return template_entry_point_def.format(
	name = cmd_name[2:],
	name_lower = cmd_name[2:3].lower() + cmd_name[3:],
	return_type = return_type,
	params = ", ".join(params),
	internal_params = ", ".join(internal_params),
	packed_gl_enum_conversions = "".join(packed_gl_enum_conversions),
	pass_params = ", ".join(pass_params),
	comma_if_needed = ", " if len(params) > 0 else "",
	validate_params = ", ".join(["context"] + internal_params),
	format_params = ", ".join(format_params),
	return_if_needed = "" if default_return == "" else "return ",
	default_return_if_needed = "" if default_return == "" else "\n return " + default_return + ";\n",
	context_getter = get_context_getter_function(cmd_name))

	def format_entry_point_def_oldstyle(cmd_name, proto, params):
	pass_params = [just_the_name(param) for param in params]
	format_params = [param_format_string(param) for param in params]
	return_type = proto[:-len(cmd_name)]
	default_return = default_return_value(cmd_name, return_type.strip())
	return template_entry_point_def_oldstyle.format(
	name = cmd_name[2:],
	name_lower = cmd_name[2:3].lower() + cmd_name[3:],
	return_type = return_type,
	params = ", ".join(params),
	pass_params = ", ".join(pass_params),
	comma_if_needed = ", " if len(params) > 0 else "",
	validate_params = ", ".join(["context"] + pass_params),
	format_params = ", ".join(format_params),
	return_if_needed = "" if default_return == "" else "return ",
	default_return_if_needed = "" if default_return == "" else "\n return " + default_return + ";\n",
	default_value_if_needed = "" if default_return == "" else (" " + default_return),
	context_getter = get_context_getter_function(cmd_name))

	def path_to(folder, file):
	return os.path.join(script_relative(".."), "src", folder, file)

	all_commands = root.findall('commands/command')

	for major_version, minor_version in [[2, 0], [3, 0], [3, 1]]:
	gles_xpath = ".//feature[@name='GL_ES_VERSION_{}_{}']//command".format(major_version, minor_version)
	gles_commands = [cmd.attrib['name'] for cmd in root.findall(gles_xpath)]

	entry_point_decls = []
	entry_point_defs = []

	for command in all_commands:
	proto = command.find('proto')
	cmd_name = proto.find('name').text

	if cmd_name not in gles_commands:
	continue

	param_text = ["".join(param.itertext()) for param in command.findall('param')]
	proto_text = "".join(proto.itertext())
	cmd_names += [cmd_name]
	entry_point_decls += [format_entry_point_decl(cmd_name, proto_text, param_text)]
	entry_point_defs += [format_entry_point_def(cmd_name, proto_text, param_text)]

	for type in ["header", "source"]:
	if type == "header":
	template = template_entry_point_header
	entry_points = "\n".join(entry_point_decls)
	suffix = "h"
	else:
	template = template_entry_point_source
	entry_points = "\n".join(entry_point_defs)
	suffix = "cpp"

	if type == "header" and major_version == 3 and minor_version == 1:
	# We include the platform.h header since it undefines the conflicting MemoryBarrier macro.
	include_platform = "\n#include \"common/platform.h\"\n"
	else:
	include_platform = ""

	content = template.format(
	script_name = os.path.basename(sys.argv[0]),
	data_source_name = "gl.xml",
	year = date.today().year,
	major_version = major_version,
	minor_version = minor_version,
	minor_version_nonzero = minor_version if minor_version else "",
	include_platform = include_platform,
	entry_points = entry_points)

	path = path_to("libGLESv2", "entry_points_gles_{}_{}_autogen.{}".format(major_version, minor_version, suffix))

	with open(path, "w") as out:
	out.write(content)
	out.close()

	# TODO(jmadill): Remove manually added entry points once we auto-gen them.
	manual_cmd_names = ["Invalid"] + [cmd[2:] for cmd in sorted(cmd_names)] + ["DrawElementsInstancedANGLE"]
	entry_points_enum = template_entry_points_enum_header.format(
	script_name = os.path.basename(sys.argv[0]),
	data_source_name = "gl.xml",
	year = date.today().year,
	entry_points_list = ",\n".join([" " + cmd for cmd in manual_cmd_names]))

	entry_points_enum_header_path = path_to("libANGLE", "entry_points_enum_autogen.h")
	with open(entry_points_enum_header_path, "w") as out:
	out.write(entry_points_enum)
	out.close()