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chromium / experimental / angle / angle / refs/heads/upstream/chromium/4817 / . / scripts / generate_entry_points.py
blob: 2fded3e10c769404f0b128a1afc5081d76777f44 [file] [log] [blame]
#!/usr/bin/python3
#
# 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.
# NOTE: don't run this script directly. Run scripts/run_code_generation.py.
import sys, os, pprint, json
import registry_xml
from registry_xml import apis, script_relative, strip_api_prefix
# Paths
CL_STUBS_HEADER_PATH = "../src/libGLESv2/cl_stubs_autogen.h"
EGL_GET_LABELED_OBJECT_DATA_PATH = "../src/libGLESv2/egl_get_labeled_object_data.json"
EGL_STUBS_HEADER_PATH = "../src/libGLESv2/egl_stubs_autogen.h"
EGL_EXT_STUBS_HEADER_PATH = "../src/libGLESv2/egl_ext_stubs_autogen.h"
# List of GLES1 extensions for which we don't need to add Context.h decls.
GLES1_NO_CONTEXT_DECL_EXTENSIONS = [
"GL_OES_framebuffer_object",
]
# This is a list of exceptions for entry points which don't want to have
# the EVENT macro. This is required for some debug marker entry points.
NO_EVENT_MARKER_EXCEPTIONS_LIST = sorted([
"glPushGroupMarkerEXT",
"glPopGroupMarkerEXT",
"glInsertEventMarkerEXT",
])
# glRenderbufferStorageMultisampleEXT aliases glRenderbufferStorageMultisample on desktop GL, and is
# marked as such in the registry. However, that is not correct for GLES where this entry point
# comes from GL_EXT_multisampled_render_to_texture which is never promoted to core GLES.
ALIASING_EXCEPTIONS = [
'glRenderbufferStorageMultisampleEXT',
'renderbufferStorageMultisampleEXT',
]
# These are the entry points which potentially are used first by an application
# and require that the back ends are initialized before the front end is called.
INIT_DICT = {
"clGetPlatformIDs": "false",
"clGetPlatformInfo": "false",
"clGetDeviceIDs": "false",
"clCreateContext": "false",
"clCreateContextFromType": "false",
"clIcdGetPlatformIDsKHR": "true",
}
# Strip these suffixes from Context entry point names. NV is excluded (for now).
STRIP_SUFFIXES = ["ANDROID", "ANGLE", "EXT", "KHR", "OES", "CHROMIUM", "OVR"]
TEMPLATE_ENTRY_POINT_HEADER = """\
// GENERATED FILE - DO NOT EDIT.
// Generated by {script_name} using data from {data_source_name}.
//
// Copyright 2020 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_{annotation_lower}_autogen.h:
// Defines the {comment} entry points.
#ifndef {lib}_ENTRY_POINTS_{annotation_upper}_AUTOGEN_H_
#define {lib}_ENTRY_POINTS_{annotation_upper}_AUTOGEN_H_
{includes}
{entry_points}
#endif // {lib}_ENTRY_POINTS_{annotation_upper}_AUTOGEN_H_
"""
TEMPLATE_ENTRY_POINT_SOURCE = """\
// GENERATED FILE - DO NOT EDIT.
// Generated by {script_name} using data from {data_source_name}.
//
// Copyright 2020 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_{annotation_lower}_autogen.cpp:
// Defines the {comment} entry points.
{includes}
{entry_points}
"""
TEMPLATE_ENTRY_POINTS_ENUM_HEADER = """\
// GENERATED FILE - DO NOT EDIT.
// Generated by {script_name} using data from {data_source_name}.
//
// Copyright 2020 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 {lib} entry points enumeration.
#ifndef COMMON_ENTRYPOINTSENUM_AUTOGEN_H_
#define COMMON_ENTRYPOINTSENUM_AUTOGEN_H_
namespace angle
{{
enum class EntryPoint
{{
{entry_points_list}
}};
const char *GetEntryPointName(EntryPoint ep);
}} // namespace angle
#endif // COMMON_ENTRY_POINTS_ENUM_AUTOGEN_H_
"""
TEMPLATE_ENTRY_POINTS_NAME_CASE = """\
case EntryPoint::{enum}:
return "{cmd}";"""
TEMPLATE_ENTRY_POINTS_ENUM_SOURCE = """\
// GENERATED FILE - DO NOT EDIT.
// Generated by {script_name} using data from {data_source_name}.
//
// Copyright 2020 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.cpp:
// Helper methods for the {lib} entry points enumeration.
#include "common/entry_points_enum_autogen.h"
#include "common/debug.h"
namespace angle
{{
const char *GetEntryPointName(EntryPoint ep)
{{
switch (ep)
{{
{entry_points_name_cases}
default:
UNREACHABLE();
return "error";
}}
}}
}} // namespace angle
"""
TEMPLATE_LIB_ENTRY_POINT_SOURCE = """\
// GENERATED FILE - DO NOT EDIT.
// Generated by {script_name} using data from {data_source_name}.
//
// Copyright 2020 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.
//
// {lib_name}_autogen.cpp: Implements the exported {lib_description} functions.
{includes}
extern "C" {{
{entry_points}
}} // extern "C"
"""
TEMPLATE_ENTRY_POINT_DECL = """{angle_export}{return_type} {export_def} {name}({params});"""
TEMPLATE_GLES_ENTRY_POINT_NO_RETURN = """\
void GL_APIENTRY GL_{name}({params})
{{
Context *context = {context_getter};
{event_comment}EVENT(context, GL{name}, "context = %d{comma_if_needed}{format_params}", CID(context){comma_if_needed}{pass_params});
if ({valid_context_check})
{{{packed_gl_enum_conversions}
std::unique_lock<angle::GlobalMutex> shareContextLock = GetContextLock(context);
bool isCallValid = (context->skipValidation() || Validate{name}({validate_params}));
if (isCallValid)
{{
context->{name_lower_no_suffix}({internal_params});
}}
ANGLE_CAPTURE({name}, isCallValid, {capture_params});
}}
else
{{
{constext_lost_error_generator}
}}
}}
"""
TEMPLATE_GLES_ENTRY_POINT_WITH_RETURN = """\
{return_type} GL_APIENTRY GL_{name}({params})
{{
Context *context = {context_getter};
{event_comment}EVENT(context, GL{name}, "context = %d{comma_if_needed}{format_params}", CID(context){comma_if_needed}{pass_params});
{return_type} returnValue;
if ({valid_context_check})
{{{packed_gl_enum_conversions}
std::unique_lock<angle::GlobalMutex> shareContextLock = GetContextLock(context);
bool isCallValid = (context->skipValidation() || Validate{name}({validate_params}));
if (isCallValid)
{{
returnValue = context->{name_lower_no_suffix}({internal_params});
}}
else
{{
returnValue = GetDefaultReturnValue<angle::EntryPoint::GL{name}, {return_type}>();
}}
ANGLE_CAPTURE({name}, isCallValid, {capture_params}, returnValue);
}}
else
{{
{constext_lost_error_generator}
returnValue = GetDefaultReturnValue<angle::EntryPoint::GL{name}, {return_type}>();
}}
return returnValue;
}}
"""
TEMPLATE_EGL_ENTRY_POINT_NO_RETURN = """\
void EGLAPIENTRY EGL_{name}({params})
{{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT({name}, "{format_params}"{comma_if_needed}{pass_params});
Thread *thread = egl::GetCurrentThread();
{packed_gl_enum_conversions}
ANGLE_EGL_VALIDATE_VOID(thread, {name}, {labeled_object}, {internal_params});
{name}(thread{comma_if_needed}{internal_params});
}}
"""
TEMPLATE_EGL_ENTRY_POINT_WITH_RETURN = """\
{return_type} EGLAPIENTRY EGL_{name}({params})
{{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT({name}, "{format_params}"{comma_if_needed}{pass_params});
Thread *thread = egl::GetCurrentThread();
{packed_gl_enum_conversions}
ANGLE_EGL_VALIDATE(thread, {name}, {labeled_object}, {return_type}{comma_if_needed}{internal_params});
return {name}(thread{comma_if_needed}{internal_params});
}}
"""
TEMPLATE_CL_ENTRY_POINT_NO_RETURN = """\
void CL_API_CALL cl{name}({params})
{{
CL_EVENT({name}, "{format_params}"{comma_if_needed}{pass_params});
{packed_gl_enum_conversions}
ANGLE_CL_VALIDATE_VOID({name}{comma_if_needed}{internal_params});
{name}({internal_params});
}}
"""
TEMPLATE_CL_ENTRY_POINT_WITH_RETURN_ERROR = """\
cl_int CL_API_CALL cl{name}({params})
{{{initialization}
CL_EVENT({name}, "{format_params}"{comma_if_needed}{pass_params});
{packed_gl_enum_conversions}
ANGLE_CL_VALIDATE_ERROR({name}{comma_if_needed}{internal_params});
return {name}({internal_params});
}}
"""
TEMPLATE_CL_ENTRY_POINT_WITH_ERRCODE_RET = """\
{return_type} CL_API_CALL cl{name}({params})
{{{initialization}
CL_EVENT({name}, "{format_params}"{comma_if_needed}{pass_params});
{packed_gl_enum_conversions}
ANGLE_CL_VALIDATE_ERRCODE_RET({name}{comma_if_needed}{internal_params});
cl_int errorCode = CL_SUCCESS;
{return_type} object = {name}({internal_params}, errorCode);
ASSERT((errorCode == CL_SUCCESS) == (object != nullptr));
if (errcode_ret != nullptr)
{{
*errcode_ret = errorCode;
}}
return object;
}}
"""
TEMPLATE_CL_ENTRY_POINT_WITH_RETURN_POINTER = """\
{return_type} CL_API_CALL cl{name}({params})
{{{initialization}
CL_EVENT({name}, "{format_params}"{comma_if_needed}{pass_params});
{packed_gl_enum_conversions}
ANGLE_CL_VALIDATE_POINTER({name}{comma_if_needed}{internal_params});
return {name}({internal_params});
}}
"""
TEMPLATE_CL_STUBS_HEADER = """\
// GENERATED FILE - DO NOT EDIT.
// Generated by {script_name} using data from {data_source_name}.
//
// Copyright 2021 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.
//
// {annotation_lower}_stubs_autogen.h: Stubs for {title} entry points.
#ifndef LIBGLESV2_{annotation_upper}_STUBS_AUTOGEN_H_
#define LIBGLESV2_{annotation_upper}_STUBS_AUTOGEN_H_
#include "libANGLE/CLtypes.h"
namespace cl
{{
{stubs}
}} // namespace cl
#endif // LIBGLESV2_{annotation_upper}_STUBS_AUTOGEN_H_
"""
TEMPLATE_EGL_STUBS_HEADER = """\
// GENERATED FILE - DO NOT EDIT.
// Generated by {script_name} using data from {data_source_name}.
//
// Copyright 2020 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.
//
// {annotation_lower}_stubs_autogen.h: Stubs for {title} entry points.
#ifndef LIBGLESV2_{annotation_upper}_STUBS_AUTOGEN_H_
#define LIBGLESV2_{annotation_upper}_STUBS_AUTOGEN_H_
#include <EGL/egl.h>
#include <EGL/eglext.h>
#include "common/PackedEGLEnums_autogen.h"
namespace gl
{{
class Context;
}} // namespace gl
namespace egl
{{
class AttributeMap;
class Device;
class Display;
class Image;
class Stream;
class Surface;
class Sync;
class Thread;
struct Config;
{stubs}
}} // namespace egl
#endif // LIBGLESV2_{annotation_upper}_STUBS_AUTOGEN_H_
"""
CONTEXT_HEADER = """\
// GENERATED FILE - DO NOT EDIT.
// Generated by {script_name} using data from {data_source_name}.
//
// Copyright 2020 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.
//
// Context_{annotation_lower}_autogen.h: Creates a macro for interfaces in Context.
#ifndef ANGLE_CONTEXT_{annotation_upper}_AUTOGEN_H_
#define ANGLE_CONTEXT_{annotation_upper}_AUTOGEN_H_
#define ANGLE_{annotation_upper}_CONTEXT_API \\
{interface}
#endif // ANGLE_CONTEXT_API_{version}_AUTOGEN_H_
"""
CONTEXT_DECL_FORMAT = """ {return_type} {name_lower_no_suffix}({internal_params}){maybe_const}; \\"""
TEMPLATE_CL_ENTRY_POINT_EXPORT = """\
{return_type} CL_API_CALL cl{name}({params})
{{
return cl::GetDispatch().cl{name}({internal_params});
}}
"""
TEMPLATE_GL_ENTRY_POINT_EXPORT = """\
{return_type} GL_APIENTRY gl{name}({params})
{{
return GL_{name}({internal_params});
}}
"""
TEMPLATE_EGL_ENTRY_POINT_EXPORT = """\
{return_type} EGLAPIENTRY egl{name}({params})
{{
EnsureEGLLoaded();
return EGL_{name}({internal_params});
}}
"""
TEMPLATE_GLEXT_FUNCTION_POINTER = """typedef {return_type}(GL_APIENTRYP PFN{name_upper}PROC)({params});"""
TEMPLATE_GLEXT_FUNCTION_PROTOTYPE = """{apicall} {return_type}GL_APIENTRY {name}({params});"""
TEMPLATE_GL_VALIDATION_HEADER = """\
// GENERATED FILE - DO NOT EDIT.
// Generated by {script_name} using data from {data_source_name}.
//
// Copyright 2020 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.
//
// validation{annotation}_autogen.h:
// Validation functions for the OpenGL {comment} entry points.
#ifndef LIBANGLE_VALIDATION_{annotation}_AUTOGEN_H_
#define LIBANGLE_VALIDATION_{annotation}_AUTOGEN_H_
#include "common/entry_points_enum_autogen.h"
#include "common/PackedEnums.h"
namespace gl
{{
class Context;
{prototypes}
}} // namespace gl
#endif // LIBANGLE_VALIDATION_{annotation}_AUTOGEN_H_
"""
TEMPLATE_CL_VALIDATION_HEADER = """\
// GENERATED FILE - DO NOT EDIT.
// Generated by {script_name} using data from {data_source_name}.
//
// Copyright 2021 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.
//
// validation{annotation}_autogen.h:
// Validation functions for the {comment} entry points.
#ifndef LIBANGLE_VALIDATION_{annotation}_AUTOGEN_H_
#define LIBANGLE_VALIDATION_{annotation}_AUTOGEN_H_
#include "libANGLE/validationCL.h"
namespace cl
{{
{prototypes}
}} // namespace cl
#endif // LIBANGLE_VALIDATION_{annotation}_AUTOGEN_H_
"""
TEMPLATE_EGL_VALIDATION_HEADER = """\
// GENERATED FILE - DO NOT EDIT.
// Generated by {script_name} using data from {data_source_name}.
//
// Copyright 2020 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.
//
// validation{annotation}_autogen.h:
// Validation functions for the {comment} entry points.
#ifndef LIBANGLE_VALIDATION_{annotation}_AUTOGEN_H_
#define LIBANGLE_VALIDATION_{annotation}_AUTOGEN_H_
#include "libANGLE/validationEGL.h"
namespace egl
{{
{prototypes}
}} // namespace egl
#endif // LIBANGLE_VALIDATION_{annotation}_AUTOGEN_H_
"""
TEMPLATE_CAPTURE_HEADER = """\
// GENERATED FILE - DO NOT EDIT.
// Generated by {script_name} using data from {data_source_name}.
//
// Copyright 2020 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.
//
// capture_gles_{annotation_lower}_autogen.h:
// Capture functions for the OpenGL ES {comment} entry points.
#ifndef LIBANGLE_CAPTURE_GLES_{annotation_upper}_AUTOGEN_H_
#define LIBANGLE_CAPTURE_GLES_{annotation_upper}_AUTOGEN_H_
#include "common/PackedEnums.h"
#include "libANGLE/capture/FrameCapture.h"
namespace gl
{{
{prototypes}
}} // namespace gl
#endif // LIBANGLE_CAPTURE_GLES_{annotation_upper}_AUTOGEN_H_
"""
TEMPLATE_CAPTURE_SOURCE = """\
// GENERATED FILE - DO NOT EDIT.
// Generated by {script_name} using data from {data_source_name}.
//
// Copyright 2020 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.
//
// capture_gles_{annotation_with_dash}_autogen.cpp:
// Capture functions for the OpenGL ES {comment} entry points.
#include "libANGLE/capture/capture_gles_{annotation_with_dash}_autogen.h"
#include "libANGLE/Context.h"
#include "libANGLE/capture/FrameCapture.h"
#include "libANGLE/capture/gl_enum_utils.h"
#include "libANGLE/validation{annotation_no_dash}.h"
using namespace angle;
namespace gl
{{
{capture_methods}
}} // namespace gl
"""
TEMPLATE_CAPTURE_METHOD_WITH_RETURN_VALUE = """
CallCapture Capture{short_name}({params_with_type}, {return_value_type_original} returnValue)
{{
ParamBuffer paramBuffer;
{parameter_captures}
ParamCapture returnValueCapture("returnValue", ParamType::T{return_value_type_custom});
InitParamValue(ParamType::T{return_value_type_custom}, returnValue, &returnValueCapture.value);
paramBuffer.addReturnValue(std::move(returnValueCapture));
return CallCapture(angle::EntryPoint::GL{short_name}, std::move(paramBuffer));
}}
"""
TEMPLATE_CAPTURE_METHOD_NO_RETURN_VALUE = """
CallCapture Capture{short_name}({params_with_type})
{{
ParamBuffer paramBuffer;
{parameter_captures}
return CallCapture(angle::EntryPoint::GL{short_name}, std::move(paramBuffer));
}}
"""
TEMPLATE_PARAMETER_CAPTURE_VALUE = """paramBuffer.addValueParam("{name}", ParamType::T{type}, {name});"""
TEMPLATE_PARAMETER_CAPTURE_GL_ENUM = """paramBuffer.addEnumParam("{name}", GLenumGroup::{group}, ParamType::T{type}, {name});"""
TEMPLATE_PARAMETER_CAPTURE_POINTER = """
if (isCallValid)
{{
ParamCapture {name}Param("{name}", ParamType::T{type});
InitParamValue(ParamType::T{type}, {name}, &{name}Param.value);
{capture_name}({params}, &{name}Param);
paramBuffer.addParam(std::move({name}Param));
}}
else
{{
ParamCapture {name}Param("{name}", ParamType::T{type});
InitParamValue(ParamType::T{type}, static_cast<{cast_type}>(nullptr), &{name}Param.value);
paramBuffer.addParam(std::move({name}Param));
}}
"""
TEMPLATE_PARAMETER_CAPTURE_POINTER_FUNC = """void {name}({params});"""
TEMPLATE_CAPTURE_REPLAY_SOURCE = """\
// GENERATED FILE - DO NOT EDIT.
// Generated by {script_name} using data from {data_source_name}.
//
// Copyright 2020 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.
//
// frame_capture_replay_autogen.cpp:
// Util function to dispatch captured GL calls through Context and replay them.
#include "angle_gl.h"
#include "common/debug.h"
#include "common/debug.h"
#include "libANGLE/Context.h"
#include "libANGLE/Context.inl.h"
#include "libANGLE/capture/FrameCapture.h"
using namespace gl;
namespace angle
{{
void FrameCaptureShared::ReplayCall(gl::Context *context,
ReplayContext *replayContext,
const CallCapture &call)
{{
const ParamBuffer &params = call.params;
switch (call.entryPoint)
{{
{call_replay_cases}
default:
UNREACHABLE();
}}
}}
}} // namespace angle
"""
TEMPLATE_CAPTURE_REPLAY_CALL_CASE = """case angle::EntryPoint::GL{entry_point}:
context->{context_call}({param_value_access});break;"""
POINTER_FORMAT = "0x%016\" PRIxPTR \""
UNSIGNED_LONG_LONG_FORMAT = "%llu"
HEX_LONG_LONG_FORMAT = "0x%llX"
FORMAT_DICT = {
"GLbitfield": "%s",
"GLboolean": "%s",
"GLbyte": "%d",
"GLclampx": "0x%X",
"GLDEBUGPROC": POINTER_FORMAT,
"GLDEBUGPROCKHR": POINTER_FORMAT,
"GLdouble": "%f",
"GLeglClientBufferEXT": POINTER_FORMAT,
"GLeglImageOES": POINTER_FORMAT,
"GLenum": "%s",
"GLfixed": "0x%X",
"GLfloat": "%f",
"GLint": "%d",
"GLintptr": UNSIGNED_LONG_LONG_FORMAT,
"GLshort": "%d",
"GLsizei": "%d",
"GLsizeiptr": UNSIGNED_LONG_LONG_FORMAT,
"GLsync": POINTER_FORMAT,
"GLubyte": "%d",
"GLuint": "%u",
"GLuint64": UNSIGNED_LONG_LONG_FORMAT,
"GLushort": "%u",
"int": "%d",
# EGL-specific types
"EGLConfig": POINTER_FORMAT,
"EGLContext": POINTER_FORMAT,
"EGLDisplay": POINTER_FORMAT,
"EGLSurface": POINTER_FORMAT,
"EGLSync": POINTER_FORMAT,
"EGLNativeDisplayType": POINTER_FORMAT,
"EGLNativePixmapType": POINTER_FORMAT,
"EGLNativeWindowType": POINTER_FORMAT,
"EGLClientBuffer": POINTER_FORMAT,
"EGLenum": "0x%X",
"EGLint": "%d",
"EGLImage": POINTER_FORMAT,
"EGLTime": UNSIGNED_LONG_LONG_FORMAT,
"EGLGetBlobFuncANDROID": POINTER_FORMAT,
"EGLSetBlobFuncANDROID": POINTER_FORMAT,
"EGLuint64KHR": UNSIGNED_LONG_LONG_FORMAT,
"EGLSyncKHR": POINTER_FORMAT,
"EGLnsecsANDROID": UNSIGNED_LONG_LONG_FORMAT,
"EGLDeviceEXT": POINTER_FORMAT,
"EGLDEBUGPROCKHR": POINTER_FORMAT,
"EGLObjectKHR": POINTER_FORMAT,
"EGLLabelKHR": POINTER_FORMAT,
"EGLTimeKHR": UNSIGNED_LONG_LONG_FORMAT,
"EGLImageKHR": POINTER_FORMAT,
"EGLStreamKHR": POINTER_FORMAT,
"EGLFrameTokenANGLE": HEX_LONG_LONG_FORMAT,
# WGL-specific types
"BOOL": "%u",
"DWORD": POINTER_FORMAT,
"FLOAT": "%f",
"HDC": POINTER_FORMAT,
"HENHMETAFILE": POINTER_FORMAT,
"HGLRC": POINTER_FORMAT,
"LPCSTR": POINTER_FORMAT,
"LPGLYPHMETRICSFLOAT": POINTER_FORMAT,
"UINT": "%u",
# CL-specific types
"size_t": "%zu",
"cl_char": "%hhd",
"cl_uchar": "%hhu",
"cl_short": "%hd",
"cl_ushort": "%hu",
"cl_int": "%d",
"cl_uint": "%u",
"cl_long": "%lld",
"cl_ulong": "%llu",
"cl_half": "%hu",
"cl_float": "%f",
"cl_double": "%f",
"cl_platform_id": POINTER_FORMAT,
"cl_device_id": POINTER_FORMAT,
"cl_context": POINTER_FORMAT,
"cl_command_queue": POINTER_FORMAT,
"cl_mem": POINTER_FORMAT,
"cl_program": POINTER_FORMAT,
"cl_kernel": POINTER_FORMAT,
"cl_event": POINTER_FORMAT,
"cl_sampler": POINTER_FORMAT,
"cl_bool": "%u",
"cl_bitfield": "%llu",
"cl_properties": "%llu",
"cl_device_type": "%llu",
"cl_platform_info": "%u",
"cl_device_info": "%u",
"cl_device_fp_config": "%llu",
"cl_device_mem_cache_type": "%u",
"cl_device_local_mem_type": "%u",
"cl_device_exec_capabilities": "%llu",
"cl_device_svm_capabilities": "%llu",
"cl_command_queue_properties": "%llu",
"cl_device_partition_property": "%zu",
"cl_device_affinity_domain": "%llu",
"cl_context_properties": "%zu",
"cl_context_info": "%u",
"cl_queue_properties": "%llu",
"cl_command_queue_info": "%u",
"cl_channel_order": "%u",
"cl_channel_type": "%u",
"cl_mem_flags": "%llu",
"cl_svm_mem_flags": "%llu",
"cl_mem_object_type": "%u",
"cl_mem_info": "%u",
"cl_mem_migration_flags": "%llu",
"cl_mem_properties": "%llu",
"cl_image_info": "%u",
"cl_buffer_create_type": "%u",
"cl_addressing_mode": "%u",
"cl_filter_mode": "%u",
"cl_sampler_info": "%u",
"cl_map_flags": "%llu",
"cl_pipe_properties": "%zu",
"cl_pipe_info": "%u",
"cl_program_info": "%u",
"cl_program_build_info": "%u",
"cl_program_binary_type": "%u",
"cl_build_status": "%d",
"cl_kernel_info": "%u",
"cl_kernel_arg_info": "%u",
"cl_kernel_arg_address_qualifier": "%u",
"cl_kernel_arg_access_qualifier": "%u",
"cl_kernel_arg_type_qualifier": "%llu",
"cl_kernel_work_group_info": "%u",
"cl_kernel_sub_group_info": "%u",
"cl_event_info": "%u",
"cl_command_type": "%u",
"cl_profiling_info": "%u",
"cl_sampler_properties": "%llu",
"cl_kernel_exec_info": "%u",
"cl_device_atomic_capabilities": "%llu",
"cl_khronos_vendor_id": "%u",
"cl_version": "%u",
"cl_device_device_enqueue_capabilities": "%llu",
}
TEMPLATE_HEADER_INCLUDES = """\
#include <GLES{major}/gl{major}{minor}.h>
#include <export.h>"""
TEMPLATE_SOURCES_INCLUDES = """\
#include "libGLESv2/entry_points_{header_version}_autogen.h"
#include "common/entry_points_enum_autogen.h"
#include "libANGLE/Context.h"
#include "libANGLE/Context.inl.h"
#include "libANGLE/capture/capture_{header_version}_autogen.h"
#include "libANGLE/capture/gl_enum_utils.h"
#include "libANGLE/validation{validation_header_version}.h"
#include "libANGLE/entry_points_utils.h"
#include "libGLESv2/global_state.h"
using namespace gl;
"""
GLES_EXT_HEADER_INCLUDES = TEMPLATE_HEADER_INCLUDES.format(
major="", minor="") + """
#include <GLES/glext.h>
#include <GLES2/gl2.h>
#include <GLES2/gl2ext.h>
#include <GLES3/gl32.h>
"""
GLES_EXT_SOURCE_INCLUDES = TEMPLATE_SOURCES_INCLUDES.format(
header_version="gles_ext", validation_header_version="ESEXT") + """
#include "libANGLE/capture/capture_gles_1_0_autogen.h"
#include "libANGLE/capture/capture_gles_2_0_autogen.h"
#include "libANGLE/capture/capture_gles_3_0_autogen.h"
#include "libANGLE/capture/capture_gles_3_1_autogen.h"
#include "libANGLE/capture/capture_gles_3_2_autogen.h"
#include "libANGLE/validationES1.h"
#include "libANGLE/validationES2.h"
#include "libANGLE/validationES3.h"
#include "libANGLE/validationES31.h"
#include "libANGLE/validationES32.h"
using namespace gl;
"""
DESKTOP_GL_HEADER_INCLUDES = """\
#include <export.h>
#include "angle_gl.h"
"""
TEMPLATE_DESKTOP_GL_SOURCE_INCLUDES = """\
#include "libGL/entry_points_{}_autogen.h"
#include "libANGLE/Context.h"
#include "libANGLE/Context.inl.h"
#include "libANGLE/capture/gl_enum_utils.h"
#include "libANGLE/validationEGL.h"
#include "libANGLE/validationES.h"
#include "libANGLE/validationES1.h"
#include "libANGLE/validationES2.h"
#include "libANGLE/validationES3.h"
#include "libANGLE/validationES31.h"
#include "libANGLE/validationES32.h"
#include "libANGLE/validationESEXT.h"
#include "libANGLE/validationGL{}_autogen.h"
#include "libANGLE/entry_points_utils.h"
#include "libGLESv2/global_state.h"
using namespace gl;
"""
EGL_HEADER_INCLUDES = """\
#include <EGL/egl.h>
#include <export.h>
"""
EGL_SOURCE_INCLUDES = """\
#include "libGLESv2/entry_points_egl_autogen.h"
#include "libANGLE/entry_points_utils.h"
#include "libANGLE/validationEGL_autogen.h"
#include "libGLESv2/egl_stubs_autogen.h"
#include "libGLESv2/global_state.h"
using namespace egl;
"""
EGL_EXT_HEADER_INCLUDES = """\
#include <EGL/egl.h>
#include <EGL/eglext.h>
#include <export.h>
"""
EGL_EXT_SOURCE_INCLUDES = """\
#include "libGLESv2/entry_points_egl_ext_autogen.h"
#include "libANGLE/entry_points_utils.h"
#include "libANGLE/validationEGL_autogen.h"
#include "libGLESv2/egl_ext_stubs_autogen.h"
#include "libGLESv2/global_state.h"
using namespace egl;
"""
LIBCL_EXPORT_INCLUDES = """
#include "libOpenCL/dispatch.h"
"""
LIBGLESV2_EXPORT_INCLUDES = """
#include "angle_gl.h"
#include "libGLESv2/entry_points_gles_1_0_autogen.h"
#include "libGLESv2/entry_points_gles_2_0_autogen.h"
#include "libGLESv2/entry_points_gles_3_0_autogen.h"
#include "libGLESv2/entry_points_gles_3_1_autogen.h"
#include "libGLESv2/entry_points_gles_3_2_autogen.h"
#include "libGLESv2/entry_points_gles_ext_autogen.h"
#include "common/event_tracer.h"
"""
LIBGL_EXPORT_INCLUDES = """
#include "angle_gl.h"
#include "libGL/entry_points_gl_1_autogen.h"
#include "libGL/entry_points_gl_2_autogen.h"
#include "libGL/entry_points_gl_3_autogen.h"
#include "libGL/entry_points_gl_4_autogen.h"
#include "common/event_tracer.h"
"""
LIBEGL_EXPORT_INCLUDES_AND_PREAMBLE = """
#include "anglebase/no_destructor.h"
#include "common/system_utils.h"
#include <memory>
#if defined(ANGLE_USE_EGL_LOADER)
# include "libEGL/egl_loader_autogen.h"
#else
# include "libGLESv2/entry_points_egl_autogen.h"
# include "libGLESv2/entry_points_egl_ext_autogen.h"
#endif // defined(ANGLE_USE_EGL_LOADER)
namespace
{
#if defined(ANGLE_USE_EGL_LOADER)
bool gLoaded = false;
std::unique_ptr<angle::Library> &EntryPointsLib()
{
static angle::base::NoDestructor<std::unique_ptr<angle::Library>> sEntryPointsLib;
return *sEntryPointsLib;
}
angle::GenericProc KHRONOS_APIENTRY GlobalLoad(const char *symbol)
{
return reinterpret_cast<angle::GenericProc>(EntryPointsLib()->getSymbol(symbol));
}
void EnsureEGLLoaded()
{
if (gLoaded)
{
return;
}
std::string errorOut;
EntryPointsLib().reset(angle::OpenSharedLibraryAndGetError(
ANGLE_GLESV2_LIBRARY_NAME, angle::SearchType::ModuleDir, &errorOut));
angle::LoadEGL_EGL(GlobalLoad);
if (!EGL_GetPlatformDisplay)
{
fprintf(stderr, "Error loading EGL entry points: %s\\n", errorOut.c_str());
}
else
{
gLoaded = true;
}
}
#else
void EnsureEGLLoaded() {}
#endif // defined(ANGLE_USE_EGL_LOADER)
} // anonymous namespace
"""
LIBCL_HEADER_INCLUDES = """\
#include "angle_cl.h"
"""
LIBCL_SOURCE_INCLUDES = """\
#include "libGLESv2/entry_points_cl_autogen.h"
#include "libANGLE/validationCL_autogen.h"
#include "libGLESv2/cl_stubs_autogen.h"
#include "libGLESv2/entry_points_cl_utils.h"
"""
TEMPLATE_EVENT_COMMENT = """\
// Don't run the EVENT() macro on the EXT_debug_marker entry points.
// It can interfere with the debug events being set by the caller.
// """
TEMPLATE_CAPTURE_PROTO = "angle::CallCapture Capture%s(%s);"
TEMPLATE_VALIDATION_PROTO = "%s Validate%s(%s);"
TEMPLATE_WINDOWS_DEF_FILE = """\
; GENERATED FILE - DO NOT EDIT.
; Generated by {script_name} using data from {data_source_name}.
;
; Copyright 2020 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.
LIBRARY {lib}
EXPORTS
{exports}
"""
TEMPLATE_FRAME_CAPTURE_UTILS_HEADER = """\
// GENERATED FILE - DO NOT EDIT.
// Generated by {script_name} using data from {data_source_name}.
//
// Copyright 2020 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.
//
// frame_capture_utils_autogen.h:
// ANGLE Frame capture types and helper functions.
#ifndef LIBANGLE_FRAME_CAPTURE_UTILS_AUTOGEN_H_
#define LIBANGLE_FRAME_CAPTURE_UTILS_AUTOGEN_H_
#include "common/PackedEnums.h"
namespace angle
{{
enum class ParamType
{{
{param_types}
}};
constexpr uint32_t kParamTypeCount = {param_type_count};
union ParamValue
{{
{param_union_values}
}};
template <ParamType PType, typename T>
T GetParamVal(const ParamValue &value);
{get_param_val_specializations}
template <ParamType PType, typename T>
T GetParamVal(const ParamValue &value)
{{
UNREACHABLE();
return T();
}}
template <typename T>
T AccessParamValue(ParamType paramType, const ParamValue &value)
{{
switch (paramType)
{{
{access_param_value_cases}
}}
UNREACHABLE();
return T();
}}
template <ParamType PType, typename T>
void SetParamVal(T valueIn, ParamValue *valueOut);
{set_param_val_specializations}
template <ParamType PType, typename T>
void SetParamVal(T valueIn, ParamValue *valueOut)
{{
UNREACHABLE();
}}
template <typename T>
void InitParamValue(ParamType paramType, T valueIn, ParamValue *valueOut)
{{
switch (paramType)
{{
{init_param_value_cases}
}}
}}
struct CallCapture;
struct ParamCapture;
void WriteParamCaptureReplay(std::ostream &os, const CallCapture &call, const ParamCapture &param);
const char *ParamTypeToString(ParamType paramType);
enum class ResourceIDType
{{
{resource_id_types}
}};
ResourceIDType GetResourceIDTypeFromParamType(ParamType paramType);
const char *GetResourceIDTypeName(ResourceIDType resourceIDType);
template <typename ResourceType>
struct GetResourceIDTypeFromType;
{type_to_resource_id_type_structs}
}} // namespace angle
#endif // LIBANGLE_FRAME_CAPTURE_UTILS_AUTOGEN_H_
"""
TEMPLATE_FRAME_CAPTURE_UTILS_SOURCE = """\
// GENERATED FILE - DO NOT EDIT.
// Generated by {script_name} using data from {data_source_name}.
//
// Copyright 2020 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.
//
// frame_capture_utils_autogen.cpp:
// ANGLE Frame capture types and helper functions.
#include "libANGLE/capture/frame_capture_utils_autogen.h"
#include "libANGLE/capture/FrameCapture.h"
namespace angle
{{
void WriteParamCaptureReplay(std::ostream &os, const CallCapture &call, const ParamCapture &param)
{{
switch (param.type)
{{
{write_param_type_to_stream_cases}
default:
os << "unknown";
break;
}}
}}
const char *ParamTypeToString(ParamType paramType)
{{
switch (paramType)
{{
{param_type_to_string_cases}
default:
UNREACHABLE();
return "unknown";
}}
}}
ResourceIDType GetResourceIDTypeFromParamType(ParamType paramType)
{{
switch (paramType)
{{
{param_type_resource_id_cases}
default:
return ResourceIDType::InvalidEnum;
}}
}}
const char *GetResourceIDTypeName(ResourceIDType resourceIDType)
{{
switch (resourceIDType)
{{
{resource_id_type_name_cases}
default:
UNREACHABLE();
return "GetResourceIDTypeName error";
}}
}}
}} // namespace angle
"""
TEMPLATE_GET_PARAM_VAL_SPECIALIZATION = """\
template <>
inline {type} GetParamVal<ParamType::T{enum}, {type}>(const ParamValue &value)
{{
return value.{union_name};
}}"""
TEMPLATE_ACCESS_PARAM_VALUE_CASE = """\
case ParamType::T{enum}:
return GetParamVal<ParamType::T{enum}, T>(value);"""
TEMPLATE_SET_PARAM_VAL_SPECIALIZATION = """\
template <>
inline void SetParamVal<ParamType::T{enum}>({type} valueIn, ParamValue *valueOut)
{{
valueOut->{union_name} = valueIn;
}}"""
TEMPLATE_INIT_PARAM_VALUE_CASE = """\
case ParamType::T{enum}:
SetParamVal<ParamType::T{enum}>(valueIn, valueOut);
break;"""
TEMPLATE_WRITE_PARAM_TYPE_TO_STREAM_CASE = """\
case ParamType::T{enum_in}:
WriteParamValueReplay<ParamType::T{enum_out}>(os, call, param.value.{union_name});
break;"""
TEMPLATE_PARAM_TYPE_TO_STRING_CASE = """\
case ParamType::T{enum}:
return "{type}";"""
TEMPLATE_PARAM_TYPE_TO_RESOURCE_ID_TYPE_CASE = """\
case ParamType::T{enum}:
return ResourceIDType::{resource_id_type};"""
TEMPLATE_RESOURCE_ID_TYPE_NAME_CASE = """\
case ResourceIDType::{resource_id_type}:
return "{resource_id_type}";"""
CL_PACKED_TYPES = {
# Enums
"cl_platform_info": "PlatformInfo",
"cl_device_info": "DeviceInfo",
"cl_context_info": "ContextInfo",
"cl_command_queue_info": "CommandQueueInfo",
"cl_mem_object_type": "MemObjectType",
"cl_mem_info": "MemInfo",
"cl_image_info": "ImageInfo",
"cl_pipe_info": "PipeInfo",
"cl_addressing_mode": "AddressingMode",
"cl_filter_mode": "FilterMode",
"cl_sampler_info": "SamplerInfo",
"cl_program_info": "ProgramInfo",
"cl_program_build_info": "ProgramBuildInfo",
"cl_kernel_info": "KernelInfo",
"cl_kernel_arg_info": "KernelArgInfo",
"cl_kernel_work_group_info": "KernelWorkGroupInfo",
"cl_kernel_sub_group_info": "KernelSubGroupInfo",
"cl_kernel_exec_info": "KernelExecInfo",
"cl_event_info": "EventInfo",
"cl_profiling_info": "ProfilingInfo",
# Bit fields
"cl_device_type": "DeviceType",
"cl_device_fp_config": "DeviceFpConfig",
"cl_device_exec_capabilities": "DeviceExecCapabilities",
"cl_device_svm_capabilities": "DeviceSvmCapabilities",
"cl_command_queue_properties": "CommandQueueProperties",
"cl_device_affinity_domain": "DeviceAffinityDomain",
"cl_mem_flags": "MemFlags",
"cl_svm_mem_flags": "SVM_MemFlags",
"cl_mem_migration_flags": "MemMigrationFlags",
"cl_map_flags": "MapFlags",
"cl_kernel_arg_type_qualifier": "KernelArgTypeQualifier",
"cl_device_atomic_capabilities": "DeviceAtomicCapabilities",
"cl_device_device_enqueue_capabilities": "DeviceEnqueueCapabilities",
}
EGL_PACKED_TYPES = {
"EGLContext": "gl::Context *",
"EGLConfig": "Config *",
"EGLDeviceEXT": "Device *",
# Needs an explicit namespace to avoid an X11 namespace collision.
"EGLDisplay": "egl::Display *",
"EGLImage": "Image *",
"EGLImageKHR": "Image *",
"EGLStreamKHR": "Stream *",
"EGLSurface": "Surface *",
"EGLSync": "Sync *",
"EGLSyncKHR": "Sync *",
}
def is_aliasing_excepted(api, cmd_name):
return api == apis.GLES and cmd_name in ALIASING_EXCEPTIONS
def entry_point_export(api):
if api == apis.CL:
return ""
return "ANGLE_EXPORT "
def entry_point_prefix(api):
if api == apis.CL:
return "cl"
if api == apis.GLES:
return "GL_"
return api + "_"
def get_api_entry_def(api):
if api == apis.EGL:
return "EGLAPIENTRY"
elif api == apis.CL:
return "CL_API_CALL"
else:
return "GL_APIENTRY"
def get_stubs_header_template(api):
if api == apis.CL:
return TEMPLATE_CL_STUBS_HEADER
elif api == apis.EGL:
return TEMPLATE_EGL_STUBS_HEADER
else:
return ""
def format_entry_point_decl(api, cmd_name, proto, params):
comma_if_needed = ", " if len(params) > 0 else ""
stripped = strip_api_prefix(cmd_name)
return TEMPLATE_ENTRY_POINT_DECL.format(
angle_export=entry_point_export(api),
export_def=get_api_entry_def(api),
name="%s%s" % (entry_point_prefix(api), stripped),
return_type=proto[:-len(cmd_name)].strip(),
params=", ".join(params),
comma_if_needed=comma_if_needed)
# Returns index range of identifier in function parameter
def find_name_range(param):
def is_allowed_in_identifier(char):
return char.isalpha() or char.isdigit() or char == "_"
# If type is a function declaration, only search in first parentheses
left_paren = param.find("(")
if left_paren >= 0:
min = left_paren + 1
end = param.index(")")
else:
min = 0
end = len(param)
# Find last identifier in search range
while end > min and not is_allowed_in_identifier(param[end - 1]):
end -= 1
if end == min:
raise ValueError
start = end - 1
while start > min and is_allowed_in_identifier(param[start - 1]):
start -= 1
return start, end
def just_the_type(param):
start, end = find_name_range(param)
return param[:start].strip() + param[end:].strip()
def just_the_name(param):
start, end = find_name_range(param)
return param[start:end]
def make_param(param_type, param_name):
def insert_name(param_type, param_name, pos):
return param_type[:pos] + " " + param_name + param_type[pos:]
# If type is a function declaration, insert identifier before first closing parentheses
left_paren = param_type.find("(")
if left_paren >= 0:
right_paren = param_type.index(")")
return insert_name(param_type, param_name, right_paren)
# If type is an array declaration, insert identifier before brackets
brackets = param_type.find("[")
if brackets >= 0:
return insert_name(param_type, param_name, brackets)
# Otherwise just append identifier
return param_type + " " + param_name
def just_the_type_packed(param, entry):
name = just_the_name(param)
if name in entry:
return entry[name]
else:
return just_the_type(param)
def just_the_name_packed(param, reserved_set):
name = just_the_name(param)
if name in reserved_set:
return name + 'Packed'
else:
return name
def is_unsigned_long_format(fmt):
return fmt == UNSIGNED_LONG_LONG_FORMAT or fmt == HEX_LONG_LONG_FORMAT
def param_print_argument(command_node, param):
name_only = just_the_name(param)
type_only = just_the_type(param)
if "*" not in param and type_only not in FORMAT_DICT:
print(" ".join(param))
raise Exception("Missing '%s %s' from '%s' entry point" %
(type_only, name_only, registry_xml.get_cmd_name(command_node)))
if "*" in param or FORMAT_DICT[type_only] == POINTER_FORMAT:
return "(uintptr_t)%s" % name_only
if is_unsigned_long_format(FORMAT_DICT[type_only]):
return "static_cast<unsigned long long>(%s)" % name_only
if type_only == "GLboolean":
return "GLbooleanToString(%s)" % name_only
if type_only == "GLbitfield":
group_name = find_gl_enum_group_in_command(command_node, name_only)
return "GLbitfieldToString(GLenumGroup::%s, %s).c_str()" % (group_name, name_only)
if type_only == "GLenum":
group_name = find_gl_enum_group_in_command(command_node, name_only)
return "GLenumToString(GLenumGroup::%s, %s)" % (group_name, name_only)
return name_only
def param_format_string(param):
if "*" in param:
return just_the_name(param) + " = 0x%016\" PRIxPTR \""
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 just_the_name(param) + " = " + FORMAT_DICT[type_only]
def is_context_lost_acceptable_cmd(cmd_name):
lost_context_acceptable_cmds = [
"glGetError",
"glGetSync",
"glGetQueryObjecti",
"glGetProgramiv",
"glGetGraphicsResetStatus",
"glGetShaderiv",
]
for context_lost_entry_pont in lost_context_acceptable_cmds:
if cmd_name.startswith(context_lost_entry_pont):
return True
return False
def get_context_getter_function(cmd_name):
if is_context_lost_acceptable_cmd(cmd_name):
return "GetGlobalContext()"
return "GetValidGlobalContext()"
def get_valid_context_check(cmd_name):
return "context"
def get_constext_lost_error_generator(cmd_name):
# Don't generate context lost errors on commands that accept lost contexts
if is_context_lost_acceptable_cmd(cmd_name):
return ""
return "GenerateContextLostErrorOnCurrentGlobalContext();"
def strip_suffix(api, name):
# For commands where aliasing is excepted, keep the suffix
if is_aliasing_excepted(api, name):
return name
for suffix in STRIP_SUFFIXES:
if name.endswith(suffix):
name = name[0:-len(suffix)]
return name
def find_gl_enum_group_in_command(command_node, param_name):
group_name = None
for param_node in command_node.findall('./param'):
if param_node.find('./name').text == param_name:
group_name = param_node.attrib.get('group', None)
break
if group_name is None or group_name in registry_xml.unsupported_enum_group_names:
group_name = registry_xml.default_enum_group_name
return group_name
def get_packed_enums(api, cmd_packed_gl_enums, cmd_name, packed_param_types, params):
# Always strip the suffix when querying packed enums.
result = cmd_packed_gl_enums.get(strip_suffix(api, cmd_name), {})
for param in params:
param_type = just_the_type(param)
if param_type in packed_param_types:
result[just_the_name(param)] = packed_param_types[param_type]
return result
def get_def_template(api, return_type, has_errcode_ret):
if return_type == "void":
if api == apis.EGL:
return TEMPLATE_EGL_ENTRY_POINT_NO_RETURN
elif api == apis.CL:
return TEMPLATE_CL_ENTRY_POINT_NO_RETURN
else:
return TEMPLATE_GLES_ENTRY_POINT_NO_RETURN
elif return_type == "cl_int":
return TEMPLATE_CL_ENTRY_POINT_WITH_RETURN_ERROR
else:
if api == apis.EGL:
return TEMPLATE_EGL_ENTRY_POINT_WITH_RETURN
elif api == apis.CL:
if has_errcode_ret:
return TEMPLATE_CL_ENTRY_POINT_WITH_ERRCODE_RET
else:
return TEMPLATE_CL_ENTRY_POINT_WITH_RETURN_POINTER
else:
return TEMPLATE_GLES_ENTRY_POINT_WITH_RETURN
def format_entry_point_def(api, command_node, cmd_name, proto, params, cmd_packed_enums,
packed_param_types, ep_to_object):
packed_enums = get_packed_enums(api, cmd_packed_enums, cmd_name, packed_param_types, params)
internal_params = [just_the_name_packed(param, packed_enums) for param in params]
if internal_params and internal_params[-1] == "errcode_ret":
internal_params.pop()
has_errcode_ret = True
else:
has_errcode_ret = False
packed_gl_enum_conversions = []
for param in params:
name = just_the_name(param)
if name in packed_enums:
internal_name = name + "Packed"
internal_type = packed_enums[name]
packed_gl_enum_conversions += [
"\n " + internal_type + " " + internal_name + " = PackParam<" +
internal_type + ">(" + name + ");"
]
pass_params = [param_print_argument(command_node, param) for param in params]
format_params = [param_format_string(param) for param in params]
return_type = proto[:-len(cmd_name)].strip()
initialization = "InitBackEnds(%s);\n" % INIT_DICT[cmd_name] if cmd_name in INIT_DICT else ""
event_comment = TEMPLATE_EVENT_COMMENT if cmd_name in NO_EVENT_MARKER_EXCEPTIONS_LIST else ""
name_lower_no_suffix = strip_suffix(api, cmd_name[2:3].lower() + cmd_name[3:])
entry_point_name = "angle::EntryPoint::GL" + strip_api_prefix(cmd_name)
format_params = {
"name":
strip_api_prefix(cmd_name),
"name_lower_no_suffix":
name_lower_no_suffix,
"return_type":
return_type,
"params":
", ".join(params),
"internal_params":
", ".join(internal_params),
"initialization":
initialization,
"packed_gl_enum_conversions":
"".join(packed_gl_enum_conversions),
"pass_params":
", ".join(pass_params),
"comma_if_needed":
", " if len(params) > 0 else "",
"capture_params":
", ".join(["context"] + internal_params),
"validate_params":
", ".join(["context"] + [entry_point_name] + internal_params),
"format_params":
", ".join(format_params),
"context_getter":
get_context_getter_function(cmd_name),
"valid_context_check":
get_valid_context_check(cmd_name),
"constext_lost_error_generator":
get_constext_lost_error_generator(cmd_name),
"event_comment":
event_comment,
"labeled_object":
get_egl_entry_point_labeled_object(ep_to_object, cmd_name, params, packed_enums)
}
template = get_def_template(api, return_type, has_errcode_ret)
return template.format(**format_params)
def get_capture_param_type_name(param_type):
pointer_count = param_type.count("*")
is_const = "const" in param_type.split()
# EGL types are special
for egl_type, angle_type in EGL_PACKED_TYPES.items():
if angle_type == param_type:
return egl_type
param_type = param_type.replace("*", "")
param_type = param_type.replace("&", "")
param_type = param_type.replace("const", "")
param_type = param_type.replace("struct", "")
param_type = param_type.strip()
if "EGL" not in param_type:
if is_const and param_type != 'AttributeMap':
param_type += "Const"
for x in range(pointer_count):
param_type += "Pointer"
return param_type
def format_capture_method(api, command, cmd_name, proto, params, all_param_types,
capture_pointer_funcs, cmd_packed_gl_enums, packed_param_types):
packed_gl_enums = get_packed_enums(api, cmd_packed_gl_enums, cmd_name, packed_param_types,
params)
params_with_type = get_internal_params(api, cmd_name,
["const State &glState", "bool isCallValid"] + params,
cmd_packed_gl_enums, packed_param_types)
params_just_name = ", ".join(
["glState", "isCallValid"] +
[just_the_name_packed(param, packed_gl_enums) for param in params])
parameter_captures = []
for param in params:
param_name = just_the_name_packed(param, packed_gl_enums)
param_type = just_the_type_packed(param, packed_gl_enums).strip()
# TODO(http://anglebug.com/4035: Add support for egl::AttributeMap.
if 'AttributeMap' in param_type:
# egl::AttributeMap is too complex for ParamCapture to handle it.
continue
pointer_count = param_type.count("*")
capture_param_type = get_capture_param_type_name(param_type)
if pointer_count > 0:
params = params_just_name
capture_name = "Capture%s_%s" % (strip_api_prefix(cmd_name), param_name)
capture = TEMPLATE_PARAMETER_CAPTURE_POINTER.format(
name=param_name,
type=capture_param_type,
capture_name=capture_name,
params=params,
cast_type=param_type)
capture_pointer_func = TEMPLATE_PARAMETER_CAPTURE_POINTER_FUNC.format(
name=capture_name, params=params_with_type + ", angle::ParamCapture *paramCapture")
capture_pointer_funcs += [capture_pointer_func]
elif capture_param_type in ('GLenum', 'GLbitfield'):
gl_enum_group = find_gl_enum_group_in_command(command, param_name)
capture = TEMPLATE_PARAMETER_CAPTURE_GL_ENUM.format(
name=param_name, type=capture_param_type, group=gl_enum_group)
else:
capture = TEMPLATE_PARAMETER_CAPTURE_VALUE.format(
name=param_name, type=capture_param_type)
all_param_types.add(capture_param_type)
parameter_captures += [capture]
return_type = proto[:-len(cmd_name)].strip()
format_args = {
"full_name": cmd_name,
"short_name": strip_api_prefix(cmd_name),
"params_with_type": params_with_type,
"params_just_name": params_just_name,
"parameter_captures": "\n ".join(parameter_captures),
"return_value_type_original": return_type,
"return_value_type_custom": get_capture_param_type_name(return_type)
}
if return_type == "void":
return TEMPLATE_CAPTURE_METHOD_NO_RETURN_VALUE.format(**format_args)
else:
return TEMPLATE_CAPTURE_METHOD_WITH_RETURN_VALUE.format(**format_args)
def const_pointer_type(param, packed_gl_enums):
type = just_the_type_packed(param, packed_gl_enums)
if just_the_name(param) == "errcode_ret" or "(" in type:
return type
elif "**" in type and "const" not in type:
return type.replace("**", "* const *")
elif "*" in type and "const" not in type:
return type.replace("*", "*const ") if "[]" in type else "const " + type
else:
return type
def get_internal_params(api, cmd_name, params, cmd_packed_gl_enums, packed_param_types):
packed_gl_enums = get_packed_enums(api, cmd_packed_gl_enums, cmd_name, packed_param_types,
params)
return ", ".join([
make_param(
just_the_type_packed(param, packed_gl_enums),
just_the_name_packed(param, packed_gl_enums)) for param in params
])
def get_validation_params(api, cmd_name, params, cmd_packed_gl_enums, packed_param_types):
packed_gl_enums = get_packed_enums(api, cmd_packed_gl_enums, cmd_name, packed_param_types,
params)
last = -1 if params and just_the_name(params[-1]) == "errcode_ret" else None
return ", ".join([
make_param(
const_pointer_type(param, packed_gl_enums),
just_the_name_packed(param, packed_gl_enums)) for param in params[:last]
])
def format_context_decl(api, cmd_name, proto, params, template, cmd_packed_gl_enums,
packed_param_types):
internal_params = get_internal_params(api, cmd_name, params, cmd_packed_gl_enums,
packed_param_types)
return_type = proto[:-len(cmd_name)].strip()
name_lower_no_suffix = cmd_name[2:3].lower() + cmd_name[3:]
name_lower_no_suffix = strip_suffix(api, name_lower_no_suffix)
maybe_const = " const" if name_lower_no_suffix.startswith(
"is") and name_lower_no_suffix[2].isupper() else ""
return template.format(
return_type=return_type,
name_lower_no_suffix=name_lower_no_suffix,
internal_params=internal_params,
maybe_const=maybe_const)
def format_entry_point_export(cmd_name, proto, params, template):
internal_params = [just_the_name(param) for param in params]
return_type = proto[:-len(cmd_name)].strip()
return template.format(
name=strip_api_prefix(cmd_name),
return_type=return_type,
params=", ".join(params),
internal_params=", ".join(internal_params))
def format_validation_proto(api, cmd_name, proto, params, cmd_packed_gl_enums, packed_param_types):
if api == apis.CL:
return_type = "cl_int"
else:
return_type = "bool"
if api in [apis.GL, apis.GLES]:
with_extra_params = ["Context *context"] + ["angle::EntryPoint entryPoint"] + params
elif api == apis.EGL:
with_extra_params = ["ValidationContext *val"] + params
else:
with_extra_params = params
internal_params = get_validation_params(api, cmd_name, with_extra_params, cmd_packed_gl_enums,
packed_param_types)
return TEMPLATE_VALIDATION_PROTO % (return_type, strip_api_prefix(cmd_name), internal_params)
def format_capture_proto(api, cmd_name, proto, params, cmd_packed_gl_enums, packed_param_types):
internal_params = get_internal_params(api, cmd_name,
["const State &glState", "bool isCallValid"] + params,
cmd_packed_gl_enums, packed_param_types)
return_type = proto[:-len(cmd_name)].strip()
if return_type != "void":
internal_params += ", %s returnValue" % return_type
return TEMPLATE_CAPTURE_PROTO % (strip_api_prefix(cmd_name), internal_params)
def path_to(folder, file):
return os.path.join(script_relative(".."), "src", folder, file)
class ANGLEEntryPoints(registry_xml.EntryPoints):
def __init__(self,
api,
xml,
commands,
all_param_types,
cmd_packed_enums,
export_template=TEMPLATE_GL_ENTRY_POINT_EXPORT,
packed_param_types=[],
ep_to_object={}):
super().__init__(api, xml, commands)
self.decls = []
self.defs = []
self.export_defs = []
self.validation_protos = []
self.capture_protos = []
self.capture_methods = []
self.capture_pointer_funcs = []
for (cmd_name, command_node, param_text, proto_text) in self.get_infos():
self.decls.append(format_entry_point_decl(self.api, cmd_name, proto_text, param_text))
self.defs.append(
format_entry_point_def(self.api, command_node, cmd_name, proto_text, param_text,
cmd_packed_enums, packed_param_types, ep_to_object))
self.export_defs.append(
format_entry_point_export(cmd_name, proto_text, param_text, export_template))
self.validation_protos.append(
format_validation_proto(self.api, cmd_name, proto_text, param_text,
cmd_packed_enums, packed_param_types))
self.capture_protos.append(
format_capture_proto(self.api, cmd_name, proto_text, param_text, cmd_packed_enums,
packed_param_types))
self.capture_methods.append(
format_capture_method(self.api, command_node, cmd_name, proto_text, param_text,
all_param_types, self.capture_pointer_funcs,
cmd_packed_enums, packed_param_types))
class GLEntryPoints(ANGLEEntryPoints):
all_param_types = set()
def __init__(self, api, xml, commands):
super().__init__(api, xml, commands, GLEntryPoints.all_param_types,
GLEntryPoints.get_packed_enums())
_packed_enums = None
@classmethod
def get_packed_enums(cls):
if not cls._packed_enums:
with open(script_relative('entry_point_packed_gl_enums.json')) as f:
cls._packed_enums = json.loads(f.read())
return cls._packed_enums
class EGLEntryPoints(ANGLEEntryPoints):
all_param_types = set()
def __init__(self, xml, commands):
super().__init__(
apis.EGL,
xml,
commands,
EGLEntryPoints.all_param_types,
EGLEntryPoints.get_packed_enums(),
export_template=TEMPLATE_EGL_ENTRY_POINT_EXPORT,
packed_param_types=EGL_PACKED_TYPES,
ep_to_object=EGLEntryPoints._get_ep_to_object())
_ep_to_object = None
@classmethod
def _get_ep_to_object(cls):
if cls._ep_to_object:
return cls._ep_to_object
with open(EGL_GET_LABELED_OBJECT_DATA_PATH) as f:
try:
spec_json = json.loads(f.read())
except ValueError:
raise Exception("Could not decode JSON from %s" % EGL_GET_LABELED_OBJECT_DATA_PATH)
# Construct a mapping from EP to type. Fill in the gaps with Display/None.
cls._ep_to_object = {}
for category, eps in spec_json.items():
if category == 'description':
continue
for ep in eps:
cls._ep_to_object[ep] = category
return cls._ep_to_object
_packed_enums = None
@classmethod
def get_packed_enums(cls):
if not cls._packed_enums:
with open(script_relative('entry_point_packed_egl_enums.json')) as f:
cls._packed_enums = json.loads(f.read())
return cls._packed_enums
class CLEntryPoints(ANGLEEntryPoints):
all_param_types = set()
def __init__(self, xml, commands):
super().__init__(
apis.CL,
xml,
commands,
CLEntryPoints.all_param_types,
CLEntryPoints.get_packed_enums(),
export_template=TEMPLATE_CL_ENTRY_POINT_EXPORT,
packed_param_types=CL_PACKED_TYPES)
@classmethod
def get_packed_enums(cls):
return {}
def get_decls(api,
formatter,
all_commands,
gles_commands,
already_included,
cmd_packed_gl_enums,
packed_param_types=[]):
decls = []
for command in all_commands:
proto = command.find('proto')
cmd_name = proto.find('name').text
if cmd_name not in gles_commands:
continue
name_no_suffix = strip_suffix(api, cmd_name)
if name_no_suffix in already_included:
continue
param_text = ["".join(param.itertext()) for param in command.findall('param')]
proto_text = "".join(proto.itertext())
decls.append(
format_context_decl(api, cmd_name, proto_text, param_text, formatter,
cmd_packed_gl_enums, packed_param_types))
return decls
def get_glext_decls(all_commands, gles_commands, version):
glext_ptrs = []
glext_protos = []
is_gles1 = False
if (version == ""):
is_gles1 = True
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())
return_type = proto_text[:-len(cmd_name)]
params = ", ".join(param_text)
format_params = {
"apicall": "GL_API" if is_gles1 else "GL_APICALL",
"name": cmd_name,
"name_upper": cmd_name.upper(),
"return_type": return_type,
"params": params,
}
glext_ptrs.append(TEMPLATE_GLEXT_FUNCTION_POINTER.format(**format_params))
glext_protos.append(TEMPLATE_GLEXT_FUNCTION_PROTOTYPE.format(**format_params))
return glext_ptrs, glext_protos
def write_file(annotation, comment, template, entry_points, suffix, includes, lib, file):
content = template.format(
script_name=os.path.basename(sys.argv[0]),
data_source_name=file,
annotation_lower=annotation.lower(),
annotation_upper=annotation.upper(),
comment=comment,
lib=lib.upper(),
includes=includes,
entry_points=entry_points)
path = path_to(lib, "entry_points_{}_autogen.{}".format(annotation.lower(), suffix))
with open(path, "w") as out:
out.write(content)
out.close()
def write_export_files(entry_points, includes, source, lib_name, lib_description):
content = TEMPLATE_LIB_ENTRY_POINT_SOURCE.format(
script_name=os.path.basename(sys.argv[0]),
data_source_name=source,
lib_name=lib_name,
lib_description=lib_description,
includes=includes,
entry_points=entry_points)
path = path_to(lib_name, "{}_autogen.cpp".format(lib_name))
with open(path, "w") as out:
out.write(content)
out.close()
def write_context_api_decls(decls, api):
for (major, minor), version_decls in sorted(decls['core'].items()):
if minor == "X":
annotation = '{}_{}'.format(api, major)
version = str(major)
else:
annotation = '{}_{}_{}'.format(api, major, minor)
version = '{}_{}'.format(major, minor)
content = CONTEXT_HEADER.format(
annotation_lower=annotation.lower(),
annotation_upper=annotation.upper(),
script_name=os.path.basename(sys.argv[0]),
data_source_name="gl.xml",
version=version,
interface="\n".join(version_decls))
path = path_to("libANGLE", "Context_%s_autogen.h" % annotation.lower())
with open(path, "w") as out:
out.write(content)
out.close()
if 'exts' in decls.keys():
interface_lines = []
for annotation in decls['exts'].keys():
interface_lines.append("\\\n /* " + annotation + " */ \\\n\\")
for extname in sorted(decls['exts'][annotation].keys()):
interface_lines.append(" /* " + extname + " */ \\")
interface_lines.extend(decls['exts'][annotation][extname])
content = CONTEXT_HEADER.format(
annotation_lower='gles_ext',
annotation_upper='GLES_EXT',
script_name=os.path.basename(sys.argv[0]),
data_source_name="gl.xml",
version='EXT',
interface="\n".join(interface_lines))
path = path_to("libANGLE", "Context_gles_ext_autogen.h")
with open(path, "w") as out:
out.write(content)
out.close()
def write_validation_header(annotation, comment, protos, source, template):
content = template.format(
script_name=os.path.basename(sys.argv[0]),
data_source_name=source,
annotation=annotation,
comment=comment,
prototypes="\n".join(protos))
path = path_to("libANGLE", "validation%s_autogen.h" % annotation)
with open(path, "w") as out:
out.write(content)
out.close()
def write_gl_validation_header(annotation, comment, protos, source):
return write_validation_header(annotation, comment, protos, source,
TEMPLATE_GL_VALIDATION_HEADER)
def write_capture_header(annotation, comment, protos, capture_pointer_funcs):
content = TEMPLATE_CAPTURE_HEADER.format(
script_name=os.path.basename(sys.argv[0]),
data_source_name="gl.xml and gl_angle_ext.xml",
annotation_lower=annotation.lower(),
annotation_upper=annotation.upper(),
comment=comment,
prototypes="\n".join(["\n// Method Captures\n"] + protos + ["\n// Parameter Captures\n"] +
capture_pointer_funcs))
path = path_to(os.path.join("libANGLE", "capture"), "capture_gles_%s_autogen.h" % annotation)
with open(path, "w") as out:
out.write(content)
out.close()
def write_capture_source(annotation_with_dash, annotation_no_dash, comment, capture_methods):
content = TEMPLATE_CAPTURE_SOURCE.format(
script_name=os.path.basename(sys.argv[0]),
data_source_name="gl.xml and gl_angle_ext.xml",
annotation_with_dash=annotation_with_dash,
annotation_no_dash=annotation_no_dash,
comment=comment,
capture_methods="\n".join(capture_methods))
path = path_to(
os.path.join("libANGLE", "capture"), "capture_gles_%s_autogen.cpp" % annotation_with_dash)
with open(path, "w") as out:
out.write(content)
out.close()
def is_packed_enum_param_type(param_type):
return param_type[0:2] != "GL" and "void" not in param_type
def add_namespace(param_type):
param_type = param_type.strip()
if param_type == 'AHardwareBufferConstPointer' or param_type == 'charConstPointer':
return param_type
if param_type[0:2] == "GL" or param_type[0:3] == "EGL" or "void" in param_type:
return param_type
# ANGLE namespaced EGL types
egl_namespace = [
'CompositorTiming',
'DevicePointer',
'ObjectType',
'StreamPointer',
'Timestamp',
]
if param_type in egl_namespace:
return "egl::" + param_type
else:
return "gl::" + param_type
def get_gl_pointer_type(param_type):
if "ConstPointerPointer" in param_type:
return "const " + param_type.replace("ConstPointerPointer", "") + " * const *"
if "ConstPointer" in param_type:
return "const " + param_type.replace("ConstPointer", "") + " *"
if "PointerPointer" in param_type:
return param_type.replace("PointerPointer", "") + " **"
if "Pointer" in param_type:
return param_type.replace("Pointer", "") + " *"
return param_type
def get_param_type_type(param_type):
param_type = add_namespace(param_type)
return get_gl_pointer_type(param_type)
def get_gl_param_type_type(param_type):
if not is_packed_enum_param_type(param_type):
return get_gl_pointer_type(param_type)
else:
base_type = param_type.replace("Pointer", "").replace("Const", "")
if base_type[-2:] == "ID":
replace_type = "GLuint"
else:
replace_type = "GLenum"
param_type = param_type.replace(base_type, replace_type)
return get_gl_pointer_type(param_type)
def get_param_type_union_name(param_type):
return param_type + "Val"
def format_param_type_union_type(param_type):
return "%s %s;" % (get_param_type_type(param_type), get_param_type_union_name(param_type))
def format_get_param_val_specialization(param_type):
return TEMPLATE_GET_PARAM_VAL_SPECIALIZATION.format(
enum=param_type,
type=get_param_type_type(param_type),
union_name=get_param_type_union_name(param_type))
def format_access_param_value_case(param_type):
return TEMPLATE_ACCESS_PARAM_VALUE_CASE.format(enum=param_type)
def format_set_param_val_specialization(param_type):
return TEMPLATE_SET_PARAM_VAL_SPECIALIZATION.format(
enum=param_type,
type=get_param_type_type(param_type),
union_name=get_param_type_union_name(param_type))
def format_init_param_value_case(param_type):
return TEMPLATE_INIT_PARAM_VALUE_CASE.format(enum=param_type)
def format_write_param_type_to_stream_case(param_type):
return TEMPLATE_WRITE_PARAM_TYPE_TO_STREAM_CASE.format(
enum_in=param_type, enum_out=param_type, union_name=get_param_type_union_name(param_type))
def get_resource_id_types(all_param_types):
return [
t[:-2]
for t in filter(lambda t: t.endswith("ID") and not t.endswith("ANDROID"), all_param_types)
]
def format_resource_id_types(all_param_types):
resource_id_types = get_resource_id_types(all_param_types)
resource_id_types += ["EnumCount", "InvalidEnum = EnumCount"]
resource_id_types = ",\n ".join(resource_id_types)
return resource_id_types
def format_resource_id_convert_structs(all_param_types):
templ = """\
template <>
struct GetResourceIDTypeFromType<gl::%sID>
{
static constexpr ResourceIDType IDType = ResourceIDType::%s;
};
"""
resource_id_types = get_resource_id_types(all_param_types)
convert_struct_strings = [templ % (id, id) for id in resource_id_types]
return "\n".join(convert_struct_strings)
def write_capture_helper_header(all_param_types):
param_types = "\n ".join(["T%s," % t for t in all_param_types])
param_union_values = "\n ".join([format_param_type_union_type(t) for t in all_param_types])
get_param_val_specializations = "\n\n".join(
[format_get_param_val_specialization(t) for t in all_param_types])
access_param_value_cases = "\n".join(
[format_access_param_value_case(t) for t in all_param_types])
set_param_val_specializations = "\n\n".join(
[format_set_param_val_specialization(t) for t in all_param_types])
init_param_value_cases = "\n".join([format_init_param_value_case(t) for t in all_param_types])
resource_id_types = format_resource_id_types(all_param_types)
convert_structs = format_resource_id_convert_structs(all_param_types)
content = TEMPLATE_FRAME_CAPTURE_UTILS_HEADER.format(
script_name=os.path.basename(sys.argv[0]),
data_source_name="gl.xml and gl_angle_ext.xml",
param_types=param_types,
param_type_count=len(all_param_types),
param_union_values=param_union_values,
get_param_val_specializations=get_param_val_specializations,
access_param_value_cases=access_param_value_cases,
set_param_val_specializations=set_param_val_specializations,
init_param_value_cases=init_param_value_cases,
resource_id_types=resource_id_types,
type_to_resource_id_type_structs=convert_structs)
path = path_to(os.path.join("libANGLE", "capture"), "frame_capture_utils_autogen.h")
with open(path, "w") as out:
out.write(content)
out.close()
def format_param_type_to_string_case(param_type):
return TEMPLATE_PARAM_TYPE_TO_STRING_CASE.format(
enum=param_type, type=get_gl_param_type_type(param_type))
def get_resource_id_type_from_param_type(param_type):
if param_type.endswith("ConstPointer"):
return param_type.replace("ConstPointer", "")[:-2]
if param_type.endswith("Pointer"):
return param_type.replace("Pointer", "")[:-2]
return param_type[:-2]
def format_param_type_to_resource_id_type_case(param_type):
return TEMPLATE_PARAM_TYPE_TO_RESOURCE_ID_TYPE_CASE.format(
enum=param_type, resource_id_type=get_resource_id_type_from_param_type(param_type))
def format_param_type_resource_id_cases(all_param_types):
id_types = filter(
lambda t: (t.endswith("ID") and not t.endswith("ANDROID")) or t.endswith("IDConstPointer")
or t.endswith("IDPointer"), all_param_types)
return "\n".join([format_param_type_to_resource_id_type_case(t) for t in id_types])
def format_resource_id_type_name_case(resource_id_type):
return TEMPLATE_RESOURCE_ID_TYPE_NAME_CASE.format(resource_id_type=resource_id_type)
def write_capture_helper_source(all_param_types):
write_param_type_to_stream_cases = "\n".join(
[format_write_param_type_to_stream_case(t) for t in all_param_types])
param_type_to_string_cases = "\n".join(
[format_param_type_to_string_case(t) for t in all_param_types])
param_type_resource_id_cases = format_param_type_resource_id_cases(all_param_types)
resource_id_types = get_resource_id_types(all_param_types)
resource_id_type_name_cases = "\n".join(
[format_resource_id_type_name_case(t) for t in resource_id_types])
content = TEMPLATE_FRAME_CAPTURE_UTILS_SOURCE.format(
script_name=os.path.basename(sys.argv[0]),
data_source_name="gl.xml and gl_angle_ext.xml",
write_param_type_to_stream_cases=write_param_type_to_stream_cases,
param_type_to_string_cases=param_type_to_string_cases,
param_type_resource_id_cases=param_type_resource_id_cases,
resource_id_type_name_cases=resource_id_type_name_cases)
path = path_to(os.path.join("libANGLE", "capture"), "frame_capture_utils_autogen.cpp")
with open(path, "w") as out:
out.write(content)
out.close()
def get_command_params_text(command_node, cmd_name):
param_text_list = list()
for param_node in command_node.findall('param'):
param_text_list.append("".join(param_node.itertext()))
return param_text_list
def is_get_pointer_command(command_name):
return command_name.endswith('Pointerv') and command_name.startswith('glGet')
def format_capture_replay_param_access(api, command_name, param_text_list, cmd_packed_gl_enums,
packed_param_types):
param_access_strs = list()
cmd_packed_enums = get_packed_enums(api, cmd_packed_gl_enums, command_name, packed_param_types,
param_text_list)
for i, param_text in enumerate(param_text_list):
param_type = just_the_type_packed(param_text, cmd_packed_enums)
param_name = just_the_name_packed(param_text, cmd_packed_enums)
pointer_count = param_type.count('*')
is_const = 'const' in param_type
if pointer_count == 0:
param_template = 'params.getParam("{name}", ParamType::T{enum_type}, {index}).value.{enum_type}Val'
elif pointer_count == 1 and is_const:
param_template = 'replayContext->getAsConstPointer<{type}>(params.getParam("{name}", ParamType::T{enum_type}, {index}))'
elif pointer_count == 2 and is_const:
param_template = 'replayContext->getAsPointerConstPointer<{type}>(params.getParam("{name}", ParamType::T{enum_type}, {index}))'
elif pointer_count == 1 or (pointer_count == 2 and is_get_pointer_command(command_name)):
param_template = 'replayContext->getReadBufferPointer<{type}>(params.getParam("{name}", ParamType::T{enum_type}, {index}))'
else:
assert False, "Not supported param type %s" % param_type
param_access_strs.append(
param_template.format(
index=i,
name=param_name,
type=param_type,
enum_type=get_capture_param_type_name(param_type)))
return ",".join(param_access_strs)
def format_capture_replay_call_case(api, command_to_param_types_mapping, cmd_packed_gl_enums,
packed_param_types):
call_str_list = list()
for command_name, cmd_param_texts in sorted(command_to_param_types_mapping.items()):
entry_point_name = strip_api_prefix(command_name)
call_str_list.append(
TEMPLATE_CAPTURE_REPLAY_CALL_CASE.format(
entry_point=entry_point_name,
param_value_access=format_capture_replay_param_access(
api, command_name, cmd_param_texts, cmd_packed_gl_enums, packed_param_types),
context_call=entry_point_name[0].lower() + entry_point_name[1:],
))
return '\n'.join(call_str_list)
def write_capture_replay_source(api, all_commands_nodes, gles_command_names, cmd_packed_gl_enums,
packed_param_types):
all_commands_names = set(gles_command_names)
command_to_param_types_mapping = dict()
for command_node in all_commands_nodes:
command_name = command_node.find('proto').find('name').text
if command_name not in all_commands_names:
continue
command_to_param_types_mapping[command_name] = get_command_params_text(
command_node, command_name)
call_replay_cases = format_capture_replay_call_case(api, command_to_param_types_mapping,
cmd_packed_gl_enums, packed_param_types)
source_content = TEMPLATE_CAPTURE_REPLAY_SOURCE.format(
script_name=os.path.basename(sys.argv[0]),
data_source_name="gl.xml and gl_angle_ext.xml",
call_replay_cases=call_replay_cases,
)
source_file_path = registry_xml.script_relative(
"../src/libANGLE/capture/frame_capture_replay_autogen.cpp")
with open(source_file_path, 'w') as f:
f.write(source_content)
def write_windows_def_file(data_source_name, lib, libexport, folder, exports):
content = TEMPLATE_WINDOWS_DEF_FILE.format(
script_name=os.path.basename(sys.argv[0]),
data_source_name=data_source_name,
exports="\n".join(exports),
lib=libexport)
path = path_to(folder, "%s_autogen.def" % lib)
with open(path, "w") as out:
out.write(content)
out.close()
def get_exports(commands, fmt=None):
if fmt:
return [" %s" % fmt(cmd) for cmd in sorted(commands)]
else:
return [" %s" % cmd for cmd in sorted(commands)]
# Get EGL exports
def get_egl_exports():
egl = registry_xml.RegistryXML('egl.xml', 'egl_angle_ext.xml')
exports = []
capser = lambda fn: "EGL_" + fn[3:]
for major, minor in registry_xml.EGL_VERSIONS:
annotation = "{}_{}".format(major, minor)
name_prefix = "EGL_VERSION_"
feature_name = "{}{}".format(name_prefix, annotation)
egl.AddCommands(feature_name, annotation)
commands = egl.commands[annotation]
if len(commands) == 0:
continue
exports.append("\n ; EGL %d.%d" % (major, minor))
exports += get_exports(commands, capser)
egl.AddExtensionCommands(registry_xml.supported_egl_extensions, ['egl'])
for extension_name, ext_cmd_names in sorted(egl.ext_data.items()):
if len(ext_cmd_names) == 0:
continue
exports.append("\n ; %s" % extension_name)
exports += get_exports(ext_cmd_names, capser)
return exports
# Construct a mapping from an EGL EP to object function
def get_egl_entry_point_labeled_object(ep_to_object, cmd_stripped, params, packed_enums):
if not ep_to_object:
return ""
# Finds a packed parameter name in a list of params
def find_param(params, type_name, packed_enums):
for param in params:
if just_the_type_packed(param, packed_enums).split(' ')[0] == type_name:
return just_the_name_packed(param, packed_enums)
return None
display_param = find_param(params, "egl::Display", packed_enums)
# For entry points not listed in the JSON file, they default to an EGLDisplay or nothing.
if cmd_stripped not in ep_to_object:
if display_param:
return "GetDisplayIfValid(%s)" % display_param
return "nullptr"
# We first handle a few special cases for certain type categories.
category = ep_to_object[cmd_stripped]
if category == "Thread":
return "GetThreadIfValid(thread)"
found_param = find_param(params, category, packed_enums)
if category == "Context" and not found_param:
return "GetContextIfValid(thread->getDisplay(), thread->getContext())"
assert found_param, "Did not find %s for %s: %s" % (category, cmd_stripped, str(params))
if category == "Device":
return "GetDeviceIfValid(%s)" % found_param
if category == "LabeledObject":
object_type_param = find_param(params, "ObjectType", packed_enums)
return "GetLabeledObjectIfValid(thread, %s, %s, %s)" % (display_param, object_type_param,
found_param)
# We then handle the general case which handles the rest of the type categories.
return "Get%sIfValid(%s, %s)" % (category, display_param, found_param)
def write_stubs_header(api, annotation, title, data_source, out_file, all_commands, commands,
cmd_packed_egl_enums, packed_param_types):
stubs = []
for command in all_commands:
proto = command.find('proto')
cmd_name = proto.find('name').text
if cmd_name not in commands:
continue
proto_text = "".join(proto.itertext())
params = [] if api == apis.CL else ["Thread *thread"]
params += ["".join(param.itertext()) for param in command.findall('param')]
if params and just_the_name(params[-1]) == "errcode_ret":
params[-1] = "cl_int &errorCode"
return_type = proto_text[:-len(cmd_name)].strip()
internal_params = get_internal_params(api, cmd_name, params, cmd_packed_egl_enums,
packed_param_types)
stubs.append("%s %s(%s);" % (return_type, strip_api_prefix(cmd_name), internal_params))
args = {
"annotation_lower": annotation.lower(),
"annotation_upper": annotation.upper(),
"data_source_name": data_source,
"script_name": os.path.basename(sys.argv[0]),
"stubs": "\n".join(stubs),
"title": title,
}
output = get_stubs_header_template(api).format(**args)
with open(out_file, "w") as f:
f.write(output)
def main():
# auto_script parameters.
if len(sys.argv) > 1:
inputs = [
'entry_point_packed_egl_enums.json', 'entry_point_packed_gl_enums.json',
EGL_GET_LABELED_OBJECT_DATA_PATH
] + registry_xml.xml_inputs
outputs = [
CL_STUBS_HEADER_PATH,
EGL_STUBS_HEADER_PATH,
EGL_EXT_STUBS_HEADER_PATH,
'../src/libOpenCL/libOpenCL_autogen.cpp',
'../src/common/entry_points_enum_autogen.cpp',
'../src/common/entry_points_enum_autogen.h',
'../src/libANGLE/Context_gl_1_autogen.h',
'../src/libANGLE/Context_gl_2_autogen.h',
'../src/libANGLE/Context_gl_3_autogen.h',
'../src/libANGLE/Context_gl_4_autogen.h',
'../src/libANGLE/Context_gles_1_0_autogen.h',
'../src/libANGLE/Context_gles_2_0_autogen.h',
'../src/libANGLE/Context_gles_3_0_autogen.h',
'../src/libANGLE/Context_gles_3_1_autogen.h',
'../src/libANGLE/Context_gles_3_2_autogen.h',
'../src/libANGLE/Context_gles_ext_autogen.h',
'../src/libANGLE/capture/capture_gles_1_0_autogen.cpp',
'../src/libANGLE/capture/capture_gles_1_0_autogen.h',
'../src/libANGLE/capture/capture_gles_2_0_autogen.cpp',
'../src/libANGLE/capture/capture_gles_2_0_autogen.h',
'../src/libANGLE/capture/capture_gles_3_0_autogen.cpp',
'../src/libANGLE/capture/capture_gles_3_0_autogen.h',
'../src/libANGLE/capture/capture_gles_3_1_autogen.cpp',
'../src/libANGLE/capture/capture_gles_3_1_autogen.h',
'../src/libANGLE/capture/capture_gles_3_2_autogen.cpp',
'../src/libANGLE/capture/capture_gles_3_2_autogen.h',
'../src/libANGLE/capture/capture_gles_ext_autogen.cpp',
'../src/libANGLE/capture/capture_gles_ext_autogen.h',
'../src/libANGLE/capture/frame_capture_replay_autogen.cpp',
'../src/libANGLE/capture/frame_capture_utils_autogen.cpp',
'../src/libANGLE/capture/frame_capture_utils_autogen.h',
'../src/libANGLE/validationCL_autogen.h',
'../src/libANGLE/validationEGL_autogen.h',
'../src/libANGLE/validationES1_autogen.h',
'../src/libANGLE/validationES2_autogen.h',
'../src/libANGLE/validationES31_autogen.h',
'../src/libANGLE/validationES32_autogen.h',
'../src/libANGLE/validationES3_autogen.h',
'../src/libANGLE/validationESEXT_autogen.h',
'../src/libANGLE/validationGL1_autogen.h',
'../src/libANGLE/validationGL2_autogen.h',
'../src/libANGLE/validationGL3_autogen.h',
'../src/libANGLE/validationGL4_autogen.h',
'../src/libEGL/libEGL_autogen.cpp',
'../src/libEGL/libEGL_autogen.def',
'../src/libGLESv2/entry_points_cl_autogen.cpp',
'../src/libGLESv2/entry_points_cl_autogen.h',
'../src/libGLESv2/entry_points_egl_autogen.cpp',
'../src/libGLESv2/entry_points_egl_autogen.h',
'../src/libGLESv2/entry_points_egl_ext_autogen.cpp',
'../src/libGLESv2/entry_points_egl_ext_autogen.h',
'../src/libGLESv2/entry_points_gles_1_0_autogen.cpp',
'../src/libGLESv2/entry_points_gles_1_0_autogen.h',
'../src/libGLESv2/entry_points_gles_2_0_autogen.cpp',
'../src/libGLESv2/entry_points_gles_2_0_autogen.h',
'../src/libGLESv2/entry_points_gles_3_0_autogen.cpp',
'../src/libGLESv2/entry_points_gles_3_0_autogen.h',
'../src/libGLESv2/entry_points_gles_3_1_autogen.cpp',
'../src/libGLESv2/entry_points_gles_3_1_autogen.h',
'../src/libGLESv2/entry_points_gles_3_2_autogen.cpp',
'../src/libGLESv2/entry_points_gles_3_2_autogen.h',
'../src/libGLESv2/entry_points_gles_ext_autogen.cpp',
'../src/libGLESv2/entry_points_gles_ext_autogen.h',
'../src/libGLESv2/libGLESv2_autogen.cpp',
'../src/libGLESv2/libGLESv2_autogen.def',
'../src/libGLESv2/libGLESv2_no_capture_autogen.def',
'../src/libGLESv2/libGLESv2_with_capture_autogen.def',
'../src/libGL/entry_points_gl_1_autogen.cpp',
'../src/libGL/entry_points_gl_1_autogen.h',
'../src/libGL/entry_points_gl_2_autogen.cpp',
'../src/libGL/entry_points_gl_2_autogen.h',
'../src/libGL/entry_points_gl_3_autogen.cpp',
'../src/libGL/entry_points_gl_3_autogen.h',
'../src/libGL/entry_points_gl_4_autogen.cpp',
'../src/libGL/entry_points_gl_4_autogen.h',
'../src/libGL/libGL_autogen.cpp',
'../src/libGL/libGL_autogen.def',
]
if sys.argv[1] == 'inputs':
print(','.join(inputs))
elif sys.argv[1] == 'outputs':
print(','.join(outputs))
else:
print('Invalid script parameters')
return 1
return 0
glesdecls = {}
glesdecls['core'] = {}
glesdecls['exts'] = {}
for ver in registry_xml.GLES_VERSIONS:
glesdecls['core'][ver] = []
for ver in ['GLES1 Extensions', 'GLES2+ Extensions', 'ANGLE Extensions']:
glesdecls['exts'][ver] = {}
libgles_ep_defs = []
libgles_ep_exports = []
xml = registry_xml.RegistryXML('gl.xml', 'gl_angle_ext.xml')
# Stores core commands to keep track of duplicates
all_commands_no_suffix = []
all_commands_with_suffix = []
# First run through the main GLES entry points. Since ES2+ is the primary use
# case, we go through those first and then add ES1-only APIs at the end.
for major_version, minor_version in registry_xml.GLES_VERSIONS:
version = "{}_{}".format(major_version, minor_version)
annotation = "GLES_{}".format(version)
name_prefix = "GL_ES_VERSION_"
if major_version == 1:
name_prefix = "GL_VERSION_ES_CM_"
comment = version.replace("_", ".")
feature_name = "{}{}".format(name_prefix, version)
xml.AddCommands(feature_name, version)
version_commands = xml.commands[version]
all_commands_no_suffix.extend(xml.commands[version])
all_commands_with_suffix.extend(xml.commands[version])
eps = GLEntryPoints(apis.GLES, xml, version_commands)
eps.decls.insert(0, "extern \"C\" {")
eps.decls.append("} // extern \"C\"")
eps.defs.insert(0, "extern \"C\" {")
eps.defs.append("} // extern \"C\"")
# Write the version as a comment before the first EP.
libgles_ep_exports.append("\n ; OpenGL ES %s" % comment)
libgles_ep_defs += ["\n// OpenGL ES %s" % comment] + eps.export_defs
libgles_ep_exports += get_exports(version_commands)
major_if_not_one = major_version if major_version != 1 else ""
minor_if_not_zero = minor_version if minor_version != 0 else ""
header_includes = TEMPLATE_HEADER_INCLUDES.format(
major=major_if_not_one, minor=minor_if_not_zero)
# We include the platform.h header since it undefines the conflicting MemoryBarrier macro.
if major_version == 3 and minor_version == 1:
header_includes += "\n#include \"common/platform.h\"\n"
version_annotation = "%s%s" % (major_version, minor_if_not_zero)
source_includes = TEMPLATE_SOURCES_INCLUDES.format(
header_version=annotation.lower(), validation_header_version="ES" + version_annotation)
write_file(annotation, "GLES " + comment, TEMPLATE_ENTRY_POINT_HEADER,
"\n".join(eps.decls), "h", header_includes, "libGLESv2", "gl.xml")
write_file(annotation, "GLES " + comment, TEMPLATE_ENTRY_POINT_SOURCE, "\n".join(eps.defs),
"cpp", source_includes, "libGLESv2", "gl.xml")
glesdecls['core'][(major_version,
minor_version)] = get_decls(apis.GLES, CONTEXT_DECL_FORMAT,
xml.all_commands, version_commands, [],
GLEntryPoints.get_packed_enums())
validation_annotation = "ES%s%s" % (major_version, minor_if_not_zero)
write_gl_validation_header(validation_annotation, "ES %s" % comment, eps.validation_protos,
"gl.xml and gl_angle_ext.xml")
write_capture_header(version, comment, eps.capture_protos, eps.capture_pointer_funcs)
write_capture_source(version, validation_annotation, comment, eps.capture_methods)
# After we finish with the main entry points, we process the extensions.
extension_decls = ["extern \"C\" {"]
extension_defs = ["extern \"C\" {"]
extension_commands = []
# Accumulated validation prototypes.
ext_validation_protos = []
ext_capture_protos = []
ext_capture_methods = []
ext_capture_pointer_funcs = []
for gles1ext in registry_xml.gles1_extensions:
glesdecls['exts']['GLES1 Extensions'][gles1ext] = []
for glesext in registry_xml.gles_extensions:
glesdecls['exts']['GLES2+ Extensions'][glesext] = []
for angle_ext in registry_xml.angle_extensions:
glesdecls['exts']['ANGLE Extensions'][angle_ext] = []
xml.AddExtensionCommands(registry_xml.supported_extensions, ['gles2', 'gles1'])
for extension_name, ext_cmd_names in sorted(xml.ext_data.items()):
extension_commands.extend(xml.ext_data[extension_name])
# Detect and filter duplicate extensions.
eps = GLEntryPoints(apis.GLES, xml, ext_cmd_names)
# Write the extension name as a comment before the first EP.
comment = "\n// {}".format(extension_name)
libgles_ep_exports.append("\n ; %s" % extension_name)
extension_defs += [comment] + eps.defs
extension_decls += [comment] + eps.decls
# Avoid writing out entry points defined by a prior extension.
for dupe in xml.ext_dupes[extension_name]:
msg = "// {} is already defined.\n".format(strip_api_prefix(dupe))
extension_defs.append(msg)
ext_validation_protos += [comment] + eps.validation_protos
ext_capture_protos += [comment] + eps.capture_protos
ext_capture_methods += eps.capture_methods
ext_capture_pointer_funcs += eps.capture_pointer_funcs
libgles_ep_defs += [comment] + eps.export_defs
libgles_ep_exports += get_exports(ext_cmd_names)
if (extension_name in registry_xml.gles1_extensions and
extension_name not in GLES1_NO_CONTEXT_DECL_EXTENSIONS):
glesdecls['exts']['GLES1 Extensions'][extension_name] = get_decls(
apis.GLES, CONTEXT_DECL_FORMAT, xml.all_commands, ext_cmd_names,
all_commands_no_suffix, GLEntryPoints.get_packed_enums())
if extension_name in registry_xml.gles_extensions:
glesdecls['exts']['GLES2+ Extensions'][extension_name] = get_decls(
apis.GLES, CONTEXT_DECL_FORMAT, xml.all_commands, ext_cmd_names,
all_commands_no_suffix, GLEntryPoints.get_packed_enums())
if extension_name in registry_xml.angle_extensions:
glesdecls['exts']['ANGLE Extensions'][extension_name] = get_decls(
apis.GLES, CONTEXT_DECL_FORMAT, xml.all_commands, ext_cmd_names,
all_commands_no_suffix, GLEntryPoints.get_packed_enums())
for name in extension_commands:
all_commands_with_suffix.append(name)
all_commands_no_suffix.append(strip_suffix(apis.GLES, name))
# Now we generate entry points for the desktop implementation
desktop_gl_decls = {}
desktop_gl_decls['core'] = {}
for major, _ in registry_xml.DESKTOP_GL_VERSIONS:
desktop_gl_decls['core'][(major, "X")] = []
libgl_ep_defs = []
libgl_ep_exports = []
glxml = registry_xml.RegistryXML('gl.xml')
for major_version in sorted(
set([major for (major, minor) in registry_xml.DESKTOP_GL_VERSIONS])):
is_major = lambda ver: ver[0] == major_version
ver_decls = ["extern \"C\" {"]
ver_defs = ["extern \"C\" {"]
validation_protos = []
for _, minor_version in filter(is_major, registry_xml.DESKTOP_GL_VERSIONS):
version = "{}_{}".format(major_version, minor_version)
annotation = "GL_{}".format(version)
name_prefix = "GL_VERSION_"
comment = version.replace("_", ".")
feature_name = "{}{}".format(name_prefix, version)
glxml.AddCommands(feature_name, version)
all_libgl_commands = glxml.commands[version]
just_libgl_commands = [
cmd for cmd in all_libgl_commands if cmd not in all_commands_no_suffix
]
just_libgl_commands_suffix = [
cmd for cmd in all_libgl_commands if cmd not in all_commands_with_suffix
]
# Validation duplicates handled with suffix
eps_suffix = GLEntryPoints(apis.GL, glxml, just_libgl_commands_suffix)
eps = GLEntryPoints(apis.GL, glxml, all_libgl_commands)
desktop_gl_decls['core'][(major_version,
"X")] += get_decls(apis.GL, CONTEXT_DECL_FORMAT,
glxml.all_commands, just_libgl_commands,
all_commands_no_suffix,
GLEntryPoints.get_packed_enums())
# Write the version as a comment before the first EP.
cpp_comment = "\n// GL %s" % comment
def_comment = "\n ; GL %s" % comment
libgl_ep_defs += [cpp_comment] + eps.export_defs
libgl_ep_exports += [def_comment] + get_exports(all_libgl_commands)
validation_protos += [cpp_comment] + eps_suffix.validation_protos
ver_decls += [cpp_comment] + eps.decls
ver_defs += [cpp_comment] + eps.defs
ver_decls.append("} // extern \"C\"")
ver_defs.append("} // extern \"C\"")
annotation = "GL_%d" % major_version
name = "Desktop GL %s.x" % major_version
source_includes = TEMPLATE_DESKTOP_GL_SOURCE_INCLUDES.format(annotation.lower(),
major_version)
# Entry point files
write_file(annotation, name, TEMPLATE_ENTRY_POINT_HEADER, "\n".join(ver_decls), "h",
DESKTOP_GL_HEADER_INCLUDES, "libGL", "gl.xml")
write_file(annotation, name, TEMPLATE_ENTRY_POINT_SOURCE, "\n".join(ver_defs), "cpp",
source_includes, "libGL", "gl.xml")
# Validation files
write_gl_validation_header("GL%s" % major_version, name, validation_protos, "gl.xml")
# OpenCL
clxml = registry_xml.RegistryXML('cl.xml')
cl_validation_protos = []
cl_decls = ["namespace cl\n{"]
cl_defs = ["namespace cl\n{"]
libcl_ep_defs = []
libcl_windows_def_exports = []
cl_commands = []
for major_version, minor_version in registry_xml.CL_VERSIONS:
version = "%d_%d" % (major_version, minor_version)
annotation = "CL_%s" % version
name_prefix = "CL_VERSION_"
comment = version.replace("_", ".")
feature_name = "%s%s" % (name_prefix, version)
clxml.AddCommands(feature_name, version)
cl_version_commands = clxml.commands[version]
cl_commands += cl_version_commands
# Spec revs may have no new commands.
if not cl_version_commands:
continue
eps = CLEntryPoints(clxml, cl_version_commands)
comment = "\n// CL %d.%d" % (major_version, minor_version)
win_def_comment = "\n ; CL %d.%d" % (major_version, minor_version)
cl_decls += [comment] + eps.decls
cl_defs += [comment] + eps.defs
libcl_ep_defs += [comment] + eps.export_defs
cl_validation_protos += [comment] + eps.validation_protos
libcl_windows_def_exports += [win_def_comment] + get_exports(clxml.commands[version])
clxml.AddExtensionCommands(registry_xml.supported_cl_extensions, ['cl'])
for extension_name, ext_cmd_names in sorted(clxml.ext_data.items()):
# Extensions may have no new commands.
if not ext_cmd_names:
continue
# Detect and filter duplicate extensions.
eps = CLEntryPoints(clxml, ext_cmd_names)
comment = "\n// %s" % extension_name
win_def_comment = "\n ; %s" % (extension_name)
cl_commands += ext_cmd_names
cl_decls += [comment] + eps.decls
cl_defs += [comment] + eps.defs
libcl_ep_defs += [comment] + eps.export_defs
cl_validation_protos += [comment] + eps.validation_protos
libcl_windows_def_exports += [win_def_comment] + get_exports(ext_cmd_names)
# Avoid writing out entry points defined by a prior extension.
for dupe in clxml.ext_dupes[extension_name]:
msg = "// %s is already defined.\n" % strip_api_prefix(dupe)
cl_defs.append(msg)
cl_decls.append("} // namespace cl")
cl_defs.append("} // namespace cl")
write_file("cl", "CL", TEMPLATE_ENTRY_POINT_HEADER, "\n".join(cl_decls), "h",
LIBCL_HEADER_INCLUDES, "libGLESv2", "cl.xml")
write_file("cl", "CL", TEMPLATE_ENTRY_POINT_SOURCE, "\n".join(cl_defs), "cpp",
LIBCL_SOURCE_INCLUDES, "libGLESv2", "cl.xml")
write_validation_header("CL", "CL", cl_validation_protos, "cl.xml",
TEMPLATE_CL_VALIDATION_HEADER)
write_stubs_header("CL", "cl", "CL", "cl.xml", CL_STUBS_HEADER_PATH, clxml.all_commands,
cl_commands, CLEntryPoints.get_packed_enums(), CL_PACKED_TYPES)
# EGL
eglxml = registry_xml.RegistryXML('egl.xml', 'egl_angle_ext.xml')
egl_validation_protos = []
egl_decls = ["extern \"C\" {"]
egl_defs = ["extern \"C\" {"]
libegl_ep_defs = []
libegl_windows_def_exports = []
egl_commands = []
for major_version, minor_version in registry_xml.EGL_VERSIONS:
version = "%d_%d" % (major_version, minor_version)
annotation = "EGL_%s" % version
name_prefix = "EGL_VERSION_"
comment = version.replace("_", ".")
feature_name = "%s%s" % (name_prefix, version)
eglxml.AddCommands(feature_name, version)
egl_version_commands = eglxml.commands[version]
egl_commands += egl_version_commands
# Spec revs may have no new commands.
if not egl_version_commands:
continue
eps = EGLEntryPoints(eglxml, egl_version_commands)
comment = "\n// EGL %d.%d" % (major_version, minor_version)
win_def_comment = "\n ; EGL %d.%d" % (major_version, minor_version)
egl_decls += [comment] + eps.decls
egl_defs += [comment] + eps.defs
libegl_ep_defs += [comment] + eps.export_defs
egl_validation_protos += [comment] + eps.validation_protos
libegl_windows_def_exports += [win_def_comment] + get_exports(eglxml.commands[version])
egl_decls.append("} // extern \"C\"")
egl_defs.append("} // extern \"C\"")
write_file("egl", "EGL", TEMPLATE_ENTRY_POINT_HEADER, "\n".join(egl_decls), "h",
EGL_HEADER_INCLUDES, "libGLESv2", "egl.xml")
write_file("egl", "EGL", TEMPLATE_ENTRY_POINT_SOURCE, "\n".join(egl_defs), "cpp",
EGL_SOURCE_INCLUDES, "libGLESv2", "egl.xml")
write_stubs_header("EGL", "egl", "EGL", "egl.xml", EGL_STUBS_HEADER_PATH, eglxml.all_commands,
egl_commands, EGLEntryPoints.get_packed_enums(), EGL_PACKED_TYPES)
eglxml.AddExtensionCommands(registry_xml.supported_egl_extensions, ['egl'])
egl_ext_decls = ["extern \"C\" {"]
egl_ext_defs = ["extern \"C\" {"]
egl_ext_commands = []
for extension_name, ext_cmd_names in sorted(eglxml.ext_data.items()):
# Extensions may have no new commands.
if not ext_cmd_names:
continue
# Detect and filter duplicate extensions.
eps = EGLEntryPoints(eglxml, ext_cmd_names)
comment = "\n// %s" % extension_name
win_def_comment = "\n ; %s" % (extension_name)
egl_ext_commands += ext_cmd_names
egl_ext_decls += [comment] + eps.decls
egl_ext_defs += [comment] + eps.defs
libegl_ep_defs += [comment] + eps.export_defs
egl_validation_protos += [comment] + eps.validation_protos
libegl_windows_def_exports += [win_def_comment] + get_exports(ext_cmd_names)
# Avoid writing out entry points defined by a prior extension.
for dupe in eglxml.ext_dupes[extension_name]:
msg = "// %s is already defined.\n" % strip_api_prefix(dupe)
egl_ext_defs.append(msg)
egl_ext_decls.append("} // extern \"C\"")
egl_ext_defs.append("} // extern \"C\"")
write_file("egl_ext", "EGL Extension", TEMPLATE_ENTRY_POINT_HEADER, "\n".join(egl_ext_decls),
"h", EGL_EXT_HEADER_INCLUDES, "libGLESv2", "egl.xml and egl_angle_ext.xml")
write_file("egl_ext", "EGL Extension", TEMPLATE_ENTRY_POINT_SOURCE, "\n".join(egl_ext_defs),
"cpp", EGL_EXT_SOURCE_INCLUDES, "libGLESv2", "egl.xml and egl_angle_ext.xml")
write_validation_header("EGL", "EGL", egl_validation_protos, "egl.xml and egl_angle_ext.xml",
TEMPLATE_EGL_VALIDATION_HEADER)
write_stubs_header("EGL", "egl_ext", "EXT extension", "egl.xml and egl_angle_ext.xml",
EGL_EXT_STUBS_HEADER_PATH, eglxml.all_commands, egl_ext_commands,
EGLEntryPoints.get_packed_enums(), EGL_PACKED_TYPES)
# WGL
wglxml = registry_xml.RegistryXML('wgl.xml')
name_prefix = "WGL_VERSION_"
version = "1_0"
comment = version.replace("_", ".")
feature_name = "{}{}".format(name_prefix, version)
wglxml.AddCommands(feature_name, version)
wgl_commands = wglxml.commands[version]
wgl_commands = [cmd if cmd[:3] == 'wgl' else 'wgl' + cmd for cmd in wgl_commands]
# Write the version as a comment before the first EP.
libgl_ep_exports.append("\n ; WGL %s" % comment)
# Other versions of these functions are used
wgl_commands.remove("wglUseFontBitmaps")
wgl_commands.remove("wglUseFontOutlines")
libgl_ep_exports += get_exports(wgl_commands)
extension_decls.append("} // extern \"C\"")
extension_defs.append("} // extern \"C\"")
write_file("gles_ext", "GLES extension", TEMPLATE_ENTRY_POINT_HEADER,
"\n".join([item for item in extension_decls]), "h", GLES_EXT_HEADER_INCLUDES,
"libGLESv2", "gl.xml and gl_angle_ext.xml")
write_file("gles_ext", "GLES extension", TEMPLATE_ENTRY_POINT_SOURCE,
"\n".join([item for item in extension_defs]), "cpp", GLES_EXT_SOURCE_INCLUDES,
"libGLESv2", "gl.xml and gl_angle_ext.xml")
write_gl_validation_header("ESEXT", "ES extension", ext_validation_protos,
"gl.xml and gl_angle_ext.xml")
write_capture_header("ext", "extension", ext_capture_protos, ext_capture_pointer_funcs)
write_capture_source("ext", "ESEXT", "extension", ext_capture_methods)
write_context_api_decls(glesdecls, "gles")
write_context_api_decls(desktop_gl_decls, "gl")
# Entry point enum
cl_cmd_names = [strip_api_prefix(cmd) for cmd in clxml.all_cmd_names.get_all_commands()]
egl_cmd_names = [strip_api_prefix(cmd) for cmd in eglxml.all_cmd_names.get_all_commands()]
gles_cmd_names = ["Invalid"
] + [strip_api_prefix(cmd) for cmd in xml.all_cmd_names.get_all_commands()]
gl_cmd_names = [strip_api_prefix(cmd) for cmd in glxml.all_cmd_names.get_all_commands()]
wgl_cmd_names = [strip_api_prefix(cmd) for cmd in wglxml.all_cmd_names.get_all_commands()]
unsorted_enums = [("CL%s" % cmd, "cl%s" % cmd) for cmd in cl_cmd_names] + [
("EGL%s" % cmd, "egl%s" % cmd) for cmd in egl_cmd_names
] + [("GL%s" % cmd, "gl%s" % cmd) for cmd in set(gles_cmd_names + gl_cmd_names)
] + [("WGL%s" % cmd, "wgl%s" % cmd) for cmd in wgl_cmd_names]
all_enums = sorted(unsorted_enums)
entry_points_enum_header = TEMPLATE_ENTRY_POINTS_ENUM_HEADER.format(
script_name=os.path.basename(sys.argv[0]),
data_source_name="gl.xml and gl_angle_ext.xml",
lib="GL/GLES",
entry_points_list=",\n".join([" " + enum for (enum, _) in all_enums]))
entry_points_enum_header_path = path_to("common", "entry_points_enum_autogen.h")
with open(entry_points_enum_header_path, "w") as out:
out.write(entry_points_enum_header)
out.close()
entry_points_cases = [
TEMPLATE_ENTRY_POINTS_NAME_CASE.format(enum=enum, cmd=cmd) for (enum, cmd) in all_enums
]
entry_points_enum_source = TEMPLATE_ENTRY_POINTS_ENUM_SOURCE.format(
script_name=os.path.basename(sys.argv[0]),
data_source_name="gl.xml and gl_angle_ext.xml",
lib="GL/GLES",
entry_points_name_cases="\n".join(entry_points_cases))
entry_points_enum_source_path = path_to("common", "entry_points_enum_autogen.cpp")
with open(entry_points_enum_source_path, "w") as out:
out.write(entry_points_enum_source)
out.close()
write_export_files("\n".join([item for item in libgles_ep_defs]), LIBGLESV2_EXPORT_INCLUDES,
"gl.xml and gl_angle_ext.xml", "libGLESv2", "OpenGL ES")
write_export_files("\n".join([item for item in libgl_ep_defs]), LIBGL_EXPORT_INCLUDES,
"gl.xml and wgl.xml", "libGL", "Windows GL")
write_export_files("\n".join([item for item in libegl_ep_defs]),
LIBEGL_EXPORT_INCLUDES_AND_PREAMBLE, "egl.xml and egl_angle_ext.xml",
"libEGL", "EGL")
write_export_files("\n".join([item for item in libcl_ep_defs]), LIBCL_EXPORT_INCLUDES,
"cl.xml", "libOpenCL", "CL")
libgles_ep_exports += get_egl_exports()
everything = "Khronos and ANGLE XML files"
for lib in ["libGLESv2" + suffix for suffix in ["", "_no_capture", "_with_capture"]]:
write_windows_def_file(everything, lib, lib, "libGLESv2", libgles_ep_exports)
write_windows_def_file(everything, "libGL", "openGL32", "libGL", libgl_ep_exports)
write_windows_def_file("egl.xml and egl_angle_ext.xml", "libEGL", "libEGL", "libEGL",
libegl_windows_def_exports)
all_gles_param_types = sorted(GLEntryPoints.all_param_types)
all_egl_param_types = sorted(EGLEntryPoints.all_param_types)
# Get a sorted list of param types without duplicates
all_param_types = sorted(list(set(all_gles_param_types + all_egl_param_types)))
write_capture_helper_header(all_param_types)
write_capture_helper_source(all_param_types)
write_capture_replay_source(apis.GLES, xml.all_commands, all_commands_no_suffix,
GLEntryPoints.get_packed_enums(), [])
if __name__ == '__main__':
sys.exit(main())