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android / platform / external / chromium_org / 8bcbed8 / . / gpu / command_buffer / common / gles2_cmd_format_autogen.h
blob: 4348f4e1231877cb059ec907351f0e8ef0ec82ef [file] [log] [blame]
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// This file is auto-generated from
// gpu/command_buffer/build_gles2_cmd_buffer.py
// DO NOT EDIT!
#ifndef GPU_COMMAND_BUFFER_COMMON_GLES2_CMD_FORMAT_AUTOGEN_H_
#define GPU_COMMAND_BUFFER_COMMON_GLES2_CMD_FORMAT_AUTOGEN_H_
struct ActiveTexture {
typedef ActiveTexture ValueType;
static const CommandId kCmdId = kActiveTexture;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _texture) {
SetHeader();
texture = _texture;
}
void* Set(void* cmd, GLenum _texture) {
static_cast<ValueType*>(cmd)->Init(_texture);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 texture;
};
COMPILE_ASSERT(sizeof(ActiveTexture) == 8,
Sizeof_ActiveTexture_is_not_8);
COMPILE_ASSERT(offsetof(ActiveTexture, header) == 0,
OffsetOf_ActiveTexture_header_not_0);
COMPILE_ASSERT(offsetof(ActiveTexture, texture) == 4,
OffsetOf_ActiveTexture_texture_not_4);
struct AttachShader {
typedef AttachShader ValueType;
static const CommandId kCmdId = kAttachShader;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _program, GLuint _shader) {
SetHeader();
program = _program;
shader = _shader;
}
void* Set(void* cmd, GLuint _program, GLuint _shader) {
static_cast<ValueType*>(cmd)->Init(_program, _shader);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
uint32 shader;
};
COMPILE_ASSERT(sizeof(AttachShader) == 12,
Sizeof_AttachShader_is_not_12);
COMPILE_ASSERT(offsetof(AttachShader, header) == 0,
OffsetOf_AttachShader_header_not_0);
COMPILE_ASSERT(offsetof(AttachShader, program) == 4,
OffsetOf_AttachShader_program_not_4);
COMPILE_ASSERT(offsetof(AttachShader, shader) == 8,
OffsetOf_AttachShader_shader_not_8);
struct BindAttribLocation {
typedef BindAttribLocation ValueType;
static const CommandId kCmdId = kBindAttribLocation;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _program, GLuint _index, uint32 _name_shm_id,
uint32 _name_shm_offset, uint32 _data_size) {
SetHeader();
program = _program;
index = _index;
name_shm_id = _name_shm_id;
name_shm_offset = _name_shm_offset;
data_size = _data_size;
}
void* Set(
void* cmd, GLuint _program, GLuint _index, uint32 _name_shm_id,
uint32 _name_shm_offset, uint32 _data_size) {
static_cast<ValueType*>(
cmd)->Init(
_program, _index, _name_shm_id, _name_shm_offset, _data_size);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
uint32 index;
uint32 name_shm_id;
uint32 name_shm_offset;
uint32 data_size;
};
COMPILE_ASSERT(sizeof(BindAttribLocation) == 24,
Sizeof_BindAttribLocation_is_not_24);
COMPILE_ASSERT(offsetof(BindAttribLocation, header) == 0,
OffsetOf_BindAttribLocation_header_not_0);
COMPILE_ASSERT(offsetof(BindAttribLocation, program) == 4,
OffsetOf_BindAttribLocation_program_not_4);
COMPILE_ASSERT(offsetof(BindAttribLocation, index) == 8,
OffsetOf_BindAttribLocation_index_not_8);
COMPILE_ASSERT(offsetof(BindAttribLocation, name_shm_id) == 12,
OffsetOf_BindAttribLocation_name_shm_id_not_12);
COMPILE_ASSERT(offsetof(BindAttribLocation, name_shm_offset) == 16,
OffsetOf_BindAttribLocation_name_shm_offset_not_16);
COMPILE_ASSERT(offsetof(BindAttribLocation, data_size) == 20,
OffsetOf_BindAttribLocation_data_size_not_20);
struct BindAttribLocationBucket {
typedef BindAttribLocationBucket ValueType;
static const CommandId kCmdId = kBindAttribLocationBucket;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _program, GLuint _index, uint32 _name_bucket_id) {
SetHeader();
program = _program;
index = _index;
name_bucket_id = _name_bucket_id;
}
void* Set(
void* cmd, GLuint _program, GLuint _index, uint32 _name_bucket_id) {
static_cast<ValueType*>(cmd)->Init(_program, _index, _name_bucket_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
uint32 index;
uint32 name_bucket_id;
};
COMPILE_ASSERT(sizeof(BindAttribLocationBucket) == 16,
Sizeof_BindAttribLocationBucket_is_not_16);
COMPILE_ASSERT(offsetof(BindAttribLocationBucket, header) == 0,
OffsetOf_BindAttribLocationBucket_header_not_0);
COMPILE_ASSERT(offsetof(BindAttribLocationBucket, program) == 4,
OffsetOf_BindAttribLocationBucket_program_not_4);
COMPILE_ASSERT(offsetof(BindAttribLocationBucket, index) == 8,
OffsetOf_BindAttribLocationBucket_index_not_8);
COMPILE_ASSERT(offsetof(BindAttribLocationBucket, name_bucket_id) == 12,
OffsetOf_BindAttribLocationBucket_name_bucket_id_not_12);
struct BindBuffer {
typedef BindBuffer ValueType;
static const CommandId kCmdId = kBindBuffer;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _target, GLuint _buffer) {
SetHeader();
target = _target;
buffer = _buffer;
}
void* Set(void* cmd, GLenum _target, GLuint _buffer) {
static_cast<ValueType*>(cmd)->Init(_target, _buffer);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 buffer;
};
COMPILE_ASSERT(sizeof(BindBuffer) == 12,
Sizeof_BindBuffer_is_not_12);
COMPILE_ASSERT(offsetof(BindBuffer, header) == 0,
OffsetOf_BindBuffer_header_not_0);
COMPILE_ASSERT(offsetof(BindBuffer, target) == 4,
OffsetOf_BindBuffer_target_not_4);
COMPILE_ASSERT(offsetof(BindBuffer, buffer) == 8,
OffsetOf_BindBuffer_buffer_not_8);
struct BindFramebuffer {
typedef BindFramebuffer ValueType;
static const CommandId kCmdId = kBindFramebuffer;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _target, GLuint _framebuffer) {
SetHeader();
target = _target;
framebuffer = _framebuffer;
}
void* Set(void* cmd, GLenum _target, GLuint _framebuffer) {
static_cast<ValueType*>(cmd)->Init(_target, _framebuffer);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 framebuffer;
};
COMPILE_ASSERT(sizeof(BindFramebuffer) == 12,
Sizeof_BindFramebuffer_is_not_12);
COMPILE_ASSERT(offsetof(BindFramebuffer, header) == 0,
OffsetOf_BindFramebuffer_header_not_0);
COMPILE_ASSERT(offsetof(BindFramebuffer, target) == 4,
OffsetOf_BindFramebuffer_target_not_4);
COMPILE_ASSERT(offsetof(BindFramebuffer, framebuffer) == 8,
OffsetOf_BindFramebuffer_framebuffer_not_8);
struct BindRenderbuffer {
typedef BindRenderbuffer ValueType;
static const CommandId kCmdId = kBindRenderbuffer;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _target, GLuint _renderbuffer) {
SetHeader();
target = _target;
renderbuffer = _renderbuffer;
}
void* Set(void* cmd, GLenum _target, GLuint _renderbuffer) {
static_cast<ValueType*>(cmd)->Init(_target, _renderbuffer);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 renderbuffer;
};
COMPILE_ASSERT(sizeof(BindRenderbuffer) == 12,
Sizeof_BindRenderbuffer_is_not_12);
COMPILE_ASSERT(offsetof(BindRenderbuffer, header) == 0,
OffsetOf_BindRenderbuffer_header_not_0);
COMPILE_ASSERT(offsetof(BindRenderbuffer, target) == 4,
OffsetOf_BindRenderbuffer_target_not_4);
COMPILE_ASSERT(offsetof(BindRenderbuffer, renderbuffer) == 8,
OffsetOf_BindRenderbuffer_renderbuffer_not_8);
struct BindTexture {
typedef BindTexture ValueType;
static const CommandId kCmdId = kBindTexture;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _target, GLuint _texture) {
SetHeader();
target = _target;
texture = _texture;
}
void* Set(void* cmd, GLenum _target, GLuint _texture) {
static_cast<ValueType*>(cmd)->Init(_target, _texture);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 texture;
};
COMPILE_ASSERT(sizeof(BindTexture) == 12,
Sizeof_BindTexture_is_not_12);
COMPILE_ASSERT(offsetof(BindTexture, header) == 0,
OffsetOf_BindTexture_header_not_0);
COMPILE_ASSERT(offsetof(BindTexture, target) == 4,
OffsetOf_BindTexture_target_not_4);
COMPILE_ASSERT(offsetof(BindTexture, texture) == 8,
OffsetOf_BindTexture_texture_not_8);
struct BlendColor {
typedef BlendColor ValueType;
static const CommandId kCmdId = kBlendColor;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLclampf _red, GLclampf _green, GLclampf _blue, GLclampf _alpha) {
SetHeader();
red = _red;
green = _green;
blue = _blue;
alpha = _alpha;
}
void* Set(
void* cmd, GLclampf _red, GLclampf _green, GLclampf _blue,
GLclampf _alpha) {
static_cast<ValueType*>(cmd)->Init(_red, _green, _blue, _alpha);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
float red;
float green;
float blue;
float alpha;
};
COMPILE_ASSERT(sizeof(BlendColor) == 20,
Sizeof_BlendColor_is_not_20);
COMPILE_ASSERT(offsetof(BlendColor, header) == 0,
OffsetOf_BlendColor_header_not_0);
COMPILE_ASSERT(offsetof(BlendColor, red) == 4,
OffsetOf_BlendColor_red_not_4);
COMPILE_ASSERT(offsetof(BlendColor, green) == 8,
OffsetOf_BlendColor_green_not_8);
COMPILE_ASSERT(offsetof(BlendColor, blue) == 12,
OffsetOf_BlendColor_blue_not_12);
COMPILE_ASSERT(offsetof(BlendColor, alpha) == 16,
OffsetOf_BlendColor_alpha_not_16);
struct BlendEquation {
typedef BlendEquation ValueType;
static const CommandId kCmdId = kBlendEquation;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _mode) {
SetHeader();
mode = _mode;
}
void* Set(void* cmd, GLenum _mode) {
static_cast<ValueType*>(cmd)->Init(_mode);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 mode;
};
COMPILE_ASSERT(sizeof(BlendEquation) == 8,
Sizeof_BlendEquation_is_not_8);
COMPILE_ASSERT(offsetof(BlendEquation, header) == 0,
OffsetOf_BlendEquation_header_not_0);
COMPILE_ASSERT(offsetof(BlendEquation, mode) == 4,
OffsetOf_BlendEquation_mode_not_4);
struct BlendEquationSeparate {
typedef BlendEquationSeparate ValueType;
static const CommandId kCmdId = kBlendEquationSeparate;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _modeRGB, GLenum _modeAlpha) {
SetHeader();
modeRGB = _modeRGB;
modeAlpha = _modeAlpha;
}
void* Set(void* cmd, GLenum _modeRGB, GLenum _modeAlpha) {
static_cast<ValueType*>(cmd)->Init(_modeRGB, _modeAlpha);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 modeRGB;
uint32 modeAlpha;
};
COMPILE_ASSERT(sizeof(BlendEquationSeparate) == 12,
Sizeof_BlendEquationSeparate_is_not_12);
COMPILE_ASSERT(offsetof(BlendEquationSeparate, header) == 0,
OffsetOf_BlendEquationSeparate_header_not_0);
COMPILE_ASSERT(offsetof(BlendEquationSeparate, modeRGB) == 4,
OffsetOf_BlendEquationSeparate_modeRGB_not_4);
COMPILE_ASSERT(offsetof(BlendEquationSeparate, modeAlpha) == 8,
OffsetOf_BlendEquationSeparate_modeAlpha_not_8);
struct BlendFunc {
typedef BlendFunc ValueType;
static const CommandId kCmdId = kBlendFunc;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _sfactor, GLenum _dfactor) {
SetHeader();
sfactor = _sfactor;
dfactor = _dfactor;
}
void* Set(void* cmd, GLenum _sfactor, GLenum _dfactor) {
static_cast<ValueType*>(cmd)->Init(_sfactor, _dfactor);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 sfactor;
uint32 dfactor;
};
COMPILE_ASSERT(sizeof(BlendFunc) == 12,
Sizeof_BlendFunc_is_not_12);
COMPILE_ASSERT(offsetof(BlendFunc, header) == 0,
OffsetOf_BlendFunc_header_not_0);
COMPILE_ASSERT(offsetof(BlendFunc, sfactor) == 4,
OffsetOf_BlendFunc_sfactor_not_4);
COMPILE_ASSERT(offsetof(BlendFunc, dfactor) == 8,
OffsetOf_BlendFunc_dfactor_not_8);
struct BlendFuncSeparate {
typedef BlendFuncSeparate ValueType;
static const CommandId kCmdId = kBlendFuncSeparate;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _srcRGB, GLenum _dstRGB, GLenum _srcAlpha, GLenum _dstAlpha) {
SetHeader();
srcRGB = _srcRGB;
dstRGB = _dstRGB;
srcAlpha = _srcAlpha;
dstAlpha = _dstAlpha;
}
void* Set(
void* cmd, GLenum _srcRGB, GLenum _dstRGB, GLenum _srcAlpha,
GLenum _dstAlpha) {
static_cast<ValueType*>(cmd)->Init(_srcRGB, _dstRGB, _srcAlpha, _dstAlpha);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 srcRGB;
uint32 dstRGB;
uint32 srcAlpha;
uint32 dstAlpha;
};
COMPILE_ASSERT(sizeof(BlendFuncSeparate) == 20,
Sizeof_BlendFuncSeparate_is_not_20);
COMPILE_ASSERT(offsetof(BlendFuncSeparate, header) == 0,
OffsetOf_BlendFuncSeparate_header_not_0);
COMPILE_ASSERT(offsetof(BlendFuncSeparate, srcRGB) == 4,
OffsetOf_BlendFuncSeparate_srcRGB_not_4);
COMPILE_ASSERT(offsetof(BlendFuncSeparate, dstRGB) == 8,
OffsetOf_BlendFuncSeparate_dstRGB_not_8);
COMPILE_ASSERT(offsetof(BlendFuncSeparate, srcAlpha) == 12,
OffsetOf_BlendFuncSeparate_srcAlpha_not_12);
COMPILE_ASSERT(offsetof(BlendFuncSeparate, dstAlpha) == 16,
OffsetOf_BlendFuncSeparate_dstAlpha_not_16);
struct BufferData {
typedef BufferData ValueType;
static const CommandId kCmdId = kBufferData;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLsizeiptr _size, uint32 _data_shm_id,
uint32 _data_shm_offset, GLenum _usage) {
SetHeader();
target = _target;
size = _size;
data_shm_id = _data_shm_id;
data_shm_offset = _data_shm_offset;
usage = _usage;
}
void* Set(
void* cmd, GLenum _target, GLsizeiptr _size, uint32 _data_shm_id,
uint32 _data_shm_offset, GLenum _usage) {
static_cast<ValueType*>(
cmd)->Init(_target, _size, _data_shm_id, _data_shm_offset, _usage);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 size;
uint32 data_shm_id;
uint32 data_shm_offset;
uint32 usage;
};
COMPILE_ASSERT(sizeof(BufferData) == 24,
Sizeof_BufferData_is_not_24);
COMPILE_ASSERT(offsetof(BufferData, header) == 0,
OffsetOf_BufferData_header_not_0);
COMPILE_ASSERT(offsetof(BufferData, target) == 4,
OffsetOf_BufferData_target_not_4);
COMPILE_ASSERT(offsetof(BufferData, size) == 8,
OffsetOf_BufferData_size_not_8);
COMPILE_ASSERT(offsetof(BufferData, data_shm_id) == 12,
OffsetOf_BufferData_data_shm_id_not_12);
COMPILE_ASSERT(offsetof(BufferData, data_shm_offset) == 16,
OffsetOf_BufferData_data_shm_offset_not_16);
COMPILE_ASSERT(offsetof(BufferData, usage) == 20,
OffsetOf_BufferData_usage_not_20);
struct BufferSubData {
typedef BufferSubData ValueType;
static const CommandId kCmdId = kBufferSubData;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLintptr _offset, GLsizeiptr _size, uint32 _data_shm_id,
uint32 _data_shm_offset) {
SetHeader();
target = _target;
offset = _offset;
size = _size;
data_shm_id = _data_shm_id;
data_shm_offset = _data_shm_offset;
}
void* Set(
void* cmd, GLenum _target, GLintptr _offset, GLsizeiptr _size,
uint32 _data_shm_id, uint32 _data_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_target, _offset, _size, _data_shm_id, _data_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 offset;
int32 size;
uint32 data_shm_id;
uint32 data_shm_offset;
};
COMPILE_ASSERT(sizeof(BufferSubData) == 24,
Sizeof_BufferSubData_is_not_24);
COMPILE_ASSERT(offsetof(BufferSubData, header) == 0,
OffsetOf_BufferSubData_header_not_0);
COMPILE_ASSERT(offsetof(BufferSubData, target) == 4,
OffsetOf_BufferSubData_target_not_4);
COMPILE_ASSERT(offsetof(BufferSubData, offset) == 8,
OffsetOf_BufferSubData_offset_not_8);
COMPILE_ASSERT(offsetof(BufferSubData, size) == 12,
OffsetOf_BufferSubData_size_not_12);
COMPILE_ASSERT(offsetof(BufferSubData, data_shm_id) == 16,
OffsetOf_BufferSubData_data_shm_id_not_16);
COMPILE_ASSERT(offsetof(BufferSubData, data_shm_offset) == 20,
OffsetOf_BufferSubData_data_shm_offset_not_20);
struct CheckFramebufferStatus {
typedef CheckFramebufferStatus ValueType;
static const CommandId kCmdId = kCheckFramebufferStatus;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef GLenum Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _target, uint32 _result_shm_id, uint32 _result_shm_offset) {
SetHeader();
target = _target;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
}
void* Set(
void* cmd, GLenum _target, uint32 _result_shm_id,
uint32 _result_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_target, _result_shm_id, _result_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 result_shm_id;
uint32 result_shm_offset;
};
COMPILE_ASSERT(sizeof(CheckFramebufferStatus) == 16,
Sizeof_CheckFramebufferStatus_is_not_16);
COMPILE_ASSERT(offsetof(CheckFramebufferStatus, header) == 0,
OffsetOf_CheckFramebufferStatus_header_not_0);
COMPILE_ASSERT(offsetof(CheckFramebufferStatus, target) == 4,
OffsetOf_CheckFramebufferStatus_target_not_4);
COMPILE_ASSERT(offsetof(CheckFramebufferStatus, result_shm_id) == 8,
OffsetOf_CheckFramebufferStatus_result_shm_id_not_8);
COMPILE_ASSERT(offsetof(CheckFramebufferStatus, result_shm_offset) == 12,
OffsetOf_CheckFramebufferStatus_result_shm_offset_not_12);
struct Clear {
typedef Clear ValueType;
static const CommandId kCmdId = kClear;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLbitfield _mask) {
SetHeader();
mask = _mask;
}
void* Set(void* cmd, GLbitfield _mask) {
static_cast<ValueType*>(cmd)->Init(_mask);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 mask;
};
COMPILE_ASSERT(sizeof(Clear) == 8,
Sizeof_Clear_is_not_8);
COMPILE_ASSERT(offsetof(Clear, header) == 0,
OffsetOf_Clear_header_not_0);
COMPILE_ASSERT(offsetof(Clear, mask) == 4,
OffsetOf_Clear_mask_not_4);
struct ClearColor {
typedef ClearColor ValueType;
static const CommandId kCmdId = kClearColor;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLclampf _red, GLclampf _green, GLclampf _blue, GLclampf _alpha) {
SetHeader();
red = _red;
green = _green;
blue = _blue;
alpha = _alpha;
}
void* Set(
void* cmd, GLclampf _red, GLclampf _green, GLclampf _blue,
GLclampf _alpha) {
static_cast<ValueType*>(cmd)->Init(_red, _green, _blue, _alpha);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
float red;
float green;
float blue;
float alpha;
};
COMPILE_ASSERT(sizeof(ClearColor) == 20,
Sizeof_ClearColor_is_not_20);
COMPILE_ASSERT(offsetof(ClearColor, header) == 0,
OffsetOf_ClearColor_header_not_0);
COMPILE_ASSERT(offsetof(ClearColor, red) == 4,
OffsetOf_ClearColor_red_not_4);
COMPILE_ASSERT(offsetof(ClearColor, green) == 8,
OffsetOf_ClearColor_green_not_8);
COMPILE_ASSERT(offsetof(ClearColor, blue) == 12,
OffsetOf_ClearColor_blue_not_12);
COMPILE_ASSERT(offsetof(ClearColor, alpha) == 16,
OffsetOf_ClearColor_alpha_not_16);
struct ClearDepthf {
typedef ClearDepthf ValueType;
static const CommandId kCmdId = kClearDepthf;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLclampf _depth) {
SetHeader();
depth = _depth;
}
void* Set(void* cmd, GLclampf _depth) {
static_cast<ValueType*>(cmd)->Init(_depth);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
float depth;
};
COMPILE_ASSERT(sizeof(ClearDepthf) == 8,
Sizeof_ClearDepthf_is_not_8);
COMPILE_ASSERT(offsetof(ClearDepthf, header) == 0,
OffsetOf_ClearDepthf_header_not_0);
COMPILE_ASSERT(offsetof(ClearDepthf, depth) == 4,
OffsetOf_ClearDepthf_depth_not_4);
struct ClearStencil {
typedef ClearStencil ValueType;
static const CommandId kCmdId = kClearStencil;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLint _s) {
SetHeader();
s = _s;
}
void* Set(void* cmd, GLint _s) {
static_cast<ValueType*>(cmd)->Init(_s);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 s;
};
COMPILE_ASSERT(sizeof(ClearStencil) == 8,
Sizeof_ClearStencil_is_not_8);
COMPILE_ASSERT(offsetof(ClearStencil, header) == 0,
OffsetOf_ClearStencil_header_not_0);
COMPILE_ASSERT(offsetof(ClearStencil, s) == 4,
OffsetOf_ClearStencil_s_not_4);
struct ColorMask {
typedef ColorMask ValueType;
static const CommandId kCmdId = kColorMask;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLboolean _red, GLboolean _green, GLboolean _blue, GLboolean _alpha) {
SetHeader();
red = _red;
green = _green;
blue = _blue;
alpha = _alpha;
}
void* Set(
void* cmd, GLboolean _red, GLboolean _green, GLboolean _blue,
GLboolean _alpha) {
static_cast<ValueType*>(cmd)->Init(_red, _green, _blue, _alpha);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 red;
uint32 green;
uint32 blue;
uint32 alpha;
};
COMPILE_ASSERT(sizeof(ColorMask) == 20,
Sizeof_ColorMask_is_not_20);
COMPILE_ASSERT(offsetof(ColorMask, header) == 0,
OffsetOf_ColorMask_header_not_0);
COMPILE_ASSERT(offsetof(ColorMask, red) == 4,
OffsetOf_ColorMask_red_not_4);
COMPILE_ASSERT(offsetof(ColorMask, green) == 8,
OffsetOf_ColorMask_green_not_8);
COMPILE_ASSERT(offsetof(ColorMask, blue) == 12,
OffsetOf_ColorMask_blue_not_12);
COMPILE_ASSERT(offsetof(ColorMask, alpha) == 16,
OffsetOf_ColorMask_alpha_not_16);
struct CompileShader {
typedef CompileShader ValueType;
static const CommandId kCmdId = kCompileShader;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _shader) {
SetHeader();
shader = _shader;
}
void* Set(void* cmd, GLuint _shader) {
static_cast<ValueType*>(cmd)->Init(_shader);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 shader;
};
COMPILE_ASSERT(sizeof(CompileShader) == 8,
Sizeof_CompileShader_is_not_8);
COMPILE_ASSERT(offsetof(CompileShader, header) == 0,
OffsetOf_CompileShader_header_not_0);
COMPILE_ASSERT(offsetof(CompileShader, shader) == 4,
OffsetOf_CompileShader_shader_not_4);
struct CompressedTexImage2D {
typedef CompressedTexImage2D ValueType;
static const CommandId kCmdId = kCompressedTexImage2D;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLint _level, GLenum _internalformat, GLsizei _width,
GLsizei _height, GLint _border, GLsizei _imageSize, uint32 _data_shm_id,
uint32 _data_shm_offset) {
SetHeader();
target = _target;
level = _level;
internalformat = _internalformat;
width = _width;
height = _height;
border = _border;
imageSize = _imageSize;
data_shm_id = _data_shm_id;
data_shm_offset = _data_shm_offset;
}
void* Set(
void* cmd, GLenum _target, GLint _level, GLenum _internalformat,
GLsizei _width, GLsizei _height, GLint _border, GLsizei _imageSize,
uint32 _data_shm_id, uint32 _data_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(
_target, _level, _internalformat, _width, _height, _border,
_imageSize, _data_shm_id, _data_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 level;
uint32 internalformat;
int32 width;
int32 height;
int32 border;
int32 imageSize;
uint32 data_shm_id;
uint32 data_shm_offset;
};
COMPILE_ASSERT(sizeof(CompressedTexImage2D) == 40,
Sizeof_CompressedTexImage2D_is_not_40);
COMPILE_ASSERT(offsetof(CompressedTexImage2D, header) == 0,
OffsetOf_CompressedTexImage2D_header_not_0);
COMPILE_ASSERT(offsetof(CompressedTexImage2D, target) == 4,
OffsetOf_CompressedTexImage2D_target_not_4);
COMPILE_ASSERT(offsetof(CompressedTexImage2D, level) == 8,
OffsetOf_CompressedTexImage2D_level_not_8);
COMPILE_ASSERT(offsetof(CompressedTexImage2D, internalformat) == 12,
OffsetOf_CompressedTexImage2D_internalformat_not_12);
COMPILE_ASSERT(offsetof(CompressedTexImage2D, width) == 16,
OffsetOf_CompressedTexImage2D_width_not_16);
COMPILE_ASSERT(offsetof(CompressedTexImage2D, height) == 20,
OffsetOf_CompressedTexImage2D_height_not_20);
COMPILE_ASSERT(offsetof(CompressedTexImage2D, border) == 24,
OffsetOf_CompressedTexImage2D_border_not_24);
COMPILE_ASSERT(offsetof(CompressedTexImage2D, imageSize) == 28,
OffsetOf_CompressedTexImage2D_imageSize_not_28);
COMPILE_ASSERT(offsetof(CompressedTexImage2D, data_shm_id) == 32,
OffsetOf_CompressedTexImage2D_data_shm_id_not_32);
COMPILE_ASSERT(offsetof(CompressedTexImage2D, data_shm_offset) == 36,
OffsetOf_CompressedTexImage2D_data_shm_offset_not_36);
struct CompressedTexImage2DBucket {
typedef CompressedTexImage2DBucket ValueType;
static const CommandId kCmdId = kCompressedTexImage2DBucket;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLint _level, GLenum _internalformat, GLsizei _width,
GLsizei _height, GLint _border, GLuint _bucket_id) {
SetHeader();
target = _target;
level = _level;
internalformat = _internalformat;
width = _width;
height = _height;
border = _border;
bucket_id = _bucket_id;
}
void* Set(
void* cmd, GLenum _target, GLint _level, GLenum _internalformat,
GLsizei _width, GLsizei _height, GLint _border, GLuint _bucket_id) {
static_cast<ValueType*>(
cmd)->Init(
_target, _level, _internalformat, _width, _height, _border,
_bucket_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 level;
uint32 internalformat;
int32 width;
int32 height;
int32 border;
uint32 bucket_id;
};
COMPILE_ASSERT(sizeof(CompressedTexImage2DBucket) == 32,
Sizeof_CompressedTexImage2DBucket_is_not_32);
COMPILE_ASSERT(offsetof(CompressedTexImage2DBucket, header) == 0,
OffsetOf_CompressedTexImage2DBucket_header_not_0);
COMPILE_ASSERT(offsetof(CompressedTexImage2DBucket, target) == 4,
OffsetOf_CompressedTexImage2DBucket_target_not_4);
COMPILE_ASSERT(offsetof(CompressedTexImage2DBucket, level) == 8,
OffsetOf_CompressedTexImage2DBucket_level_not_8);
COMPILE_ASSERT(offsetof(CompressedTexImage2DBucket, internalformat) == 12,
OffsetOf_CompressedTexImage2DBucket_internalformat_not_12);
COMPILE_ASSERT(offsetof(CompressedTexImage2DBucket, width) == 16,
OffsetOf_CompressedTexImage2DBucket_width_not_16);
COMPILE_ASSERT(offsetof(CompressedTexImage2DBucket, height) == 20,
OffsetOf_CompressedTexImage2DBucket_height_not_20);
COMPILE_ASSERT(offsetof(CompressedTexImage2DBucket, border) == 24,
OffsetOf_CompressedTexImage2DBucket_border_not_24);
COMPILE_ASSERT(offsetof(CompressedTexImage2DBucket, bucket_id) == 28,
OffsetOf_CompressedTexImage2DBucket_bucket_id_not_28);
struct CompressedTexSubImage2D {
typedef CompressedTexSubImage2D ValueType;
static const CommandId kCmdId = kCompressedTexSubImage2D;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLint _level, GLint _xoffset, GLint _yoffset,
GLsizei _width, GLsizei _height, GLenum _format, GLsizei _imageSize,
uint32 _data_shm_id, uint32 _data_shm_offset) {
SetHeader();
target = _target;
level = _level;
xoffset = _xoffset;
yoffset = _yoffset;
width = _width;
height = _height;
format = _format;
imageSize = _imageSize;
data_shm_id = _data_shm_id;
data_shm_offset = _data_shm_offset;
}
void* Set(
void* cmd, GLenum _target, GLint _level, GLint _xoffset, GLint _yoffset,
GLsizei _width, GLsizei _height, GLenum _format, GLsizei _imageSize,
uint32 _data_shm_id, uint32 _data_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(
_target, _level, _xoffset, _yoffset, _width, _height, _format,
_imageSize, _data_shm_id, _data_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 level;
int32 xoffset;
int32 yoffset;
int32 width;
int32 height;
uint32 format;
int32 imageSize;
uint32 data_shm_id;
uint32 data_shm_offset;
};
COMPILE_ASSERT(sizeof(CompressedTexSubImage2D) == 44,
Sizeof_CompressedTexSubImage2D_is_not_44);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2D, header) == 0,
OffsetOf_CompressedTexSubImage2D_header_not_0);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2D, target) == 4,
OffsetOf_CompressedTexSubImage2D_target_not_4);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2D, level) == 8,
OffsetOf_CompressedTexSubImage2D_level_not_8);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2D, xoffset) == 12,
OffsetOf_CompressedTexSubImage2D_xoffset_not_12);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2D, yoffset) == 16,
OffsetOf_CompressedTexSubImage2D_yoffset_not_16);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2D, width) == 20,
OffsetOf_CompressedTexSubImage2D_width_not_20);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2D, height) == 24,
OffsetOf_CompressedTexSubImage2D_height_not_24);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2D, format) == 28,
OffsetOf_CompressedTexSubImage2D_format_not_28);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2D, imageSize) == 32,
OffsetOf_CompressedTexSubImage2D_imageSize_not_32);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2D, data_shm_id) == 36,
OffsetOf_CompressedTexSubImage2D_data_shm_id_not_36);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2D, data_shm_offset) == 40,
OffsetOf_CompressedTexSubImage2D_data_shm_offset_not_40);
struct CompressedTexSubImage2DBucket {
typedef CompressedTexSubImage2DBucket ValueType;
static const CommandId kCmdId = kCompressedTexSubImage2DBucket;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLint _level, GLint _xoffset, GLint _yoffset,
GLsizei _width, GLsizei _height, GLenum _format, GLuint _bucket_id) {
SetHeader();
target = _target;
level = _level;
xoffset = _xoffset;
yoffset = _yoffset;
width = _width;
height = _height;
format = _format;
bucket_id = _bucket_id;
}
void* Set(
void* cmd, GLenum _target, GLint _level, GLint _xoffset, GLint _yoffset,
GLsizei _width, GLsizei _height, GLenum _format, GLuint _bucket_id) {
static_cast<ValueType*>(
cmd)->Init(
_target, _level, _xoffset, _yoffset, _width, _height, _format,
_bucket_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 level;
int32 xoffset;
int32 yoffset;
int32 width;
int32 height;
uint32 format;
uint32 bucket_id;
};
COMPILE_ASSERT(sizeof(CompressedTexSubImage2DBucket) == 36,
Sizeof_CompressedTexSubImage2DBucket_is_not_36);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2DBucket, header) == 0,
OffsetOf_CompressedTexSubImage2DBucket_header_not_0);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2DBucket, target) == 4,
OffsetOf_CompressedTexSubImage2DBucket_target_not_4);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2DBucket, level) == 8,
OffsetOf_CompressedTexSubImage2DBucket_level_not_8);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2DBucket, xoffset) == 12,
OffsetOf_CompressedTexSubImage2DBucket_xoffset_not_12);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2DBucket, yoffset) == 16,
OffsetOf_CompressedTexSubImage2DBucket_yoffset_not_16);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2DBucket, width) == 20,
OffsetOf_CompressedTexSubImage2DBucket_width_not_20);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2DBucket, height) == 24,
OffsetOf_CompressedTexSubImage2DBucket_height_not_24);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2DBucket, format) == 28,
OffsetOf_CompressedTexSubImage2DBucket_format_not_28);
COMPILE_ASSERT(offsetof(CompressedTexSubImage2DBucket, bucket_id) == 32,
OffsetOf_CompressedTexSubImage2DBucket_bucket_id_not_32);
struct CopyTexImage2D {
typedef CopyTexImage2D ValueType;
static const CommandId kCmdId = kCopyTexImage2D;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLint _level, GLenum _internalformat, GLint _x, GLint _y,
GLsizei _width, GLsizei _height, GLint _border) {
SetHeader();
target = _target;
level = _level;
internalformat = _internalformat;
x = _x;
y = _y;
width = _width;
height = _height;
border = _border;
}
void* Set(
void* cmd, GLenum _target, GLint _level, GLenum _internalformat, GLint _x,
GLint _y, GLsizei _width, GLsizei _height, GLint _border) {
static_cast<ValueType*>(
cmd)->Init(
_target, _level, _internalformat, _x, _y, _width, _height,
_border);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 level;
uint32 internalformat;
int32 x;
int32 y;
int32 width;
int32 height;
int32 border;
};
COMPILE_ASSERT(sizeof(CopyTexImage2D) == 36,
Sizeof_CopyTexImage2D_is_not_36);
COMPILE_ASSERT(offsetof(CopyTexImage2D, header) == 0,
OffsetOf_CopyTexImage2D_header_not_0);
COMPILE_ASSERT(offsetof(CopyTexImage2D, target) == 4,
OffsetOf_CopyTexImage2D_target_not_4);
COMPILE_ASSERT(offsetof(CopyTexImage2D, level) == 8,
OffsetOf_CopyTexImage2D_level_not_8);
COMPILE_ASSERT(offsetof(CopyTexImage2D, internalformat) == 12,
OffsetOf_CopyTexImage2D_internalformat_not_12);
COMPILE_ASSERT(offsetof(CopyTexImage2D, x) == 16,
OffsetOf_CopyTexImage2D_x_not_16);
COMPILE_ASSERT(offsetof(CopyTexImage2D, y) == 20,
OffsetOf_CopyTexImage2D_y_not_20);
COMPILE_ASSERT(offsetof(CopyTexImage2D, width) == 24,
OffsetOf_CopyTexImage2D_width_not_24);
COMPILE_ASSERT(offsetof(CopyTexImage2D, height) == 28,
OffsetOf_CopyTexImage2D_height_not_28);
COMPILE_ASSERT(offsetof(CopyTexImage2D, border) == 32,
OffsetOf_CopyTexImage2D_border_not_32);
struct CopyTexSubImage2D {
typedef CopyTexSubImage2D ValueType;
static const CommandId kCmdId = kCopyTexSubImage2D;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLint _level, GLint _xoffset, GLint _yoffset, GLint _x,
GLint _y, GLsizei _width, GLsizei _height) {
SetHeader();
target = _target;
level = _level;
xoffset = _xoffset;
yoffset = _yoffset;
x = _x;
y = _y;
width = _width;
height = _height;
}
void* Set(
void* cmd, GLenum _target, GLint _level, GLint _xoffset, GLint _yoffset,
GLint _x, GLint _y, GLsizei _width, GLsizei _height) {
static_cast<ValueType*>(
cmd)->Init(
_target, _level, _xoffset, _yoffset, _x, _y, _width, _height);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 level;
int32 xoffset;
int32 yoffset;
int32 x;
int32 y;
int32 width;
int32 height;
};
COMPILE_ASSERT(sizeof(CopyTexSubImage2D) == 36,
Sizeof_CopyTexSubImage2D_is_not_36);
COMPILE_ASSERT(offsetof(CopyTexSubImage2D, header) == 0,
OffsetOf_CopyTexSubImage2D_header_not_0);
COMPILE_ASSERT(offsetof(CopyTexSubImage2D, target) == 4,
OffsetOf_CopyTexSubImage2D_target_not_4);
COMPILE_ASSERT(offsetof(CopyTexSubImage2D, level) == 8,
OffsetOf_CopyTexSubImage2D_level_not_8);
COMPILE_ASSERT(offsetof(CopyTexSubImage2D, xoffset) == 12,
OffsetOf_CopyTexSubImage2D_xoffset_not_12);
COMPILE_ASSERT(offsetof(CopyTexSubImage2D, yoffset) == 16,
OffsetOf_CopyTexSubImage2D_yoffset_not_16);
COMPILE_ASSERT(offsetof(CopyTexSubImage2D, x) == 20,
OffsetOf_CopyTexSubImage2D_x_not_20);
COMPILE_ASSERT(offsetof(CopyTexSubImage2D, y) == 24,
OffsetOf_CopyTexSubImage2D_y_not_24);
COMPILE_ASSERT(offsetof(CopyTexSubImage2D, width) == 28,
OffsetOf_CopyTexSubImage2D_width_not_28);
COMPILE_ASSERT(offsetof(CopyTexSubImage2D, height) == 32,
OffsetOf_CopyTexSubImage2D_height_not_32);
struct CreateProgram {
typedef CreateProgram ValueType;
static const CommandId kCmdId = kCreateProgram;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(uint32 _client_id) {
SetHeader();
client_id = _client_id;
}
void* Set(void* cmd, uint32 _client_id) {
static_cast<ValueType*>(cmd)->Init(_client_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 client_id;
};
COMPILE_ASSERT(sizeof(CreateProgram) == 8,
Sizeof_CreateProgram_is_not_8);
COMPILE_ASSERT(offsetof(CreateProgram, header) == 0,
OffsetOf_CreateProgram_header_not_0);
COMPILE_ASSERT(offsetof(CreateProgram, client_id) == 4,
OffsetOf_CreateProgram_client_id_not_4);
struct CreateShader {
typedef CreateShader ValueType;
static const CommandId kCmdId = kCreateShader;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _type, uint32 _client_id) {
SetHeader();
type = _type;
client_id = _client_id;
}
void* Set(void* cmd, GLenum _type, uint32 _client_id) {
static_cast<ValueType*>(cmd)->Init(_type, _client_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 type;
uint32 client_id;
};
COMPILE_ASSERT(sizeof(CreateShader) == 12,
Sizeof_CreateShader_is_not_12);
COMPILE_ASSERT(offsetof(CreateShader, header) == 0,
OffsetOf_CreateShader_header_not_0);
COMPILE_ASSERT(offsetof(CreateShader, type) == 4,
OffsetOf_CreateShader_type_not_4);
COMPILE_ASSERT(offsetof(CreateShader, client_id) == 8,
OffsetOf_CreateShader_client_id_not_8);
struct CullFace {
typedef CullFace ValueType;
static const CommandId kCmdId = kCullFace;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _mode) {
SetHeader();
mode = _mode;
}
void* Set(void* cmd, GLenum _mode) {
static_cast<ValueType*>(cmd)->Init(_mode);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 mode;
};
COMPILE_ASSERT(sizeof(CullFace) == 8,
Sizeof_CullFace_is_not_8);
COMPILE_ASSERT(offsetof(CullFace, header) == 0,
OffsetOf_CullFace_header_not_0);
COMPILE_ASSERT(offsetof(CullFace, mode) == 4,
OffsetOf_CullFace_mode_not_4);
struct DeleteBuffers {
typedef DeleteBuffers ValueType;
static const CommandId kCmdId = kDeleteBuffers;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLsizei _n, uint32 _buffers_shm_id, uint32 _buffers_shm_offset) {
SetHeader();
n = _n;
buffers_shm_id = _buffers_shm_id;
buffers_shm_offset = _buffers_shm_offset;
}
void* Set(
void* cmd, GLsizei _n, uint32 _buffers_shm_id,
uint32 _buffers_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_n, _buffers_shm_id, _buffers_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 n;
uint32 buffers_shm_id;
uint32 buffers_shm_offset;
};
COMPILE_ASSERT(sizeof(DeleteBuffers) == 16,
Sizeof_DeleteBuffers_is_not_16);
COMPILE_ASSERT(offsetof(DeleteBuffers, header) == 0,
OffsetOf_DeleteBuffers_header_not_0);
COMPILE_ASSERT(offsetof(DeleteBuffers, n) == 4,
OffsetOf_DeleteBuffers_n_not_4);
COMPILE_ASSERT(offsetof(DeleteBuffers, buffers_shm_id) == 8,
OffsetOf_DeleteBuffers_buffers_shm_id_not_8);
COMPILE_ASSERT(offsetof(DeleteBuffers, buffers_shm_offset) == 12,
OffsetOf_DeleteBuffers_buffers_shm_offset_not_12);
struct DeleteBuffersImmediate {
typedef DeleteBuffersImmediate ValueType;
static const CommandId kCmdId = kDeleteBuffersImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei n) {
return static_cast<uint32>(sizeof(GLuint) * n); // NOLINT
}
static uint32 ComputeSize(GLsizei n) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(n)); // NOLINT
}
void SetHeader(GLsizei n) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(n));
}
void Init(GLsizei _n, const GLuint* _buffers) {
SetHeader(_n);
n = _n;
memcpy(ImmediateDataAddress(this),
_buffers, ComputeDataSize(_n));
}
void* Set(void* cmd, GLsizei _n, const GLuint* _buffers) {
static_cast<ValueType*>(cmd)->Init(_n, _buffers);
const uint32 size = ComputeSize(_n);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 n;
};
COMPILE_ASSERT(sizeof(DeleteBuffersImmediate) == 8,
Sizeof_DeleteBuffersImmediate_is_not_8);
COMPILE_ASSERT(offsetof(DeleteBuffersImmediate, header) == 0,
OffsetOf_DeleteBuffersImmediate_header_not_0);
COMPILE_ASSERT(offsetof(DeleteBuffersImmediate, n) == 4,
OffsetOf_DeleteBuffersImmediate_n_not_4);
struct DeleteFramebuffers {
typedef DeleteFramebuffers ValueType;
static const CommandId kCmdId = kDeleteFramebuffers;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLsizei _n, uint32 _framebuffers_shm_id,
uint32 _framebuffers_shm_offset) {
SetHeader();
n = _n;
framebuffers_shm_id = _framebuffers_shm_id;
framebuffers_shm_offset = _framebuffers_shm_offset;
}
void* Set(
void* cmd, GLsizei _n, uint32 _framebuffers_shm_id,
uint32 _framebuffers_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_n, _framebuffers_shm_id, _framebuffers_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 n;
uint32 framebuffers_shm_id;
uint32 framebuffers_shm_offset;
};
COMPILE_ASSERT(sizeof(DeleteFramebuffers) == 16,
Sizeof_DeleteFramebuffers_is_not_16);
COMPILE_ASSERT(offsetof(DeleteFramebuffers, header) == 0,
OffsetOf_DeleteFramebuffers_header_not_0);
COMPILE_ASSERT(offsetof(DeleteFramebuffers, n) == 4,
OffsetOf_DeleteFramebuffers_n_not_4);
COMPILE_ASSERT(offsetof(DeleteFramebuffers, framebuffers_shm_id) == 8,
OffsetOf_DeleteFramebuffers_framebuffers_shm_id_not_8);
COMPILE_ASSERT(offsetof(DeleteFramebuffers, framebuffers_shm_offset) == 12,
OffsetOf_DeleteFramebuffers_framebuffers_shm_offset_not_12);
struct DeleteFramebuffersImmediate {
typedef DeleteFramebuffersImmediate ValueType;
static const CommandId kCmdId = kDeleteFramebuffersImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei n) {
return static_cast<uint32>(sizeof(GLuint) * n); // NOLINT
}
static uint32 ComputeSize(GLsizei n) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(n)); // NOLINT
}
void SetHeader(GLsizei n) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(n));
}
void Init(GLsizei _n, const GLuint* _framebuffers) {
SetHeader(_n);
n = _n;
memcpy(ImmediateDataAddress(this),
_framebuffers, ComputeDataSize(_n));
}
void* Set(void* cmd, GLsizei _n, const GLuint* _framebuffers) {
static_cast<ValueType*>(cmd)->Init(_n, _framebuffers);
const uint32 size = ComputeSize(_n);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 n;
};
COMPILE_ASSERT(sizeof(DeleteFramebuffersImmediate) == 8,
Sizeof_DeleteFramebuffersImmediate_is_not_8);
COMPILE_ASSERT(offsetof(DeleteFramebuffersImmediate, header) == 0,
OffsetOf_DeleteFramebuffersImmediate_header_not_0);
COMPILE_ASSERT(offsetof(DeleteFramebuffersImmediate, n) == 4,
OffsetOf_DeleteFramebuffersImmediate_n_not_4);
struct DeleteProgram {
typedef DeleteProgram ValueType;
static const CommandId kCmdId = kDeleteProgram;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _program) {
SetHeader();
program = _program;
}
void* Set(void* cmd, GLuint _program) {
static_cast<ValueType*>(cmd)->Init(_program);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
};
COMPILE_ASSERT(sizeof(DeleteProgram) == 8,
Sizeof_DeleteProgram_is_not_8);
COMPILE_ASSERT(offsetof(DeleteProgram, header) == 0,
OffsetOf_DeleteProgram_header_not_0);
COMPILE_ASSERT(offsetof(DeleteProgram, program) == 4,
OffsetOf_DeleteProgram_program_not_4);
struct DeleteRenderbuffers {
typedef DeleteRenderbuffers ValueType;
static const CommandId kCmdId = kDeleteRenderbuffers;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLsizei _n, uint32 _renderbuffers_shm_id,
uint32 _renderbuffers_shm_offset) {
SetHeader();
n = _n;
renderbuffers_shm_id = _renderbuffers_shm_id;
renderbuffers_shm_offset = _renderbuffers_shm_offset;
}
void* Set(
void* cmd, GLsizei _n, uint32 _renderbuffers_shm_id,
uint32 _renderbuffers_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_n, _renderbuffers_shm_id, _renderbuffers_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 n;
uint32 renderbuffers_shm_id;
uint32 renderbuffers_shm_offset;
};
COMPILE_ASSERT(sizeof(DeleteRenderbuffers) == 16,
Sizeof_DeleteRenderbuffers_is_not_16);
COMPILE_ASSERT(offsetof(DeleteRenderbuffers, header) == 0,
OffsetOf_DeleteRenderbuffers_header_not_0);
COMPILE_ASSERT(offsetof(DeleteRenderbuffers, n) == 4,
OffsetOf_DeleteRenderbuffers_n_not_4);
COMPILE_ASSERT(offsetof(DeleteRenderbuffers, renderbuffers_shm_id) == 8,
OffsetOf_DeleteRenderbuffers_renderbuffers_shm_id_not_8);
COMPILE_ASSERT(offsetof(DeleteRenderbuffers, renderbuffers_shm_offset) == 12,
OffsetOf_DeleteRenderbuffers_renderbuffers_shm_offset_not_12);
struct DeleteRenderbuffersImmediate {
typedef DeleteRenderbuffersImmediate ValueType;
static const CommandId kCmdId = kDeleteRenderbuffersImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei n) {
return static_cast<uint32>(sizeof(GLuint) * n); // NOLINT
}
static uint32 ComputeSize(GLsizei n) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(n)); // NOLINT
}
void SetHeader(GLsizei n) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(n));
}
void Init(GLsizei _n, const GLuint* _renderbuffers) {
SetHeader(_n);
n = _n;
memcpy(ImmediateDataAddress(this),
_renderbuffers, ComputeDataSize(_n));
}
void* Set(void* cmd, GLsizei _n, const GLuint* _renderbuffers) {
static_cast<ValueType*>(cmd)->Init(_n, _renderbuffers);
const uint32 size = ComputeSize(_n);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 n;
};
COMPILE_ASSERT(sizeof(DeleteRenderbuffersImmediate) == 8,
Sizeof_DeleteRenderbuffersImmediate_is_not_8);
COMPILE_ASSERT(offsetof(DeleteRenderbuffersImmediate, header) == 0,
OffsetOf_DeleteRenderbuffersImmediate_header_not_0);
COMPILE_ASSERT(offsetof(DeleteRenderbuffersImmediate, n) == 4,
OffsetOf_DeleteRenderbuffersImmediate_n_not_4);
struct DeleteShader {
typedef DeleteShader ValueType;
static const CommandId kCmdId = kDeleteShader;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _shader) {
SetHeader();
shader = _shader;
}
void* Set(void* cmd, GLuint _shader) {
static_cast<ValueType*>(cmd)->Init(_shader);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 shader;
};
COMPILE_ASSERT(sizeof(DeleteShader) == 8,
Sizeof_DeleteShader_is_not_8);
COMPILE_ASSERT(offsetof(DeleteShader, header) == 0,
OffsetOf_DeleteShader_header_not_0);
COMPILE_ASSERT(offsetof(DeleteShader, shader) == 4,
OffsetOf_DeleteShader_shader_not_4);
struct DeleteTextures {
typedef DeleteTextures ValueType;
static const CommandId kCmdId = kDeleteTextures;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLsizei _n, uint32 _textures_shm_id, uint32 _textures_shm_offset) {
SetHeader();
n = _n;
textures_shm_id = _textures_shm_id;
textures_shm_offset = _textures_shm_offset;
}
void* Set(
void* cmd, GLsizei _n, uint32 _textures_shm_id,
uint32 _textures_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_n, _textures_shm_id, _textures_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 n;
uint32 textures_shm_id;
uint32 textures_shm_offset;
};
COMPILE_ASSERT(sizeof(DeleteTextures) == 16,
Sizeof_DeleteTextures_is_not_16);
COMPILE_ASSERT(offsetof(DeleteTextures, header) == 0,
OffsetOf_DeleteTextures_header_not_0);
COMPILE_ASSERT(offsetof(DeleteTextures, n) == 4,
OffsetOf_DeleteTextures_n_not_4);
COMPILE_ASSERT(offsetof(DeleteTextures, textures_shm_id) == 8,
OffsetOf_DeleteTextures_textures_shm_id_not_8);
COMPILE_ASSERT(offsetof(DeleteTextures, textures_shm_offset) == 12,
OffsetOf_DeleteTextures_textures_shm_offset_not_12);
struct DeleteTexturesImmediate {
typedef DeleteTexturesImmediate ValueType;
static const CommandId kCmdId = kDeleteTexturesImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei n) {
return static_cast<uint32>(sizeof(GLuint) * n); // NOLINT
}
static uint32 ComputeSize(GLsizei n) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(n)); // NOLINT
}
void SetHeader(GLsizei n) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(n));
}
void Init(GLsizei _n, const GLuint* _textures) {
SetHeader(_n);
n = _n;
memcpy(ImmediateDataAddress(this),
_textures, ComputeDataSize(_n));
}
void* Set(void* cmd, GLsizei _n, const GLuint* _textures) {
static_cast<ValueType*>(cmd)->Init(_n, _textures);
const uint32 size = ComputeSize(_n);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 n;
};
COMPILE_ASSERT(sizeof(DeleteTexturesImmediate) == 8,
Sizeof_DeleteTexturesImmediate_is_not_8);
COMPILE_ASSERT(offsetof(DeleteTexturesImmediate, header) == 0,
OffsetOf_DeleteTexturesImmediate_header_not_0);
COMPILE_ASSERT(offsetof(DeleteTexturesImmediate, n) == 4,
OffsetOf_DeleteTexturesImmediate_n_not_4);
struct DepthFunc {
typedef DepthFunc ValueType;
static const CommandId kCmdId = kDepthFunc;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _func) {
SetHeader();
func = _func;
}
void* Set(void* cmd, GLenum _func) {
static_cast<ValueType*>(cmd)->Init(_func);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 func;
};
COMPILE_ASSERT(sizeof(DepthFunc) == 8,
Sizeof_DepthFunc_is_not_8);
COMPILE_ASSERT(offsetof(DepthFunc, header) == 0,
OffsetOf_DepthFunc_header_not_0);
COMPILE_ASSERT(offsetof(DepthFunc, func) == 4,
OffsetOf_DepthFunc_func_not_4);
struct DepthMask {
typedef DepthMask ValueType;
static const CommandId kCmdId = kDepthMask;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLboolean _flag) {
SetHeader();
flag = _flag;
}
void* Set(void* cmd, GLboolean _flag) {
static_cast<ValueType*>(cmd)->Init(_flag);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 flag;
};
COMPILE_ASSERT(sizeof(DepthMask) == 8,
Sizeof_DepthMask_is_not_8);
COMPILE_ASSERT(offsetof(DepthMask, header) == 0,
OffsetOf_DepthMask_header_not_0);
COMPILE_ASSERT(offsetof(DepthMask, flag) == 4,
OffsetOf_DepthMask_flag_not_4);
struct DepthRangef {
typedef DepthRangef ValueType;
static const CommandId kCmdId = kDepthRangef;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLclampf _zNear, GLclampf _zFar) {
SetHeader();
zNear = _zNear;
zFar = _zFar;
}
void* Set(void* cmd, GLclampf _zNear, GLclampf _zFar) {
static_cast<ValueType*>(cmd)->Init(_zNear, _zFar);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
float zNear;
float zFar;
};
COMPILE_ASSERT(sizeof(DepthRangef) == 12,
Sizeof_DepthRangef_is_not_12);
COMPILE_ASSERT(offsetof(DepthRangef, header) == 0,
OffsetOf_DepthRangef_header_not_0);
COMPILE_ASSERT(offsetof(DepthRangef, zNear) == 4,
OffsetOf_DepthRangef_zNear_not_4);
COMPILE_ASSERT(offsetof(DepthRangef, zFar) == 8,
OffsetOf_DepthRangef_zFar_not_8);
struct DetachShader {
typedef DetachShader ValueType;
static const CommandId kCmdId = kDetachShader;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _program, GLuint _shader) {
SetHeader();
program = _program;
shader = _shader;
}
void* Set(void* cmd, GLuint _program, GLuint _shader) {
static_cast<ValueType*>(cmd)->Init(_program, _shader);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
uint32 shader;
};
COMPILE_ASSERT(sizeof(DetachShader) == 12,
Sizeof_DetachShader_is_not_12);
COMPILE_ASSERT(offsetof(DetachShader, header) == 0,
OffsetOf_DetachShader_header_not_0);
COMPILE_ASSERT(offsetof(DetachShader, program) == 4,
OffsetOf_DetachShader_program_not_4);
COMPILE_ASSERT(offsetof(DetachShader, shader) == 8,
OffsetOf_DetachShader_shader_not_8);
struct Disable {
typedef Disable ValueType;
static const CommandId kCmdId = kDisable;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _cap) {
SetHeader();
cap = _cap;
}
void* Set(void* cmd, GLenum _cap) {
static_cast<ValueType*>(cmd)->Init(_cap);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 cap;
};
COMPILE_ASSERT(sizeof(Disable) == 8,
Sizeof_Disable_is_not_8);
COMPILE_ASSERT(offsetof(Disable, header) == 0,
OffsetOf_Disable_header_not_0);
COMPILE_ASSERT(offsetof(Disable, cap) == 4,
OffsetOf_Disable_cap_not_4);
struct DisableVertexAttribArray {
typedef DisableVertexAttribArray ValueType;
static const CommandId kCmdId = kDisableVertexAttribArray;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _index) {
SetHeader();
index = _index;
}
void* Set(void* cmd, GLuint _index) {
static_cast<ValueType*>(cmd)->Init(_index);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 index;
};
COMPILE_ASSERT(sizeof(DisableVertexAttribArray) == 8,
Sizeof_DisableVertexAttribArray_is_not_8);
COMPILE_ASSERT(offsetof(DisableVertexAttribArray, header) == 0,
OffsetOf_DisableVertexAttribArray_header_not_0);
COMPILE_ASSERT(offsetof(DisableVertexAttribArray, index) == 4,
OffsetOf_DisableVertexAttribArray_index_not_4);
struct DrawArrays {
typedef DrawArrays ValueType;
static const CommandId kCmdId = kDrawArrays;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _mode, GLint _first, GLsizei _count) {
SetHeader();
mode = _mode;
first = _first;
count = _count;
}
void* Set(void* cmd, GLenum _mode, GLint _first, GLsizei _count) {
static_cast<ValueType*>(cmd)->Init(_mode, _first, _count);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 mode;
int32 first;
int32 count;
};
COMPILE_ASSERT(sizeof(DrawArrays) == 16,
Sizeof_DrawArrays_is_not_16);
COMPILE_ASSERT(offsetof(DrawArrays, header) == 0,
OffsetOf_DrawArrays_header_not_0);
COMPILE_ASSERT(offsetof(DrawArrays, mode) == 4,
OffsetOf_DrawArrays_mode_not_4);
COMPILE_ASSERT(offsetof(DrawArrays, first) == 8,
OffsetOf_DrawArrays_first_not_8);
COMPILE_ASSERT(offsetof(DrawArrays, count) == 12,
OffsetOf_DrawArrays_count_not_12);
struct DrawElements {
typedef DrawElements ValueType;
static const CommandId kCmdId = kDrawElements;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _mode, GLsizei _count, GLenum _type, GLuint _index_offset) {
SetHeader();
mode = _mode;
count = _count;
type = _type;
index_offset = _index_offset;
}
void* Set(
void* cmd, GLenum _mode, GLsizei _count, GLenum _type,
GLuint _index_offset) {
static_cast<ValueType*>(cmd)->Init(_mode, _count, _type, _index_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 mode;
int32 count;
uint32 type;
uint32 index_offset;
};
COMPILE_ASSERT(sizeof(DrawElements) == 20,
Sizeof_DrawElements_is_not_20);
COMPILE_ASSERT(offsetof(DrawElements, header) == 0,
OffsetOf_DrawElements_header_not_0);
COMPILE_ASSERT(offsetof(DrawElements, mode) == 4,
OffsetOf_DrawElements_mode_not_4);
COMPILE_ASSERT(offsetof(DrawElements, count) == 8,
OffsetOf_DrawElements_count_not_8);
COMPILE_ASSERT(offsetof(DrawElements, type) == 12,
OffsetOf_DrawElements_type_not_12);
COMPILE_ASSERT(offsetof(DrawElements, index_offset) == 16,
OffsetOf_DrawElements_index_offset_not_16);
struct Enable {
typedef Enable ValueType;
static const CommandId kCmdId = kEnable;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _cap) {
SetHeader();
cap = _cap;
}
void* Set(void* cmd, GLenum _cap) {
static_cast<ValueType*>(cmd)->Init(_cap);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 cap;
};
COMPILE_ASSERT(sizeof(Enable) == 8,
Sizeof_Enable_is_not_8);
COMPILE_ASSERT(offsetof(Enable, header) == 0,
OffsetOf_Enable_header_not_0);
COMPILE_ASSERT(offsetof(Enable, cap) == 4,
OffsetOf_Enable_cap_not_4);
struct EnableVertexAttribArray {
typedef EnableVertexAttribArray ValueType;
static const CommandId kCmdId = kEnableVertexAttribArray;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _index) {
SetHeader();
index = _index;
}
void* Set(void* cmd, GLuint _index) {
static_cast<ValueType*>(cmd)->Init(_index);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 index;
};
COMPILE_ASSERT(sizeof(EnableVertexAttribArray) == 8,
Sizeof_EnableVertexAttribArray_is_not_8);
COMPILE_ASSERT(offsetof(EnableVertexAttribArray, header) == 0,
OffsetOf_EnableVertexAttribArray_header_not_0);
COMPILE_ASSERT(offsetof(EnableVertexAttribArray, index) == 4,
OffsetOf_EnableVertexAttribArray_index_not_4);
struct Finish {
typedef Finish ValueType;
static const CommandId kCmdId = kFinish;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init() {
SetHeader();
}
void* Set(void* cmd) {
static_cast<ValueType*>(cmd)->Init();
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
};
COMPILE_ASSERT(sizeof(Finish) == 4,
Sizeof_Finish_is_not_4);
COMPILE_ASSERT(offsetof(Finish, header) == 0,
OffsetOf_Finish_header_not_0);
struct Flush {
typedef Flush ValueType;
static const CommandId kCmdId = kFlush;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init() {
SetHeader();
}
void* Set(void* cmd) {
static_cast<ValueType*>(cmd)->Init();
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
};
COMPILE_ASSERT(sizeof(Flush) == 4,
Sizeof_Flush_is_not_4);
COMPILE_ASSERT(offsetof(Flush, header) == 0,
OffsetOf_Flush_header_not_0);
struct FramebufferRenderbuffer {
typedef FramebufferRenderbuffer ValueType;
static const CommandId kCmdId = kFramebufferRenderbuffer;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLenum _attachment, GLenum _renderbuffertarget,
GLuint _renderbuffer) {
SetHeader();
target = _target;
attachment = _attachment;
renderbuffertarget = _renderbuffertarget;
renderbuffer = _renderbuffer;
}
void* Set(
void* cmd, GLenum _target, GLenum _attachment, GLenum _renderbuffertarget,
GLuint _renderbuffer) {
static_cast<ValueType*>(
cmd)->Init(_target, _attachment, _renderbuffertarget, _renderbuffer);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 attachment;
uint32 renderbuffertarget;
uint32 renderbuffer;
};
COMPILE_ASSERT(sizeof(FramebufferRenderbuffer) == 20,
Sizeof_FramebufferRenderbuffer_is_not_20);
COMPILE_ASSERT(offsetof(FramebufferRenderbuffer, header) == 0,
OffsetOf_FramebufferRenderbuffer_header_not_0);
COMPILE_ASSERT(offsetof(FramebufferRenderbuffer, target) == 4,
OffsetOf_FramebufferRenderbuffer_target_not_4);
COMPILE_ASSERT(offsetof(FramebufferRenderbuffer, attachment) == 8,
OffsetOf_FramebufferRenderbuffer_attachment_not_8);
COMPILE_ASSERT(offsetof(FramebufferRenderbuffer, renderbuffertarget) == 12,
OffsetOf_FramebufferRenderbuffer_renderbuffertarget_not_12);
COMPILE_ASSERT(offsetof(FramebufferRenderbuffer, renderbuffer) == 16,
OffsetOf_FramebufferRenderbuffer_renderbuffer_not_16);
struct FramebufferTexture2D {
typedef FramebufferTexture2D ValueType;
static const CommandId kCmdId = kFramebufferTexture2D;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLenum _attachment, GLenum _textarget, GLuint _texture,
GLint _level) {
SetHeader();
target = _target;
attachment = _attachment;
textarget = _textarget;
texture = _texture;
level = _level;
}
void* Set(
void* cmd, GLenum _target, GLenum _attachment, GLenum _textarget,
GLuint _texture, GLint _level) {
static_cast<ValueType*>(
cmd)->Init(_target, _attachment, _textarget, _texture, _level);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 attachment;
uint32 textarget;
uint32 texture;
int32 level;
};
COMPILE_ASSERT(sizeof(FramebufferTexture2D) == 24,
Sizeof_FramebufferTexture2D_is_not_24);
COMPILE_ASSERT(offsetof(FramebufferTexture2D, header) == 0,
OffsetOf_FramebufferTexture2D_header_not_0);
COMPILE_ASSERT(offsetof(FramebufferTexture2D, target) == 4,
OffsetOf_FramebufferTexture2D_target_not_4);
COMPILE_ASSERT(offsetof(FramebufferTexture2D, attachment) == 8,
OffsetOf_FramebufferTexture2D_attachment_not_8);
COMPILE_ASSERT(offsetof(FramebufferTexture2D, textarget) == 12,
OffsetOf_FramebufferTexture2D_textarget_not_12);
COMPILE_ASSERT(offsetof(FramebufferTexture2D, texture) == 16,
OffsetOf_FramebufferTexture2D_texture_not_16);
COMPILE_ASSERT(offsetof(FramebufferTexture2D, level) == 20,
OffsetOf_FramebufferTexture2D_level_not_20);
struct FrontFace {
typedef FrontFace ValueType;
static const CommandId kCmdId = kFrontFace;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _mode) {
SetHeader();
mode = _mode;
}
void* Set(void* cmd, GLenum _mode) {
static_cast<ValueType*>(cmd)->Init(_mode);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 mode;
};
COMPILE_ASSERT(sizeof(FrontFace) == 8,
Sizeof_FrontFace_is_not_8);
COMPILE_ASSERT(offsetof(FrontFace, header) == 0,
OffsetOf_FrontFace_header_not_0);
COMPILE_ASSERT(offsetof(FrontFace, mode) == 4,
OffsetOf_FrontFace_mode_not_4);
struct GenBuffers {
typedef GenBuffers ValueType;
static const CommandId kCmdId = kGenBuffers;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLsizei _n, uint32 _buffers_shm_id, uint32 _buffers_shm_offset) {
SetHeader();
n = _n;
buffers_shm_id = _buffers_shm_id;
buffers_shm_offset = _buffers_shm_offset;
}
void* Set(
void* cmd, GLsizei _n, uint32 _buffers_shm_id,
uint32 _buffers_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_n, _buffers_shm_id, _buffers_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 n;
uint32 buffers_shm_id;
uint32 buffers_shm_offset;
};
COMPILE_ASSERT(sizeof(GenBuffers) == 16,
Sizeof_GenBuffers_is_not_16);
COMPILE_ASSERT(offsetof(GenBuffers, header) == 0,
OffsetOf_GenBuffers_header_not_0);
COMPILE_ASSERT(offsetof(GenBuffers, n) == 4,
OffsetOf_GenBuffers_n_not_4);
COMPILE_ASSERT(offsetof(GenBuffers, buffers_shm_id) == 8,
OffsetOf_GenBuffers_buffers_shm_id_not_8);
COMPILE_ASSERT(offsetof(GenBuffers, buffers_shm_offset) == 12,
OffsetOf_GenBuffers_buffers_shm_offset_not_12);
struct GenBuffersImmediate {
typedef GenBuffersImmediate ValueType;
static const CommandId kCmdId = kGenBuffersImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei n) {
return static_cast<uint32>(sizeof(GLuint) * n); // NOLINT
}
static uint32 ComputeSize(GLsizei n) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(n)); // NOLINT
}
void SetHeader(GLsizei n) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(n));
}
void Init(GLsizei _n, GLuint* _buffers) {
SetHeader(_n);
n = _n;
memcpy(ImmediateDataAddress(this),
_buffers, ComputeDataSize(_n));
}
void* Set(void* cmd, GLsizei _n, GLuint* _buffers) {
static_cast<ValueType*>(cmd)->Init(_n, _buffers);
const uint32 size = ComputeSize(_n);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 n;
};
COMPILE_ASSERT(sizeof(GenBuffersImmediate) == 8,
Sizeof_GenBuffersImmediate_is_not_8);
COMPILE_ASSERT(offsetof(GenBuffersImmediate, header) == 0,
OffsetOf_GenBuffersImmediate_header_not_0);
COMPILE_ASSERT(offsetof(GenBuffersImmediate, n) == 4,
OffsetOf_GenBuffersImmediate_n_not_4);
struct GenerateMipmap {
typedef GenerateMipmap ValueType;
static const CommandId kCmdId = kGenerateMipmap;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _target) {
SetHeader();
target = _target;
}
void* Set(void* cmd, GLenum _target) {
static_cast<ValueType*>(cmd)->Init(_target);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
};
COMPILE_ASSERT(sizeof(GenerateMipmap) == 8,
Sizeof_GenerateMipmap_is_not_8);
COMPILE_ASSERT(offsetof(GenerateMipmap, header) == 0,
OffsetOf_GenerateMipmap_header_not_0);
COMPILE_ASSERT(offsetof(GenerateMipmap, target) == 4,
OffsetOf_GenerateMipmap_target_not_4);
struct GenFramebuffers {
typedef GenFramebuffers ValueType;
static const CommandId kCmdId = kGenFramebuffers;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLsizei _n, uint32 _framebuffers_shm_id,
uint32 _framebuffers_shm_offset) {
SetHeader();
n = _n;
framebuffers_shm_id = _framebuffers_shm_id;
framebuffers_shm_offset = _framebuffers_shm_offset;
}
void* Set(
void* cmd, GLsizei _n, uint32 _framebuffers_shm_id,
uint32 _framebuffers_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_n, _framebuffers_shm_id, _framebuffers_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 n;
uint32 framebuffers_shm_id;
uint32 framebuffers_shm_offset;
};
COMPILE_ASSERT(sizeof(GenFramebuffers) == 16,
Sizeof_GenFramebuffers_is_not_16);
COMPILE_ASSERT(offsetof(GenFramebuffers, header) == 0,
OffsetOf_GenFramebuffers_header_not_0);
COMPILE_ASSERT(offsetof(GenFramebuffers, n) == 4,
OffsetOf_GenFramebuffers_n_not_4);
COMPILE_ASSERT(offsetof(GenFramebuffers, framebuffers_shm_id) == 8,
OffsetOf_GenFramebuffers_framebuffers_shm_id_not_8);
COMPILE_ASSERT(offsetof(GenFramebuffers, framebuffers_shm_offset) == 12,
OffsetOf_GenFramebuffers_framebuffers_shm_offset_not_12);
struct GenFramebuffersImmediate {
typedef GenFramebuffersImmediate ValueType;
static const CommandId kCmdId = kGenFramebuffersImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei n) {
return static_cast<uint32>(sizeof(GLuint) * n); // NOLINT
}
static uint32 ComputeSize(GLsizei n) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(n)); // NOLINT
}
void SetHeader(GLsizei n) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(n));
}
void Init(GLsizei _n, GLuint* _framebuffers) {
SetHeader(_n);
n = _n;
memcpy(ImmediateDataAddress(this),
_framebuffers, ComputeDataSize(_n));
}
void* Set(void* cmd, GLsizei _n, GLuint* _framebuffers) {
static_cast<ValueType*>(cmd)->Init(_n, _framebuffers);
const uint32 size = ComputeSize(_n);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 n;
};
COMPILE_ASSERT(sizeof(GenFramebuffersImmediate) == 8,
Sizeof_GenFramebuffersImmediate_is_not_8);
COMPILE_ASSERT(offsetof(GenFramebuffersImmediate, header) == 0,
OffsetOf_GenFramebuffersImmediate_header_not_0);
COMPILE_ASSERT(offsetof(GenFramebuffersImmediate, n) == 4,
OffsetOf_GenFramebuffersImmediate_n_not_4);
struct GenRenderbuffers {
typedef GenRenderbuffers ValueType;
static const CommandId kCmdId = kGenRenderbuffers;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLsizei _n, uint32 _renderbuffers_shm_id,
uint32 _renderbuffers_shm_offset) {
SetHeader();
n = _n;
renderbuffers_shm_id = _renderbuffers_shm_id;
renderbuffers_shm_offset = _renderbuffers_shm_offset;
}
void* Set(
void* cmd, GLsizei _n, uint32 _renderbuffers_shm_id,
uint32 _renderbuffers_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_n, _renderbuffers_shm_id, _renderbuffers_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 n;
uint32 renderbuffers_shm_id;
uint32 renderbuffers_shm_offset;
};
COMPILE_ASSERT(sizeof(GenRenderbuffers) == 16,
Sizeof_GenRenderbuffers_is_not_16);
COMPILE_ASSERT(offsetof(GenRenderbuffers, header) == 0,
OffsetOf_GenRenderbuffers_header_not_0);
COMPILE_ASSERT(offsetof(GenRenderbuffers, n) == 4,
OffsetOf_GenRenderbuffers_n_not_4);
COMPILE_ASSERT(offsetof(GenRenderbuffers, renderbuffers_shm_id) == 8,
OffsetOf_GenRenderbuffers_renderbuffers_shm_id_not_8);
COMPILE_ASSERT(offsetof(GenRenderbuffers, renderbuffers_shm_offset) == 12,
OffsetOf_GenRenderbuffers_renderbuffers_shm_offset_not_12);
struct GenRenderbuffersImmediate {
typedef GenRenderbuffersImmediate ValueType;
static const CommandId kCmdId = kGenRenderbuffersImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei n) {
return static_cast<uint32>(sizeof(GLuint) * n); // NOLINT
}
static uint32 ComputeSize(GLsizei n) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(n)); // NOLINT
}
void SetHeader(GLsizei n) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(n));
}
void Init(GLsizei _n, GLuint* _renderbuffers) {
SetHeader(_n);
n = _n;
memcpy(ImmediateDataAddress(this),
_renderbuffers, ComputeDataSize(_n));
}
void* Set(void* cmd, GLsizei _n, GLuint* _renderbuffers) {
static_cast<ValueType*>(cmd)->Init(_n, _renderbuffers);
const uint32 size = ComputeSize(_n);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 n;
};
COMPILE_ASSERT(sizeof(GenRenderbuffersImmediate) == 8,
Sizeof_GenRenderbuffersImmediate_is_not_8);
COMPILE_ASSERT(offsetof(GenRenderbuffersImmediate, header) == 0,
OffsetOf_GenRenderbuffersImmediate_header_not_0);
COMPILE_ASSERT(offsetof(GenRenderbuffersImmediate, n) == 4,
OffsetOf_GenRenderbuffersImmediate_n_not_4);
struct GenTextures {
typedef GenTextures ValueType;
static const CommandId kCmdId = kGenTextures;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLsizei _n, uint32 _textures_shm_id, uint32 _textures_shm_offset) {
SetHeader();
n = _n;
textures_shm_id = _textures_shm_id;
textures_shm_offset = _textures_shm_offset;
}
void* Set(
void* cmd, GLsizei _n, uint32 _textures_shm_id,
uint32 _textures_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_n, _textures_shm_id, _textures_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 n;
uint32 textures_shm_id;
uint32 textures_shm_offset;
};
COMPILE_ASSERT(sizeof(GenTextures) == 16,
Sizeof_GenTextures_is_not_16);
COMPILE_ASSERT(offsetof(GenTextures, header) == 0,
OffsetOf_GenTextures_header_not_0);
COMPILE_ASSERT(offsetof(GenTextures, n) == 4,
OffsetOf_GenTextures_n_not_4);
COMPILE_ASSERT(offsetof(GenTextures, textures_shm_id) == 8,
OffsetOf_GenTextures_textures_shm_id_not_8);
COMPILE_ASSERT(offsetof(GenTextures, textures_shm_offset) == 12,
OffsetOf_GenTextures_textures_shm_offset_not_12);
struct GenTexturesImmediate {
typedef GenTexturesImmediate ValueType;
static const CommandId kCmdId = kGenTexturesImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei n) {
return static_cast<uint32>(sizeof(GLuint) * n); // NOLINT
}
static uint32 ComputeSize(GLsizei n) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(n)); // NOLINT
}
void SetHeader(GLsizei n) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(n));
}
void Init(GLsizei _n, GLuint* _textures) {
SetHeader(_n);
n = _n;
memcpy(ImmediateDataAddress(this),
_textures, ComputeDataSize(_n));
}
void* Set(void* cmd, GLsizei _n, GLuint* _textures) {
static_cast<ValueType*>(cmd)->Init(_n, _textures);
const uint32 size = ComputeSize(_n);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 n;
};
COMPILE_ASSERT(sizeof(GenTexturesImmediate) == 8,
Sizeof_GenTexturesImmediate_is_not_8);
COMPILE_ASSERT(offsetof(GenTexturesImmediate, header) == 0,
OffsetOf_GenTexturesImmediate_header_not_0);
COMPILE_ASSERT(offsetof(GenTexturesImmediate, n) == 4,
OffsetOf_GenTexturesImmediate_n_not_4);
struct GetActiveAttrib {
typedef GetActiveAttrib ValueType;
static const CommandId kCmdId = kGetActiveAttrib;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
struct Result {
int32 success;
int32 size;
uint32 type;
};
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _program, GLuint _index, uint32 _name_bucket_id,
uint32 _result_shm_id, uint32 _result_shm_offset) {
SetHeader();
program = _program;
index = _index;
name_bucket_id = _name_bucket_id;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
}
void* Set(
void* cmd, GLuint _program, GLuint _index, uint32 _name_bucket_id,
uint32 _result_shm_id, uint32 _result_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(
_program, _index, _name_bucket_id, _result_shm_id,
_result_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
uint32 index;
uint32 name_bucket_id;
uint32 result_shm_id;
uint32 result_shm_offset;
};
COMPILE_ASSERT(sizeof(GetActiveAttrib) == 24,
Sizeof_GetActiveAttrib_is_not_24);
COMPILE_ASSERT(offsetof(GetActiveAttrib, header) == 0,
OffsetOf_GetActiveAttrib_header_not_0);
COMPILE_ASSERT(offsetof(GetActiveAttrib, program) == 4,
OffsetOf_GetActiveAttrib_program_not_4);
COMPILE_ASSERT(offsetof(GetActiveAttrib, index) == 8,
OffsetOf_GetActiveAttrib_index_not_8);
COMPILE_ASSERT(offsetof(GetActiveAttrib, name_bucket_id) == 12,
OffsetOf_GetActiveAttrib_name_bucket_id_not_12);
COMPILE_ASSERT(offsetof(GetActiveAttrib, result_shm_id) == 16,
OffsetOf_GetActiveAttrib_result_shm_id_not_16);
COMPILE_ASSERT(offsetof(GetActiveAttrib, result_shm_offset) == 20,
OffsetOf_GetActiveAttrib_result_shm_offset_not_20);
COMPILE_ASSERT(offsetof(GetActiveAttrib::Result, success) == 0,
OffsetOf_GetActiveAttrib_Result_success_not_0);
COMPILE_ASSERT(offsetof(GetActiveAttrib::Result, size) == 4,
OffsetOf_GetActiveAttrib_Result_size_not_4);
COMPILE_ASSERT(offsetof(GetActiveAttrib::Result, type) == 8,
OffsetOf_GetActiveAttrib_Result_type_not_8);
struct GetActiveUniform {
typedef GetActiveUniform ValueType;
static const CommandId kCmdId = kGetActiveUniform;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
struct Result {
int32 success;
int32 size;
uint32 type;
};
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _program, GLuint _index, uint32 _name_bucket_id,
uint32 _result_shm_id, uint32 _result_shm_offset) {
SetHeader();
program = _program;
index = _index;
name_bucket_id = _name_bucket_id;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
}
void* Set(
void* cmd, GLuint _program, GLuint _index, uint32 _name_bucket_id,
uint32 _result_shm_id, uint32 _result_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(
_program, _index, _name_bucket_id, _result_shm_id,
_result_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
uint32 index;
uint32 name_bucket_id;
uint32 result_shm_id;
uint32 result_shm_offset;
};
COMPILE_ASSERT(sizeof(GetActiveUniform) == 24,
Sizeof_GetActiveUniform_is_not_24);
COMPILE_ASSERT(offsetof(GetActiveUniform, header) == 0,
OffsetOf_GetActiveUniform_header_not_0);
COMPILE_ASSERT(offsetof(GetActiveUniform, program) == 4,
OffsetOf_GetActiveUniform_program_not_4);
COMPILE_ASSERT(offsetof(GetActiveUniform, index) == 8,
OffsetOf_GetActiveUniform_index_not_8);
COMPILE_ASSERT(offsetof(GetActiveUniform, name_bucket_id) == 12,
OffsetOf_GetActiveUniform_name_bucket_id_not_12);
COMPILE_ASSERT(offsetof(GetActiveUniform, result_shm_id) == 16,
OffsetOf_GetActiveUniform_result_shm_id_not_16);
COMPILE_ASSERT(offsetof(GetActiveUniform, result_shm_offset) == 20,
OffsetOf_GetActiveUniform_result_shm_offset_not_20);
COMPILE_ASSERT(offsetof(GetActiveUniform::Result, success) == 0,
OffsetOf_GetActiveUniform_Result_success_not_0);
COMPILE_ASSERT(offsetof(GetActiveUniform::Result, size) == 4,
OffsetOf_GetActiveUniform_Result_size_not_4);
COMPILE_ASSERT(offsetof(GetActiveUniform::Result, type) == 8,
OffsetOf_GetActiveUniform_Result_type_not_8);
struct GetAttachedShaders {
typedef GetAttachedShaders ValueType;
static const CommandId kCmdId = kGetAttachedShaders;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef SizedResult<GLuint> Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _program, uint32 _result_shm_id, uint32 _result_shm_offset,
uint32 _result_size) {
SetHeader();
program = _program;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
result_size = _result_size;
}
void* Set(
void* cmd, GLuint _program, uint32 _result_shm_id,
uint32 _result_shm_offset, uint32 _result_size) {
static_cast<ValueType*>(
cmd)->Init(_program, _result_shm_id, _result_shm_offset, _result_size);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
uint32 result_shm_id;
uint32 result_shm_offset;
uint32 result_size;
};
COMPILE_ASSERT(sizeof(GetAttachedShaders) == 20,
Sizeof_GetAttachedShaders_is_not_20);
COMPILE_ASSERT(offsetof(GetAttachedShaders, header) == 0,
OffsetOf_GetAttachedShaders_header_not_0);
COMPILE_ASSERT(offsetof(GetAttachedShaders, program) == 4,
OffsetOf_GetAttachedShaders_program_not_4);
COMPILE_ASSERT(offsetof(GetAttachedShaders, result_shm_id) == 8,
OffsetOf_GetAttachedShaders_result_shm_id_not_8);
COMPILE_ASSERT(offsetof(GetAttachedShaders, result_shm_offset) == 12,
OffsetOf_GetAttachedShaders_result_shm_offset_not_12);
COMPILE_ASSERT(offsetof(GetAttachedShaders, result_size) == 16,
OffsetOf_GetAttachedShaders_result_size_not_16);
struct GetBooleanv {
typedef GetBooleanv ValueType;
static const CommandId kCmdId = kGetBooleanv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef SizedResult<GLboolean> Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _pname, uint32 _params_shm_id, uint32 _params_shm_offset) {
SetHeader();
pname = _pname;
params_shm_id = _params_shm_id;
params_shm_offset = _params_shm_offset;
}
void* Set(
void* cmd, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_pname, _params_shm_id, _params_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 pname;
uint32 params_shm_id;
uint32 params_shm_offset;
};
COMPILE_ASSERT(sizeof(GetBooleanv) == 16,
Sizeof_GetBooleanv_is_not_16);
COMPILE_ASSERT(offsetof(GetBooleanv, header) == 0,
OffsetOf_GetBooleanv_header_not_0);
COMPILE_ASSERT(offsetof(GetBooleanv, pname) == 4,
OffsetOf_GetBooleanv_pname_not_4);
COMPILE_ASSERT(offsetof(GetBooleanv, params_shm_id) == 8,
OffsetOf_GetBooleanv_params_shm_id_not_8);
COMPILE_ASSERT(offsetof(GetBooleanv, params_shm_offset) == 12,
OffsetOf_GetBooleanv_params_shm_offset_not_12);
struct GetBufferParameteriv {
typedef GetBufferParameteriv ValueType;
static const CommandId kCmdId = kGetBufferParameteriv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef SizedResult<GLint> Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
SetHeader();
target = _target;
pname = _pname;
params_shm_id = _params_shm_id;
params_shm_offset = _params_shm_offset;
}
void* Set(
void* cmd, GLenum _target, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_target, _pname, _params_shm_id, _params_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 pname;
uint32 params_shm_id;
uint32 params_shm_offset;
};
COMPILE_ASSERT(sizeof(GetBufferParameteriv) == 20,
Sizeof_GetBufferParameteriv_is_not_20);
COMPILE_ASSERT(offsetof(GetBufferParameteriv, header) == 0,
OffsetOf_GetBufferParameteriv_header_not_0);
COMPILE_ASSERT(offsetof(GetBufferParameteriv, target) == 4,
OffsetOf_GetBufferParameteriv_target_not_4);
COMPILE_ASSERT(offsetof(GetBufferParameteriv, pname) == 8,
OffsetOf_GetBufferParameteriv_pname_not_8);
COMPILE_ASSERT(offsetof(GetBufferParameteriv, params_shm_id) == 12,
OffsetOf_GetBufferParameteriv_params_shm_id_not_12);
COMPILE_ASSERT(offsetof(GetBufferParameteriv, params_shm_offset) == 16,
OffsetOf_GetBufferParameteriv_params_shm_offset_not_16);
struct GetError {
typedef GetError ValueType;
static const CommandId kCmdId = kGetError;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef GLenum Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(uint32 _result_shm_id, uint32 _result_shm_offset) {
SetHeader();
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
}
void* Set(void* cmd, uint32 _result_shm_id, uint32 _result_shm_offset) {
static_cast<ValueType*>(cmd)->Init(_result_shm_id, _result_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 result_shm_id;
uint32 result_shm_offset;
};
COMPILE_ASSERT(sizeof(GetError) == 12,
Sizeof_GetError_is_not_12);
COMPILE_ASSERT(offsetof(GetError, header) == 0,
OffsetOf_GetError_header_not_0);
COMPILE_ASSERT(offsetof(GetError, result_shm_id) == 4,
OffsetOf_GetError_result_shm_id_not_4);
COMPILE_ASSERT(offsetof(GetError, result_shm_offset) == 8,
OffsetOf_GetError_result_shm_offset_not_8);
struct GetFloatv {
typedef GetFloatv ValueType;
static const CommandId kCmdId = kGetFloatv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef SizedResult<GLfloat> Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _pname, uint32 _params_shm_id, uint32 _params_shm_offset) {
SetHeader();
pname = _pname;
params_shm_id = _params_shm_id;
params_shm_offset = _params_shm_offset;
}
void* Set(
void* cmd, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_pname, _params_shm_id, _params_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 pname;
uint32 params_shm_id;
uint32 params_shm_offset;
};
COMPILE_ASSERT(sizeof(GetFloatv) == 16,
Sizeof_GetFloatv_is_not_16);
COMPILE_ASSERT(offsetof(GetFloatv, header) == 0,
OffsetOf_GetFloatv_header_not_0);
COMPILE_ASSERT(offsetof(GetFloatv, pname) == 4,
OffsetOf_GetFloatv_pname_not_4);
COMPILE_ASSERT(offsetof(GetFloatv, params_shm_id) == 8,
OffsetOf_GetFloatv_params_shm_id_not_8);
COMPILE_ASSERT(offsetof(GetFloatv, params_shm_offset) == 12,
OffsetOf_GetFloatv_params_shm_offset_not_12);
struct GetFramebufferAttachmentParameteriv {
typedef GetFramebufferAttachmentParameteriv ValueType;
static const CommandId kCmdId = kGetFramebufferAttachmentParameteriv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef SizedResult<GLint> Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLenum _attachment, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
SetHeader();
target = _target;
attachment = _attachment;
pname = _pname;
params_shm_id = _params_shm_id;
params_shm_offset = _params_shm_offset;
}
void* Set(
void* cmd, GLenum _target, GLenum _attachment, GLenum _pname,
uint32 _params_shm_id, uint32 _params_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(
_target, _attachment, _pname, _params_shm_id, _params_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 attachment;
uint32 pname;
uint32 params_shm_id;
uint32 params_shm_offset;
};
COMPILE_ASSERT(sizeof(GetFramebufferAttachmentParameteriv) == 24,
Sizeof_GetFramebufferAttachmentParameteriv_is_not_24);
COMPILE_ASSERT(offsetof(GetFramebufferAttachmentParameteriv, header) == 0,
OffsetOf_GetFramebufferAttachmentParameteriv_header_not_0);
COMPILE_ASSERT(offsetof(GetFramebufferAttachmentParameteriv, target) == 4,
OffsetOf_GetFramebufferAttachmentParameteriv_target_not_4);
COMPILE_ASSERT(offsetof(GetFramebufferAttachmentParameteriv, attachment) == 8,
OffsetOf_GetFramebufferAttachmentParameteriv_attachment_not_8);
COMPILE_ASSERT(offsetof(GetFramebufferAttachmentParameteriv, pname) == 12,
OffsetOf_GetFramebufferAttachmentParameteriv_pname_not_12);
COMPILE_ASSERT(
offsetof(GetFramebufferAttachmentParameteriv, params_shm_id) == 16,
OffsetOf_GetFramebufferAttachmentParameteriv_params_shm_id_not_16); // NOLINT
COMPILE_ASSERT(
offsetof(GetFramebufferAttachmentParameteriv, params_shm_offset) == 20,
OffsetOf_GetFramebufferAttachmentParameteriv_params_shm_offset_not_20); // NOLINT
struct GetIntegerv {
typedef GetIntegerv ValueType;
static const CommandId kCmdId = kGetIntegerv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef SizedResult<GLint> Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _pname, uint32 _params_shm_id, uint32 _params_shm_offset) {
SetHeader();
pname = _pname;
params_shm_id = _params_shm_id;
params_shm_offset = _params_shm_offset;
}
void* Set(
void* cmd, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_pname, _params_shm_id, _params_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 pname;
uint32 params_shm_id;
uint32 params_shm_offset;
};
COMPILE_ASSERT(sizeof(GetIntegerv) == 16,
Sizeof_GetIntegerv_is_not_16);
COMPILE_ASSERT(offsetof(GetIntegerv, header) == 0,
OffsetOf_GetIntegerv_header_not_0);
COMPILE_ASSERT(offsetof(GetIntegerv, pname) == 4,
OffsetOf_GetIntegerv_pname_not_4);
COMPILE_ASSERT(offsetof(GetIntegerv, params_shm_id) == 8,
OffsetOf_GetIntegerv_params_shm_id_not_8);
COMPILE_ASSERT(offsetof(GetIntegerv, params_shm_offset) == 12,
OffsetOf_GetIntegerv_params_shm_offset_not_12);
struct GetProgramiv {
typedef GetProgramiv ValueType;
static const CommandId kCmdId = kGetProgramiv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef SizedResult<GLint> Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _program, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
SetHeader();
program = _program;
pname = _pname;
params_shm_id = _params_shm_id;
params_shm_offset = _params_shm_offset;
}
void* Set(
void* cmd, GLuint _program, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_program, _pname, _params_shm_id, _params_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
uint32 pname;
uint32 params_shm_id;
uint32 params_shm_offset;
};
COMPILE_ASSERT(sizeof(GetProgramiv) == 20,
Sizeof_GetProgramiv_is_not_20);
COMPILE_ASSERT(offsetof(GetProgramiv, header) == 0,
OffsetOf_GetProgramiv_header_not_0);
COMPILE_ASSERT(offsetof(GetProgramiv, program) == 4,
OffsetOf_GetProgramiv_program_not_4);
COMPILE_ASSERT(offsetof(GetProgramiv, pname) == 8,
OffsetOf_GetProgramiv_pname_not_8);
COMPILE_ASSERT(offsetof(GetProgramiv, params_shm_id) == 12,
OffsetOf_GetProgramiv_params_shm_id_not_12);
COMPILE_ASSERT(offsetof(GetProgramiv, params_shm_offset) == 16,
OffsetOf_GetProgramiv_params_shm_offset_not_16);
struct GetProgramInfoLog {
typedef GetProgramInfoLog ValueType;
static const CommandId kCmdId = kGetProgramInfoLog;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _program, uint32 _bucket_id) {
SetHeader();
program = _program;
bucket_id = _bucket_id;
}
void* Set(void* cmd, GLuint _program, uint32 _bucket_id) {
static_cast<ValueType*>(cmd)->Init(_program, _bucket_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
uint32 bucket_id;
};
COMPILE_ASSERT(sizeof(GetProgramInfoLog) == 12,
Sizeof_GetProgramInfoLog_is_not_12);
COMPILE_ASSERT(offsetof(GetProgramInfoLog, header) == 0,
OffsetOf_GetProgramInfoLog_header_not_0);
COMPILE_ASSERT(offsetof(GetProgramInfoLog, program) == 4,
OffsetOf_GetProgramInfoLog_program_not_4);
COMPILE_ASSERT(offsetof(GetProgramInfoLog, bucket_id) == 8,
OffsetOf_GetProgramInfoLog_bucket_id_not_8);
struct GetRenderbufferParameteriv {
typedef GetRenderbufferParameteriv ValueType;
static const CommandId kCmdId = kGetRenderbufferParameteriv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef SizedResult<GLint> Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
SetHeader();
target = _target;
pname = _pname;
params_shm_id = _params_shm_id;
params_shm_offset = _params_shm_offset;
}
void* Set(
void* cmd, GLenum _target, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_target, _pname, _params_shm_id, _params_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 pname;
uint32 params_shm_id;
uint32 params_shm_offset;
};
COMPILE_ASSERT(sizeof(GetRenderbufferParameteriv) == 20,
Sizeof_GetRenderbufferParameteriv_is_not_20);
COMPILE_ASSERT(offsetof(GetRenderbufferParameteriv, header) == 0,
OffsetOf_GetRenderbufferParameteriv_header_not_0);
COMPILE_ASSERT(offsetof(GetRenderbufferParameteriv, target) == 4,
OffsetOf_GetRenderbufferParameteriv_target_not_4);
COMPILE_ASSERT(offsetof(GetRenderbufferParameteriv, pname) == 8,
OffsetOf_GetRenderbufferParameteriv_pname_not_8);
COMPILE_ASSERT(offsetof(GetRenderbufferParameteriv, params_shm_id) == 12,
OffsetOf_GetRenderbufferParameteriv_params_shm_id_not_12);
COMPILE_ASSERT(offsetof(GetRenderbufferParameteriv, params_shm_offset) == 16,
OffsetOf_GetRenderbufferParameteriv_params_shm_offset_not_16);
struct GetShaderiv {
typedef GetShaderiv ValueType;
static const CommandId kCmdId = kGetShaderiv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef SizedResult<GLint> Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _shader, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
SetHeader();
shader = _shader;
pname = _pname;
params_shm_id = _params_shm_id;
params_shm_offset = _params_shm_offset;
}
void* Set(
void* cmd, GLuint _shader, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_shader, _pname, _params_shm_id, _params_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 shader;
uint32 pname;
uint32 params_shm_id;
uint32 params_shm_offset;
};
COMPILE_ASSERT(sizeof(GetShaderiv) == 20,
Sizeof_GetShaderiv_is_not_20);
COMPILE_ASSERT(offsetof(GetShaderiv, header) == 0,
OffsetOf_GetShaderiv_header_not_0);
COMPILE_ASSERT(offsetof(GetShaderiv, shader) == 4,
OffsetOf_GetShaderiv_shader_not_4);
COMPILE_ASSERT(offsetof(GetShaderiv, pname) == 8,
OffsetOf_GetShaderiv_pname_not_8);
COMPILE_ASSERT(offsetof(GetShaderiv, params_shm_id) == 12,
OffsetOf_GetShaderiv_params_shm_id_not_12);
COMPILE_ASSERT(offsetof(GetShaderiv, params_shm_offset) == 16,
OffsetOf_GetShaderiv_params_shm_offset_not_16);
struct GetShaderInfoLog {
typedef GetShaderInfoLog ValueType;
static const CommandId kCmdId = kGetShaderInfoLog;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _shader, uint32 _bucket_id) {
SetHeader();
shader = _shader;
bucket_id = _bucket_id;
}
void* Set(void* cmd, GLuint _shader, uint32 _bucket_id) {
static_cast<ValueType*>(cmd)->Init(_shader, _bucket_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 shader;
uint32 bucket_id;
};
COMPILE_ASSERT(sizeof(GetShaderInfoLog) == 12,
Sizeof_GetShaderInfoLog_is_not_12);
COMPILE_ASSERT(offsetof(GetShaderInfoLog, header) == 0,
OffsetOf_GetShaderInfoLog_header_not_0);
COMPILE_ASSERT(offsetof(GetShaderInfoLog, shader) == 4,
OffsetOf_GetShaderInfoLog_shader_not_4);
COMPILE_ASSERT(offsetof(GetShaderInfoLog, bucket_id) == 8,
OffsetOf_GetShaderInfoLog_bucket_id_not_8);
struct GetShaderPrecisionFormat {
typedef GetShaderPrecisionFormat ValueType;
static const CommandId kCmdId = kGetShaderPrecisionFormat;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
struct Result {
int32 success;
int32 min_range;
int32 max_range;
int32 precision;
};
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _shadertype, GLenum _precisiontype, uint32 _result_shm_id,
uint32 _result_shm_offset) {
SetHeader();
shadertype = _shadertype;
precisiontype = _precisiontype;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
}
void* Set(
void* cmd, GLenum _shadertype, GLenum _precisiontype,
uint32 _result_shm_id, uint32 _result_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(
_shadertype, _precisiontype, _result_shm_id, _result_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 shadertype;
uint32 precisiontype;
uint32 result_shm_id;
uint32 result_shm_offset;
};
COMPILE_ASSERT(sizeof(GetShaderPrecisionFormat) == 20,
Sizeof_GetShaderPrecisionFormat_is_not_20);
COMPILE_ASSERT(offsetof(GetShaderPrecisionFormat, header) == 0,
OffsetOf_GetShaderPrecisionFormat_header_not_0);
COMPILE_ASSERT(offsetof(GetShaderPrecisionFormat, shadertype) == 4,
OffsetOf_GetShaderPrecisionFormat_shadertype_not_4);
COMPILE_ASSERT(offsetof(GetShaderPrecisionFormat, precisiontype) == 8,
OffsetOf_GetShaderPrecisionFormat_precisiontype_not_8);
COMPILE_ASSERT(offsetof(GetShaderPrecisionFormat, result_shm_id) == 12,
OffsetOf_GetShaderPrecisionFormat_result_shm_id_not_12);
COMPILE_ASSERT(offsetof(GetShaderPrecisionFormat, result_shm_offset) == 16,
OffsetOf_GetShaderPrecisionFormat_result_shm_offset_not_16);
COMPILE_ASSERT(offsetof(GetShaderPrecisionFormat::Result, success) == 0,
OffsetOf_GetShaderPrecisionFormat_Result_success_not_0);
COMPILE_ASSERT(offsetof(GetShaderPrecisionFormat::Result, min_range) == 4,
OffsetOf_GetShaderPrecisionFormat_Result_min_range_not_4);
COMPILE_ASSERT(offsetof(GetShaderPrecisionFormat::Result, max_range) == 8,
OffsetOf_GetShaderPrecisionFormat_Result_max_range_not_8);
COMPILE_ASSERT(offsetof(GetShaderPrecisionFormat::Result, precision) == 12,
OffsetOf_GetShaderPrecisionFormat_Result_precision_not_12);
struct GetShaderSource {
typedef GetShaderSource ValueType;
static const CommandId kCmdId = kGetShaderSource;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _shader, uint32 _bucket_id) {
SetHeader();
shader = _shader;
bucket_id = _bucket_id;
}
void* Set(void* cmd, GLuint _shader, uint32 _bucket_id) {
static_cast<ValueType*>(cmd)->Init(_shader, _bucket_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 shader;
uint32 bucket_id;
};
COMPILE_ASSERT(sizeof(GetShaderSource) == 12,
Sizeof_GetShaderSource_is_not_12);
COMPILE_ASSERT(offsetof(GetShaderSource, header) == 0,
OffsetOf_GetShaderSource_header_not_0);
COMPILE_ASSERT(offsetof(GetShaderSource, shader) == 4,
OffsetOf_GetShaderSource_shader_not_4);
COMPILE_ASSERT(offsetof(GetShaderSource, bucket_id) == 8,
OffsetOf_GetShaderSource_bucket_id_not_8);
struct GetString {
typedef GetString ValueType;
static const CommandId kCmdId = kGetString;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _name, uint32 _bucket_id) {
SetHeader();
name = _name;
bucket_id = _bucket_id;
}
void* Set(void* cmd, GLenum _name, uint32 _bucket_id) {
static_cast<ValueType*>(cmd)->Init(_name, _bucket_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 name;
uint32 bucket_id;
};
COMPILE_ASSERT(sizeof(GetString) == 12,
Sizeof_GetString_is_not_12);
COMPILE_ASSERT(offsetof(GetString, header) == 0,
OffsetOf_GetString_header_not_0);
COMPILE_ASSERT(offsetof(GetString, name) == 4,
OffsetOf_GetString_name_not_4);
COMPILE_ASSERT(offsetof(GetString, bucket_id) == 8,
OffsetOf_GetString_bucket_id_not_8);
struct GetTexParameterfv {
typedef GetTexParameterfv ValueType;
static const CommandId kCmdId = kGetTexParameterfv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef SizedResult<GLfloat> Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
SetHeader();
target = _target;
pname = _pname;
params_shm_id = _params_shm_id;
params_shm_offset = _params_shm_offset;
}
void* Set(
void* cmd, GLenum _target, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_target, _pname, _params_shm_id, _params_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 pname;
uint32 params_shm_id;
uint32 params_shm_offset;
};
COMPILE_ASSERT(sizeof(GetTexParameterfv) == 20,
Sizeof_GetTexParameterfv_is_not_20);
COMPILE_ASSERT(offsetof(GetTexParameterfv, header) == 0,
OffsetOf_GetTexParameterfv_header_not_0);
COMPILE_ASSERT(offsetof(GetTexParameterfv, target) == 4,
OffsetOf_GetTexParameterfv_target_not_4);
COMPILE_ASSERT(offsetof(GetTexParameterfv, pname) == 8,
OffsetOf_GetTexParameterfv_pname_not_8);
COMPILE_ASSERT(offsetof(GetTexParameterfv, params_shm_id) == 12,
OffsetOf_GetTexParameterfv_params_shm_id_not_12);
COMPILE_ASSERT(offsetof(GetTexParameterfv, params_shm_offset) == 16,
OffsetOf_GetTexParameterfv_params_shm_offset_not_16);
struct GetTexParameteriv {
typedef GetTexParameteriv ValueType;
static const CommandId kCmdId = kGetTexParameteriv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef SizedResult<GLint> Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
SetHeader();
target = _target;
pname = _pname;
params_shm_id = _params_shm_id;
params_shm_offset = _params_shm_offset;
}
void* Set(
void* cmd, GLenum _target, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_target, _pname, _params_shm_id, _params_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 pname;
uint32 params_shm_id;
uint32 params_shm_offset;
};
COMPILE_ASSERT(sizeof(GetTexParameteriv) == 20,
Sizeof_GetTexParameteriv_is_not_20);
COMPILE_ASSERT(offsetof(GetTexParameteriv, header) == 0,
OffsetOf_GetTexParameteriv_header_not_0);
COMPILE_ASSERT(offsetof(GetTexParameteriv, target) == 4,
OffsetOf_GetTexParameteriv_target_not_4);
COMPILE_ASSERT(offsetof(GetTexParameteriv, pname) == 8,
OffsetOf_GetTexParameteriv_pname_not_8);
COMPILE_ASSERT(offsetof(GetTexParameteriv, params_shm_id) == 12,
OffsetOf_GetTexParameteriv_params_shm_id_not_12);
COMPILE_ASSERT(offsetof(GetTexParameteriv, params_shm_offset) == 16,
OffsetOf_GetTexParameteriv_params_shm_offset_not_16);
struct GetUniformfv {
typedef GetUniformfv ValueType;
static const CommandId kCmdId = kGetUniformfv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef SizedResult<GLfloat> Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _program, GLint _location, uint32 _params_shm_id,
uint32 _params_shm_offset) {
SetHeader();
program = _program;
location = _location;
params_shm_id = _params_shm_id;
params_shm_offset = _params_shm_offset;
}
void* Set(
void* cmd, GLuint _program, GLint _location, uint32 _params_shm_id,
uint32 _params_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_program, _location, _params_shm_id, _params_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
int32 location;
uint32 params_shm_id;
uint32 params_shm_offset;
};
COMPILE_ASSERT(sizeof(GetUniformfv) == 20,
Sizeof_GetUniformfv_is_not_20);
COMPILE_ASSERT(offsetof(GetUniformfv, header) == 0,
OffsetOf_GetUniformfv_header_not_0);
COMPILE_ASSERT(offsetof(GetUniformfv, program) == 4,
OffsetOf_GetUniformfv_program_not_4);
COMPILE_ASSERT(offsetof(GetUniformfv, location) == 8,
OffsetOf_GetUniformfv_location_not_8);
COMPILE_ASSERT(offsetof(GetUniformfv, params_shm_id) == 12,
OffsetOf_GetUniformfv_params_shm_id_not_12);
COMPILE_ASSERT(offsetof(GetUniformfv, params_shm_offset) == 16,
OffsetOf_GetUniformfv_params_shm_offset_not_16);
struct GetUniformiv {
typedef GetUniformiv ValueType;
static const CommandId kCmdId = kGetUniformiv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef SizedResult<GLint> Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _program, GLint _location, uint32 _params_shm_id,
uint32 _params_shm_offset) {
SetHeader();
program = _program;
location = _location;
params_shm_id = _params_shm_id;
params_shm_offset = _params_shm_offset;
}
void* Set(
void* cmd, GLuint _program, GLint _location, uint32 _params_shm_id,
uint32 _params_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_program, _location, _params_shm_id, _params_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
int32 location;
uint32 params_shm_id;
uint32 params_shm_offset;
};
COMPILE_ASSERT(sizeof(GetUniformiv) == 20,
Sizeof_GetUniformiv_is_not_20);
COMPILE_ASSERT(offsetof(GetUniformiv, header) == 0,
OffsetOf_GetUniformiv_header_not_0);
COMPILE_ASSERT(offsetof(GetUniformiv, program) == 4,
OffsetOf_GetUniformiv_program_not_4);
COMPILE_ASSERT(offsetof(GetUniformiv, location) == 8,
OffsetOf_GetUniformiv_location_not_8);
COMPILE_ASSERT(offsetof(GetUniformiv, params_shm_id) == 12,
OffsetOf_GetUniformiv_params_shm_id_not_12);
COMPILE_ASSERT(offsetof(GetUniformiv, params_shm_offset) == 16,
OffsetOf_GetUniformiv_params_shm_offset_not_16);
struct GetVertexAttribfv {
typedef GetVertexAttribfv ValueType;
static const CommandId kCmdId = kGetVertexAttribfv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef SizedResult<GLfloat> Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _index, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
SetHeader();
index = _index;
pname = _pname;
params_shm_id = _params_shm_id;
params_shm_offset = _params_shm_offset;
}
void* Set(
void* cmd, GLuint _index, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_index, _pname, _params_shm_id, _params_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 index;
uint32 pname;
uint32 params_shm_id;
uint32 params_shm_offset;
};
COMPILE_ASSERT(sizeof(GetVertexAttribfv) == 20,
Sizeof_GetVertexAttribfv_is_not_20);
COMPILE_ASSERT(offsetof(GetVertexAttribfv, header) == 0,
OffsetOf_GetVertexAttribfv_header_not_0);
COMPILE_ASSERT(offsetof(GetVertexAttribfv, index) == 4,
OffsetOf_GetVertexAttribfv_index_not_4);
COMPILE_ASSERT(offsetof(GetVertexAttribfv, pname) == 8,
OffsetOf_GetVertexAttribfv_pname_not_8);
COMPILE_ASSERT(offsetof(GetVertexAttribfv, params_shm_id) == 12,
OffsetOf_GetVertexAttribfv_params_shm_id_not_12);
COMPILE_ASSERT(offsetof(GetVertexAttribfv, params_shm_offset) == 16,
OffsetOf_GetVertexAttribfv_params_shm_offset_not_16);
struct GetVertexAttribiv {
typedef GetVertexAttribiv ValueType;
static const CommandId kCmdId = kGetVertexAttribiv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef SizedResult<GLint> Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _index, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
SetHeader();
index = _index;
pname = _pname;
params_shm_id = _params_shm_id;
params_shm_offset = _params_shm_offset;
}
void* Set(
void* cmd, GLuint _index, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_index, _pname, _params_shm_id, _params_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 index;
uint32 pname;
uint32 params_shm_id;
uint32 params_shm_offset;
};
COMPILE_ASSERT(sizeof(GetVertexAttribiv) == 20,
Sizeof_GetVertexAttribiv_is_not_20);
COMPILE_ASSERT(offsetof(GetVertexAttribiv, header) == 0,
OffsetOf_GetVertexAttribiv_header_not_0);
COMPILE_ASSERT(offsetof(GetVertexAttribiv, index) == 4,
OffsetOf_GetVertexAttribiv_index_not_4);
COMPILE_ASSERT(offsetof(GetVertexAttribiv, pname) == 8,
OffsetOf_GetVertexAttribiv_pname_not_8);
COMPILE_ASSERT(offsetof(GetVertexAttribiv, params_shm_id) == 12,
OffsetOf_GetVertexAttribiv_params_shm_id_not_12);
COMPILE_ASSERT(offsetof(GetVertexAttribiv, params_shm_offset) == 16,
OffsetOf_GetVertexAttribiv_params_shm_offset_not_16);
struct GetVertexAttribPointerv {
typedef GetVertexAttribPointerv ValueType;
static const CommandId kCmdId = kGetVertexAttribPointerv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef SizedResult<GLuint> Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _index, GLenum _pname, uint32 _pointer_shm_id,
uint32 _pointer_shm_offset) {
SetHeader();
index = _index;
pname = _pname;
pointer_shm_id = _pointer_shm_id;
pointer_shm_offset = _pointer_shm_offset;
}
void* Set(
void* cmd, GLuint _index, GLenum _pname, uint32 _pointer_shm_id,
uint32 _pointer_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_index, _pname, _pointer_shm_id, _pointer_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 index;
uint32 pname;
uint32 pointer_shm_id;
uint32 pointer_shm_offset;
};
COMPILE_ASSERT(sizeof(GetVertexAttribPointerv) == 20,
Sizeof_GetVertexAttribPointerv_is_not_20);
COMPILE_ASSERT(offsetof(GetVertexAttribPointerv, header) == 0,
OffsetOf_GetVertexAttribPointerv_header_not_0);
COMPILE_ASSERT(offsetof(GetVertexAttribPointerv, index) == 4,
OffsetOf_GetVertexAttribPointerv_index_not_4);
COMPILE_ASSERT(offsetof(GetVertexAttribPointerv, pname) == 8,
OffsetOf_GetVertexAttribPointerv_pname_not_8);
COMPILE_ASSERT(offsetof(GetVertexAttribPointerv, pointer_shm_id) == 12,
OffsetOf_GetVertexAttribPointerv_pointer_shm_id_not_12);
COMPILE_ASSERT(offsetof(GetVertexAttribPointerv, pointer_shm_offset) == 16,
OffsetOf_GetVertexAttribPointerv_pointer_shm_offset_not_16);
struct Hint {
typedef Hint ValueType;
static const CommandId kCmdId = kHint;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _target, GLenum _mode) {
SetHeader();
target = _target;
mode = _mode;
}
void* Set(void* cmd, GLenum _target, GLenum _mode) {
static_cast<ValueType*>(cmd)->Init(_target, _mode);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 mode;
};
COMPILE_ASSERT(sizeof(Hint) == 12,
Sizeof_Hint_is_not_12);
COMPILE_ASSERT(offsetof(Hint, header) == 0,
OffsetOf_Hint_header_not_0);
COMPILE_ASSERT(offsetof(Hint, target) == 4,
OffsetOf_Hint_target_not_4);
COMPILE_ASSERT(offsetof(Hint, mode) == 8,
OffsetOf_Hint_mode_not_8);
struct IsBuffer {
typedef IsBuffer ValueType;
static const CommandId kCmdId = kIsBuffer;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef uint32 Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _buffer, uint32 _result_shm_id, uint32 _result_shm_offset) {
SetHeader();
buffer = _buffer;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
}
void* Set(
void* cmd, GLuint _buffer, uint32 _result_shm_id,
uint32 _result_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_buffer, _result_shm_id, _result_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 buffer;
uint32 result_shm_id;
uint32 result_shm_offset;
};
COMPILE_ASSERT(sizeof(IsBuffer) == 16,
Sizeof_IsBuffer_is_not_16);
COMPILE_ASSERT(offsetof(IsBuffer, header) == 0,
OffsetOf_IsBuffer_header_not_0);
COMPILE_ASSERT(offsetof(IsBuffer, buffer) == 4,
OffsetOf_IsBuffer_buffer_not_4);
COMPILE_ASSERT(offsetof(IsBuffer, result_shm_id) == 8,
OffsetOf_IsBuffer_result_shm_id_not_8);
COMPILE_ASSERT(offsetof(IsBuffer, result_shm_offset) == 12,
OffsetOf_IsBuffer_result_shm_offset_not_12);
struct IsEnabled {
typedef IsEnabled ValueType;
static const CommandId kCmdId = kIsEnabled;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef uint32 Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _cap, uint32 _result_shm_id, uint32 _result_shm_offset) {
SetHeader();
cap = _cap;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
}
void* Set(
void* cmd, GLenum _cap, uint32 _result_shm_id,
uint32 _result_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_cap, _result_shm_id, _result_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 cap;
uint32 result_shm_id;
uint32 result_shm_offset;
};
COMPILE_ASSERT(sizeof(IsEnabled) == 16,
Sizeof_IsEnabled_is_not_16);
COMPILE_ASSERT(offsetof(IsEnabled, header) == 0,
OffsetOf_IsEnabled_header_not_0);
COMPILE_ASSERT(offsetof(IsEnabled, cap) == 4,
OffsetOf_IsEnabled_cap_not_4);
COMPILE_ASSERT(offsetof(IsEnabled, result_shm_id) == 8,
OffsetOf_IsEnabled_result_shm_id_not_8);
COMPILE_ASSERT(offsetof(IsEnabled, result_shm_offset) == 12,
OffsetOf_IsEnabled_result_shm_offset_not_12);
struct IsFramebuffer {
typedef IsFramebuffer ValueType;
static const CommandId kCmdId = kIsFramebuffer;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef uint32 Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _framebuffer, uint32 _result_shm_id, uint32 _result_shm_offset) {
SetHeader();
framebuffer = _framebuffer;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
}
void* Set(
void* cmd, GLuint _framebuffer, uint32 _result_shm_id,
uint32 _result_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_framebuffer, _result_shm_id, _result_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 framebuffer;
uint32 result_shm_id;
uint32 result_shm_offset;
};
COMPILE_ASSERT(sizeof(IsFramebuffer) == 16,
Sizeof_IsFramebuffer_is_not_16);
COMPILE_ASSERT(offsetof(IsFramebuffer, header) == 0,
OffsetOf_IsFramebuffer_header_not_0);
COMPILE_ASSERT(offsetof(IsFramebuffer, framebuffer) == 4,
OffsetOf_IsFramebuffer_framebuffer_not_4);
COMPILE_ASSERT(offsetof(IsFramebuffer, result_shm_id) == 8,
OffsetOf_IsFramebuffer_result_shm_id_not_8);
COMPILE_ASSERT(offsetof(IsFramebuffer, result_shm_offset) == 12,
OffsetOf_IsFramebuffer_result_shm_offset_not_12);
struct IsProgram {
typedef IsProgram ValueType;
static const CommandId kCmdId = kIsProgram;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef uint32 Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _program, uint32 _result_shm_id, uint32 _result_shm_offset) {
SetHeader();
program = _program;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
}
void* Set(
void* cmd, GLuint _program, uint32 _result_shm_id,
uint32 _result_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_program, _result_shm_id, _result_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
uint32 result_shm_id;
uint32 result_shm_offset;
};
COMPILE_ASSERT(sizeof(IsProgram) == 16,
Sizeof_IsProgram_is_not_16);
COMPILE_ASSERT(offsetof(IsProgram, header) == 0,
OffsetOf_IsProgram_header_not_0);
COMPILE_ASSERT(offsetof(IsProgram, program) == 4,
OffsetOf_IsProgram_program_not_4);
COMPILE_ASSERT(offsetof(IsProgram, result_shm_id) == 8,
OffsetOf_IsProgram_result_shm_id_not_8);
COMPILE_ASSERT(offsetof(IsProgram, result_shm_offset) == 12,
OffsetOf_IsProgram_result_shm_offset_not_12);
struct IsRenderbuffer {
typedef IsRenderbuffer ValueType;
static const CommandId kCmdId = kIsRenderbuffer;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef uint32 Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _renderbuffer, uint32 _result_shm_id, uint32 _result_shm_offset) {
SetHeader();
renderbuffer = _renderbuffer;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
}
void* Set(
void* cmd, GLuint _renderbuffer, uint32 _result_shm_id,
uint32 _result_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_renderbuffer, _result_shm_id, _result_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 renderbuffer;
uint32 result_shm_id;
uint32 result_shm_offset;
};
COMPILE_ASSERT(sizeof(IsRenderbuffer) == 16,
Sizeof_IsRenderbuffer_is_not_16);
COMPILE_ASSERT(offsetof(IsRenderbuffer, header) == 0,
OffsetOf_IsRenderbuffer_header_not_0);
COMPILE_ASSERT(offsetof(IsRenderbuffer, renderbuffer) == 4,
OffsetOf_IsRenderbuffer_renderbuffer_not_4);
COMPILE_ASSERT(offsetof(IsRenderbuffer, result_shm_id) == 8,
OffsetOf_IsRenderbuffer_result_shm_id_not_8);
COMPILE_ASSERT(offsetof(IsRenderbuffer, result_shm_offset) == 12,
OffsetOf_IsRenderbuffer_result_shm_offset_not_12);
struct IsShader {
typedef IsShader ValueType;
static const CommandId kCmdId = kIsShader;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef uint32 Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _shader, uint32 _result_shm_id, uint32 _result_shm_offset) {
SetHeader();
shader = _shader;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
}
void* Set(
void* cmd, GLuint _shader, uint32 _result_shm_id,
uint32 _result_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_shader, _result_shm_id, _result_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 shader;
uint32 result_shm_id;
uint32 result_shm_offset;
};
COMPILE_ASSERT(sizeof(IsShader) == 16,
Sizeof_IsShader_is_not_16);
COMPILE_ASSERT(offsetof(IsShader, header) == 0,
OffsetOf_IsShader_header_not_0);
COMPILE_ASSERT(offsetof(IsShader, shader) == 4,
OffsetOf_IsShader_shader_not_4);
COMPILE_ASSERT(offsetof(IsShader, result_shm_id) == 8,
OffsetOf_IsShader_result_shm_id_not_8);
COMPILE_ASSERT(offsetof(IsShader, result_shm_offset) == 12,
OffsetOf_IsShader_result_shm_offset_not_12);
struct IsTexture {
typedef IsTexture ValueType;
static const CommandId kCmdId = kIsTexture;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef uint32 Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _texture, uint32 _result_shm_id, uint32 _result_shm_offset) {
SetHeader();
texture = _texture;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
}
void* Set(
void* cmd, GLuint _texture, uint32 _result_shm_id,
uint32 _result_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_texture, _result_shm_id, _result_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 texture;
uint32 result_shm_id;
uint32 result_shm_offset;
};
COMPILE_ASSERT(sizeof(IsTexture) == 16,
Sizeof_IsTexture_is_not_16);
COMPILE_ASSERT(offsetof(IsTexture, header) == 0,
OffsetOf_IsTexture_header_not_0);
COMPILE_ASSERT(offsetof(IsTexture, texture) == 4,
OffsetOf_IsTexture_texture_not_4);
COMPILE_ASSERT(offsetof(IsTexture, result_shm_id) == 8,
OffsetOf_IsTexture_result_shm_id_not_8);
COMPILE_ASSERT(offsetof(IsTexture, result_shm_offset) == 12,
OffsetOf_IsTexture_result_shm_offset_not_12);
struct LineWidth {
typedef LineWidth ValueType;
static const CommandId kCmdId = kLineWidth;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLfloat _width) {
SetHeader();
width = _width;
}
void* Set(void* cmd, GLfloat _width) {
static_cast<ValueType*>(cmd)->Init(_width);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
float width;
};
COMPILE_ASSERT(sizeof(LineWidth) == 8,
Sizeof_LineWidth_is_not_8);
COMPILE_ASSERT(offsetof(LineWidth, header) == 0,
OffsetOf_LineWidth_header_not_0);
COMPILE_ASSERT(offsetof(LineWidth, width) == 4,
OffsetOf_LineWidth_width_not_4);
struct LinkProgram {
typedef LinkProgram ValueType;
static const CommandId kCmdId = kLinkProgram;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _program) {
SetHeader();
program = _program;
}
void* Set(void* cmd, GLuint _program) {
static_cast<ValueType*>(cmd)->Init(_program);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
};
COMPILE_ASSERT(sizeof(LinkProgram) == 8,
Sizeof_LinkProgram_is_not_8);
COMPILE_ASSERT(offsetof(LinkProgram, header) == 0,
OffsetOf_LinkProgram_header_not_0);
COMPILE_ASSERT(offsetof(LinkProgram, program) == 4,
OffsetOf_LinkProgram_program_not_4);
struct PixelStorei {
typedef PixelStorei ValueType;
static const CommandId kCmdId = kPixelStorei;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _pname, GLint _param) {
SetHeader();
pname = _pname;
param = _param;
}
void* Set(void* cmd, GLenum _pname, GLint _param) {
static_cast<ValueType*>(cmd)->Init(_pname, _param);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 pname;
int32 param;
};
COMPILE_ASSERT(sizeof(PixelStorei) == 12,
Sizeof_PixelStorei_is_not_12);
COMPILE_ASSERT(offsetof(PixelStorei, header) == 0,
OffsetOf_PixelStorei_header_not_0);
COMPILE_ASSERT(offsetof(PixelStorei, pname) == 4,
OffsetOf_PixelStorei_pname_not_4);
COMPILE_ASSERT(offsetof(PixelStorei, param) == 8,
OffsetOf_PixelStorei_param_not_8);
struct PolygonOffset {
typedef PolygonOffset ValueType;
static const CommandId kCmdId = kPolygonOffset;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLfloat _factor, GLfloat _units) {
SetHeader();
factor = _factor;
units = _units;
}
void* Set(void* cmd, GLfloat _factor, GLfloat _units) {
static_cast<ValueType*>(cmd)->Init(_factor, _units);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
float factor;
float units;
};
COMPILE_ASSERT(sizeof(PolygonOffset) == 12,
Sizeof_PolygonOffset_is_not_12);
COMPILE_ASSERT(offsetof(PolygonOffset, header) == 0,
OffsetOf_PolygonOffset_header_not_0);
COMPILE_ASSERT(offsetof(PolygonOffset, factor) == 4,
OffsetOf_PolygonOffset_factor_not_4);
COMPILE_ASSERT(offsetof(PolygonOffset, units) == 8,
OffsetOf_PolygonOffset_units_not_8);
// ReadPixels has the result separated from the pixel buffer so that
// it is easier to specify the result going to some specific place
// that exactly fits the rectangle of pixels.
struct ReadPixels {
typedef ReadPixels ValueType;
static const CommandId kCmdId = kReadPixels;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef uint32 Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLint _x, GLint _y, GLsizei _width, GLsizei _height, GLenum _format,
GLenum _type, uint32 _pixels_shm_id, uint32 _pixels_shm_offset,
uint32 _result_shm_id, uint32 _result_shm_offset, GLboolean _async) {
SetHeader();
x = _x;
y = _y;
width = _width;
height = _height;
format = _format;
type = _type;
pixels_shm_id = _pixels_shm_id;
pixels_shm_offset = _pixels_shm_offset;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
async = _async;
}
void* Set(
void* cmd, GLint _x, GLint _y, GLsizei _width, GLsizei _height,
GLenum _format, GLenum _type, uint32 _pixels_shm_id,
uint32 _pixels_shm_offset, uint32 _result_shm_id,
uint32 _result_shm_offset, GLboolean _async) {
static_cast<ValueType*>(
cmd)->Init(
_x, _y, _width, _height, _format, _type, _pixels_shm_id,
_pixels_shm_offset, _result_shm_id, _result_shm_offset, _async);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 x;
int32 y;
int32 width;
int32 height;
uint32 format;
uint32 type;
uint32 pixels_shm_id;
uint32 pixels_shm_offset;
uint32 result_shm_id;
uint32 result_shm_offset;
uint32 async;
};
COMPILE_ASSERT(sizeof(ReadPixels) == 48,
Sizeof_ReadPixels_is_not_48);
COMPILE_ASSERT(offsetof(ReadPixels, header) == 0,
OffsetOf_ReadPixels_header_not_0);
COMPILE_ASSERT(offsetof(ReadPixels, x) == 4,
OffsetOf_ReadPixels_x_not_4);
COMPILE_ASSERT(offsetof(ReadPixels, y) == 8,
OffsetOf_ReadPixels_y_not_8);
COMPILE_ASSERT(offsetof(ReadPixels, width) == 12,
OffsetOf_ReadPixels_width_not_12);
COMPILE_ASSERT(offsetof(ReadPixels, height) == 16,
OffsetOf_ReadPixels_height_not_16);
COMPILE_ASSERT(offsetof(ReadPixels, format) == 20,
OffsetOf_ReadPixels_format_not_20);
COMPILE_ASSERT(offsetof(ReadPixels, type) == 24,
OffsetOf_ReadPixels_type_not_24);
COMPILE_ASSERT(offsetof(ReadPixels, pixels_shm_id) == 28,
OffsetOf_ReadPixels_pixels_shm_id_not_28);
COMPILE_ASSERT(offsetof(ReadPixels, pixels_shm_offset) == 32,
OffsetOf_ReadPixels_pixels_shm_offset_not_32);
COMPILE_ASSERT(offsetof(ReadPixels, result_shm_id) == 36,
OffsetOf_ReadPixels_result_shm_id_not_36);
COMPILE_ASSERT(offsetof(ReadPixels, result_shm_offset) == 40,
OffsetOf_ReadPixels_result_shm_offset_not_40);
COMPILE_ASSERT(offsetof(ReadPixels, async) == 44,
OffsetOf_ReadPixels_async_not_44);
struct ReleaseShaderCompiler {
typedef ReleaseShaderCompiler ValueType;
static const CommandId kCmdId = kReleaseShaderCompiler;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init() {
SetHeader();
}
void* Set(void* cmd) {
static_cast<ValueType*>(cmd)->Init();
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
};
COMPILE_ASSERT(sizeof(ReleaseShaderCompiler) == 4,
Sizeof_ReleaseShaderCompiler_is_not_4);
COMPILE_ASSERT(offsetof(ReleaseShaderCompiler, header) == 0,
OffsetOf_ReleaseShaderCompiler_header_not_0);
struct RenderbufferStorage {
typedef RenderbufferStorage ValueType;
static const CommandId kCmdId = kRenderbufferStorage;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLenum _internalformat, GLsizei _width,
GLsizei _height) {
SetHeader();
target = _target;
internalformat = _internalformat;
width = _width;
height = _height;
}
void* Set(
void* cmd, GLenum _target, GLenum _internalformat, GLsizei _width,
GLsizei _height) {
static_cast<ValueType*>(
cmd)->Init(_target, _internalformat, _width, _height);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 internalformat;
int32 width;
int32 height;
};
COMPILE_ASSERT(sizeof(RenderbufferStorage) == 20,
Sizeof_RenderbufferStorage_is_not_20);
COMPILE_ASSERT(offsetof(RenderbufferStorage, header) == 0,
OffsetOf_RenderbufferStorage_header_not_0);
COMPILE_ASSERT(offsetof(RenderbufferStorage, target) == 4,
OffsetOf_RenderbufferStorage_target_not_4);
COMPILE_ASSERT(offsetof(RenderbufferStorage, internalformat) == 8,
OffsetOf_RenderbufferStorage_internalformat_not_8);
COMPILE_ASSERT(offsetof(RenderbufferStorage, width) == 12,
OffsetOf_RenderbufferStorage_width_not_12);
COMPILE_ASSERT(offsetof(RenderbufferStorage, height) == 16,
OffsetOf_RenderbufferStorage_height_not_16);
struct SampleCoverage {
typedef SampleCoverage ValueType;
static const CommandId kCmdId = kSampleCoverage;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLclampf _value, GLboolean _invert) {
SetHeader();
value = _value;
invert = _invert;
}
void* Set(void* cmd, GLclampf _value, GLboolean _invert) {
static_cast<ValueType*>(cmd)->Init(_value, _invert);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
float value;
uint32 invert;
};
COMPILE_ASSERT(sizeof(SampleCoverage) == 12,
Sizeof_SampleCoverage_is_not_12);
COMPILE_ASSERT(offsetof(SampleCoverage, header) == 0,
OffsetOf_SampleCoverage_header_not_0);
COMPILE_ASSERT(offsetof(SampleCoverage, value) == 4,
OffsetOf_SampleCoverage_value_not_4);
COMPILE_ASSERT(offsetof(SampleCoverage, invert) == 8,
OffsetOf_SampleCoverage_invert_not_8);
struct Scissor {
typedef Scissor ValueType;
static const CommandId kCmdId = kScissor;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLint _x, GLint _y, GLsizei _width, GLsizei _height) {
SetHeader();
x = _x;
y = _y;
width = _width;
height = _height;
}
void* Set(void* cmd, GLint _x, GLint _y, GLsizei _width, GLsizei _height) {
static_cast<ValueType*>(cmd)->Init(_x, _y, _width, _height);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 x;
int32 y;
int32 width;
int32 height;
};
COMPILE_ASSERT(sizeof(Scissor) == 20,
Sizeof_Scissor_is_not_20);
COMPILE_ASSERT(offsetof(Scissor, header) == 0,
OffsetOf_Scissor_header_not_0);
COMPILE_ASSERT(offsetof(Scissor, x) == 4,
OffsetOf_Scissor_x_not_4);
COMPILE_ASSERT(offsetof(Scissor, y) == 8,
OffsetOf_Scissor_y_not_8);
COMPILE_ASSERT(offsetof(Scissor, width) == 12,
OffsetOf_Scissor_width_not_12);
COMPILE_ASSERT(offsetof(Scissor, height) == 16,
OffsetOf_Scissor_height_not_16);
struct ShaderBinary {
typedef ShaderBinary ValueType;
static const CommandId kCmdId = kShaderBinary;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLsizei _n, uint32 _shaders_shm_id, uint32 _shaders_shm_offset,
GLenum _binaryformat, uint32 _binary_shm_id, uint32 _binary_shm_offset,
GLsizei _length) {
SetHeader();
n = _n;
shaders_shm_id = _shaders_shm_id;
shaders_shm_offset = _shaders_shm_offset;
binaryformat = _binaryformat;
binary_shm_id = _binary_shm_id;
binary_shm_offset = _binary_shm_offset;
length = _length;
}
void* Set(
void* cmd, GLsizei _n, uint32 _shaders_shm_id, uint32 _shaders_shm_offset,
GLenum _binaryformat, uint32 _binary_shm_id, uint32 _binary_shm_offset,
GLsizei _length) {
static_cast<ValueType*>(
cmd)->Init(
_n, _shaders_shm_id, _shaders_shm_offset, _binaryformat,
_binary_shm_id, _binary_shm_offset, _length);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 n;
uint32 shaders_shm_id;
uint32 shaders_shm_offset;
uint32 binaryformat;
uint32 binary_shm_id;
uint32 binary_shm_offset;
int32 length;
};
COMPILE_ASSERT(sizeof(ShaderBinary) == 32,
Sizeof_ShaderBinary_is_not_32);
COMPILE_ASSERT(offsetof(ShaderBinary, header) == 0,
OffsetOf_ShaderBinary_header_not_0);
COMPILE_ASSERT(offsetof(ShaderBinary, n) == 4,
OffsetOf_ShaderBinary_n_not_4);
COMPILE_ASSERT(offsetof(ShaderBinary, shaders_shm_id) == 8,
OffsetOf_ShaderBinary_shaders_shm_id_not_8);
COMPILE_ASSERT(offsetof(ShaderBinary, shaders_shm_offset) == 12,
OffsetOf_ShaderBinary_shaders_shm_offset_not_12);
COMPILE_ASSERT(offsetof(ShaderBinary, binaryformat) == 16,
OffsetOf_ShaderBinary_binaryformat_not_16);
COMPILE_ASSERT(offsetof(ShaderBinary, binary_shm_id) == 20,
OffsetOf_ShaderBinary_binary_shm_id_not_20);
COMPILE_ASSERT(offsetof(ShaderBinary, binary_shm_offset) == 24,
OffsetOf_ShaderBinary_binary_shm_offset_not_24);
COMPILE_ASSERT(offsetof(ShaderBinary, length) == 28,
OffsetOf_ShaderBinary_length_not_28);
struct ShaderSource {
typedef ShaderSource ValueType;
static const CommandId kCmdId = kShaderSource;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _shader, uint32 _data_shm_id, uint32 _data_shm_offset,
uint32 _data_size) {
SetHeader();
shader = _shader;
data_shm_id = _data_shm_id;
data_shm_offset = _data_shm_offset;
data_size = _data_size;
}
void* Set(
void* cmd, GLuint _shader, uint32 _data_shm_id, uint32 _data_shm_offset,
uint32 _data_size) {
static_cast<ValueType*>(
cmd)->Init(_shader, _data_shm_id, _data_shm_offset, _data_size);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 shader;
uint32 data_shm_id;
uint32 data_shm_offset;
uint32 data_size;
};
COMPILE_ASSERT(sizeof(ShaderSource) == 20,
Sizeof_ShaderSource_is_not_20);
COMPILE_ASSERT(offsetof(ShaderSource, header) == 0,
OffsetOf_ShaderSource_header_not_0);
COMPILE_ASSERT(offsetof(ShaderSource, shader) == 4,
OffsetOf_ShaderSource_shader_not_4);
COMPILE_ASSERT(offsetof(ShaderSource, data_shm_id) == 8,
OffsetOf_ShaderSource_data_shm_id_not_8);
COMPILE_ASSERT(offsetof(ShaderSource, data_shm_offset) == 12,
OffsetOf_ShaderSource_data_shm_offset_not_12);
COMPILE_ASSERT(offsetof(ShaderSource, data_size) == 16,
OffsetOf_ShaderSource_data_size_not_16);
struct ShaderSourceBucket {
typedef ShaderSourceBucket ValueType;
static const CommandId kCmdId = kShaderSourceBucket;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _shader, uint32 _data_bucket_id) {
SetHeader();
shader = _shader;
data_bucket_id = _data_bucket_id;
}
void* Set(void* cmd, GLuint _shader, uint32 _data_bucket_id) {
static_cast<ValueType*>(cmd)->Init(_shader, _data_bucket_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 shader;
uint32 data_bucket_id;
};
COMPILE_ASSERT(sizeof(ShaderSourceBucket) == 12,
Sizeof_ShaderSourceBucket_is_not_12);
COMPILE_ASSERT(offsetof(ShaderSourceBucket, header) == 0,
OffsetOf_ShaderSourceBucket_header_not_0);
COMPILE_ASSERT(offsetof(ShaderSourceBucket, shader) == 4,
OffsetOf_ShaderSourceBucket_shader_not_4);
COMPILE_ASSERT(offsetof(ShaderSourceBucket, data_bucket_id) == 8,
OffsetOf_ShaderSourceBucket_data_bucket_id_not_8);
struct StencilFunc {
typedef StencilFunc ValueType;
static const CommandId kCmdId = kStencilFunc;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _func, GLint _ref, GLuint _mask) {
SetHeader();
func = _func;
ref = _ref;
mask = _mask;
}
void* Set(void* cmd, GLenum _func, GLint _ref, GLuint _mask) {
static_cast<ValueType*>(cmd)->Init(_func, _ref, _mask);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 func;
int32 ref;
uint32 mask;
};
COMPILE_ASSERT(sizeof(StencilFunc) == 16,
Sizeof_StencilFunc_is_not_16);
COMPILE_ASSERT(offsetof(StencilFunc, header) == 0,
OffsetOf_StencilFunc_header_not_0);
COMPILE_ASSERT(offsetof(StencilFunc, func) == 4,
OffsetOf_StencilFunc_func_not_4);
COMPILE_ASSERT(offsetof(StencilFunc, ref) == 8,
OffsetOf_StencilFunc_ref_not_8);
COMPILE_ASSERT(offsetof(StencilFunc, mask) == 12,
OffsetOf_StencilFunc_mask_not_12);
struct StencilFuncSeparate {
typedef StencilFuncSeparate ValueType;
static const CommandId kCmdId = kStencilFuncSeparate;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _face, GLenum _func, GLint _ref, GLuint _mask) {
SetHeader();
face = _face;
func = _func;
ref = _ref;
mask = _mask;
}
void* Set(void* cmd, GLenum _face, GLenum _func, GLint _ref, GLuint _mask) {
static_cast<ValueType*>(cmd)->Init(_face, _func, _ref, _mask);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 face;
uint32 func;
int32 ref;
uint32 mask;
};
COMPILE_ASSERT(sizeof(StencilFuncSeparate) == 20,
Sizeof_StencilFuncSeparate_is_not_20);
COMPILE_ASSERT(offsetof(StencilFuncSeparate, header) == 0,
OffsetOf_StencilFuncSeparate_header_not_0);
COMPILE_ASSERT(offsetof(StencilFuncSeparate, face) == 4,
OffsetOf_StencilFuncSeparate_face_not_4);
COMPILE_ASSERT(offsetof(StencilFuncSeparate, func) == 8,
OffsetOf_StencilFuncSeparate_func_not_8);
COMPILE_ASSERT(offsetof(StencilFuncSeparate, ref) == 12,
OffsetOf_StencilFuncSeparate_ref_not_12);
COMPILE_ASSERT(offsetof(StencilFuncSeparate, mask) == 16,
OffsetOf_StencilFuncSeparate_mask_not_16);
struct StencilMask {
typedef StencilMask ValueType;
static const CommandId kCmdId = kStencilMask;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _mask) {
SetHeader();
mask = _mask;
}
void* Set(void* cmd, GLuint _mask) {
static_cast<ValueType*>(cmd)->Init(_mask);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 mask;
};
COMPILE_ASSERT(sizeof(StencilMask) == 8,
Sizeof_StencilMask_is_not_8);
COMPILE_ASSERT(offsetof(StencilMask, header) == 0,
OffsetOf_StencilMask_header_not_0);
COMPILE_ASSERT(offsetof(StencilMask, mask) == 4,
OffsetOf_StencilMask_mask_not_4);
struct StencilMaskSeparate {
typedef StencilMaskSeparate ValueType;
static const CommandId kCmdId = kStencilMaskSeparate;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _face, GLuint _mask) {
SetHeader();
face = _face;
mask = _mask;
}
void* Set(void* cmd, GLenum _face, GLuint _mask) {
static_cast<ValueType*>(cmd)->Init(_face, _mask);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 face;
uint32 mask;
};
COMPILE_ASSERT(sizeof(StencilMaskSeparate) == 12,
Sizeof_StencilMaskSeparate_is_not_12);
COMPILE_ASSERT(offsetof(StencilMaskSeparate, header) == 0,
OffsetOf_StencilMaskSeparate_header_not_0);
COMPILE_ASSERT(offsetof(StencilMaskSeparate, face) == 4,
OffsetOf_StencilMaskSeparate_face_not_4);
COMPILE_ASSERT(offsetof(StencilMaskSeparate, mask) == 8,
OffsetOf_StencilMaskSeparate_mask_not_8);
struct StencilOp {
typedef StencilOp ValueType;
static const CommandId kCmdId = kStencilOp;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _fail, GLenum _zfail, GLenum _zpass) {
SetHeader();
fail = _fail;
zfail = _zfail;
zpass = _zpass;
}
void* Set(void* cmd, GLenum _fail, GLenum _zfail, GLenum _zpass) {
static_cast<ValueType*>(cmd)->Init(_fail, _zfail, _zpass);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 fail;
uint32 zfail;
uint32 zpass;
};
COMPILE_ASSERT(sizeof(StencilOp) == 16,
Sizeof_StencilOp_is_not_16);
COMPILE_ASSERT(offsetof(StencilOp, header) == 0,
OffsetOf_StencilOp_header_not_0);
COMPILE_ASSERT(offsetof(StencilOp, fail) == 4,
OffsetOf_StencilOp_fail_not_4);
COMPILE_ASSERT(offsetof(StencilOp, zfail) == 8,
OffsetOf_StencilOp_zfail_not_8);
COMPILE_ASSERT(offsetof(StencilOp, zpass) == 12,
OffsetOf_StencilOp_zpass_not_12);
struct StencilOpSeparate {
typedef StencilOpSeparate ValueType;
static const CommandId kCmdId = kStencilOpSeparate;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _face, GLenum _fail, GLenum _zfail, GLenum _zpass) {
SetHeader();
face = _face;
fail = _fail;
zfail = _zfail;
zpass = _zpass;
}
void* Set(
void* cmd, GLenum _face, GLenum _fail, GLenum _zfail, GLenum _zpass) {
static_cast<ValueType*>(cmd)->Init(_face, _fail, _zfail, _zpass);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 face;
uint32 fail;
uint32 zfail;
uint32 zpass;
};
COMPILE_ASSERT(sizeof(StencilOpSeparate) == 20,
Sizeof_StencilOpSeparate_is_not_20);
COMPILE_ASSERT(offsetof(StencilOpSeparate, header) == 0,
OffsetOf_StencilOpSeparate_header_not_0);
COMPILE_ASSERT(offsetof(StencilOpSeparate, face) == 4,
OffsetOf_StencilOpSeparate_face_not_4);
COMPILE_ASSERT(offsetof(StencilOpSeparate, fail) == 8,
OffsetOf_StencilOpSeparate_fail_not_8);
COMPILE_ASSERT(offsetof(StencilOpSeparate, zfail) == 12,
OffsetOf_StencilOpSeparate_zfail_not_12);
COMPILE_ASSERT(offsetof(StencilOpSeparate, zpass) == 16,
OffsetOf_StencilOpSeparate_zpass_not_16);
struct TexImage2D {
typedef TexImage2D ValueType;
static const CommandId kCmdId = kTexImage2D;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLint _level, GLint _internalformat, GLsizei _width,
GLsizei _height, GLint _border, GLenum _format, GLenum _type,
uint32 _pixels_shm_id, uint32 _pixels_shm_offset) {
SetHeader();
target = _target;
level = _level;
internalformat = _internalformat;
width = _width;
height = _height;
border = _border;
format = _format;
type = _type;
pixels_shm_id = _pixels_shm_id;
pixels_shm_offset = _pixels_shm_offset;
}
void* Set(
void* cmd, GLenum _target, GLint _level, GLint _internalformat,
GLsizei _width, GLsizei _height, GLint _border, GLenum _format,
GLenum _type, uint32 _pixels_shm_id, uint32 _pixels_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(
_target, _level, _internalformat, _width, _height, _border, _format,
_type, _pixels_shm_id, _pixels_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 level;
int32 internalformat;
int32 width;
int32 height;
int32 border;
uint32 format;
uint32 type;
uint32 pixels_shm_id;
uint32 pixels_shm_offset;
};
COMPILE_ASSERT(sizeof(TexImage2D) == 44,
Sizeof_TexImage2D_is_not_44);
COMPILE_ASSERT(offsetof(TexImage2D, header) == 0,
OffsetOf_TexImage2D_header_not_0);
COMPILE_ASSERT(offsetof(TexImage2D, target) == 4,
OffsetOf_TexImage2D_target_not_4);
COMPILE_ASSERT(offsetof(TexImage2D, level) == 8,
OffsetOf_TexImage2D_level_not_8);
COMPILE_ASSERT(offsetof(TexImage2D, internalformat) == 12,
OffsetOf_TexImage2D_internalformat_not_12);
COMPILE_ASSERT(offsetof(TexImage2D, width) == 16,
OffsetOf_TexImage2D_width_not_16);
COMPILE_ASSERT(offsetof(TexImage2D, height) == 20,
OffsetOf_TexImage2D_height_not_20);
COMPILE_ASSERT(offsetof(TexImage2D, border) == 24,
OffsetOf_TexImage2D_border_not_24);
COMPILE_ASSERT(offsetof(TexImage2D, format) == 28,
OffsetOf_TexImage2D_format_not_28);
COMPILE_ASSERT(offsetof(TexImage2D, type) == 32,
OffsetOf_TexImage2D_type_not_32);
COMPILE_ASSERT(offsetof(TexImage2D, pixels_shm_id) == 36,
OffsetOf_TexImage2D_pixels_shm_id_not_36);
COMPILE_ASSERT(offsetof(TexImage2D, pixels_shm_offset) == 40,
OffsetOf_TexImage2D_pixels_shm_offset_not_40);
struct TexParameterf {
typedef TexParameterf ValueType;
static const CommandId kCmdId = kTexParameterf;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _target, GLenum _pname, GLfloat _param) {
SetHeader();
target = _target;
pname = _pname;
param = _param;
}
void* Set(void* cmd, GLenum _target, GLenum _pname, GLfloat _param) {
static_cast<ValueType*>(cmd)->Init(_target, _pname, _param);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 pname;
float param;
};
COMPILE_ASSERT(sizeof(TexParameterf) == 16,
Sizeof_TexParameterf_is_not_16);
COMPILE_ASSERT(offsetof(TexParameterf, header) == 0,
OffsetOf_TexParameterf_header_not_0);
COMPILE_ASSERT(offsetof(TexParameterf, target) == 4,
OffsetOf_TexParameterf_target_not_4);
COMPILE_ASSERT(offsetof(TexParameterf, pname) == 8,
OffsetOf_TexParameterf_pname_not_8);
COMPILE_ASSERT(offsetof(TexParameterf, param) == 12,
OffsetOf_TexParameterf_param_not_12);
struct TexParameterfv {
typedef TexParameterfv ValueType;
static const CommandId kCmdId = kTexParameterfv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
SetHeader();
target = _target;
pname = _pname;
params_shm_id = _params_shm_id;
params_shm_offset = _params_shm_offset;
}
void* Set(
void* cmd, GLenum _target, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_target, _pname, _params_shm_id, _params_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 pname;
uint32 params_shm_id;
uint32 params_shm_offset;
};
COMPILE_ASSERT(sizeof(TexParameterfv) == 20,
Sizeof_TexParameterfv_is_not_20);
COMPILE_ASSERT(offsetof(TexParameterfv, header) == 0,
OffsetOf_TexParameterfv_header_not_0);
COMPILE_ASSERT(offsetof(TexParameterfv, target) == 4,
OffsetOf_TexParameterfv_target_not_4);
COMPILE_ASSERT(offsetof(TexParameterfv, pname) == 8,
OffsetOf_TexParameterfv_pname_not_8);
COMPILE_ASSERT(offsetof(TexParameterfv, params_shm_id) == 12,
OffsetOf_TexParameterfv_params_shm_id_not_12);
COMPILE_ASSERT(offsetof(TexParameterfv, params_shm_offset) == 16,
OffsetOf_TexParameterfv_params_shm_offset_not_16);
struct TexParameterfvImmediate {
typedef TexParameterfvImmediate ValueType;
static const CommandId kCmdId = kTexParameterfvImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize() {
return static_cast<uint32>(
sizeof(GLfloat) * 1); // NOLINT
}
static uint32 ComputeSize() {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize()); // NOLINT
}
void SetHeader() {
header.SetCmdByTotalSize<ValueType>(ComputeSize());
}
void Init(GLenum _target, GLenum _pname, const GLfloat* _params) {
SetHeader();
target = _target;
pname = _pname;
memcpy(ImmediateDataAddress(this),
_params, ComputeDataSize());
}
void* Set(void* cmd, GLenum _target, GLenum _pname, const GLfloat* _params) {
static_cast<ValueType*>(cmd)->Init(_target, _pname, _params);
const uint32 size = ComputeSize();
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
uint32 target;
uint32 pname;
};
COMPILE_ASSERT(sizeof(TexParameterfvImmediate) == 12,
Sizeof_TexParameterfvImmediate_is_not_12);
COMPILE_ASSERT(offsetof(TexParameterfvImmediate, header) == 0,
OffsetOf_TexParameterfvImmediate_header_not_0);
COMPILE_ASSERT(offsetof(TexParameterfvImmediate, target) == 4,
OffsetOf_TexParameterfvImmediate_target_not_4);
COMPILE_ASSERT(offsetof(TexParameterfvImmediate, pname) == 8,
OffsetOf_TexParameterfvImmediate_pname_not_8);
struct TexParameteri {
typedef TexParameteri ValueType;
static const CommandId kCmdId = kTexParameteri;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _target, GLenum _pname, GLint _param) {
SetHeader();
target = _target;
pname = _pname;
param = _param;
}
void* Set(void* cmd, GLenum _target, GLenum _pname, GLint _param) {
static_cast<ValueType*>(cmd)->Init(_target, _pname, _param);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 pname;
int32 param;
};
COMPILE_ASSERT(sizeof(TexParameteri) == 16,
Sizeof_TexParameteri_is_not_16);
COMPILE_ASSERT(offsetof(TexParameteri, header) == 0,
OffsetOf_TexParameteri_header_not_0);
COMPILE_ASSERT(offsetof(TexParameteri, target) == 4,
OffsetOf_TexParameteri_target_not_4);
COMPILE_ASSERT(offsetof(TexParameteri, pname) == 8,
OffsetOf_TexParameteri_pname_not_8);
COMPILE_ASSERT(offsetof(TexParameteri, param) == 12,
OffsetOf_TexParameteri_param_not_12);
struct TexParameteriv {
typedef TexParameteriv ValueType;
static const CommandId kCmdId = kTexParameteriv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
SetHeader();
target = _target;
pname = _pname;
params_shm_id = _params_shm_id;
params_shm_offset = _params_shm_offset;
}
void* Set(
void* cmd, GLenum _target, GLenum _pname, uint32 _params_shm_id,
uint32 _params_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_target, _pname, _params_shm_id, _params_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 pname;
uint32 params_shm_id;
uint32 params_shm_offset;
};
COMPILE_ASSERT(sizeof(TexParameteriv) == 20,
Sizeof_TexParameteriv_is_not_20);
COMPILE_ASSERT(offsetof(TexParameteriv, header) == 0,
OffsetOf_TexParameteriv_header_not_0);
COMPILE_ASSERT(offsetof(TexParameteriv, target) == 4,
OffsetOf_TexParameteriv_target_not_4);
COMPILE_ASSERT(offsetof(TexParameteriv, pname) == 8,
OffsetOf_TexParameteriv_pname_not_8);
COMPILE_ASSERT(offsetof(TexParameteriv, params_shm_id) == 12,
OffsetOf_TexParameteriv_params_shm_id_not_12);
COMPILE_ASSERT(offsetof(TexParameteriv, params_shm_offset) == 16,
OffsetOf_TexParameteriv_params_shm_offset_not_16);
struct TexParameterivImmediate {
typedef TexParameterivImmediate ValueType;
static const CommandId kCmdId = kTexParameterivImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize() {
return static_cast<uint32>(
sizeof(GLint) * 1); // NOLINT
}
static uint32 ComputeSize() {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize()); // NOLINT
}
void SetHeader() {
header.SetCmdByTotalSize<ValueType>(ComputeSize());
}
void Init(GLenum _target, GLenum _pname, const GLint* _params) {
SetHeader();
target = _target;
pname = _pname;
memcpy(ImmediateDataAddress(this),
_params, ComputeDataSize());
}
void* Set(void* cmd, GLenum _target, GLenum _pname, const GLint* _params) {
static_cast<ValueType*>(cmd)->Init(_target, _pname, _params);
const uint32 size = ComputeSize();
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
uint32 target;
uint32 pname;
};
COMPILE_ASSERT(sizeof(TexParameterivImmediate) == 12,
Sizeof_TexParameterivImmediate_is_not_12);
COMPILE_ASSERT(offsetof(TexParameterivImmediate, header) == 0,
OffsetOf_TexParameterivImmediate_header_not_0);
COMPILE_ASSERT(offsetof(TexParameterivImmediate, target) == 4,
OffsetOf_TexParameterivImmediate_target_not_4);
COMPILE_ASSERT(offsetof(TexParameterivImmediate, pname) == 8,
OffsetOf_TexParameterivImmediate_pname_not_8);
struct TexSubImage2D {
typedef TexSubImage2D ValueType;
static const CommandId kCmdId = kTexSubImage2D;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLint _level, GLint _xoffset, GLint _yoffset,
GLsizei _width, GLsizei _height, GLenum _format, GLenum _type,
uint32 _pixels_shm_id, uint32 _pixels_shm_offset, GLboolean _internal) {
SetHeader();
target = _target;
level = _level;
xoffset = _xoffset;
yoffset = _yoffset;
width = _width;
height = _height;
format = _format;
type = _type;
pixels_shm_id = _pixels_shm_id;
pixels_shm_offset = _pixels_shm_offset;
internal = _internal;
}
void* Set(
void* cmd, GLenum _target, GLint _level, GLint _xoffset, GLint _yoffset,
GLsizei _width, GLsizei _height, GLenum _format, GLenum _type,
uint32 _pixels_shm_id, uint32 _pixels_shm_offset, GLboolean _internal) {
static_cast<ValueType*>(
cmd)->Init(
_target, _level, _xoffset, _yoffset, _width, _height, _format,
_type, _pixels_shm_id, _pixels_shm_offset, _internal);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 level;
int32 xoffset;
int32 yoffset;
int32 width;
int32 height;
uint32 format;
uint32 type;
uint32 pixels_shm_id;
uint32 pixels_shm_offset;
uint32 internal;
};
COMPILE_ASSERT(sizeof(TexSubImage2D) == 48,
Sizeof_TexSubImage2D_is_not_48);
COMPILE_ASSERT(offsetof(TexSubImage2D, header) == 0,
OffsetOf_TexSubImage2D_header_not_0);
COMPILE_ASSERT(offsetof(TexSubImage2D, target) == 4,
OffsetOf_TexSubImage2D_target_not_4);
COMPILE_ASSERT(offsetof(TexSubImage2D, level) == 8,
OffsetOf_TexSubImage2D_level_not_8);
COMPILE_ASSERT(offsetof(TexSubImage2D, xoffset) == 12,
OffsetOf_TexSubImage2D_xoffset_not_12);
COMPILE_ASSERT(offsetof(TexSubImage2D, yoffset) == 16,
OffsetOf_TexSubImage2D_yoffset_not_16);
COMPILE_ASSERT(offsetof(TexSubImage2D, width) == 20,
OffsetOf_TexSubImage2D_width_not_20);
COMPILE_ASSERT(offsetof(TexSubImage2D, height) == 24,
OffsetOf_TexSubImage2D_height_not_24);
COMPILE_ASSERT(offsetof(TexSubImage2D, format) == 28,
OffsetOf_TexSubImage2D_format_not_28);
COMPILE_ASSERT(offsetof(TexSubImage2D, type) == 32,
OffsetOf_TexSubImage2D_type_not_32);
COMPILE_ASSERT(offsetof(TexSubImage2D, pixels_shm_id) == 36,
OffsetOf_TexSubImage2D_pixels_shm_id_not_36);
COMPILE_ASSERT(offsetof(TexSubImage2D, pixels_shm_offset) == 40,
OffsetOf_TexSubImage2D_pixels_shm_offset_not_40);
COMPILE_ASSERT(offsetof(TexSubImage2D, internal) == 44,
OffsetOf_TexSubImage2D_internal_not_44);
struct Uniform1f {
typedef Uniform1f ValueType;
static const CommandId kCmdId = kUniform1f;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLint _location, GLfloat _x) {
SetHeader();
location = _location;
x = _x;
}
void* Set(void* cmd, GLint _location, GLfloat _x) {
static_cast<ValueType*>(cmd)->Init(_location, _x);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
float x;
};
COMPILE_ASSERT(sizeof(Uniform1f) == 12,
Sizeof_Uniform1f_is_not_12);
COMPILE_ASSERT(offsetof(Uniform1f, header) == 0,
OffsetOf_Uniform1f_header_not_0);
COMPILE_ASSERT(offsetof(Uniform1f, location) == 4,
OffsetOf_Uniform1f_location_not_4);
COMPILE_ASSERT(offsetof(Uniform1f, x) == 8,
OffsetOf_Uniform1f_x_not_8);
struct Uniform1fv {
typedef Uniform1fv ValueType;
static const CommandId kCmdId = kUniform1fv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLint _location, GLsizei _count, uint32 _v_shm_id,
uint32 _v_shm_offset) {
SetHeader();
location = _location;
count = _count;
v_shm_id = _v_shm_id;
v_shm_offset = _v_shm_offset;
}
void* Set(
void* cmd, GLint _location, GLsizei _count, uint32 _v_shm_id,
uint32 _v_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_location, _count, _v_shm_id, _v_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
int32 count;
uint32 v_shm_id;
uint32 v_shm_offset;
};
COMPILE_ASSERT(sizeof(Uniform1fv) == 20,
Sizeof_Uniform1fv_is_not_20);
COMPILE_ASSERT(offsetof(Uniform1fv, header) == 0,
OffsetOf_Uniform1fv_header_not_0);
COMPILE_ASSERT(offsetof(Uniform1fv, location) == 4,
OffsetOf_Uniform1fv_location_not_4);
COMPILE_ASSERT(offsetof(Uniform1fv, count) == 8,
OffsetOf_Uniform1fv_count_not_8);
COMPILE_ASSERT(offsetof(Uniform1fv, v_shm_id) == 12,
OffsetOf_Uniform1fv_v_shm_id_not_12);
COMPILE_ASSERT(offsetof(Uniform1fv, v_shm_offset) == 16,
OffsetOf_Uniform1fv_v_shm_offset_not_16);
struct Uniform1fvImmediate {
typedef Uniform1fvImmediate ValueType;
static const CommandId kCmdId = kUniform1fvImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei count) {
return static_cast<uint32>(
sizeof(GLfloat) * 1 * count); // NOLINT
}
static uint32 ComputeSize(GLsizei count) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(count)); // NOLINT
}
void SetHeader(GLsizei count) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(count));
}
void Init(GLint _location, GLsizei _count, const GLfloat* _v) {
SetHeader(_count);
location = _location;
count = _count;
memcpy(ImmediateDataAddress(this),
_v, ComputeDataSize(_count));
}
void* Set(void* cmd, GLint _location, GLsizei _count, const GLfloat* _v) {
static_cast<ValueType*>(cmd)->Init(_location, _count, _v);
const uint32 size = ComputeSize(_count);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 location;
int32 count;
};
COMPILE_ASSERT(sizeof(Uniform1fvImmediate) == 12,
Sizeof_Uniform1fvImmediate_is_not_12);
COMPILE_ASSERT(offsetof(Uniform1fvImmediate, header) == 0,
OffsetOf_Uniform1fvImmediate_header_not_0);
COMPILE_ASSERT(offsetof(Uniform1fvImmediate, location) == 4,
OffsetOf_Uniform1fvImmediate_location_not_4);
COMPILE_ASSERT(offsetof(Uniform1fvImmediate, count) == 8,
OffsetOf_Uniform1fvImmediate_count_not_8);
struct Uniform1i {
typedef Uniform1i ValueType;
static const CommandId kCmdId = kUniform1i;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLint _location, GLint _x) {
SetHeader();
location = _location;
x = _x;
}
void* Set(void* cmd, GLint _location, GLint _x) {
static_cast<ValueType*>(cmd)->Init(_location, _x);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
int32 x;
};
COMPILE_ASSERT(sizeof(Uniform1i) == 12,
Sizeof_Uniform1i_is_not_12);
COMPILE_ASSERT(offsetof(Uniform1i, header) == 0,
OffsetOf_Uniform1i_header_not_0);
COMPILE_ASSERT(offsetof(Uniform1i, location) == 4,
OffsetOf_Uniform1i_location_not_4);
COMPILE_ASSERT(offsetof(Uniform1i, x) == 8,
OffsetOf_Uniform1i_x_not_8);
struct Uniform1iv {
typedef Uniform1iv ValueType;
static const CommandId kCmdId = kUniform1iv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLint _location, GLsizei _count, uint32 _v_shm_id,
uint32 _v_shm_offset) {
SetHeader();
location = _location;
count = _count;
v_shm_id = _v_shm_id;
v_shm_offset = _v_shm_offset;
}
void* Set(
void* cmd, GLint _location, GLsizei _count, uint32 _v_shm_id,
uint32 _v_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_location, _count, _v_shm_id, _v_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
int32 count;
uint32 v_shm_id;
uint32 v_shm_offset;
};
COMPILE_ASSERT(sizeof(Uniform1iv) == 20,
Sizeof_Uniform1iv_is_not_20);
COMPILE_ASSERT(offsetof(Uniform1iv, header) == 0,
OffsetOf_Uniform1iv_header_not_0);
COMPILE_ASSERT(offsetof(Uniform1iv, location) == 4,
OffsetOf_Uniform1iv_location_not_4);
COMPILE_ASSERT(offsetof(Uniform1iv, count) == 8,
OffsetOf_Uniform1iv_count_not_8);
COMPILE_ASSERT(offsetof(Uniform1iv, v_shm_id) == 12,
OffsetOf_Uniform1iv_v_shm_id_not_12);
COMPILE_ASSERT(offsetof(Uniform1iv, v_shm_offset) == 16,
OffsetOf_Uniform1iv_v_shm_offset_not_16);
struct Uniform1ivImmediate {
typedef Uniform1ivImmediate ValueType;
static const CommandId kCmdId = kUniform1ivImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei count) {
return static_cast<uint32>(
sizeof(GLint) * 1 * count); // NOLINT
}
static uint32 ComputeSize(GLsizei count) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(count)); // NOLINT
}
void SetHeader(GLsizei count) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(count));
}
void Init(GLint _location, GLsizei _count, const GLint* _v) {
SetHeader(_count);
location = _location;
count = _count;
memcpy(ImmediateDataAddress(this),
_v, ComputeDataSize(_count));
}
void* Set(void* cmd, GLint _location, GLsizei _count, const GLint* _v) {
static_cast<ValueType*>(cmd)->Init(_location, _count, _v);
const uint32 size = ComputeSize(_count);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 location;
int32 count;
};
COMPILE_ASSERT(sizeof(Uniform1ivImmediate) == 12,
Sizeof_Uniform1ivImmediate_is_not_12);
COMPILE_ASSERT(offsetof(Uniform1ivImmediate, header) == 0,
OffsetOf_Uniform1ivImmediate_header_not_0);
COMPILE_ASSERT(offsetof(Uniform1ivImmediate, location) == 4,
OffsetOf_Uniform1ivImmediate_location_not_4);
COMPILE_ASSERT(offsetof(Uniform1ivImmediate, count) == 8,
OffsetOf_Uniform1ivImmediate_count_not_8);
struct Uniform2f {
typedef Uniform2f ValueType;
static const CommandId kCmdId = kUniform2f;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLint _location, GLfloat _x, GLfloat _y) {
SetHeader();
location = _location;
x = _x;
y = _y;
}
void* Set(void* cmd, GLint _location, GLfloat _x, GLfloat _y) {
static_cast<ValueType*>(cmd)->Init(_location, _x, _y);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
float x;
float y;
};
COMPILE_ASSERT(sizeof(Uniform2f) == 16,
Sizeof_Uniform2f_is_not_16);
COMPILE_ASSERT(offsetof(Uniform2f, header) == 0,
OffsetOf_Uniform2f_header_not_0);
COMPILE_ASSERT(offsetof(Uniform2f, location) == 4,
OffsetOf_Uniform2f_location_not_4);
COMPILE_ASSERT(offsetof(Uniform2f, x) == 8,
OffsetOf_Uniform2f_x_not_8);
COMPILE_ASSERT(offsetof(Uniform2f, y) == 12,
OffsetOf_Uniform2f_y_not_12);
struct Uniform2fv {
typedef Uniform2fv ValueType;
static const CommandId kCmdId = kUniform2fv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLint _location, GLsizei _count, uint32 _v_shm_id,
uint32 _v_shm_offset) {
SetHeader();
location = _location;
count = _count;
v_shm_id = _v_shm_id;
v_shm_offset = _v_shm_offset;
}
void* Set(
void* cmd, GLint _location, GLsizei _count, uint32 _v_shm_id,
uint32 _v_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_location, _count, _v_shm_id, _v_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
int32 count;
uint32 v_shm_id;
uint32 v_shm_offset;
};
COMPILE_ASSERT(sizeof(Uniform2fv) == 20,
Sizeof_Uniform2fv_is_not_20);
COMPILE_ASSERT(offsetof(Uniform2fv, header) == 0,
OffsetOf_Uniform2fv_header_not_0);
COMPILE_ASSERT(offsetof(Uniform2fv, location) == 4,
OffsetOf_Uniform2fv_location_not_4);
COMPILE_ASSERT(offsetof(Uniform2fv, count) == 8,
OffsetOf_Uniform2fv_count_not_8);
COMPILE_ASSERT(offsetof(Uniform2fv, v_shm_id) == 12,
OffsetOf_Uniform2fv_v_shm_id_not_12);
COMPILE_ASSERT(offsetof(Uniform2fv, v_shm_offset) == 16,
OffsetOf_Uniform2fv_v_shm_offset_not_16);
struct Uniform2fvImmediate {
typedef Uniform2fvImmediate ValueType;
static const CommandId kCmdId = kUniform2fvImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei count) {
return static_cast<uint32>(
sizeof(GLfloat) * 2 * count); // NOLINT
}
static uint32 ComputeSize(GLsizei count) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(count)); // NOLINT
}
void SetHeader(GLsizei count) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(count));
}
void Init(GLint _location, GLsizei _count, const GLfloat* _v) {
SetHeader(_count);
location = _location;
count = _count;
memcpy(ImmediateDataAddress(this),
_v, ComputeDataSize(_count));
}
void* Set(void* cmd, GLint _location, GLsizei _count, const GLfloat* _v) {
static_cast<ValueType*>(cmd)->Init(_location, _count, _v);
const uint32 size = ComputeSize(_count);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 location;
int32 count;
};
COMPILE_ASSERT(sizeof(Uniform2fvImmediate) == 12,
Sizeof_Uniform2fvImmediate_is_not_12);
COMPILE_ASSERT(offsetof(Uniform2fvImmediate, header) == 0,
OffsetOf_Uniform2fvImmediate_header_not_0);
COMPILE_ASSERT(offsetof(Uniform2fvImmediate, location) == 4,
OffsetOf_Uniform2fvImmediate_location_not_4);
COMPILE_ASSERT(offsetof(Uniform2fvImmediate, count) == 8,
OffsetOf_Uniform2fvImmediate_count_not_8);
struct Uniform2i {
typedef Uniform2i ValueType;
static const CommandId kCmdId = kUniform2i;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLint _location, GLint _x, GLint _y) {
SetHeader();
location = _location;
x = _x;
y = _y;
}
void* Set(void* cmd, GLint _location, GLint _x, GLint _y) {
static_cast<ValueType*>(cmd)->Init(_location, _x, _y);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
int32 x;
int32 y;
};
COMPILE_ASSERT(sizeof(Uniform2i) == 16,
Sizeof_Uniform2i_is_not_16);
COMPILE_ASSERT(offsetof(Uniform2i, header) == 0,
OffsetOf_Uniform2i_header_not_0);
COMPILE_ASSERT(offsetof(Uniform2i, location) == 4,
OffsetOf_Uniform2i_location_not_4);
COMPILE_ASSERT(offsetof(Uniform2i, x) == 8,
OffsetOf_Uniform2i_x_not_8);
COMPILE_ASSERT(offsetof(Uniform2i, y) == 12,
OffsetOf_Uniform2i_y_not_12);
struct Uniform2iv {
typedef Uniform2iv ValueType;
static const CommandId kCmdId = kUniform2iv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLint _location, GLsizei _count, uint32 _v_shm_id,
uint32 _v_shm_offset) {
SetHeader();
location = _location;
count = _count;
v_shm_id = _v_shm_id;
v_shm_offset = _v_shm_offset;
}
void* Set(
void* cmd, GLint _location, GLsizei _count, uint32 _v_shm_id,
uint32 _v_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_location, _count, _v_shm_id, _v_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
int32 count;
uint32 v_shm_id;
uint32 v_shm_offset;
};
COMPILE_ASSERT(sizeof(Uniform2iv) == 20,
Sizeof_Uniform2iv_is_not_20);
COMPILE_ASSERT(offsetof(Uniform2iv, header) == 0,
OffsetOf_Uniform2iv_header_not_0);
COMPILE_ASSERT(offsetof(Uniform2iv, location) == 4,
OffsetOf_Uniform2iv_location_not_4);
COMPILE_ASSERT(offsetof(Uniform2iv, count) == 8,
OffsetOf_Uniform2iv_count_not_8);
COMPILE_ASSERT(offsetof(Uniform2iv, v_shm_id) == 12,
OffsetOf_Uniform2iv_v_shm_id_not_12);
COMPILE_ASSERT(offsetof(Uniform2iv, v_shm_offset) == 16,
OffsetOf_Uniform2iv_v_shm_offset_not_16);
struct Uniform2ivImmediate {
typedef Uniform2ivImmediate ValueType;
static const CommandId kCmdId = kUniform2ivImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei count) {
return static_cast<uint32>(
sizeof(GLint) * 2 * count); // NOLINT
}
static uint32 ComputeSize(GLsizei count) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(count)); // NOLINT
}
void SetHeader(GLsizei count) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(count));
}
void Init(GLint _location, GLsizei _count, const GLint* _v) {
SetHeader(_count);
location = _location;
count = _count;
memcpy(ImmediateDataAddress(this),
_v, ComputeDataSize(_count));
}
void* Set(void* cmd, GLint _location, GLsizei _count, const GLint* _v) {
static_cast<ValueType*>(cmd)->Init(_location, _count, _v);
const uint32 size = ComputeSize(_count);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 location;
int32 count;
};
COMPILE_ASSERT(sizeof(Uniform2ivImmediate) == 12,
Sizeof_Uniform2ivImmediate_is_not_12);
COMPILE_ASSERT(offsetof(Uniform2ivImmediate, header) == 0,
OffsetOf_Uniform2ivImmediate_header_not_0);
COMPILE_ASSERT(offsetof(Uniform2ivImmediate, location) == 4,
OffsetOf_Uniform2ivImmediate_location_not_4);
COMPILE_ASSERT(offsetof(Uniform2ivImmediate, count) == 8,
OffsetOf_Uniform2ivImmediate_count_not_8);
struct Uniform3f {
typedef Uniform3f ValueType;
static const CommandId kCmdId = kUniform3f;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLint _location, GLfloat _x, GLfloat _y, GLfloat _z) {
SetHeader();
location = _location;
x = _x;
y = _y;
z = _z;
}
void* Set(void* cmd, GLint _location, GLfloat _x, GLfloat _y, GLfloat _z) {
static_cast<ValueType*>(cmd)->Init(_location, _x, _y, _z);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
float x;
float y;
float z;
};
COMPILE_ASSERT(sizeof(Uniform3f) == 20,
Sizeof_Uniform3f_is_not_20);
COMPILE_ASSERT(offsetof(Uniform3f, header) == 0,
OffsetOf_Uniform3f_header_not_0);
COMPILE_ASSERT(offsetof(Uniform3f, location) == 4,
OffsetOf_Uniform3f_location_not_4);
COMPILE_ASSERT(offsetof(Uniform3f, x) == 8,
OffsetOf_Uniform3f_x_not_8);
COMPILE_ASSERT(offsetof(Uniform3f, y) == 12,
OffsetOf_Uniform3f_y_not_12);
COMPILE_ASSERT(offsetof(Uniform3f, z) == 16,
OffsetOf_Uniform3f_z_not_16);
struct Uniform3fv {
typedef Uniform3fv ValueType;
static const CommandId kCmdId = kUniform3fv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLint _location, GLsizei _count, uint32 _v_shm_id,
uint32 _v_shm_offset) {
SetHeader();
location = _location;
count = _count;
v_shm_id = _v_shm_id;
v_shm_offset = _v_shm_offset;
}
void* Set(
void* cmd, GLint _location, GLsizei _count, uint32 _v_shm_id,
uint32 _v_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_location, _count, _v_shm_id, _v_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
int32 count;
uint32 v_shm_id;
uint32 v_shm_offset;
};
COMPILE_ASSERT(sizeof(Uniform3fv) == 20,
Sizeof_Uniform3fv_is_not_20);
COMPILE_ASSERT(offsetof(Uniform3fv, header) == 0,
OffsetOf_Uniform3fv_header_not_0);
COMPILE_ASSERT(offsetof(Uniform3fv, location) == 4,
OffsetOf_Uniform3fv_location_not_4);
COMPILE_ASSERT(offsetof(Uniform3fv, count) == 8,
OffsetOf_Uniform3fv_count_not_8);
COMPILE_ASSERT(offsetof(Uniform3fv, v_shm_id) == 12,
OffsetOf_Uniform3fv_v_shm_id_not_12);
COMPILE_ASSERT(offsetof(Uniform3fv, v_shm_offset) == 16,
OffsetOf_Uniform3fv_v_shm_offset_not_16);
struct Uniform3fvImmediate {
typedef Uniform3fvImmediate ValueType;
static const CommandId kCmdId = kUniform3fvImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei count) {
return static_cast<uint32>(
sizeof(GLfloat) * 3 * count); // NOLINT
}
static uint32 ComputeSize(GLsizei count) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(count)); // NOLINT
}
void SetHeader(GLsizei count) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(count));
}
void Init(GLint _location, GLsizei _count, const GLfloat* _v) {
SetHeader(_count);
location = _location;
count = _count;
memcpy(ImmediateDataAddress(this),
_v, ComputeDataSize(_count));
}
void* Set(void* cmd, GLint _location, GLsizei _count, const GLfloat* _v) {
static_cast<ValueType*>(cmd)->Init(_location, _count, _v);
const uint32 size = ComputeSize(_count);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 location;
int32 count;
};
COMPILE_ASSERT(sizeof(Uniform3fvImmediate) == 12,
Sizeof_Uniform3fvImmediate_is_not_12);
COMPILE_ASSERT(offsetof(Uniform3fvImmediate, header) == 0,
OffsetOf_Uniform3fvImmediate_header_not_0);
COMPILE_ASSERT(offsetof(Uniform3fvImmediate, location) == 4,
OffsetOf_Uniform3fvImmediate_location_not_4);
COMPILE_ASSERT(offsetof(Uniform3fvImmediate, count) == 8,
OffsetOf_Uniform3fvImmediate_count_not_8);
struct Uniform3i {
typedef Uniform3i ValueType;
static const CommandId kCmdId = kUniform3i;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLint _location, GLint _x, GLint _y, GLint _z) {
SetHeader();
location = _location;
x = _x;
y = _y;
z = _z;
}
void* Set(void* cmd, GLint _location, GLint _x, GLint _y, GLint _z) {
static_cast<ValueType*>(cmd)->Init(_location, _x, _y, _z);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
int32 x;
int32 y;
int32 z;
};
COMPILE_ASSERT(sizeof(Uniform3i) == 20,
Sizeof_Uniform3i_is_not_20);
COMPILE_ASSERT(offsetof(Uniform3i, header) == 0,
OffsetOf_Uniform3i_header_not_0);
COMPILE_ASSERT(offsetof(Uniform3i, location) == 4,
OffsetOf_Uniform3i_location_not_4);
COMPILE_ASSERT(offsetof(Uniform3i, x) == 8,
OffsetOf_Uniform3i_x_not_8);
COMPILE_ASSERT(offsetof(Uniform3i, y) == 12,
OffsetOf_Uniform3i_y_not_12);
COMPILE_ASSERT(offsetof(Uniform3i, z) == 16,
OffsetOf_Uniform3i_z_not_16);
struct Uniform3iv {
typedef Uniform3iv ValueType;
static const CommandId kCmdId = kUniform3iv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLint _location, GLsizei _count, uint32 _v_shm_id,
uint32 _v_shm_offset) {
SetHeader();
location = _location;
count = _count;
v_shm_id = _v_shm_id;
v_shm_offset = _v_shm_offset;
}
void* Set(
void* cmd, GLint _location, GLsizei _count, uint32 _v_shm_id,
uint32 _v_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_location, _count, _v_shm_id, _v_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
int32 count;
uint32 v_shm_id;
uint32 v_shm_offset;
};
COMPILE_ASSERT(sizeof(Uniform3iv) == 20,
Sizeof_Uniform3iv_is_not_20);
COMPILE_ASSERT(offsetof(Uniform3iv, header) == 0,
OffsetOf_Uniform3iv_header_not_0);
COMPILE_ASSERT(offsetof(Uniform3iv, location) == 4,
OffsetOf_Uniform3iv_location_not_4);
COMPILE_ASSERT(offsetof(Uniform3iv, count) == 8,
OffsetOf_Uniform3iv_count_not_8);
COMPILE_ASSERT(offsetof(Uniform3iv, v_shm_id) == 12,
OffsetOf_Uniform3iv_v_shm_id_not_12);
COMPILE_ASSERT(offsetof(Uniform3iv, v_shm_offset) == 16,
OffsetOf_Uniform3iv_v_shm_offset_not_16);
struct Uniform3ivImmediate {
typedef Uniform3ivImmediate ValueType;
static const CommandId kCmdId = kUniform3ivImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei count) {
return static_cast<uint32>(
sizeof(GLint) * 3 * count); // NOLINT
}
static uint32 ComputeSize(GLsizei count) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(count)); // NOLINT
}
void SetHeader(GLsizei count) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(count));
}
void Init(GLint _location, GLsizei _count, const GLint* _v) {
SetHeader(_count);
location = _location;
count = _count;
memcpy(ImmediateDataAddress(this),
_v, ComputeDataSize(_count));
}
void* Set(void* cmd, GLint _location, GLsizei _count, const GLint* _v) {
static_cast<ValueType*>(cmd)->Init(_location, _count, _v);
const uint32 size = ComputeSize(_count);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 location;
int32 count;
};
COMPILE_ASSERT(sizeof(Uniform3ivImmediate) == 12,
Sizeof_Uniform3ivImmediate_is_not_12);
COMPILE_ASSERT(offsetof(Uniform3ivImmediate, header) == 0,
OffsetOf_Uniform3ivImmediate_header_not_0);
COMPILE_ASSERT(offsetof(Uniform3ivImmediate, location) == 4,
OffsetOf_Uniform3ivImmediate_location_not_4);
COMPILE_ASSERT(offsetof(Uniform3ivImmediate, count) == 8,
OffsetOf_Uniform3ivImmediate_count_not_8);
struct Uniform4f {
typedef Uniform4f ValueType;
static const CommandId kCmdId = kUniform4f;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLint _location, GLfloat _x, GLfloat _y, GLfloat _z, GLfloat _w) {
SetHeader();
location = _location;
x = _x;
y = _y;
z = _z;
w = _w;
}
void* Set(
void* cmd, GLint _location, GLfloat _x, GLfloat _y, GLfloat _z,
GLfloat _w) {
static_cast<ValueType*>(cmd)->Init(_location, _x, _y, _z, _w);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
float x;
float y;
float z;
float w;
};
COMPILE_ASSERT(sizeof(Uniform4f) == 24,
Sizeof_Uniform4f_is_not_24);
COMPILE_ASSERT(offsetof(Uniform4f, header) == 0,
OffsetOf_Uniform4f_header_not_0);
COMPILE_ASSERT(offsetof(Uniform4f, location) == 4,
OffsetOf_Uniform4f_location_not_4);
COMPILE_ASSERT(offsetof(Uniform4f, x) == 8,
OffsetOf_Uniform4f_x_not_8);
COMPILE_ASSERT(offsetof(Uniform4f, y) == 12,
OffsetOf_Uniform4f_y_not_12);
COMPILE_ASSERT(offsetof(Uniform4f, z) == 16,
OffsetOf_Uniform4f_z_not_16);
COMPILE_ASSERT(offsetof(Uniform4f, w) == 20,
OffsetOf_Uniform4f_w_not_20);
struct Uniform4fv {
typedef Uniform4fv ValueType;
static const CommandId kCmdId = kUniform4fv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLint _location, GLsizei _count, uint32 _v_shm_id,
uint32 _v_shm_offset) {
SetHeader();
location = _location;
count = _count;
v_shm_id = _v_shm_id;
v_shm_offset = _v_shm_offset;
}
void* Set(
void* cmd, GLint _location, GLsizei _count, uint32 _v_shm_id,
uint32 _v_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_location, _count, _v_shm_id, _v_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
int32 count;
uint32 v_shm_id;
uint32 v_shm_offset;
};
COMPILE_ASSERT(sizeof(Uniform4fv) == 20,
Sizeof_Uniform4fv_is_not_20);
COMPILE_ASSERT(offsetof(Uniform4fv, header) == 0,
OffsetOf_Uniform4fv_header_not_0);
COMPILE_ASSERT(offsetof(Uniform4fv, location) == 4,
OffsetOf_Uniform4fv_location_not_4);
COMPILE_ASSERT(offsetof(Uniform4fv, count) == 8,
OffsetOf_Uniform4fv_count_not_8);
COMPILE_ASSERT(offsetof(Uniform4fv, v_shm_id) == 12,
OffsetOf_Uniform4fv_v_shm_id_not_12);
COMPILE_ASSERT(offsetof(Uniform4fv, v_shm_offset) == 16,
OffsetOf_Uniform4fv_v_shm_offset_not_16);
struct Uniform4fvImmediate {
typedef Uniform4fvImmediate ValueType;
static const CommandId kCmdId = kUniform4fvImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei count) {
return static_cast<uint32>(
sizeof(GLfloat) * 4 * count); // NOLINT
}
static uint32 ComputeSize(GLsizei count) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(count)); // NOLINT
}
void SetHeader(GLsizei count) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(count));
}
void Init(GLint _location, GLsizei _count, const GLfloat* _v) {
SetHeader(_count);
location = _location;
count = _count;
memcpy(ImmediateDataAddress(this),
_v, ComputeDataSize(_count));
}
void* Set(void* cmd, GLint _location, GLsizei _count, const GLfloat* _v) {
static_cast<ValueType*>(cmd)->Init(_location, _count, _v);
const uint32 size = ComputeSize(_count);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 location;
int32 count;
};
COMPILE_ASSERT(sizeof(Uniform4fvImmediate) == 12,
Sizeof_Uniform4fvImmediate_is_not_12);
COMPILE_ASSERT(offsetof(Uniform4fvImmediate, header) == 0,
OffsetOf_Uniform4fvImmediate_header_not_0);
COMPILE_ASSERT(offsetof(Uniform4fvImmediate, location) == 4,
OffsetOf_Uniform4fvImmediate_location_not_4);
COMPILE_ASSERT(offsetof(Uniform4fvImmediate, count) == 8,
OffsetOf_Uniform4fvImmediate_count_not_8);
struct Uniform4i {
typedef Uniform4i ValueType;
static const CommandId kCmdId = kUniform4i;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLint _location, GLint _x, GLint _y, GLint _z, GLint _w) {
SetHeader();
location = _location;
x = _x;
y = _y;
z = _z;
w = _w;
}
void* Set(
void* cmd, GLint _location, GLint _x, GLint _y, GLint _z, GLint _w) {
static_cast<ValueType*>(cmd)->Init(_location, _x, _y, _z, _w);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
int32 x;
int32 y;
int32 z;
int32 w;
};
COMPILE_ASSERT(sizeof(Uniform4i) == 24,
Sizeof_Uniform4i_is_not_24);
COMPILE_ASSERT(offsetof(Uniform4i, header) == 0,
OffsetOf_Uniform4i_header_not_0);
COMPILE_ASSERT(offsetof(Uniform4i, location) == 4,
OffsetOf_Uniform4i_location_not_4);
COMPILE_ASSERT(offsetof(Uniform4i, x) == 8,
OffsetOf_Uniform4i_x_not_8);
COMPILE_ASSERT(offsetof(Uniform4i, y) == 12,
OffsetOf_Uniform4i_y_not_12);
COMPILE_ASSERT(offsetof(Uniform4i, z) == 16,
OffsetOf_Uniform4i_z_not_16);
COMPILE_ASSERT(offsetof(Uniform4i, w) == 20,
OffsetOf_Uniform4i_w_not_20);
struct Uniform4iv {
typedef Uniform4iv ValueType;
static const CommandId kCmdId = kUniform4iv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLint _location, GLsizei _count, uint32 _v_shm_id,
uint32 _v_shm_offset) {
SetHeader();
location = _location;
count = _count;
v_shm_id = _v_shm_id;
v_shm_offset = _v_shm_offset;
}
void* Set(
void* cmd, GLint _location, GLsizei _count, uint32 _v_shm_id,
uint32 _v_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_location, _count, _v_shm_id, _v_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
int32 count;
uint32 v_shm_id;
uint32 v_shm_offset;
};
COMPILE_ASSERT(sizeof(Uniform4iv) == 20,
Sizeof_Uniform4iv_is_not_20);
COMPILE_ASSERT(offsetof(Uniform4iv, header) == 0,
OffsetOf_Uniform4iv_header_not_0);
COMPILE_ASSERT(offsetof(Uniform4iv, location) == 4,
OffsetOf_Uniform4iv_location_not_4);
COMPILE_ASSERT(offsetof(Uniform4iv, count) == 8,
OffsetOf_Uniform4iv_count_not_8);
COMPILE_ASSERT(offsetof(Uniform4iv, v_shm_id) == 12,
OffsetOf_Uniform4iv_v_shm_id_not_12);
COMPILE_ASSERT(offsetof(Uniform4iv, v_shm_offset) == 16,
OffsetOf_Uniform4iv_v_shm_offset_not_16);
struct Uniform4ivImmediate {
typedef Uniform4ivImmediate ValueType;
static const CommandId kCmdId = kUniform4ivImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei count) {
return static_cast<uint32>(
sizeof(GLint) * 4 * count); // NOLINT
}
static uint32 ComputeSize(GLsizei count) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(count)); // NOLINT
}
void SetHeader(GLsizei count) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(count));
}
void Init(GLint _location, GLsizei _count, const GLint* _v) {
SetHeader(_count);
location = _location;
count = _count;
memcpy(ImmediateDataAddress(this),
_v, ComputeDataSize(_count));
}
void* Set(void* cmd, GLint _location, GLsizei _count, const GLint* _v) {
static_cast<ValueType*>(cmd)->Init(_location, _count, _v);
const uint32 size = ComputeSize(_count);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 location;
int32 count;
};
COMPILE_ASSERT(sizeof(Uniform4ivImmediate) == 12,
Sizeof_Uniform4ivImmediate_is_not_12);
COMPILE_ASSERT(offsetof(Uniform4ivImmediate, header) == 0,
OffsetOf_Uniform4ivImmediate_header_not_0);
COMPILE_ASSERT(offsetof(Uniform4ivImmediate, location) == 4,
OffsetOf_Uniform4ivImmediate_location_not_4);
COMPILE_ASSERT(offsetof(Uniform4ivImmediate, count) == 8,
OffsetOf_Uniform4ivImmediate_count_not_8);
struct UniformMatrix2fv {
typedef UniformMatrix2fv ValueType;
static const CommandId kCmdId = kUniformMatrix2fv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLint _location, GLsizei _count, GLboolean _transpose,
uint32 _value_shm_id, uint32 _value_shm_offset) {
SetHeader();
location = _location;
count = _count;
transpose = _transpose;
value_shm_id = _value_shm_id;
value_shm_offset = _value_shm_offset;
}
void* Set(
void* cmd, GLint _location, GLsizei _count, GLboolean _transpose,
uint32 _value_shm_id, uint32 _value_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(
_location, _count, _transpose, _value_shm_id, _value_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
int32 count;
uint32 transpose;
uint32 value_shm_id;
uint32 value_shm_offset;
};
COMPILE_ASSERT(sizeof(UniformMatrix2fv) == 24,
Sizeof_UniformMatrix2fv_is_not_24);
COMPILE_ASSERT(offsetof(UniformMatrix2fv, header) == 0,
OffsetOf_UniformMatrix2fv_header_not_0);
COMPILE_ASSERT(offsetof(UniformMatrix2fv, location) == 4,
OffsetOf_UniformMatrix2fv_location_not_4);
COMPILE_ASSERT(offsetof(UniformMatrix2fv, count) == 8,
OffsetOf_UniformMatrix2fv_count_not_8);
COMPILE_ASSERT(offsetof(UniformMatrix2fv, transpose) == 12,
OffsetOf_UniformMatrix2fv_transpose_not_12);
COMPILE_ASSERT(offsetof(UniformMatrix2fv, value_shm_id) == 16,
OffsetOf_UniformMatrix2fv_value_shm_id_not_16);
COMPILE_ASSERT(offsetof(UniformMatrix2fv, value_shm_offset) == 20,
OffsetOf_UniformMatrix2fv_value_shm_offset_not_20);
struct UniformMatrix2fvImmediate {
typedef UniformMatrix2fvImmediate ValueType;
static const CommandId kCmdId = kUniformMatrix2fvImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei count) {
return static_cast<uint32>(
sizeof(GLfloat) * 4 * count); // NOLINT
}
static uint32 ComputeSize(GLsizei count) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(count)); // NOLINT
}
void SetHeader(GLsizei count) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(count));
}
void Init(
GLint _location, GLsizei _count, GLboolean _transpose,
const GLfloat* _value) {
SetHeader(_count);
location = _location;
count = _count;
transpose = _transpose;
memcpy(ImmediateDataAddress(this),
_value, ComputeDataSize(_count));
}
void* Set(
void* cmd, GLint _location, GLsizei _count, GLboolean _transpose,
const GLfloat* _value) {
static_cast<ValueType*>(cmd)->Init(_location, _count, _transpose, _value);
const uint32 size = ComputeSize(_count);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 location;
int32 count;
uint32 transpose;
};
COMPILE_ASSERT(sizeof(UniformMatrix2fvImmediate) == 16,
Sizeof_UniformMatrix2fvImmediate_is_not_16);
COMPILE_ASSERT(offsetof(UniformMatrix2fvImmediate, header) == 0,
OffsetOf_UniformMatrix2fvImmediate_header_not_0);
COMPILE_ASSERT(offsetof(UniformMatrix2fvImmediate, location) == 4,
OffsetOf_UniformMatrix2fvImmediate_location_not_4);
COMPILE_ASSERT(offsetof(UniformMatrix2fvImmediate, count) == 8,
OffsetOf_UniformMatrix2fvImmediate_count_not_8);
COMPILE_ASSERT(offsetof(UniformMatrix2fvImmediate, transpose) == 12,
OffsetOf_UniformMatrix2fvImmediate_transpose_not_12);
struct UniformMatrix3fv {
typedef UniformMatrix3fv ValueType;
static const CommandId kCmdId = kUniformMatrix3fv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLint _location, GLsizei _count, GLboolean _transpose,
uint32 _value_shm_id, uint32 _value_shm_offset) {
SetHeader();
location = _location;
count = _count;
transpose = _transpose;
value_shm_id = _value_shm_id;
value_shm_offset = _value_shm_offset;
}
void* Set(
void* cmd, GLint _location, GLsizei _count, GLboolean _transpose,
uint32 _value_shm_id, uint32 _value_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(
_location, _count, _transpose, _value_shm_id, _value_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
int32 count;
uint32 transpose;
uint32 value_shm_id;
uint32 value_shm_offset;
};
COMPILE_ASSERT(sizeof(UniformMatrix3fv) == 24,
Sizeof_UniformMatrix3fv_is_not_24);
COMPILE_ASSERT(offsetof(UniformMatrix3fv, header) == 0,
OffsetOf_UniformMatrix3fv_header_not_0);
COMPILE_ASSERT(offsetof(UniformMatrix3fv, location) == 4,
OffsetOf_UniformMatrix3fv_location_not_4);
COMPILE_ASSERT(offsetof(UniformMatrix3fv, count) == 8,
OffsetOf_UniformMatrix3fv_count_not_8);
COMPILE_ASSERT(offsetof(UniformMatrix3fv, transpose) == 12,
OffsetOf_UniformMatrix3fv_transpose_not_12);
COMPILE_ASSERT(offsetof(UniformMatrix3fv, value_shm_id) == 16,
OffsetOf_UniformMatrix3fv_value_shm_id_not_16);
COMPILE_ASSERT(offsetof(UniformMatrix3fv, value_shm_offset) == 20,
OffsetOf_UniformMatrix3fv_value_shm_offset_not_20);
struct UniformMatrix3fvImmediate {
typedef UniformMatrix3fvImmediate ValueType;
static const CommandId kCmdId = kUniformMatrix3fvImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei count) {
return static_cast<uint32>(
sizeof(GLfloat) * 9 * count); // NOLINT
}
static uint32 ComputeSize(GLsizei count) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(count)); // NOLINT
}
void SetHeader(GLsizei count) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(count));
}
void Init(
GLint _location, GLsizei _count, GLboolean _transpose,
const GLfloat* _value) {
SetHeader(_count);
location = _location;
count = _count;
transpose = _transpose;
memcpy(ImmediateDataAddress(this),
_value, ComputeDataSize(_count));
}
void* Set(
void* cmd, GLint _location, GLsizei _count, GLboolean _transpose,
const GLfloat* _value) {
static_cast<ValueType*>(cmd)->Init(_location, _count, _transpose, _value);
const uint32 size = ComputeSize(_count);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 location;
int32 count;
uint32 transpose;
};
COMPILE_ASSERT(sizeof(UniformMatrix3fvImmediate) == 16,
Sizeof_UniformMatrix3fvImmediate_is_not_16);
COMPILE_ASSERT(offsetof(UniformMatrix3fvImmediate, header) == 0,
OffsetOf_UniformMatrix3fvImmediate_header_not_0);
COMPILE_ASSERT(offsetof(UniformMatrix3fvImmediate, location) == 4,
OffsetOf_UniformMatrix3fvImmediate_location_not_4);
COMPILE_ASSERT(offsetof(UniformMatrix3fvImmediate, count) == 8,
OffsetOf_UniformMatrix3fvImmediate_count_not_8);
COMPILE_ASSERT(offsetof(UniformMatrix3fvImmediate, transpose) == 12,
OffsetOf_UniformMatrix3fvImmediate_transpose_not_12);
struct UniformMatrix4fv {
typedef UniformMatrix4fv ValueType;
static const CommandId kCmdId = kUniformMatrix4fv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLint _location, GLsizei _count, GLboolean _transpose,
uint32 _value_shm_id, uint32 _value_shm_offset) {
SetHeader();
location = _location;
count = _count;
transpose = _transpose;
value_shm_id = _value_shm_id;
value_shm_offset = _value_shm_offset;
}
void* Set(
void* cmd, GLint _location, GLsizei _count, GLboolean _transpose,
uint32 _value_shm_id, uint32 _value_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(
_location, _count, _transpose, _value_shm_id, _value_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 location;
int32 count;
uint32 transpose;
uint32 value_shm_id;
uint32 value_shm_offset;
};
COMPILE_ASSERT(sizeof(UniformMatrix4fv) == 24,
Sizeof_UniformMatrix4fv_is_not_24);
COMPILE_ASSERT(offsetof(UniformMatrix4fv, header) == 0,
OffsetOf_UniformMatrix4fv_header_not_0);
COMPILE_ASSERT(offsetof(UniformMatrix4fv, location) == 4,
OffsetOf_UniformMatrix4fv_location_not_4);
COMPILE_ASSERT(offsetof(UniformMatrix4fv, count) == 8,
OffsetOf_UniformMatrix4fv_count_not_8);
COMPILE_ASSERT(offsetof(UniformMatrix4fv, transpose) == 12,
OffsetOf_UniformMatrix4fv_transpose_not_12);
COMPILE_ASSERT(offsetof(UniformMatrix4fv, value_shm_id) == 16,
OffsetOf_UniformMatrix4fv_value_shm_id_not_16);
COMPILE_ASSERT(offsetof(UniformMatrix4fv, value_shm_offset) == 20,
OffsetOf_UniformMatrix4fv_value_shm_offset_not_20);
struct UniformMatrix4fvImmediate {
typedef UniformMatrix4fvImmediate ValueType;
static const CommandId kCmdId = kUniformMatrix4fvImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei count) {
return static_cast<uint32>(
sizeof(GLfloat) * 16 * count); // NOLINT
}
static uint32 ComputeSize(GLsizei count) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(count)); // NOLINT
}
void SetHeader(GLsizei count) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(count));
}
void Init(
GLint _location, GLsizei _count, GLboolean _transpose,
const GLfloat* _value) {
SetHeader(_count);
location = _location;
count = _count;
transpose = _transpose;
memcpy(ImmediateDataAddress(this),
_value, ComputeDataSize(_count));
}
void* Set(
void* cmd, GLint _location, GLsizei _count, GLboolean _transpose,
const GLfloat* _value) {
static_cast<ValueType*>(cmd)->Init(_location, _count, _transpose, _value);
const uint32 size = ComputeSize(_count);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 location;
int32 count;
uint32 transpose;
};
COMPILE_ASSERT(sizeof(UniformMatrix4fvImmediate) == 16,
Sizeof_UniformMatrix4fvImmediate_is_not_16);
COMPILE_ASSERT(offsetof(UniformMatrix4fvImmediate, header) == 0,
OffsetOf_UniformMatrix4fvImmediate_header_not_0);
COMPILE_ASSERT(offsetof(UniformMatrix4fvImmediate, location) == 4,
OffsetOf_UniformMatrix4fvImmediate_location_not_4);
COMPILE_ASSERT(offsetof(UniformMatrix4fvImmediate, count) == 8,
OffsetOf_UniformMatrix4fvImmediate_count_not_8);
COMPILE_ASSERT(offsetof(UniformMatrix4fvImmediate, transpose) == 12,
OffsetOf_UniformMatrix4fvImmediate_transpose_not_12);
struct UseProgram {
typedef UseProgram ValueType;
static const CommandId kCmdId = kUseProgram;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _program) {
SetHeader();
program = _program;
}
void* Set(void* cmd, GLuint _program) {
static_cast<ValueType*>(cmd)->Init(_program);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
};
COMPILE_ASSERT(sizeof(UseProgram) == 8,
Sizeof_UseProgram_is_not_8);
COMPILE_ASSERT(offsetof(UseProgram, header) == 0,
OffsetOf_UseProgram_header_not_0);
COMPILE_ASSERT(offsetof(UseProgram, program) == 4,
OffsetOf_UseProgram_program_not_4);
struct ValidateProgram {
typedef ValidateProgram ValueType;
static const CommandId kCmdId = kValidateProgram;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _program) {
SetHeader();
program = _program;
}
void* Set(void* cmd, GLuint _program) {
static_cast<ValueType*>(cmd)->Init(_program);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
};
COMPILE_ASSERT(sizeof(ValidateProgram) == 8,
Sizeof_ValidateProgram_is_not_8);
COMPILE_ASSERT(offsetof(ValidateProgram, header) == 0,
OffsetOf_ValidateProgram_header_not_0);
COMPILE_ASSERT(offsetof(ValidateProgram, program) == 4,
OffsetOf_ValidateProgram_program_not_4);
struct VertexAttrib1f {
typedef VertexAttrib1f ValueType;
static const CommandId kCmdId = kVertexAttrib1f;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _indx, GLfloat _x) {
SetHeader();
indx = _indx;
x = _x;
}
void* Set(void* cmd, GLuint _indx, GLfloat _x) {
static_cast<ValueType*>(cmd)->Init(_indx, _x);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 indx;
float x;
};
COMPILE_ASSERT(sizeof(VertexAttrib1f) == 12,
Sizeof_VertexAttrib1f_is_not_12);
COMPILE_ASSERT(offsetof(VertexAttrib1f, header) == 0,
OffsetOf_VertexAttrib1f_header_not_0);
COMPILE_ASSERT(offsetof(VertexAttrib1f, indx) == 4,
OffsetOf_VertexAttrib1f_indx_not_4);
COMPILE_ASSERT(offsetof(VertexAttrib1f, x) == 8,
OffsetOf_VertexAttrib1f_x_not_8);
struct VertexAttrib1fv {
typedef VertexAttrib1fv ValueType;
static const CommandId kCmdId = kVertexAttrib1fv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _indx, uint32 _values_shm_id, uint32 _values_shm_offset) {
SetHeader();
indx = _indx;
values_shm_id = _values_shm_id;
values_shm_offset = _values_shm_offset;
}
void* Set(
void* cmd, GLuint _indx, uint32 _values_shm_id,
uint32 _values_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_indx, _values_shm_id, _values_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 indx;
uint32 values_shm_id;
uint32 values_shm_offset;
};
COMPILE_ASSERT(sizeof(VertexAttrib1fv) == 16,
Sizeof_VertexAttrib1fv_is_not_16);
COMPILE_ASSERT(offsetof(VertexAttrib1fv, header) == 0,
OffsetOf_VertexAttrib1fv_header_not_0);
COMPILE_ASSERT(offsetof(VertexAttrib1fv, indx) == 4,
OffsetOf_VertexAttrib1fv_indx_not_4);
COMPILE_ASSERT(offsetof(VertexAttrib1fv, values_shm_id) == 8,
OffsetOf_VertexAttrib1fv_values_shm_id_not_8);
COMPILE_ASSERT(offsetof(VertexAttrib1fv, values_shm_offset) == 12,
OffsetOf_VertexAttrib1fv_values_shm_offset_not_12);
struct VertexAttrib1fvImmediate {
typedef VertexAttrib1fvImmediate ValueType;
static const CommandId kCmdId = kVertexAttrib1fvImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize() {
return static_cast<uint32>(
sizeof(GLfloat) * 1); // NOLINT
}
static uint32 ComputeSize() {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize()); // NOLINT
}
void SetHeader() {
header.SetCmdByTotalSize<ValueType>(ComputeSize());
}
void Init(GLuint _indx, const GLfloat* _values) {
SetHeader();
indx = _indx;
memcpy(ImmediateDataAddress(this),
_values, ComputeDataSize());
}
void* Set(void* cmd, GLuint _indx, const GLfloat* _values) {
static_cast<ValueType*>(cmd)->Init(_indx, _values);
const uint32 size = ComputeSize();
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
uint32 indx;
};
COMPILE_ASSERT(sizeof(VertexAttrib1fvImmediate) == 8,
Sizeof_VertexAttrib1fvImmediate_is_not_8);
COMPILE_ASSERT(offsetof(VertexAttrib1fvImmediate, header) == 0,
OffsetOf_VertexAttrib1fvImmediate_header_not_0);
COMPILE_ASSERT(offsetof(VertexAttrib1fvImmediate, indx) == 4,
OffsetOf_VertexAttrib1fvImmediate_indx_not_4);
struct VertexAttrib2f {
typedef VertexAttrib2f ValueType;
static const CommandId kCmdId = kVertexAttrib2f;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _indx, GLfloat _x, GLfloat _y) {
SetHeader();
indx = _indx;
x = _x;
y = _y;
}
void* Set(void* cmd, GLuint _indx, GLfloat _x, GLfloat _y) {
static_cast<ValueType*>(cmd)->Init(_indx, _x, _y);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 indx;
float x;
float y;
};
COMPILE_ASSERT(sizeof(VertexAttrib2f) == 16,
Sizeof_VertexAttrib2f_is_not_16);
COMPILE_ASSERT(offsetof(VertexAttrib2f, header) == 0,
OffsetOf_VertexAttrib2f_header_not_0);
COMPILE_ASSERT(offsetof(VertexAttrib2f, indx) == 4,
OffsetOf_VertexAttrib2f_indx_not_4);
COMPILE_ASSERT(offsetof(VertexAttrib2f, x) == 8,
OffsetOf_VertexAttrib2f_x_not_8);
COMPILE_ASSERT(offsetof(VertexAttrib2f, y) == 12,
OffsetOf_VertexAttrib2f_y_not_12);
struct VertexAttrib2fv {
typedef VertexAttrib2fv ValueType;
static const CommandId kCmdId = kVertexAttrib2fv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _indx, uint32 _values_shm_id, uint32 _values_shm_offset) {
SetHeader();
indx = _indx;
values_shm_id = _values_shm_id;
values_shm_offset = _values_shm_offset;
}
void* Set(
void* cmd, GLuint _indx, uint32 _values_shm_id,
uint32 _values_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_indx, _values_shm_id, _values_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 indx;
uint32 values_shm_id;
uint32 values_shm_offset;
};
COMPILE_ASSERT(sizeof(VertexAttrib2fv) == 16,
Sizeof_VertexAttrib2fv_is_not_16);
COMPILE_ASSERT(offsetof(VertexAttrib2fv, header) == 0,
OffsetOf_VertexAttrib2fv_header_not_0);
COMPILE_ASSERT(offsetof(VertexAttrib2fv, indx) == 4,
OffsetOf_VertexAttrib2fv_indx_not_4);
COMPILE_ASSERT(offsetof(VertexAttrib2fv, values_shm_id) == 8,
OffsetOf_VertexAttrib2fv_values_shm_id_not_8);
COMPILE_ASSERT(offsetof(VertexAttrib2fv, values_shm_offset) == 12,
OffsetOf_VertexAttrib2fv_values_shm_offset_not_12);
struct VertexAttrib2fvImmediate {
typedef VertexAttrib2fvImmediate ValueType;
static const CommandId kCmdId = kVertexAttrib2fvImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize() {
return static_cast<uint32>(
sizeof(GLfloat) * 2); // NOLINT
}
static uint32 ComputeSize() {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize()); // NOLINT
}
void SetHeader() {
header.SetCmdByTotalSize<ValueType>(ComputeSize());
}
void Init(GLuint _indx, const GLfloat* _values) {
SetHeader();
indx = _indx;
memcpy(ImmediateDataAddress(this),
_values, ComputeDataSize());
}
void* Set(void* cmd, GLuint _indx, const GLfloat* _values) {
static_cast<ValueType*>(cmd)->Init(_indx, _values);
const uint32 size = ComputeSize();
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
uint32 indx;
};
COMPILE_ASSERT(sizeof(VertexAttrib2fvImmediate) == 8,
Sizeof_VertexAttrib2fvImmediate_is_not_8);
COMPILE_ASSERT(offsetof(VertexAttrib2fvImmediate, header) == 0,
OffsetOf_VertexAttrib2fvImmediate_header_not_0);
COMPILE_ASSERT(offsetof(VertexAttrib2fvImmediate, indx) == 4,
OffsetOf_VertexAttrib2fvImmediate_indx_not_4);
struct VertexAttrib3f {
typedef VertexAttrib3f ValueType;
static const CommandId kCmdId = kVertexAttrib3f;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _indx, GLfloat _x, GLfloat _y, GLfloat _z) {
SetHeader();
indx = _indx;
x = _x;
y = _y;
z = _z;
}
void* Set(void* cmd, GLuint _indx, GLfloat _x, GLfloat _y, GLfloat _z) {
static_cast<ValueType*>(cmd)->Init(_indx, _x, _y, _z);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 indx;
float x;
float y;
float z;
};
COMPILE_ASSERT(sizeof(VertexAttrib3f) == 20,
Sizeof_VertexAttrib3f_is_not_20);
COMPILE_ASSERT(offsetof(VertexAttrib3f, header) == 0,
OffsetOf_VertexAttrib3f_header_not_0);
COMPILE_ASSERT(offsetof(VertexAttrib3f, indx) == 4,
OffsetOf_VertexAttrib3f_indx_not_4);
COMPILE_ASSERT(offsetof(VertexAttrib3f, x) == 8,
OffsetOf_VertexAttrib3f_x_not_8);
COMPILE_ASSERT(offsetof(VertexAttrib3f, y) == 12,
OffsetOf_VertexAttrib3f_y_not_12);
COMPILE_ASSERT(offsetof(VertexAttrib3f, z) == 16,
OffsetOf_VertexAttrib3f_z_not_16);
struct VertexAttrib3fv {
typedef VertexAttrib3fv ValueType;
static const CommandId kCmdId = kVertexAttrib3fv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _indx, uint32 _values_shm_id, uint32 _values_shm_offset) {
SetHeader();
indx = _indx;
values_shm_id = _values_shm_id;
values_shm_offset = _values_shm_offset;
}
void* Set(
void* cmd, GLuint _indx, uint32 _values_shm_id,
uint32 _values_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_indx, _values_shm_id, _values_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 indx;
uint32 values_shm_id;
uint32 values_shm_offset;
};
COMPILE_ASSERT(sizeof(VertexAttrib3fv) == 16,
Sizeof_VertexAttrib3fv_is_not_16);
COMPILE_ASSERT(offsetof(VertexAttrib3fv, header) == 0,
OffsetOf_VertexAttrib3fv_header_not_0);
COMPILE_ASSERT(offsetof(VertexAttrib3fv, indx) == 4,
OffsetOf_VertexAttrib3fv_indx_not_4);
COMPILE_ASSERT(offsetof(VertexAttrib3fv, values_shm_id) == 8,
OffsetOf_VertexAttrib3fv_values_shm_id_not_8);
COMPILE_ASSERT(offsetof(VertexAttrib3fv, values_shm_offset) == 12,
OffsetOf_VertexAttrib3fv_values_shm_offset_not_12);
struct VertexAttrib3fvImmediate {
typedef VertexAttrib3fvImmediate ValueType;
static const CommandId kCmdId = kVertexAttrib3fvImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize() {
return static_cast<uint32>(
sizeof(GLfloat) * 3); // NOLINT
}
static uint32 ComputeSize() {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize()); // NOLINT
}
void SetHeader() {
header.SetCmdByTotalSize<ValueType>(ComputeSize());
}
void Init(GLuint _indx, const GLfloat* _values) {
SetHeader();
indx = _indx;
memcpy(ImmediateDataAddress(this),
_values, ComputeDataSize());
}
void* Set(void* cmd, GLuint _indx, const GLfloat* _values) {
static_cast<ValueType*>(cmd)->Init(_indx, _values);
const uint32 size = ComputeSize();
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
uint32 indx;
};
COMPILE_ASSERT(sizeof(VertexAttrib3fvImmediate) == 8,
Sizeof_VertexAttrib3fvImmediate_is_not_8);
COMPILE_ASSERT(offsetof(VertexAttrib3fvImmediate, header) == 0,
OffsetOf_VertexAttrib3fvImmediate_header_not_0);
COMPILE_ASSERT(offsetof(VertexAttrib3fvImmediate, indx) == 4,
OffsetOf_VertexAttrib3fvImmediate_indx_not_4);
struct VertexAttrib4f {
typedef VertexAttrib4f ValueType;
static const CommandId kCmdId = kVertexAttrib4f;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _indx, GLfloat _x, GLfloat _y, GLfloat _z, GLfloat _w) {
SetHeader();
indx = _indx;
x = _x;
y = _y;
z = _z;
w = _w;
}
void* Set(
void* cmd, GLuint _indx, GLfloat _x, GLfloat _y, GLfloat _z,
GLfloat _w) {
static_cast<ValueType*>(cmd)->Init(_indx, _x, _y, _z, _w);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 indx;
float x;
float y;
float z;
float w;
};
COMPILE_ASSERT(sizeof(VertexAttrib4f) == 24,
Sizeof_VertexAttrib4f_is_not_24);
COMPILE_ASSERT(offsetof(VertexAttrib4f, header) == 0,
OffsetOf_VertexAttrib4f_header_not_0);
COMPILE_ASSERT(offsetof(VertexAttrib4f, indx) == 4,
OffsetOf_VertexAttrib4f_indx_not_4);
COMPILE_ASSERT(offsetof(VertexAttrib4f, x) == 8,
OffsetOf_VertexAttrib4f_x_not_8);
COMPILE_ASSERT(offsetof(VertexAttrib4f, y) == 12,
OffsetOf_VertexAttrib4f_y_not_12);
COMPILE_ASSERT(offsetof(VertexAttrib4f, z) == 16,
OffsetOf_VertexAttrib4f_z_not_16);
COMPILE_ASSERT(offsetof(VertexAttrib4f, w) == 20,
OffsetOf_VertexAttrib4f_w_not_20);
struct VertexAttrib4fv {
typedef VertexAttrib4fv ValueType;
static const CommandId kCmdId = kVertexAttrib4fv;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _indx, uint32 _values_shm_id, uint32 _values_shm_offset) {
SetHeader();
indx = _indx;
values_shm_id = _values_shm_id;
values_shm_offset = _values_shm_offset;
}
void* Set(
void* cmd, GLuint _indx, uint32 _values_shm_id,
uint32 _values_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_indx, _values_shm_id, _values_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 indx;
uint32 values_shm_id;
uint32 values_shm_offset;
};
COMPILE_ASSERT(sizeof(VertexAttrib4fv) == 16,
Sizeof_VertexAttrib4fv_is_not_16);
COMPILE_ASSERT(offsetof(VertexAttrib4fv, header) == 0,
OffsetOf_VertexAttrib4fv_header_not_0);
COMPILE_ASSERT(offsetof(VertexAttrib4fv, indx) == 4,
OffsetOf_VertexAttrib4fv_indx_not_4);
COMPILE_ASSERT(offsetof(VertexAttrib4fv, values_shm_id) == 8,
OffsetOf_VertexAttrib4fv_values_shm_id_not_8);
COMPILE_ASSERT(offsetof(VertexAttrib4fv, values_shm_offset) == 12,
OffsetOf_VertexAttrib4fv_values_shm_offset_not_12);
struct VertexAttrib4fvImmediate {
typedef VertexAttrib4fvImmediate ValueType;
static const CommandId kCmdId = kVertexAttrib4fvImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize() {
return static_cast<uint32>(
sizeof(GLfloat) * 4); // NOLINT
}
static uint32 ComputeSize() {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize()); // NOLINT
}
void SetHeader() {
header.SetCmdByTotalSize<ValueType>(ComputeSize());
}
void Init(GLuint _indx, const GLfloat* _values) {
SetHeader();
indx = _indx;
memcpy(ImmediateDataAddress(this),
_values, ComputeDataSize());
}
void* Set(void* cmd, GLuint _indx, const GLfloat* _values) {
static_cast<ValueType*>(cmd)->Init(_indx, _values);
const uint32 size = ComputeSize();
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
uint32 indx;
};
COMPILE_ASSERT(sizeof(VertexAttrib4fvImmediate) == 8,
Sizeof_VertexAttrib4fvImmediate_is_not_8);
COMPILE_ASSERT(offsetof(VertexAttrib4fvImmediate, header) == 0,
OffsetOf_VertexAttrib4fvImmediate_header_not_0);
COMPILE_ASSERT(offsetof(VertexAttrib4fvImmediate, indx) == 4,
OffsetOf_VertexAttrib4fvImmediate_indx_not_4);
struct VertexAttribPointer {
typedef VertexAttribPointer ValueType;
static const CommandId kCmdId = kVertexAttribPointer;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _indx, GLint _size, GLenum _type, GLboolean _normalized,
GLsizei _stride, GLuint _offset) {
SetHeader();
indx = _indx;
size = _size;
type = _type;
normalized = _normalized;
stride = _stride;
offset = _offset;
}
void* Set(
void* cmd, GLuint _indx, GLint _size, GLenum _type, GLboolean _normalized,
GLsizei _stride, GLuint _offset) {
static_cast<ValueType*>(
cmd)->Init(_indx, _size, _type, _normalized, _stride, _offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 indx;
int32 size;
uint32 type;
uint32 normalized;
int32 stride;
uint32 offset;
};
COMPILE_ASSERT(sizeof(VertexAttribPointer) == 28,
Sizeof_VertexAttribPointer_is_not_28);
COMPILE_ASSERT(offsetof(VertexAttribPointer, header) == 0,
OffsetOf_VertexAttribPointer_header_not_0);
COMPILE_ASSERT(offsetof(VertexAttribPointer, indx) == 4,
OffsetOf_VertexAttribPointer_indx_not_4);
COMPILE_ASSERT(offsetof(VertexAttribPointer, size) == 8,
OffsetOf_VertexAttribPointer_size_not_8);
COMPILE_ASSERT(offsetof(VertexAttribPointer, type) == 12,
OffsetOf_VertexAttribPointer_type_not_12);
COMPILE_ASSERT(offsetof(VertexAttribPointer, normalized) == 16,
OffsetOf_VertexAttribPointer_normalized_not_16);
COMPILE_ASSERT(offsetof(VertexAttribPointer, stride) == 20,
OffsetOf_VertexAttribPointer_stride_not_20);
COMPILE_ASSERT(offsetof(VertexAttribPointer, offset) == 24,
OffsetOf_VertexAttribPointer_offset_not_24);
struct Viewport {
typedef Viewport ValueType;
static const CommandId kCmdId = kViewport;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLint _x, GLint _y, GLsizei _width, GLsizei _height) {
SetHeader();
x = _x;
y = _y;
width = _width;
height = _height;
}
void* Set(void* cmd, GLint _x, GLint _y, GLsizei _width, GLsizei _height) {
static_cast<ValueType*>(cmd)->Init(_x, _y, _width, _height);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 x;
int32 y;
int32 width;
int32 height;
};
COMPILE_ASSERT(sizeof(Viewport) == 20,
Sizeof_Viewport_is_not_20);
COMPILE_ASSERT(offsetof(Viewport, header) == 0,
OffsetOf_Viewport_header_not_0);
COMPILE_ASSERT(offsetof(Viewport, x) == 4,
OffsetOf_Viewport_x_not_4);
COMPILE_ASSERT(offsetof(Viewport, y) == 8,
OffsetOf_Viewport_y_not_8);
COMPILE_ASSERT(offsetof(Viewport, width) == 12,
OffsetOf_Viewport_width_not_12);
COMPILE_ASSERT(offsetof(Viewport, height) == 16,
OffsetOf_Viewport_height_not_16);
struct BlitFramebufferEXT {
typedef BlitFramebufferEXT ValueType;
static const CommandId kCmdId = kBlitFramebufferEXT;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLint _srcX0, GLint _srcY0, GLint _srcX1, GLint _srcY1, GLint _dstX0,
GLint _dstY0, GLint _dstX1, GLint _dstY1, GLbitfield _mask,
GLenum _filter) {
SetHeader();
srcX0 = _srcX0;
srcY0 = _srcY0;
srcX1 = _srcX1;
srcY1 = _srcY1;
dstX0 = _dstX0;
dstY0 = _dstY0;
dstX1 = _dstX1;
dstY1 = _dstY1;
mask = _mask;
filter = _filter;
}
void* Set(
void* cmd, GLint _srcX0, GLint _srcY0, GLint _srcX1, GLint _srcY1,
GLint _dstX0, GLint _dstY0, GLint _dstX1, GLint _dstY1, GLbitfield _mask,
GLenum _filter) {
static_cast<ValueType*>(
cmd)->Init(
_srcX0, _srcY0, _srcX1, _srcY1, _dstX0, _dstY0, _dstX1, _dstY1,
_mask, _filter);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 srcX0;
int32 srcY0;
int32 srcX1;
int32 srcY1;
int32 dstX0;
int32 dstY0;
int32 dstX1;
int32 dstY1;
uint32 mask;
uint32 filter;
};
COMPILE_ASSERT(sizeof(BlitFramebufferEXT) == 44,
Sizeof_BlitFramebufferEXT_is_not_44);
COMPILE_ASSERT(offsetof(BlitFramebufferEXT, header) == 0,
OffsetOf_BlitFramebufferEXT_header_not_0);
COMPILE_ASSERT(offsetof(BlitFramebufferEXT, srcX0) == 4,
OffsetOf_BlitFramebufferEXT_srcX0_not_4);
COMPILE_ASSERT(offsetof(BlitFramebufferEXT, srcY0) == 8,
OffsetOf_BlitFramebufferEXT_srcY0_not_8);
COMPILE_ASSERT(offsetof(BlitFramebufferEXT, srcX1) == 12,
OffsetOf_BlitFramebufferEXT_srcX1_not_12);
COMPILE_ASSERT(offsetof(BlitFramebufferEXT, srcY1) == 16,
OffsetOf_BlitFramebufferEXT_srcY1_not_16);
COMPILE_ASSERT(offsetof(BlitFramebufferEXT, dstX0) == 20,
OffsetOf_BlitFramebufferEXT_dstX0_not_20);
COMPILE_ASSERT(offsetof(BlitFramebufferEXT, dstY0) == 24,
OffsetOf_BlitFramebufferEXT_dstY0_not_24);
COMPILE_ASSERT(offsetof(BlitFramebufferEXT, dstX1) == 28,
OffsetOf_BlitFramebufferEXT_dstX1_not_28);
COMPILE_ASSERT(offsetof(BlitFramebufferEXT, dstY1) == 32,
OffsetOf_BlitFramebufferEXT_dstY1_not_32);
COMPILE_ASSERT(offsetof(BlitFramebufferEXT, mask) == 36,
OffsetOf_BlitFramebufferEXT_mask_not_36);
COMPILE_ASSERT(offsetof(BlitFramebufferEXT, filter) == 40,
OffsetOf_BlitFramebufferEXT_filter_not_40);
struct RenderbufferStorageMultisampleEXT {
typedef RenderbufferStorageMultisampleEXT ValueType;
static const CommandId kCmdId = kRenderbufferStorageMultisampleEXT;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLsizei _samples, GLenum _internalformat, GLsizei _width,
GLsizei _height) {
SetHeader();
target = _target;
samples = _samples;
internalformat = _internalformat;
width = _width;
height = _height;
}
void* Set(
void* cmd, GLenum _target, GLsizei _samples, GLenum _internalformat,
GLsizei _width, GLsizei _height) {
static_cast<ValueType*>(
cmd)->Init(_target, _samples, _internalformat, _width, _height);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 samples;
uint32 internalformat;
int32 width;
int32 height;
};
COMPILE_ASSERT(sizeof(RenderbufferStorageMultisampleEXT) == 24,
Sizeof_RenderbufferStorageMultisampleEXT_is_not_24);
COMPILE_ASSERT(offsetof(RenderbufferStorageMultisampleEXT, header) == 0,
OffsetOf_RenderbufferStorageMultisampleEXT_header_not_0);
COMPILE_ASSERT(offsetof(RenderbufferStorageMultisampleEXT, target) == 4,
OffsetOf_RenderbufferStorageMultisampleEXT_target_not_4);
COMPILE_ASSERT(offsetof(RenderbufferStorageMultisampleEXT, samples) == 8,
OffsetOf_RenderbufferStorageMultisampleEXT_samples_not_8);
COMPILE_ASSERT(
offsetof(RenderbufferStorageMultisampleEXT, internalformat) == 12,
OffsetOf_RenderbufferStorageMultisampleEXT_internalformat_not_12); // NOLINT
COMPILE_ASSERT(offsetof(RenderbufferStorageMultisampleEXT, width) == 16,
OffsetOf_RenderbufferStorageMultisampleEXT_width_not_16);
COMPILE_ASSERT(offsetof(RenderbufferStorageMultisampleEXT, height) == 20,
OffsetOf_RenderbufferStorageMultisampleEXT_height_not_20);
struct FramebufferTexture2DMultisampleEXT {
typedef FramebufferTexture2DMultisampleEXT ValueType;
static const CommandId kCmdId = kFramebufferTexture2DMultisampleEXT;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLenum _attachment, GLenum _textarget, GLuint _texture,
GLint _level, GLsizei _samples) {
SetHeader();
target = _target;
attachment = _attachment;
textarget = _textarget;
texture = _texture;
level = _level;
samples = _samples;
}
void* Set(
void* cmd, GLenum _target, GLenum _attachment, GLenum _textarget,
GLuint _texture, GLint _level, GLsizei _samples) {
static_cast<ValueType*>(
cmd)->Init(
_target, _attachment, _textarget, _texture, _level, _samples);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 attachment;
uint32 textarget;
uint32 texture;
int32 level;
int32 samples;
};
COMPILE_ASSERT(sizeof(FramebufferTexture2DMultisampleEXT) == 28,
Sizeof_FramebufferTexture2DMultisampleEXT_is_not_28);
COMPILE_ASSERT(offsetof(FramebufferTexture2DMultisampleEXT, header) == 0,
OffsetOf_FramebufferTexture2DMultisampleEXT_header_not_0);
COMPILE_ASSERT(offsetof(FramebufferTexture2DMultisampleEXT, target) == 4,
OffsetOf_FramebufferTexture2DMultisampleEXT_target_not_4);
COMPILE_ASSERT(offsetof(FramebufferTexture2DMultisampleEXT, attachment) == 8,
OffsetOf_FramebufferTexture2DMultisampleEXT_attachment_not_8);
COMPILE_ASSERT(offsetof(FramebufferTexture2DMultisampleEXT, textarget) == 12,
OffsetOf_FramebufferTexture2DMultisampleEXT_textarget_not_12);
COMPILE_ASSERT(offsetof(FramebufferTexture2DMultisampleEXT, texture) == 16,
OffsetOf_FramebufferTexture2DMultisampleEXT_texture_not_16);
COMPILE_ASSERT(offsetof(FramebufferTexture2DMultisampleEXT, level) == 20,
OffsetOf_FramebufferTexture2DMultisampleEXT_level_not_20);
COMPILE_ASSERT(offsetof(FramebufferTexture2DMultisampleEXT, samples) == 24,
OffsetOf_FramebufferTexture2DMultisampleEXT_samples_not_24);
struct TexStorage2DEXT {
typedef TexStorage2DEXT ValueType;
static const CommandId kCmdId = kTexStorage2DEXT;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLsizei _levels, GLenum _internalFormat, GLsizei _width,
GLsizei _height) {
SetHeader();
target = _target;
levels = _levels;
internalFormat = _internalFormat;
width = _width;
height = _height;
}
void* Set(
void* cmd, GLenum _target, GLsizei _levels, GLenum _internalFormat,
GLsizei _width, GLsizei _height) {
static_cast<ValueType*>(
cmd)->Init(_target, _levels, _internalFormat, _width, _height);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 levels;
uint32 internalFormat;
int32 width;
int32 height;
};
COMPILE_ASSERT(sizeof(TexStorage2DEXT) == 24,
Sizeof_TexStorage2DEXT_is_not_24);
COMPILE_ASSERT(offsetof(TexStorage2DEXT, header) == 0,
OffsetOf_TexStorage2DEXT_header_not_0);
COMPILE_ASSERT(offsetof(TexStorage2DEXT, target) == 4,
OffsetOf_TexStorage2DEXT_target_not_4);
COMPILE_ASSERT(offsetof(TexStorage2DEXT, levels) == 8,
OffsetOf_TexStorage2DEXT_levels_not_8);
COMPILE_ASSERT(offsetof(TexStorage2DEXT, internalFormat) == 12,
OffsetOf_TexStorage2DEXT_internalFormat_not_12);
COMPILE_ASSERT(offsetof(TexStorage2DEXT, width) == 16,
OffsetOf_TexStorage2DEXT_width_not_16);
COMPILE_ASSERT(offsetof(TexStorage2DEXT, height) == 20,
OffsetOf_TexStorage2DEXT_height_not_20);
struct GenQueriesEXT {
typedef GenQueriesEXT ValueType;
static const CommandId kCmdId = kGenQueriesEXT;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLsizei _n, uint32 _queries_shm_id, uint32 _queries_shm_offset) {
SetHeader();
n = _n;
queries_shm_id = _queries_shm_id;
queries_shm_offset = _queries_shm_offset;
}
void* Set(
void* cmd, GLsizei _n, uint32 _queries_shm_id,
uint32 _queries_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_n, _queries_shm_id, _queries_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 n;
uint32 queries_shm_id;
uint32 queries_shm_offset;
};
COMPILE_ASSERT(sizeof(GenQueriesEXT) == 16,
Sizeof_GenQueriesEXT_is_not_16);
COMPILE_ASSERT(offsetof(GenQueriesEXT, header) == 0,
OffsetOf_GenQueriesEXT_header_not_0);
COMPILE_ASSERT(offsetof(GenQueriesEXT, n) == 4,
OffsetOf_GenQueriesEXT_n_not_4);
COMPILE_ASSERT(offsetof(GenQueriesEXT, queries_shm_id) == 8,
OffsetOf_GenQueriesEXT_queries_shm_id_not_8);
COMPILE_ASSERT(offsetof(GenQueriesEXT, queries_shm_offset) == 12,
OffsetOf_GenQueriesEXT_queries_shm_offset_not_12);
struct GenQueriesEXTImmediate {
typedef GenQueriesEXTImmediate ValueType;
static const CommandId kCmdId = kGenQueriesEXTImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei n) {
return static_cast<uint32>(sizeof(GLuint) * n); // NOLINT
}
static uint32 ComputeSize(GLsizei n) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(n)); // NOLINT
}
void SetHeader(GLsizei n) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(n));
}
void Init(GLsizei _n, GLuint* _queries) {
SetHeader(_n);
n = _n;
memcpy(ImmediateDataAddress(this),
_queries, ComputeDataSize(_n));
}
void* Set(void* cmd, GLsizei _n, GLuint* _queries) {
static_cast<ValueType*>(cmd)->Init(_n, _queries);
const uint32 size = ComputeSize(_n);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 n;
};
COMPILE_ASSERT(sizeof(GenQueriesEXTImmediate) == 8,
Sizeof_GenQueriesEXTImmediate_is_not_8);
COMPILE_ASSERT(offsetof(GenQueriesEXTImmediate, header) == 0,
OffsetOf_GenQueriesEXTImmediate_header_not_0);
COMPILE_ASSERT(offsetof(GenQueriesEXTImmediate, n) == 4,
OffsetOf_GenQueriesEXTImmediate_n_not_4);
struct DeleteQueriesEXT {
typedef DeleteQueriesEXT ValueType;
static const CommandId kCmdId = kDeleteQueriesEXT;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLsizei _n, uint32 _queries_shm_id, uint32 _queries_shm_offset) {
SetHeader();
n = _n;
queries_shm_id = _queries_shm_id;
queries_shm_offset = _queries_shm_offset;
}
void* Set(
void* cmd, GLsizei _n, uint32 _queries_shm_id,
uint32 _queries_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_n, _queries_shm_id, _queries_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 n;
uint32 queries_shm_id;
uint32 queries_shm_offset;
};
COMPILE_ASSERT(sizeof(DeleteQueriesEXT) == 16,
Sizeof_DeleteQueriesEXT_is_not_16);
COMPILE_ASSERT(offsetof(DeleteQueriesEXT, header) == 0,
OffsetOf_DeleteQueriesEXT_header_not_0);
COMPILE_ASSERT(offsetof(DeleteQueriesEXT, n) == 4,
OffsetOf_DeleteQueriesEXT_n_not_4);
COMPILE_ASSERT(offsetof(DeleteQueriesEXT, queries_shm_id) == 8,
OffsetOf_DeleteQueriesEXT_queries_shm_id_not_8);
COMPILE_ASSERT(offsetof(DeleteQueriesEXT, queries_shm_offset) == 12,
OffsetOf_DeleteQueriesEXT_queries_shm_offset_not_12);
struct DeleteQueriesEXTImmediate {
typedef DeleteQueriesEXTImmediate ValueType;
static const CommandId kCmdId = kDeleteQueriesEXTImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei n) {
return static_cast<uint32>(sizeof(GLuint) * n); // NOLINT
}
static uint32 ComputeSize(GLsizei n) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(n)); // NOLINT
}
void SetHeader(GLsizei n) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(n));
}
void Init(GLsizei _n, const GLuint* _queries) {
SetHeader(_n);
n = _n;
memcpy(ImmediateDataAddress(this),
_queries, ComputeDataSize(_n));
}
void* Set(void* cmd, GLsizei _n, const GLuint* _queries) {
static_cast<ValueType*>(cmd)->Init(_n, _queries);
const uint32 size = ComputeSize(_n);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 n;
};
COMPILE_ASSERT(sizeof(DeleteQueriesEXTImmediate) == 8,
Sizeof_DeleteQueriesEXTImmediate_is_not_8);
COMPILE_ASSERT(offsetof(DeleteQueriesEXTImmediate, header) == 0,
OffsetOf_DeleteQueriesEXTImmediate_header_not_0);
COMPILE_ASSERT(offsetof(DeleteQueriesEXTImmediate, n) == 4,
OffsetOf_DeleteQueriesEXTImmediate_n_not_4);
struct BeginQueryEXT {
typedef BeginQueryEXT ValueType;
static const CommandId kCmdId = kBeginQueryEXT;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLuint _id, uint32 _sync_data_shm_id,
uint32 _sync_data_shm_offset) {
SetHeader();
target = _target;
id = _id;
sync_data_shm_id = _sync_data_shm_id;
sync_data_shm_offset = _sync_data_shm_offset;
}
void* Set(
void* cmd, GLenum _target, GLuint _id, uint32 _sync_data_shm_id,
uint32 _sync_data_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_target, _id, _sync_data_shm_id, _sync_data_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 id;
uint32 sync_data_shm_id;
uint32 sync_data_shm_offset;
};
COMPILE_ASSERT(sizeof(BeginQueryEXT) == 20,
Sizeof_BeginQueryEXT_is_not_20);
COMPILE_ASSERT(offsetof(BeginQueryEXT, header) == 0,
OffsetOf_BeginQueryEXT_header_not_0);
COMPILE_ASSERT(offsetof(BeginQueryEXT, target) == 4,
OffsetOf_BeginQueryEXT_target_not_4);
COMPILE_ASSERT(offsetof(BeginQueryEXT, id) == 8,
OffsetOf_BeginQueryEXT_id_not_8);
COMPILE_ASSERT(offsetof(BeginQueryEXT, sync_data_shm_id) == 12,
OffsetOf_BeginQueryEXT_sync_data_shm_id_not_12);
COMPILE_ASSERT(offsetof(BeginQueryEXT, sync_data_shm_offset) == 16,
OffsetOf_BeginQueryEXT_sync_data_shm_offset_not_16);
struct EndQueryEXT {
typedef EndQueryEXT ValueType;
static const CommandId kCmdId = kEndQueryEXT;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _target, GLuint _submit_count) {
SetHeader();
target = _target;
submit_count = _submit_count;
}
void* Set(void* cmd, GLenum _target, GLuint _submit_count) {
static_cast<ValueType*>(cmd)->Init(_target, _submit_count);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 submit_count;
};
COMPILE_ASSERT(sizeof(EndQueryEXT) == 12,
Sizeof_EndQueryEXT_is_not_12);
COMPILE_ASSERT(offsetof(EndQueryEXT, header) == 0,
OffsetOf_EndQueryEXT_header_not_0);
COMPILE_ASSERT(offsetof(EndQueryEXT, target) == 4,
OffsetOf_EndQueryEXT_target_not_4);
COMPILE_ASSERT(offsetof(EndQueryEXT, submit_count) == 8,
OffsetOf_EndQueryEXT_submit_count_not_8);
struct InsertEventMarkerEXT {
typedef InsertEventMarkerEXT ValueType;
static const CommandId kCmdId = kInsertEventMarkerEXT;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _bucket_id) {
SetHeader();
bucket_id = _bucket_id;
}
void* Set(void* cmd, GLuint _bucket_id) {
static_cast<ValueType*>(cmd)->Init(_bucket_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 bucket_id;
};
COMPILE_ASSERT(sizeof(InsertEventMarkerEXT) == 8,
Sizeof_InsertEventMarkerEXT_is_not_8);
COMPILE_ASSERT(offsetof(InsertEventMarkerEXT, header) == 0,
OffsetOf_InsertEventMarkerEXT_header_not_0);
COMPILE_ASSERT(offsetof(InsertEventMarkerEXT, bucket_id) == 4,
OffsetOf_InsertEventMarkerEXT_bucket_id_not_4);
struct PushGroupMarkerEXT {
typedef PushGroupMarkerEXT ValueType;
static const CommandId kCmdId = kPushGroupMarkerEXT;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _bucket_id) {
SetHeader();
bucket_id = _bucket_id;
}
void* Set(void* cmd, GLuint _bucket_id) {
static_cast<ValueType*>(cmd)->Init(_bucket_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 bucket_id;
};
COMPILE_ASSERT(sizeof(PushGroupMarkerEXT) == 8,
Sizeof_PushGroupMarkerEXT_is_not_8);
COMPILE_ASSERT(offsetof(PushGroupMarkerEXT, header) == 0,
OffsetOf_PushGroupMarkerEXT_header_not_0);
COMPILE_ASSERT(offsetof(PushGroupMarkerEXT, bucket_id) == 4,
OffsetOf_PushGroupMarkerEXT_bucket_id_not_4);
struct PopGroupMarkerEXT {
typedef PopGroupMarkerEXT ValueType;
static const CommandId kCmdId = kPopGroupMarkerEXT;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init() {
SetHeader();
}
void* Set(void* cmd) {
static_cast<ValueType*>(cmd)->Init();
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
};
COMPILE_ASSERT(sizeof(PopGroupMarkerEXT) == 4,
Sizeof_PopGroupMarkerEXT_is_not_4);
COMPILE_ASSERT(offsetof(PopGroupMarkerEXT, header) == 0,
OffsetOf_PopGroupMarkerEXT_header_not_0);
struct GenVertexArraysOES {
typedef GenVertexArraysOES ValueType;
static const CommandId kCmdId = kGenVertexArraysOES;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLsizei _n, uint32 _arrays_shm_id, uint32 _arrays_shm_offset) {
SetHeader();
n = _n;
arrays_shm_id = _arrays_shm_id;
arrays_shm_offset = _arrays_shm_offset;
}
void* Set(
void* cmd, GLsizei _n, uint32 _arrays_shm_id,
uint32 _arrays_shm_offset) {
static_cast<ValueType*>(cmd)->Init(_n, _arrays_shm_id, _arrays_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 n;
uint32 arrays_shm_id;
uint32 arrays_shm_offset;
};
COMPILE_ASSERT(sizeof(GenVertexArraysOES) == 16,
Sizeof_GenVertexArraysOES_is_not_16);
COMPILE_ASSERT(offsetof(GenVertexArraysOES, header) == 0,
OffsetOf_GenVertexArraysOES_header_not_0);
COMPILE_ASSERT(offsetof(GenVertexArraysOES, n) == 4,
OffsetOf_GenVertexArraysOES_n_not_4);
COMPILE_ASSERT(offsetof(GenVertexArraysOES, arrays_shm_id) == 8,
OffsetOf_GenVertexArraysOES_arrays_shm_id_not_8);
COMPILE_ASSERT(offsetof(GenVertexArraysOES, arrays_shm_offset) == 12,
OffsetOf_GenVertexArraysOES_arrays_shm_offset_not_12);
struct GenVertexArraysOESImmediate {
typedef GenVertexArraysOESImmediate ValueType;
static const CommandId kCmdId = kGenVertexArraysOESImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei n) {
return static_cast<uint32>(sizeof(GLuint) * n); // NOLINT
}
static uint32 ComputeSize(GLsizei n) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(n)); // NOLINT
}
void SetHeader(GLsizei n) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(n));
}
void Init(GLsizei _n, GLuint* _arrays) {
SetHeader(_n);
n = _n;
memcpy(ImmediateDataAddress(this),
_arrays, ComputeDataSize(_n));
}
void* Set(void* cmd, GLsizei _n, GLuint* _arrays) {
static_cast<ValueType*>(cmd)->Init(_n, _arrays);
const uint32 size = ComputeSize(_n);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 n;
};
COMPILE_ASSERT(sizeof(GenVertexArraysOESImmediate) == 8,
Sizeof_GenVertexArraysOESImmediate_is_not_8);
COMPILE_ASSERT(offsetof(GenVertexArraysOESImmediate, header) == 0,
OffsetOf_GenVertexArraysOESImmediate_header_not_0);
COMPILE_ASSERT(offsetof(GenVertexArraysOESImmediate, n) == 4,
OffsetOf_GenVertexArraysOESImmediate_n_not_4);
struct DeleteVertexArraysOES {
typedef DeleteVertexArraysOES ValueType;
static const CommandId kCmdId = kDeleteVertexArraysOES;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLsizei _n, uint32 _arrays_shm_id, uint32 _arrays_shm_offset) {
SetHeader();
n = _n;
arrays_shm_id = _arrays_shm_id;
arrays_shm_offset = _arrays_shm_offset;
}
void* Set(
void* cmd, GLsizei _n, uint32 _arrays_shm_id,
uint32 _arrays_shm_offset) {
static_cast<ValueType*>(cmd)->Init(_n, _arrays_shm_id, _arrays_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 n;
uint32 arrays_shm_id;
uint32 arrays_shm_offset;
};
COMPILE_ASSERT(sizeof(DeleteVertexArraysOES) == 16,
Sizeof_DeleteVertexArraysOES_is_not_16);
COMPILE_ASSERT(offsetof(DeleteVertexArraysOES, header) == 0,
OffsetOf_DeleteVertexArraysOES_header_not_0);
COMPILE_ASSERT(offsetof(DeleteVertexArraysOES, n) == 4,
OffsetOf_DeleteVertexArraysOES_n_not_4);
COMPILE_ASSERT(offsetof(DeleteVertexArraysOES, arrays_shm_id) == 8,
OffsetOf_DeleteVertexArraysOES_arrays_shm_id_not_8);
COMPILE_ASSERT(offsetof(DeleteVertexArraysOES, arrays_shm_offset) == 12,
OffsetOf_DeleteVertexArraysOES_arrays_shm_offset_not_12);
struct DeleteVertexArraysOESImmediate {
typedef DeleteVertexArraysOESImmediate ValueType;
static const CommandId kCmdId = kDeleteVertexArraysOESImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei n) {
return static_cast<uint32>(sizeof(GLuint) * n); // NOLINT
}
static uint32 ComputeSize(GLsizei n) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(n)); // NOLINT
}
void SetHeader(GLsizei n) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(n));
}
void Init(GLsizei _n, const GLuint* _arrays) {
SetHeader(_n);
n = _n;
memcpy(ImmediateDataAddress(this),
_arrays, ComputeDataSize(_n));
}
void* Set(void* cmd, GLsizei _n, const GLuint* _arrays) {
static_cast<ValueType*>(cmd)->Init(_n, _arrays);
const uint32 size = ComputeSize(_n);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 n;
};
COMPILE_ASSERT(sizeof(DeleteVertexArraysOESImmediate) == 8,
Sizeof_DeleteVertexArraysOESImmediate_is_not_8);
COMPILE_ASSERT(offsetof(DeleteVertexArraysOESImmediate, header) == 0,
OffsetOf_DeleteVertexArraysOESImmediate_header_not_0);
COMPILE_ASSERT(offsetof(DeleteVertexArraysOESImmediate, n) == 4,
OffsetOf_DeleteVertexArraysOESImmediate_n_not_4);
struct IsVertexArrayOES {
typedef IsVertexArrayOES ValueType;
static const CommandId kCmdId = kIsVertexArrayOES;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef uint32 Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _array, uint32 _result_shm_id, uint32 _result_shm_offset) {
SetHeader();
array = _array;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
}
void* Set(
void* cmd, GLuint _array, uint32 _result_shm_id,
uint32 _result_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_array, _result_shm_id, _result_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 array;
uint32 result_shm_id;
uint32 result_shm_offset;
};
COMPILE_ASSERT(sizeof(IsVertexArrayOES) == 16,
Sizeof_IsVertexArrayOES_is_not_16);
COMPILE_ASSERT(offsetof(IsVertexArrayOES, header) == 0,
OffsetOf_IsVertexArrayOES_header_not_0);
COMPILE_ASSERT(offsetof(IsVertexArrayOES, array) == 4,
OffsetOf_IsVertexArrayOES_array_not_4);
COMPILE_ASSERT(offsetof(IsVertexArrayOES, result_shm_id) == 8,
OffsetOf_IsVertexArrayOES_result_shm_id_not_8);
COMPILE_ASSERT(offsetof(IsVertexArrayOES, result_shm_offset) == 12,
OffsetOf_IsVertexArrayOES_result_shm_offset_not_12);
struct BindVertexArrayOES {
typedef BindVertexArrayOES ValueType;
static const CommandId kCmdId = kBindVertexArrayOES;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _array) {
SetHeader();
array = _array;
}
void* Set(void* cmd, GLuint _array) {
static_cast<ValueType*>(cmd)->Init(_array);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 array;
};
COMPILE_ASSERT(sizeof(BindVertexArrayOES) == 8,
Sizeof_BindVertexArrayOES_is_not_8);
COMPILE_ASSERT(offsetof(BindVertexArrayOES, header) == 0,
OffsetOf_BindVertexArrayOES_header_not_0);
COMPILE_ASSERT(offsetof(BindVertexArrayOES, array) == 4,
OffsetOf_BindVertexArrayOES_array_not_4);
struct SwapBuffers {
typedef SwapBuffers ValueType;
static const CommandId kCmdId = kSwapBuffers;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init() {
SetHeader();
}
void* Set(void* cmd) {
static_cast<ValueType*>(cmd)->Init();
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
};
COMPILE_ASSERT(sizeof(SwapBuffers) == 4,
Sizeof_SwapBuffers_is_not_4);
COMPILE_ASSERT(offsetof(SwapBuffers, header) == 0,
OffsetOf_SwapBuffers_header_not_0);
struct GetMaxValueInBufferCHROMIUM {
typedef GetMaxValueInBufferCHROMIUM ValueType;
static const CommandId kCmdId = kGetMaxValueInBufferCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef GLuint Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _buffer_id, GLsizei _count, GLenum _type, GLuint _offset,
uint32 _result_shm_id, uint32 _result_shm_offset) {
SetHeader();
buffer_id = _buffer_id;
count = _count;
type = _type;
offset = _offset;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
}
void* Set(
void* cmd, GLuint _buffer_id, GLsizei _count, GLenum _type,
GLuint _offset, uint32 _result_shm_id, uint32 _result_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(
_buffer_id, _count, _type, _offset, _result_shm_id,
_result_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 buffer_id;
int32 count;
uint32 type;
uint32 offset;
uint32 result_shm_id;
uint32 result_shm_offset;
};
COMPILE_ASSERT(sizeof(GetMaxValueInBufferCHROMIUM) == 28,
Sizeof_GetMaxValueInBufferCHROMIUM_is_not_28);
COMPILE_ASSERT(offsetof(GetMaxValueInBufferCHROMIUM, header) == 0,
OffsetOf_GetMaxValueInBufferCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(GetMaxValueInBufferCHROMIUM, buffer_id) == 4,
OffsetOf_GetMaxValueInBufferCHROMIUM_buffer_id_not_4);
COMPILE_ASSERT(offsetof(GetMaxValueInBufferCHROMIUM, count) == 8,
OffsetOf_GetMaxValueInBufferCHROMIUM_count_not_8);
COMPILE_ASSERT(offsetof(GetMaxValueInBufferCHROMIUM, type) == 12,
OffsetOf_GetMaxValueInBufferCHROMIUM_type_not_12);
COMPILE_ASSERT(offsetof(GetMaxValueInBufferCHROMIUM, offset) == 16,
OffsetOf_GetMaxValueInBufferCHROMIUM_offset_not_16);
COMPILE_ASSERT(offsetof(GetMaxValueInBufferCHROMIUM, result_shm_id) == 20,
OffsetOf_GetMaxValueInBufferCHROMIUM_result_shm_id_not_20);
COMPILE_ASSERT(offsetof(GetMaxValueInBufferCHROMIUM, result_shm_offset) == 24,
OffsetOf_GetMaxValueInBufferCHROMIUM_result_shm_offset_not_24);
struct GenSharedIdsCHROMIUM {
typedef GenSharedIdsCHROMIUM ValueType;
static const CommandId kCmdId = kGenSharedIdsCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _namespace_id, GLuint _id_offset, GLsizei _n, uint32 _ids_shm_id,
uint32 _ids_shm_offset) {
SetHeader();
namespace_id = _namespace_id;
id_offset = _id_offset;
n = _n;
ids_shm_id = _ids_shm_id;
ids_shm_offset = _ids_shm_offset;
}
void* Set(
void* cmd, GLuint _namespace_id, GLuint _id_offset, GLsizei _n,
uint32 _ids_shm_id, uint32 _ids_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(
_namespace_id, _id_offset, _n, _ids_shm_id, _ids_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 namespace_id;
uint32 id_offset;
int32 n;
uint32 ids_shm_id;
uint32 ids_shm_offset;
};
COMPILE_ASSERT(sizeof(GenSharedIdsCHROMIUM) == 24,
Sizeof_GenSharedIdsCHROMIUM_is_not_24);
COMPILE_ASSERT(offsetof(GenSharedIdsCHROMIUM, header) == 0,
OffsetOf_GenSharedIdsCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(GenSharedIdsCHROMIUM, namespace_id) == 4,
OffsetOf_GenSharedIdsCHROMIUM_namespace_id_not_4);
COMPILE_ASSERT(offsetof(GenSharedIdsCHROMIUM, id_offset) == 8,
OffsetOf_GenSharedIdsCHROMIUM_id_offset_not_8);
COMPILE_ASSERT(offsetof(GenSharedIdsCHROMIUM, n) == 12,
OffsetOf_GenSharedIdsCHROMIUM_n_not_12);
COMPILE_ASSERT(offsetof(GenSharedIdsCHROMIUM, ids_shm_id) == 16,
OffsetOf_GenSharedIdsCHROMIUM_ids_shm_id_not_16);
COMPILE_ASSERT(offsetof(GenSharedIdsCHROMIUM, ids_shm_offset) == 20,
OffsetOf_GenSharedIdsCHROMIUM_ids_shm_offset_not_20);
struct DeleteSharedIdsCHROMIUM {
typedef DeleteSharedIdsCHROMIUM ValueType;
static const CommandId kCmdId = kDeleteSharedIdsCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _namespace_id, GLsizei _n, uint32 _ids_shm_id,
uint32 _ids_shm_offset) {
SetHeader();
namespace_id = _namespace_id;
n = _n;
ids_shm_id = _ids_shm_id;
ids_shm_offset = _ids_shm_offset;
}
void* Set(
void* cmd, GLuint _namespace_id, GLsizei _n, uint32 _ids_shm_id,
uint32 _ids_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_namespace_id, _n, _ids_shm_id, _ids_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 namespace_id;
int32 n;
uint32 ids_shm_id;
uint32 ids_shm_offset;
};
COMPILE_ASSERT(sizeof(DeleteSharedIdsCHROMIUM) == 20,
Sizeof_DeleteSharedIdsCHROMIUM_is_not_20);
COMPILE_ASSERT(offsetof(DeleteSharedIdsCHROMIUM, header) == 0,
OffsetOf_DeleteSharedIdsCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(DeleteSharedIdsCHROMIUM, namespace_id) == 4,
OffsetOf_DeleteSharedIdsCHROMIUM_namespace_id_not_4);
COMPILE_ASSERT(offsetof(DeleteSharedIdsCHROMIUM, n) == 8,
OffsetOf_DeleteSharedIdsCHROMIUM_n_not_8);
COMPILE_ASSERT(offsetof(DeleteSharedIdsCHROMIUM, ids_shm_id) == 12,
OffsetOf_DeleteSharedIdsCHROMIUM_ids_shm_id_not_12);
COMPILE_ASSERT(offsetof(DeleteSharedIdsCHROMIUM, ids_shm_offset) == 16,
OffsetOf_DeleteSharedIdsCHROMIUM_ids_shm_offset_not_16);
struct RegisterSharedIdsCHROMIUM {
typedef RegisterSharedIdsCHROMIUM ValueType;
static const CommandId kCmdId = kRegisterSharedIdsCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _namespace_id, GLsizei _n, uint32 _ids_shm_id,
uint32 _ids_shm_offset) {
SetHeader();
namespace_id = _namespace_id;
n = _n;
ids_shm_id = _ids_shm_id;
ids_shm_offset = _ids_shm_offset;
}
void* Set(
void* cmd, GLuint _namespace_id, GLsizei _n, uint32 _ids_shm_id,
uint32 _ids_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_namespace_id, _n, _ids_shm_id, _ids_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 namespace_id;
int32 n;
uint32 ids_shm_id;
uint32 ids_shm_offset;
};
COMPILE_ASSERT(sizeof(RegisterSharedIdsCHROMIUM) == 20,
Sizeof_RegisterSharedIdsCHROMIUM_is_not_20);
COMPILE_ASSERT(offsetof(RegisterSharedIdsCHROMIUM, header) == 0,
OffsetOf_RegisterSharedIdsCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(RegisterSharedIdsCHROMIUM, namespace_id) == 4,
OffsetOf_RegisterSharedIdsCHROMIUM_namespace_id_not_4);
COMPILE_ASSERT(offsetof(RegisterSharedIdsCHROMIUM, n) == 8,
OffsetOf_RegisterSharedIdsCHROMIUM_n_not_8);
COMPILE_ASSERT(offsetof(RegisterSharedIdsCHROMIUM, ids_shm_id) == 12,
OffsetOf_RegisterSharedIdsCHROMIUM_ids_shm_id_not_12);
COMPILE_ASSERT(offsetof(RegisterSharedIdsCHROMIUM, ids_shm_offset) == 16,
OffsetOf_RegisterSharedIdsCHROMIUM_ids_shm_offset_not_16);
struct EnableFeatureCHROMIUM {
typedef EnableFeatureCHROMIUM ValueType;
static const CommandId kCmdId = kEnableFeatureCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef GLint Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _bucket_id, uint32 _result_shm_id, uint32 _result_shm_offset) {
SetHeader();
bucket_id = _bucket_id;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
}
void* Set(
void* cmd, GLuint _bucket_id, uint32 _result_shm_id,
uint32 _result_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_bucket_id, _result_shm_id, _result_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 bucket_id;
uint32 result_shm_id;
uint32 result_shm_offset;
};
COMPILE_ASSERT(sizeof(EnableFeatureCHROMIUM) == 16,
Sizeof_EnableFeatureCHROMIUM_is_not_16);
COMPILE_ASSERT(offsetof(EnableFeatureCHROMIUM, header) == 0,
OffsetOf_EnableFeatureCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(EnableFeatureCHROMIUM, bucket_id) == 4,
OffsetOf_EnableFeatureCHROMIUM_bucket_id_not_4);
COMPILE_ASSERT(offsetof(EnableFeatureCHROMIUM, result_shm_id) == 8,
OffsetOf_EnableFeatureCHROMIUM_result_shm_id_not_8);
COMPILE_ASSERT(offsetof(EnableFeatureCHROMIUM, result_shm_offset) == 12,
OffsetOf_EnableFeatureCHROMIUM_result_shm_offset_not_12);
struct ResizeCHROMIUM {
typedef ResizeCHROMIUM ValueType;
static const CommandId kCmdId = kResizeCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _width, GLuint _height, GLfloat _scale_factor) {
SetHeader();
width = _width;
height = _height;
scale_factor = _scale_factor;
}
void* Set(void* cmd, GLuint _width, GLuint _height, GLfloat _scale_factor) {
static_cast<ValueType*>(cmd)->Init(_width, _height, _scale_factor);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 width;
uint32 height;
float scale_factor;
};
COMPILE_ASSERT(sizeof(ResizeCHROMIUM) == 16,
Sizeof_ResizeCHROMIUM_is_not_16);
COMPILE_ASSERT(offsetof(ResizeCHROMIUM, header) == 0,
OffsetOf_ResizeCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(ResizeCHROMIUM, width) == 4,
OffsetOf_ResizeCHROMIUM_width_not_4);
COMPILE_ASSERT(offsetof(ResizeCHROMIUM, height) == 8,
OffsetOf_ResizeCHROMIUM_height_not_8);
COMPILE_ASSERT(offsetof(ResizeCHROMIUM, scale_factor) == 12,
OffsetOf_ResizeCHROMIUM_scale_factor_not_12);
struct GetRequestableExtensionsCHROMIUM {
typedef GetRequestableExtensionsCHROMIUM ValueType;
static const CommandId kCmdId = kGetRequestableExtensionsCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(uint32 _bucket_id) {
SetHeader();
bucket_id = _bucket_id;
}
void* Set(void* cmd, uint32 _bucket_id) {
static_cast<ValueType*>(cmd)->Init(_bucket_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 bucket_id;
};
COMPILE_ASSERT(sizeof(GetRequestableExtensionsCHROMIUM) == 8,
Sizeof_GetRequestableExtensionsCHROMIUM_is_not_8);
COMPILE_ASSERT(offsetof(GetRequestableExtensionsCHROMIUM, header) == 0,
OffsetOf_GetRequestableExtensionsCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(GetRequestableExtensionsCHROMIUM, bucket_id) == 4,
OffsetOf_GetRequestableExtensionsCHROMIUM_bucket_id_not_4);
struct RequestExtensionCHROMIUM {
typedef RequestExtensionCHROMIUM ValueType;
static const CommandId kCmdId = kRequestExtensionCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(uint32 _bucket_id) {
SetHeader();
bucket_id = _bucket_id;
}
void* Set(void* cmd, uint32 _bucket_id) {
static_cast<ValueType*>(cmd)->Init(_bucket_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 bucket_id;
};
COMPILE_ASSERT(sizeof(RequestExtensionCHROMIUM) == 8,
Sizeof_RequestExtensionCHROMIUM_is_not_8);
COMPILE_ASSERT(offsetof(RequestExtensionCHROMIUM, header) == 0,
OffsetOf_RequestExtensionCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(RequestExtensionCHROMIUM, bucket_id) == 4,
OffsetOf_RequestExtensionCHROMIUM_bucket_id_not_4);
struct GetMultipleIntegervCHROMIUM {
typedef GetMultipleIntegervCHROMIUM ValueType;
static const CommandId kCmdId = kGetMultipleIntegervCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
uint32 _pnames_shm_id, uint32 _pnames_shm_offset, GLuint _count,
uint32 _results_shm_id, uint32 _results_shm_offset, GLsizeiptr _size) {
SetHeader();
pnames_shm_id = _pnames_shm_id;
pnames_shm_offset = _pnames_shm_offset;
count = _count;
results_shm_id = _results_shm_id;
results_shm_offset = _results_shm_offset;
size = _size;
}
void* Set(
void* cmd, uint32 _pnames_shm_id, uint32 _pnames_shm_offset,
GLuint _count, uint32 _results_shm_id, uint32 _results_shm_offset,
GLsizeiptr _size) {
static_cast<ValueType*>(
cmd)->Init(
_pnames_shm_id, _pnames_shm_offset, _count, _results_shm_id,
_results_shm_offset, _size);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 pnames_shm_id;
uint32 pnames_shm_offset;
uint32 count;
uint32 results_shm_id;
uint32 results_shm_offset;
int32 size;
};
COMPILE_ASSERT(sizeof(GetMultipleIntegervCHROMIUM) == 28,
Sizeof_GetMultipleIntegervCHROMIUM_is_not_28);
COMPILE_ASSERT(offsetof(GetMultipleIntegervCHROMIUM, header) == 0,
OffsetOf_GetMultipleIntegervCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(GetMultipleIntegervCHROMIUM, pnames_shm_id) == 4,
OffsetOf_GetMultipleIntegervCHROMIUM_pnames_shm_id_not_4);
COMPILE_ASSERT(offsetof(GetMultipleIntegervCHROMIUM, pnames_shm_offset) == 8,
OffsetOf_GetMultipleIntegervCHROMIUM_pnames_shm_offset_not_8);
COMPILE_ASSERT(offsetof(GetMultipleIntegervCHROMIUM, count) == 12,
OffsetOf_GetMultipleIntegervCHROMIUM_count_not_12);
COMPILE_ASSERT(offsetof(GetMultipleIntegervCHROMIUM, results_shm_id) == 16,
OffsetOf_GetMultipleIntegervCHROMIUM_results_shm_id_not_16);
COMPILE_ASSERT(offsetof(GetMultipleIntegervCHROMIUM, results_shm_offset) == 20,
OffsetOf_GetMultipleIntegervCHROMIUM_results_shm_offset_not_20);
COMPILE_ASSERT(offsetof(GetMultipleIntegervCHROMIUM, size) == 24,
OffsetOf_GetMultipleIntegervCHROMIUM_size_not_24);
struct GetProgramInfoCHROMIUM {
typedef GetProgramInfoCHROMIUM ValueType;
static const CommandId kCmdId = kGetProgramInfoCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
struct Result {
uint32 link_status;
uint32 num_attribs;
uint32 num_uniforms;
};
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _program, uint32 _bucket_id) {
SetHeader();
program = _program;
bucket_id = _bucket_id;
}
void* Set(void* cmd, GLuint _program, uint32 _bucket_id) {
static_cast<ValueType*>(cmd)->Init(_program, _bucket_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
uint32 bucket_id;
};
COMPILE_ASSERT(sizeof(GetProgramInfoCHROMIUM) == 12,
Sizeof_GetProgramInfoCHROMIUM_is_not_12);
COMPILE_ASSERT(offsetof(GetProgramInfoCHROMIUM, header) == 0,
OffsetOf_GetProgramInfoCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(GetProgramInfoCHROMIUM, program) == 4,
OffsetOf_GetProgramInfoCHROMIUM_program_not_4);
COMPILE_ASSERT(offsetof(GetProgramInfoCHROMIUM, bucket_id) == 8,
OffsetOf_GetProgramInfoCHROMIUM_bucket_id_not_8);
COMPILE_ASSERT(offsetof(GetProgramInfoCHROMIUM::Result, link_status) == 0,
OffsetOf_GetProgramInfoCHROMIUM_Result_link_status_not_0);
COMPILE_ASSERT(offsetof(GetProgramInfoCHROMIUM::Result, num_attribs) == 4,
OffsetOf_GetProgramInfoCHROMIUM_Result_num_attribs_not_4);
COMPILE_ASSERT(offsetof(GetProgramInfoCHROMIUM::Result, num_uniforms) == 8,
OffsetOf_GetProgramInfoCHROMIUM_Result_num_uniforms_not_8);
struct CreateStreamTextureCHROMIUM {
typedef CreateStreamTextureCHROMIUM ValueType;
static const CommandId kCmdId = kCreateStreamTextureCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
typedef GLuint Result;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _client_id, uint32 _result_shm_id, uint32 _result_shm_offset) {
SetHeader();
client_id = _client_id;
result_shm_id = _result_shm_id;
result_shm_offset = _result_shm_offset;
}
void* Set(
void* cmd, GLuint _client_id, uint32 _result_shm_id,
uint32 _result_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_client_id, _result_shm_id, _result_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 client_id;
uint32 result_shm_id;
uint32 result_shm_offset;
};
COMPILE_ASSERT(sizeof(CreateStreamTextureCHROMIUM) == 16,
Sizeof_CreateStreamTextureCHROMIUM_is_not_16);
COMPILE_ASSERT(offsetof(CreateStreamTextureCHROMIUM, header) == 0,
OffsetOf_CreateStreamTextureCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(CreateStreamTextureCHROMIUM, client_id) == 4,
OffsetOf_CreateStreamTextureCHROMIUM_client_id_not_4);
COMPILE_ASSERT(offsetof(CreateStreamTextureCHROMIUM, result_shm_id) == 8,
OffsetOf_CreateStreamTextureCHROMIUM_result_shm_id_not_8);
COMPILE_ASSERT(offsetof(CreateStreamTextureCHROMIUM, result_shm_offset) == 12,
OffsetOf_CreateStreamTextureCHROMIUM_result_shm_offset_not_12);
struct DestroyStreamTextureCHROMIUM {
typedef DestroyStreamTextureCHROMIUM ValueType;
static const CommandId kCmdId = kDestroyStreamTextureCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _texture) {
SetHeader();
texture = _texture;
}
void* Set(void* cmd, GLuint _texture) {
static_cast<ValueType*>(cmd)->Init(_texture);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 texture;
};
COMPILE_ASSERT(sizeof(DestroyStreamTextureCHROMIUM) == 8,
Sizeof_DestroyStreamTextureCHROMIUM_is_not_8);
COMPILE_ASSERT(offsetof(DestroyStreamTextureCHROMIUM, header) == 0,
OffsetOf_DestroyStreamTextureCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(DestroyStreamTextureCHROMIUM, texture) == 4,
OffsetOf_DestroyStreamTextureCHROMIUM_texture_not_4);
struct GetTranslatedShaderSourceANGLE {
typedef GetTranslatedShaderSourceANGLE ValueType;
static const CommandId kCmdId = kGetTranslatedShaderSourceANGLE;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _shader, uint32 _bucket_id) {
SetHeader();
shader = _shader;
bucket_id = _bucket_id;
}
void* Set(void* cmd, GLuint _shader, uint32 _bucket_id) {
static_cast<ValueType*>(cmd)->Init(_shader, _bucket_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 shader;
uint32 bucket_id;
};
COMPILE_ASSERT(sizeof(GetTranslatedShaderSourceANGLE) == 12,
Sizeof_GetTranslatedShaderSourceANGLE_is_not_12);
COMPILE_ASSERT(offsetof(GetTranslatedShaderSourceANGLE, header) == 0,
OffsetOf_GetTranslatedShaderSourceANGLE_header_not_0);
COMPILE_ASSERT(offsetof(GetTranslatedShaderSourceANGLE, shader) == 4,
OffsetOf_GetTranslatedShaderSourceANGLE_shader_not_4);
COMPILE_ASSERT(offsetof(GetTranslatedShaderSourceANGLE, bucket_id) == 8,
OffsetOf_GetTranslatedShaderSourceANGLE_bucket_id_not_8);
struct PostSubBufferCHROMIUM {
typedef PostSubBufferCHROMIUM ValueType;
static const CommandId kCmdId = kPostSubBufferCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLint _x, GLint _y, GLint _width, GLint _height) {
SetHeader();
x = _x;
y = _y;
width = _width;
height = _height;
}
void* Set(void* cmd, GLint _x, GLint _y, GLint _width, GLint _height) {
static_cast<ValueType*>(cmd)->Init(_x, _y, _width, _height);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 x;
int32 y;
int32 width;
int32 height;
};
COMPILE_ASSERT(sizeof(PostSubBufferCHROMIUM) == 20,
Sizeof_PostSubBufferCHROMIUM_is_not_20);
COMPILE_ASSERT(offsetof(PostSubBufferCHROMIUM, header) == 0,
OffsetOf_PostSubBufferCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(PostSubBufferCHROMIUM, x) == 4,
OffsetOf_PostSubBufferCHROMIUM_x_not_4);
COMPILE_ASSERT(offsetof(PostSubBufferCHROMIUM, y) == 8,
OffsetOf_PostSubBufferCHROMIUM_y_not_8);
COMPILE_ASSERT(offsetof(PostSubBufferCHROMIUM, width) == 12,
OffsetOf_PostSubBufferCHROMIUM_width_not_12);
COMPILE_ASSERT(offsetof(PostSubBufferCHROMIUM, height) == 16,
OffsetOf_PostSubBufferCHROMIUM_height_not_16);
struct TexImageIOSurface2DCHROMIUM {
typedef TexImageIOSurface2DCHROMIUM ValueType;
static const CommandId kCmdId = kTexImageIOSurface2DCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLsizei _width, GLsizei _height, GLuint _ioSurfaceId,
GLuint _plane) {
SetHeader();
target = _target;
width = _width;
height = _height;
ioSurfaceId = _ioSurfaceId;
plane = _plane;
}
void* Set(
void* cmd, GLenum _target, GLsizei _width, GLsizei _height,
GLuint _ioSurfaceId, GLuint _plane) {
static_cast<ValueType*>(
cmd)->Init(_target, _width, _height, _ioSurfaceId, _plane);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 width;
int32 height;
uint32 ioSurfaceId;
uint32 plane;
};
COMPILE_ASSERT(sizeof(TexImageIOSurface2DCHROMIUM) == 24,
Sizeof_TexImageIOSurface2DCHROMIUM_is_not_24);
COMPILE_ASSERT(offsetof(TexImageIOSurface2DCHROMIUM, header) == 0,
OffsetOf_TexImageIOSurface2DCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(TexImageIOSurface2DCHROMIUM, target) == 4,
OffsetOf_TexImageIOSurface2DCHROMIUM_target_not_4);
COMPILE_ASSERT(offsetof(TexImageIOSurface2DCHROMIUM, width) == 8,
OffsetOf_TexImageIOSurface2DCHROMIUM_width_not_8);
COMPILE_ASSERT(offsetof(TexImageIOSurface2DCHROMIUM, height) == 12,
OffsetOf_TexImageIOSurface2DCHROMIUM_height_not_12);
COMPILE_ASSERT(offsetof(TexImageIOSurface2DCHROMIUM, ioSurfaceId) == 16,
OffsetOf_TexImageIOSurface2DCHROMIUM_ioSurfaceId_not_16);
COMPILE_ASSERT(offsetof(TexImageIOSurface2DCHROMIUM, plane) == 20,
OffsetOf_TexImageIOSurface2DCHROMIUM_plane_not_20);
struct CopyTextureCHROMIUM {
typedef CopyTextureCHROMIUM ValueType;
static const CommandId kCmdId = kCopyTextureCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLenum _source_id, GLenum _dest_id, GLint _level,
GLint _internalformat, GLenum _dest_type) {
SetHeader();
target = _target;
source_id = _source_id;
dest_id = _dest_id;
level = _level;
internalformat = _internalformat;
dest_type = _dest_type;
}
void* Set(
void* cmd, GLenum _target, GLenum _source_id, GLenum _dest_id,
GLint _level, GLint _internalformat, GLenum _dest_type) {
static_cast<ValueType*>(
cmd)->Init(
_target, _source_id, _dest_id, _level, _internalformat,
_dest_type);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 source_id;
uint32 dest_id;
int32 level;
int32 internalformat;
uint32 dest_type;
};
COMPILE_ASSERT(sizeof(CopyTextureCHROMIUM) == 28,
Sizeof_CopyTextureCHROMIUM_is_not_28);
COMPILE_ASSERT(offsetof(CopyTextureCHROMIUM, header) == 0,
OffsetOf_CopyTextureCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(CopyTextureCHROMIUM, target) == 4,
OffsetOf_CopyTextureCHROMIUM_target_not_4);
COMPILE_ASSERT(offsetof(CopyTextureCHROMIUM, source_id) == 8,
OffsetOf_CopyTextureCHROMIUM_source_id_not_8);
COMPILE_ASSERT(offsetof(CopyTextureCHROMIUM, dest_id) == 12,
OffsetOf_CopyTextureCHROMIUM_dest_id_not_12);
COMPILE_ASSERT(offsetof(CopyTextureCHROMIUM, level) == 16,
OffsetOf_CopyTextureCHROMIUM_level_not_16);
COMPILE_ASSERT(offsetof(CopyTextureCHROMIUM, internalformat) == 20,
OffsetOf_CopyTextureCHROMIUM_internalformat_not_20);
COMPILE_ASSERT(offsetof(CopyTextureCHROMIUM, dest_type) == 24,
OffsetOf_CopyTextureCHROMIUM_dest_type_not_24);
struct DrawArraysInstancedANGLE {
typedef DrawArraysInstancedANGLE ValueType;
static const CommandId kCmdId = kDrawArraysInstancedANGLE;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _mode, GLint _first, GLsizei _count, GLsizei _primcount) {
SetHeader();
mode = _mode;
first = _first;
count = _count;
primcount = _primcount;
}
void* Set(
void* cmd, GLenum _mode, GLint _first, GLsizei _count,
GLsizei _primcount) {
static_cast<ValueType*>(cmd)->Init(_mode, _first, _count, _primcount);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 mode;
int32 first;
int32 count;
int32 primcount;
};
COMPILE_ASSERT(sizeof(DrawArraysInstancedANGLE) == 20,
Sizeof_DrawArraysInstancedANGLE_is_not_20);
COMPILE_ASSERT(offsetof(DrawArraysInstancedANGLE, header) == 0,
OffsetOf_DrawArraysInstancedANGLE_header_not_0);
COMPILE_ASSERT(offsetof(DrawArraysInstancedANGLE, mode) == 4,
OffsetOf_DrawArraysInstancedANGLE_mode_not_4);
COMPILE_ASSERT(offsetof(DrawArraysInstancedANGLE, first) == 8,
OffsetOf_DrawArraysInstancedANGLE_first_not_8);
COMPILE_ASSERT(offsetof(DrawArraysInstancedANGLE, count) == 12,
OffsetOf_DrawArraysInstancedANGLE_count_not_12);
COMPILE_ASSERT(offsetof(DrawArraysInstancedANGLE, primcount) == 16,
OffsetOf_DrawArraysInstancedANGLE_primcount_not_16);
struct DrawElementsInstancedANGLE {
typedef DrawElementsInstancedANGLE ValueType;
static const CommandId kCmdId = kDrawElementsInstancedANGLE;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _mode, GLsizei _count, GLenum _type, GLuint _index_offset,
GLsizei _primcount) {
SetHeader();
mode = _mode;
count = _count;
type = _type;
index_offset = _index_offset;
primcount = _primcount;
}
void* Set(
void* cmd, GLenum _mode, GLsizei _count, GLenum _type,
GLuint _index_offset, GLsizei _primcount) {
static_cast<ValueType*>(
cmd)->Init(_mode, _count, _type, _index_offset, _primcount);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 mode;
int32 count;
uint32 type;
uint32 index_offset;
int32 primcount;
};
COMPILE_ASSERT(sizeof(DrawElementsInstancedANGLE) == 24,
Sizeof_DrawElementsInstancedANGLE_is_not_24);
COMPILE_ASSERT(offsetof(DrawElementsInstancedANGLE, header) == 0,
OffsetOf_DrawElementsInstancedANGLE_header_not_0);
COMPILE_ASSERT(offsetof(DrawElementsInstancedANGLE, mode) == 4,
OffsetOf_DrawElementsInstancedANGLE_mode_not_4);
COMPILE_ASSERT(offsetof(DrawElementsInstancedANGLE, count) == 8,
OffsetOf_DrawElementsInstancedANGLE_count_not_8);
COMPILE_ASSERT(offsetof(DrawElementsInstancedANGLE, type) == 12,
OffsetOf_DrawElementsInstancedANGLE_type_not_12);
COMPILE_ASSERT(offsetof(DrawElementsInstancedANGLE, index_offset) == 16,
OffsetOf_DrawElementsInstancedANGLE_index_offset_not_16);
COMPILE_ASSERT(offsetof(DrawElementsInstancedANGLE, primcount) == 20,
OffsetOf_DrawElementsInstancedANGLE_primcount_not_20);
struct VertexAttribDivisorANGLE {
typedef VertexAttribDivisorANGLE ValueType;
static const CommandId kCmdId = kVertexAttribDivisorANGLE;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _index, GLuint _divisor) {
SetHeader();
index = _index;
divisor = _divisor;
}
void* Set(void* cmd, GLuint _index, GLuint _divisor) {
static_cast<ValueType*>(cmd)->Init(_index, _divisor);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 index;
uint32 divisor;
};
COMPILE_ASSERT(sizeof(VertexAttribDivisorANGLE) == 12,
Sizeof_VertexAttribDivisorANGLE_is_not_12);
COMPILE_ASSERT(offsetof(VertexAttribDivisorANGLE, header) == 0,
OffsetOf_VertexAttribDivisorANGLE_header_not_0);
COMPILE_ASSERT(offsetof(VertexAttribDivisorANGLE, index) == 4,
OffsetOf_VertexAttribDivisorANGLE_index_not_4);
COMPILE_ASSERT(offsetof(VertexAttribDivisorANGLE, divisor) == 8,
OffsetOf_VertexAttribDivisorANGLE_divisor_not_8);
struct ProduceTextureCHROMIUM {
typedef ProduceTextureCHROMIUM ValueType;
static const CommandId kCmdId = kProduceTextureCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, uint32 _mailbox_shm_id, uint32 _mailbox_shm_offset) {
SetHeader();
target = _target;
mailbox_shm_id = _mailbox_shm_id;
mailbox_shm_offset = _mailbox_shm_offset;
}
void* Set(
void* cmd, GLenum _target, uint32 _mailbox_shm_id,
uint32 _mailbox_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_target, _mailbox_shm_id, _mailbox_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 mailbox_shm_id;
uint32 mailbox_shm_offset;
};
COMPILE_ASSERT(sizeof(ProduceTextureCHROMIUM) == 16,
Sizeof_ProduceTextureCHROMIUM_is_not_16);
COMPILE_ASSERT(offsetof(ProduceTextureCHROMIUM, header) == 0,
OffsetOf_ProduceTextureCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(ProduceTextureCHROMIUM, target) == 4,
OffsetOf_ProduceTextureCHROMIUM_target_not_4);
COMPILE_ASSERT(offsetof(ProduceTextureCHROMIUM, mailbox_shm_id) == 8,
OffsetOf_ProduceTextureCHROMIUM_mailbox_shm_id_not_8);
COMPILE_ASSERT(offsetof(ProduceTextureCHROMIUM, mailbox_shm_offset) == 12,
OffsetOf_ProduceTextureCHROMIUM_mailbox_shm_offset_not_12);
struct ProduceTextureCHROMIUMImmediate {
typedef ProduceTextureCHROMIUMImmediate ValueType;
static const CommandId kCmdId = kProduceTextureCHROMIUMImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize() {
return static_cast<uint32>(
sizeof(GLbyte) * 64); // NOLINT
}
static uint32 ComputeSize() {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize()); // NOLINT
}
void SetHeader() {
header.SetCmdByTotalSize<ValueType>(ComputeSize());
}
void Init(GLenum _target, const GLbyte* _mailbox) {
SetHeader();
target = _target;
memcpy(ImmediateDataAddress(this),
_mailbox, ComputeDataSize());
}
void* Set(void* cmd, GLenum _target, const GLbyte* _mailbox) {
static_cast<ValueType*>(cmd)->Init(_target, _mailbox);
const uint32 size = ComputeSize();
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
uint32 target;
};
COMPILE_ASSERT(sizeof(ProduceTextureCHROMIUMImmediate) == 8,
Sizeof_ProduceTextureCHROMIUMImmediate_is_not_8);
COMPILE_ASSERT(offsetof(ProduceTextureCHROMIUMImmediate, header) == 0,
OffsetOf_ProduceTextureCHROMIUMImmediate_header_not_0);
COMPILE_ASSERT(offsetof(ProduceTextureCHROMIUMImmediate, target) == 4,
OffsetOf_ProduceTextureCHROMIUMImmediate_target_not_4);
struct ConsumeTextureCHROMIUM {
typedef ConsumeTextureCHROMIUM ValueType;
static const CommandId kCmdId = kConsumeTextureCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, uint32 _mailbox_shm_id, uint32 _mailbox_shm_offset) {
SetHeader();
target = _target;
mailbox_shm_id = _mailbox_shm_id;
mailbox_shm_offset = _mailbox_shm_offset;
}
void* Set(
void* cmd, GLenum _target, uint32 _mailbox_shm_id,
uint32 _mailbox_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(_target, _mailbox_shm_id, _mailbox_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
uint32 mailbox_shm_id;
uint32 mailbox_shm_offset;
};
COMPILE_ASSERT(sizeof(ConsumeTextureCHROMIUM) == 16,
Sizeof_ConsumeTextureCHROMIUM_is_not_16);
COMPILE_ASSERT(offsetof(ConsumeTextureCHROMIUM, header) == 0,
OffsetOf_ConsumeTextureCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(ConsumeTextureCHROMIUM, target) == 4,
OffsetOf_ConsumeTextureCHROMIUM_target_not_4);
COMPILE_ASSERT(offsetof(ConsumeTextureCHROMIUM, mailbox_shm_id) == 8,
OffsetOf_ConsumeTextureCHROMIUM_mailbox_shm_id_not_8);
COMPILE_ASSERT(offsetof(ConsumeTextureCHROMIUM, mailbox_shm_offset) == 12,
OffsetOf_ConsumeTextureCHROMIUM_mailbox_shm_offset_not_12);
struct ConsumeTextureCHROMIUMImmediate {
typedef ConsumeTextureCHROMIUMImmediate ValueType;
static const CommandId kCmdId = kConsumeTextureCHROMIUMImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize() {
return static_cast<uint32>(
sizeof(GLbyte) * 64); // NOLINT
}
static uint32 ComputeSize() {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize()); // NOLINT
}
void SetHeader() {
header.SetCmdByTotalSize<ValueType>(ComputeSize());
}
void Init(GLenum _target, const GLbyte* _mailbox) {
SetHeader();
target = _target;
memcpy(ImmediateDataAddress(this),
_mailbox, ComputeDataSize());
}
void* Set(void* cmd, GLenum _target, const GLbyte* _mailbox) {
static_cast<ValueType*>(cmd)->Init(_target, _mailbox);
const uint32 size = ComputeSize();
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
uint32 target;
};
COMPILE_ASSERT(sizeof(ConsumeTextureCHROMIUMImmediate) == 8,
Sizeof_ConsumeTextureCHROMIUMImmediate_is_not_8);
COMPILE_ASSERT(offsetof(ConsumeTextureCHROMIUMImmediate, header) == 0,
OffsetOf_ConsumeTextureCHROMIUMImmediate_header_not_0);
COMPILE_ASSERT(offsetof(ConsumeTextureCHROMIUMImmediate, target) == 4,
OffsetOf_ConsumeTextureCHROMIUMImmediate_target_not_4);
struct BindUniformLocationCHROMIUM {
typedef BindUniformLocationCHROMIUM ValueType;
static const CommandId kCmdId = kBindUniformLocationCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLuint _program, GLint _location, uint32 _name_shm_id,
uint32 _name_shm_offset, uint32 _data_size) {
SetHeader();
program = _program;
location = _location;
name_shm_id = _name_shm_id;
name_shm_offset = _name_shm_offset;
data_size = _data_size;
}
void* Set(
void* cmd, GLuint _program, GLint _location, uint32 _name_shm_id,
uint32 _name_shm_offset, uint32 _data_size) {
static_cast<ValueType*>(
cmd)->Init(
_program, _location, _name_shm_id, _name_shm_offset, _data_size);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
int32 location;
uint32 name_shm_id;
uint32 name_shm_offset;
uint32 data_size;
};
COMPILE_ASSERT(sizeof(BindUniformLocationCHROMIUM) == 24,
Sizeof_BindUniformLocationCHROMIUM_is_not_24);
COMPILE_ASSERT(offsetof(BindUniformLocationCHROMIUM, header) == 0,
OffsetOf_BindUniformLocationCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(BindUniformLocationCHROMIUM, program) == 4,
OffsetOf_BindUniformLocationCHROMIUM_program_not_4);
COMPILE_ASSERT(offsetof(BindUniformLocationCHROMIUM, location) == 8,
OffsetOf_BindUniformLocationCHROMIUM_location_not_8);
COMPILE_ASSERT(offsetof(BindUniformLocationCHROMIUM, name_shm_id) == 12,
OffsetOf_BindUniformLocationCHROMIUM_name_shm_id_not_12);
COMPILE_ASSERT(offsetof(BindUniformLocationCHROMIUM, name_shm_offset) == 16,
OffsetOf_BindUniformLocationCHROMIUM_name_shm_offset_not_16);
COMPILE_ASSERT(offsetof(BindUniformLocationCHROMIUM, data_size) == 20,
OffsetOf_BindUniformLocationCHROMIUM_data_size_not_20);
struct BindUniformLocationCHROMIUMBucket {
typedef BindUniformLocationCHROMIUMBucket ValueType;
static const CommandId kCmdId = kBindUniformLocationCHROMIUMBucket;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _program, GLint _location, uint32 _name_bucket_id) {
SetHeader();
program = _program;
location = _location;
name_bucket_id = _name_bucket_id;
}
void* Set(
void* cmd, GLuint _program, GLint _location, uint32 _name_bucket_id) {
static_cast<ValueType*>(cmd)->Init(_program, _location, _name_bucket_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 program;
int32 location;
uint32 name_bucket_id;
};
COMPILE_ASSERT(sizeof(BindUniformLocationCHROMIUMBucket) == 16,
Sizeof_BindUniformLocationCHROMIUMBucket_is_not_16);
COMPILE_ASSERT(offsetof(BindUniformLocationCHROMIUMBucket, header) == 0,
OffsetOf_BindUniformLocationCHROMIUMBucket_header_not_0);
COMPILE_ASSERT(offsetof(BindUniformLocationCHROMIUMBucket, program) == 4,
OffsetOf_BindUniformLocationCHROMIUMBucket_program_not_4);
COMPILE_ASSERT(offsetof(BindUniformLocationCHROMIUMBucket, location) == 8,
OffsetOf_BindUniformLocationCHROMIUMBucket_location_not_8);
COMPILE_ASSERT(
offsetof(BindUniformLocationCHROMIUMBucket, name_bucket_id) == 12,
OffsetOf_BindUniformLocationCHROMIUMBucket_name_bucket_id_not_12); // NOLINT
struct BindTexImage2DCHROMIUM {
typedef BindTexImage2DCHROMIUM ValueType;
static const CommandId kCmdId = kBindTexImage2DCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _target, GLint _imageId) {
SetHeader();
target = _target;
imageId = _imageId;
}
void* Set(void* cmd, GLenum _target, GLint _imageId) {
static_cast<ValueType*>(cmd)->Init(_target, _imageId);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 imageId;
};
COMPILE_ASSERT(sizeof(BindTexImage2DCHROMIUM) == 12,
Sizeof_BindTexImage2DCHROMIUM_is_not_12);
COMPILE_ASSERT(offsetof(BindTexImage2DCHROMIUM, header) == 0,
OffsetOf_BindTexImage2DCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(BindTexImage2DCHROMIUM, target) == 4,
OffsetOf_BindTexImage2DCHROMIUM_target_not_4);
COMPILE_ASSERT(offsetof(BindTexImage2DCHROMIUM, imageId) == 8,
OffsetOf_BindTexImage2DCHROMIUM_imageId_not_8);
struct ReleaseTexImage2DCHROMIUM {
typedef ReleaseTexImage2DCHROMIUM ValueType;
static const CommandId kCmdId = kReleaseTexImage2DCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _target, GLint _imageId) {
SetHeader();
target = _target;
imageId = _imageId;
}
void* Set(void* cmd, GLenum _target, GLint _imageId) {
static_cast<ValueType*>(cmd)->Init(_target, _imageId);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 imageId;
};
COMPILE_ASSERT(sizeof(ReleaseTexImage2DCHROMIUM) == 12,
Sizeof_ReleaseTexImage2DCHROMIUM_is_not_12);
COMPILE_ASSERT(offsetof(ReleaseTexImage2DCHROMIUM, header) == 0,
OffsetOf_ReleaseTexImage2DCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(ReleaseTexImage2DCHROMIUM, target) == 4,
OffsetOf_ReleaseTexImage2DCHROMIUM_target_not_4);
COMPILE_ASSERT(offsetof(ReleaseTexImage2DCHROMIUM, imageId) == 8,
OffsetOf_ReleaseTexImage2DCHROMIUM_imageId_not_8);
struct TraceBeginCHROMIUM {
typedef TraceBeginCHROMIUM ValueType;
static const CommandId kCmdId = kTraceBeginCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _bucket_id) {
SetHeader();
bucket_id = _bucket_id;
}
void* Set(void* cmd, GLuint _bucket_id) {
static_cast<ValueType*>(cmd)->Init(_bucket_id);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 bucket_id;
};
COMPILE_ASSERT(sizeof(TraceBeginCHROMIUM) == 8,
Sizeof_TraceBeginCHROMIUM_is_not_8);
COMPILE_ASSERT(offsetof(TraceBeginCHROMIUM, header) == 0,
OffsetOf_TraceBeginCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(TraceBeginCHROMIUM, bucket_id) == 4,
OffsetOf_TraceBeginCHROMIUM_bucket_id_not_4);
struct TraceEndCHROMIUM {
typedef TraceEndCHROMIUM ValueType;
static const CommandId kCmdId = kTraceEndCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init() {
SetHeader();
}
void* Set(void* cmd) {
static_cast<ValueType*>(cmd)->Init();
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
};
COMPILE_ASSERT(sizeof(TraceEndCHROMIUM) == 4,
Sizeof_TraceEndCHROMIUM_is_not_4);
COMPILE_ASSERT(offsetof(TraceEndCHROMIUM, header) == 0,
OffsetOf_TraceEndCHROMIUM_header_not_0);
struct AsyncTexSubImage2DCHROMIUM {
typedef AsyncTexSubImage2DCHROMIUM ValueType;
static const CommandId kCmdId = kAsyncTexSubImage2DCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLint _level, GLint _xoffset, GLint _yoffset,
GLsizei _width, GLsizei _height, GLenum _format, GLenum _type,
uint32 _data_shm_id, uint32 _data_shm_offset) {
SetHeader();
target = _target;
level = _level;
xoffset = _xoffset;
yoffset = _yoffset;
width = _width;
height = _height;
format = _format;
type = _type;
data_shm_id = _data_shm_id;
data_shm_offset = _data_shm_offset;
}
void* Set(
void* cmd, GLenum _target, GLint _level, GLint _xoffset, GLint _yoffset,
GLsizei _width, GLsizei _height, GLenum _format, GLenum _type,
uint32 _data_shm_id, uint32 _data_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(
_target, _level, _xoffset, _yoffset, _width, _height, _format,
_type, _data_shm_id, _data_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 level;
int32 xoffset;
int32 yoffset;
int32 width;
int32 height;
uint32 format;
uint32 type;
uint32 data_shm_id;
uint32 data_shm_offset;
};
COMPILE_ASSERT(sizeof(AsyncTexSubImage2DCHROMIUM) == 44,
Sizeof_AsyncTexSubImage2DCHROMIUM_is_not_44);
COMPILE_ASSERT(offsetof(AsyncTexSubImage2DCHROMIUM, header) == 0,
OffsetOf_AsyncTexSubImage2DCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(AsyncTexSubImage2DCHROMIUM, target) == 4,
OffsetOf_AsyncTexSubImage2DCHROMIUM_target_not_4);
COMPILE_ASSERT(offsetof(AsyncTexSubImage2DCHROMIUM, level) == 8,
OffsetOf_AsyncTexSubImage2DCHROMIUM_level_not_8);
COMPILE_ASSERT(offsetof(AsyncTexSubImage2DCHROMIUM, xoffset) == 12,
OffsetOf_AsyncTexSubImage2DCHROMIUM_xoffset_not_12);
COMPILE_ASSERT(offsetof(AsyncTexSubImage2DCHROMIUM, yoffset) == 16,
OffsetOf_AsyncTexSubImage2DCHROMIUM_yoffset_not_16);
COMPILE_ASSERT(offsetof(AsyncTexSubImage2DCHROMIUM, width) == 20,
OffsetOf_AsyncTexSubImage2DCHROMIUM_width_not_20);
COMPILE_ASSERT(offsetof(AsyncTexSubImage2DCHROMIUM, height) == 24,
OffsetOf_AsyncTexSubImage2DCHROMIUM_height_not_24);
COMPILE_ASSERT(offsetof(AsyncTexSubImage2DCHROMIUM, format) == 28,
OffsetOf_AsyncTexSubImage2DCHROMIUM_format_not_28);
COMPILE_ASSERT(offsetof(AsyncTexSubImage2DCHROMIUM, type) == 32,
OffsetOf_AsyncTexSubImage2DCHROMIUM_type_not_32);
COMPILE_ASSERT(offsetof(AsyncTexSubImage2DCHROMIUM, data_shm_id) == 36,
OffsetOf_AsyncTexSubImage2DCHROMIUM_data_shm_id_not_36);
COMPILE_ASSERT(offsetof(AsyncTexSubImage2DCHROMIUM, data_shm_offset) == 40,
OffsetOf_AsyncTexSubImage2DCHROMIUM_data_shm_offset_not_40);
struct AsyncTexImage2DCHROMIUM {
typedef AsyncTexImage2DCHROMIUM ValueType;
static const CommandId kCmdId = kAsyncTexImage2DCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLint _level, GLint _internalformat, GLsizei _width,
GLsizei _height, GLint _border, GLenum _format, GLenum _type,
uint32 _pixels_shm_id, uint32 _pixels_shm_offset) {
SetHeader();
target = _target;
level = _level;
internalformat = _internalformat;
width = _width;
height = _height;
border = _border;
format = _format;
type = _type;
pixels_shm_id = _pixels_shm_id;
pixels_shm_offset = _pixels_shm_offset;
}
void* Set(
void* cmd, GLenum _target, GLint _level, GLint _internalformat,
GLsizei _width, GLsizei _height, GLint _border, GLenum _format,
GLenum _type, uint32 _pixels_shm_id, uint32 _pixels_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(
_target, _level, _internalformat, _width, _height, _border, _format,
_type, _pixels_shm_id, _pixels_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 level;
int32 internalformat;
int32 width;
int32 height;
int32 border;
uint32 format;
uint32 type;
uint32 pixels_shm_id;
uint32 pixels_shm_offset;
};
COMPILE_ASSERT(sizeof(AsyncTexImage2DCHROMIUM) == 44,
Sizeof_AsyncTexImage2DCHROMIUM_is_not_44);
COMPILE_ASSERT(offsetof(AsyncTexImage2DCHROMIUM, header) == 0,
OffsetOf_AsyncTexImage2DCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(AsyncTexImage2DCHROMIUM, target) == 4,
OffsetOf_AsyncTexImage2DCHROMIUM_target_not_4);
COMPILE_ASSERT(offsetof(AsyncTexImage2DCHROMIUM, level) == 8,
OffsetOf_AsyncTexImage2DCHROMIUM_level_not_8);
COMPILE_ASSERT(offsetof(AsyncTexImage2DCHROMIUM, internalformat) == 12,
OffsetOf_AsyncTexImage2DCHROMIUM_internalformat_not_12);
COMPILE_ASSERT(offsetof(AsyncTexImage2DCHROMIUM, width) == 16,
OffsetOf_AsyncTexImage2DCHROMIUM_width_not_16);
COMPILE_ASSERT(offsetof(AsyncTexImage2DCHROMIUM, height) == 20,
OffsetOf_AsyncTexImage2DCHROMIUM_height_not_20);
COMPILE_ASSERT(offsetof(AsyncTexImage2DCHROMIUM, border) == 24,
OffsetOf_AsyncTexImage2DCHROMIUM_border_not_24);
COMPILE_ASSERT(offsetof(AsyncTexImage2DCHROMIUM, format) == 28,
OffsetOf_AsyncTexImage2DCHROMIUM_format_not_28);
COMPILE_ASSERT(offsetof(AsyncTexImage2DCHROMIUM, type) == 32,
OffsetOf_AsyncTexImage2DCHROMIUM_type_not_32);
COMPILE_ASSERT(offsetof(AsyncTexImage2DCHROMIUM, pixels_shm_id) == 36,
OffsetOf_AsyncTexImage2DCHROMIUM_pixels_shm_id_not_36);
COMPILE_ASSERT(offsetof(AsyncTexImage2DCHROMIUM, pixels_shm_offset) == 40,
OffsetOf_AsyncTexImage2DCHROMIUM_pixels_shm_offset_not_40);
struct WaitAsyncTexImage2DCHROMIUM {
typedef WaitAsyncTexImage2DCHROMIUM ValueType;
static const CommandId kCmdId = kWaitAsyncTexImage2DCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _target) {
SetHeader();
target = _target;
}
void* Set(void* cmd, GLenum _target) {
static_cast<ValueType*>(cmd)->Init(_target);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
};
COMPILE_ASSERT(sizeof(WaitAsyncTexImage2DCHROMIUM) == 8,
Sizeof_WaitAsyncTexImage2DCHROMIUM_is_not_8);
COMPILE_ASSERT(offsetof(WaitAsyncTexImage2DCHROMIUM, header) == 0,
OffsetOf_WaitAsyncTexImage2DCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(WaitAsyncTexImage2DCHROMIUM, target) == 4,
OffsetOf_WaitAsyncTexImage2DCHROMIUM_target_not_4);
struct DiscardFramebufferEXT {
typedef DiscardFramebufferEXT ValueType;
static const CommandId kCmdId = kDiscardFramebufferEXT;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(
GLenum _target, GLsizei _count, uint32 _attachments_shm_id,
uint32 _attachments_shm_offset) {
SetHeader();
target = _target;
count = _count;
attachments_shm_id = _attachments_shm_id;
attachments_shm_offset = _attachments_shm_offset;
}
void* Set(
void* cmd, GLenum _target, GLsizei _count, uint32 _attachments_shm_id,
uint32 _attachments_shm_offset) {
static_cast<ValueType*>(
cmd)->Init(
_target, _count, _attachments_shm_id, _attachments_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 target;
int32 count;
uint32 attachments_shm_id;
uint32 attachments_shm_offset;
};
COMPILE_ASSERT(sizeof(DiscardFramebufferEXT) == 20,
Sizeof_DiscardFramebufferEXT_is_not_20);
COMPILE_ASSERT(offsetof(DiscardFramebufferEXT, header) == 0,
OffsetOf_DiscardFramebufferEXT_header_not_0);
COMPILE_ASSERT(offsetof(DiscardFramebufferEXT, target) == 4,
OffsetOf_DiscardFramebufferEXT_target_not_4);
COMPILE_ASSERT(offsetof(DiscardFramebufferEXT, count) == 8,
OffsetOf_DiscardFramebufferEXT_count_not_8);
COMPILE_ASSERT(offsetof(DiscardFramebufferEXT, attachments_shm_id) == 12,
OffsetOf_DiscardFramebufferEXT_attachments_shm_id_not_12);
COMPILE_ASSERT(offsetof(DiscardFramebufferEXT, attachments_shm_offset) == 16,
OffsetOf_DiscardFramebufferEXT_attachments_shm_offset_not_16);
struct DiscardFramebufferEXTImmediate {
typedef DiscardFramebufferEXTImmediate ValueType;
static const CommandId kCmdId = kDiscardFramebufferEXTImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei count) {
return static_cast<uint32>(
sizeof(GLenum) * 1 * count); // NOLINT
}
static uint32 ComputeSize(GLsizei count) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(count)); // NOLINT
}
void SetHeader(GLsizei count) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(count));
}
void Init(GLenum _target, GLsizei _count, const GLenum* _attachments) {
SetHeader(_count);
target = _target;
count = _count;
memcpy(ImmediateDataAddress(this),
_attachments, ComputeDataSize(_count));
}
void* Set(
void* cmd, GLenum _target, GLsizei _count, const GLenum* _attachments) {
static_cast<ValueType*>(cmd)->Init(_target, _count, _attachments);
const uint32 size = ComputeSize(_count);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
uint32 target;
int32 count;
};
COMPILE_ASSERT(sizeof(DiscardFramebufferEXTImmediate) == 12,
Sizeof_DiscardFramebufferEXTImmediate_is_not_12);
COMPILE_ASSERT(offsetof(DiscardFramebufferEXTImmediate, header) == 0,
OffsetOf_DiscardFramebufferEXTImmediate_header_not_0);
COMPILE_ASSERT(offsetof(DiscardFramebufferEXTImmediate, target) == 4,
OffsetOf_DiscardFramebufferEXTImmediate_target_not_4);
COMPILE_ASSERT(offsetof(DiscardFramebufferEXTImmediate, count) == 8,
OffsetOf_DiscardFramebufferEXTImmediate_count_not_8);
struct LoseContextCHROMIUM {
typedef LoseContextCHROMIUM ValueType;
static const CommandId kCmdId = kLoseContextCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLenum _current, GLenum _other) {
SetHeader();
current = _current;
other = _other;
}
void* Set(void* cmd, GLenum _current, GLenum _other) {
static_cast<ValueType*>(cmd)->Init(_current, _other);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 current;
uint32 other;
};
COMPILE_ASSERT(sizeof(LoseContextCHROMIUM) == 12,
Sizeof_LoseContextCHROMIUM_is_not_12);
COMPILE_ASSERT(offsetof(LoseContextCHROMIUM, header) == 0,
OffsetOf_LoseContextCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(LoseContextCHROMIUM, current) == 4,
OffsetOf_LoseContextCHROMIUM_current_not_4);
COMPILE_ASSERT(offsetof(LoseContextCHROMIUM, other) == 8,
OffsetOf_LoseContextCHROMIUM_other_not_8);
struct WaitSyncPointCHROMIUM {
typedef WaitSyncPointCHROMIUM ValueType;
static const CommandId kCmdId = kWaitSyncPointCHROMIUM;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLuint _sync_point) {
SetHeader();
sync_point = _sync_point;
}
void* Set(void* cmd, GLuint _sync_point) {
static_cast<ValueType*>(cmd)->Init(_sync_point);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
uint32 sync_point;
};
COMPILE_ASSERT(sizeof(WaitSyncPointCHROMIUM) == 8,
Sizeof_WaitSyncPointCHROMIUM_is_not_8);
COMPILE_ASSERT(offsetof(WaitSyncPointCHROMIUM, header) == 0,
OffsetOf_WaitSyncPointCHROMIUM_header_not_0);
COMPILE_ASSERT(offsetof(WaitSyncPointCHROMIUM, sync_point) == 4,
OffsetOf_WaitSyncPointCHROMIUM_sync_point_not_4);
struct DrawBuffersEXT {
typedef DrawBuffersEXT ValueType;
static const CommandId kCmdId = kDrawBuffersEXT;
static const cmd::ArgFlags kArgFlags = cmd::kFixed;
static uint32 ComputeSize() {
return static_cast<uint32>(sizeof(ValueType)); // NOLINT
}
void SetHeader() {
header.SetCmd<ValueType>();
}
void Init(GLsizei _count, uint32 _bufs_shm_id, uint32 _bufs_shm_offset) {
SetHeader();
count = _count;
bufs_shm_id = _bufs_shm_id;
bufs_shm_offset = _bufs_shm_offset;
}
void* Set(
void* cmd, GLsizei _count, uint32 _bufs_shm_id,
uint32 _bufs_shm_offset) {
static_cast<ValueType*>(cmd)->Init(_count, _bufs_shm_id, _bufs_shm_offset);
return NextCmdAddress<ValueType>(cmd);
}
gpu::CommandHeader header;
int32 count;
uint32 bufs_shm_id;
uint32 bufs_shm_offset;
};
COMPILE_ASSERT(sizeof(DrawBuffersEXT) == 16,
Sizeof_DrawBuffersEXT_is_not_16);
COMPILE_ASSERT(offsetof(DrawBuffersEXT, header) == 0,
OffsetOf_DrawBuffersEXT_header_not_0);
COMPILE_ASSERT(offsetof(DrawBuffersEXT, count) == 4,
OffsetOf_DrawBuffersEXT_count_not_4);
COMPILE_ASSERT(offsetof(DrawBuffersEXT, bufs_shm_id) == 8,
OffsetOf_DrawBuffersEXT_bufs_shm_id_not_8);
COMPILE_ASSERT(offsetof(DrawBuffersEXT, bufs_shm_offset) == 12,
OffsetOf_DrawBuffersEXT_bufs_shm_offset_not_12);
struct DrawBuffersEXTImmediate {
typedef DrawBuffersEXTImmediate ValueType;
static const CommandId kCmdId = kDrawBuffersEXTImmediate;
static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
static uint32 ComputeDataSize(GLsizei count) {
return static_cast<uint32>(
sizeof(GLenum) * 1 * count); // NOLINT
}
static uint32 ComputeSize(GLsizei count) {
return static_cast<uint32>(
sizeof(ValueType) + ComputeDataSize(count)); // NOLINT
}
void SetHeader(GLsizei count) {
header.SetCmdByTotalSize<ValueType>(ComputeSize(count));
}
void Init(GLsizei _count, const GLenum* _bufs) {
SetHeader(_count);
count = _count;
memcpy(ImmediateDataAddress(this),
_bufs, ComputeDataSize(_count));
}
void* Set(void* cmd, GLsizei _count, const GLenum* _bufs) {
static_cast<ValueType*>(cmd)->Init(_count, _bufs);
const uint32 size = ComputeSize(_count);
return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
}
gpu::CommandHeader header;
int32 count;
};
COMPILE_ASSERT(sizeof(DrawBuffersEXTImmediate) == 8,
Sizeof_DrawBuffersEXTImmediate_is_not_8);
COMPILE_ASSERT(offsetof(DrawBuffersEXTImmediate, header) == 0,
OffsetOf_DrawBuffersEXTImmediate_header_not_0);
COMPILE_ASSERT(offsetof(DrawBuffersEXTImmediate, count) == 4,
OffsetOf_DrawBuffersEXTImmediate_count_not_4);
#endif // GPU_COMMAND_BUFFER_COMMON_GLES2_CMD_FORMAT_AUTOGEN_H_