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android / platform / external / chromium_org / c1942b1 / . / gpu / command_buffer / build_gles2_cmd_buffer.py
blob: 1c7b0199371cf8732b1335d8db811af47c840545 [file] [log] [blame]
#!/usr/bin/env python
# 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.
"""code generator for GLES2 command buffers."""
import itertools
import os
import os.path
import sys
import re
from optparse import OptionParser
from subprocess import call
_SIZE_OF_UINT32 = 4
_SIZE_OF_COMMAND_HEADER = 4
_FIRST_SPECIFIC_COMMAND_ID = 256
_LICENSE = """// Copyright 2014 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.
"""
_DO_NOT_EDIT_WARNING = """// This file is auto-generated from
// gpu/command_buffer/build_gles2_cmd_buffer.py
// It's formatted by clang-format using chromium coding style:
// clang-format -i -style=chromium filename
// DO NOT EDIT!
"""
# This string is copied directly out of the gl2.h file from GLES2.0
#
# Edits:
#
# *) Any argument that is a resourceID has been changed to GLid<Type>.
# (not pointer arguments) and if it's allowed to be zero it's GLidZero<Type>
# If it's allowed to not exist it's GLidBind<Type>
#
# *) All GLenums have been changed to GLenumTypeOfEnum
#
_GL_TYPES = {
'GLenum': 'unsigned int',
'GLboolean': 'unsigned char',
'GLbitfield': 'unsigned int',
'GLbyte': 'signed char',
'GLshort': 'short',
'GLint': 'int',
'GLsizei': 'int',
'GLubyte': 'unsigned char',
'GLushort': 'unsigned short',
'GLuint': 'unsigned int',
'GLfloat': 'float',
'GLclampf': 'float',
'GLvoid': 'void',
'GLfixed': 'int',
'GLclampx': 'int'
}
_GL_TYPES_32 = {
'GLintptr': 'long int',
'GLsizeiptr': 'long int'
}
_GL_TYPES_64 = {
'GLintptr': 'long long int',
'GLsizeiptr': 'long long int'
}
# Capabilites selected with glEnable
_CAPABILITY_FLAGS = [
{'name': 'blend'},
{'name': 'cull_face'},
{'name': 'depth_test', 'state_flag': 'framebuffer_state_.clear_state_dirty'},
{'name': 'dither', 'default': True},
{'name': 'polygon_offset_fill'},
{'name': 'sample_alpha_to_coverage'},
{'name': 'sample_coverage'},
{'name': 'scissor_test'},
{'name': 'stencil_test',
'state_flag': 'framebuffer_state_.clear_state_dirty'},
]
_STATES = {
'ClearColor': {
'type': 'Normal',
'func': 'ClearColor',
'enum': 'GL_COLOR_CLEAR_VALUE',
'states': [
{'name': 'color_clear_red', 'type': 'GLfloat', 'default': '0.0f'},
{'name': 'color_clear_green', 'type': 'GLfloat', 'default': '0.0f'},
{'name': 'color_clear_blue', 'type': 'GLfloat', 'default': '0.0f'},
{'name': 'color_clear_alpha', 'type': 'GLfloat', 'default': '0.0f'},
],
},
'ClearDepthf': {
'type': 'Normal',
'func': 'ClearDepth',
'enum': 'GL_DEPTH_CLEAR_VALUE',
'states': [
{'name': 'depth_clear', 'type': 'GLclampf', 'default': '1.0f'},
],
},
'ColorMask': {
'type': 'Normal',
'func': 'ColorMask',
'enum': 'GL_COLOR_WRITEMASK',
'states': [
{
'name': 'color_mask_red',
'type': 'GLboolean',
'default': 'true',
'cached': True
},
{
'name': 'color_mask_green',
'type': 'GLboolean',
'default': 'true',
'cached': True
},
{
'name': 'color_mask_blue',
'type': 'GLboolean',
'default': 'true',
'cached': True
},
{
'name': 'color_mask_alpha',
'type': 'GLboolean',
'default': 'true',
'cached': True
},
],
'state_flag': 'framebuffer_state_.clear_state_dirty',
},
'ClearStencil': {
'type': 'Normal',
'func': 'ClearStencil',
'enum': 'GL_STENCIL_CLEAR_VALUE',
'states': [
{'name': 'stencil_clear', 'type': 'GLint', 'default': '0'},
],
},
'BlendColor': {
'type': 'Normal',
'func': 'BlendColor',
'enum': 'GL_BLEND_COLOR',
'states': [
{'name': 'blend_color_red', 'type': 'GLfloat', 'default': '0.0f'},
{'name': 'blend_color_green', 'type': 'GLfloat', 'default': '0.0f'},
{'name': 'blend_color_blue', 'type': 'GLfloat', 'default': '0.0f'},
{'name': 'blend_color_alpha', 'type': 'GLfloat', 'default': '0.0f'},
],
},
'BlendEquation': {
'type': 'SrcDst',
'func': 'BlendEquationSeparate',
'states': [
{
'name': 'blend_equation_rgb',
'type': 'GLenum',
'enum': 'GL_BLEND_EQUATION_RGB',
'default': 'GL_FUNC_ADD',
},
{
'name': 'blend_equation_alpha',
'type': 'GLenum',
'enum': 'GL_BLEND_EQUATION_ALPHA',
'default': 'GL_FUNC_ADD',
},
],
},
'BlendFunc': {
'type': 'SrcDst',
'func': 'BlendFuncSeparate',
'states': [
{
'name': 'blend_source_rgb',
'type': 'GLenum',
'enum': 'GL_BLEND_SRC_RGB',
'default': 'GL_ONE',
},
{
'name': 'blend_dest_rgb',
'type': 'GLenum',
'enum': 'GL_BLEND_DST_RGB',
'default': 'GL_ZERO',
},
{
'name': 'blend_source_alpha',
'type': 'GLenum',
'enum': 'GL_BLEND_SRC_ALPHA',
'default': 'GL_ONE',
},
{
'name': 'blend_dest_alpha',
'type': 'GLenum',
'enum': 'GL_BLEND_DST_ALPHA',
'default': 'GL_ZERO',
},
],
},
'PolygonOffset': {
'type': 'Normal',
'func': 'PolygonOffset',
'states': [
{
'name': 'polygon_offset_factor',
'type': 'GLfloat',
'enum': 'GL_POLYGON_OFFSET_FACTOR',
'default': '0.0f',
},
{
'name': 'polygon_offset_units',
'type': 'GLfloat',
'enum': 'GL_POLYGON_OFFSET_UNITS',
'default': '0.0f',
},
],
},
'CullFace': {
'type': 'Normal',
'func': 'CullFace',
'enum': 'GL_CULL_FACE_MODE',
'states': [
{
'name': 'cull_mode',
'type': 'GLenum',
'default': 'GL_BACK',
},
],
},
'FrontFace': {
'type': 'Normal',
'func': 'FrontFace',
'enum': 'GL_FRONT_FACE',
'states': [{'name': 'front_face', 'type': 'GLenum', 'default': 'GL_CCW'}],
},
'DepthFunc': {
'type': 'Normal',
'func': 'DepthFunc',
'enum': 'GL_DEPTH_FUNC',
'states': [{'name': 'depth_func', 'type': 'GLenum', 'default': 'GL_LESS'}],
},
'DepthRange': {
'type': 'Normal',
'func': 'DepthRange',
'enum': 'GL_DEPTH_RANGE',
'states': [
{'name': 'z_near', 'type': 'GLclampf', 'default': '0.0f'},
{'name': 'z_far', 'type': 'GLclampf', 'default': '1.0f'},
],
},
'SampleCoverage': {
'type': 'Normal',
'func': 'SampleCoverage',
'states': [
{
'name': 'sample_coverage_value',
'type': 'GLclampf',
'enum': 'GL_SAMPLE_COVERAGE_VALUE',
'default': '1.0f',
},
{
'name': 'sample_coverage_invert',
'type': 'GLboolean',
'enum': 'GL_SAMPLE_COVERAGE_INVERT',
'default': 'false',
},
],
},
'StencilMask': {
'type': 'FrontBack',
'func': 'StencilMaskSeparate',
'state_flag': 'framebuffer_state_.clear_state_dirty',
'states': [
{
'name': 'stencil_front_writemask',
'type': 'GLuint',
'enum': 'GL_STENCIL_WRITEMASK',
'default': '0xFFFFFFFFU',
'cached': True,
},
{
'name': 'stencil_back_writemask',
'type': 'GLuint',
'enum': 'GL_STENCIL_BACK_WRITEMASK',
'default': '0xFFFFFFFFU',
'cached': True,
},
],
},
'StencilOp': {
'type': 'FrontBack',
'func': 'StencilOpSeparate',
'states': [
{
'name': 'stencil_front_fail_op',
'type': 'GLenum',
'enum': 'GL_STENCIL_FAIL',
'default': 'GL_KEEP',
},
{
'name': 'stencil_front_z_fail_op',
'type': 'GLenum',
'enum': 'GL_STENCIL_PASS_DEPTH_FAIL',
'default': 'GL_KEEP',
},
{
'name': 'stencil_front_z_pass_op',
'type': 'GLenum',
'enum': 'GL_STENCIL_PASS_DEPTH_PASS',
'default': 'GL_KEEP',
},
{
'name': 'stencil_back_fail_op',
'type': 'GLenum',
'enum': 'GL_STENCIL_BACK_FAIL',
'default': 'GL_KEEP',
},
{
'name': 'stencil_back_z_fail_op',
'type': 'GLenum',
'enum': 'GL_STENCIL_BACK_PASS_DEPTH_FAIL',
'default': 'GL_KEEP',
},
{
'name': 'stencil_back_z_pass_op',
'type': 'GLenum',
'enum': 'GL_STENCIL_BACK_PASS_DEPTH_PASS',
'default': 'GL_KEEP',
},
],
},
'StencilFunc': {
'type': 'FrontBack',
'func': 'StencilFuncSeparate',
'states': [
{
'name': 'stencil_front_func',
'type': 'GLenum',
'enum': 'GL_STENCIL_FUNC',
'default': 'GL_ALWAYS',
},
{
'name': 'stencil_front_ref',
'type': 'GLint',
'enum': 'GL_STENCIL_REF',
'default': '0',
},
{
'name': 'stencil_front_mask',
'type': 'GLuint',
'enum': 'GL_STENCIL_VALUE_MASK',
'default': '0xFFFFFFFFU',
},
{
'name': 'stencil_back_func',
'type': 'GLenum',
'enum': 'GL_STENCIL_BACK_FUNC',
'default': 'GL_ALWAYS',
},
{
'name': 'stencil_back_ref',
'type': 'GLint',
'enum': 'GL_STENCIL_BACK_REF',
'default': '0',
},
{
'name': 'stencil_back_mask',
'type': 'GLuint',
'enum': 'GL_STENCIL_BACK_VALUE_MASK',
'default': '0xFFFFFFFFU',
},
],
},
'Hint': {
'type': 'NamedParameter',
'func': 'Hint',
'states': [
{
'name': 'hint_generate_mipmap',
'type': 'GLenum',
'enum': 'GL_GENERATE_MIPMAP_HINT',
'default': 'GL_DONT_CARE'
},
{
'name': 'hint_fragment_shader_derivative',
'type': 'GLenum',
'enum': 'GL_FRAGMENT_SHADER_DERIVATIVE_HINT_OES',
'default': 'GL_DONT_CARE',
'extension_flag': 'oes_standard_derivatives'
}
],
},
'PixelStore': {
'type': 'NamedParameter',
'func': 'PixelStorei',
'states': [
{
'name': 'pack_alignment',
'type': 'GLint',
'enum': 'GL_PACK_ALIGNMENT',
'default': '4'
},
{
'name': 'unpack_alignment',
'type': 'GLint',
'enum': 'GL_UNPACK_ALIGNMENT',
'default': '4'
}
],
},
# TODO: Consider implemenenting these states
# GL_ACTIVE_TEXTURE
'LineWidth': {
'type': 'Normal',
'func': 'LineWidth',
'enum': 'GL_LINE_WIDTH',
'states': [
{
'name': 'line_width',
'type': 'GLfloat',
'default': '1.0f',
'range_checks': [{'check': "<= 0.0f", 'test_value': "0.0f"}],
}],
},
'DepthMask': {
'type': 'Normal',
'func': 'DepthMask',
'enum': 'GL_DEPTH_WRITEMASK',
'states': [
{
'name': 'depth_mask',
'type': 'GLboolean',
'default': 'true',
'cached': True
},
],
'state_flag': 'framebuffer_state_.clear_state_dirty',
},
'Scissor': {
'type': 'Normal',
'func': 'Scissor',
'enum': 'GL_SCISSOR_BOX',
'states': [
# NOTE: These defaults reset at GLES2DecoderImpl::Initialization.
{
'name': 'scissor_x',
'type': 'GLint',
'default': '0',
'expected': 'kViewportX',
},
{
'name': 'scissor_y',
'type': 'GLint',
'default': '0',
'expected': 'kViewportY',
},
{
'name': 'scissor_width',
'type': 'GLsizei',
'default': '1',
'expected': 'kViewportWidth',
},
{
'name': 'scissor_height',
'type': 'GLsizei',
'default': '1',
'expected': 'kViewportHeight',
},
],
},
'Viewport': {
'type': 'Normal',
'func': 'Viewport',
'enum': 'GL_VIEWPORT',
'states': [
# NOTE: These defaults reset at GLES2DecoderImpl::Initialization.
{
'name': 'viewport_x',
'type': 'GLint',
'default': '0',
'expected': 'kViewportX',
},
{
'name': 'viewport_y',
'type': 'GLint',
'default': '0',
'expected': 'kViewportY',
},
{
'name': 'viewport_width',
'type': 'GLsizei',
'default': '1',
'expected': 'kViewportWidth',
},
{
'name': 'viewport_height',
'type': 'GLsizei',
'default': '1',
'expected': 'kViewportHeight',
},
],
},
}
# Named type info object represents a named type that is used in OpenGL call
# arguments. Each named type defines a set of valid OpenGL call arguments. The
# named types are used in 'cmd_buffer_functions.txt'.
# type: The actual GL type of the named type.
# valid: The list of values that are valid for both the client and the service.
# invalid: Examples of invalid values for the type. At least these values
# should be tested to be invalid.
# is_complete: The list of valid values of type are final and will not be
# modified during runtime.
_NAMED_TYPE_INFO = {
'BlitFilter': {
'type': 'GLenum',
'valid': [
'GL_NEAREST',
'GL_LINEAR',
],
'invalid': [
'GL_LINEAR_MIPMAP_LINEAR',
],
},
'FrameBufferTarget': {
'type': 'GLenum',
'valid': [
'GL_FRAMEBUFFER',
],
'invalid': [
'GL_DRAW_FRAMEBUFFER' ,
'GL_READ_FRAMEBUFFER' ,
],
},
'RenderBufferTarget': {
'type': 'GLenum',
'valid': [
'GL_RENDERBUFFER',
],
'invalid': [
'GL_FRAMEBUFFER',
],
},
'BufferTarget': {
'type': 'GLenum',
'valid': [
'GL_ARRAY_BUFFER',
'GL_ELEMENT_ARRAY_BUFFER',
],
'invalid': [
'GL_RENDERBUFFER',
],
},
'BufferUsage': {
'type': 'GLenum',
'valid': [
'GL_STREAM_DRAW',
'GL_STATIC_DRAW',
'GL_DYNAMIC_DRAW',
],
'invalid': [
'GL_STATIC_READ',
],
},
'CompressedTextureFormat': {
'type': 'GLenum',
'valid': [
],
},
'GLState': {
'type': 'GLenum',
'valid': [
# NOTE: State an Capability entries added later.
'GL_ACTIVE_TEXTURE',
'GL_ALIASED_LINE_WIDTH_RANGE',
'GL_ALIASED_POINT_SIZE_RANGE',
'GL_ALPHA_BITS',
'GL_ARRAY_BUFFER_BINDING',
'GL_BLUE_BITS',
'GL_COMPRESSED_TEXTURE_FORMATS',
'GL_CURRENT_PROGRAM',
'GL_DEPTH_BITS',
'GL_DEPTH_RANGE',
'GL_ELEMENT_ARRAY_BUFFER_BINDING',
'GL_FRAMEBUFFER_BINDING',
'GL_GENERATE_MIPMAP_HINT',
'GL_GREEN_BITS',
'GL_IMPLEMENTATION_COLOR_READ_FORMAT',
'GL_IMPLEMENTATION_COLOR_READ_TYPE',
'GL_MAX_COMBINED_TEXTURE_IMAGE_UNITS',
'GL_MAX_CUBE_MAP_TEXTURE_SIZE',
'GL_MAX_FRAGMENT_UNIFORM_VECTORS',
'GL_MAX_RENDERBUFFER_SIZE',
'GL_MAX_TEXTURE_IMAGE_UNITS',
'GL_MAX_TEXTURE_SIZE',
'GL_MAX_VARYING_VECTORS',
'GL_MAX_VERTEX_ATTRIBS',
'GL_MAX_VERTEX_TEXTURE_IMAGE_UNITS',
'GL_MAX_VERTEX_UNIFORM_VECTORS',
'GL_MAX_VIEWPORT_DIMS',
'GL_NUM_COMPRESSED_TEXTURE_FORMATS',
'GL_NUM_SHADER_BINARY_FORMATS',
'GL_PACK_ALIGNMENT',
'GL_RED_BITS',
'GL_RENDERBUFFER_BINDING',
'GL_SAMPLE_BUFFERS',
'GL_SAMPLE_COVERAGE_INVERT',
'GL_SAMPLE_COVERAGE_VALUE',
'GL_SAMPLES',
'GL_SCISSOR_BOX',
'GL_SHADER_BINARY_FORMATS',
'GL_SHADER_COMPILER',
'GL_SUBPIXEL_BITS',
'GL_STENCIL_BITS',
'GL_TEXTURE_BINDING_2D',
'GL_TEXTURE_BINDING_CUBE_MAP',
'GL_UNPACK_ALIGNMENT',
'GL_UNPACK_FLIP_Y_CHROMIUM',
'GL_UNPACK_PREMULTIPLY_ALPHA_CHROMIUM',
'GL_UNPACK_UNPREMULTIPLY_ALPHA_CHROMIUM',
'GL_BIND_GENERATES_RESOURCE_CHROMIUM',
# we can add this because we emulate it if the driver does not support it.
'GL_VERTEX_ARRAY_BINDING_OES',
'GL_VIEWPORT',
],
'invalid': [
'GL_FOG_HINT',
],
},
'GetTexParamTarget': {
'type': 'GLenum',
'valid': [
'GL_TEXTURE_2D',
'GL_TEXTURE_CUBE_MAP',
],
'invalid': [
'GL_PROXY_TEXTURE_CUBE_MAP',
]
},
'TextureTarget': {
'type': 'GLenum',
'valid': [
'GL_TEXTURE_2D',
'GL_TEXTURE_CUBE_MAP_POSITIVE_X',
'GL_TEXTURE_CUBE_MAP_NEGATIVE_X',
'GL_TEXTURE_CUBE_MAP_POSITIVE_Y',
'GL_TEXTURE_CUBE_MAP_NEGATIVE_Y',
'GL_TEXTURE_CUBE_MAP_POSITIVE_Z',
'GL_TEXTURE_CUBE_MAP_NEGATIVE_Z',
],
'invalid': [
'GL_PROXY_TEXTURE_CUBE_MAP',
]
},
'TextureBindTarget': {
'type': 'GLenum',
'valid': [
'GL_TEXTURE_2D',
'GL_TEXTURE_CUBE_MAP',
],
'invalid': [
'GL_TEXTURE_1D',
'GL_TEXTURE_3D',
],
},
'ShaderType': {
'type': 'GLenum',
'valid': [
'GL_VERTEX_SHADER',
'GL_FRAGMENT_SHADER',
],
'invalid': [
'GL_GEOMETRY_SHADER',
],
},
'FaceType': {
'type': 'GLenum',
'valid': [
'GL_FRONT',
'GL_BACK',
'GL_FRONT_AND_BACK',
],
},
'FaceMode': {
'type': 'GLenum',
'valid': [
'GL_CW',
'GL_CCW',
],
},
'CmpFunction': {
'type': 'GLenum',
'valid': [
'GL_NEVER',
'GL_LESS',
'GL_EQUAL',
'GL_LEQUAL',
'GL_GREATER',
'GL_NOTEQUAL',
'GL_GEQUAL',
'GL_ALWAYS',
],
},
'Equation': {
'type': 'GLenum',
'valid': [
'GL_FUNC_ADD',
'GL_FUNC_SUBTRACT',
'GL_FUNC_REVERSE_SUBTRACT',
],
'invalid': [
'GL_MIN',
'GL_MAX',
],
},
'SrcBlendFactor': {
'type': 'GLenum',
'valid': [
'GL_ZERO',
'GL_ONE',
'GL_SRC_COLOR',
'GL_ONE_MINUS_SRC_COLOR',
'GL_DST_COLOR',
'GL_ONE_MINUS_DST_COLOR',
'GL_SRC_ALPHA',
'GL_ONE_MINUS_SRC_ALPHA',
'GL_DST_ALPHA',
'GL_ONE_MINUS_DST_ALPHA',
'GL_CONSTANT_COLOR',
'GL_ONE_MINUS_CONSTANT_COLOR',
'GL_CONSTANT_ALPHA',
'GL_ONE_MINUS_CONSTANT_ALPHA',
'GL_SRC_ALPHA_SATURATE',
],
},
'DstBlendFactor': {
'type': 'GLenum',
'valid': [
'GL_ZERO',
'GL_ONE',
'GL_SRC_COLOR',
'GL_ONE_MINUS_SRC_COLOR',
'GL_DST_COLOR',
'GL_ONE_MINUS_DST_COLOR',
'GL_SRC_ALPHA',
'GL_ONE_MINUS_SRC_ALPHA',
'GL_DST_ALPHA',
'GL_ONE_MINUS_DST_ALPHA',
'GL_CONSTANT_COLOR',
'GL_ONE_MINUS_CONSTANT_COLOR',
'GL_CONSTANT_ALPHA',
'GL_ONE_MINUS_CONSTANT_ALPHA',
],
},
'Capability': {
'type': 'GLenum',
'valid': ["GL_%s" % cap['name'].upper() for cap in _CAPABILITY_FLAGS],
'invalid': [
'GL_CLIP_PLANE0',
'GL_POINT_SPRITE',
],
},
'DrawMode': {
'type': 'GLenum',
'valid': [
'GL_POINTS',
'GL_LINE_STRIP',
'GL_LINE_LOOP',
'GL_LINES',
'GL_TRIANGLE_STRIP',
'GL_TRIANGLE_FAN',
'GL_TRIANGLES',
],
'invalid': [
'GL_QUADS',
'GL_POLYGON',
],
},
'IndexType': {
'type': 'GLenum',
'valid': [
'GL_UNSIGNED_BYTE',
'GL_UNSIGNED_SHORT',
],
'invalid': [
'GL_UNSIGNED_INT',
'GL_INT',
],
},
'GetMaxIndexType': {
'type': 'GLenum',
'valid': [
'GL_UNSIGNED_BYTE',
'GL_UNSIGNED_SHORT',
'GL_UNSIGNED_INT',
],
'invalid': [
'GL_INT',
],
},
'Attachment': {
'type': 'GLenum',
'valid': [
'GL_COLOR_ATTACHMENT0',
'GL_DEPTH_ATTACHMENT',
'GL_STENCIL_ATTACHMENT',
],
},
'BackbufferAttachment': {
'type': 'GLenum',
'valid': [
'GL_COLOR_EXT',
'GL_DEPTH_EXT',
'GL_STENCIL_EXT',
],
},
'BufferParameter': {
'type': 'GLenum',
'valid': [
'GL_BUFFER_SIZE',
'GL_BUFFER_USAGE',
],
'invalid': [
'GL_PIXEL_PACK_BUFFER',
],
},
'FrameBufferParameter': {
'type': 'GLenum',
'valid': [
'GL_FRAMEBUFFER_ATTACHMENT_OBJECT_TYPE',
'GL_FRAMEBUFFER_ATTACHMENT_OBJECT_NAME',
'GL_FRAMEBUFFER_ATTACHMENT_TEXTURE_LEVEL',
'GL_FRAMEBUFFER_ATTACHMENT_TEXTURE_CUBE_MAP_FACE',
],
},
'ProgramParameter': {
'type': 'GLenum',
'valid': [
'GL_DELETE_STATUS',
'GL_LINK_STATUS',
'GL_VALIDATE_STATUS',
'GL_INFO_LOG_LENGTH',
'GL_ATTACHED_SHADERS',
'GL_ACTIVE_ATTRIBUTES',
'GL_ACTIVE_ATTRIBUTE_MAX_LENGTH',
'GL_ACTIVE_UNIFORMS',
'GL_ACTIVE_UNIFORM_MAX_LENGTH',
],
},
'QueryObjectParameter': {
'type': 'GLenum',
'valid': [
'GL_QUERY_RESULT_EXT',
'GL_QUERY_RESULT_AVAILABLE_EXT',
],
},
'QueryParameter': {
'type': 'GLenum',
'valid': [
'GL_CURRENT_QUERY_EXT',
],
},
'QueryTarget': {
'type': 'GLenum',
'valid': [
'GL_ANY_SAMPLES_PASSED_EXT',
'GL_ANY_SAMPLES_PASSED_CONSERVATIVE_EXT',
'GL_COMMANDS_ISSUED_CHROMIUM',
'GL_LATENCY_QUERY_CHROMIUM',
'GL_ASYNC_PIXEL_UNPACK_COMPLETED_CHROMIUM',
'GL_ASYNC_PIXEL_PACK_COMPLETED_CHROMIUM',
'GL_COMMANDS_COMPLETED_CHROMIUM',
],
},
'RenderBufferParameter': {
'type': 'GLenum',
'valid': [
'GL_RENDERBUFFER_RED_SIZE',
'GL_RENDERBUFFER_GREEN_SIZE',
'GL_RENDERBUFFER_BLUE_SIZE',
'GL_RENDERBUFFER_ALPHA_SIZE',
'GL_RENDERBUFFER_DEPTH_SIZE',
'GL_RENDERBUFFER_STENCIL_SIZE',
'GL_RENDERBUFFER_WIDTH',
'GL_RENDERBUFFER_HEIGHT',
'GL_RENDERBUFFER_INTERNAL_FORMAT',
],
},
'ShaderParameter': {
'type': 'GLenum',
'valid': [
'GL_SHADER_TYPE',
'GL_DELETE_STATUS',
'GL_COMPILE_STATUS',
'GL_INFO_LOG_LENGTH',
'GL_SHADER_SOURCE_LENGTH',
'GL_TRANSLATED_SHADER_SOURCE_LENGTH_ANGLE',
],
},
'ShaderPrecision': {
'type': 'GLenum',
'valid': [
'GL_LOW_FLOAT',
'GL_MEDIUM_FLOAT',
'GL_HIGH_FLOAT',
'GL_LOW_INT',
'GL_MEDIUM_INT',
'GL_HIGH_INT',
],
},
'StringType': {
'type': 'GLenum',
'valid': [
'GL_VENDOR',
'GL_RENDERER',
'GL_VERSION',
'GL_SHADING_LANGUAGE_VERSION',
'GL_EXTENSIONS',
],
},
'TextureParameter': {
'type': 'GLenum',
'valid': [
'GL_TEXTURE_MAG_FILTER',
'GL_TEXTURE_MIN_FILTER',
'GL_TEXTURE_POOL_CHROMIUM',
'GL_TEXTURE_WRAP_S',
'GL_TEXTURE_WRAP_T',
],
'invalid': [
'GL_GENERATE_MIPMAP',
],
},
'TexturePool': {
'type': 'GLenum',
'valid': [
'GL_TEXTURE_POOL_MANAGED_CHROMIUM',
'GL_TEXTURE_POOL_UNMANAGED_CHROMIUM',
],
},
'TextureWrapMode': {
'type': 'GLenum',
'valid': [
'GL_CLAMP_TO_EDGE',
'GL_MIRRORED_REPEAT',
'GL_REPEAT',
],
},
'TextureMinFilterMode': {
'type': 'GLenum',
'valid': [
'GL_NEAREST',
'GL_LINEAR',
'GL_NEAREST_MIPMAP_NEAREST',
'GL_LINEAR_MIPMAP_NEAREST',
'GL_NEAREST_MIPMAP_LINEAR',
'GL_LINEAR_MIPMAP_LINEAR',
],
},
'TextureMagFilterMode': {
'type': 'GLenum',
'valid': [
'GL_NEAREST',
'GL_LINEAR',
],
},
'TextureUsage': {
'type': 'GLenum',
'valid': [
'GL_NONE',
'GL_FRAMEBUFFER_ATTACHMENT_ANGLE',
],
},
'VertexAttribute': {
'type': 'GLenum',
'valid': [
# some enum that the decoder actually passes through to GL needs
# to be the first listed here since it's used in unit tests.
'GL_VERTEX_ATTRIB_ARRAY_NORMALIZED',
'GL_VERTEX_ATTRIB_ARRAY_BUFFER_BINDING',
'GL_VERTEX_ATTRIB_ARRAY_ENABLED',
'GL_VERTEX_ATTRIB_ARRAY_SIZE',
'GL_VERTEX_ATTRIB_ARRAY_STRIDE',
'GL_VERTEX_ATTRIB_ARRAY_TYPE',
'GL_CURRENT_VERTEX_ATTRIB',
],
},
'VertexPointer': {
'type': 'GLenum',
'valid': [
'GL_VERTEX_ATTRIB_ARRAY_POINTER',
],
},
'HintTarget': {
'type': 'GLenum',
'valid': [
'GL_GENERATE_MIPMAP_HINT',
],
'invalid': [
'GL_PERSPECTIVE_CORRECTION_HINT',
],
},
'HintMode': {
'type': 'GLenum',
'valid': [
'GL_FASTEST',
'GL_NICEST',
'GL_DONT_CARE',
],
},
'PixelStore': {
'type': 'GLenum',
'valid': [
'GL_PACK_ALIGNMENT',
'GL_UNPACK_ALIGNMENT',
'GL_UNPACK_FLIP_Y_CHROMIUM',
'GL_UNPACK_PREMULTIPLY_ALPHA_CHROMIUM',
'GL_UNPACK_UNPREMULTIPLY_ALPHA_CHROMIUM',
],
'invalid': [
'GL_PACK_SWAP_BYTES',
'GL_UNPACK_SWAP_BYTES',
],
},
'PixelStoreAlignment': {
'type': 'GLint',
'valid': [
'1',
'2',
'4',
'8',
],
'invalid': [
'3',
'9',
],
},
'ReadPixelFormat': {
'type': 'GLenum',
'valid': [
'GL_ALPHA',
'GL_RGB',
'GL_RGBA',
],
},
'PixelType': {
'type': 'GLenum',
'valid': [
'GL_UNSIGNED_BYTE',
'GL_UNSIGNED_SHORT_5_6_5',
'GL_UNSIGNED_SHORT_4_4_4_4',
'GL_UNSIGNED_SHORT_5_5_5_1',
],
'invalid': [
'GL_SHORT',
'GL_INT',
],
},
'ReadPixelType': {
'type': 'GLenum',
'valid': [
'GL_UNSIGNED_BYTE',
'GL_UNSIGNED_SHORT_5_6_5',
'GL_UNSIGNED_SHORT_4_4_4_4',
'GL_UNSIGNED_SHORT_5_5_5_1',
],
'invalid': [
'GL_SHORT',
'GL_INT',
],
},
'RenderBufferFormat': {
'type': 'GLenum',
'valid': [
'GL_RGBA4',
'GL_RGB565',
'GL_RGB5_A1',
'GL_DEPTH_COMPONENT16',
'GL_STENCIL_INDEX8',
],
},
'ShaderBinaryFormat': {
'type': 'GLenum',
'valid': [
],
},
'StencilOp': {
'type': 'GLenum',
'valid': [
'GL_KEEP',
'GL_ZERO',
'GL_REPLACE',
'GL_INCR',
'GL_INCR_WRAP',
'GL_DECR',
'GL_DECR_WRAP',
'GL_INVERT',
],
},
'TextureFormat': {
'type': 'GLenum',
'valid': [
'GL_ALPHA',
'GL_LUMINANCE',
'GL_LUMINANCE_ALPHA',
'GL_RGB',
'GL_RGBA',
],
'invalid': [
'GL_BGRA',
'GL_BGR',
],
},
'TextureInternalFormat': {
'type': 'GLenum',
'valid': [
'GL_ALPHA',
'GL_LUMINANCE',
'GL_LUMINANCE_ALPHA',
'GL_RGB',
'GL_RGBA',
],
'invalid': [
'GL_BGRA',
'GL_BGR',
],
},
'TextureInternalFormatStorage': {
'type': 'GLenum',
'valid': [
'GL_RGB565',
'GL_RGBA4',
'GL_RGB5_A1',
'GL_ALPHA8_EXT',
'GL_LUMINANCE8_EXT',
'GL_LUMINANCE8_ALPHA8_EXT',
'GL_RGB8_OES',
'GL_RGBA8_OES',
],
},
'VertexAttribType': {
'type': 'GLenum',
'valid': [
'GL_BYTE',
'GL_UNSIGNED_BYTE',
'GL_SHORT',
'GL_UNSIGNED_SHORT',
# 'GL_FIXED', // This is not available on Desktop GL.
'GL_FLOAT',
],
'invalid': [
'GL_DOUBLE',
],
},
'TextureBorder': {
'type': 'GLint',
'is_complete': True,
'valid': [
'0',
],
'invalid': [
'1',
],
},
'VertexAttribSize': {
'type': 'GLint',
'valid': [
'1',
'2',
'3',
'4',
],
'invalid': [
'0',
'5',
],
},
'ZeroOnly': {
'type': 'GLint',
'is_complete': True,
'valid': [
'0',
],
'invalid': [
'1',
],
},
'FalseOnly': {
'type': 'GLboolean',
'is_complete': True,
'valid': [
'false',
],
'invalid': [
'true',
],
},
'ResetStatus': {
'type': 'GLenum',
'valid': [
'GL_GUILTY_CONTEXT_RESET_ARB',
'GL_INNOCENT_CONTEXT_RESET_ARB',
'GL_UNKNOWN_CONTEXT_RESET_ARB',
],
},
}
# This table specifies the different pepper interfaces that are supported for
# GL commands. 'dev' is true if it's a dev interface.
_PEPPER_INTERFACES = [
{'name': '', 'dev': False},
{'name': 'InstancedArrays', 'dev': False},
{'name': 'FramebufferBlit', 'dev': False},
{'name': 'FramebufferMultisample', 'dev': False},
{'name': 'ChromiumEnableFeature', 'dev': False},
{'name': 'ChromiumMapSub', 'dev': False},
{'name': 'Query', 'dev': False},
{'name': 'DrawBuffers', 'dev': True},
]
# A function info object specifies the type and other special data for the
# command that will be generated. A base function info object is generated by
# parsing the "cmd_buffer_functions.txt", one for each function in the
# file. These function info objects can be augmented and their values can be
# overridden by adding an object to the table below.
#
# Must match function names specified in "cmd_buffer_functions.txt".
#
# cmd_comment: A comment added to the cmd format.
# type: defines which handler will be used to generate code.
# decoder_func: defines which function to call in the decoder to execute the
# corresponding GL command. If not specified the GL command will
# be called directly.
# gl_test_func: GL function that is expected to be called when testing.
# cmd_args: The arguments to use for the command. This overrides generating
# them based on the GL function arguments.
# a NonImmediate type is a type that stays a pointer even in
# and immediate version of acommand.
# gen_cmd: Whether or not this function geneates a command. Default = True.
# data_transfer_methods: Array of methods that are used for transfering the
# pointer data. Possible values: 'immediate', 'shm', 'bucket'.
# The default is 'immediate' if the command has one pointer
# argument, otherwise 'shm'. One command is generated for each
# transfer method. Affects only commands which are not of type
# 'HandWritten', 'GETn' or 'GLcharN'.
# Note: the command arguments that affect this are the final args,
# taking cmd_args override into consideration.
# impl_func: Whether or not to generate the GLES2Implementation part of this
# command.
# impl_decl: Whether or not to generate the GLES2Implementation declaration
# for this command.
# needs_size: If true a data_size field is added to the command.
# count: The number of units per element. For PUTn or PUT types.
# unit_test: If False no service side unit test will be generated.
# client_test: If False no client side unit test will be generated.
# expectation: If False the unit test will have no expected calls.
# gen_func: Name of function that generates GL resource for corresponding
# bind function.
# states: array of states that get set by this function corresponding to
# the given arguments
# state_flag: name of flag that is set to true when function is called.
# no_gl: no GL function is called.
# valid_args: A dictionary of argument indices to args to use in unit tests
# when they can not be automatically determined.
# pepper_interface: The pepper interface that is used for this extension
# pepper_name: The name of the function as exposed to pepper.
# pepper_args: A string representing the argument list (what would appear in
# C/C++ between the parentheses for the function declaration)
# that the Pepper API expects for this function. Use this only if
# the stable Pepper API differs from the GLES2 argument list.
# invalid_test: False if no invalid test needed.
# shadowed: True = the value is shadowed so no glGetXXX call will be made.
# first_element_only: For PUT types, True if only the first element of an
# array is used and we end up calling the single value
# corresponding function. eg. TexParameteriv -> TexParameteri
# extension: Function is an extension to GL and should not be exposed to
# pepper unless pepper_interface is defined.
# extension_flag: Function is an extension and should be enabled only when
# the corresponding feature info flag is enabled. Implies
# 'extension': True.
_FUNCTION_INFO = {
'ActiveTexture': {
'decoder_func': 'DoActiveTexture',
'unit_test': False,
'impl_func': False,
'client_test': False,
},
'AttachShader': {'decoder_func': 'DoAttachShader'},
'BindAttribLocation': {
'type': 'GLchar',
'data_transfer_methods': ['bucket'],
'needs_size': True,
},
'BindBuffer': {
'type': 'Bind',
'decoder_func': 'DoBindBuffer',
'gen_func': 'GenBuffersARB',
},
'BindFramebuffer': {
'type': 'Bind',
'decoder_func': 'DoBindFramebuffer',
'gl_test_func': 'glBindFramebufferEXT',
'gen_func': 'GenFramebuffersEXT',
'trace_level': 1,
},
'BindRenderbuffer': {
'type': 'Bind',
'decoder_func': 'DoBindRenderbuffer',
'gl_test_func': 'glBindRenderbufferEXT',
'gen_func': 'GenRenderbuffersEXT',
},
'BindTexture': {
'type': 'Bind',
'decoder_func': 'DoBindTexture',
'gen_func': 'GenTextures',
# TODO(gman): remove this once client side caching works.
'client_test': False,
'trace_level': 1,
},
'BlitFramebufferCHROMIUM': {
'decoder_func': 'DoBlitFramebufferCHROMIUM',
'unit_test': False,
'extension_flag': 'chromium_framebuffer_multisample',
'pepper_interface': 'FramebufferBlit',
'pepper_name': 'BlitFramebufferEXT',
'defer_reads': True,
'defer_draws': True,
'trace_level': 1,
},
'BufferData': {
'type': 'Manual',
'data_transfer_methods': ['shm'],
'client_test': False,
},
'BufferSubData': {
'type': 'Data',
'client_test': False,
'decoder_func': 'DoBufferSubData',
'data_transfer_methods': ['shm'],
},
'CheckFramebufferStatus': {
'type': 'Is',
'decoder_func': 'DoCheckFramebufferStatus',
'gl_test_func': 'glCheckFramebufferStatusEXT',
'error_value': 'GL_FRAMEBUFFER_UNSUPPORTED',
'result': ['GLenum'],
},
'Clear': {
'decoder_func': 'DoClear',
'defer_draws': True,
'trace_level': 1,
},
'ClearColor': {
'type': 'StateSet',
'state': 'ClearColor',
},
'ClearDepthf': {
'type': 'StateSet',
'state': 'ClearDepthf',
'decoder_func': 'glClearDepth',
'gl_test_func': 'glClearDepth',
'valid_args': {
'0': '0.5f'
},
},
'ColorMask': {
'type': 'StateSet',
'state': 'ColorMask',
'no_gl': True,
'expectation': False,
},
'ConsumeTextureCHROMIUM': {
'decoder_func': 'DoConsumeTextureCHROMIUM',
'impl_func': False,
'type': 'PUT',
'count': 64, # GL_MAILBOX_SIZE_CHROMIUM
'unit_test': False,
'client_test': False,
'extension': True,
'chromium': True,
'trace_level': 1,
},
'CreateAndConsumeTextureCHROMIUM': {
'decoder_func': 'DoCreateAndConsumeTextureCHROMIUM',
'impl_func': False,
'type': 'HandWritten',
'data_transfer_methods': ['immediate'],
'unit_test': False,
'client_test': False,
'extension': True,
'chromium': True,
},
'ClearStencil': {
'type': 'StateSet',
'state': 'ClearStencil',
},
'EnableFeatureCHROMIUM': {
'type': 'Custom',
'data_transfer_methods': ['shm'],
'decoder_func': 'DoEnableFeatureCHROMIUM',
'expectation': False,
'cmd_args': 'GLuint bucket_id, GLint* result',
'result': ['GLint'],
'extension': True,
'chromium': True,
'pepper_interface': 'ChromiumEnableFeature',
},
'CompileShader': {'decoder_func': 'DoCompileShader', 'unit_test': False},
'CompressedTexImage2D': {
'type': 'Manual',
'data_transfer_methods': ['bucket', 'shm'],
},
'CompressedTexSubImage2D': {
'type': 'Data',
'data_transfer_methods': ['bucket', 'shm'],
'decoder_func': 'DoCompressedTexSubImage2D',
},
'CopyTexImage2D': {
'decoder_func': 'DoCopyTexImage2D',
'unit_test': False,
'defer_reads': True,
},
'CopyTexSubImage2D': {
'decoder_func': 'DoCopyTexSubImage2D',
'defer_reads': True,
},
'CreateImageCHROMIUM': {
'type': 'Manual',
'cmd_args':
'GLsizei width, GLsizei height, GLenum internalformat, GLenum usage',
'result': ['GLuint'],
'client_test': False,
'gen_cmd': False,
'expectation': False,
'extension': True,
'chromium': True,
},
'DestroyImageCHROMIUM': {
'type': 'Manual',
'client_test': False,
'gen_cmd': False,
'extension': True,
'chromium': True,
},
'GetImageParameterivCHROMIUM': {
'type': 'Manual',
'client_test': False,
'gen_cmd': False,
'expectation': False,
'extension': True,
'chromium': True,
},
'CreateProgram': {
'type': 'Create',
'client_test': False,
},
'CreateShader': {
'type': 'Create',
'client_test': False,
},
'BlendColor': {
'type': 'StateSet',
'state': 'BlendColor',
},
'BlendEquation': {
'type': 'StateSetRGBAlpha',
'state': 'BlendEquation',
'valid_args': {
'0': 'GL_FUNC_SUBTRACT'
},
},
'BlendEquationSeparate': {
'type': 'StateSet',
'state': 'BlendEquation',
'valid_args': {
'0': 'GL_FUNC_SUBTRACT'
},
},
'BlendFunc': {
'type': 'StateSetRGBAlpha',
'state': 'BlendFunc',
},
'BlendFuncSeparate': {
'type': 'StateSet',
'state': 'BlendFunc',
},
'SampleCoverage': {'decoder_func': 'DoSampleCoverage'},
'StencilFunc': {
'type': 'StateSetFrontBack',
'state': 'StencilFunc',
},
'StencilFuncSeparate': {
'type': 'StateSetFrontBackSeparate',
'state': 'StencilFunc',
},
'StencilOp': {
'type': 'StateSetFrontBack',
'state': 'StencilOp',
'valid_args': {
'1': 'GL_INCR'
},
},
'StencilOpSeparate': {
'type': 'StateSetFrontBackSeparate',
'state': 'StencilOp',
'valid_args': {
'1': 'GL_INCR'
},
},
'Hint': {
'type': 'StateSetNamedParameter',
'state': 'Hint',
},
'CullFace': {'type': 'StateSet', 'state': 'CullFace'},
'FrontFace': {'type': 'StateSet', 'state': 'FrontFace'},
'DepthFunc': {'type': 'StateSet', 'state': 'DepthFunc'},
'LineWidth': {
'type': 'StateSet',
'state': 'LineWidth',
'valid_args': {
'0': '0.5f'
},
},
'PolygonOffset': {
'type': 'StateSet',
'state': 'PolygonOffset',
},
'DeleteBuffers': {
'type': 'DELn',
'gl_test_func': 'glDeleteBuffersARB',
'resource_type': 'Buffer',
'resource_types': 'Buffers',
},
'DeleteFramebuffers': {
'type': 'DELn',
'gl_test_func': 'glDeleteFramebuffersEXT',
'resource_type': 'Framebuffer',
'resource_types': 'Framebuffers',
},
'DeleteProgram': {'type': 'Delete', 'decoder_func': 'DoDeleteProgram'},
'DeleteRenderbuffers': {
'type': 'DELn',
'gl_test_func': 'glDeleteRenderbuffersEXT',
'resource_type': 'Renderbuffer',
'resource_types': 'Renderbuffers',
},
'DeleteShader': {'type': 'Delete', 'decoder_func': 'DoDeleteShader'},
'DeleteSharedIdsCHROMIUM': {
'type': 'Custom',
'decoder_func': 'DoDeleteSharedIdsCHROMIUM',
'impl_func': False,
'expectation': False,
'data_transfer_methods': ['shm'],
'extension': True,
'chromium': True,
},
'DeleteTextures': {
'type': 'DELn',
'resource_type': 'Texture',
'resource_types': 'Textures',
},
'DepthRangef': {
'decoder_func': 'DoDepthRangef',
'gl_test_func': 'glDepthRange',
},
'DepthMask': {
'type': 'StateSet',
'state': 'DepthMask',
'no_gl': True,
'expectation': False,
},
'DetachShader': {'decoder_func': 'DoDetachShader'},
'Disable': {
'decoder_func': 'DoDisable',
'impl_func': False,
'client_test': False,
},
'DisableVertexAttribArray': {
'decoder_func': 'DoDisableVertexAttribArray',
'impl_decl': False,
},
'DrawArrays': {
'type': 'Manual',
'cmd_args': 'GLenumDrawMode mode, GLint first, GLsizei count',
'defer_draws': True,
'trace_level': 2,
},
'DrawElements': {
'type': 'Manual',
'cmd_args': 'GLenumDrawMode mode, GLsizei count, '
'GLenumIndexType type, GLuint index_offset',
'client_test': False,
'defer_draws': True,
'trace_level': 2,
},
'Enable': {
'decoder_func': 'DoEnable',
'impl_func': False,
'client_test': False,
},
'EnableVertexAttribArray': {
'decoder_func': 'DoEnableVertexAttribArray',
'impl_decl': False,
},
'Finish': {
'impl_func': False,
'client_test': False,
'decoder_func': 'DoFinish',
'defer_reads': True,
},
'Flush': {
'impl_func': False,
'decoder_func': 'DoFlush',
},
'FramebufferRenderbuffer': {
'decoder_func': 'DoFramebufferRenderbuffer',
'gl_test_func': 'glFramebufferRenderbufferEXT',
},
'FramebufferTexture2D': {
'decoder_func': 'DoFramebufferTexture2D',
'gl_test_func': 'glFramebufferTexture2DEXT',
'trace_level': 1,
},
'FramebufferTexture2DMultisampleEXT': {
'decoder_func': 'DoFramebufferTexture2DMultisample',
'gl_test_func': 'glFramebufferTexture2DMultisampleEXT',
'expectation': False,
'unit_test': False,
'extension_flag': 'multisampled_render_to_texture',
'trace_level': 1,
},
'GenerateMipmap': {
'decoder_func': 'DoGenerateMipmap',
'gl_test_func': 'glGenerateMipmapEXT',
},
'GenBuffers': {
'type': 'GENn',
'gl_test_func': 'glGenBuffersARB',
'resource_type': 'Buffer',
'resource_types': 'Buffers',
},
'GenMailboxCHROMIUM': {
'type': 'HandWritten',
'impl_func': False,
'extension': True,
'chromium': True,
},
'GenFramebuffers': {
'type': 'GENn',
'gl_test_func': 'glGenFramebuffersEXT',
'resource_type': 'Framebuffer',
'resource_types': 'Framebuffers',
},
'GenRenderbuffers': {
'type': 'GENn', 'gl_test_func': 'glGenRenderbuffersEXT',
'resource_type': 'Renderbuffer',
'resource_types': 'Renderbuffers',
},
'GenTextures': {
'type': 'GENn',
'gl_test_func': 'glGenTextures',
'resource_type': 'Texture',
'resource_types': 'Textures',
},
'GenSharedIdsCHROMIUM': {
'type': 'Custom',
'decoder_func': 'DoGenSharedIdsCHROMIUM',
'impl_func': False,
'expectation': False,
'data_transfer_methods': ['shm'],
'extension': True,
'chromium': True,
},
'GetActiveAttrib': {
'type': 'Custom',
'data_transfer_methods': ['shm'],
'cmd_args':
'GLidProgram program, GLuint index, uint32_t name_bucket_id, '
'void* result',
'result': [
'int32_t success',
'int32_t size',
'uint32_t type',
],
},
'GetActiveUniform': {
'type': 'Custom',
'data_transfer_methods': ['shm'],
'cmd_args':
'GLidProgram program, GLuint index, uint32_t name_bucket_id, '
'void* result',
'result': [
'int32_t success',
'int32_t size',
'uint32_t type',
],
},
'GetAttachedShaders': {
'type': 'Custom',
'data_transfer_methods': ['shm'],
'cmd_args': 'GLidProgram program, void* result, uint32_t result_size',
'result': ['SizedResult<GLuint>'],
},
'GetAttribLocation': {
'type': 'HandWritten',
'needs_size': True,
'cmd_args':
'GLidProgram program, const char* name, NonImmediate GLint* location',
'result': ['GLint'],
'error_return': -1, # http://www.opengl.org/sdk/docs/man/xhtml/glGetAttribLocation.xml
},
'GetBooleanv': {
'type': 'GETn',
'result': ['SizedResult<GLboolean>'],
'decoder_func': 'DoGetBooleanv',
'gl_test_func': 'glGetBooleanv',
},
'GetBufferParameteriv': {
'type': 'GETn',
'result': ['SizedResult<GLint>'],
'decoder_func': 'DoGetBufferParameteriv',
'expectation': False,
'shadowed': True,
},
'GetError': {
'type': 'Is',
'decoder_func': 'GetErrorState()->GetGLError',
'impl_func': False,
'result': ['GLenum'],
'client_test': False,
},
'GetFloatv': {
'type': 'GETn',
'result': ['SizedResult<GLfloat>'],
'decoder_func': 'DoGetFloatv',
'gl_test_func': 'glGetFloatv',
},
'GetFramebufferAttachmentParameteriv': {
'type': 'GETn',
'decoder_func': 'DoGetFramebufferAttachmentParameteriv',
'gl_test_func': 'glGetFramebufferAttachmentParameterivEXT',
'result': ['SizedResult<GLint>'],
},
'GetIntegerv': {
'type': 'GETn',
'result': ['SizedResult<GLint>'],
'decoder_func': 'DoGetIntegerv',
'client_test': False,
},
'GetMaxValueInBufferCHROMIUM': {
'type': 'Is',
'decoder_func': 'DoGetMaxValueInBufferCHROMIUM',
'result': ['GLuint'],
'unit_test': False,
'client_test': False,
'extension': True,
'chromium': True,
'impl_func': False,
},
'GetMultipleIntegervCHROMIUM': {
'type': 'Custom',
'data_transfer_methods': ['shm'],
'expectation': False,
'extension': True,
'chromium': True,
'client_test': False,
},
'GetProgramiv': {
'type': 'GETn',
'decoder_func': 'DoGetProgramiv',
'result': ['SizedResult<GLint>'],
'expectation': False,
},
'GetProgramInfoCHROMIUM': {
'type': 'Custom',
'expectation': False,
'impl_func': False,
'extension': True,
'chromium': True,
'client_test': False,
'cmd_args': 'GLidProgram program, uint32_t bucket_id',
'result': [
'uint32_t link_status',
'uint32_t num_attribs',
'uint32_t num_uniforms',
],
},
'GetProgramInfoLog': {
'type': 'STRn',
'expectation': False,
},
'GetRenderbufferParameteriv': {
'type': 'GETn',
'decoder_func': 'DoGetRenderbufferParameteriv',
'gl_test_func': 'glGetRenderbufferParameterivEXT',
'result': ['SizedResult<GLint>'],
},
'GetShaderiv': {
'type': 'GETn',
'decoder_func': 'DoGetShaderiv',
'result': ['SizedResult<GLint>'],
},
'GetShaderInfoLog': {
'type': 'STRn',
'get_len_func': 'glGetShaderiv',
'get_len_enum': 'GL_INFO_LOG_LENGTH',
'unit_test': False,
},
'GetShaderPrecisionFormat': {
'type': 'Custom',
'data_transfer_methods': ['shm'],
'cmd_args':
'GLenumShaderType shadertype, GLenumShaderPrecision precisiontype, '
'void* result',
'result': [
'int32_t success',
'int32_t min_range',
'int32_t max_range',
'int32_t precision',
],
},
'GetShaderSource': {
'type': 'STRn',
'get_len_func': 'DoGetShaderiv',
'get_len_enum': 'GL_SHADER_SOURCE_LENGTH',
'unit_test': False,
'client_test': False,
},
'GetString': {
'type': 'Custom',
'client_test': False,
'cmd_args': 'GLenumStringType name, uint32_t bucket_id',
},
'GetTexParameterfv': {
'type': 'GETn',
'decoder_func': 'DoGetTexParameterfv',
'result': ['SizedResult<GLfloat>']
},
'GetTexParameteriv': {
'type': 'GETn',
'decoder_func': 'DoGetTexParameteriv',
'result': ['SizedResult<GLint>']
},
'GetTranslatedShaderSourceANGLE': {
'type': 'STRn',
'get_len_func': 'DoGetShaderiv',
'get_len_enum': 'GL_TRANSLATED_SHADER_SOURCE_LENGTH_ANGLE',
'unit_test': False,
'extension': True,
},
'GetUniformfv': {
'type': 'Custom',
'data_transfer_methods': ['shm'],
'result': ['SizedResult<GLfloat>'],
},
'GetUniformiv': {
'type': 'Custom',
'data_transfer_methods': ['shm'],
'result': ['SizedResult<GLint>'],
},
'GetUniformLocation': {
'type': 'HandWritten',
'needs_size': True,
'cmd_args':
'GLidProgram program, const char* name, NonImmediate GLint* location',
'result': ['GLint'],
'error_return': -1, # http://www.opengl.org/sdk/docs/man/xhtml/glGetUniformLocation.xml
},
'GetVertexAttribfv': {
'type': 'GETn',
'result': ['SizedResult<GLfloat>'],
'impl_decl': False,
'decoder_func': 'DoGetVertexAttribfv',
'expectation': False,
'client_test': False,
},
'GetVertexAttribiv': {
'type': 'GETn',
'result': ['SizedResult<GLint>'],
'impl_decl': False,
'decoder_func': 'DoGetVertexAttribiv',
'expectation': False,
'client_test': False,
},
'GetVertexAttribPointerv': {
'type': 'Custom',
'data_transfer_methods': ['shm'],
'result': ['SizedResult<GLuint>'],
'client_test': False,
},
'IsBuffer': {
'type': 'Is',
'decoder_func': 'DoIsBuffer',
'expectation': False,
},
'IsEnabled': {
'type': 'Is',
'decoder_func': 'DoIsEnabled',
'impl_func': False,
'expectation': False,
},
'IsFramebuffer': {
'type': 'Is',
'decoder_func': 'DoIsFramebuffer',
'expectation': False,
},
'IsProgram': {
'type': 'Is',
'decoder_func': 'DoIsProgram',
'expectation': False,
},
'IsRenderbuffer': {
'type': 'Is',
'decoder_func': 'DoIsRenderbuffer',
'expectation': False,
},
'IsShader': {
'type': 'Is',
'decoder_func': 'DoIsShader',
'expectation': False,
},
'IsTexture': {
'type': 'Is',
'decoder_func': 'DoIsTexture',
'expectation': False,
},
'LinkProgram': {
'decoder_func': 'DoLinkProgram',
'impl_func': False,
},
'MapBufferCHROMIUM': {
'gen_cmd': False,
'extension': True,
'chromium': True,
'client_test': False,
},
'MapBufferSubDataCHROMIUM': {
'gen_cmd': False,
'extension': True,
'chromium': True,
'client_test': False,
'pepper_interface': 'ChromiumMapSub',
},
'MapImageCHROMIUM': {
'gen_cmd': False,
'extension': True,
'chromium': True,
'client_test': False,
},
'MapTexSubImage2DCHROMIUM': {
'gen_cmd': False,
'extension': True,
'chromium': True,
'client_test': False,
'pepper_interface': 'ChromiumMapSub',
},
'PixelStorei': {'type': 'Manual'},
'PostSubBufferCHROMIUM': {
'type': 'Custom',
'impl_func': False,
'unit_test': False,
'client_test': False,
'extension': True,
'chromium': True,
},
'ProduceTextureCHROMIUM': {
'decoder_func': 'DoProduceTextureCHROMIUM',
'impl_func': False,
'type': 'PUT',
'count': 64, # GL_MAILBOX_SIZE_CHROMIUM
'unit_test': False,
'client_test': False,
'extension': True,
'chromium': True,
'trace_level': 1,
},
'ProduceTextureDirectCHROMIUM': {
'decoder_func': 'DoProduceTextureDirectCHROMIUM',
'impl_func': False,
'type': 'PUT',
'count': 64, # GL_MAILBOX_SIZE_CHROMIUM
'unit_test': False,
'client_test': False,
'extension': True,
'chromium': True,
'trace_level': 1,
},
'RenderbufferStorage': {
'decoder_func': 'DoRenderbufferStorage',
'gl_test_func': 'glRenderbufferStorageEXT',
'expectation': False,
},
'RenderbufferStorageMultisampleCHROMIUM': {
'cmd_comment':
'// GL_CHROMIUM_framebuffer_multisample\n',
'decoder_func': 'DoRenderbufferStorageMultisampleCHROMIUM',
'gl_test_func': 'glRenderbufferStorageMultisampleCHROMIUM',
'expectation': False,
'unit_test': False,
'extension_flag': 'chromium_framebuffer_multisample',
'pepper_interface': 'FramebufferMultisample',
'pepper_name': 'RenderbufferStorageMultisampleEXT',
},
'RenderbufferStorageMultisampleEXT': {
'cmd_comment':
'// GL_EXT_multisampled_render_to_texture\n',
'decoder_func': 'DoRenderbufferStorageMultisampleEXT',
'gl_test_func': 'glRenderbufferStorageMultisampleEXT',
'expectation': False,
'unit_test': False,
'extension_flag': 'multisampled_render_to_texture',
},
'ReadPixels': {
'cmd_comment':
'// ReadPixels has the result separated from the pixel buffer so that\n'
'// it is easier to specify the result going to some specific place\n'
'// that exactly fits the rectangle of pixels.\n',
'type': 'Custom',
'data_transfer_methods': ['shm'],
'impl_func': False,
'client_test': False,
'cmd_args':
'GLint x, GLint y, GLsizei width, GLsizei height, '
'GLenumReadPixelFormat format, GLenumReadPixelType type, '
'uint32_t pixels_shm_id, uint32_t pixels_shm_offset, '
'uint32_t result_shm_id, uint32_t result_shm_offset, '
'GLboolean async',
'result': ['uint32_t'],
'defer_reads': True,
},
'RegisterSharedIdsCHROMIUM': {
'type': 'Custom',
'decoder_func': 'DoRegisterSharedIdsCHROMIUM',
'impl_func': False,
'expectation': False,
'data_transfer_methods': ['shm'],
'extension': True,
'chromium': True,
},
'ReleaseShaderCompiler': {
'decoder_func': 'DoReleaseShaderCompiler',
'unit_test': False,
},
'ShaderBinary': {
'type': 'Custom',
'client_test': False,
},
'ShaderSource': {
'type': 'Manual',
'data_transfer_methods': ['bucket'],
'needs_size': True,
'client_test': False,
'cmd_args':
'GLuint shader, const char* data',
'pepper_args':
'GLuint shader, GLsizei count, const char** str, const GLint* length',
},
'StencilMask': {
'type': 'StateSetFrontBack',
'state': 'StencilMask',
'no_gl': True,
'expectation': False,
},
'StencilMaskSeparate': {
'type': 'StateSetFrontBackSeparate',
'state': 'StencilMask',
'no_gl': True,
'expectation': False,
},
'SwapBuffers': {
'impl_func': False,
'decoder_func': 'DoSwapBuffers',
'unit_test': False,
'client_test': False,
'extension': True,
'trace_level': 1,
},
'TexImage2D': {
'type': 'Manual',
'data_transfer_methods': ['shm'],
'client_test': False,
},
'TexParameterf': {
'decoder_func': 'DoTexParameterf',
'valid_args': {
'2': 'GL_NEAREST'
},
},
'TexParameteri': {
'decoder_func': 'DoTexParameteri',
'valid_args': {
'2': 'GL_NEAREST'
},
},
'TexParameterfv': {
'type': 'PUT',
'data_value': 'GL_NEAREST',
'count': 1,
'decoder_func': 'DoTexParameterfv',
'gl_test_func': 'glTexParameterf',
'first_element_only': True,
},
'TexParameteriv': {
'type': 'PUT',
'data_value': 'GL_NEAREST',
'count': 1,
'decoder_func': 'DoTexParameteriv',
'gl_test_func': 'glTexParameteri',
'first_element_only': True,
},
'TexSubImage2D': {
'type': 'Manual',
'data_transfer_methods': ['shm'],
'client_test': False,
'cmd_args': 'GLenumTextureTarget target, GLint level, '
'GLint xoffset, GLint yoffset, '
'GLsizei width, GLsizei height, '
'GLenumTextureFormat format, GLenumPixelType type, '
'const void* pixels, GLboolean internal'
},
'Uniform1f': {'type': 'PUTXn', 'count': 1},
'Uniform1fv': {
'type': 'PUTn',
'count': 1,
'decoder_func': 'DoUniform1fv',
},
'Uniform1i': {'decoder_func': 'DoUniform1i', 'unit_test': False},
'Uniform1iv': {
'type': 'PUTn',
'count': 1,
'decoder_func': 'DoUniform1iv',
'unit_test': False,
},
'Uniform2i': {'type': 'PUTXn', 'count': 2},
'Uniform2f': {'type': 'PUTXn', 'count': 2},
'Uniform2fv': {
'type': 'PUTn',
'count': 2,
'decoder_func': 'DoUniform2fv',
},
'Uniform2iv': {
'type': 'PUTn',
'count': 2,
'decoder_func': 'DoUniform2iv',
},
'Uniform3i': {'type': 'PUTXn', 'count': 3},
'Uniform3f': {'type': 'PUTXn', 'count': 3},
'Uniform3fv': {
'type': 'PUTn',
'count': 3,
'decoder_func': 'DoUniform3fv',
},
'Uniform3iv': {
'type': 'PUTn',
'count': 3,
'decoder_func': 'DoUniform3iv',
},
'Uniform4i': {'type': 'PUTXn', 'count': 4},
'Uniform4f': {'type': 'PUTXn', 'count': 4},
'Uniform4fv': {
'type': 'PUTn',
'count': 4,
'decoder_func': 'DoUniform4fv',
},
'Uniform4iv': {
'type': 'PUTn',
'count': 4,
'decoder_func': 'DoUniform4iv',
},
'UniformMatrix2fv': {
'type': 'PUTn',
'count': 4,
'decoder_func': 'DoUniformMatrix2fv',
},
'UniformMatrix3fv': {
'type': 'PUTn',
'count': 9,
'decoder_func': 'DoUniformMatrix3fv',
},
'UniformMatrix4fv': {
'type': 'PUTn',
'count': 16,
'decoder_func': 'DoUniformMatrix4fv',
},
'UnmapBufferCHROMIUM': {
'gen_cmd': False,
'extension': True,
'chromium': True,
'client_test': False,
},
'UnmapBufferSubDataCHROMIUM': {
'gen_cmd': False,
'extension': True,
'chromium': True,
'client_test': False,
'pepper_interface': 'ChromiumMapSub',
},
'UnmapImageCHROMIUM': {
'gen_cmd': False,
'extension': True,
'chromium': True,
'client_test': False,
},
'UnmapTexSubImage2DCHROMIUM': {
'gen_cmd': False,
'extension': True,
'chromium': True,
'client_test': False,
'pepper_interface': 'ChromiumMapSub',
},
'UseProgram': {
'type': 'Bind',
'decoder_func': 'DoUseProgram',
},
'ValidateProgram': {'decoder_func': 'DoValidateProgram'},
'VertexAttrib1f': {'decoder_func': 'DoVertexAttrib1f'},
'VertexAttrib1fv': {
'type': 'PUT',
'count': 1,
'decoder_func': 'DoVertexAttrib1fv',
},
'VertexAttrib2f': {'decoder_func': 'DoVertexAttrib2f'},
'VertexAttrib2fv': {
'type': 'PUT',
'count': 2,
'decoder_func': 'DoVertexAttrib2fv',
},
'VertexAttrib3f': {'decoder_func': 'DoVertexAttrib3f'},
'VertexAttrib3fv': {
'type': 'PUT',
'count': 3,
'decoder_func': 'DoVertexAttrib3fv',
},
'VertexAttrib4f': {'decoder_func': 'DoVertexAttrib4f'},
'VertexAttrib4fv': {
'type': 'PUT',
'count': 4,
'decoder_func': 'DoVertexAttrib4fv',
},
'VertexAttribPointer': {
'type': 'Manual',
'cmd_args': 'GLuint indx, GLintVertexAttribSize size, '
'GLenumVertexAttribType type, GLboolean normalized, '
'GLsizei stride, GLuint offset',
'client_test': False,
},
'Scissor': {
'type': 'StateSet',
'state': 'Scissor',
},
'Viewport': {
'decoder_func': 'DoViewport',
},
'ResizeCHROMIUM': {
'type': 'Custom',
'impl_func': False,
'unit_test': False,
'extension': True,
'chromium': True,
},
'GetRequestableExtensionsCHROMIUM': {
'type': 'Custom',
'impl_func': False,
'cmd_args': 'uint32_t bucket_id',
'extension': True,
'chromium': True,
},
'RequestExtensionCHROMIUM': {
'type': 'Custom',
'impl_func': False,
'client_test': False,
'cmd_args': 'uint32_t bucket_id',
'extension': True,
'chromium': True,
},
'RateLimitOffscreenContextCHROMIUM': {
'gen_cmd': False,
'extension': True,
'chromium': True,
'client_test': False,
},
'CreateStreamTextureCHROMIUM': {
'type': 'HandWritten',
'impl_func': False,
'gen_cmd': False,
'extension': True,
'chromium': True,
},
'TexImageIOSurface2DCHROMIUM': {
'decoder_func': 'DoTexImageIOSurface2DCHROMIUM',
'unit_test': False,
'extension': True,
'chromium': True,
},
'CopyTextureCHROMIUM': {
'decoder_func': 'DoCopyTextureCHROMIUM',
'unit_test': False,
'extension': True,
'chromium': True,
},
'TexStorage2DEXT': {
'unit_test': False,
'extension': True,
'decoder_func': 'DoTexStorage2DEXT',
},
'DrawArraysInstancedANGLE': {
'type': 'Manual',
'cmd_args': 'GLenumDrawMode mode, GLint first, GLsizei count, '
'GLsizei primcount',
'extension': True,
'unit_test': False,
'pepper_interface': 'InstancedArrays',
'defer_draws': True,
},
'DrawBuffersEXT': {
'type': 'PUTn',
'decoder_func': 'DoDrawBuffersEXT',
'count': 1,
'client_test': False,
'unit_test': False,
# could use 'extension_flag': 'ext_draw_buffers' but currently expected to
# work without.
'extension': True,
'pepper_interface': 'DrawBuffers',
},
'DrawElementsInstancedANGLE': {
'type': 'Manual',
'cmd_args': 'GLenumDrawMode mode, GLsizei count, '
'GLenumIndexType type, GLuint index_offset, GLsizei primcount',
'extension': True,
'unit_test': False,
'client_test': False,
'pepper_interface': 'InstancedArrays',
'defer_draws': True,
},
'VertexAttribDivisorANGLE': {
'type': 'Manual',
'cmd_args': 'GLuint index, GLuint divisor',
'extension': True,
'unit_test': False,
'pepper_interface': 'InstancedArrays',
},
'GenQueriesEXT': {
'type': 'GENn',
'gl_test_func': 'glGenQueriesARB',
'resource_type': 'Query',
'resource_types': 'Queries',
'unit_test': False,
'pepper_interface': 'Query',
},
'DeleteQueriesEXT': {
'type': 'DELn',
'gl_test_func': 'glDeleteQueriesARB',
'resource_type': 'Query',
'resource_types': 'Queries',
'unit_test': False,
'pepper_interface': 'Query',
},
'IsQueryEXT': {
'gen_cmd': False,
'client_test': False,
'pepper_interface': 'Query',
},
'BeginQueryEXT': {
'type': 'Manual',
'cmd_args': 'GLenumQueryTarget target, GLidQuery id, void* sync_data',
'data_transfer_methods': ['shm'],
'gl_test_func': 'glBeginQuery',
'pepper_interface': 'Query',
},
'EndQueryEXT': {
'type': 'Manual',
'cmd_args': 'GLenumQueryTarget target, GLuint submit_count',
'gl_test_func': 'glEndnQuery',
'client_test': False,
'pepper_interface': 'Query',
},
'GetQueryivEXT': {
'gen_cmd': False,
'client_test': False,
'gl_test_func': 'glGetQueryiv',
'pepper_interface': 'Query',
},
'GetQueryObjectuivEXT': {
'gen_cmd': False,
'client_test': False,
'gl_test_func': 'glGetQueryObjectuiv',
'pepper_interface': 'Query',
},
'BindUniformLocationCHROMIUM': {
'type': 'GLchar',
'extension': True,
'data_transfer_methods': ['bucket'],
'needs_size': True,
'gl_test_func': 'DoBindUniformLocationCHROMIUM',
},
'InsertEventMarkerEXT': {
'type': 'GLcharN',
'decoder_func': 'DoInsertEventMarkerEXT',
'expectation': False,
'extension': True,
},
'PushGroupMarkerEXT': {
'type': 'GLcharN',
'decoder_func': 'DoPushGroupMarkerEXT',
'expectation': False,
'extension': True,
},
'PopGroupMarkerEXT': {
'decoder_func': 'DoPopGroupMarkerEXT',
'expectation': False,
'extension': True,
'impl_func': False,
},
'GenVertexArraysOES': {
'type': 'GENn',
'extension': True,
'gl_test_func': 'glGenVertexArraysOES',
'resource_type': 'VertexArray',
'resource_types': 'VertexArrays',
'unit_test': False,
},
'BindVertexArrayOES': {
'type': 'Bind',
'extension': True,
'gl_test_func': 'glBindVertexArrayOES',
'decoder_func': 'DoBindVertexArrayOES',
'gen_func': 'GenVertexArraysOES',
'unit_test': False,
'client_test': False,
},
'DeleteVertexArraysOES': {
'type': 'DELn',
'extension': True,
'gl_test_func': 'glDeleteVertexArraysOES',
'resource_type': 'VertexArray',
'resource_types': 'VertexArrays',
'unit_test': False,
},
'IsVertexArrayOES': {
'type': 'Is',
'extension': True,
'gl_test_func': 'glIsVertexArrayOES',
'decoder_func': 'DoIsVertexArrayOES',
'expectation': False,
'unit_test': False,
},
'BindTexImage2DCHROMIUM': {
'decoder_func': 'DoBindTexImage2DCHROMIUM',
'unit_test': False,
'extension': True,
'chromium': True,
},
'ReleaseTexImage2DCHROMIUM': {
'decoder_func': 'DoReleaseTexImage2DCHROMIUM',
'unit_test': False,
'extension': True,
'chromium': True,
},
'ShallowFinishCHROMIUM': {
'impl_func': False,
'gen_cmd': False,
'extension': True,
'chromium': True,
'client_test': False,
},
'ShallowFlushCHROMIUM': {
'impl_func': False,
'gen_cmd': False,
'extension': True,
'chromium': True,
'client_test': False,
},
'TraceBeginCHROMIUM': {
'type': 'Custom',
'impl_func': False,
'client_test': False,
'cmd_args': 'GLuint bucket_id',
'extension': True,
'chromium': True,
},
'TraceEndCHROMIUM': {
'impl_func': False,
'client_test': False,
'decoder_func': 'DoTraceEndCHROMIUM',
'unit_test': False,
'extension': True,
'chromium': True,
},
'AsyncTexImage2DCHROMIUM': {
'type': 'Manual',
'data_transfer_methods': ['shm'],
'client_test': False,
'cmd_args': 'GLenumTextureTarget target, GLint level, '
'GLintTextureInternalFormat internalformat, '
'GLsizei width, GLsizei height, '
'GLintTextureBorder border, '
'GLenumTextureFormat format, GLenumPixelType type, '
'const void* pixels, '
'uint32_t async_upload_token, '
'void* sync_data',
'extension': True,
'chromium': True,
},
'AsyncTexSubImage2DCHROMIUM': {
'type': 'Manual',
'data_transfer_methods': ['shm'],
'client_test': False,
'cmd_args': 'GLenumTextureTarget target, GLint level, '
'GLint xoffset, GLint yoffset, '
'GLsizei width, GLsizei height, '
'GLenumTextureFormat format, GLenumPixelType type, '
'const void* data, '
'uint32_t async_upload_token, '
'void* sync_data',
'extension': True,
'chromium': True,
},
'WaitAsyncTexImage2DCHROMIUM': {
'type': 'Manual',
'client_test': False,
'extension': True,
'chromium': True,
},
'WaitAllAsyncTexImage2DCHROMIUM': {
'type': 'Manual',
'client_test': False,
'extension': True,
'chromium': True,
},
'DiscardFramebufferEXT': {
'type': 'PUTn',
'count': 1,
'cmd_args': 'GLenum target, GLsizei count, '
'const GLenum* attachments',
'decoder_func': 'DoDiscardFramebufferEXT',
'unit_test': False,
'client_test': False,
'extension_flag': 'ext_discard_framebuffer',
},
'LoseContextCHROMIUM': {
'decoder_func': 'DoLoseContextCHROMIUM',
'unit_test': False,
'extension': True,
'chromium': True,
},
'InsertSyncPointCHROMIUM': {
'type': 'HandWritten',
'impl_func': False,
'extension': True,
'chromium': True,
},
'WaitSyncPointCHROMIUM': {
'type': 'Custom',
'impl_func': True,
'extension': True,
'chromium': True,
'trace_level': 1,
},
'DiscardBackbufferCHROMIUM': {
'type': 'Custom',
'impl_func': True,
'extension': True,
'chromium': True,
},
'ScheduleOverlayPlaneCHROMIUM': {
'type': 'Custom',
'impl_func': True,
'unit_test': False,
'client_test': False,
'extension': True,
'chromium': True,
},
}
def Grouper(n, iterable, fillvalue=None):
"""Collect data into fixed-length chunks or blocks"""
args = [iter(iterable)] * n
return itertools.izip_longest(fillvalue=fillvalue, *args)
def SplitWords(input_string):
"""Transforms a input_string into a list of lower-case components.
Args:
input_string: the input string.
Returns:
a list of lower-case words.
"""
if input_string.find('_') > -1:
# 'some_TEXT_' -> 'some text'
return input_string.replace('_', ' ').strip().lower().split()
else:
if re.search('[A-Z]', input_string) and re.search('[a-z]', input_string):
# mixed case.
# look for capitalization to cut input_strings
# 'SomeText' -> 'Some Text'
input_string = re.sub('([A-Z])', r' \1', input_string).strip()
# 'Vector3' -> 'Vector 3'
input_string = re.sub('([^0-9])([0-9])', r'\1 \2', input_string)
return input_string.lower().split()
def Lower(words):
"""Makes a lower-case identifier from words.
Args:
words: a list of lower-case words.
Returns:
the lower-case identifier.
"""
return '_'.join(words)
def ToUnderscore(input_string):
"""converts CamelCase to camel_case."""
words = SplitWords(input_string)
return Lower(words)
def CachedStateName(item):
if item.get('cached', False):
return 'cached_' + item['name']
return item['name']
class CWriter(object):
"""Writes to a file formatting it for Google's style guidelines."""
def __init__(self, filename):
self.filename = filename
self.file_num = 0
self.content = []
def SetFileNum(self, num):
"""Used to help write number files and tests."""
self.file_num = num
def Write(self, string):
"""Writes a string to a file spliting if it's > 80 characters."""
lines = string.splitlines()
num_lines = len(lines)
for ii in range(0, num_lines):
self.content.append(lines[ii])
if ii < (num_lines - 1) or string[-1] == '\n':
self.content.append('\n')
def Close(self):
"""Close the file."""
content = "".join(self.content)
write_file = True
if os.path.exists(self.filename):
old_file = open(self.filename, "rb");
old_content = old_file.read()
old_file.close();
if content == old_content:
write_file = False
if write_file:
file = open(self.filename, "wb")
file.write(content)
file.close()
class CHeaderWriter(CWriter):
"""Writes a C Header file."""
_non_alnum_re = re.compile(r'[^a-zA-Z0-9]')
def __init__(self, filename, file_comment = None):
CWriter.__init__(self, filename)
base = os.path.abspath(filename)
while os.path.basename(base) != 'src':
new_base = os.path.dirname(base)
assert new_base != base # Prevent infinite loop.
base = new_base
hpath = os.path.relpath(filename, base)
self.guard = self._non_alnum_re.sub('_', hpath).upper() + '_'
self.Write(_LICENSE)
self.Write(_DO_NOT_EDIT_WARNING)
if not file_comment == None:
self.Write(file_comment)
self.Write("#ifndef %s\n" % self.guard)
self.Write("#define %s\n\n" % self.guard)
def Close(self):
self.Write("#endif // %s\n\n" % self.guard)
CWriter.Close(self)
class TypeHandler(object):
"""This class emits code for a particular type of function."""
_remove_expected_call_re = re.compile(r' EXPECT_CALL.*?;\n', re.S)
def __init__(self):
pass
def InitFunction(self, func):
"""Add or adjust anything type specific for this function."""
if func.GetInfo('needs_size') and not func.name.endswith('Bucket'):
func.AddCmdArg(DataSizeArgument('data_size'))
def NeedsDataTransferFunction(self, func):
"""Overriden from TypeHandler."""
return func.num_pointer_args >= 1
def WriteStruct(self, func, file):
"""Writes a structure that matches the arguments to a function."""
comment = func.GetInfo('cmd_comment')
if not comment == None:
file.Write(comment)
file.Write("struct %s {\n" % func.name)
file.Write(" typedef %s ValueType;\n" % func.name)
file.Write(" static const CommandId kCmdId = k%s;\n" % func.name)
func.WriteCmdArgFlag(file)
func.WriteCmdFlag(file)
file.Write("\n")
result = func.GetInfo('result')
if not result == None:
if len(result) == 1:
file.Write(" typedef %s Result;\n\n" % result[0])
else:
file.Write(" struct Result {\n")
for line in result:
file.Write(" %s;\n" % line)
file.Write(" };\n\n")
func.WriteCmdComputeSize(file)
func.WriteCmdSetHeader(file)
func.WriteCmdInit(file)
func.WriteCmdSet(file)
file.Write(" gpu::CommandHeader header;\n")
args = func.GetCmdArgs()
for arg in args:
file.Write(" %s %s;\n" % (arg.cmd_type, arg.name))
consts = func.GetCmdConstants()
for const in consts:
file.Write(" static const %s %s = %s;\n" %
(const.cmd_type, const.name, const.GetConstantValue()))
file.Write("};\n")
file.Write("\n")
size = len(args) * _SIZE_OF_UINT32 + _SIZE_OF_COMMAND_HEADER
file.Write("COMPILE_ASSERT(sizeof(%s) == %d,\n" % (func.name, size))
file.Write(" Sizeof_%s_is_not_%d);\n" % (func.name, size))
file.Write("COMPILE_ASSERT(offsetof(%s, header) == 0,\n" % func.name)
file.Write(" OffsetOf_%s_header_not_0);\n" % func.name)
offset = _SIZE_OF_COMMAND_HEADER
for arg in args:
file.Write("COMPILE_ASSERT(offsetof(%s, %s) == %d,\n" %
(func.name, arg.name, offset))
file.Write(" OffsetOf_%s_%s_not_%d);\n" %
(func.name, arg.name, offset))
offset += _SIZE_OF_UINT32
if not result == None and len(result) > 1:
offset = 0;
for line in result:
parts = line.split()
name = parts[-1]
check = """
COMPILE_ASSERT(offsetof(%(cmd_name)s::Result, %(field_name)s) == %(offset)d,
OffsetOf_%(cmd_name)s_Result_%(field_name)s_not_%(offset)d);
"""
file.Write((check.strip() + "\n") % {
'cmd_name': func.name,
'field_name': name,
'offset': offset,
})
offset += _SIZE_OF_UINT32
file.Write("\n")
def WriteHandlerImplementation(self, func, file):
"""Writes the handler implementation for this command."""
file.Write(" %s(%s);\n" %
(func.GetGLFunctionName(), func.MakeOriginalArgString("")))
def WriteCmdSizeTest(self, func, file):
"""Writes the size test for a command."""
file.Write(" EXPECT_EQ(sizeof(cmd), cmd.header.size * 4u);\n")
def WriteFormatTest(self, func, file):
"""Writes a format test for a command."""
file.Write("TEST_F(GLES2FormatTest, %s) {\n" % func.name)
file.Write(" cmds::%s& cmd = *GetBufferAs<cmds::%s>();\n" %
(func.name, func.name))
file.Write(" void* next_cmd = cmd.Set(\n")
file.Write(" &cmd")
args = func.GetCmdArgs()
for value, arg in enumerate(args):
file.Write(",\n static_cast<%s>(%d)" % (arg.type, value + 11))
file.Write(");\n")
file.Write(" EXPECT_EQ(static_cast<uint32_t>(cmds::%s::kCmdId),\n" %
func.name)
file.Write(" cmd.header.command);\n")
func.type_handler.WriteCmdSizeTest(func, file)
for value, arg in enumerate(args):
file.Write(" EXPECT_EQ(static_cast<%s>(%d), cmd.%s);\n" %
(arg.type, value + 11, arg.name))
file.Write(" CheckBytesWrittenMatchesExpectedSize(\n")
file.Write(" next_cmd, sizeof(cmd));\n")
file.Write("}\n")
file.Write("\n")
def WriteImmediateFormatTest(self, func, file):
"""Writes a format test for an immediate version of a command."""
pass
def WriteBucketFormatTest(self, func, file):
"""Writes a format test for a bucket version of a command."""
pass
def WriteGetDataSizeCode(self, func, file):
"""Writes the code to set data_size used in validation"""
pass
def WriteImmediateCmdSizeTest(self, func, file):
"""Writes a size test for an immediate version of a command."""
file.Write(" // TODO(gman): Compute correct size.\n")
file.Write(" EXPECT_EQ(sizeof(cmd), cmd.header.size * 4u);\n")
def WriteImmediateHandlerImplementation (self, func, file):
"""Writes the handler impl for the immediate version of a command."""
file.Write(" %s(%s);\n" %
(func.GetGLFunctionName(), func.MakeOriginalArgString("")))
def WriteBucketHandlerImplementation (self, func, file):
"""Writes the handler impl for the bucket version of a command."""
file.Write(" %s(%s);\n" %
(func.GetGLFunctionName(), func.MakeOriginalArgString("")))
def WriteServiceImplementation(self, func, file):
"""Writes the service implementation for a command."""
file.Write(
"error::Error GLES2DecoderImpl::Handle%s(\n" % func.name)
file.Write(
" uint32_t immediate_data_size, const gles2::cmds::%s& c) {\n" %
func.name)
self.WriteHandlerExtensionCheck(func, file)
self.WriteHandlerDeferReadWrite(func, file);
if len(func.GetOriginalArgs()) > 0:
last_arg = func.GetLastOriginalArg()
all_but_last_arg = func.GetOriginalArgs()[:-1]
for arg in all_but_last_arg:
arg.WriteGetCode(file)
self.WriteGetDataSizeCode(func, file)
last_arg.WriteGetCode(file)
func.WriteHandlerValidation(file)
func.WriteHandlerImplementation(file)
file.Write(" return error::kNoError;\n")
file.Write("}\n")
file.Write("\n")
def WriteImmediateServiceImplementation(self, func, file):
"""Writes the service implementation for an immediate version of command."""
file.Write(
"error::Error GLES2DecoderImpl::Handle%s(\n" % func.name)
file.Write(
" uint32_t immediate_data_size, const gles2::cmds::%s& c) {\n" %
func.name)
self.WriteHandlerExtensionCheck(func, file)
self.WriteHandlerDeferReadWrite(func, file);
last_arg = func.GetLastOriginalArg()
all_but_last_arg = func.GetOriginalArgs()[:-1]
for arg in all_but_last_arg:
arg.WriteGetCode(file)
self.WriteGetDataSizeCode(func, file)
last_arg.WriteGetCode(file)
func.WriteHandlerValidation(file)
func.WriteHandlerImplementation(file)
file.Write(" return error::kNoError;\n")
file.Write("}\n")
file.Write("\n")
def WriteBucketServiceImplementation(self, func, file):
"""Writes the service implementation for a bucket version of command."""
file.Write(
"error::Error GLES2DecoderImpl::Handle%s(\n" % func.name)
file.Write(
" uint32_t immediate_data_size, const gles2::cmds::%s& c) {\n" %
func.name)
self.WriteHandlerExtensionCheck(func, file)
self.WriteHandlerDeferReadWrite(func, file);
last_arg = func.GetLastOriginalArg()
all_but_last_arg = func.GetOriginalArgs()[:-1]
for arg in all_but_last_arg:
arg.WriteGetCode(file)
self.WriteGetDataSizeCode(func, file)
last_arg.WriteGetCode(file)
func.WriteHandlerValidation(file)
func.WriteHandlerImplementation(file)
file.Write(" return error::kNoError;\n")
file.Write("}\n")
file.Write("\n")
def WriteHandlerExtensionCheck(self, func, file):
if func.GetInfo('extension_flag'):
file.Write(" if (!features().%s) {\n" % func.GetInfo('extension_flag'))
file.Write(" LOCAL_SET_GL_ERROR(GL_INVALID_OPERATION, \"gl%s\","
" \"function not available\");\n" % func.original_name)
file.Write(" return error::kNoError;")
file.Write(" }\n\n")
def WriteHandlerDeferReadWrite(self, func, file):
"""Writes the code to handle deferring reads or writes."""
defer_draws = func.GetInfo('defer_draws')
defer_reads = func.GetInfo('defer_reads')
if defer_draws or defer_reads:
file.Write(" error::Error error;\n")
if defer_draws:
file.Write(" error = WillAccessBoundFramebufferForDraw();\n")
file.Write(" if (error != error::kNoError)\n")
file.Write(" return error;\n")
if defer_reads:
file.Write(" error = WillAccessBoundFramebufferForRead();\n")
file.Write(" if (error != error::kNoError)\n")
file.Write(" return error;\n")
def WriteValidUnitTest(self, func, file, test, extra = {}):
"""Writes a valid unit test for the service implementation."""
if func.GetInfo('expectation') == False:
test = self._remove_expected_call_re.sub('', test)
name = func.name
arg_strings = [
arg.GetValidArg(func) \
for arg in func.GetOriginalArgs() if not arg.IsConstant()
]
gl_arg_strings = [
arg.GetValidGLArg(func) \
for arg in func.GetOriginalArgs()
]
gl_func_name = func.GetGLTestFunctionName()
vars = {
'test_name': 'GLES2DecoderTest%d' % file.file_num,
'name':name,
'gl_func_name': gl_func_name,
'args': ", ".join(arg_strings),
'gl_args': ", ".join(gl_arg_strings),
}
vars.update(extra)
old_test = ""
while (old_test != test):
old_test = test
test = test % vars
file.Write(test % vars)
def WriteInvalidUnitTest(self, func, file, test, extra = {}):
"""Writes an invalid unit test for the service implementation."""
for invalid_arg_index, invalid_arg in enumerate(func.GetOriginalArgs()):
# Service implementation does not test constants, as they are not part of
# the call in the service side.
if invalid_arg.IsConstant():
continue
num_invalid_values = invalid_arg.GetNumInvalidValues(func)
for value_index in range(0, num_invalid_values):
arg_strings = []
parse_result = "kNoError"
gl_error = None
for arg in func.GetOriginalArgs():
if arg.IsConstant():
continue
if invalid_arg is arg:
(arg_string, parse_result, gl_error) = arg.GetInvalidArg(
value_index)
else:
arg_string = arg.GetValidArg(func)
arg_strings.append(arg_string)
gl_arg_strings = []
for arg in func.GetOriginalArgs():
gl_arg_strings.append("_")
gl_func_name = func.GetGLTestFunctionName()
gl_error_test = ''
if not gl_error == None:
gl_error_test = '\n EXPECT_EQ(%s, GetGLError());' % gl_error
vars = {
'test_name': 'GLES2DecoderTest%d' % file.file_num ,
'name': func.name,
'arg_index': invalid_arg_index,
'value_index': value_index,
'gl_func_name': gl_func_name,
'args': ", ".join(arg_strings),
'all_but_last_args': ", ".join(arg_strings[:-1]),
'gl_args': ", ".join(gl_arg_strings),
'parse_result': parse_result,
'gl_error_test': gl_error_test,
}
vars.update(extra)
file.Write(test % vars)
def WriteServiceUnitTest(self, func, file):
"""Writes the service unit test for a command."""
if func.name == 'Enable':
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
SetupExpectationsForEnableDisable(%(gl_args)s, true);
SpecializedSetup<cmds::%(name)s, 0>(true);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
}
"""
elif func.name == 'Disable':
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
SetupExpectationsForEnableDisable(%(gl_args)s, false);
SpecializedSetup<cmds::%(name)s, 0>(true);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
}
"""
else:
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_args)s));
SpecializedSetup<cmds::%(name)s, 0>(true);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
}
"""
self.WriteValidUnitTest(func, file, valid_test)
invalid_test = """
TEST_P(%(test_name)s, %(name)sInvalidArgs%(arg_index)d_%(value_index)d) {
EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_args)s)).Times(0);
SpecializedSetup<cmds::%(name)s, 0>(false);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::%(parse_result)s, ExecuteCmd(cmd));%(gl_error_test)s
}
"""
self.WriteInvalidUnitTest(func, file, invalid_test)
def WriteImmediateServiceUnitTest(self, func, file):
"""Writes the service unit test for an immediate command."""
file.Write("// TODO(gman): %s\n" % func.name)
def WriteImmediateValidationCode(self, func, file):
"""Writes the validation code for an immediate version of a command."""
pass
def WriteBucketServiceUnitTest(self, func, file):
"""Writes the service unit test for a bucket command."""
file.Write("// TODO(gman): %s\n" % func.name)
def WriteBucketValidationCode(self, func, file):
"""Writes the validation code for a bucket version of a command."""
file.Write("// TODO(gman): %s\n" % func.name)
def WriteGLES2ImplementationDeclaration(self, func, file):
"""Writes the GLES2 Implemention declaration."""
impl_decl = func.GetInfo('impl_decl')
if impl_decl == None or impl_decl == True:
file.Write("virtual %s %s(%s) OVERRIDE;\n" %
(func.return_type, func.original_name,
func.MakeTypedOriginalArgString("")))
file.Write("\n")
def WriteGLES2CLibImplementation(self, func, file):
file.Write("%s GLES2%s(%s) {\n" %
(func.return_type, func.name,
func.MakeTypedOriginalArgString("")))
result_string = "return "
if func.return_type == "void":
result_string = ""
file.Write(" %sgles2::GetGLContext()->%s(%s);\n" %
(result_string, func.original_name,
func.MakeOriginalArgString("")))
file.Write("}\n")
def WriteGLES2Header(self, func, file):
"""Writes a re-write macro for GLES"""
file.Write("#define gl%s GLES2_GET_FUN(%s)\n" %(func.name, func.name))
def WriteClientGLCallLog(self, func, file):
"""Writes a logging macro for the client side code."""
comma = ""
if len(func.GetOriginalArgs()):
comma = " << "
file.Write(
' GPU_CLIENT_LOG("[" << GetLogPrefix() << "] gl%s("%s%s << ")");\n' %
(func.original_name, comma, func.MakeLogArgString()))
def WriteClientGLReturnLog(self, func, file):
"""Writes the return value logging code."""
if func.return_type != "void":
file.Write(' GPU_CLIENT_LOG("return:" << result)\n')
def WriteGLES2ImplementationHeader(self, func, file):
"""Writes the GLES2 Implemention."""
self.WriteGLES2ImplementationDeclaration(func, file)
def WriteGLES2TraceImplementationHeader(self, func, file):
"""Writes the GLES2 Trace Implemention header."""
file.Write("virtual %s %s(%s) OVERRIDE;\n" %
(func.return_type, func.original_name,
func.MakeTypedOriginalArgString("")))
def WriteGLES2TraceImplementation(self, func, file):
"""Writes the GLES2 Trace Implemention."""
file.Write("%s GLES2TraceImplementation::%s(%s) {\n" %
(func.return_type, func.original_name,
func.MakeTypedOriginalArgString("")))
result_string = "return "
if func.return_type == "void":
result_string = ""
file.Write(' TRACE_EVENT_BINARY_EFFICIENT0("gpu", "GLES2Trace::%s");\n' %
func.name)
file.Write(" %sgl_->%s(%s);\n" %
(result_string, func.name, func.MakeOriginalArgString("")))
file.Write("}\n")
file.Write("\n")
def WriteGLES2Implementation(self, func, file):
"""Writes the GLES2 Implemention."""
impl_func = func.GetInfo('impl_func')
impl_decl = func.GetInfo('impl_decl')
gen_cmd = func.GetInfo('gen_cmd')
if (func.can_auto_generate and
(impl_func == None or impl_func == True) and
(impl_decl == None or impl_decl == True) and
(gen_cmd == None or gen_cmd == True)):
file.Write("%s GLES2Implementation::%s(%s) {\n" %
(func.return_type, func.original_name,
func.MakeTypedOriginalArgString("")))
file.Write(" GPU_CLIENT_SINGLE_THREAD_CHECK();\n")
self.WriteClientGLCallLog(func, file)
func.WriteDestinationInitalizationValidation(file)
for arg in func.GetOriginalArgs():
arg.WriteClientSideValidationCode(file, func)
file.Write(" helper_->%s(%s);\n" %
(func.name, func.MakeHelperArgString("")))
file.Write(" CheckGLError();\n")
self.WriteClientGLReturnLog(func, file)
file.Write("}\n")
file.Write("\n")
def WriteGLES2InterfaceHeader(self, func, file):
"""Writes the GLES2 Interface."""
file.Write("virtual %s %s(%s) = 0;\n" %
(func.return_type, func.original_name,
func.MakeTypedOriginalArgString("")))
def WriteGLES2InterfaceStub(self, func, file):
"""Writes the GLES2 Interface stub declaration."""
file.Write("virtual %s %s(%s) OVERRIDE;\n" %
(func.return_type, func.original_name,
func.MakeTypedOriginalArgString("")))
def WriteGLES2InterfaceStubImpl(self, func, file):
"""Writes the GLES2 Interface stub declaration."""
args = func.GetOriginalArgs()
arg_string = ", ".join(
["%s /* %s */" % (arg.type, arg.name) for arg in args])
file.Write("%s GLES2InterfaceStub::%s(%s) {\n" %
(func.return_type, func.original_name, arg_string))
if func.return_type != "void":
file.Write(" return 0;\n")
file.Write("}\n")
def WriteGLES2ImplementationUnitTest(self, func, file):
"""Writes the GLES2 Implemention unit test."""
client_test = func.GetInfo('client_test')
if (func.can_auto_generate and
(client_test == None or client_test == True)):
code = """
TEST_F(GLES2ImplementationTest, %(name)s) {
struct Cmds {
cmds::%(name)s cmd;
};
Cmds expected;
expected.cmd.Init(%(cmd_args)s);
gl_->%(name)s(%(args)s);
EXPECT_EQ(0, memcmp(&expected, commands_, sizeof(expected)));
}
"""
cmd_arg_strings = [
arg.GetValidClientSideCmdArg(func) for arg in func.GetCmdArgs()
]
gl_arg_strings = [
arg.GetValidClientSideArg(func) for arg in func.GetOriginalArgs()
]
file.Write(code % {
'name': func.name,
'args': ", ".join(gl_arg_strings),
'cmd_args': ", ".join(cmd_arg_strings),
})
# Test constants for invalid values, as they are not tested by the
# service.
constants = [arg for arg in func.GetOriginalArgs() if arg.IsConstant()]
if constants:
code = """
TEST_F(GLES2ImplementationTest, %(name)sInvalidConstantArg%(invalid_index)d) {
gl_->%(name)s(%(args)s);
EXPECT_TRUE(NoCommandsWritten());
EXPECT_EQ(%(gl_error)s, CheckError());
}
"""
for invalid_arg in constants:
gl_arg_strings = []
invalid = invalid_arg.GetInvalidArg(func)
for arg in func.GetOriginalArgs():
if arg is invalid_arg:
gl_arg_strings.append(invalid[0])
else:
gl_arg_strings.append(arg.GetValidClientSideArg(func))
file.Write(code % {
'name': func.name,
'invalid_index': func.GetOriginalArgs().index(invalid_arg),
'args': ", ".join(gl_arg_strings),
'gl_error': invalid[2],
})
else:
if client_test != False:
file.Write("// TODO: Implement unit test for %s\n" % func.name)
def WriteDestinationInitalizationValidation(self, func, file):
"""Writes the client side destintion initialization validation."""
for arg in func.GetOriginalArgs():
arg.WriteDestinationInitalizationValidation(file, func)
def WriteTraceEvent(self, func, file):
file.Write(' TRACE_EVENT0("gpu", "GLES2Implementation::%s");\n' %
func.original_name)
def WriteImmediateCmdComputeSize(self, func, file):
"""Writes the size computation code for the immediate version of a cmd."""
file.Write(" static uint32_t ComputeSize(uint32_t size_in_bytes) {\n")
file.Write(" return static_cast<uint32_t>(\n")
file.Write(" sizeof(ValueType) + // NOLINT\n")
file.Write(" RoundSizeToMultipleOfEntries(size_in_bytes));\n")
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdSetHeader(self, func, file):
"""Writes the SetHeader function for the immediate version of a cmd."""
file.Write(" void SetHeader(uint32_t size_in_bytes) {\n")
file.Write(" header.SetCmdByTotalSize<ValueType>(size_in_bytes);\n")
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdInit(self, func, file):
"""Writes the Init function for the immediate version of a command."""
raise NotImplementedError(func.name)
def WriteImmediateCmdSet(self, func, file):
"""Writes the Set function for the immediate version of a command."""
raise NotImplementedError(func.name)
def WriteCmdHelper(self, func, file):
"""Writes the cmd helper definition for a cmd."""
code = """ void %(name)s(%(typed_args)s) {
gles2::cmds::%(name)s* c = GetCmdSpace<gles2::cmds::%(name)s>();
if (c) {
c->Init(%(args)s);
}
}
"""
file.Write(code % {
"name": func.name,
"typed_args": func.MakeTypedCmdArgString(""),
"args": func.MakeCmdArgString(""),
})
def WriteImmediateCmdHelper(self, func, file):
"""Writes the cmd helper definition for the immediate version of a cmd."""
code = """ void %(name)s(%(typed_args)s) {
const uint32_t s = 0; // TODO(gman): compute correct size
gles2::cmds::%(name)s* c =
GetImmediateCmdSpaceTotalSize<gles2::cmds::%(name)s>(s);
if (c) {
c->Init(%(args)s);
}
}
"""
file.Write(code % {
"name": func.name,
"typed_args": func.MakeTypedCmdArgString(""),
"args": func.MakeCmdArgString(""),
})
class StateSetHandler(TypeHandler):
"""Handler for commands that simply set state."""
def __init__(self):
TypeHandler.__init__(self)
def WriteHandlerImplementation(self, func, file):
"""Overrriden from TypeHandler."""
state_name = func.GetInfo('state')
state = _STATES[state_name]
states = state['states']
args = func.GetOriginalArgs()
code = []
for ndx,item in enumerate(states):
if 'range_checks' in item:
for range_check in item['range_checks']:
code.append("%s %s" % (args[ndx].name, range_check['check']))
if len(code):
file.Write(" if (%s) {\n" % " ||\n ".join(code))
file.Write(
' LOCAL_SET_GL_ERROR(GL_INVALID_VALUE,'
' "%s", "%s out of range");\n' %
(func.name, args[ndx].name))
file.Write(" return error::kNoError;\n")
file.Write(" }\n")
code = []
for ndx,item in enumerate(states):
code.append("state_.%s != %s" % (item['name'], args[ndx].name))
file.Write(" if (%s) {\n" % " ||\n ".join(code))
for ndx,item in enumerate(states):
file.Write(" state_.%s = %s;\n" % (item['name'], args[ndx].name))
if 'state_flag' in state:
file.Write(" %s = true;\n" % state['state_flag'])
if not func.GetInfo("no_gl"):
for ndx,item in enumerate(states):
if item.get('cached', False):
file.Write(" state_.%s = %s;\n" %
(CachedStateName(item), args[ndx].name))
file.Write(" %s(%s);\n" %
(func.GetGLFunctionName(), func.MakeOriginalArgString("")))
file.Write(" }\n")
def WriteServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
TypeHandler.WriteServiceUnitTest(self, func, file)
state_name = func.GetInfo('state')
state = _STATES[state_name]
states = state['states']
for ndx,item in enumerate(states):
if 'range_checks' in item:
for check_ndx, range_check in enumerate(item['range_checks']):
valid_test = """
TEST_P(%(test_name)s, %(name)sInvalidValue%(ndx)d_%(check_ndx)d) {
SpecializedSetup<cmds::%(name)s, 0>(false);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(GL_INVALID_VALUE, GetGLError());
}
"""
name = func.name
arg_strings = [
arg.GetValidArg(func) \
for arg in func.GetOriginalArgs() if not arg.IsConstant()
]
arg_strings[ndx] = range_check['test_value']
vars = {
'test_name': 'GLES2DecoderTest%d' % file.file_num,
'name': name,
'ndx': ndx,
'check_ndx': check_ndx,
'args': ", ".join(arg_strings),
}
file.Write(valid_test % vars)
class StateSetRGBAlphaHandler(TypeHandler):
"""Handler for commands that simply set state that have rgb/alpha."""
def __init__(self):
TypeHandler.__init__(self)
def WriteHandlerImplementation(self, func, file):
"""Overrriden from TypeHandler."""
state_name = func.GetInfo('state')
state = _STATES[state_name]
states = state['states']
args = func.GetOriginalArgs()
num_args = len(args)
code = []
for ndx,item in enumerate(states):
code.append("state_.%s != %s" % (item['name'], args[ndx % num_args].name))
file.Write(" if (%s) {\n" % " ||\n ".join(code))
for ndx, item in enumerate(states):
file.Write(" state_.%s = %s;\n" %
(item['name'], args[ndx % num_args].name))
if 'state_flag' in state:
file.Write(" %s = true;\n" % state['state_flag'])
if not func.GetInfo("no_gl"):
file.Write(" %s(%s);\n" %
(func.GetGLFunctionName(), func.MakeOriginalArgString("")))
file.Write(" }\n")
class StateSetFrontBackSeparateHandler(TypeHandler):
"""Handler for commands that simply set state that have front/back."""
def __init__(self):
TypeHandler.__init__(self)
def WriteHandlerImplementation(self, func, file):
"""Overrriden from TypeHandler."""
state_name = func.GetInfo('state')
state = _STATES[state_name]
states = state['states']
args = func.GetOriginalArgs()
face = args[0].name
num_args = len(args)
file.Write(" bool changed = false;\n")
for group_ndx, group in enumerate(Grouper(num_args - 1, states)):
file.Write(" if (%s == %s || %s == GL_FRONT_AND_BACK) {\n" %
(face, ('GL_FRONT', 'GL_BACK')[group_ndx], face))
code = []
for ndx, item in enumerate(group):
code.append("state_.%s != %s" % (item['name'], args[ndx + 1].name))
file.Write(" changed |= %s;\n" % " ||\n ".join(code))
file.Write(" }\n")
file.Write(" if (changed) {\n")
for group_ndx, group in enumerate(Grouper(num_args - 1, states)):
file.Write(" if (%s == %s || %s == GL_FRONT_AND_BACK) {\n" %
(face, ('GL_FRONT', 'GL_BACK')[group_ndx], face))
for ndx, item in enumerate(group):
file.Write(" state_.%s = %s;\n" %
(item['name'], args[ndx + 1].name))
file.Write(" }\n")
if 'state_flag' in state:
file.Write(" %s = true;\n" % state['state_flag'])
if not func.GetInfo("no_gl"):
file.Write(" %s(%s);\n" %
(func.GetGLFunctionName(), func.MakeOriginalArgString("")))
file.Write(" }\n")
class StateSetFrontBackHandler(TypeHandler):
"""Handler for commands that simply set state that set both front/back."""
def __init__(self):
TypeHandler.__init__(self)
def WriteHandlerImplementation(self, func, file):
"""Overrriden from TypeHandler."""
state_name = func.GetInfo('state')
state = _STATES[state_name]
states = state['states']
args = func.GetOriginalArgs()
num_args = len(args)
code = []
for group_ndx, group in enumerate(Grouper(num_args, states)):
for ndx, item in enumerate(group):
code.append("state_.%s != %s" % (item['name'], args[ndx].name))
file.Write(" if (%s) {\n" % " ||\n ".join(code))
for group_ndx, group in enumerate(Grouper(num_args, states)):
for ndx, item in enumerate(group):
file.Write(" state_.%s = %s;\n" % (item['name'], args[ndx].name))
if 'state_flag' in state:
file.Write(" %s = true;\n" % state['state_flag'])
if not func.GetInfo("no_gl"):
file.Write(" %s(%s);\n" %
(func.GetGLFunctionName(), func.MakeOriginalArgString("")))
file.Write(" }\n")
class StateSetNamedParameter(TypeHandler):
"""Handler for commands that set a state chosen with an enum parameter."""
def __init__(self):
TypeHandler.__init__(self)
def WriteHandlerImplementation(self, func, file):
"""Overridden from TypeHandler."""
state_name = func.GetInfo('state')
state = _STATES[state_name]
states = state['states']
args = func.GetOriginalArgs()
num_args = len(args)
assert num_args == 2
file.Write(" switch (%s) {\n" % args[0].name)
for state in states:
file.Write(" case %s:\n" % state['enum'])
file.Write(" if (state_.%s != %s) {\n" %
(state['name'], args[1].name))
file.Write(" state_.%s = %s;\n" % (state['name'], args[1].name))
if not func.GetInfo("no_gl"):
file.Write(" %s(%s);\n" %
(func.GetGLFunctionName(), func.MakeOriginalArgString("")))
file.Write(" }\n")
file.Write(" break;\n")
file.Write(" default:\n")
file.Write(" NOTREACHED();\n")
file.Write(" }\n")
class CustomHandler(TypeHandler):
"""Handler for commands that are auto-generated but require minor tweaks."""
def __init__(self):
TypeHandler.__init__(self)
def WriteServiceImplementation(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteImmediateServiceImplementation(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteBucketServiceImplementation(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("// TODO(gman): %s\n\n" % func.name)
def WriteImmediateServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("// TODO(gman): %s\n\n" % func.name)
def WriteImmediateCmdGetTotalSize(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(
" uint32_t total_size = 0; // TODO(gman): get correct size.\n")
def WriteImmediateCmdInit(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" void Init(%s) {\n" % func.MakeTypedCmdArgString("_"))
self.WriteImmediateCmdGetTotalSize(func, file)
file.Write(" SetHeader(total_size);\n")
args = func.GetCmdArgs()
for arg in args:
file.Write(" %s = _%s;\n" % (arg.name, arg.name))
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdSet(self, func, file):
"""Overrriden from TypeHandler."""
copy_args = func.MakeCmdArgString("_", False)
file.Write(" void* Set(void* cmd%s) {\n" %
func.MakeTypedCmdArgString("_", True))
self.WriteImmediateCmdGetTotalSize(func, file)
file.Write(" static_cast<ValueType*>(cmd)->Init(%s);\n" % copy_args)
file.Write(" return NextImmediateCmdAddressTotalSize<ValueType>("
"cmd, total_size);\n")
file.Write(" }\n")
file.Write("\n")
class TodoHandler(CustomHandler):
"""Handle for commands that are not yet implemented."""
def NeedsDataTransferFunction(self, func):
"""Overriden from TypeHandler."""
return False
def WriteImmediateFormatTest(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteGLES2ImplementationUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteGLES2Implementation(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("%s GLES2Implementation::%s(%s) {\n" %
(func.return_type, func.original_name,
func.MakeTypedOriginalArgString("")))
file.Write(" // TODO: for now this is a no-op\n")
file.Write(
" SetGLError("
"GL_INVALID_OPERATION, \"gl%s\", \"not implemented\");\n" %
func.name)
if func.return_type != "void":
file.Write(" return 0;\n")
file.Write("}\n")
file.Write("\n")
def WriteServiceImplementation(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(
"error::Error GLES2DecoderImpl::Handle%s(\n" % func.name)
file.Write(
" uint32_t immediate_data_size, const gles2::cmds::%s& c) {\n" %
func.name)
file.Write(" // TODO: for now this is a no-op\n")
file.Write(
" LOCAL_SET_GL_ERROR("
"GL_INVALID_OPERATION, \"gl%s\", \"not implemented\");\n" %
func.name)
file.Write(" return error::kNoError;\n")
file.Write("}\n")
file.Write("\n")
class HandWrittenHandler(CustomHandler):
"""Handler for comands where everything must be written by hand."""
def InitFunction(self, func):
"""Add or adjust anything type specific for this function."""
CustomHandler.InitFunction(self, func)
func.can_auto_generate = False
def NeedsDataTransferFunction(self, func):
"""Overriden from TypeHandler."""
# If specified explicitly, force the data transfer method.
if func.GetInfo('data_transfer_methods'):
return True
return False
def WriteStruct(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteDocs(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("// TODO(gman): %s\n\n" % func.name)
def WriteImmediateServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("// TODO(gman): %s\n\n" % func.name)
def WriteBucketServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("// TODO(gman): %s\n\n" % func.name)
def WriteServiceImplementation(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteImmediateServiceImplementation(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteBucketServiceImplementation(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteImmediateCmdHelper(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteBucketCmdHelper(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteCmdHelper(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteFormatTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("// TODO(gman): Write test for %s\n" % func.name)
def WriteImmediateFormatTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("// TODO(gman): Write test for %s\n" % func.name)
def WriteBucketFormatTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("// TODO(gman): Write test for %s\n" % func.name)
class ManualHandler(CustomHandler):
"""Handler for commands who's handlers must be written by hand."""
def __init__(self):
CustomHandler.__init__(self)
def InitFunction(self, func):
"""Overrriden from TypeHandler."""
if (func.name == 'CompressedTexImage2DBucket'):
func.cmd_args = func.cmd_args[:-1]
func.AddCmdArg(Argument('bucket_id', 'GLuint'))
else:
CustomHandler.InitFunction(self, func)
def WriteServiceImplementation(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteBucketServiceImplementation(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("// TODO(gman): %s\n\n" % func.name)
def WriteImmediateServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("// TODO(gman): %s\n\n" % func.name)
def WriteImmediateServiceImplementation(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteImmediateFormatTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("// TODO(gman): Implement test for %s\n" % func.name)
def WriteGLES2Implementation(self, func, file):
"""Overrriden from TypeHandler."""
if func.GetInfo('impl_func'):
super(ManualHandler, self).WriteGLES2Implementation(func, file)
def WriteGLES2ImplementationHeader(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("virtual %s %s(%s) OVERRIDE;\n" %
(func.return_type, func.original_name,
func.MakeTypedOriginalArgString("")))
file.Write("\n")
def WriteImmediateCmdGetTotalSize(self, func, file):
"""Overrriden from TypeHandler."""
# TODO(gman): Move this data to _FUNCTION_INFO?
CustomHandler.WriteImmediateCmdGetTotalSize(self, func, file)
class DataHandler(TypeHandler):
"""Handler for glBufferData, glBufferSubData, glTexImage2D, glTexSubImage2D,
glCompressedTexImage2D, glCompressedTexImageSub2D."""
def __init__(self):
TypeHandler.__init__(self)
def InitFunction(self, func):
"""Overrriden from TypeHandler."""
if func.name == 'CompressedTexSubImage2DBucket':
func.cmd_args = func.cmd_args[:-1]
func.AddCmdArg(Argument('bucket_id', 'GLuint'))
def WriteGetDataSizeCode(self, func, file):
"""Overrriden from TypeHandler."""
# TODO(gman): Move this data to _FUNCTION_INFO?
name = func.name
if name.endswith("Immediate"):
name = name[0:-9]
if name == 'BufferData' or name == 'BufferSubData':
file.Write(" uint32_t data_size = size;\n")
elif (name == 'CompressedTexImage2D' or
name == 'CompressedTexSubImage2D'):
file.Write(" uint32_t data_size = imageSize;\n")
elif (name == 'CompressedTexSubImage2DBucket'):
file.Write(" Bucket* bucket = GetBucket(c.bucket_id);\n")
file.Write(" uint32_t data_size = bucket->size();\n")
file.Write(" GLsizei imageSize = data_size;\n")
elif name == 'TexImage2D' or name == 'TexSubImage2D':
code = """ uint32_t data_size;
if (!GLES2Util::ComputeImageDataSize(
width, height, format, type, unpack_alignment_, &data_size)) {
return error::kOutOfBounds;
}
"""
file.Write(code)
else:
file.Write(
"// uint32_t data_size = 0; // TODO(gman): get correct size!\n")
def WriteImmediateCmdGetTotalSize(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteImmediateCmdSizeTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" EXPECT_EQ(sizeof(cmd), total_size);\n")
def WriteImmediateCmdInit(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" void Init(%s) {\n" % func.MakeTypedCmdArgString("_"))
self.WriteImmediateCmdGetTotalSize(func, file)
file.Write(" SetHeader(total_size);\n")
args = func.GetCmdArgs()
for arg in args:
file.Write(" %s = _%s;\n" % (arg.name, arg.name))
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdSet(self, func, file):
"""Overrriden from TypeHandler."""
copy_args = func.MakeCmdArgString("_", False)
file.Write(" void* Set(void* cmd%s) {\n" %
func.MakeTypedCmdArgString("_", True))
self.WriteImmediateCmdGetTotalSize(func, file)
file.Write(" static_cast<ValueType*>(cmd)->Init(%s);\n" % copy_args)
file.Write(" return NextImmediateCmdAddressTotalSize<ValueType>("
"cmd, total_size);\n")
file.Write(" }\n")
file.Write("\n")
def WriteImmediateFormatTest(self, func, file):
"""Overrriden from TypeHandler."""
# TODO(gman): Remove this exception.
file.Write("// TODO(gman): Implement test for %s\n" % func.name)
return
def WriteServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("// TODO(gman): %s\n\n" % func.name)
def WriteImmediateServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("// TODO(gman): %s\n\n" % func.name)
def WriteBucketServiceImplementation(self, func, file):
"""Overrriden from TypeHandler."""
if not func.name == 'CompressedTexSubImage2DBucket':
TypeHandler.WriteBucketServiceImplemenation(self, func, file)
class BindHandler(TypeHandler):
"""Handler for glBind___ type functions."""
def __init__(self):
TypeHandler.__init__(self)
def WriteServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
if len(func.GetOriginalArgs()) == 1:
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_args)s));
SpecializedSetup<cmds::%(name)s, 0>(true);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
}
"""
if func.GetInfo("gen_func"):
valid_test += """
TEST_P(%(test_name)s, %(name)sValidArgsNewId) {
EXPECT_CALL(*gl_, %(gl_func_name)s(kNewServiceId));
EXPECT_CALL(*gl_, %(gl_gen_func_name)s(1, _))
.WillOnce(SetArgumentPointee<1>(kNewServiceId));
SpecializedSetup<cmds::%(name)s, 0>(true);
cmds::%(name)s cmd;
cmd.Init(kNewClientId);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
EXPECT_TRUE(Get%(resource_type)s(kNewClientId) != NULL);
}
"""
self.WriteValidUnitTest(func, file, valid_test, {
'resource_type': func.GetOriginalArgs()[0].resource_type,
'gl_gen_func_name': func.GetInfo("gen_func"),
})
else:
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_args)s));
SpecializedSetup<cmds::%(name)s, 0>(true);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
}
"""
if func.GetInfo("gen_func"):
valid_test += """
TEST_P(%(test_name)s, %(name)sValidArgsNewId) {
EXPECT_CALL(*gl_, %(gl_func_name)s(%(first_gl_arg)s, kNewServiceId));
EXPECT_CALL(*gl_, %(gl_gen_func_name)s(1, _))
.WillOnce(SetArgumentPointee<1>(kNewServiceId));
SpecializedSetup<cmds::%(name)s, 0>(true);
cmds::%(name)s cmd;
cmd.Init(%(first_arg)s, kNewClientId);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
EXPECT_TRUE(Get%(resource_type)s(kNewClientId) != NULL);
}
"""
self.WriteValidUnitTest(func, file, valid_test, {
'first_arg': func.GetOriginalArgs()[0].GetValidArg(func),
'first_gl_arg': func.GetOriginalArgs()[0].GetValidGLArg(func),
'resource_type': func.GetOriginalArgs()[1].resource_type,
'gl_gen_func_name': func.GetInfo("gen_func"),
})
invalid_test = """
TEST_P(%(test_name)s, %(name)sInvalidArgs%(arg_index)d_%(value_index)d) {
EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_args)s)).Times(0);
SpecializedSetup<cmds::%(name)s, 0>(false);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::%(parse_result)s, ExecuteCmd(cmd));%(gl_error_test)s
}
"""
self.WriteInvalidUnitTest(func, file, invalid_test)
def WriteGLES2Implementation(self, func, file):
"""Writes the GLES2 Implemention."""
impl_func = func.GetInfo('impl_func')
impl_decl = func.GetInfo('impl_decl')
if (func.can_auto_generate and
(impl_func == None or impl_func == True) and
(impl_decl == None or impl_decl == True)):
file.Write("%s GLES2Implementation::%s(%s) {\n" %
(func.return_type, func.original_name,
func.MakeTypedOriginalArgString("")))
file.Write(" GPU_CLIENT_SINGLE_THREAD_CHECK();\n")
func.WriteDestinationInitalizationValidation(file)
self.WriteClientGLCallLog(func, file)
for arg in func.GetOriginalArgs():
arg.WriteClientSideValidationCode(file, func)
code = """ if (Is%(type)sReservedId(%(id)s)) {
SetGLError(GL_INVALID_OPERATION, "%(name)s\", \"%(id)s reserved id");
return;
}
if (%(name)sHelper(%(arg_string)s)) {
helper_->%(name)s(%(arg_string)s);
}
CheckGLError();
}
"""
name_arg = None
if len(func.GetOriginalArgs()) == 1:
# Bind functions that have no target (like BindVertexArrayOES)
name_arg = func.GetOriginalArgs()[0]
else:
# Bind functions that have both a target and a name (like BindTexture)
name_arg = func.GetOriginalArgs()[1]
file.Write(code % {
'name': func.name,
'arg_string': func.MakeOriginalArgString(""),
'id': name_arg.name,
'type': name_arg.resource_type,
'lc_type': name_arg.resource_type.lower(),
})
def WriteGLES2ImplementationUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
client_test = func.GetInfo('client_test')
if client_test == False:
return
code = """
TEST_F(GLES2ImplementationTest, %(name)s) {
struct Cmds {
cmds::%(name)s cmd;
};
Cmds expected;
expected.cmd.Init(%(cmd_args)s);
gl_->%(name)s(%(args)s);
EXPECT_EQ(0, memcmp(&expected, commands_, sizeof(expected)));
ClearCommands();
gl_->%(name)s(%(args)s);
EXPECT_TRUE(NoCommandsWritten());
}
"""
cmd_arg_strings = [
arg.GetValidClientSideCmdArg(func) for arg in func.GetCmdArgs()
]
gl_arg_strings = [
arg.GetValidClientSideArg(func) for arg in func.GetOriginalArgs()
]
file.Write(code % {
'name': func.name,
'args': ", ".join(gl_arg_strings),
'cmd_args': ", ".join(cmd_arg_strings),
})
class GENnHandler(TypeHandler):
"""Handler for glGen___ type functions."""
def __init__(self):
TypeHandler.__init__(self)
def InitFunction(self, func):
"""Overrriden from TypeHandler."""
pass
def WriteGetDataSizeCode(self, func, file):
"""Overrriden from TypeHandler."""
code = """ uint32_t data_size;
if (!SafeMultiplyUint32(n, sizeof(GLuint), &data_size)) {
return error::kOutOfBounds;
}
"""
file.Write(code)
def WriteHandlerImplementation (self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" if (!%sHelper(n, %s)) {\n"
" return error::kInvalidArguments;\n"
" }\n" %
(func.name, func.GetLastOriginalArg().name))
def WriteImmediateHandlerImplementation(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" if (!%sHelper(n, %s)) {\n"
" return error::kInvalidArguments;\n"
" }\n" %
(func.original_name, func.GetLastOriginalArg().name))
def WriteGLES2Implementation(self, func, file):
"""Overrriden from TypeHandler."""
log_code = (""" GPU_CLIENT_LOG_CODE_BLOCK({
for (GLsizei i = 0; i < n; ++i) {
GPU_CLIENT_LOG(" " << i << ": " << %s[i]);
}
});""" % func.GetOriginalArgs()[1].name)
args = {
'log_code': log_code,
'return_type': func.return_type,
'name': func.original_name,
'typed_args': func.MakeTypedOriginalArgString(""),
'args': func.MakeOriginalArgString(""),
'resource_types': func.GetInfo('resource_types'),
'count_name': func.GetOriginalArgs()[0].name,
}
file.Write(
"%(return_type)s GLES2Implementation::%(name)s(%(typed_args)s) {\n" %
args)
func.WriteDestinationInitalizationValidation(file)
self.WriteClientGLCallLog(func, file)
for arg in func.GetOriginalArgs():
arg.WriteClientSideValidationCode(file, func)
code = """ GPU_CLIENT_SINGLE_THREAD_CHECK();
GetIdHandler(id_namespaces::k%(resource_types)s)->
MakeIds(this, 0, %(args)s);
%(name)sHelper(%(args)s);
helper_->%(name)sImmediate(%(args)s);
if (share_group_->bind_generates_resource())
helper_->CommandBufferHelper::Flush();
%(log_code)s
CheckGLError();
}
"""
file.Write(code % args)
def WriteGLES2ImplementationUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
code = """
TEST_F(GLES2ImplementationTest, %(name)s) {
GLuint ids[2] = { 0, };
struct Cmds {
cmds::%(name)sImmediate gen;
GLuint data[2];
};
Cmds expected;
expected.gen.Init(arraysize(ids), &ids[0]);
expected.data[0] = k%(types)sStartId;
expected.data[1] = k%(types)sStartId + 1;
gl_->%(name)s(arraysize(ids), &ids[0]);
EXPECT_EQ(0, memcmp(&expected, commands_, sizeof(expected)));
EXPECT_EQ(k%(types)sStartId, ids[0]);
EXPECT_EQ(k%(types)sStartId + 1, ids[1]);
}
"""
file.Write(code % {
'name': func.name,
'types': func.GetInfo('resource_types'),
})
def WriteServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
EXPECT_CALL(*gl_, %(gl_func_name)s(1, _))
.WillOnce(SetArgumentPointee<1>(kNewServiceId));
GetSharedMemoryAs<GLuint*>()[0] = kNewClientId;
SpecializedSetup<cmds::%(name)s, 0>(true);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
EXPECT_TRUE(Get%(resource_name)s(kNewClientId) != NULL);
}
"""
self.WriteValidUnitTest(func, file, valid_test, {
'resource_name': func.GetInfo('resource_type'),
})
invalid_test = """
TEST_P(%(test_name)s, %(name)sInvalidArgs) {
EXPECT_CALL(*gl_, %(gl_func_name)s(_, _)).Times(0);
GetSharedMemoryAs<GLuint*>()[0] = client_%(resource_name)s_id_;
SpecializedSetup<cmds::%(name)s, 0>(false);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::kInvalidArguments, ExecuteCmd(cmd));
}
"""
self.WriteValidUnitTest(func, file, invalid_test, {
'resource_name': func.GetInfo('resource_type').lower(),
})
def WriteImmediateServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
EXPECT_CALL(*gl_, %(gl_func_name)s(1, _))
.WillOnce(SetArgumentPointee<1>(kNewServiceId));
cmds::%(name)s* cmd = GetImmediateAs<cmds::%(name)s>();
GLuint temp = kNewClientId;
SpecializedSetup<cmds::%(name)s, 0>(true);
cmd->Init(1, &temp);
EXPECT_EQ(error::kNoError,
ExecuteImmediateCmd(*cmd, sizeof(temp)));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
EXPECT_TRUE(Get%(resource_name)s(kNewClientId) != NULL);
}
"""
self.WriteValidUnitTest(func, file, valid_test, {
'resource_name': func.GetInfo('resource_type'),
})
invalid_test = """
TEST_P(%(test_name)s, %(name)sInvalidArgs) {
EXPECT_CALL(*gl_, %(gl_func_name)s(_, _)).Times(0);
cmds::%(name)s* cmd = GetImmediateAs<cmds::%(name)s>();
SpecializedSetup<cmds::%(name)s, 0>(false);
cmd->Init(1, &client_%(resource_name)s_id_);
EXPECT_EQ(error::kInvalidArguments,
ExecuteImmediateCmd(*cmd, sizeof(&client_%(resource_name)s_id_)));
}
"""
self.WriteValidUnitTest(func, file, invalid_test, {
'resource_name': func.GetInfo('resource_type').lower(),
})
def WriteImmediateCmdComputeSize(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" static uint32_t ComputeDataSize(GLsizei n) {\n")
file.Write(
" return static_cast<uint32_t>(sizeof(GLuint) * n); // NOLINT\n")
file.Write(" }\n")
file.Write("\n")
file.Write(" static uint32_t ComputeSize(GLsizei n) {\n")
file.Write(" return static_cast<uint32_t>(\n")
file.Write(" sizeof(ValueType) + ComputeDataSize(n)); // NOLINT\n")
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdSetHeader(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" void SetHeader(GLsizei n) {\n")
file.Write(" header.SetCmdByTotalSize<ValueType>(ComputeSize(n));\n")
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdInit(self, func, file):
"""Overrriden from TypeHandler."""
last_arg = func.GetLastOriginalArg()
file.Write(" void Init(%s, %s _%s) {\n" %
(func.MakeTypedCmdArgString("_"),
last_arg.type, last_arg.name))
file.Write(" SetHeader(_n);\n")
args = func.GetCmdArgs()
for arg in args:
file.Write(" %s = _%s;\n" % (arg.name, arg.name))
file.Write(" memcpy(ImmediateDataAddress(this),\n")
file.Write(" _%s, ComputeDataSize(_n));\n" % last_arg.name)
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdSet(self, func, file):
"""Overrriden from TypeHandler."""
last_arg = func.GetLastOriginalArg()
copy_args = func.MakeCmdArgString("_", False)
file.Write(" void* Set(void* cmd%s, %s _%s) {\n" %
(func.MakeTypedCmdArgString("_", True),
last_arg.type, last_arg.name))
file.Write(" static_cast<ValueType*>(cmd)->Init(%s, _%s);\n" %
(copy_args, last_arg.name))
file.Write(" const uint32_t size = ComputeSize(_n);\n")
file.Write(" return NextImmediateCmdAddressTotalSize<ValueType>("
"cmd, size);\n")
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdHelper(self, func, file):
"""Overrriden from TypeHandler."""
code = """ void %(name)s(%(typed_args)s) {
const uint32_t size = gles2::cmds::%(name)s::ComputeSize(n);
gles2::cmds::%(name)s* c =
GetImmediateCmdSpaceTotalSize<gles2::cmds::%(name)s>(size);
if (c) {
c->Init(%(args)s);
}
}
"""
file.Write(code % {
"name": func.name,
"typed_args": func.MakeTypedOriginalArgString(""),
"args": func.MakeOriginalArgString(""),
})
def WriteImmediateFormatTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("TEST_F(GLES2FormatTest, %s) {\n" % func.name)
file.Write(" static GLuint ids[] = { 12, 23, 34, };\n")
file.Write(" cmds::%s& cmd = *GetBufferAs<cmds::%s>();\n" %
(func.name, func.name))
file.Write(" void* next_cmd = cmd.Set(\n")
file.Write(" &cmd, static_cast<GLsizei>(arraysize(ids)), ids);\n")
file.Write(" EXPECT_EQ(static_cast<uint32_t>(cmds::%s::kCmdId),\n" %
func.name)
file.Write(" cmd.header.command);\n")
file.Write(" EXPECT_EQ(sizeof(cmd) +\n")
file.Write(" RoundSizeToMultipleOfEntries(cmd.n * 4u),\n")
file.Write(" cmd.header.size * 4u);\n")
file.Write(" EXPECT_EQ(static_cast<GLsizei>(arraysize(ids)), cmd.n);\n");
file.Write(" CheckBytesWrittenMatchesExpectedSize(\n")
file.Write(" next_cmd, sizeof(cmd) +\n")
file.Write(" RoundSizeToMultipleOfEntries(arraysize(ids) * 4u));\n")
file.Write(" // TODO(gman): Check that ids were inserted;\n")
file.Write("}\n")
file.Write("\n")
class CreateHandler(TypeHandler):
"""Handler for glCreate___ type functions."""
def __init__(self):
TypeHandler.__init__(self)
def InitFunction(self, func):
"""Overrriden from TypeHandler."""
func.AddCmdArg(Argument("client_id", 'uint32_t'))
def WriteServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_args)s))
.WillOnce(Return(kNewServiceId));
SpecializedSetup<cmds::%(name)s, 0>(true);
cmds::%(name)s cmd;
cmd.Init(%(args)s%(comma)skNewClientId);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
EXPECT_TRUE(Get%(resource_type)s(kNewClientId) != NULL);
}
"""
comma = ""
if len(func.GetOriginalArgs()):
comma =", "
self.WriteValidUnitTest(func, file, valid_test, {
'comma': comma,
'resource_type': func.name[6:],
})
invalid_test = """
TEST_P(%(test_name)s, %(name)sInvalidArgs%(arg_index)d_%(value_index)d) {
EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_args)s)).Times(0);
SpecializedSetup<cmds::%(name)s, 0>(false);
cmds::%(name)s cmd;
cmd.Init(%(args)s%(comma)skNewClientId);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));%(gl_error_test)s
}
"""
self.WriteInvalidUnitTest(func, file, invalid_test, {
'comma': comma,
})
def WriteHandlerImplementation (self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" uint32_t client_id = c.client_id;\n")
file.Write(" if (!%sHelper(%s)) {\n" %
(func.name, func.MakeCmdArgString("")))
file.Write(" return error::kInvalidArguments;\n")
file.Write(" }\n")
def WriteGLES2Implementation(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("%s GLES2Implementation::%s(%s) {\n" %
(func.return_type, func.original_name,
func.MakeTypedOriginalArgString("")))
file.Write(" GPU_CLIENT_SINGLE_THREAD_CHECK();\n")
func.WriteDestinationInitalizationValidation(file)
self.WriteClientGLCallLog(func, file)
for arg in func.GetOriginalArgs():
arg.WriteClientSideValidationCode(file, func)
file.Write(" GLuint client_id;\n")
file.Write(
" GetIdHandler(id_namespaces::kProgramsAndShaders)->\n")
file.Write(" MakeIds(this, 0, 1, &client_id);\n")
file.Write(" helper_->%s(%s);\n" %
(func.name, func.MakeCmdArgString("")))
file.Write(' GPU_CLIENT_LOG("returned " << client_id);\n')
file.Write(" CheckGLError();\n")
file.Write(" return client_id;\n")
file.Write("}\n")
file.Write("\n")
class DeleteHandler(TypeHandler):
"""Handler for glDelete___ single resource type functions."""
def __init__(self):
TypeHandler.__init__(self)
def WriteServiceImplementation(self, func, file):
"""Overrriden from TypeHandler."""
pass
def WriteGLES2Implementation(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("%s GLES2Implementation::%s(%s) {\n" %
(func.return_type, func.original_name,
func.MakeTypedOriginalArgString("")))
file.Write(" GPU_CLIENT_SINGLE_THREAD_CHECK();\n")
func.WriteDestinationInitalizationValidation(file)
self.WriteClientGLCallLog(func, file)
for arg in func.GetOriginalArgs():
arg.WriteClientSideValidationCode(file, func)
file.Write(
" GPU_CLIENT_DCHECK(%s != 0);\n" % func.GetOriginalArgs()[-1].name)
file.Write(" %sHelper(%s);\n" %
(func.original_name, func.GetOriginalArgs()[-1].name))
file.Write(" CheckGLError();\n")
file.Write("}\n")
file.Write("\n")
class DELnHandler(TypeHandler):
"""Handler for glDelete___ type functions."""
def __init__(self):
TypeHandler.__init__(self)
def WriteGetDataSizeCode(self, func, file):
"""Overrriden from TypeHandler."""
code = """ uint32_t data_size;
if (!SafeMultiplyUint32(n, sizeof(GLuint), &data_size)) {
return error::kOutOfBounds;
}
"""
file.Write(code)
def WriteGLES2ImplementationUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
code = """
TEST_F(GLES2ImplementationTest, %(name)s) {
GLuint ids[2] = { k%(types)sStartId, k%(types)sStartId + 1 };
struct Cmds {
cmds::%(name)sImmediate del;
GLuint data[2];
};
Cmds expected;
expected.del.Init(arraysize(ids), &ids[0]);
expected.data[0] = k%(types)sStartId;
expected.data[1] = k%(types)sStartId + 1;
gl_->%(name)s(arraysize(ids), &ids[0]);
EXPECT_EQ(0, memcmp(&expected, commands_, sizeof(expected)));
}
"""
file.Write(code % {
'name': func.name,
'types': func.GetInfo('resource_types'),
})
def WriteServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
EXPECT_CALL(
*gl_,
%(gl_func_name)s(1, Pointee(kService%(upper_resource_name)sId)))
.Times(1);
GetSharedMemoryAs<GLuint*>()[0] = client_%(resource_name)s_id_;
SpecializedSetup<cmds::%(name)s, 0>(true);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
EXPECT_TRUE(
Get%(upper_resource_name)s(client_%(resource_name)s_id_) == NULL);
}
"""
self.WriteValidUnitTest(func, file, valid_test, {
'resource_name': func.GetInfo('resource_type').lower(),
'upper_resource_name': func.GetInfo('resource_type'),
})
invalid_test = """
TEST_P(%(test_name)s, %(name)sInvalidArgs) {
GetSharedMemoryAs<GLuint*>()[0] = kInvalidClientId;
SpecializedSetup<cmds::%(name)s, 0>(false);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
}
"""
self.WriteValidUnitTest(func, file, invalid_test)
def WriteImmediateServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
EXPECT_CALL(
*gl_,
%(gl_func_name)s(1, Pointee(kService%(upper_resource_name)sId)))
.Times(1);
cmds::%(name)s& cmd = *GetImmediateAs<cmds::%(name)s>();
SpecializedSetup<cmds::%(name)s, 0>(true);
cmd.Init(1, &client_%(resource_name)s_id_);
EXPECT_EQ(error::kNoError,
ExecuteImmediateCmd(cmd, sizeof(client_%(resource_name)s_id_)));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
EXPECT_TRUE(
Get%(upper_resource_name)s(client_%(resource_name)s_id_) == NULL);
}
"""
self.WriteValidUnitTest(func, file, valid_test, {
'resource_name': func.GetInfo('resource_type').lower(),
'upper_resource_name': func.GetInfo('resource_type'),
})
invalid_test = """
TEST_P(%(test_name)s, %(name)sInvalidArgs) {
cmds::%(name)s& cmd = *GetImmediateAs<cmds::%(name)s>();
SpecializedSetup<cmds::%(name)s, 0>(false);
GLuint temp = kInvalidClientId;
cmd.Init(1, &temp);
EXPECT_EQ(error::kNoError,
ExecuteImmediateCmd(cmd, sizeof(temp)));
}
"""
self.WriteValidUnitTest(func, file, invalid_test)
def WriteHandlerImplementation (self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" %sHelper(n, %s);\n" %
(func.name, func.GetLastOriginalArg().name))
def WriteImmediateHandlerImplementation (self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" %sHelper(n, %s);\n" %
(func.original_name, func.GetLastOriginalArg().name))
def WriteGLES2Implementation(self, func, file):
"""Overrriden from TypeHandler."""
impl_decl = func.GetInfo('impl_decl')
if impl_decl == None or impl_decl == True:
args = {
'return_type': func.return_type,
'name': func.original_name,
'typed_args': func.MakeTypedOriginalArgString(""),
'args': func.MakeOriginalArgString(""),
'resource_type': func.GetInfo('resource_type').lower(),
'count_name': func.GetOriginalArgs()[0].name,
}
file.Write(
"%(return_type)s GLES2Implementation::%(name)s(%(typed_args)s) {\n" %
args)
file.Write(" GPU_CLIENT_SINGLE_THREAD_CHECK();\n")
func.WriteDestinationInitalizationValidation(file)
self.WriteClientGLCallLog(func, file)
file.Write(""" GPU_CLIENT_LOG_CODE_BLOCK({
for (GLsizei i = 0; i < n; ++i) {
GPU_CLIENT_LOG(" " << i << ": " << %s[i]);
}
});
""" % func.GetOriginalArgs()[1].name)
file.Write(""" GPU_CLIENT_DCHECK_CODE_BLOCK({
for (GLsizei i = 0; i < n; ++i) {
DCHECK(%s[i] != 0);
}
});
""" % func.GetOriginalArgs()[1].name)
for arg in func.GetOriginalArgs():
arg.WriteClientSideValidationCode(file, func)
code = """ %(name)sHelper(%(args)s);
CheckGLError();
}
"""
file.Write(code % args)
def WriteImmediateCmdComputeSize(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" static uint32_t ComputeDataSize(GLsizei n) {\n")
file.Write(
" return static_cast<uint32_t>(sizeof(GLuint) * n); // NOLINT\n")
file.Write(" }\n")
file.Write("\n")
file.Write(" static uint32_t ComputeSize(GLsizei n) {\n")
file.Write(" return static_cast<uint32_t>(\n")
file.Write(" sizeof(ValueType) + ComputeDataSize(n)); // NOLINT\n")
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdSetHeader(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" void SetHeader(GLsizei n) {\n")
file.Write(" header.SetCmdByTotalSize<ValueType>(ComputeSize(n));\n")
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdInit(self, func, file):
"""Overrriden from TypeHandler."""
last_arg = func.GetLastOriginalArg()
file.Write(" void Init(%s, %s _%s) {\n" %
(func.MakeTypedCmdArgString("_"),
last_arg.type, last_arg.name))
file.Write(" SetHeader(_n);\n")
args = func.GetCmdArgs()
for arg in args:
file.Write(" %s = _%s;\n" % (arg.name, arg.name))
file.Write(" memcpy(ImmediateDataAddress(this),\n")
file.Write(" _%s, ComputeDataSize(_n));\n" % last_arg.name)
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdSet(self, func, file):
"""Overrriden from TypeHandler."""
last_arg = func.GetLastOriginalArg()
copy_args = func.MakeCmdArgString("_", False)
file.Write(" void* Set(void* cmd%s, %s _%s) {\n" %
(func.MakeTypedCmdArgString("_", True),
last_arg.type, last_arg.name))
file.Write(" static_cast<ValueType*>(cmd)->Init(%s, _%s);\n" %
(copy_args, last_arg.name))
file.Write(" const uint32_t size = ComputeSize(_n);\n")
file.Write(" return NextImmediateCmdAddressTotalSize<ValueType>("
"cmd, size);\n")
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdHelper(self, func, file):
"""Overrriden from TypeHandler."""
code = """ void %(name)s(%(typed_args)s) {
const uint32_t size = gles2::cmds::%(name)s::ComputeSize(n);
gles2::cmds::%(name)s* c =
GetImmediateCmdSpaceTotalSize<gles2::cmds::%(name)s>(size);
if (c) {
c->Init(%(args)s);
}
}
"""
file.Write(code % {
"name": func.name,
"typed_args": func.MakeTypedOriginalArgString(""),
"args": func.MakeOriginalArgString(""),
})
def WriteImmediateFormatTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("TEST_F(GLES2FormatTest, %s) {\n" % func.name)
file.Write(" static GLuint ids[] = { 12, 23, 34, };\n")
file.Write(" cmds::%s& cmd = *GetBufferAs<cmds::%s>();\n" %
(func.name, func.name))
file.Write(" void* next_cmd = cmd.Set(\n")
file.Write(" &cmd, static_cast<GLsizei>(arraysize(ids)), ids);\n")
file.Write(" EXPECT_EQ(static_cast<uint32_t>(cmds::%s::kCmdId),\n" %
func.name)
file.Write(" cmd.header.command);\n")
file.Write(" EXPECT_EQ(sizeof(cmd) +\n")
file.Write(" RoundSizeToMultipleOfEntries(cmd.n * 4u),\n")
file.Write(" cmd.header.size * 4u);\n")
file.Write(" EXPECT_EQ(static_cast<GLsizei>(arraysize(ids)), cmd.n);\n");
file.Write(" CheckBytesWrittenMatchesExpectedSize(\n")
file.Write(" next_cmd, sizeof(cmd) +\n")
file.Write(" RoundSizeToMultipleOfEntries(arraysize(ids) * 4u));\n")
file.Write(" // TODO(gman): Check that ids were inserted;\n")
file.Write("}\n")
file.Write("\n")
class GETnHandler(TypeHandler):
"""Handler for GETn for glGetBooleanv, glGetFloatv, ... type functions."""
def __init__(self):
TypeHandler.__init__(self)
def NeedsDataTransferFunction(self, func):
"""Overriden from TypeHandler."""
return False
def WriteServiceImplementation(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(
"error::Error GLES2DecoderImpl::Handle%s(\n" % func.name)
file.Write(
" uint32_t immediate_data_size, const gles2::cmds::%s& c) {\n" %
func.name)
last_arg = func.GetLastOriginalArg()
all_but_last_args = func.GetOriginalArgs()[:-1]
for arg in all_but_last_args:
arg.WriteGetCode(file)
code = """ typedef cmds::%(func_name)s::Result Result;
GLsizei num_values = 0;
GetNumValuesReturnedForGLGet(pname, &num_values);
Result* result = GetSharedMemoryAs<Result*>(
c.params_shm_id, c.params_shm_offset, Result::ComputeSize(num_values));
%(last_arg_type)s params = result ? result->GetData() : NULL;
"""
file.Write(code % {
'last_arg_type': last_arg.type,
'func_name': func.name,
})
func.WriteHandlerValidation(file)
code = """ // Check that the client initialized the result.
if (result->size != 0) {
return error::kInvalidArguments;
}
"""
shadowed = func.GetInfo('shadowed')
if not shadowed:
file.Write(' LOCAL_COPY_REAL_GL_ERRORS_TO_WRAPPER("%s");\n' % func.name)
file.Write(code)
func.WriteHandlerImplementation(file)
if shadowed:
code = """ result->SetNumResults(num_values);
return error::kNoError;
}
"""
else:
code = """ GLenum error = glGetError();
if (error == GL_NO_ERROR) {
result->SetNumResults(num_values);
} else {
LOCAL_SET_GL_ERROR(error, "%(func_name)s", "");
}
return error::kNoError;
}
"""
file.Write(code % {'func_name': func.name})
def WriteGLES2Implementation(self, func, file):
"""Overrriden from TypeHandler."""
impl_decl = func.GetInfo('impl_decl')
if impl_decl == None or impl_decl == True:
file.Write("%s GLES2Implementation::%s(%s) {\n" %
(func.return_type, func.original_name,
func.MakeTypedOriginalArgString("")))
file.Write(" GPU_CLIENT_SINGLE_THREAD_CHECK();\n")
func.WriteDestinationInitalizationValidation(file)
self.WriteClientGLCallLog(func, file)
for arg in func.GetOriginalArgs():
arg.WriteClientSideValidationCode(file, func)
all_but_last_args = func.GetOriginalArgs()[:-1]
arg_string = (
", ".join(["%s" % arg.name for arg in all_but_last_args]))
all_arg_string = (
", ".join([
"%s" % arg.name
for arg in func.GetOriginalArgs() if not arg.IsConstant()]))
self.WriteTraceEvent(func, file)
code = """ if (%(func_name)sHelper(%(all_arg_string)s)) {
return;
}
typedef cmds::%(func_name)s::Result Result;
Result* result = GetResultAs<Result*>();
if (!result) {
return;
}
result->SetNumResults(0);
helper_->%(func_name)s(%(arg_string)s,
GetResultShmId(), GetResultShmOffset());
WaitForCmd();
result->CopyResult(params);
GPU_CLIENT_LOG_CODE_BLOCK({
for (int32_t i = 0; i < result->GetNumResults(); ++i) {
GPU_CLIENT_LOG(" " << i << ": " << result->GetData()[i]);
}
});
CheckGLError();
}
"""
file.Write(code % {
'func_name': func.name,
'arg_string': arg_string,
'all_arg_string': all_arg_string,
})
def WriteGLES2ImplementationUnitTest(self, func, file):
"""Writes the GLES2 Implemention unit test."""
code = """
TEST_F(GLES2ImplementationTest, %(name)s) {
struct Cmds {
cmds::%(name)s cmd;
};
typedef cmds::%(name)s::Result Result;
Result::Type result = 0;
Cmds expected;
ExpectedMemoryInfo result1 = GetExpectedResultMemory(4);
expected.cmd.Init(%(cmd_args)s, result1.id, result1.offset);
EXPECT_CALL(*command_buffer(), OnFlush())
.WillOnce(SetMemory(result1.ptr, SizedResultHelper<Result::Type>(1)))
.RetiresOnSaturation();
gl_->%(name)s(%(args)s, &result);
EXPECT_EQ(0, memcmp(&expected, commands_, sizeof(expected)));
EXPECT_EQ(static_cast<Result::Type>(1), result);
}
"""
first_cmd_arg = func.GetCmdArgs()[0].GetValidNonCachedClientSideCmdArg(func)
if not first_cmd_arg:
return
first_gl_arg = func.GetCmdArgs()[0].GetValidNonCachedClientSideArg(func)
cmd_arg_strings = [first_cmd_arg]
for arg in func.GetCmdArgs()[1:-2]:
cmd_arg_strings.append(arg.GetValidClientSideCmdArg(func))
gl_arg_strings = [first_gl_arg]
for arg in func.GetOriginalArgs()[1:-1]:
gl_arg_strings.append(arg.GetValidClientSideArg(func))
file.Write(code % {
'name': func.name,
'args': ", ".join(gl_arg_strings),
'cmd_args': ", ".join(cmd_arg_strings),
})
def WriteServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
EXPECT_CALL(*gl_, GetError())
.WillOnce(Return(GL_NO_ERROR))
.WillOnce(Return(GL_NO_ERROR))
.RetiresOnSaturation();
SpecializedSetup<cmds::%(name)s, 0>(true);
typedef cmds::%(name)s::Result Result;
Result* result = static_cast<Result*>(shared_memory_address_);
EXPECT_CALL(*gl_, %(gl_func_name)s(%(local_gl_args)s));
result->size = 0;
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(decoder_->GetGLES2Util()->GLGetNumValuesReturned(
%(valid_pname)s),
result->GetNumResults());
EXPECT_EQ(GL_NO_ERROR, GetGLError());
}
"""
gl_arg_strings = []
valid_pname = ''
for arg in func.GetOriginalArgs()[:-1]:
arg_value = arg.GetValidGLArg(func)
gl_arg_strings.append(arg_value)
if arg.name == 'pname':
valid_pname = arg_value
if func.GetInfo('gl_test_func') == 'glGetIntegerv':
gl_arg_strings.append("_")
else:
gl_arg_strings.append("result->GetData()")
self.WriteValidUnitTest(func, file, valid_test, {
'local_gl_args': ", ".join(gl_arg_strings),
'valid_pname': valid_pname,
})
invalid_test = """
TEST_P(%(test_name)s, %(name)sInvalidArgs%(arg_index)d_%(value_index)d) {
EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_args)s)).Times(0);
SpecializedSetup<cmds::%(name)s, 0>(false);
cmds::%(name)s::Result* result =
static_cast<cmds::%(name)s::Result*>(shared_memory_address_);
result->size = 0;
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::%(parse_result)s, ExecuteCmd(cmd));
EXPECT_EQ(0u, result->size);%(gl_error_test)s
}
"""
self.WriteInvalidUnitTest(func, file, invalid_test)
class ArrayArgTypeHandler(TypeHandler):
"""Base class for type handlers that handle args that are arrays"""
def __init__(self):
TypeHandler.__init__(self)
def GetArrayType(self, func):
"""Returns the type of the element in the element array being PUT to."""
for arg in func.GetOriginalArgs():
if arg.IsPointer():
element_type = arg.GetPointedType()
return element_type
# Special case: array type handler is used for a function that is forwarded
# to the actual array type implementation
element_type = func.GetOriginalArgs()[-1].type
assert all(arg.type == element_type \
for arg in func.GetOriginalArgs()[-self.GetArrayCount(func):])
return element_type
def GetArrayCount(self, func):
"""Returns the count of the elements in the array being PUT to."""
return func.GetInfo('count')
class PUTHandler(ArrayArgTypeHandler):
"""Handler for glTexParameter_v, glVertexAttrib_v functions."""
def __init__(self):
ArrayArgTypeHandler.__init__(self)
def WriteServiceUnitTest(self, func, file):
"""Writes the service unit test for a command."""
expected_call = "EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_args)s));"
if func.GetInfo("first_element_only"):
gl_arg_strings = [
arg.GetValidGLArg(func) for arg in func.GetOriginalArgs()
]
gl_arg_strings[-1] = "*" + gl_arg_strings[-1]
expected_call = ("EXPECT_CALL(*gl_, %%(gl_func_name)s(%s));" %
", ".join(gl_arg_strings))
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
SpecializedSetup<cmds::%(name)s, 0>(true);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
GetSharedMemoryAs<%(data_type)s*>()[0] = %(data_value)s;
%(expected_call)s
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
}
"""
extra = {
'data_type': self.GetArrayType(func),
'data_value': func.GetInfo('data_value') or '0',
'expected_call': expected_call,
}
self.WriteValidUnitTest(func, file, valid_test, extra)
invalid_test = """
TEST_P(%(test_name)s, %(name)sInvalidArgs%(arg_index)d_%(value_index)d) {
EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_args)s)).Times(0);
SpecializedSetup<cmds::%(name)s, 0>(false);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
GetSharedMemoryAs<%(data_type)s*>()[0] = %(data_value)s;
EXPECT_EQ(error::%(parse_result)s, ExecuteCmd(cmd));%(gl_error_test)s
}
"""
self.WriteInvalidUnitTest(func, file, invalid_test, extra)
def WriteImmediateServiceUnitTest(self, func, file):
"""Writes the service unit test for a command."""
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
cmds::%(name)s& cmd = *GetImmediateAs<cmds::%(name)s>();
SpecializedSetup<cmds::%(name)s, 0>(true);
%(data_type)s temp[%(data_count)s] = { %(data_value)s, };
cmd.Init(%(gl_args)s, &temp[0]);
EXPECT_CALL(
*gl_,
%(gl_func_name)s(%(gl_args)s, %(data_ref)sreinterpret_cast<
%(data_type)s*>(ImmediateDataAddress(&cmd))));
EXPECT_EQ(error::kNoError,
ExecuteImmediateCmd(cmd, sizeof(temp)));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
}
"""
gl_arg_strings = [
arg.GetValidGLArg(func) for arg in func.GetOriginalArgs()[0:-1]
]
gl_any_strings = ["_"] * len(gl_arg_strings)
extra = {
'data_ref': ("*" if func.GetInfo('first_element_only') else ""),
'data_type': self.GetArrayType(func),
'data_count': self.GetArrayCount(func),
'data_value': func.GetInfo('data_value') or '0',
'gl_args': ", ".join(gl_arg_strings),
'gl_any_args': ", ".join(gl_any_strings),
}
self.WriteValidUnitTest(func, file, valid_test, extra)
invalid_test = """
TEST_P(%(test_name)s, %(name)sInvalidArgs%(arg_index)d_%(value_index)d) {
cmds::%(name)s& cmd = *GetImmediateAs<cmds::%(name)s>();
EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_any_args)s, _)).Times(0);
SpecializedSetup<cmds::%(name)s, 0>(false);
%(data_type)s temp[%(data_count)s] = { %(data_value)s, };
cmd.Init(%(all_but_last_args)s, &temp[0]);
EXPECT_EQ(error::%(parse_result)s,
ExecuteImmediateCmd(cmd, sizeof(temp)));%(gl_error_test)s
}
"""
self.WriteInvalidUnitTest(func, file, invalid_test, extra)
def WriteGetDataSizeCode(self, func, file):
"""Overrriden from TypeHandler."""
code = """ uint32_t data_size;
if (!ComputeDataSize(1, sizeof(%s), %d, &data_size)) {
return error::kOutOfBounds;
}
"""
file.Write(code % (self.GetArrayType(func), self.GetArrayCount(func)))
if func.IsImmediate():
file.Write(" if (data_size > immediate_data_size) {\n")
file.Write(" return error::kOutOfBounds;\n")
file.Write(" }\n")
def WriteGLES2Implementation(self, func, file):
"""Overrriden from TypeHandler."""
impl_func = func.GetInfo('impl_func')
if (impl_func != None and impl_func != True):
return;
file.Write("%s GLES2Implementation::%s(%s) {\n" %
(func.return_type, func.original_name,
func.MakeTypedOriginalArgString("")))
file.Write(" GPU_CLIENT_SINGLE_THREAD_CHECK();\n")
func.WriteDestinationInitalizationValidation(file)
self.WriteClientGLCallLog(func, file)
last_arg_name = func.GetLastOriginalArg().name
values_str = ' << ", " << '.join(
["%s[%d]" % (last_arg_name, ndx) \
for ndx in range(0, self.GetArrayCount(func))])
file.Write(' GPU_CLIENT_LOG("values: " << %s);\n' % values_str)
for arg in func.GetOriginalArgs():
arg.WriteClientSideValidationCode(file, func)
file.Write(" helper_->%sImmediate(%s);\n" %
(func.name, func.MakeOriginalArgString("")))
file.Write(" CheckGLError();\n")
file.Write("}\n")
file.Write("\n")
def WriteGLES2ImplementationUnitTest(self, func, file):
"""Writes the GLES2 Implemention unit test."""
client_test = func.GetInfo('client_test')
if (client_test != None and client_test != True):
return;
code = """
TEST_F(GLES2ImplementationTest, %(name)s) {
%(type)s data[%(count)d] = {0};
struct Cmds {
cmds::%(name)sImmediate cmd;
%(type)s data[%(count)d];
};
for (int jj = 0; jj < %(count)d; ++jj) {
data[jj] = static_cast<%(type)s>(jj);
}
Cmds expected;
expected.cmd.Init(%(cmd_args)s, &data[0]);
gl_->%(name)s(%(args)s, &data[0]);
EXPECT_EQ(0, memcmp(&expected, commands_, sizeof(expected)));
}
"""
cmd_arg_strings = [
arg.GetValidClientSideCmdArg(func) for arg in func.GetCmdArgs()[0:-2]
]
gl_arg_strings = [
arg.GetValidClientSideArg(func) for arg in func.GetOriginalArgs()[0:-1]
]
file.Write(code % {
'name': func.name,
'type': self.GetArrayType(func),
'count': self.GetArrayCount(func),
'args': ", ".join(gl_arg_strings),
'cmd_args': ", ".join(cmd_arg_strings),
})
def WriteImmediateCmdComputeSize(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" static uint32_t ComputeDataSize() {\n")
file.Write(" return static_cast<uint32_t>(\n")
file.Write(" sizeof(%s) * %d); // NOLINT\n" %
(self.GetArrayType(func), self.GetArrayCount(func)))
file.Write(" }\n")
file.Write("\n")
file.Write(" static uint32_t ComputeSize() {\n")
file.Write(" return static_cast<uint32_t>(\n")
file.Write(
" sizeof(ValueType) + ComputeDataSize()); // NOLINT\n")
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdSetHeader(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" void SetHeader() {\n")
file.Write(
" header.SetCmdByTotalSize<ValueType>(ComputeSize());\n")
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdInit(self, func, file):
"""Overrriden from TypeHandler."""
last_arg = func.GetLastOriginalArg()
file.Write(" void Init(%s, %s _%s) {\n" %
(func.MakeTypedCmdArgString("_"),
last_arg.type, last_arg.name))
file.Write(" SetHeader();\n")
args = func.GetCmdArgs()
for arg in args:
file.Write(" %s = _%s;\n" % (arg.name, arg.name))
file.Write(" memcpy(ImmediateDataAddress(this),\n")
file.Write(" _%s, ComputeDataSize());\n" % last_arg.name)
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdSet(self, func, file):
"""Overrriden from TypeHandler."""
last_arg = func.GetLastOriginalArg()
copy_args = func.MakeCmdArgString("_", False)
file.Write(" void* Set(void* cmd%s, %s _%s) {\n" %
(func.MakeTypedCmdArgString("_", True),
last_arg.type, last_arg.name))
file.Write(" static_cast<ValueType*>(cmd)->Init(%s, _%s);\n" %
(copy_args, last_arg.name))
file.Write(" const uint32_t size = ComputeSize();\n")
file.Write(" return NextImmediateCmdAddressTotalSize<ValueType>("
"cmd, size);\n")
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdHelper(self, func, file):
"""Overrriden from TypeHandler."""
code = """ void %(name)s(%(typed_args)s) {
const uint32_t size = gles2::cmds::%(name)s::ComputeSize();
gles2::cmds::%(name)s* c =
GetImmediateCmdSpaceTotalSize<gles2::cmds::%(name)s>(size);
if (c) {
c->Init(%(args)s);
}
}
"""
file.Write(code % {
"name": func.name,
"typed_args": func.MakeTypedOriginalArgString(""),
"args": func.MakeOriginalArgString(""),
})
def WriteImmediateFormatTest(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("TEST_F(GLES2FormatTest, %s) {\n" % func.name)
file.Write(" const int kSomeBaseValueToTestWith = 51;\n")
file.Write(" static %s data[] = {\n" % self.GetArrayType(func))
for v in range(0, self.GetArrayCount(func)):
file.Write(" static_cast<%s>(kSomeBaseValueToTestWith + %d),\n" %
(self.GetArrayType(func), v))
file.Write(" };\n")
file.Write(" cmds::%s& cmd = *GetBufferAs<cmds::%s>();\n" %
(func.name, func.name))
file.Write(" void* next_cmd = cmd.Set(\n")
file.Write(" &cmd")
args = func.GetCmdArgs()
for value, arg in enumerate(args):
file.Write(",\n static_cast<%s>(%d)" % (arg.type, value + 11))
file.Write(",\n data);\n")
args = func.GetCmdArgs()
file.Write(" EXPECT_EQ(static_cast<uint32_t>(cmds::%s::kCmdId),\n"
% func.name)
file.Write(" cmd.header.command);\n")
file.Write(" EXPECT_EQ(sizeof(cmd) +\n")
file.Write(" RoundSizeToMultipleOfEntries(sizeof(data)),\n")
file.Write(" cmd.header.size * 4u);\n")
for value, arg in enumerate(args):
file.Write(" EXPECT_EQ(static_cast<%s>(%d), cmd.%s);\n" %
(arg.type, value + 11, arg.name))
file.Write(" CheckBytesWrittenMatchesExpectedSize(\n")
file.Write(" next_cmd, sizeof(cmd) +\n")
file.Write(" RoundSizeToMultipleOfEntries(sizeof(data)));\n")
file.Write(" // TODO(gman): Check that data was inserted;\n")
file.Write("}\n")
file.Write("\n")
class PUTnHandler(ArrayArgTypeHandler):
"""Handler for PUTn 'glUniform__v' type functions."""
def __init__(self):
ArrayArgTypeHandler.__init__(self)
def WriteServiceUnitTest(self, func, file):
"""Overridden from TypeHandler."""
ArrayArgTypeHandler.WriteServiceUnitTest(self, func, file)
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgsCountTooLarge) {
EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_args)s));
SpecializedSetup<cmds::%(name)s, 0>(true);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
}
"""
gl_arg_strings = []
arg_strings = []
for count, arg in enumerate(func.GetOriginalArgs()):
# hardcoded to match unit tests.
if count == 0:
# the location of the second element of the 2nd uniform.
# defined in GLES2DecoderBase::SetupShaderForUniform
gl_arg_strings.append("3")
arg_strings.append("ProgramManager::MakeFakeLocation(1, 1)")
elif count == 1:
# the number of elements that gl will be called with.
gl_arg_strings.append("3")
# the number of elements requested in the command.
arg_strings.append("5")
else:
gl_arg_strings.append(arg.GetValidGLArg(func))
if not arg.IsConstant():
arg_strings.append(arg.GetValidArg(func))
extra = {
'gl_args': ", ".join(gl_arg_strings),
'args': ", ".join(arg_strings),
}
self.WriteValidUnitTest(func, file, valid_test, extra)
def WriteImmediateServiceUnitTest(self, func, file):
"""Overridden from TypeHandler."""
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
cmds::%(name)s& cmd = *GetImmediateAs<cmds::%(name)s>();
EXPECT_CALL(
*gl_,
%(gl_func_name)s(%(gl_args)s,
reinterpret_cast<%(data_type)s*>(ImmediateDataAddress(&cmd))));
SpecializedSetup<cmds::%(name)s, 0>(true);
%(data_type)s temp[%(data_count)s * 2] = { 0, };
cmd.Init(%(args)s, &temp[0]);
EXPECT_EQ(error::kNoError,
ExecuteImmediateCmd(cmd, sizeof(temp)));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
}
"""
gl_arg_strings = []
gl_any_strings = []
arg_strings = []
for arg in func.GetOriginalArgs()[0:-1]:
gl_arg_strings.append(arg.GetValidGLArg(func))
gl_any_strings.append("_")
if not arg.IsConstant():
arg_strings.append(arg.GetValidArg(func))
extra = {
'data_type': self.GetArrayType(func),
'data_count': self.GetArrayCount(func),
'args': ", ".join(arg_strings),
'gl_args': ", ".join(gl_arg_strings),
'gl_any_args': ", ".join(gl_any_strings),
}
self.WriteValidUnitTest(func, file, valid_test, extra)
invalid_test = """
TEST_P(%(test_name)s, %(name)sInvalidArgs%(arg_index)d_%(value_index)d) {
cmds::%(name)s& cmd = *GetImmediateAs<cmds::%(name)s>();
EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_any_args)s, _)).Times(0);
SpecializedSetup<cmds::%(name)s, 0>(false);
%(data_type)s temp[%(data_count)s * 2] = { 0, };
cmd.Init(%(all_but_last_args)s, &temp[0]);
EXPECT_EQ(error::%(parse_result)s,
ExecuteImmediateCmd(cmd, sizeof(temp)));%(gl_error_test)s
}
"""
self.WriteInvalidUnitTest(func, file, invalid_test, extra)
def WriteGetDataSizeCode(self, func, file):
"""Overrriden from TypeHandler."""
code = """ uint32_t data_size;
if (!ComputeDataSize(count, sizeof(%s), %d, &data_size)) {
return error::kOutOfBounds;
}
"""
file.Write(code % (self.GetArrayType(func), self.GetArrayCount(func)))
if func.IsImmediate():
file.Write(" if (data_size > immediate_data_size) {\n")
file.Write(" return error::kOutOfBounds;\n")
file.Write(" }\n")
def WriteGLES2Implementation(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("%s GLES2Implementation::%s(%s) {\n" %
(func.return_type, func.original_name,
func.MakeTypedOriginalArgString("")))
file.Write(" GPU_CLIENT_SINGLE_THREAD_CHECK();\n")
func.WriteDestinationInitalizationValidation(file)
self.WriteClientGLCallLog(func, file)
last_arg_name = func.GetLastOriginalArg().name
file.Write(""" GPU_CLIENT_LOG_CODE_BLOCK({
for (GLsizei i = 0; i < count; ++i) {
""")
values_str = ' << ", " << '.join(
["%s[%d + i * %d]" % (
last_arg_name, ndx, self.GetArrayCount(func)) for ndx in range(
0, self.GetArrayCount(func))])
file.Write(' GPU_CLIENT_LOG(" " << i << ": " << %s);\n' % values_str)
file.Write(" }\n });\n")
for arg in func.GetOriginalArgs():
arg.WriteClientSideValidationCode(file, func)
file.Write(" helper_->%sImmediate(%s);\n" %
(func.name, func.MakeInitString("")))
file.Write(" CheckGLError();\n")
file.Write("}\n")
file.Write("\n")
def WriteGLES2ImplementationUnitTest(self, func, file):
"""Writes the GLES2 Implemention unit test."""
code = """
TEST_F(GLES2ImplementationTest, %(name)s) {
%(type)s data[%(count_param)d][%(count)d] = {{0}};
struct Cmds {
cmds::%(name)sImmediate cmd;
%(type)s data[%(count_param)d][%(count)d];
};
Cmds expected;
for (int ii = 0; ii < %(count_param)d; ++ii) {
for (int jj = 0; jj < %(count)d; ++jj) {
data[ii][jj] = static_cast<%(type)s>(ii * %(count)d + jj);
}
}
expected.cmd.Init(%(cmd_args)s, &data[0][0]);
gl_->%(name)s(%(args)s, &data[0][0]);
EXPECT_EQ(0, memcmp(&expected, commands_, sizeof(expected)));
}
"""
cmd_arg_strings = [
arg.GetValidClientSideCmdArg(func) for arg in func.GetCmdArgs()[0:-2]
]
gl_arg_strings = []
count_param = 0
for arg in func.GetOriginalArgs()[0:-1]:
valid_value = arg.GetValidClientSideArg(func)
gl_arg_strings.append(valid_value)
if arg.name == "count":
count_param = int(valid_value)
file.Write(code % {
'name': func.name,
'type': self.GetArrayType(func),
'count': self.GetArrayCount(func),
'args': ", ".join(gl_arg_strings),
'cmd_args': ", ".join(cmd_arg_strings),
'count_param': count_param,
})
# Test constants for invalid values, as they are not tested by the
# service.
constants = [
arg for arg in func.GetOriginalArgs()[0:-1] if arg.IsConstant()
]
if not constants:
return
code = """
TEST_F(GLES2ImplementationTest, %(name)sInvalidConstantArg%(invalid_index)d) {
%(type)s data[%(count_param)d][%(count)d] = {{0}};
for (int ii = 0; ii < %(count_param)d; ++ii) {
for (int jj = 0; jj < %(count)d; ++jj) {
data[ii][jj] = static_cast<%(type)s>(ii * %(count)d + jj);
}
}
gl_->%(name)s(%(args)s, &data[0][0]);
EXPECT_TRUE(NoCommandsWritten());
EXPECT_EQ(%(gl_error)s, CheckError());
}
"""
for invalid_arg in constants:
gl_arg_strings = []
invalid = invalid_arg.GetInvalidArg(func)
for arg in func.GetOriginalArgs()[0:-1]:
if arg is invalid_arg:
gl_arg_strings.append(invalid[0])
else:
valid_value = arg.GetValidClientSideArg(func)
gl_arg_strings.append(valid_value)
if arg.name == "count":
count_param = int(valid_value)
file.Write(code % {
'name': func.name,
'invalid_index': func.GetOriginalArgs().index(invalid_arg),
'type': self.GetArrayType(func),
'count': self.GetArrayCount(func),
'args': ", ".join(gl_arg_strings),
'gl_error': invalid[2],
'count_param': count_param,
})
def WriteImmediateCmdComputeSize(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" static uint32_t ComputeDataSize(GLsizei count) {\n")
file.Write(" return static_cast<uint32_t>(\n")
file.Write(" sizeof(%s) * %d * count); // NOLINT\n" %
(self.GetArrayType(func), self.GetArrayCount(func)))
file.Write(" }\n")
file.Write("\n")
file.Write(" static uint32_t ComputeSize(GLsizei count) {\n")
file.Write(" return static_cast<uint32_t>(\n")
file.Write(
" sizeof(ValueType) + ComputeDataSize(count)); // NOLINT\n")
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdSetHeader(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" void SetHeader(GLsizei count) {\n")
file.Write(
" header.SetCmdByTotalSize<ValueType>(ComputeSize(count));\n")
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdInit(self, func, file):
"""Overrriden from TypeHandler."""
last_arg = func.GetLastOriginalArg()
file.Write(" void Init(%s, %s _%s) {\n" %
(func.MakeTypedCmdArgString("_"),
last_arg.type, last_arg.name))
file.Write(" SetHeader(_count);\n")
args = func.GetCmdArgs()
for arg in args:
file.Write(" %s = _%s;\n" % (arg.name, arg.name))
file.Write(" memcpy(ImmediateDataAddress(this),\n")
file.Write(" _%s, ComputeDataSize(_count));\n" % last_arg.name)
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdSet(self, func, file):
"""Overrriden from TypeHandler."""
last_arg = func.GetLastOriginalArg()
copy_args = func.MakeCmdArgString("_", False)
file.Write(" void* Set(void* cmd%s, %s _%s) {\n" %
(func.MakeTypedCmdArgString("_", True),
last_arg.type, last_arg.name))
file.Write(" static_cast<ValueType*>(cmd)->Init(%s, _%s);\n" %
(copy_args, last_arg.name))
file.Write(" const uint32_t size = ComputeSize(_count);\n")
file.Write(" return NextImmediateCmdAddressTotalSize<ValueType>("
"cmd, size);\n")
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdHelper(self, func, file):
"""Overrriden from TypeHandler."""
code = """ void %(name)s(%(typed_args)s) {
const uint32_t size = gles2::cmds::%(name)s::ComputeSize(count);
gles2::cmds::%(name)s* c =
GetImmediateCmdSpaceTotalSize<gles2::cmds::%(name)s>(size);
if (c) {
c->Init(%(args)s);
}
}
"""
file.Write(code % {
"name": func.name,
"typed_args": func.MakeTypedInitString(""),
"args": func.MakeInitString("")
})
def WriteImmediateFormatTest(self, func, file):
"""Overrriden from TypeHandler."""
args = func.GetCmdArgs()
count_param = 0
for arg in args:
if arg.name == "count":
count_param = int(arg.GetValidClientSideCmdArg(func))
file.Write("TEST_F(GLES2FormatTest, %s) {\n" % func.name)
file.Write(" const int kSomeBaseValueToTestWith = 51;\n")
file.Write(" static %s data[] = {\n" % self.GetArrayType(func))
for v in range(0, self.GetArrayCount(func) * count_param):
file.Write(" static_cast<%s>(kSomeBaseValueToTestWith + %d),\n" %
(self.GetArrayType(func), v))
file.Write(" };\n")
file.Write(" cmds::%s& cmd = *GetBufferAs<cmds::%s>();\n" %
(func.name, func.name))
file.Write(" const GLsizei kNumElements = %d;\n" % count_param)
file.Write(" const size_t kExpectedCmdSize =\n")
file.Write(" sizeof(cmd) + kNumElements * sizeof(%s) * %d;\n" %
(self.GetArrayType(func), self.GetArrayCount(func)))
file.Write(" void* next_cmd = cmd.Set(\n")
file.Write(" &cmd")
for value, arg in enumerate(args):
file.Write(",\n static_cast<%s>(%d)" % (arg.type, value + 1))
file.Write(",\n data);\n")
file.Write(" EXPECT_EQ(static_cast<uint32_t>(cmds::%s::kCmdId),\n" %
func.name)
file.Write(" cmd.header.command);\n")
file.Write(" EXPECT_EQ(kExpectedCmdSize, cmd.header.size * 4u);\n")
for value, arg in enumerate(args):
file.Write(" EXPECT_EQ(static_cast<%s>(%d), cmd.%s);\n" %
(arg.type, value + 1, arg.name))
file.Write(" CheckBytesWrittenMatchesExpectedSize(\n")
file.Write(" next_cmd, sizeof(cmd) +\n")
file.Write(" RoundSizeToMultipleOfEntries(sizeof(data)));\n")
file.Write(" // TODO(gman): Check that data was inserted;\n")
file.Write("}\n")
file.Write("\n")
class PUTXnHandler(ArrayArgTypeHandler):
"""Handler for glUniform?f functions."""
def __init__(self):
ArrayArgTypeHandler.__init__(self)
def WriteHandlerImplementation(self, func, file):
"""Overrriden from TypeHandler."""
code = """ %(type)s temp[%(count)s] = { %(values)s};
Do%(name)sv(%(location)s, 1, &temp[0]);
"""
values = ""
args = func.GetOriginalArgs()
count = int(self.GetArrayCount(func))
num_args = len(args)
for ii in range(count):
values += "%s, " % args[len(args) - count + ii].name
file.Write(code % {
'name': func.name,
'count': self.GetArrayCount(func),
'type': self.GetArrayType(func),
'location': args[0].name,
'args': func.MakeOriginalArgString(""),
'values': values,
})
def WriteServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
EXPECT_CALL(*gl_, %(name)sv(%(local_args)s));
SpecializedSetup<cmds::%(name)s, 0>(true);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
}
"""
args = func.GetOriginalArgs()
local_args = "%s, 1, _" % args[0].GetValidGLArg(func)
self.WriteValidUnitTest(func, file, valid_test, {
'name': func.name,
'count': self.GetArrayCount(func),
'local_args': local_args,
})
invalid_test = """
TEST_P(%(test_name)s, %(name)sInvalidArgs%(arg_index)d_%(value_index)d) {
EXPECT_CALL(*gl_, %(name)sv(_, _, _).Times(0);
SpecializedSetup<cmds::%(name)s, 0>(false);
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::%(parse_result)s, ExecuteCmd(cmd));%(gl_error_test)s
}
"""
self.WriteInvalidUnitTest(func, file, invalid_test, {
'name': func.GetInfo('name'),
'count': self.GetArrayCount(func),
})
class GLcharHandler(CustomHandler):
"""Handler for functions that pass a single string ."""
def __init__(self):
CustomHandler.__init__(self)
def WriteImmediateCmdComputeSize(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(" static uint32_t ComputeSize(uint32_t data_size) {\n")
file.Write(" return static_cast<uint32_t>(\n")
file.Write(" sizeof(ValueType) + data_size); // NOLINT\n")
file.Write(" }\n")
def WriteImmediateCmdSetHeader(self, func, file):
"""Overrriden from TypeHandler."""
code = """
void SetHeader(uint32_t data_size) {
header.SetCmdBySize<ValueType>(data_size);
}
"""
file.Write(code)
def WriteImmediateCmdInit(self, func, file):
"""Overrriden from TypeHandler."""
last_arg = func.GetLastOriginalArg()
args = func.GetCmdArgs()
set_code = []
for arg in args:
set_code.append(" %s = _%s;" % (arg.name, arg.name))
code = """
void Init(%(typed_args)s, uint32_t _data_size) {
SetHeader(_data_size);
%(set_code)s
memcpy(ImmediateDataAddress(this), _%(last_arg)s, _data_size);
}
"""
file.Write(code % {
"typed_args": func.MakeTypedArgString("_"),
"set_code": "\n".join(set_code),
"last_arg": last_arg.name
})
def WriteImmediateCmdSet(self, func, file):
"""Overrriden from TypeHandler."""
last_arg = func.GetLastOriginalArg()
file.Write(" void* Set(void* cmd%s, uint32_t _data_size) {\n" %
func.MakeTypedCmdArgString("_", True))
file.Write(" static_cast<ValueType*>(cmd)->Init(%s, _data_size);\n" %
func.MakeCmdArgString("_"))
file.Write(" return NextImmediateCmdAddress<ValueType>("
"cmd, _data_size);\n")
file.Write(" }\n")
file.Write("\n")
def WriteImmediateCmdHelper(self, func, file):
"""Overrriden from TypeHandler."""
code = """ void %(name)s(%(typed_args)s) {
const uint32_t data_size = strlen(name);
gles2::cmds::%(name)s* c =
GetImmediateCmdSpace<gles2::cmds::%(name)s>(data_size);
if (c) {
c->Init(%(args)s, data_size);
}
}
"""
file.Write(code % {
"name": func.name,
"typed_args": func.MakeTypedOriginalArgString(""),
"args": func.MakeOriginalArgString(""),
})
def WriteImmediateFormatTest(self, func, file):
"""Overrriden from TypeHandler."""
init_code = []
check_code = []
all_but_last_arg = func.GetCmdArgs()[:-1]
for value, arg in enumerate(all_but_last_arg):
init_code.append(" static_cast<%s>(%d)," % (arg.type, value + 11))
for value, arg in enumerate(all_but_last_arg):
check_code.append(" EXPECT_EQ(static_cast<%s>(%d), cmd.%s);" %
(arg.type, value + 11, arg.name))
code = """
TEST_F(GLES2FormatTest, %(func_name)s) {
cmds::%(func_name)s& cmd = *GetBufferAs<cmds::%(func_name)s>();
static const char* const test_str = \"test string\";
void* next_cmd = cmd.Set(
&cmd,
%(init_code)s
test_str,
strlen(test_str));
EXPECT_EQ(static_cast<uint32_t>(cmds::%(func_name)s::kCmdId),
cmd.header.command);
EXPECT_EQ(sizeof(cmd) +
RoundSizeToMultipleOfEntries(strlen(test_str)),
cmd.header.size * 4u);
EXPECT_EQ(static_cast<char*>(next_cmd),
reinterpret_cast<char*>(&cmd) + sizeof(cmd) +
RoundSizeToMultipleOfEntries(strlen(test_str)));
%(check_code)s
EXPECT_EQ(static_cast<uint32_t>(strlen(test_str)), cmd.data_size);
EXPECT_EQ(0, memcmp(test_str, ImmediateDataAddress(&cmd), strlen(test_str)));
CheckBytesWritten(
next_cmd,
sizeof(cmd) + RoundSizeToMultipleOfEntries(strlen(test_str)),
sizeof(cmd) + strlen(test_str));
}
"""
file.Write(code % {
'func_name': func.name,
'init_code': "\n".join(init_code),
'check_code': "\n".join(check_code),
})
class GLcharNHandler(CustomHandler):
"""Handler for functions that pass a single string with an optional len."""
def __init__(self):
CustomHandler.__init__(self)
def InitFunction(self, func):
"""Overrriden from TypeHandler."""
func.cmd_args = []
func.AddCmdArg(Argument('bucket_id', 'GLuint'))
def NeedsDataTransferFunction(self, func):
"""Overriden from TypeHandler."""
return False
def AddBucketFunction(self, generator, func):
"""Overrriden from TypeHandler."""
pass
def WriteServiceImplementation(self, func, file):
"""Overrriden from TypeHandler."""
file.Write("""error::Error GLES2DecoderImpl::Handle%(name)s(
uint32_t immediate_data_size, const gles2::cmds::%(name)s& c) {
GLuint bucket_id = static_cast<GLuint>(c.%(bucket_id)s);
Bucket* bucket = GetBucket(bucket_id);
if (!bucket || bucket->size() == 0) {
return error::kInvalidArguments;
}
std::string str;
if (!bucket->GetAsString(&str)) {
return error::kInvalidArguments;
}
%(gl_func_name)s(0, str.c_str());
return error::kNoError;
}
""" % {
'name': func.name,
'gl_func_name': func.GetGLFunctionName(),
'bucket_id': func.cmd_args[0].name,
})
class IsHandler(TypeHandler):
"""Handler for glIs____ type and glGetError functions."""
def __init__(self):
TypeHandler.__init__(self)
def InitFunction(self, func):
"""Overrriden from TypeHandler."""
func.AddCmdArg(Argument("result_shm_id", 'uint32_t'))
func.AddCmdArg(Argument("result_shm_offset", 'uint32_t'))
if func.GetInfo('result') == None:
func.AddInfo('result', ['uint32_t'])
def WriteServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_args)s));
SpecializedSetup<cmds::%(name)s, 0>(true);
cmds::%(name)s cmd;
cmd.Init(%(args)s%(comma)sshared_memory_id_, shared_memory_offset_);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
}
"""
comma = ""
if len(func.GetOriginalArgs()):
comma =", "
self.WriteValidUnitTest(func, file, valid_test, {
'comma': comma,
})
invalid_test = """
TEST_P(%(test_name)s, %(name)sInvalidArgs%(arg_index)d_%(value_index)d) {
EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_args)s)).Times(0);
SpecializedSetup<cmds::%(name)s, 0>(false);
cmds::%(name)s cmd;
cmd.Init(%(args)s%(comma)sshared_memory_id_, shared_memory_offset_);
EXPECT_EQ(error::%(parse_result)s, ExecuteCmd(cmd));%(gl_error_test)s
}
"""
self.WriteInvalidUnitTest(func, file, invalid_test, {
'comma': comma,
})
invalid_test = """
TEST_P(%(test_name)s, %(name)sInvalidArgsBadSharedMemoryId) {
EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_args)s)).Times(0);
SpecializedSetup<cmds::%(name)s, 0>(false);
cmds::%(name)s cmd;
cmd.Init(%(args)s%(comma)skInvalidSharedMemoryId, shared_memory_offset_);
EXPECT_EQ(error::kOutOfBounds, ExecuteCmd(cmd));
cmd.Init(%(args)s%(comma)sshared_memory_id_, kInvalidSharedMemoryOffset);
EXPECT_EQ(error::kOutOfBounds, ExecuteCmd(cmd));
}
"""
self.WriteValidUnitTest(func, file, invalid_test, {
'comma': comma,
})
def WriteServiceImplementation(self, func, file):
"""Overrriden from TypeHandler."""
file.Write(
"error::Error GLES2DecoderImpl::Handle%s(\n" % func.name)
file.Write(
" uint32_t immediate_data_size, const gles2::cmds::%s& c) {\n" %
func.name)
args = func.GetOriginalArgs()
for arg in args:
arg.WriteGetCode(file)
code = """ typedef cmds::%(func_name)s::Result Result;
Result* result_dst = GetSharedMemoryAs<Result*>(
c.result_shm_id, c.result_shm_offset, sizeof(*result_dst));
if (!result_dst) {
return error::kOutOfBounds;
}
"""
file.Write(code % {'func_name': func.name})
func.WriteHandlerValidation(file)
file.Write(" *result_dst = %s(%s);\n" %
(func.GetGLFunctionName(), func.MakeOriginalArgString("")))
file.Write(" return error::kNoError;\n")
file.Write("}\n")
file.Write("\n")
def WriteGLES2Implementation(self, func, file):
"""Overrriden from TypeHandler."""
impl_func = func.GetInfo('impl_func')
if impl_func == None or impl_func == True:
error_value = func.GetInfo("error_value") or "GL_FALSE"
file.Write("%s GLES2Implementation::%s(%s) {\n" %
(func.return_type, func.original_name,
func.MakeTypedOriginalArgString("")))
file.Write(" GPU_CLIENT_SINGLE_THREAD_CHECK();\n")
self.WriteTraceEvent(func, file)
func.WriteDestinationInitalizationValidation(file)
self.WriteClientGLCallLog(func, file)
file.Write(" typedef cmds::%s::Result Result;\n" % func.name)
file.Write(" Result* result = GetResultAs<Result*>();\n")
file.Write(" if (!result) {\n")
file.Write(" return %s;\n" % error_value)
file.Write(" }\n")
file.Write(" *result = 0;\n")
arg_string = func.MakeOriginalArgString("")
comma = ""
if len(arg_string) > 0:
comma = ", "
file.Write(
" helper_->%s(%s%sGetResultShmId(), GetResultShmOffset());\n" %
(func.name, arg_string, comma))
file.Write(" WaitForCmd();\n")
file.Write(" %s result_value = *result;\n" % func.return_type)
file.Write(' GPU_CLIENT_LOG("returned " << result_value);\n')
file.Write(" CheckGLError();\n")
file.Write(" return result_value;\n")
file.Write("}\n")
file.Write("\n")
def WriteGLES2ImplementationUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
client_test = func.GetInfo('client_test')
if client_test == None or client_test == True:
code = """
TEST_F(GLES2ImplementationTest, %(name)s) {
struct Cmds {
cmds::%(name)s cmd;
};
Cmds expected;
ExpectedMemoryInfo result1 =
GetExpectedResultMemory(sizeof(cmds::%(name)s::Result));
expected.cmd.Init(1, result1.id, result1.offset);
EXPECT_CALL(*command_buffer(), OnFlush())
.WillOnce(SetMemory(result1.ptr, uint32_t(1)))
.RetiresOnSaturation();
GLboolean result = gl_->%(name)s(1);
EXPECT_EQ(0, memcmp(&expected, commands_, sizeof(expected)));
EXPECT_TRUE(result);
}
"""
file.Write(code % {
'name': func.name,
})
class STRnHandler(TypeHandler):
"""Handler for GetProgramInfoLog, GetShaderInfoLog, GetShaderSource, and
GetTranslatedShaderSourceANGLE."""
def __init__(self):
TypeHandler.__init__(self)
def InitFunction(self, func):
"""Overrriden from TypeHandler."""
# remove all but the first cmd args.
cmd_args = func.GetCmdArgs()
func.ClearCmdArgs()
func.AddCmdArg(cmd_args[0])
# add on a bucket id.
func.AddCmdArg(Argument('bucket_id', 'uint32_t'))
def WriteGLES2Implementation(self, func, file):
"""Overrriden from TypeHandler."""
code_1 = """%(return_type)s GLES2Implementation::%(func_name)s(%(args)s) {
GPU_CLIENT_SINGLE_THREAD_CHECK();
"""
code_2 = """ GPU_CLIENT_LOG("[" << GetLogPrefix()
<< "] gl%(func_name)s" << "("
<< %(arg0)s << ", "
<< %(arg1)s << ", "
<< static_cast<void*>(%(arg2)s) << ", "
<< static_cast<void*>(%(arg3)s) << ")");
helper_->SetBucketSize(kResultBucketId, 0);
helper_->%(func_name)s(%(id_name)s, kResultBucketId);
std::string str;
GLsizei max_size = 0;
if (GetBucketAsString(kResultBucketId, &str)) {
if (bufsize > 0) {
max_size =
std::min(static_cast<size_t>(%(bufsize_name)s) - 1, str.size());
memcpy(%(dest_name)s, str.c_str(), max_size);
%(dest_name)s[max_size] = '\\0';
GPU_CLIENT_LOG("------\\n" << %(dest_name)s << "\\n------");
}
}
if (%(length_name)s != NULL) {
*%(length_name)s = max_size;
}
CheckGLError();
}
"""
args = func.GetOriginalArgs()
str_args = {
'return_type': func.return_type,
'func_name': func.original_name,
'args': func.MakeTypedOriginalArgString(""),
'id_name': args[0].name,
'bufsize_name': args[1].name,
'length_name': args[2].name,
'dest_name': args[3].name,
'arg0': args[0].name,
'arg1': args[1].name,
'arg2': args[2].name,
'arg3': args[3].name,
}
file.Write(code_1 % str_args)
func.WriteDestinationInitalizationValidation(file)
file.Write(code_2 % str_args)
def WriteServiceUnitTest(self, func, file):
"""Overrriden from TypeHandler."""
valid_test = """
TEST_P(%(test_name)s, %(name)sValidArgs) {
const char* kInfo = "hello";
const uint32_t kBucketId = 123;
SpecializedSetup<cmds::%(name)s, 0>(true);
%(expect_len_code)s
EXPECT_CALL(*gl_, %(gl_func_name)s(%(gl_args)s))
.WillOnce(DoAll(SetArgumentPointee<2>(strlen(kInfo)),
SetArrayArgument<3>(kInfo, kInfo + strlen(kInfo) + 1)));
cmds::%(name)s cmd;
cmd.Init(%(args)s);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
CommonDecoder::Bucket* bucket = decoder_->GetBucket(kBucketId);
ASSERT_TRUE(bucket != NULL);
EXPECT_EQ(strlen(kInfo) + 1, bucket->size());
EXPECT_EQ(0, memcmp(bucket->GetData(0, bucket->size()), kInfo,
bucket->size()));
EXPECT_EQ(GL_NO_ERROR, GetGLError());
}
"""
args = func.GetOriginalArgs()
id_name = args[0].GetValidGLArg(func)
get_len_func = func.GetInfo('get_len_func')
get_len_enum = func.GetInfo('get_len_enum')
sub = {
'id_name': id_name,
'get_len_func': get_len_func,
'get_len_enum': get_len_enum,
'gl_args': '%s, strlen(kInfo) + 1, _, _' %
args[0].GetValidGLArg(func),
'args': '%s, kBucketId' % args[0].GetValidArg(func),
'expect_len_code': '',
}
if get_len_func and get_len_func[0:2] == 'gl':
sub['expect_len_code'] = (
" EXPECT_CALL(*gl_, %s(%s, %s, _))\n"
" .WillOnce(SetArgumentPointee<2>(strlen(kInfo) + 1));") % (
get_len_func[2:], id_name, get_len_enum)
self.WriteValidUnitTest(func, file, valid_test, sub)
invalid_test = """
TEST_P(%(test_name)s, %(name)sInvalidArgs) {
const uint32_t kBucketId = 123;
EXPECT_CALL(*gl_, %(gl_func_name)s(_, _, _, _))
.Times(0);
cmds::%(name)s cmd;
cmd.Init(kInvalidClientId, kBucketId);
EXPECT_EQ(error::kNoError, ExecuteCmd(cmd));
EXPECT_EQ(GL_INVALID_VALUE, GetGLError());
}
"""
self.WriteValidUnitTest(func, file, invalid_test)
def WriteServiceImplementation(self, func, file):
"""Overrriden from TypeHandler."""
pass
class NamedType(object):
"""A class that represents a type of an argument in a client function.
A type of an argument that is to be passed through in the command buffer
command. Currently used only for the arguments that are specificly named in
the 'cmd_buffer_functions.txt' file, mostly enums.
"""
def __init__(self, info):
assert not 'is_complete' in info or info['is_complete'] == True
self.info = info
self.valid = info['valid']
if 'invalid' in info:
self.invalid = info['invalid']
else:
self.invalid = []
def GetType(self):
return self.info['type']
def GetInvalidValues(self):
return self.invalid
def GetValidValues(self):
return self.valid
def IsConstant(self):
if not 'is_complete' in self.info:
return False
return len(self.GetValidValues()) == 1
def GetConstantValue(self):
return self.GetValidValues()[0]
class Argument(object):
"""A class that represents a function argument."""
cmd_type_map_ = {
'GLenum': 'uint32_t',
'GLint': 'int32_t',
'GLintptr': 'int32_t',
'GLsizei': 'int32_t',
'GLsizeiptr': 'int32_t',
'GLfloat': 'float',
'GLclampf': 'float',
}
need_validation_ = ['GLsizei*', 'GLboolean*', 'GLenum*', 'GLint*']
def __init__(self, name, type):
self.name = name
self.optional = type.endswith("Optional*")
if self.optional:
type = type[:-9] + "*"
self.type = type
if type in self.cmd_type_map_:
self.cmd_type = self.cmd_type_map_[type]
else:
self.cmd_type = 'uint32_t'
def IsPointer(self):
"""Returns true if argument is a pointer."""
return False
def IsConstant(self):
"""Returns true if the argument has only one valid value."""
return False
def AddCmdArgs(self, args):
"""Adds command arguments for this argument to the given list."""
if not self.IsConstant():
return args.append(self)
def AddInitArgs(self, args):
"""Adds init arguments for this argument to the given list."""
if not self.IsConstant():
return args.append(self)
def GetValidArg(self, func):
"""Gets a valid value for this argument."""
valid_arg = func.GetValidArg(self)
if valid_arg != None:
return valid_arg
index = func.GetOriginalArgs().index(self)
return str(index + 1)
def GetValidClientSideArg(self, func):
"""Gets a valid value for this argument."""
valid_arg = func.GetValidArg(self)
if valid_arg != None:
return valid_arg
index = func.GetOriginalArgs().index(self)
return str(index + 1)
def GetValidClientSideCmdArg(self, func):
"""Gets a valid value for this argument."""
valid_arg = func.GetValidArg(self)
if valid_arg != None:
return valid_arg
try:
index = func.GetOriginalArgs().index(self)
return str(index + 1)
except ValueError:
pass
index = func.GetCmdArgs().index(self)
return str(index + 1)
def GetValidGLArg(self, func):
"""Gets a valid GL value for this argument."""
return self.GetValidArg(func)
def GetValidNonCachedClientSideArg(self, func):
"""Returns a valid value for this argument in a GL call.
Using the value will produce a command buffer service invocation.
Returns None if there is no such value."""
return '123'
def GetValidNonCachedClientSideCmdArg(self, func):
"""Returns a valid value for this argument in a command buffer command.
Calling the GL function with the value returned by
GetValidNonCachedClientSideArg will result in a command buffer command
that contains the value returned by this function. """
return '123'
def GetNumInvalidValues(self, func):
"""returns the number of invalid values to be tested."""
return 0
def GetInvalidArg(self, index):
"""returns an invalid value and expected parse result by index."""
return ("---ERROR0---", "---ERROR2---", None)
def GetLogArg(self):
"""Get argument appropriate for LOG macro."""
if self.type == 'GLboolean':
return 'GLES2Util::GetStringBool(%s)' % self.name
if self.type == 'GLenum':
return 'GLES2Util::GetStringEnum(%s)' % self.name
return self.name
def WriteGetCode(self, file):
"""Writes the code to get an argument from a command structure."""
file.Write(" %s %s = static_cast<%s>(c.%s);\n" %
(self.type, self.name, self.type, self.name))
def WriteValidationCode(self, file, func):
"""Writes the validation code for an argument."""
pass
def WriteClientSideValidationCode(self, file, func):
"""Writes the validation code for an argument."""
pass
def WriteDestinationInitalizationValidation(self, file, func):
"""Writes the client side destintion initialization validation."""
pass
def WriteDestinationInitalizationValidatationIfNeeded(self, file, func):
"""Writes the client side destintion initialization validation if needed."""
parts = self.type.split(" ")
if len(parts) > 1:
return
if parts[0] in self.need_validation_:
file.Write(
" GPU_CLIENT_VALIDATE_DESTINATION_%sINITALIZATION(%s, %s);\n" %
("OPTIONAL_" if self.optional else "", self.type[:-1], self.name))
def WriteGetAddress(self, file):
"""Writes the code to get the address this argument refers to."""
pass
def GetImmediateVersion(self):
"""Gets the immediate version of this argument."""
return self
def GetBucketVersion(self):
"""Gets the bucket version of this argument."""
return self
class BoolArgument(Argument):
"""class for GLboolean"""
def __init__(self, name, type):
Argument.__init__(self, name, 'GLboolean')
def GetValidArg(self, func):
"""Gets a valid value for this argument."""
return 'true'
def GetValidClientSideArg(self, func):
"""Gets a valid value for this argument."""
return 'true'
def GetValidClientSideCmdArg(self, func):
"""Gets a valid value for this argument."""
return 'true'
def GetValidGLArg(self, func):
"""Gets a valid GL value for this argument."""
return 'true'
class UniformLocationArgument(Argument):
"""class for uniform locations."""
def __init__(self, name):
Argument.__init__(self, name, "GLint")
def WriteGetCode(self, file):
"""Writes the code to get an argument from a command structure."""
code = """ %s %s = static_cast<%s>(c.%s);
"""
file.Write(code % (self.type, self.name, self.type, self.name))
class DataSizeArgument(Argument):
"""class for data_size which Bucket commands do not need."""
def __init__(self, name):
Argument.__init__(self, name, "uint32_t")
def GetBucketVersion(self):
return None
class SizeArgument(Argument):
"""class for GLsizei and GLsizeiptr."""
def __init__(self, name, type):
Argument.__init__(self, name, type)
def GetNumInvalidValues(self, func):
"""overridden from Argument."""
if func.IsImmediate():
return 0
return 1
def GetInvalidArg(self, index):
"""overridden from Argument."""
return ("-1", "kNoError", "GL_INVALID_VALUE")
def WriteValidationCode(self, file, func):
"""overridden from Argument."""
file.Write(" if (%s < 0) {\n" % self.name)
file.Write(
" LOCAL_SET_GL_ERROR(GL_INVALID_VALUE, \"gl%s\", \"%s < 0\");\n" %
(func.original_name, self.name))
file.Write(" return error::kNoError;\n")
file.Write(" }\n")
def WriteClientSideValidationCode(self, file, func):
"""overridden from Argument."""
file.Write(" if (%s < 0) {\n" % self.name)
file.Write(
" SetGLError(GL_INVALID_VALUE, \"gl%s\", \"%s < 0\");\n" %
(func.original_name, self.name))
file.Write(" return;\n")
file.Write(" }\n")
class SizeNotNegativeArgument(SizeArgument):
"""class for GLsizeiNotNegative. It's NEVER allowed to be negative"""
def __init__(self, name, type, gl_type):
SizeArgument.__init__(self, name, gl_type)
def GetInvalidArg(self, index):
"""overridden from SizeArgument."""
return ("-1", "kOutOfBounds", "GL_NO_ERROR")
def WriteValidationCode(self, file, func):
"""overridden from SizeArgument."""
pass
class EnumBaseArgument(Argument):
"""Base class for EnumArgument, IntArgument and ValidatedBoolArgument"""
def __init__(self, name, gl_type, type, gl_error):
Argument.__init__(self, name, gl_type)
self.local_type = type
self.gl_error = gl_error
name = type[len(gl_type):]
self.type_name = name
self.named_type = NamedType(_NAMED_TYPE_INFO[name])
def IsConstant(self):
return self.named_type.IsConstant()
def GetConstantValue(self):
return self.named_type.GetConstantValue()
def WriteValidationCode(self, file, func):
if self.named_type.IsConstant():
return
file.Write(" if (!validators_->%s.IsValid(%s)) {\n" %
(ToUnderscore(self.type_name), self.name))
if self.gl_error == "GL_INVALID_ENUM":
file.Write(
" LOCAL_SET_GL_ERROR_INVALID_ENUM(\"gl%s\", %s, \"%s\");\n" %
(func.original_name, self.name, self.name))
else:
file.Write(
" LOCAL_SET_GL_ERROR(%s, \"gl%s\", \"%s %s\");\n" %
(self.gl_error, func.original_name, self.name, self.gl_error))
file.Write(" return error::kNoError;\n")
file.Write(" }\n")
def WriteClientSideValidationCode(self, file, func):
if not self.named_type.IsConstant():
return
file.Write(" if (%s != %s) {" % (self.name,
self.GetConstantValue()))
file.Write(
" SetGLError(%s, \"gl%s\", \"%s %s\");\n" %
(self.gl_error, func.original_name, self.name, self.gl_error))
if func.return_type == "void":
file.Write(" return;\n")
else:
file.Write(" return %s;\n" % func.GetErrorReturnString())
file.Write(" }\n")
def GetValidArg(self, func):
valid_arg = func.GetValidArg(self)
if valid_arg != None:
return valid_arg
valid = self.named_type.GetValidValues()
if valid:
num_valid = len(valid)
return valid[0]
index = func.GetOriginalArgs().index(self)
return str(index + 1)
def GetValidClientSideArg(self, func):
"""Gets a valid value for this argument."""
return self.GetValidArg(func)
def GetValidClientSideCmdArg(self, func):
"""Gets a valid value for this argument."""
valid_arg = func.GetValidArg(self)
if valid_arg != None:
return valid_arg
valid = self.named_type.GetValidValues()
if valid:
num_valid = len(valid)
return valid[0]
try:
index = func.GetOriginalArgs().index(self)
return str(index + 1)
except ValueError:
pass
index = func.GetCmdArgs().index(self)
return str(index + 1)
def GetValidGLArg(self, func):
"""Gets a valid value for this argument."""
return self.GetValidArg(func)
def GetNumInvalidValues(self, func):
"""returns the number of invalid values to be tested."""
return len(self.named_type.GetInvalidValues())
def GetInvalidArg(self, index):
"""returns an invalid value by index."""
invalid = self.named_type.GetInvalidValues()
if invalid:
num_invalid = len(invalid)
if index >= num_invalid:
index = num_invalid - 1
return (invalid[index], "kNoError", self.gl_error)
return ("---ERROR1---", "kNoError", self.gl_error)
class EnumArgument(EnumBaseArgument):
"""A class that represents a GLenum argument"""
def __init__(self, name, type):
EnumBaseArgument.__init__(self, name, "GLenum", type, "GL_INVALID_ENUM")
def GetLogArg(self):
"""Overridden from Argument."""
return ("GLES2Util::GetString%s(%s)" %
(self.type_name, self.name))
class IntArgument(EnumBaseArgument):
"""A class for a GLint argument that can only except specific values.
For example glTexImage2D takes a GLint for its internalformat
argument instead of a GLenum.
"""
def __init__(self, name, type):
EnumBaseArgument.__init__(self, name, "GLint", type, "GL_INVALID_VALUE")
class ValidatedBoolArgument(EnumBaseArgument):
"""A class for a GLboolean argument that can only except specific values.
For example glUniformMatrix takes a GLboolean for it's transpose but it
must be false.
"""
def __init__(self, name, type):
EnumBaseArgument.__init__(self, name, "GLboolean", type, "GL_INVALID_VALUE")
def GetLogArg(self):
"""Overridden from Argument."""
return 'GLES2Util::GetStringBool(%s)' % self.name
class ImmediatePointerArgument(Argument):
"""A class that represents an immediate argument to a function.
An immediate argument is one where the data follows the command.
"""
def __init__(self, name, type):
Argument.__init__(self, name, type)
def IsPointer(self):
return True
def GetPointedType(self):
match = re.match('(const\s+)?(?P<element_type>[\w]+)\s*\*', self.type)
assert match
return match.groupdict()['element_type']
def AddCmdArgs(self, args):
"""Overridden from Argument."""
pass
def WriteGetCode(self, file):
"""Overridden from Argument."""
file.Write(
" %s %s = GetImmediateDataAs<%s>(\n" %
(self.type, self.name, self.type))
file.Write(" c, data_size, immediate_data_size);\n")
def WriteValidationCode(self, file, func):
"""Overridden from Argument."""
file.Write(" if (%s == NULL) {\n" % self.name)
file.Write(" return error::kOutOfBounds;\n")
file.Write(" }\n")
def GetImmediateVersion(self):
"""Overridden from Argument."""
return None
def WriteDestinationInitalizationValidation(self, file, func):
"""Overridden from Argument."""
self.WriteDestinationInitalizationValidatationIfNeeded(file, func)
def GetLogArg(self):
"""Overridden from Argument."""
return "static_cast<const void*>(%s)" % self.name
class BucketPointerArgument(Argument):
"""A class that represents an bucket argument to a function."""
def __init__(self, name, type):
Argument.__init__(self, name, type)
def AddCmdArgs(self, args):
"""Overridden from Argument."""
pass
def WriteGetCode(self, file):
"""Overridden from Argument."""
file.Write(
" %s %s = bucket->GetData(0, data_size);\n" %
(self.type, self.name))
def WriteValidationCode(self, file, func):
"""Overridden from Argument."""
pass
def GetImmediateVersion(self):
"""Overridden from Argument."""
return None
def WriteDestinationInitalizationValidation(self, file, func):
"""Overridden from Argument."""
self.WriteDestinationInitalizationValidatationIfNeeded(file, func)
def GetLogArg(self):
"""Overridden from Argument."""
return "static_cast<const void*>(%s)" % self.name
class PointerArgument(Argument):
"""A class that represents a pointer argument to a function."""
def __init__(self, name, type):
Argument.__init__(self, name, type)
def IsPointer(self):
"""Returns true if argument is a pointer."""
return True
def GetPointedType(self):
match = re.match('(const\s+)?(?P<element_type>[\w]+)\s*\*', self.type)
assert match
return match.groupdict()['element_type']
def GetValidArg(self, func):
"""Overridden from Argument."""
return "shared_memory_id_, shared_memory_offset_"
def GetValidGLArg(self, func):
"""Overridden from Argument."""
return "reinterpret_cast<%s>(shared_memory_address_)" % self.type
def GetNumInvalidValues(self, func):
"""Overridden from Argument."""
return 2
def GetInvalidArg(self, index):
"""Overridden from Argument."""
if index == 0:
return ("kInvalidSharedMemoryId, 0", "kOutOfBounds", None)
else:
return ("shared_memory_id_, kInvalidSharedMemoryOffset",
"kOutOfBounds", None)
def GetLogArg(self):
"""Overridden from Argument."""
return "static_cast<const void*>(%s)" % self.name
def AddCmdArgs(self, args):
"""Overridden from Argument."""
args.append(Argument("%s_shm_id" % self.name, 'uint32_t'))
args.append(Argument("%s_shm_offset" % self.name, 'uint32_t'))
def WriteGetCode(self, file):
"""Overridden from Argument."""
file.Write(
" %s %s = GetSharedMemoryAs<%s>(\n" %
(self.type, self.name, self.type))
file.Write(
" c.%s_shm_id, c.%s_shm_offset, data_size);\n" %
(self.name, self.name))
def WriteGetAddress(self, file):
"""Overridden from Argument."""
file.Write(
" %s %s = GetSharedMemoryAs<%s>(\n" %
(self.type, self.name, self.type))
file.Write(
" %s_shm_id, %s_shm_offset, %s_size);\n" %
(self.name, self.name, self.name))
def WriteValidationCode(self, file, func):
"""Overridden from Argument."""
file.Write(" if (%s == NULL) {\n" % self.name)
file.Write(" return error::kOutOfBounds;\n")
file.Write(" }\n")
def GetImmediateVersion(self):
"""Overridden from Argument."""
return ImmediatePointerArgument(self.name, self.type)
def GetBucketVersion(self):
"""Overridden from Argument."""
if self.type == "const char*":
return InputStringBucketArgument(self.name, self.type)
return BucketPointerArgument(self.name, self.type)
def WriteDestinationInitalizationValidation(self, file, func):
"""Overridden from Argument."""
self.WriteDestinationInitalizationValidatationIfNeeded(file, func)
class InputStringBucketArgument(Argument):
"""An string input argument where the string is passed in a bucket."""
def __init__(self, name, type):
Argument.__init__(self, name + "_bucket_id", "uint32_t")
def WriteGetCode(self, file):
"""Overridden from Argument."""
code = """
Bucket* %(name)s_bucket = GetBucket(c.%(name)s);
if (!%(name)s_bucket) {
return error::kInvalidArguments;
}
std::string %(name)s_str;
if (!%(name)s_bucket->GetAsString(&%(name)s_str)) {
return error::kInvalidArguments;
}
const char* %(name)s = %(name)s_str.c_str();
"""
file.Write(code % {
'name': self.name,
})
def GetValidArg(self, func):
return "kNameBucketId"
def GetValidGLArg(self, func):
return "_"
class NonImmediatePointerArgument(PointerArgument):
"""A pointer argument that stays a pointer even in an immediate cmd."""
def __init__(self, name, type):
PointerArgument.__init__(self, name, type)
def IsPointer(self):
"""Returns true if argument is a pointer."""
return False
def GetImmediateVersion(self):
"""Overridden from Argument."""
return self
class ResourceIdArgument(Argument):
"""A class that represents a resource id argument to a function."""
def __init__(self, name, type):
match = re.match("(GLid\w+)", type)
self.resource_type = match.group(1)[4:]
type = type.replace(match.group(1), "GLuint")
Argument.__init__(self, name, type)
def WriteGetCode(self, file):
"""Overridden from Argument."""
file.Write(" %s %s = c.%s;\n" % (self.type, self.name, self.name))
def GetValidArg(self, func):
return "client_%s_id_" % self.resource_type.lower()
def GetValidGLArg(self, func):
return "kService%sId" % self.resource_type
class ResourceIdBindArgument(Argument):
"""Represents a resource id argument to a bind function."""
def __init__(self, name, type):
match = re.match("(GLidBind\w+)", type)
self.resource_type = match.group(1)[8:]
type = type.replace(match.group(1), "GLuint")
Argument.__init__(self, name, type)
def WriteGetCode(self, file):
"""Overridden from Argument."""
code = """ %(type)s %(name)s = c.%(name)s;
"""
file.Write(code % {'type': self.type, 'name': self.name})
def GetValidArg(self, func):
return "client_%s_id_" % self.resource_type.lower()
def GetValidGLArg(self, func):
return "kService%sId" % self.resource_type
class ResourceIdZeroArgument(Argument):
"""Represents a resource id argument to a function that can be zero."""
def __init__(self, name, type):
match = re.match("(GLidZero\w+)", type)
self.resource_type = match.group(1)[8:]
type = type.replace(match.group(1), "GLuint")
Argument.__init__(self, name, type)
def WriteGetCode(self, file):
"""Overridden from Argument."""
file.Write(" %s %s = c.%s;\n" % (self.type, self.name, self.name))
def GetValidArg(self, func):
return "client_%s_id_" % self.resource_type.lower()
def GetValidGLArg(self, func):
return "kService%sId" % self.resource_type
def GetNumInvalidValues(self, func):
"""returns the number of invalid values to be tested."""
return 1
def GetInvalidArg(self, index):
"""returns an invalid value by index."""
return ("kInvalidClientId", "kNoError", "GL_INVALID_VALUE")
class Function(object):
"""A class that represents a function."""
type_handlers = {
'': TypeHandler(),
'Bind': BindHandler(),
'Create': CreateHandler(),
'Custom': CustomHandler(),
'Data': DataHandler(),
'Delete': DeleteHandler(),
'DELn': DELnHandler(),
'GENn': GENnHandler(),
'GETn': GETnHandler(),
'GLchar': GLcharHandler(),
'GLcharN': GLcharNHandler(),
'HandWritten': HandWrittenHandler(),
'Is': IsHandler(),
'Manual': ManualHandler(),
'PUT': PUTHandler(),
'PUTn': PUTnHandler(),
'PUTXn': PUTXnHandler(),
'StateSet': StateSetHandler(),
'StateSetRGBAlpha': StateSetRGBAlphaHandler(),
'StateSetFrontBack': StateSetFrontBackHandler(),
'StateSetFrontBackSeparate': StateSetFrontBackSeparateHandler(),
'StateSetNamedParameter': StateSetNamedParameter(),
'STRn': STRnHandler(),
'Todo': TodoHandler(),
}
def __init__(self, name, info):
self.name = name
self.original_name = info['original_name']
self.original_args = self.ParseArgs(info['original_args'])
if 'cmd_args' in info:
self.args_for_cmds = self.ParseArgs(info['cmd_args'])
else:
self.args_for_cmds = self.original_args[:]
self.return_type = info['return_type']
if self.return_type != 'void':
self.return_arg = CreateArg(info['return_type'] + " result")
else:
self.return_arg = None
self.num_pointer_args = sum(
[1 for arg in self.args_for_cmds if arg.IsPointer()])
self.info = info
self.type_handler = self.type_handlers[info['type']]
self.can_auto_generate = (self.num_pointer_args == 0 and
info['return_type'] == "void")
self.InitFunction()
def ParseArgs(self, arg_string):
"""Parses a function arg string."""
args = []
parts = arg_string.split(',')
for arg_string in parts:
arg = CreateArg(arg_string)
if arg:
args.append(arg)
return args
def IsType(self, type_name):
"""Returns true if function is a certain type."""
return self.info['type'] == type_name
def InitFunction(self):
"""Creates command args and calls the init function for the type handler.
Creates argument lists for command buffer commands, eg. self.cmd_args and
self.init_args.
Calls the type function initialization.
Override to create different kind of command buffer command argument lists.
"""
self.cmd_args = []
for arg in self.args_for_cmds:
arg.AddCmdArgs(self.cmd_args)
self.init_args = []
for arg in self.args_for_cmds:
arg.AddInitArgs(self.init_args)
if self.return_arg:
self.init_args.append(self.return_arg)
self.type_handler.InitFunction(self)
def IsImmediate(self):
"""Returns whether the function is immediate data function or not."""
return False
def GetInfo(self, name, default = None):
"""Returns a value from the function info for this function."""
if name in self.info:
return self.info[name]
return default
def GetValidArg(self, arg):
"""Gets a valid argument value for the parameter arg from the function info
if one exists."""
try:
index = self.GetOriginalArgs().index(arg)
except ValueError:
return None
valid_args = self.GetInfo('valid_args')
if valid_args and str(index) in valid_args:
return valid_args[str(index)]
return None
def AddInfo(self, name, value):
"""Adds an info."""
self.info[name] = value
def IsExtension(self):
return self.GetInfo('extension') or self.GetInfo('extension_flag')
def IsCoreGLFunction(self):
return (not self.IsExtension() and
not self.GetInfo('pepper_interface'))
def InPepperInterface(self, interface):
ext = self.GetInfo('pepper_interface')
if not interface.GetName():
return self.IsCoreGLFunction()
return ext == interface.GetName()
def InAnyPepperExtension(self):
return self.IsCoreGLFunction() or self.GetInfo('pepper_interface')
def GetErrorReturnString(self):
if self.GetInfo("error_return"):
return self.GetInfo("error_return")
elif self.return_type == "GLboolean":
return "GL_FALSE"
elif "*" in self.return_type:
return "NULL"
return "0"
def GetGLFunctionName(self):
"""Gets the function to call to execute GL for this command."""
if self.GetInfo('decoder_func'):
return self.GetInfo('decoder_func')
return "gl%s" % self.original_name
def GetGLTestFunctionName(self):
gl_func_name = self.GetInfo('gl_test_func')
if gl_func_name == None:
gl_func_name = self.GetGLFunctionName()
if gl_func_name.startswith("gl"):
gl_func_name = gl_func_name[2:]
else:
gl_func_name = self.original_name
return gl_func_name
def GetDataTransferMethods(self):
return self.GetInfo('data_transfer_methods',
['immediate' if self.num_pointer_args == 1 else 'shm'])
def AddCmdArg(self, arg):
"""Adds a cmd argument to this function."""
self.cmd_args.append(arg)
def GetCmdArgs(self):
"""Gets the command args for this function."""
return self.cmd_args
def ClearCmdArgs(self):
"""Clears the command args for this function."""
self.cmd_args = []
def GetCmdConstants(self):
"""Gets the constants for this function."""
return [arg for arg in self.args_for_cmds if arg.IsConstant()]
def GetInitArgs(self):
"""Gets the init args for this function."""
return self.init_args
def GetOriginalArgs(self):
"""Gets the original arguments to this function."""
return self.original_args
def GetLastOriginalArg(self):
"""Gets the last original argument to this function."""
return self.original_args[len(self.original_args) - 1]
def __MaybePrependComma(self, arg_string, add_comma):
"""Adds a comma if arg_string is not empty and add_comma is true."""
comma = ""
if add_comma and len(arg_string):
comma = ", "
return "%s%s" % (comma, arg_string)
def MakeTypedOriginalArgString(self, prefix, add_comma = False):
"""Gets a list of arguments as they are in GL."""
args = self.GetOriginalArgs()
arg_string = ", ".join(
["%s %s%s" % (arg.type, prefix, arg.name) for arg in args])
return self.__MaybePrependComma(arg_string, add_comma)
def MakeOriginalArgString(self, prefix, add_comma = False, separator = ", "):
"""Gets the list of arguments as they are in GL."""
args = self.GetOriginalArgs()
arg_string = separator.join(
["%s%s" % (prefix, arg.name) for arg in args])
return self.__MaybePrependComma(arg_string, add_comma)
def MakeTypedHelperArgString(self, prefix, add_comma = False):
"""Gets a list of typed GL arguments after removing unneeded arguments."""
args = self.GetOriginalArgs()
arg_string = ", ".join(
["%s %s%s" % (
arg.type,
prefix,
arg.name,
) for arg in args if not arg.IsConstant()])
return self.__MaybePrependComma(arg_string, add_comma)
def MakeHelperArgString(self, prefix, add_comma = False, separator = ", "):
"""Gets a list of GL arguments after removing unneeded arguments."""
args = self.GetOriginalArgs()
arg_string = separator.join(
["%s%s" % (prefix, arg.name)
for arg in args if not arg.IsConstant()])
return self.__MaybePrependComma(arg_string, add_comma)
def MakeTypedPepperArgString(self, prefix):
"""Gets a list of arguments as they need to be for Pepper."""
if self.GetInfo("pepper_args"):
return self.GetInfo("pepper_args")
else:
return self.MakeTypedOriginalArgString(prefix, False)
def GetPepperName(self):
if self.GetInfo("pepper_name"):
return self.GetInfo("pepper_name")
return self.name
def MakeTypedCmdArgString(self, prefix, add_comma = False):
"""Gets a typed list of arguments as they need to be for command buffers."""
args = self.GetCmdArgs()
arg_string = ", ".join(
["%s %s%s" % (arg.type, prefix, arg.name) for arg in args])
return self.__MaybePrependComma(arg_string, add_comma)
def MakeCmdArgString(self, prefix, add_comma = False):
"""Gets the list of arguments as they need to be for command buffers."""
args = self.GetCmdArgs()
arg_string = ", ".join(
["%s%s" % (prefix, arg.name) for arg in args])
return self.__MaybePrependComma(arg_string, add_comma)
def MakeTypedInitString(self, prefix, add_comma = False):
"""Gets a typed list of arguments as they need to be for cmd Init/Set."""
args = self.GetInitArgs()
arg_string = ", ".join(
["%s %s%s" % (arg.type, prefix, arg.name) for arg in args])
return self.__MaybePrependComma(arg_string, add_comma)
def MakeInitString(self, prefix, add_comma = False):
"""Gets the list of arguments as they need to be for cmd Init/Set."""
args = self.GetInitArgs()
arg_string = ", ".join(
["%s%s" % (prefix, arg.name) for arg in args])
return self.__MaybePrependComma(arg_string, add_comma)
def MakeLogArgString(self):
"""Makes a string of the arguments for the LOG macros"""
args = self.GetOriginalArgs()
return ' << ", " << '.join([arg.GetLogArg() for arg in args])
def WriteCommandDescription(self, file):
"""Writes a description of the command."""
file.Write("//! Command that corresponds to gl%s.\n" % self.original_name)
def WriteHandlerValidation(self, file):
"""Writes validation code for the function."""
for arg in self.GetOriginalArgs():
arg.WriteValidationCode(file, self)
self.WriteValidationCode(file)
def WriteHandlerImplementation(self, file):
"""Writes the handler implementation for this command."""
self.type_handler.WriteHandlerImplementation(self, file)
def WriteValidationCode(self, file):
"""Writes the validation code for a command."""
pass
def WriteCmdFlag(self, file):
"""Writes the cmd cmd_flags constant."""
flags = []
# By default trace only at the highest level 3.
trace_level = int(self.GetInfo('trace_level', default = 3))
if trace_level not in xrange(0, 4):
raise KeyError("Unhandled trace_level: %d" % trace_level)
flags.append('CMD_FLAG_SET_TRACE_LEVEL(%d)' % trace_level)
if len(flags) > 0:
cmd_flags = ' | '.join(flags)
else:
cmd_flags = 0
file.Write(" static const uint8 cmd_flags = %s;\n" % cmd_flags)
def WriteCmdArgFlag(self, file):
"""Writes the cmd kArgFlags constant."""
file.Write(" static const cmd::ArgFlags kArgFlags = cmd::kFixed;\n")
def WriteCmdComputeSize(self, file):
"""Writes the ComputeSize function for the command."""
file.Write(" static uint32_t ComputeSize() {\n")
file.Write(
" return static_cast<uint32_t>(sizeof(ValueType)); // NOLINT\n")
file.Write(" }\n")
file.Write("\n")
def WriteCmdSetHeader(self, file):
"""Writes the cmd's SetHeader function."""
file.Write(" void SetHeader() {\n")
file.Write(" header.SetCmd<ValueType>();\n")
file.Write(" }\n")
file.Write("\n")
def WriteCmdInit(self, file):
"""Writes the cmd's Init function."""
file.Write(" void Init(%s) {\n" % self.MakeTypedCmdArgString("_"))
file.Write(" SetHeader();\n")
args = self.GetCmdArgs()
for arg in args:
file.Write(" %s = _%s;\n" % (arg.name, arg.name))
file.Write(" }\n")
file.Write("\n")
def WriteCmdSet(self, file):
"""Writes the cmd's Set function."""
copy_args = self.MakeCmdArgString("_", False)
file.Write(" void* Set(void* cmd%s) {\n" %
self.MakeTypedCmdArgString("_", True))
file.Write(" static_cast<ValueType*>(cmd)->Init(%s);\n" % copy_args)
file.Write(" return NextCmdAddress<ValueType>(cmd);\n")
file.Write(" }\n")
file.Write("\n")
def WriteStruct(self, file):
self.type_handler.WriteStruct(self, file)
def WriteDocs(self, file):
self.type_handler.WriteDocs(self, file)
def WriteCmdHelper(self, file):
"""Writes the cmd's helper."""
self.type_handler.WriteCmdHelper(self, file)
def WriteServiceImplementation(self, file):
"""Writes the service implementation for a command."""
self.type_handler.WriteServiceImplementation(self, file)
def WriteServiceUnitTest(self, file):
"""Writes the service implementation for a command."""
self.type_handler.WriteServiceUnitTest(self, file)
def WriteGLES2CLibImplementation(self, file):
"""Writes the GLES2 C Lib Implemention."""
self.type_handler.WriteGLES2CLibImplementation(self, file)
def WriteGLES2InterfaceHeader(self, file):
"""Writes the GLES2 Interface declaration."""
self.type_handler.WriteGLES2InterfaceHeader(self, file)
def WriteGLES2InterfaceStub(self, file):
"""Writes the GLES2 Interface Stub declaration."""
self.type_handler.WriteGLES2InterfaceStub(self, file)
def WriteGLES2InterfaceStubImpl(self, file):
"""Writes the GLES2 Interface Stub declaration."""
self.type_handler.WriteGLES2InterfaceStubImpl(self, file)
def WriteGLES2ImplementationHeader(self, file):
"""Writes the GLES2 Implemention declaration."""
self.type_handler.WriteGLES2ImplementationHeader(self, file)
def WriteGLES2Implementation(self, file):
"""Writes the GLES2 Implemention definition."""
self.type_handler.WriteGLES2Implementation(self, file)
def WriteGLES2TraceImplementationHeader(self, file):
"""Writes the GLES2 Trace Implemention declaration."""
self.type_handler.WriteGLES2TraceImplementationHeader(self, file)
def WriteGLES2TraceImplementation(self, file):
"""Writes the GLES2 Trace Implemention definition."""
self.type_handler.WriteGLES2TraceImplementation(self, file)
def WriteGLES2Header(self, file):
"""Writes the GLES2 Implemention unit test."""
self.type_handler.WriteGLES2Header(self, file)
def WriteGLES2ImplementationUnitTest(self, file):
"""Writes the GLES2 Implemention unit test."""
self.type_handler.WriteGLES2ImplementationUnitTest(self, file)
def WriteDestinationInitalizationValidation(self, file):
"""Writes the client side destintion initialization validation."""
self.type_handler.WriteDestinationInitalizationValidation(self, file)
def WriteFormatTest(self, file):
"""Writes the cmd's format test."""
self.type_handler.WriteFormatTest(self, file)
class PepperInterface(object):
"""A class that represents a function."""
def __init__(self, info):
self.name = info["name"]
self.dev = info["dev"]
def GetName(self):
return self.name
def GetInterfaceName(self):
upperint = ""
dev = ""
if self.name:
upperint = "_" + self.name.upper()
if self.dev:
dev = "_DEV"
return "PPB_OPENGLES2%s%s_INTERFACE" % (upperint, dev)
def GetInterfaceString(self):
dev = ""
if self.dev:
dev = "(Dev)"
return "PPB_OpenGLES2%s%s" % (self.name, dev)
def GetStructName(self):
dev = ""
if self.dev:
dev = "_Dev"
return "PPB_OpenGLES2%s%s" % (self.name, dev)
class ImmediateFunction(Function):
"""A class that represnets an immediate function command."""
def __init__(self, func):
Function.__init__(
self,
"%sImmediate" % func.name,
func.info)
def InitFunction(self):
# Override args in original_args and args_for_cmds with immediate versions
# of the args.
new_original_args = []
for arg in self.original_args:
new_arg = arg.GetImmediateVersion()
if new_arg:
new_original_args.append(new_arg)
self.original_args = new_original_args
new_args_for_cmds = []
for arg in self.args_for_cmds:
new_arg = arg.GetImmediateVersion()
if new_arg:
new_args_for_cmds.append(new_arg)
self.args_for_cmds = new_args_for_cmds
Function.InitFunction(self)
def IsImmediate(self):
return True
def WriteCommandDescription(self, file):
"""Overridden from Function"""
file.Write("//! Immediate version of command that corresponds to gl%s.\n" %
self.original_name)
def WriteServiceImplementation(self, file):
"""Overridden from Function"""
self.type_handler.WriteImmediateServiceImplementation(self, file)
def WriteHandlerImplementation(self, file):
"""Overridden from Function"""
self.type_handler.WriteImmediateHandlerImplementation(self, file)
def WriteServiceUnitTest(self, file):
"""Writes the service implementation for a command."""
self.type_handler.WriteImmediateServiceUnitTest(self, file)
def WriteValidationCode(self, file):
"""Overridden from Function"""
self.type_handler.WriteImmediateValidationCode(self, file)
def WriteCmdArgFlag(self, file):
"""Overridden from Function"""
file.Write(" static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;\n")
def WriteCmdComputeSize(self, file):
"""Overridden from Function"""
self.type_handler.WriteImmediateCmdComputeSize(self, file)
def WriteCmdSetHeader(self, file):
"""Overridden from Function"""
self.type_handler.WriteImmediateCmdSetHeader(self, file)
def WriteCmdInit(self, file):
"""Overridden from Function"""
self.type_handler.WriteImmediateCmdInit(self, file)
def WriteCmdSet(self, file):
"""Overridden from Function"""
self.type_handler.WriteImmediateCmdSet(self, file)
def WriteCmdHelper(self, file):
"""Overridden from Function"""
self.type_handler.WriteImmediateCmdHelper(self, file)
def WriteFormatTest(self, file):
"""Overridden from Function"""
self.type_handler.WriteImmediateFormatTest(self, file)
class BucketFunction(Function):
"""A class that represnets a bucket version of a function command."""
def __init__(self, func):
Function.__init__(
self,
"%sBucket" % func.name,
func.info)
def InitFunction(self):
# Override args in original_args and args_for_cmds with bucket versions
# of the args.
new_original_args = []
for arg in self.original_args:
new_arg = arg.GetBucketVersion()
if new_arg:
new_original_args.append(new_arg)
self.original_args = new_original_args
new_args_for_cmds = []
for arg in self.args_for_cmds:
new_arg = arg.GetBucketVersion()
if new_arg:
new_args_for_cmds.append(new_arg)
self.args_for_cmds = new_args_for_cmds
Function.InitFunction(self)
def WriteCommandDescription(self, file):
"""Overridden from Function"""
file.Write("//! Bucket version of command that corresponds to gl%s.\n" %
self.original_name)
def WriteServiceImplementation(self, file):
"""Overridden from Function"""
self.type_handler.WriteBucketServiceImplementation(self, file)
def WriteHandlerImplementation(self, file):
"""Overridden from Function"""
self.type_handler.WriteBucketHandlerImplementation(self, file)
def WriteServiceUnitTest(self, file):
"""Writes the service implementation for a command."""
self.type_handler.WriteBucketServiceUnitTest(self, file)
def CreateArg(arg_string):
"""Creates an Argument."""
arg_parts = arg_string.split()
if len(arg_parts) == 1 and arg_parts[0] == 'void':
return None
# Is this a pointer argument?
elif arg_string.find('*') >= 0:
if arg_parts[0] == 'NonImmediate':
return NonImmediatePointerArgument(
arg_parts[-1],
" ".join(arg_parts[1:-1]))
else:
return PointerArgument(
arg_parts[-1],
" ".join(arg_parts[0:-1]))
# Is this a resource argument? Must come after pointer check.
elif arg_parts[0].startswith('GLidBind'):
return ResourceIdBindArgument(arg_parts[-1], " ".join(arg_parts[0:-1]))
elif arg_parts[0].startswith('GLidZero'):
return ResourceIdZeroArgument(arg_parts[-1], " ".join(arg_parts[0:-1]))
elif arg_parts[0].startswith('GLid'):
return ResourceIdArgument(arg_parts[-1], " ".join(arg_parts[0:-1]))
elif arg_parts[0].startswith('GLenum') and len(arg_parts[0]) > 6:
return EnumArgument(arg_parts[-1], " ".join(arg_parts[0:-1]))
elif arg_parts[0].startswith('GLboolean') and len(arg_parts[0]) > 9:
return ValidatedBoolArgument(arg_parts[-1], " ".join(arg_parts[0:-1]))
elif arg_parts[0].startswith('GLboolean'):
return BoolArgument(arg_parts[-1], " ".join(arg_parts[0:-1]))
elif arg_parts[0].startswith('GLintUniformLocation'):
return UniformLocationArgument(arg_parts[-1])
elif (arg_parts[0].startswith('GLint') and len(arg_parts[0]) > 5 and
not arg_parts[0].startswith('GLintptr')):
return IntArgument(arg_parts[-1], " ".join(arg_parts[0:-1]))
elif (arg_parts[0].startswith('GLsizeiNotNegative') or
arg_parts[0].startswith('GLintptrNotNegative')):
return SizeNotNegativeArgument(arg_parts[-1],
" ".join(arg_parts[0:-1]),
arg_parts[0][0:-11])
elif arg_parts[0].startswith('GLsize'):
return SizeArgument(arg_parts[-1], " ".join(arg_parts[0:-1]))
else:
return Argument(arg_parts[-1], " ".join(arg_parts[0:-1]))
class GLGenerator(object):
"""A class to generate GL command buffers."""
_function_re = re.compile(r'GL_APICALL(.*?)GL_APIENTRY (.*?) \((.*?)\);')
def __init__(self, verbose):
self.original_functions = []
self.functions = []
self.verbose = verbose
self.errors = 0
self.pepper_interfaces = []
self.interface_info = {}
for interface in _PEPPER_INTERFACES:
interface = PepperInterface(interface)
self.pepper_interfaces.append(interface)
self.interface_info[interface.GetName()] = interface
def AddFunction(self, func):
"""Adds a function."""
self.functions.append(func)
def GetFunctionInfo(self, name):
"""Gets a type info for the given function name."""
if name in _FUNCTION_INFO:
func_info = _FUNCTION_INFO[name].copy()
else:
func_info = {}
if not 'type' in func_info:
func_info['type'] = ''
return func_info
def Log(self, msg):
"""Prints something if verbose is true."""
if self.verbose:
print msg
def Error(self, msg):
"""Prints an error."""
print "Error: %s" % msg
self.errors += 1
def WriteLicense(self, file):
"""Writes the license."""
file.Write(_LICENSE)
def WriteNamespaceOpen(self, file):
"""Writes the code for the namespace."""
file.Write("namespace gpu {\n")
file.Write("namespace gles2 {\n")
file.Write("\n")
def WriteNamespaceClose(self, file):
"""Writes the code to close the namespace."""
file.Write("} // namespace gles2\n")
file.Write("} // namespace gpu\n")
file.Write("\n")
def ParseGLH(self, filename):
"""Parses the cmd_buffer_functions.txt file and extracts the functions"""
f = open(filename, "r")
functions = f.read()
f.close()
for line in functions.splitlines():
match = self._function_re.match(line)
if match:
func_name = match.group(2)[2:]
func_info = self.GetFunctionInfo(func_name)
if func_info['type'] == 'Noop':
continue
parsed_func_info = {
'original_name': func_name,
'original_args': match.group(3),
'return_type': match.group(1).strip(),
}
for k in parsed_func_info.keys():
if not k in func_info:
func_info[k] = parsed_func_info[k]
f = Function(func_name, func_info)
self.original_functions.append(f)
#for arg in f.GetOriginalArgs():
# if not isinstance(arg, EnumArgument) and arg.type == 'GLenum':
# self.Log("%s uses bare GLenum %s." % (func_name, arg.name))
gen_cmd = f.GetInfo('gen_cmd')
if gen_cmd == True or gen_cmd == None:
if f.type_handler.NeedsDataTransferFunction(f):
methods = f.GetDataTransferMethods()
if 'immediate' in methods:
self.AddFunction(ImmediateFunction(f))
if 'bucket' in methods:
self.AddFunction(BucketFunction(f))
if 'shm' in methods:
self.AddFunction(f)
else:
self.AddFunction(f)
self.Log("Auto Generated Functions : %d" %
len([f for f in self.functions if f.can_auto_generate or
(not f.IsType('') and not f.IsType('Custom') and
not f.IsType('Todo'))]))
funcs = [f for f in self.functions if not f.can_auto_generate and
(f.IsType('') or f.IsType('Custom') or f.IsType('Todo'))]
self.Log("Non Auto Generated Functions: %d" % len(funcs))
for f in funcs:
self.Log(" %-10s %-20s gl%s" % (f.info['type'], f.return_type, f.name))
def WriteCommandIds(self, filename):
"""Writes the command buffer format"""
file = CHeaderWriter(filename)
file.Write("#define GLES2_COMMAND_LIST(OP) \\\n")
id = 256
for func in self.functions:
file.Write(" %-60s /* %d */ \\\n" %
("OP(%s)" % func.name, id))
id += 1
file.Write("\n")
file.Write("enum CommandId {\n")
file.Write(" kStartPoint = cmd::kLastCommonId, "
"// All GLES2 commands start after this.\n")
file.Write("#define GLES2_CMD_OP(name) k ## name,\n")
file.Write(" GLES2_COMMAND_LIST(GLES2_CMD_OP)\n")
file.Write("#undef GLES2_CMD_OP\n")
file.Write(" kNumCommands\n")
file.Write("};\n")
file.Write("\n")
file.Close()
def WriteFormat(self, filename):
"""Writes the command buffer format"""
file = CHeaderWriter(filename)
for func in self.functions:
if True:
#gen_cmd = func.GetInfo('gen_cmd')
#if gen_cmd == True or gen_cmd == None:
func.WriteStruct(file)
file.Write("\n")
file.Close()
def WriteDocs(self, filename):
"""Writes the command buffer doc version of the commands"""
file = CWriter(filename)
for func in self.functions:
if True:
#gen_cmd = func.GetInfo('gen_cmd')
#if gen_cmd == True or gen_cmd == None:
func.WriteDocs(file)
file.Write("\n")
file.Close()
def WriteFormatTest(self, filename):
"""Writes the command buffer format test."""
file = CHeaderWriter(
filename,
"// This file contains unit tests for gles2 commmands\n"
"// It is included by gles2_cmd_format_test.cc\n"
"\n")
for func in self.functions:
if True:
#gen_cmd = func.GetInfo('gen_cmd')
#if gen_cmd == True or gen_cmd == None:
func.WriteFormatTest(file)
file.Close()
def WriteCmdHelperHeader(self, filename):
"""Writes the gles2 command helper."""
file = CHeaderWriter(filename)
for func in self.functions:
if True:
#gen_cmd = func.GetInfo('gen_cmd')
#if gen_cmd == True or gen_cmd == None:
func.WriteCmdHelper(file)
file.Close()
def WriteServiceContextStateHeader(self, filename):
"""Writes the service context state header."""
file = CHeaderWriter(
filename,
"// It is included by context_state.h\n")
file.Write("struct EnableFlags {\n")
file.Write(" EnableFlags();\n")
for capability in _CAPABILITY_FLAGS:
file.Write(" bool %s;\n" % capability['name'])
file.Write(" bool cached_%s;\n" % capability['name'])
file.Write("};\n\n")
for state_name in sorted(_STATES.keys()):
state = _STATES[state_name]
for item in state['states']:
file.Write("%s %s;\n" % (item['type'], item['name']))
if item.get('cached', False):
file.Write("%s cached_%s;\n" % (item['type'], item['name']))
file.Write("\n")
file.Write("""
inline void SetDeviceCapabilityState(GLenum cap, bool enable) {
switch (cap) {
""")
for capability in _CAPABILITY_FLAGS:
file.Write("""\
case GL_%s:
""" % capability['name'].upper())
file.Write("""\
if (enable_flags.cached_%(name)s == enable &&
!ignore_cached_state)
return;
enable_flags.cached_%(name)s = enable;
break;
""" % capability)
file.Write("""\
default:
NOTREACHED();
return;
}
if (enable)
glEnable(cap);
else
glDisable(cap);
}
""")
file.Close()
def WriteClientContextStateHeader(self, filename):
"""Writes the client context state header."""
file = CHeaderWriter(
filename,
"// It is included by client_context_state.h\n")
file.Write("struct EnableFlags {\n")
file.Write(" EnableFlags();\n")
for capability in _CAPABILITY_FLAGS:
file.Write(" bool %s;\n" % capability['name'])
file.Write("};\n\n")
file.Close()
def WriteContextStateGetters(self, file, class_name):
"""Writes the state getters."""
for gl_type in ["GLint", "GLfloat"]:
file.Write("""
bool %s::GetStateAs%s(
GLenum pname, %s* params, GLsizei* num_written) const {
switch (pname) {
""" % (class_name, gl_type, gl_type))
for state_name in sorted(_STATES.keys()):
state = _STATES[state_name]
if 'enum' in state:
file.Write(" case %s:\n" % state['enum'])
file.Write(" *num_written = %d;\n" % len(state['states']))
file.Write(" if (params) {\n")
for ndx,item in enumerate(state['states']):
file.Write(" params[%d] = static_cast<%s>(%s);\n" %
(ndx, gl_type, item['name']))
file.Write(" }\n")
file.Write(" return true;\n")
else:
for item in state['states']:
file.Write(" case %s:\n" % item['enum'])
file.Write(" *num_written = 1;\n")
file.Write(" if (params) {\n")
file.Write(" params[0] = static_cast<%s>(%s);\n" %
(gl_type, item['name']))
file.Write(" }\n")
file.Write(" return true;\n")
for capability in _CAPABILITY_FLAGS:
file.Write(" case GL_%s:\n" % capability['name'].upper())
file.Write(" *num_written = 1;\n")
file.Write(" if (params) {\n")
file.Write(
" params[0] = static_cast<%s>(enable_flags.%s);\n" %
(gl_type, capability['name']))
file.Write(" }\n")
file.Write(" return true;\n")
file.Write(""" default:
return false;
}
}
""")
def WriteServiceContextStateImpl(self, filename):
"""Writes the context state service implementation."""
file = CHeaderWriter(
filename,
"// It is included by context_state.cc\n")
code = []
for capability in _CAPABILITY_FLAGS:
code.append("%s(%s)" %
(capability['name'],
('false', 'true')['default' in capability]))
code.append("cached_%s(%s)" %
(capability['name'],
('false', 'true')['default' in capability]))
file.Write("ContextState::EnableFlags::EnableFlags()\n : %s {\n}\n" %
",\n ".join(code))
file.Write("\n")
file.Write("void ContextState::Initialize() {\n")
for state_name in sorted(_STATES.keys()):
state = _STATES[state_name]
for item in state['states']:
file.Write(" %s = %s;\n" % (item['name'], item['default']))
if item.get('cached', False):
file.Write(" cached_%s = %s;\n" % (item['name'], item['default']))
file.Write("}\n")
file.Write("""
void ContextState::InitCapabilities(const ContextState* prev_state) const {
""")
def WriteCapabilities(test_prev):
for capability in _CAPABILITY_FLAGS:
capability_name = capability['name']
if test_prev:
file.Write(""" if (prev_state->enable_flags.cached_%s !=
enable_flags.cached_%s)\n""" %
(capability_name, capability_name))
file.Write(" EnableDisable(GL_%s, enable_flags.cached_%s);\n" %
(capability_name.upper(), capability_name))
file.Write(" if (prev_state) {")
WriteCapabilities(True)
file.Write(" } else {")
WriteCapabilities(False)
file.Write(" }")
file.Write("""}
void ContextState::InitState(const ContextState *prev_state) const {
""")
def WriteStates(test_prev):
# We need to sort the keys so the expectations match
for state_name in sorted(_STATES.keys()):
state = _STATES[state_name]
if state['type'] == 'FrontBack':
num_states = len(state['states'])
for ndx, group in enumerate(Grouper(num_states / 2, state['states'])):
if test_prev:
file.Write(" if (")
args = []
for place, item in enumerate(group):
item_name = CachedStateName(item)
args.append('%s' % item_name)
if test_prev:
if place > 0:
file.Write(' ||\n')
file.Write("(%s != prev_state->%s)" % (item_name, item_name))
if test_prev:
file.Write(")\n")
file.Write(
" gl%s(%s, %s);\n" %
(state['func'], ('GL_FRONT', 'GL_BACK')[ndx], ", ".join(args)))
elif state['type'] == 'NamedParameter':
for item in state['states']:
item_name = CachedStateName(item)
if 'extension_flag' in item:
file.Write(" if (feature_info_->feature_flags().%s)\n " %
item['extension_flag'])
if test_prev:
file.Write(" if (prev_state->%s != %s)\n" %
(item_name, item_name))
file.Write(" gl%s(%s, %s);\n" %
(state['func'], item['enum'], item_name))
else:
if test_prev:
file.Write(" if (")
args = []
for place, item in enumerate(state['states']):
item_name = CachedStateName(item)
args.append('%s' % item_name)
if test_prev:
if place > 0:
file.Write(' ||\n')
file.Write("(%s != prev_state->%s)" %
(item_name, item_name))
if test_prev:
file.Write(" )\n")
file.Write(" gl%s(%s);\n" % (state['func'], ", ".join(args)))
file.Write(" if (prev_state) {")
WriteStates(True)
file.Write(" } else {")
WriteStates(False)
file.Write(" }")
file.Write("}\n")
file.Write("""bool ContextState::GetEnabled(GLenum cap) const {
switch (cap) {
""")
for capability in _CAPABILITY_FLAGS:
file.Write(" case GL_%s:\n" % capability['name'].upper())
file.Write(" return enable_flags.%s;\n" % capability['name'])
file.Write(""" default:
NOTREACHED();
return false;
}
}
""")
self.WriteContextStateGetters(file, "ContextState")
file.Close()
def WriteClientContextStateImpl(self, filename):
"""Writes the context state client side implementation."""
file = CHeaderWriter(
filename,
"// It is included by client_context_state.cc\n")
code = []
for capability in _CAPABILITY_FLAGS:
code.append("%s(%s)" %
(capability['name'],
('false', 'true')['default' in capability]))
file.Write(
"ClientContextState::EnableFlags::EnableFlags()\n : %s {\n}\n" %
",\n ".join(code))
file.Write("\n")
file.Write("""
bool ClientContextState::SetCapabilityState(
GLenum cap, bool enabled, bool* changed) {
*changed = false;
switch (cap) {
""")
for capability in _CAPABILITY_FLAGS:
file.Write(" case GL_%s:\n" % capability['name'].upper())
file.Write(""" if (enable_flags.%(name)s != enabled) {
*changed = true;
enable_flags.%(name)s = enabled;
}
return true;
""" % capability)
file.Write(""" default:
return false;
}
}
""")
file.Write("""bool ClientContextState::GetEnabled(
GLenum cap, bool* enabled) const {
switch (cap) {
""")
for capability in _CAPABILITY_FLAGS:
file.Write(" case GL_%s:\n" % capability['name'].upper())
file.Write(" *enabled = enable_flags.%s;\n" % capability['name'])
file.Write(" return true;\n")
file.Write(""" default:
return false;
}
}
""")
file.Close()
def WriteServiceImplementation(self, filename):
"""Writes the service decorder implementation."""
file = CHeaderWriter(
filename,
"// It is included by gles2_cmd_decoder.cc\n")
for func in self.functions:
if True:
#gen_cmd = func.GetInfo('gen_cmd')
#if gen_cmd == True or gen_cmd == None:
func.WriteServiceImplementation(file)
file.Write("""
bool GLES2DecoderImpl::SetCapabilityState(GLenum cap, bool enabled) {
switch (cap) {
""")
for capability in _CAPABILITY_FLAGS:
file.Write(" case GL_%s:\n" % capability['name'].upper())
if 'state_flag' in capability:
file.Write("""\
state_.enable_flags.%(name)s = enabled;
if (state_.enable_flags.cached_%(name)s != enabled
|| state_.ignore_cached_state) {
%(state_flag)s = true;
}
return false;
""" % capability)
else:
file.Write("""\
state_.enable_flags.%(name)s = enabled;
if (state_.enable_flags.cached_%(name)s != enabled
|| state_.ignore_cached_state) {
state_.enable_flags.cached_%(name)s = enabled;
return true;
}
return false;
""" % capability)
file.Write(""" default:
NOTREACHED();
return false;
}
}
""")
file.Close()
def WriteServiceUnitTests(self, filename):
"""Writes the service decorder unit tests."""
num_tests = len(self.functions)
FUNCTIONS_PER_FILE = 98 # hard code this so it doesn't change.
count = 0
for test_num in range(0, num_tests, FUNCTIONS_PER_FILE):
count += 1
name = filename % count
file = CHeaderWriter(
name,
"// It is included by gles2_cmd_decoder_unittest_%d.cc\n" % count)
file.SetFileNum(count)
end = test_num + FUNCTIONS_PER_FILE
if end > num_tests:
end = num_tests
for idx in range(test_num, end):
func = self.functions[idx]
if True:
#gen_cmd = func.GetInfo('gen_cmd')
#if gen_cmd == True or gen_cmd == None:
if func.GetInfo('unit_test') == False:
file.Write("// TODO(gman): %s\n" % func.name)
else:
func.WriteServiceUnitTest(file)
file.Close()
file = CHeaderWriter(
filename % 0,
"// It is included by gles2_cmd_decoder_unittest_base.cc\n")
file.Write(
"""void GLES2DecoderTestBase::SetupInitCapabilitiesExpectations() {
""")
for capability in _CAPABILITY_FLAGS:
file.Write(" ExpectEnableDisable(GL_%s, %s);\n" %
(capability['name'].upper(),
('false', 'true')['default' in capability]))
file.Write("""}
void GLES2DecoderTestBase::SetupInitStateExpectations() {
""")
# We need to sort the keys so the expectations match
for state_name in sorted(_STATES.keys()):
state = _STATES[state_name]
if state['type'] == 'FrontBack':
num_states = len(state['states'])
for ndx, group in enumerate(Grouper(num_states / 2, state['states'])):
args = []
for item in group:
if 'expected' in item:
args.append(item['expected'])
else:
args.append(item['default'])
file.Write(
" EXPECT_CALL(*gl_, %s(%s, %s))\n" %
(state['func'], ('GL_FRONT', 'GL_BACK')[ndx], ", ".join(args)))
file.Write(" .Times(1)\n")
file.Write(" .RetiresOnSaturation();\n")
elif state['type'] == 'NamedParameter':
for item in state['states']:
if 'extension_flag' in item:
continue
file.Write(
" EXPECT_CALL(*gl_, %s(%s, %s))\n" %
(state['func'], item['enum'], item['default']))
file.Write(" .Times(1)\n")
file.Write(" .RetiresOnSaturation();\n")
else:
args = []
for item in state['states']:
if 'expected' in item:
args.append(item['expected'])
else:
args.append(item['default'])
file.Write(" EXPECT_CALL(*gl_, %s(%s))\n" %
(state['func'], ", ".join(args)))
file.Write(" .Times(1)\n")
file.Write(" .RetiresOnSaturation();\n")
file.Write("""}
""")
file.Close()
def WriteGLES2Header(self, filename):
"""Writes the GLES2 header."""
file = CHeaderWriter(
filename,
"// This file contains Chromium-specific GLES2 declarations.\n\n")
for func in self.original_functions:
func.WriteGLES2Header(file)
file.Write("\n")
file.Close()
def WriteGLES2CLibImplementation(self, filename):
"""Writes the GLES2 c lib implementation."""
file = CHeaderWriter(
filename,
"// These functions emulate GLES2 over command buffers.\n")
for func in self.original_functions:
func.WriteGLES2CLibImplementation(file)
file.Write("""
namespace gles2 {
extern const NameToFunc g_gles2_function_table[] = {
""")
for func in self.original_functions:
file.Write(
' { "gl%s", reinterpret_cast<GLES2FunctionPointer>(gl%s), },\n' %
(func.name, func.name))
file.Write(""" { NULL, NULL, },
};
} // namespace gles2
""")
file.Close()
def WriteGLES2InterfaceHeader(self, filename):
"""Writes the GLES2 interface header."""
file = CHeaderWriter(
filename,
"// This file is included by gles2_interface.h to declare the\n"
"// GL api functions.\n")
for func in self.original_functions:
func.WriteGLES2InterfaceHeader(file)
file.Close()
def WriteGLES2InterfaceStub(self, filename):
"""Writes the GLES2 interface stub header."""
file = CHeaderWriter(
filename,
"// This file is included by gles2_interface_stub.h.\n")
for func in self.original_functions:
func.WriteGLES2InterfaceStub(file)
file.Close()
def WriteGLES2InterfaceStubImpl(self, filename):
"""Writes the GLES2 interface header."""
file = CHeaderWriter(
filename,
"// This file is included by gles2_interface_stub.cc.\n")
for func in self.original_functions:
func.WriteGLES2InterfaceStubImpl(file)
file.Close()
def WriteGLES2ImplementationHeader(self, filename):
"""Writes the GLES2 Implementation header."""
file = CHeaderWriter(
filename,
"// This file is included by gles2_implementation.h to declare the\n"
"// GL api functions.\n")
for func in self.original_functions:
func.WriteGLES2ImplementationHeader(file)
file.Close()
def WriteGLES2Implementation(self, filename):
"""Writes the GLES2 Implementation."""
file = CHeaderWriter(
filename,
"// This file is included by gles2_implementation.cc to define the\n"
"// GL api functions.\n")
for func in self.original_functions:
func.WriteGLES2Implementation(file)
file.Close()
def WriteGLES2TraceImplementationHeader(self, filename):
"""Writes the GLES2 Trace Implementation header."""
file = CHeaderWriter(
filename,
"// This file is included by gles2_trace_implementation.h\n")
for func in self.original_functions:
func.WriteGLES2TraceImplementationHeader(file)
file.Close()
def WriteGLES2TraceImplementation(self, filename):
"""Writes the GLES2 Trace Implementation."""
file = CHeaderWriter(
filename,
"// This file is included by gles2_trace_implementation.cc\n")
for func in self.original_functions:
func.WriteGLES2TraceImplementation(file)
file.Close()
def WriteGLES2ImplementationUnitTests(self, filename):
"""Writes the GLES2 helper header."""
file = CHeaderWriter(
filename,
"// This file is included by gles2_implementation.h to declare the\n"
"// GL api functions.\n")
for func in self.original_functions:
func.WriteGLES2ImplementationUnitTest(file)
file.Close()
def WriteServiceUtilsHeader(self, filename):
"""Writes the gles2 auto generated utility header."""
file = CHeaderWriter(filename)
for name in sorted(_NAMED_TYPE_INFO.keys()):
named_type = NamedType(_NAMED_TYPE_INFO[name])
if named_type.IsConstant():
continue
file.Write("ValueValidator<%s> %s;\n" %
(named_type.GetType(), ToUnderscore(name)))
file.Write("\n")
file.Close()
def WriteServiceUtilsImplementation(self, filename):
"""Writes the gles2 auto generated utility implementation."""
file = CHeaderWriter(filename)
names = sorted(_NAMED_TYPE_INFO.keys())
for name in names:
named_type = NamedType(_NAMED_TYPE_INFO[name])
if named_type.IsConstant():
continue
if named_type.GetValidValues():
file.Write("static const %s valid_%s_table[] = {\n" %
(named_type.GetType(), ToUnderscore(name)))
for value in named_type.GetValidValues():
file.Write(" %s,\n" % value)
file.Write("};\n")
file.Write("\n")
file.Write("Validators::Validators()")
pre = ' : '
for count, name in enumerate(names):
named_type = NamedType(_NAMED_TYPE_INFO[name])
if named_type.IsConstant():
continue
if named_type.GetValidValues():
code = """%(pre)s%(name)s(
valid_%(name)s_table, arraysize(valid_%(name)s_table))"""
else:
code = "%(pre)s%(name)s()"
file.Write(code % {
'name': ToUnderscore(name),
'pre': pre,
})
pre = ',\n '
file.Write(" {\n");
file.Write("}\n\n");
file.Close()
def WriteCommonUtilsHeader(self, filename):
"""Writes the gles2 common utility header."""
file = CHeaderWriter(filename)
type_infos = sorted(_NAMED_TYPE_INFO.keys())
for type_info in type_infos:
if _NAMED_TYPE_INFO[type_info]['type'] == 'GLenum':
file.Write("static std::string GetString%s(uint32_t value);\n" %
type_info)
file.Write("\n")
file.Close()
def WriteCommonUtilsImpl(self, filename):
"""Writes the gles2 common utility header."""
enum_re = re.compile(r'\#define\s+(GL_[a-zA-Z0-9_]+)\s+([0-9A-Fa-fx]+)')
dict = {}
for fname in ['../../third_party/khronos/GLES2/gl2.h',
'../../third_party/khronos/GLES2/gl2ext.h',
'../../gpu/GLES2/gl2chromium.h',
'../../gpu/GLES2/gl2extchromium.h']:
lines = open(fname).readlines()
for line in lines:
m = enum_re.match(line)
if m:
name = m.group(1)
value = m.group(2)
if len(value) <= 10 and not value in dict:
dict[value] = name
file = CHeaderWriter(filename)
file.Write("static const GLES2Util::EnumToString "
"enum_to_string_table[] = {\n")
for value in dict:
file.Write(' { %s, "%s", },\n' % (value, dict[value]))
file.Write("""};
const GLES2Util::EnumToString* const GLES2Util::enum_to_string_table_ =
enum_to_string_table;
const size_t GLES2Util::enum_to_string_table_len_ =
sizeof(enum_to_string_table) / sizeof(enum_to_string_table[0]);
""")
enums = sorted(_NAMED_TYPE_INFO.keys())
for enum in enums:
if _NAMED_TYPE_INFO[enum]['type'] == 'GLenum':
file.Write("std::string GLES2Util::GetString%s(uint32_t value) {\n" %
enum)
if len(_NAMED_TYPE_INFO[enum]['valid']) > 0:
file.Write(" static const EnumToString string_table[] = {\n")
for value in _NAMED_TYPE_INFO[enum]['valid']:
file.Write(' { %s, "%s" },\n' % (value, value))
file.Write(""" };
return GLES2Util::GetQualifiedEnumString(
string_table, arraysize(string_table), value);
}
""")
else:
file.Write(""" return GLES2Util::GetQualifiedEnumString(
NULL, 0, value);
}
""")
file.Close()
def WritePepperGLES2Interface(self, filename, dev):
"""Writes the Pepper OpenGLES interface definition."""
file = CHeaderWriter(
filename,
"// OpenGL ES interface.\n")
file.Write("#include \"ppapi/c/pp_resource.h\"\n")
if dev:
file.Write("#include \"ppapi/c/ppb_opengles2.h\"\n\n")
else:
file.Write("\n#ifndef __gl2_h_\n")
for (k, v) in _GL_TYPES.iteritems():
file.Write("typedef %s %s;\n" % (v, k))
file.Write("#ifdef _WIN64\n")
for (k, v) in _GL_TYPES_64.iteritems():
file.Write("typedef %s %s;\n" % (v, k))
file.Write("#else\n")
for (k, v) in _GL_TYPES_32.iteritems():
file.Write("typedef %s %s;\n" % (v, k))
file.Write("#endif // _WIN64\n")
file.Write("#endif // __gl2_h_\n\n")
for interface in self.pepper_interfaces:
if interface.dev != dev:
continue
file.Write("#define %s_1_0 \"%s;1.0\"\n" %
(interface.GetInterfaceName(), interface.GetInterfaceString()))
file.Write("#define %s %s_1_0\n" %
(interface.GetInterfaceName(), interface.GetInterfaceName()))
file.Write("\nstruct %s {\n" % interface.GetStructName())
for func in self.original_functions:
if not func.InPepperInterface(interface):
continue
original_arg = func.MakeTypedPepperArgString("")
context_arg = "PP_Resource context"
if len(original_arg):
arg = context_arg + ", " + original_arg
else:
arg = context_arg
file.Write(" %s (*%s)(%s);\n" %
(func.return_type, func.GetPepperName(), arg))
file.Write("};\n\n")
file.Close()
def WritePepperGLES2Implementation(self, filename):
"""Writes the Pepper OpenGLES interface implementation."""
file = CWriter(filename)
file.Write(_LICENSE)
file.Write(_DO_NOT_EDIT_WARNING)
file.Write("#include \"ppapi/shared_impl/ppb_opengles2_shared.h\"\n\n")
file.Write("#include \"base/logging.h\"\n")
file.Write("#include \"gpu/command_buffer/client/gles2_implementation.h\"\n")
file.Write("#include \"ppapi/shared_impl/ppb_graphics_3d_shared.h\"\n")
file.Write("#include \"ppapi/thunk/enter.h\"\n\n")
file.Write("namespace ppapi {\n\n")
file.Write("namespace {\n\n")
file.Write("typedef thunk::EnterResource<thunk::PPB_Graphics3D_API>"
" Enter3D;\n\n")
file.Write("gpu::gles2::GLES2Implementation* ToGles2Impl(Enter3D*"
" enter) {\n")
file.Write(" DCHECK(enter);\n")
file.Write(" DCHECK(enter->succeeded());\n")
file.Write(" return static_cast<PPB_Graphics3D_Shared*>(enter->object())->"
"gles2_impl();\n");
file.Write("}\n\n");
for func in self.original_functions:
if not func.InAnyPepperExtension():
continue
original_arg = func.MakeTypedPepperArgString("")
context_arg = "PP_Resource context_id"
if len(original_arg):
arg = context_arg + ", " + original_arg
else:
arg = context_arg
file.Write("%s %s(%s) {\n" %
(func.return_type, func.GetPepperName(), arg))
file.Write(" Enter3D enter(context_id, true);\n")
file.Write(" if (enter.succeeded()) {\n")
return_str = "" if func.return_type == "void" else "return "
file.Write(" %sToGles2Impl(&enter)->%s(%s);\n" %
(return_str, func.original_name,
func.MakeOriginalArgString("")))
file.Write(" }")
if func.return_type == "void":
file.Write("\n")
else:
file.Write(" else {\n")
file.Write(" return %s;\n" % func.GetErrorReturnString())
file.Write(" }\n")
file.Write("}\n\n")
file.Write("} // namespace\n")
for interface in self.pepper_interfaces:
file.Write("const %s* PPB_OpenGLES2_Shared::Get%sInterface() {\n" %
(interface.GetStructName(), interface.GetName()))
file.Write(" static const struct %s "
"ppb_opengles2 = {\n" % interface.GetStructName())
file.Write(" &")
file.Write(",\n &".join(
f.GetPepperName() for f in self.original_functions
if f.InPepperInterface(interface)))
file.Write("\n")
file.Write(" };\n")
file.Write(" return &ppb_opengles2;\n")
file.Write("}\n")
file.Write("} // namespace ppapi\n")
file.Close()
def WriteGLES2ToPPAPIBridge(self, filename):
"""Connects GLES2 helper library to PPB_OpenGLES2 interface"""
file = CWriter(filename)
file.Write(_LICENSE)
file.Write(_DO_NOT_EDIT_WARNING)
file.Write("#ifndef GL_GLEXT_PROTOTYPES\n")
file.Write("#define GL_GLEXT_PROTOTYPES\n")
file.Write("#endif\n")
file.Write("#include <GLES2/gl2.h>\n")
file.Write("#include <GLES2/gl2ext.h>\n")
file.Write("#include \"ppapi/lib/gl/gles2/gl2ext_ppapi.h\"\n\n")
for func in self.original_functions:
if not func.InAnyPepperExtension():
continue
interface = self.interface_info[func.GetInfo('pepper_interface') or '']
file.Write("%s GL_APIENTRY gl%s(%s) {\n" %
(func.return_type, func.GetPepperName(),
func.MakeTypedPepperArgString("")))
return_str = "" if func.return_type == "void" else "return "
interface_str = "glGet%sInterfacePPAPI()" % interface.GetName()
original_arg = func.MakeOriginalArgString("")
context_arg = "glGetCurrentContextPPAPI()"
if len(original_arg):
arg = context_arg + ", " + original_arg
else:
arg = context_arg
if interface.GetName():
file.Write(" const struct %s* ext = %s;\n" %
(interface.GetStructName(), interface_str))
file.Write(" if (ext)\n")
file.Write(" %sext->%s(%s);\n" %
(return_str, func.GetPepperName(), arg))
if return_str:
file.Write(" %s0;\n" % return_str)
else:
file.Write(" %s%s->%s(%s);\n" %
(return_str, interface_str, func.GetPepperName(), arg))
file.Write("}\n\n")
file.Close()
def WriteMojoGLCallVisitor(self, filename):
"""Provides the GL implementation for mojo"""
file = CWriter(filename)
file.Write(_LICENSE)
file.Write(_DO_NOT_EDIT_WARNING)
for func in self.original_functions:
if not func.IsCoreGLFunction():
continue
file.Write("VISIT_GL_CALL(%s, %s, (%s), (%s))\n" %
(func.name, func.return_type,
func.MakeTypedOriginalArgString(""),
func.MakeOriginalArgString("")))
file.Close()
def Format(generated_files):
for filename in generated_files:
call(["clang-format", "-i", "-style=chromium", filename])
def main(argv):
"""This is the main function."""
parser = OptionParser()
parser.add_option(
"--output-dir",
help="base directory for resulting files, under chrome/src. default is "
"empty. Use this if you want the result stored under gen.")
parser.add_option(
"-v", "--verbose", action="store_true",
help="prints more output.")
(options, args) = parser.parse_args(args=argv)
# Add in states and capabilites to GLState
gl_state_valid = _NAMED_TYPE_INFO['GLState']['valid']
for state_name in sorted(_STATES.keys()):
state = _STATES[state_name]
if 'enum' in state:
if not state['enum'] in gl_state_valid:
gl_state_valid.append(state['enum'])
else:
for item in state['states']:
if 'extension_flag' in item:
continue
if not item['enum'] in gl_state_valid:
gl_state_valid.append(item['enum'])
for capability in _CAPABILITY_FLAGS:
valid_value = "GL_%s" % capability['name'].upper()
if not valid_value in gl_state_valid:
gl_state_valid.append(valid_value)
# This script lives under gpu/command_buffer, cd to base directory.
os.chdir(os.path.dirname(__file__) + "/../..")
gen = GLGenerator(options.verbose)
gen.ParseGLH("gpu/command_buffer/cmd_buffer_functions.txt")
# Support generating files under gen/
if options.output_dir != None:
os.chdir(options.output_dir)
gen.WritePepperGLES2Interface("ppapi/c/ppb_opengles2.h", False)
gen.WritePepperGLES2Interface("ppapi/c/dev/ppb_opengles2ext_dev.h", True)
gen.WriteGLES2ToPPAPIBridge("ppapi/lib/gl/gles2/gles2.c")
gen.WritePepperGLES2Implementation(
"ppapi/shared_impl/ppb_opengles2_shared.cc")
os.chdir("gpu/command_buffer")
gen.WriteCommandIds("common/gles2_cmd_ids_autogen.h")
gen.WriteFormat("common/gles2_cmd_format_autogen.h")
gen.WriteFormatTest("common/gles2_cmd_format_test_autogen.h")
gen.WriteGLES2InterfaceHeader("client/gles2_interface_autogen.h")
gen.WriteGLES2InterfaceStub("client/gles2_interface_stub_autogen.h")
gen.WriteGLES2InterfaceStubImpl(
"client/gles2_interface_stub_impl_autogen.h")
gen.WriteGLES2ImplementationHeader("client/gles2_implementation_autogen.h")
gen.WriteGLES2Implementation("client/gles2_implementation_impl_autogen.h")
gen.WriteGLES2ImplementationUnitTests(
"client/gles2_implementation_unittest_autogen.h")
gen.WriteGLES2TraceImplementationHeader(
"client/gles2_trace_implementation_autogen.h")
gen.WriteGLES2TraceImplementation(
"client/gles2_trace_implementation_impl_autogen.h")
gen.WriteGLES2CLibImplementation("client/gles2_c_lib_autogen.h")
gen.WriteCmdHelperHeader("client/gles2_cmd_helper_autogen.h")
gen.WriteServiceImplementation("service/gles2_cmd_decoder_autogen.h")
gen.WriteServiceContextStateHeader("service/context_state_autogen.h")
gen.WriteServiceContextStateImpl("service/context_state_impl_autogen.h")
gen.WriteClientContextStateHeader("client/client_context_state_autogen.h")
gen.WriteClientContextStateImpl(
"client/client_context_state_impl_autogen.h")
gen.WriteServiceUnitTests("service/gles2_cmd_decoder_unittest_%d_autogen.h")
gen.WriteServiceUtilsHeader("service/gles2_cmd_validation_autogen.h")
gen.WriteServiceUtilsImplementation(
"service/gles2_cmd_validation_implementation_autogen.h")
gen.WriteCommonUtilsHeader("common/gles2_cmd_utils_autogen.h")
gen.WriteCommonUtilsImpl("common/gles2_cmd_utils_implementation_autogen.h")
gen.WriteGLES2Header("../GLES2/gl2chromium_autogen.h")
gen.WriteMojoGLCallVisitor(
"../../mojo/public/c/gles2/gles2_call_visitor_autogen.h")
Format([
"common/gles2_cmd_format_autogen.h",
"common/gles2_cmd_format_test_autogen.h",
"common/gles2_cmd_ids_autogen.h",
"common/gles2_cmd_utils_autogen.h",
"common/gles2_cmd_utils_implementation_autogen.h",
"client/client_context_state_autogen.h",
"client/client_context_state_impl_autogen.h",
"client/gles2_cmd_helper_autogen.h",
"client/gles2_c_lib_autogen.h",
"client/gles2_implementation_autogen.h",
"client/gles2_implementation_impl_autogen.h",
"client/gles2_implementation_unittest_autogen.h",
"client/gles2_interface_autogen.h",
"client/gles2_interface_stub_autogen.h",
"client/gles2_interface_stub_impl_autogen.h",
"client/gles2_trace_implementation_autogen.h",
"client/gles2_trace_implementation_impl_autogen.h",
"service/context_state_autogen.h",
"service/context_state_impl_autogen.h",
"service/gles2_cmd_decoder_autogen.h",
"service/gles2_cmd_decoder_unittest_0_autogen.h",
"service/gles2_cmd_decoder_unittest_1_autogen.h",
"service/gles2_cmd_decoder_unittest_2_autogen.h",
"service/gles2_cmd_decoder_unittest_3_autogen.h",
"service/gles2_cmd_validation_autogen.h",
"service/gles2_cmd_validation_implementation_autogen.h"])
os.chdir("../..")
Format([
"gpu/GLES2/gl2chromium_autogen.h",
"mojo/public/c/gles2/gles2_call_visitor_autogen.h",
"ppapi/c/dev/ppb_opengles2ext_dev.h",
"ppapi/c/ppb_opengles2.h",
"ppapi/lib/gl/gles2/gles2.c",
"ppapi/shared_impl/ppb_opengles2_shared.cc"])
if gen.errors > 0:
print "%d errors" % gen.errors
return 1
return 0
if __name__ == '__main__':
sys.exit(main(sys.argv[1:]))