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//
// Copyright 2015 The ANGLE Project Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
//
#include "test_utils/ANGLETest.h"
#include "test_utils/gl_raii.h"
using namespace angle;
namespace
{
class UniformBufferTest : public ANGLETest
{
protected:
UniformBufferTest()
{
setWindowWidth(128);
setWindowHeight(128);
setConfigRedBits(8);
setConfigGreenBits(8);
setConfigBlueBits(8);
setConfigAlphaBits(8);
}
void SetUp() override
{
ANGLETest::SetUp();
const std::string vertexShaderSource = SHADER_SOURCE
( #version 300 es\n
in vec4 position;
void main()
{
gl_Position = position;
}
);
const std::string fragmentShaderSource = SHADER_SOURCE
( #version 300 es\n
precision highp float;
uniform uni {
vec4 color;
};
out vec4 fragColor;
void main()
{
fragColor = color;
}
);
mProgram = CompileProgram(vertexShaderSource, fragmentShaderSource);
ASSERT_NE(mProgram, 0u);
mUniformBufferIndex = glGetUniformBlockIndex(mProgram, "uni");
ASSERT_NE(mUniformBufferIndex, -1);
glGenBuffers(1, &mUniformBuffer);
ASSERT_GL_NO_ERROR();
}
void TearDown() override
{
glDeleteBuffers(1, &mUniformBuffer);
glDeleteProgram(mProgram);
ANGLETest::TearDown();
}
GLuint mProgram;
GLint mUniformBufferIndex;
GLuint mUniformBuffer;
};
// Basic UBO functionality.
TEST_P(UniformBufferTest, Simple)
{
glClear(GL_COLOR_BUFFER_BIT);
float floatData[4] = {0.5f, 0.75f, 0.25f, 1.0f};
glBindBuffer(GL_UNIFORM_BUFFER, mUniformBuffer);
glBufferData(GL_UNIFORM_BUFFER, sizeof(float) * 4, floatData, GL_STATIC_DRAW);
glBindBufferBase(GL_UNIFORM_BUFFER, 0, mUniformBuffer);
glUniformBlockBinding(mProgram, mUniformBufferIndex, 0);
drawQuad(mProgram, "position", 0.5f);
ASSERT_GL_NO_ERROR();
EXPECT_PIXEL_NEAR(0, 0, 128, 191, 64, 255, 1);
}
// Test that using a UBO with a non-zero offset and size actually works.
// The first step of this test renders a color from a UBO with a zero offset.
// The second step renders a color from a UBO with a non-zero offset.
TEST_P(UniformBufferTest, UniformBufferRange)
{
int px = getWindowWidth() / 2;
int py = getWindowHeight() / 2;
// Query the uniform buffer alignment requirement
GLint alignment;
glGetIntegerv(GL_UNIFORM_BUFFER_OFFSET_ALIGNMENT, &alignment);
GLint64 maxUniformBlockSize;
glGetInteger64v(GL_MAX_UNIFORM_BLOCK_SIZE, &maxUniformBlockSize);
if (alignment >= maxUniformBlockSize)
{
// ANGLE doesn't implement UBO offsets for this platform.
// Ignore the test case.
return;
}
ASSERT_GL_NO_ERROR();
// Let's create a buffer which contains two vec4.
GLuint vec4Size = 4 * sizeof(float);
GLuint stride = 0;
do
{
stride += alignment;
}
while (stride < vec4Size);
std::vector<char> v(2 * stride);
float *first = reinterpret_cast<float*>(v.data());
float *second = reinterpret_cast<float*>(v.data() + stride);
first[0] = 10.f / 255.f;
first[1] = 20.f / 255.f;
first[2] = 30.f / 255.f;
first[3] = 40.f / 255.f;
second[0] = 110.f / 255.f;
second[1] = 120.f / 255.f;
second[2] = 130.f / 255.f;
second[3] = 140.f / 255.f;
glBindBuffer(GL_UNIFORM_BUFFER, mUniformBuffer);
// We use on purpose a size which is not a multiple of the alignment.
glBufferData(GL_UNIFORM_BUFFER, stride + vec4Size, v.data(), GL_STATIC_DRAW);
glUniformBlockBinding(mProgram, mUniformBufferIndex, 0);
EXPECT_GL_NO_ERROR();
// Bind the first part of the uniform buffer and draw
// Use a size which is smaller than the alignment to check
// to check that this case is handle correctly in the conversion to 11.1.
glBindBufferRange(GL_UNIFORM_BUFFER, 0, mUniformBuffer, 0, vec4Size);
drawQuad(mProgram, "position", 0.5f);
EXPECT_GL_NO_ERROR();
EXPECT_PIXEL_EQ(px, py, 10, 20, 30, 40);
// Bind the second part of the uniform buffer and draw
// Furthermore the D3D11.1 backend will internally round the vec4Size (16 bytes) to a stride (256 bytes)
// hence it will try to map the range [stride, 2 * stride] which is
// out-of-bound of the buffer bufferSize = stride + vec4Size < 2 * stride.
// Ensure that this behaviour works.
glBindBufferRange(GL_UNIFORM_BUFFER, 0, mUniformBuffer, stride, vec4Size);
drawQuad(mProgram, "position", 0.5f);
EXPECT_GL_NO_ERROR();
EXPECT_PIXEL_EQ(px, py, 110, 120, 130, 140);
}
// Test uniform block bindings.
TEST_P(UniformBufferTest, UniformBufferBindings)
{
int px = getWindowWidth() / 2;
int py = getWindowHeight() / 2;
ASSERT_GL_NO_ERROR();
// Let's create a buffer which contains one vec4.
GLuint vec4Size = 4 * sizeof(float);
std::vector<char> v(vec4Size);
float *first = reinterpret_cast<float*>(v.data());
first[0] = 10.f / 255.f;
first[1] = 20.f / 255.f;
first[2] = 30.f / 255.f;
first[3] = 40.f / 255.f;
glBindBuffer(GL_UNIFORM_BUFFER, mUniformBuffer);
glBufferData(GL_UNIFORM_BUFFER, vec4Size, v.data(), GL_STATIC_DRAW);
EXPECT_GL_NO_ERROR();
// Try to bind the buffer to binding point 2
glUniformBlockBinding(mProgram, mUniformBufferIndex, 2);
glBindBufferBase(GL_UNIFORM_BUFFER, 2, mUniformBuffer);
drawQuad(mProgram, "position", 0.5f);
EXPECT_GL_NO_ERROR();
EXPECT_PIXEL_EQ(px, py, 10, 20, 30, 40);
// Clear the framebuffer
glClearColor(0.0, 0.0, 0.0, 0.0);
glClear(GL_COLOR_BUFFER_BIT);
EXPECT_PIXEL_EQ(px, py, 0, 0, 0, 0);
// Try to bind the buffer to another binding point
glUniformBlockBinding(mProgram, mUniformBufferIndex, 5);
glBindBufferBase(GL_UNIFORM_BUFFER, 5, mUniformBuffer);
drawQuad(mProgram, "position", 0.5f);
EXPECT_GL_NO_ERROR();
EXPECT_PIXEL_EQ(px, py, 10, 20, 30, 40);
}
// Test that ANGLE handles used but unbound UBO.
// TODO: A test case shouldn't depend on the error code of an undefined behaviour. Move this to unit tests of the validation layer.
TEST_P(UniformBufferTest, UnboundUniformBuffer)
{
glUniformBlockBinding(mProgram, mUniformBufferIndex, 0);
glBindBufferBase(GL_UNIFORM_BUFFER, 0, 0);
EXPECT_GL_NO_ERROR();
drawQuad(mProgram, "position", 0.5f);
EXPECT_GL_ERROR(GL_INVALID_OPERATION);
}
// Update a UBO many time and verify that ANGLE uses the latest version of the data.
// https://code.google.com/p/angleproject/issues/detail?id=965
TEST_P(UniformBufferTest, UniformBufferManyUpdates)
{
// TODO(jmadill): Figure out why this fails on Intel OpenGL.
if (IsIntel() && IsOpenGL())
{
std::cout << "Test skipped on Intel OpenGL." << std::endl;
return;
}
int px = getWindowWidth() / 2;
int py = getWindowHeight() / 2;
ASSERT_GL_NO_ERROR();
float data[4];
glBindBuffer(GL_UNIFORM_BUFFER, mUniformBuffer);
glBufferData(GL_UNIFORM_BUFFER, sizeof(data), NULL, GL_DYNAMIC_DRAW);
glUniformBlockBinding(mProgram, mUniformBufferIndex, 0);
glBindBufferBase(GL_UNIFORM_BUFFER, 0, mUniformBuffer);
EXPECT_GL_NO_ERROR();
// Repeteadly update the data and draw
for (size_t i = 0; i < 10; ++i)
{
data[0] = (i + 10.f) / 255.f;
data[1] = (i + 20.f) / 255.f;
data[2] = (i + 30.f) / 255.f;
data[3] = (i + 40.f) / 255.f;
glBufferSubData(GL_UNIFORM_BUFFER, 0, sizeof(data), data);
drawQuad(mProgram, "position", 0.5f);
EXPECT_GL_NO_ERROR();
EXPECT_PIXEL_EQ(px, py, i + 10, i + 20, i + 30, i + 40);
}
}
// Use a large number of buffer ranges (compared to the actual size of the UBO)
TEST_P(UniformBufferTest, ManyUniformBufferRange)
{
int px = getWindowWidth() / 2;
int py = getWindowHeight() / 2;
// Query the uniform buffer alignment requirement
GLint alignment;
glGetIntegerv(GL_UNIFORM_BUFFER_OFFSET_ALIGNMENT, &alignment);
GLint64 maxUniformBlockSize;
glGetInteger64v(GL_MAX_UNIFORM_BLOCK_SIZE, &maxUniformBlockSize);
if (alignment >= maxUniformBlockSize)
{
// ANGLE doesn't implement UBO offsets for this platform.
// Ignore the test case.
return;
}
ASSERT_GL_NO_ERROR();
// Let's create a buffer which contains eight vec4.
GLuint vec4Size = 4 * sizeof(float);
GLuint stride = 0;
do
{
stride += alignment;
}
while (stride < vec4Size);
std::vector<char> v(8 * stride);
for (size_t i = 0; i < 8; ++i)
{
float *data = reinterpret_cast<float*>(v.data() + i * stride);
data[0] = (i + 10.f) / 255.f;
data[1] = (i + 20.f) / 255.f;
data[2] = (i + 30.f) / 255.f;
data[3] = (i + 40.f) / 255.f;
}
glBindBuffer(GL_UNIFORM_BUFFER, mUniformBuffer);
glBufferData(GL_UNIFORM_BUFFER, v.size(), v.data(), GL_STATIC_DRAW);
glUniformBlockBinding(mProgram, mUniformBufferIndex, 0);
EXPECT_GL_NO_ERROR();
// Bind each possible offset
for (size_t i = 0; i < 8; ++i)
{
glBindBufferRange(GL_UNIFORM_BUFFER, 0, mUniformBuffer, i * stride, stride);
drawQuad(mProgram, "position", 0.5f);
EXPECT_GL_NO_ERROR();
EXPECT_PIXEL_EQ(px, py, 10 + i, 20 + i, 30 + i, 40 + i);
}
// Try to bind larger range
for (size_t i = 0; i < 7; ++i)
{
glBindBufferRange(GL_UNIFORM_BUFFER, 0, mUniformBuffer, i * stride, 2 * stride);
drawQuad(mProgram, "position", 0.5f);
EXPECT_GL_NO_ERROR();
EXPECT_PIXEL_EQ(px, py, 10 + i, 20 + i, 30 + i, 40 + i);
}
// Try to bind even larger range
for (size_t i = 0; i < 5; ++i)
{
glBindBufferRange(GL_UNIFORM_BUFFER, 0, mUniformBuffer, i * stride, 4 * stride);
drawQuad(mProgram, "position", 0.5f);
EXPECT_GL_NO_ERROR();
EXPECT_PIXEL_EQ(px, py, 10 + i, 20 + i, 30 + i, 40 + i);
}
}
// Tests that active uniforms have the right names.
TEST_P(UniformBufferTest, ActiveUniformNames)
{
const std::string &vertexShaderSource =
"#version 300 es\n"
"in vec2 position;\n"
"out vec2 v;\n"
"uniform blockName1 {\n"
" float f1;\n"
"} instanceName1;\n"
"uniform blockName2 {\n"
" float f2;\n"
"} instanceName2[1];\n"
"void main() {\n"
" v = vec2(instanceName1.f1, instanceName2[0].f2);\n"
" gl_Position = vec4(position, 0, 1);\n"
"}";
const std::string &fragmentShaderSource =
"#version 300 es\n"
"precision highp float;\n"
"in vec2 v;\n"
"out vec4 color;\n"
"void main() {\n"
" color = vec4(v, 0, 1);\n"
"}";
GLuint program = CompileProgram(vertexShaderSource, fragmentShaderSource);
ASSERT_NE(0u, program);
GLint activeUniformBlocks;
glGetProgramiv(program, GL_ACTIVE_UNIFORM_BLOCKS, &activeUniformBlocks);
ASSERT_EQ(2, activeUniformBlocks);
GLint maxLength;
GLsizei length;
glGetProgramiv(program, GL_ACTIVE_UNIFORM_BLOCK_MAX_NAME_LENGTH, &maxLength);
std::vector<GLchar> strBlockNameBuffer(maxLength + 1, 0);
glGetActiveUniformBlockName(program, 0, maxLength, &length, &strBlockNameBuffer[0]);
ASSERT_GL_NO_ERROR();
EXPECT_EQ("blockName1", std::string(&strBlockNameBuffer[0]));
glGetActiveUniformBlockName(program, 1, maxLength, &length, &strBlockNameBuffer[0]);
ASSERT_GL_NO_ERROR();
EXPECT_EQ("blockName2[0]", std::string(&strBlockNameBuffer[0]));
GLint activeUniforms;
glGetProgramiv(program, GL_ACTIVE_UNIFORMS, &activeUniforms);
ASSERT_EQ(2, activeUniforms);
GLint size;
GLenum type;
glGetProgramiv(program, GL_ACTIVE_UNIFORM_MAX_LENGTH, &maxLength);
std::vector<GLchar> strUniformNameBuffer(maxLength + 1, 0);
glGetActiveUniform(program, 0, maxLength, &length, &size, &type, &strUniformNameBuffer[0]);
ASSERT_GL_NO_ERROR();
EXPECT_EQ(1, size);
EXPECT_GLENUM_EQ(GL_FLOAT, type);
EXPECT_EQ("blockName1.f1", std::string(&strUniformNameBuffer[0]));
glGetActiveUniform(program, 1, maxLength, &length, &size, &type, &strUniformNameBuffer[0]);
ASSERT_GL_NO_ERROR();
EXPECT_EQ(1, size);
EXPECT_GLENUM_EQ(GL_FLOAT, type);
EXPECT_EQ("blockName2.f2", std::string(&strUniformNameBuffer[0]));
}
// Tests active uniforms and blocks when the layout is std140, shared and packed.
TEST_P(UniformBufferTest, ActiveUniformNumberAndName)
{
// TODO(Jiajia): Figure out why this fails on Intel on Mac.
// This case can pass on Intel Mac-10.11/10.12. But it fails on Intel Mac-10.10.
if (IsIntel() && IsOSX())
{
std::cout << "Test skipped on Intel on Mac." << std::endl;
return;
}
// This case fails on all AMD platforms (Mac, Linux, Win).
// TODO(zmo): This actually passes on certain AMD cards, but we don't have
// a way to do device specific handling yet.
if (IsAMD())
{
std::cout << "Test skipped on AMD." << std::endl;
return;
}
const std::string &vertexShaderSource =
"#version 300 es\n"
"in vec2 position;\n"
"out float v;\n"
"struct S {\n"
" highp ivec3 a;\n"
" mediump ivec2 b[4];\n"
"};\n"
"layout(std140) uniform blockName0 {\n"
" S s0;\n"
" lowp vec2 v0;\n"
" S s1[2];\n"
" highp uint u0;\n"
"};\n"
"layout(std140) uniform blockName1 {\n"
" float f1;\n"
" bool b1;\n"
"} instanceName1;\n"
"layout(shared) uniform blockName2 {\n"
" float f2;\n"
"};\n"
"layout(packed) uniform blockName3 {\n"
" float f3;\n"
"};\n"
"void main() {\n"
" v = instanceName1.f1;\n"
" gl_Position = vec4(position, 0, 1);\n"
"}";
const std::string &fragmentShaderSource =
"#version 300 es\n"
"precision highp float;\n"
"in float v;\n"
"out vec4 color;\n"
"void main() {\n"
" color = vec4(v, 0, 0, 1);\n"
"}";
ANGLE_GL_PROGRAM(program, vertexShaderSource, fragmentShaderSource);
// Note that the packed |blockName3| might (or might not) be optimized out.
GLint activeUniforms;
glGetProgramiv(program.get(), GL_ACTIVE_UNIFORMS, &activeUniforms);
EXPECT_GE(activeUniforms, 11);
GLint activeUniformBlocks;
glGetProgramiv(program.get(), GL_ACTIVE_UNIFORM_BLOCKS, &activeUniformBlocks);
EXPECT_GE(activeUniformBlocks, 3);
GLint maxLength, size;
GLenum type;
GLsizei length;
glGetProgramiv(program.get(), GL_ACTIVE_UNIFORM_MAX_LENGTH, &maxLength);
std::vector<GLchar> strBuffer(maxLength + 1, 0);
glGetActiveUniform(program.get(), 0, maxLength, &length, &size, &type, &strBuffer[0]);
ASSERT_GL_NO_ERROR();
EXPECT_EQ(1, size);
EXPECT_EQ("s0.a", std::string(&strBuffer[0]));
glGetActiveUniform(program.get(), 1, maxLength, &length, &size, &type, &strBuffer[0]);
ASSERT_GL_NO_ERROR();
EXPECT_EQ(4, size);
EXPECT_EQ("s0.b[0]", std::string(&strBuffer[0]));
glGetActiveUniform(program.get(), 2, maxLength, &length, &size, &type, &strBuffer[0]);
ASSERT_GL_NO_ERROR();
EXPECT_EQ(1, size);
EXPECT_EQ("v0", std::string(&strBuffer[0]));
glGetActiveUniform(program.get(), 3, maxLength, &length, &size, &type, &strBuffer[0]);
ASSERT_GL_NO_ERROR();
EXPECT_EQ(1, size);
EXPECT_EQ("s1[0].a", std::string(&strBuffer[0]));
glGetActiveUniform(program.get(), 4, maxLength, &length, &size, &type, &strBuffer[0]);
ASSERT_GL_NO_ERROR();
EXPECT_EQ(4, size);
EXPECT_EQ("s1[0].b[0]", std::string(&strBuffer[0]));
glGetActiveUniform(program.get(), 5, maxLength, &length, &size, &type, &strBuffer[0]);
ASSERT_GL_NO_ERROR();
EXPECT_EQ(1, size);
EXPECT_EQ("s1[1].a", std::string(&strBuffer[0]));
glGetActiveUniform(program.get(), 6, maxLength, &length, &size, &type, &strBuffer[0]);
ASSERT_GL_NO_ERROR();
EXPECT_EQ(4, size);
EXPECT_EQ("s1[1].b[0]", std::string(&strBuffer[0]));
glGetActiveUniform(program.get(), 7, maxLength, &length, &size, &type, &strBuffer[0]);
ASSERT_GL_NO_ERROR();
EXPECT_EQ(1, size);
EXPECT_EQ("u0", std::string(&strBuffer[0]));
glGetActiveUniform(program.get(), 8, maxLength, &length, &size, &type, &strBuffer[0]);
ASSERT_GL_NO_ERROR();
EXPECT_EQ(1, size);
EXPECT_EQ("blockName1.f1", std::string(&strBuffer[0]));
glGetActiveUniform(program.get(), 9, maxLength, &length, &size, &type, &strBuffer[0]);
ASSERT_GL_NO_ERROR();
EXPECT_EQ(1, size);
EXPECT_EQ("blockName1.b1", std::string(&strBuffer[0]));
glGetActiveUniform(program.get(), 10, maxLength, &length, &size, &type, &strBuffer[0]);
ASSERT_GL_NO_ERROR();
EXPECT_EQ(1, size);
EXPECT_EQ("f2", std::string(&strBuffer[0]));
}
// Test that using a very large buffer to back a small uniform block works OK.
TEST_P(UniformBufferTest, VeryLarge)
{
glClear(GL_COLOR_BUFFER_BIT);
float floatData[4] = {0.5f, 0.75f, 0.25f, 1.0f};
GLsizei bigSize = 4096 * 64;
std::vector<GLubyte> zero(bigSize, 0);
glBindBuffer(GL_UNIFORM_BUFFER, mUniformBuffer);
glBufferData(GL_UNIFORM_BUFFER, bigSize, zero.data(), GL_STATIC_DRAW);
glBufferSubData(GL_UNIFORM_BUFFER, 0, sizeof(float) * 4, floatData);
glBindBufferBase(GL_UNIFORM_BUFFER, 0, mUniformBuffer);
glUniformBlockBinding(mProgram, mUniformBufferIndex, 0);
drawQuad(mProgram, "position", 0.5f);
ASSERT_GL_NO_ERROR();
EXPECT_PIXEL_NEAR(0, 0, 128, 191, 64, 255, 1);
}
// Use this to select which configurations (e.g. which renderer, which GLES major version) these tests should be run against.
ANGLE_INSTANTIATE_TEST(UniformBufferTest,
ES3_D3D11(),
ES3_D3D11_FL11_1(),
ES3_D3D11_FL11_1_REFERENCE(),
ES3_OPENGL(),
ES3_OPENGLES());
} // namespace
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