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gerrit-public.fairphone.software / platform / external / vulkan-validation-layers / 6636d1a7928d7d772073e310dc7bafec7e6898bf / . / tests / vktestframework.cpp
blob: 85096aeacf0227d172f092c14c55f09f3fba6ca1 [file] [log] [blame]
// VK tests
//
// Copyright (C) 2014 LunarG, Inc.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the "Software"),
// to deal in the Software without restriction, including without limitation
// the rights to use, copy, modify, merge, publish, distribute, sublicense,
// and/or sell copies of the Software, and to permit persons to whom the
// Software is furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
// THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
// DEALINGS IN THE SOFTWARE.
#include "vktestframework.h"
#include "vkrenderframework.h"
#include "GL/freeglut_std.h"
//#include "ShaderLang.h"
#include "GlslangToSpv.h"
#include <limits.h>
#include <math.h>
#include <wand/MagickWand.h>
#include <xcb/xcb.h>
#include <vk_wsi_lunarg.h>
// Command-line options
enum TOptions {
EOptionNone = 0x000,
EOptionIntermediate = 0x001,
EOptionSuppressInfolog = 0x002,
EOptionMemoryLeakMode = 0x004,
EOptionRelaxedErrors = 0x008,
EOptionGiveWarnings = 0x010,
EOptionLinkProgram = 0x020,
EOptionMultiThreaded = 0x040,
EOptionDumpConfig = 0x080,
EOptionDumpReflection = 0x100,
EOptionSuppressWarnings = 0x200,
EOptionDumpVersions = 0x400,
EOptionSpv = 0x800,
EOptionDefaultDesktop = 0x1000,
};
class TestFrameworkVkPresent
{
public:
TestFrameworkVkPresent(vk_testing::Device &device);
void Run();
void InitPresentFramework(std::list<VkTestImageRecord> &imagesIn);
void CreateMyWindow();
void CreateSwapChain();
void TearDown();
protected:
vk_testing::Device &m_device;
vk_testing::Queue &m_queue;
vk_testing::CmdBuffer m_cmdbuf;
private:
xcb_connection_t *m_connection;
xcb_screen_t *m_screen;
xcb_window_t m_window;
xcb_intern_atom_reply_t *m_atom_wm_delete_window;
std::list<VkTestImageRecord> m_images;
VkSwapChainWSI m_swap_chain;
bool m_quit;
bool m_pause;
uint32_t m_width;
uint32_t m_height;
std::list<VkTestImageRecord>::iterator m_display_image;
void Display();
void HandleEvent(xcb_generic_event_t *event);
};
#ifndef _WIN32
#include <errno.h>
int fopen_s(
FILE** pFile,
const char* filename,
const char* mode
)
{
if (!pFile || !filename || !mode) {
return EINVAL;
}
FILE* f = fopen(filename, mode);
if (! f) {
if (errno != 0) {
return errno;
} else {
return ENOENT;
}
}
*pFile = f;
return 0;
}
#endif
// Set up environment for GLSL compiler
// Must be done once per process
void TestEnvironment::SetUp()
{
// Initialize GLSL to SPV compiler utility
glslang::InitializeProcess();
vk_testing::set_error_callback(test_error_callback);
}
void TestEnvironment::TearDown()
{
glslang::FinalizeProcess();
}
VkTestFramework::VkTestFramework() :
m_compile_options( 0 ),
m_num_shader_strings( 0 )
{
}
VkTestFramework::~VkTestFramework()
{
}
// Define all the static elements
bool VkTestFramework::m_show_images = false;
bool VkTestFramework::m_save_images = false;
bool VkTestFramework::m_compare_images = false;
#ifdef _WIN32
bool VkTestFramework::m_use_spv = false;
#else
bool VkTestFramework::m_use_spv = true;
#endif
int VkTestFramework::m_width = 0;
int VkTestFramework::m_height = 0;
std::list<VkTestImageRecord> VkTestFramework::m_images;
std::list<VkTestImageRecord>::iterator VkTestFramework::m_display_image;
int m_display_image_idx = 0;
void VkTestFramework::InitArgs(int *argc, char *argv[])
{
int i, n;
for (i=0, n=0; i< *argc; i++) {
if (strncmp("--show-images", argv[i], 13) == 0) {
m_show_images = true;
continue;
}
if (strncmp("--save-images", argv[i], 13) == 0) {
m_save_images = true;
continue;
}
if (strncmp("--use-SPV", argv[i], 13) == 0) {
m_use_spv = true;
continue;
}
if (strncmp("--no-SPV", argv[i], 13) == 0) {
m_use_spv = false;
continue;
}
if (strncmp("--compare-images", argv[i], 16) == 0) {
m_compare_images = true;
continue;
}
/*
* Since the above "consume" inputs, update argv
* so that it contains the trimmed list of args for glutInit
*/
if (strncmp("--help", argv[i], 6) == 0 || strncmp("-h", argv[i], 2) == 0) {
printf("\nOther options:\n");
printf("\t--show-images\n"
"\t\tDisplay test images in viewer after tests complete.\n");
printf("\t--save-images\n"
"\t\tSave tests images as ppm files in current working directory.\n"
"\t\tUsed to generate golden images for compare-images.\n");
printf("\t--compare-images\n"
"\t\tCompare test images to 'golden' image in golden folder.\n"
"\t\tAlso saves the generated test image in current working\n"
"\t\t\tdirectory but only if the image is different from the golden\n"
"\t\tSetting RENDERTEST_GOLDEN_DIR environment variable can specify\n"
"\t\t\tdifferent directory for golden images\n"
"\t\tSignal test failure if different.\n");
printf("\t--use-SPV\n"
"\t\tUse SPV code path (default).\n");
printf("\t--no-SPV\n"
"\t\tUse built-in GLSL compiler rather than SPV code path.\n");
exit(0);
}
argv[n] = argv[i];
n++;
}
}
void VkTestFramework::WritePPM( const char *basename, VkImageObj *image )
{
string filename;
VkResult err;
int x, y;
VkImageObj displayImage(image->device());
VkMemoryPropertyFlags reqs = VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT;
displayImage.init(image->extent().width, image->extent().height, image->format(), 0, VK_IMAGE_TILING_LINEAR, reqs);
displayImage.CopyImage(*image);
filename.append(basename);
filename.append(".ppm");
const VkImageSubresource sr = {
VK_IMAGE_ASPECT_COLOR, 0, 0
};
VkSubresourceLayout sr_layout;
size_t data_size = sizeof(sr_layout);
err = vkGetImageSubresourceInfo(image->device()->device(), image->image(), &sr,
VK_SUBRESOURCE_INFO_TYPE_LAYOUT,
&data_size, &sr_layout);
ASSERT_VK_SUCCESS( err );
ASSERT_EQ(data_size, sizeof(sr_layout));
char *ptr;
ptr = (char *) displayImage.map();
ptr += sr_layout.offset;
ofstream file (filename.c_str());
ASSERT_TRUE(file.is_open()) << "Unable to open file: " << filename;
file << "P6\n";
file << displayImage.width() << "\n";
file << displayImage.height() << "\n";
file << 255 << "\n";
for (y = 0; y < displayImage.height(); y++) {
const int *row = (const int *) ptr;
int swapped;
if (displayImage.format() == VK_FORMAT_B8G8R8A8_UNORM)
{
for (x = 0; x < displayImage.width(); x++) {
swapped = (*row & 0xff00ff00) | (*row & 0x000000ff) << 16 | (*row & 0x00ff0000) >> 16;
file.write((char *) &swapped, 3);
row++;
}
}
else if (displayImage.format() == VK_FORMAT_R8G8B8A8_UNORM)
{
for (x = 0; x < displayImage.width(); x++) {
file.write((char *) row, 3);
row++;
}
}
else {
printf("Unrecognized image format - will not write image files");
break;
}
ptr += sr_layout.rowPitch;
}
file.close();
displayImage.unmap();
}
void VkTestFramework::Compare(const char *basename, VkImageObj *image )
{
MagickWand *magick_wand_1;
MagickWand *magick_wand_2;
MagickWand *compare_wand;
MagickBooleanType status;
char testimage[256],golden[PATH_MAX+256],golddir[PATH_MAX] = "./golden";
double differenz;
if (getenv("RENDERTEST_GOLDEN_DIR"))
{
strcpy(golddir,getenv("RENDERTEST_GOLDEN_DIR"));
}
MagickWandGenesis();
magick_wand_1=NewMagickWand();
sprintf(testimage,"%s.ppm",basename);
status=MagickReadImage(magick_wand_1,testimage);
ASSERT_TRUE(status) << "Unable to open file: " << testimage;
MagickWandGenesis();
magick_wand_2=NewMagickWand();
sprintf(golden,"%s/%s.ppm",golddir,basename);
status=MagickReadImage(magick_wand_2,golden);
ASSERT_TRUE(status) << "Unable to open file: " << golden;
compare_wand=MagickCompareImages(magick_wand_1,magick_wand_2, MeanAbsoluteErrorMetric, &differenz);
if (differenz != 0.0)
{
char difference[256];
sprintf(difference,"%s-diff.ppm",basename);
status = MagickWriteImage(compare_wand, difference);
ASSERT_TRUE(differenz == 0.0) << "Image comparison failed - diff file written";
}
DestroyMagickWand(compare_wand);
DestroyMagickWand(magick_wand_1);
DestroyMagickWand(magick_wand_2);
MagickWandTerminus();
if (differenz == 0.0)
{
/*
* If test image and golden image match, we do not need to
* keep around the test image.
*/
remove(testimage);
}
}
void VkTestFramework::Show(const char *comment, VkImageObj *image)
{
VkResult err;
VkSubresourceLayout sr_layout;
char *ptr;
VkTestImageRecord record;
size_t data_size = sizeof(sr_layout);
VkImageObj displayImage(image->device());
VkMemoryPropertyFlags reqs = VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT;
if (!m_show_images) return;
displayImage.init(image->extent().width, image->extent().height, image->format(), 0, VK_IMAGE_TILING_LINEAR, reqs);
displayImage.CopyImage(*image);
const VkImageSubresource sr = {
VK_IMAGE_ASPECT_COLOR, 0, 0
};
err = vkGetImageSubresourceInfo(displayImage.device()->device(), displayImage.image(), &sr,
VK_SUBRESOURCE_INFO_TYPE_LAYOUT,
&data_size, &sr_layout);
ASSERT_VK_SUCCESS( err );
ASSERT_EQ(data_size, sizeof(sr_layout));
err = displayImage.MapMemory( (void **) &ptr );
ASSERT_VK_SUCCESS( err );
ptr += sr_layout.offset;
record.m_title.append(comment);
record.m_width = displayImage.width();
record.m_height = displayImage.height();
// TODO: Need to make this more robust to handle different image formats
record.m_data_size = displayImage.width()*displayImage.height()*4;
record.m_data = malloc(record.m_data_size);
memcpy(record.m_data, ptr, record.m_data_size);
m_images.push_back(record);
m_display_image = --m_images.end();
err = displayImage.UnmapMemory();
ASSERT_VK_SUCCESS( err );
}
void VkTestFramework::RecordImages(vector<VkImageObj *> images)
{
for (int32_t i = 0; i < images.size(); i++) {
RecordImage(images[i]);
}
}
void VkTestFramework::RecordImage(VkImageObj * image)
{
const ::testing::TestInfo* const test_info =
::testing::UnitTest::GetInstance()->current_test_info();
ostringstream filestream;
string filename;
m_width = 40;
if (strcmp(test_info->name(), m_testName.c_str())) {
filestream << test_info->name();
m_testName.assign(test_info->name());
m_frameNum = 2;
filename = filestream.str();
}
else {
filestream << test_info->name() << "-" << m_frameNum;
m_frameNum++;
filename = filestream.str();
}
// ToDo - scrub string for bad characters
if (m_save_images || m_compare_images) {
WritePPM(filename.c_str(), image);
if (m_compare_images) {
Compare(filename.c_str(), image);
}
}
if (m_show_images) {
Show(test_info->name(), image);
}
}
TestFrameworkVkPresent::TestFrameworkVkPresent(vk_testing::Device &device) :
m_device(device),
m_queue(*m_device.graphics_queues()[0]),
m_cmdbuf(m_device, vk_testing::CmdBuffer::create_info(m_device.graphics_queue_node_index_))
{
m_quit = false;
m_pause = false;
m_width = 0;
m_height = 0;
}
void TestFrameworkVkPresent::Display()
{
VkResult U_ASSERT_ONLY err;
VkPresentInfoWSI present = {};
present.sType = VK_STRUCTURE_TYPE_PRESENT_INFO_WSI;
present.image = m_display_image->m_presentableImage;
present.flipInterval = 1;
xcb_change_property (m_connection,
XCB_PROP_MODE_REPLACE,
m_window,
XCB_ATOM_WM_NAME,
XCB_ATOM_STRING,
8,
m_display_image->m_title.size(),
m_display_image->m_title.c_str());
err = vkQueuePresentWSI(m_queue.obj(), &present);
assert(!err);
m_queue.wait();
}
void TestFrameworkVkPresent::HandleEvent(xcb_generic_event_t *event)
{
uint8_t event_code = event->response_type & 0x7f;
switch (event_code) {
case XCB_EXPOSE:
Display(); // TODO: handle resize
break;
case XCB_CLIENT_MESSAGE:
if((*(xcb_client_message_event_t*)event).data.data32[0] ==
(m_atom_wm_delete_window)->atom) {
m_quit = true;
}
break;
case XCB_KEY_RELEASE:
{
const xcb_key_release_event_t *key =
(const xcb_key_release_event_t *) event;
switch (key->detail) {
case 0x9: // Escape
m_quit = true;
break;
case 0x71: // left arrow key
if (m_display_image == m_images.begin()) {
m_display_image = --m_images.end();
} else {
--m_display_image;
}
break;
case 0x72: // right arrow key
++m_display_image;
if (m_display_image == m_images.end()) {
m_display_image = m_images.begin();
}
break;
case 0x41:
m_pause = !m_pause;
break;
}
Display();
}
break;
default:
break;
}
}
void TestFrameworkVkPresent::Run()
{
xcb_flush(m_connection);
while (! m_quit) {
xcb_generic_event_t *event;
if (m_pause) {
event = xcb_wait_for_event(m_connection);
} else {
event = xcb_poll_for_event(m_connection);
}
if (event) {
HandleEvent(event);
free(event);
}
}
}
void TestFrameworkVkPresent::CreateSwapChain()
{
VkResult U_ASSERT_ONLY err;
VkSwapChainCreateInfoWSI swap_chain = {};
swap_chain.sType = VK_STRUCTURE_TYPE_SWAP_CHAIN_CREATE_INFO_WSI;
swap_chain.pNativeWindowSystemHandle = (void *) m_connection;
swap_chain.pNativeWindowHandle = (void *) (intptr_t) m_window;
swap_chain.imageCount = m_images.size();
swap_chain.imageFormat = VK_FORMAT_B8G8R8A8_UNORM;
swap_chain.imageExtent.width = m_width;
swap_chain.imageExtent.height = m_height;
swap_chain.imageArraySize = 1;
swap_chain.imageUsageFlags = VK_IMAGE_USAGE_TRANSFER_DESTINATION_BIT;
swap_chain.swapModeFlags = VK_SWAP_MODE_FLIP_BIT_WSI |
VK_SWAP_MODE_BLIT_BIT_WSI;
err = vkCreateSwapChainWSI(m_device.obj(), &swap_chain, &m_swap_chain);
assert(!err);
size_t size = sizeof(VkSwapChainImageInfoWSI) * m_images.size();
std::vector<VkSwapChainImageInfoWSI> persistent_images;
persistent_images.resize(m_images.size());
err = vkGetSwapChainInfoWSI(m_swap_chain,
VK_SWAP_CHAIN_INFO_TYPE_PERSISTENT_IMAGES_WSI,
&size, &persistent_images[0]);
assert(!err && size == sizeof(VkSwapChainImageInfoWSI) * m_images.size());
m_display_image = m_images.begin();
for (int x=0; x < m_images.size(); x++)
{
void *dest_ptr;
m_display_image->m_presentableImage = persistent_images[x].image;
m_display_image->m_presentableMemory = persistent_images[x].memory;
vk_testing::Buffer buf;
VkMemoryPropertyFlags flags = VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT;
buf.init(m_device, (VkDeviceSize) m_display_image->m_data_size, flags);
dest_ptr = buf.map();
memcpy(dest_ptr,m_display_image->m_data, m_display_image->m_data_size);
buf.unmap();
m_cmdbuf.begin();
VkBufferImageCopy region = {};
region.imageExtent.height = m_display_image->m_height;
region.imageExtent.width = m_display_image->m_width;
region.imageExtent.depth = 1;
vkCmdCopyBufferToImage(m_cmdbuf.obj(),
buf.obj(),
m_display_image->m_presentableImage, VK_IMAGE_LAYOUT_TRANSFER_DESTINATION_OPTIMAL,
1, &region);
m_cmdbuf.end();
vkQueueAddMemReferences(m_queue.obj(), 1, &m_display_image->m_presentableMemory);
vkQueueAddMemReferences(m_queue.obj(), buf.memories().size(), &buf.memories()[0]);
VkCmdBuffer cmdBufs[1];
cmdBufs[0] = m_cmdbuf.obj();
vkQueueSubmit(m_queue.obj(), 1, cmdBufs, NULL);
m_queue.wait();
vkQueueRemoveMemReferences(m_queue.obj(), 1, &m_display_image->m_presentableMemory);
vkQueueRemoveMemReferences(m_queue.obj(), buf.memories().size(), &buf.memories()[0]);
++m_display_image;
}
m_display_image = m_images.begin();
}
void TestFrameworkVkPresent::InitPresentFramework(std::list<VkTestImageRecord> &imagesIn)
{
m_images = imagesIn;
}
void TestFrameworkVkPresent::CreateMyWindow()
{
const xcb_setup_t *setup;
xcb_screen_iterator_t iter;
int scr;
uint32_t value_mask, value_list[32];
m_connection = xcb_connect(NULL, &scr);
setup = xcb_get_setup(m_connection);
iter = xcb_setup_roots_iterator(setup);
while (scr-- > 0)
xcb_screen_next(&iter);
m_screen = iter.data;
for (std::list<VkTestImageRecord>::const_iterator it = m_images.begin();
it != m_images.end(); it++) {
if (m_width < it->m_width)
m_width = it->m_width;
if (m_height < it->m_height)
m_height = it->m_height;
}
m_window = xcb_generate_id(m_connection);
value_mask = XCB_CW_BACK_PIXEL | XCB_CW_EVENT_MASK;
value_list[0] = m_screen->black_pixel;
value_list[1] = XCB_EVENT_MASK_KEY_RELEASE |
XCB_EVENT_MASK_EXPOSURE |
XCB_EVENT_MASK_STRUCTURE_NOTIFY;
xcb_create_window(m_connection,
XCB_COPY_FROM_PARENT,
m_window, m_screen->root,
0, 0, m_width, m_height, 0,
XCB_WINDOW_CLASS_INPUT_OUTPUT,
m_screen->root_visual,
value_mask, value_list);
/* Magic code that will send notification when window is destroyed */
xcb_intern_atom_cookie_t cookie = xcb_intern_atom(m_connection, 1, 12,
"WM_PROTOCOLS");
xcb_intern_atom_reply_t* reply = xcb_intern_atom_reply(m_connection, cookie, 0);
xcb_intern_atom_cookie_t cookie2 = xcb_intern_atom(m_connection, 0, 16, "WM_DELETE_WINDOW");
m_atom_wm_delete_window = xcb_intern_atom_reply(m_connection, cookie2, 0);
xcb_change_property(m_connection, XCB_PROP_MODE_REPLACE,
m_window, (*reply).atom, 4, 32, 1,
&(*m_atom_wm_delete_window).atom);
free(reply);
xcb_map_window(m_connection, m_window);
}
void TestFrameworkVkPresent::TearDown()
{
vkDestroySwapChainWSI(m_swap_chain);
xcb_destroy_window(m_connection, m_window);
xcb_disconnect(m_connection);
}
void VkTestFramework::Finish()
{
if (m_images.size() == 0) return;
vk_testing::Environment env;
env.SetUp();
{
TestFrameworkVkPresent vkPresent(env.default_device());
vkPresent.InitPresentFramework(m_images);
vkPresent.CreateMyWindow();
vkPresent.CreateSwapChain();
vkPresent.Run();
vkPresent.TearDown();
}
env.TearDown();
}
//
// These are the default resources for TBuiltInResources, used for both
// - parsing this string for the case where the user didn't supply one
// - dumping out a template for user construction of a config file
//
static const char* DefaultConfig =
"MaxLights 32\n"
"MaxClipPlanes 6\n"
"MaxTextureUnits 32\n"
"MaxTextureCoords 32\n"
"MaxVertexAttribs 64\n"
"MaxVertexUniformComponents 4096\n"
"MaxVaryingFloats 64\n"
"MaxVertexTextureImageUnits 32\n"
"MaxCombinedTextureImageUnits 80\n"
"MaxTextureImageUnits 32\n"
"MaxFragmentUniformComponents 4096\n"
"MaxDrawBuffers 32\n"
"MaxVertexUniformVectors 128\n"
"MaxVaryingVectors 8\n"
"MaxFragmentUniformVectors 16\n"
"MaxVertexOutputVectors 16\n"
"MaxFragmentInputVectors 15\n"
"MinProgramTexelOffset -8\n"
"MaxProgramTexelOffset 7\n"
"MaxClipDistances 8\n"
"MaxComputeWorkGroupCountX 65535\n"
"MaxComputeWorkGroupCountY 65535\n"
"MaxComputeWorkGroupCountZ 65535\n"
"MaxComputeWorkGroupSizeX 1024\n"
"MaxComputeWorkGroupSizeY 1024\n"
"MaxComputeWorkGroupSizeZ 64\n"
"MaxComputeUniformComponents 1024\n"
"MaxComputeTextureImageUnits 16\n"
"MaxComputeImageUniforms 8\n"
"MaxComputeAtomicCounters 8\n"
"MaxComputeAtomicCounterBuffers 1\n"
"MaxVaryingComponents 60\n"
"MaxVertexOutputComponents 64\n"
"MaxGeometryInputComponents 64\n"
"MaxGeometryOutputComponents 128\n"
"MaxFragmentInputComponents 128\n"
"MaxImageUnits 8\n"
"MaxCombinedImageUnitsAndFragmentOutputs 8\n"
"MaxCombinedShaderOutputResources 8\n"
"MaxImageSamples 0\n"
"MaxVertexImageUniforms 0\n"
"MaxTessControlImageUniforms 0\n"
"MaxTessEvaluationImageUniforms 0\n"
"MaxGeometryImageUniforms 0\n"
"MaxFragmentImageUniforms 8\n"
"MaxCombinedImageUniforms 8\n"
"MaxGeometryTextureImageUnits 16\n"
"MaxGeometryOutputVertices 256\n"
"MaxGeometryTotalOutputComponents 1024\n"
"MaxGeometryUniformComponents 1024\n"
"MaxGeometryVaryingComponents 64\n"
"MaxTessControlInputComponents 128\n"
"MaxTessControlOutputComponents 128\n"
"MaxTessControlTextureImageUnits 16\n"
"MaxTessControlUniformComponents 1024\n"
"MaxTessControlTotalOutputComponents 4096\n"
"MaxTessEvaluationInputComponents 128\n"
"MaxTessEvaluationOutputComponents 128\n"
"MaxTessEvaluationTextureImageUnits 16\n"
"MaxTessEvaluationUniformComponents 1024\n"
"MaxTessPatchComponents 120\n"
"MaxPatchVertices 32\n"
"MaxTessGenLevel 64\n"
"MaxViewports 16\n"
"MaxVertexAtomicCounters 0\n"
"MaxTessControlAtomicCounters 0\n"
"MaxTessEvaluationAtomicCounters 0\n"
"MaxGeometryAtomicCounters 0\n"
"MaxFragmentAtomicCounters 8\n"
"MaxCombinedAtomicCounters 8\n"
"MaxAtomicCounterBindings 1\n"
"MaxVertexAtomicCounterBuffers 0\n"
"MaxTessControlAtomicCounterBuffers 0\n"
"MaxTessEvaluationAtomicCounterBuffers 0\n"
"MaxGeometryAtomicCounterBuffers 0\n"
"MaxFragmentAtomicCounterBuffers 1\n"
"MaxCombinedAtomicCounterBuffers 1\n"
"MaxAtomicCounterBufferSize 16384\n"
"MaxTransformFeedbackBuffers 4\n"
"MaxTransformFeedbackInterleavedComponents 64\n"
"MaxCullDistances 8\n"
"MaxCombinedClipAndCullDistances 8\n"
"MaxSamples 4\n"
"nonInductiveForLoops 1\n"
"whileLoops 1\n"
"doWhileLoops 1\n"
"generalUniformIndexing 1\n"
"generalAttributeMatrixVectorIndexing 1\n"
"generalVaryingIndexing 1\n"
"generalSamplerIndexing 1\n"
"generalVariableIndexing 1\n"
"generalConstantMatrixVectorIndexing 1\n"
;
//
// *.conf => this is a config file that can set limits/resources
//
bool VkTestFramework::SetConfigFile(const std::string& name)
{
if (name.size() < 5)
return false;
if (name.compare(name.size() - 5, 5, ".conf") == 0) {
ConfigFile = name;
return true;
}
return false;
}
//
// Parse either a .conf file provided by the user or the default string above.
//
void VkTestFramework::ProcessConfigFile()
{
char** configStrings = 0;
char* config = 0;
if (ConfigFile.size() > 0) {
configStrings = ReadFileData(ConfigFile.c_str());
if (configStrings)
config = *configStrings;
else {
printf("Error opening configuration file; will instead use the default configuration\n");
}
}
if (config == 0) {
config = new char[strlen(DefaultConfig) + 1];
strcpy(config, DefaultConfig);
}
const char* delims = " \t\n\r";
const char* token = strtok(config, delims);
while (token) {
const char* valueStr = strtok(0, delims);
if (valueStr == 0 || ! (valueStr[0] == '-' || (valueStr[0] >= '0' && valueStr[0] <= '9'))) {
printf("Error: '%s' bad .conf file. Each name must be followed by one number.\n", valueStr ? valueStr : "");
return;
}
int value = atoi(valueStr);
if (strcmp(token, "MaxLights") == 0)
Resources.maxLights = value;
else if (strcmp(token, "MaxClipPlanes") == 0)
Resources.maxClipPlanes = value;
else if (strcmp(token, "MaxTextureUnits") == 0)
Resources.maxTextureUnits = value;
else if (strcmp(token, "MaxTextureCoords") == 0)
Resources.maxTextureCoords = value;
else if (strcmp(token, "MaxVertexAttribs") == 0)
Resources.maxVertexAttribs = value;
else if (strcmp(token, "MaxVertexUniformComponents") == 0)
Resources.maxVertexUniformComponents = value;
else if (strcmp(token, "MaxVaryingFloats") == 0)
Resources.maxVaryingFloats = value;
else if (strcmp(token, "MaxVertexTextureImageUnits") == 0)
Resources.maxVertexTextureImageUnits = value;
else if (strcmp(token, "MaxCombinedTextureImageUnits") == 0)
Resources.maxCombinedTextureImageUnits = value;
else if (strcmp(token, "MaxTextureImageUnits") == 0)
Resources.maxTextureImageUnits = value;
else if (strcmp(token, "MaxFragmentUniformComponents") == 0)
Resources.maxFragmentUniformComponents = value;
else if (strcmp(token, "MaxDrawBuffers") == 0)
Resources.maxDrawBuffers = value;
else if (strcmp(token, "MaxVertexUniformVectors") == 0)
Resources.maxVertexUniformVectors = value;
else if (strcmp(token, "MaxVaryingVectors") == 0)
Resources.maxVaryingVectors = value;
else if (strcmp(token, "MaxFragmentUniformVectors") == 0)
Resources.maxFragmentUniformVectors = value;
else if (strcmp(token, "MaxVertexOutputVectors") == 0)
Resources.maxVertexOutputVectors = value;
else if (strcmp(token, "MaxFragmentInputVectors") == 0)
Resources.maxFragmentInputVectors = value;
else if (strcmp(token, "MinProgramTexelOffset") == 0)
Resources.minProgramTexelOffset = value;
else if (strcmp(token, "MaxProgramTexelOffset") == 0)
Resources.maxProgramTexelOffset = value;
else if (strcmp(token, "MaxClipDistances") == 0)
Resources.maxClipDistances = value;
else if (strcmp(token, "MaxComputeWorkGroupCountX") == 0)
Resources.maxComputeWorkGroupCountX = value;
else if (strcmp(token, "MaxComputeWorkGroupCountY") == 0)
Resources.maxComputeWorkGroupCountY = value;
else if (strcmp(token, "MaxComputeWorkGroupCountZ") == 0)
Resources.maxComputeWorkGroupCountZ = value;
else if (strcmp(token, "MaxComputeWorkGroupSizeX") == 0)
Resources.maxComputeWorkGroupSizeX = value;
else if (strcmp(token, "MaxComputeWorkGroupSizeY") == 0)
Resources.maxComputeWorkGroupSizeY = value;
else if (strcmp(token, "MaxComputeWorkGroupSizeZ") == 0)
Resources.maxComputeWorkGroupSizeZ = value;
else if (strcmp(token, "MaxComputeUniformComponents") == 0)
Resources.maxComputeUniformComponents = value;
else if (strcmp(token, "MaxComputeTextureImageUnits") == 0)
Resources.maxComputeTextureImageUnits = value;
else if (strcmp(token, "MaxComputeImageUniforms") == 0)
Resources.maxComputeImageUniforms = value;
else if (strcmp(token, "MaxComputeAtomicCounters") == 0)
Resources.maxComputeAtomicCounters = value;
else if (strcmp(token, "MaxComputeAtomicCounterBuffers") == 0)
Resources.maxComputeAtomicCounterBuffers = value;
else if (strcmp(token, "MaxVaryingComponents") == 0)
Resources.maxVaryingComponents = value;
else if (strcmp(token, "MaxVertexOutputComponents") == 0)
Resources.maxVertexOutputComponents = value;
else if (strcmp(token, "MaxGeometryInputComponents") == 0)
Resources.maxGeometryInputComponents = value;
else if (strcmp(token, "MaxGeometryOutputComponents") == 0)
Resources.maxGeometryOutputComponents = value;
else if (strcmp(token, "MaxFragmentInputComponents") == 0)
Resources.maxFragmentInputComponents = value;
else if (strcmp(token, "MaxImageUnits") == 0)
Resources.maxImageUnits = value;
else if (strcmp(token, "MaxCombinedImageUnitsAndFragmentOutputs") == 0)
Resources.maxCombinedImageUnitsAndFragmentOutputs = value;
else if (strcmp(token, "MaxCombinedShaderOutputResources") == 0)
Resources.maxCombinedShaderOutputResources = value;
else if (strcmp(token, "MaxImageSamples") == 0)
Resources.maxImageSamples = value;
else if (strcmp(token, "MaxVertexImageUniforms") == 0)
Resources.maxVertexImageUniforms = value;
else if (strcmp(token, "MaxTessControlImageUniforms") == 0)
Resources.maxTessControlImageUniforms = value;
else if (strcmp(token, "MaxTessEvaluationImageUniforms") == 0)
Resources.maxTessEvaluationImageUniforms = value;
else if (strcmp(token, "MaxGeometryImageUniforms") == 0)
Resources.maxGeometryImageUniforms = value;
else if (strcmp(token, "MaxFragmentImageUniforms") == 0)
Resources.maxFragmentImageUniforms = value;
else if (strcmp(token, "MaxCombinedImageUniforms") == 0)
Resources.maxCombinedImageUniforms = value;
else if (strcmp(token, "MaxGeometryTextureImageUnits") == 0)
Resources.maxGeometryTextureImageUnits = value;
else if (strcmp(token, "MaxGeometryOutputVertices") == 0)
Resources.maxGeometryOutputVertices = value;
else if (strcmp(token, "MaxGeometryTotalOutputComponents") == 0)
Resources.maxGeometryTotalOutputComponents = value;
else if (strcmp(token, "MaxGeometryUniformComponents") == 0)
Resources.maxGeometryUniformComponents = value;
else if (strcmp(token, "MaxGeometryVaryingComponents") == 0)
Resources.maxGeometryVaryingComponents = value;
else if (strcmp(token, "MaxTessControlInputComponents") == 0)
Resources.maxTessControlInputComponents = value;
else if (strcmp(token, "MaxTessControlOutputComponents") == 0)
Resources.maxTessControlOutputComponents = value;
else if (strcmp(token, "MaxTessControlTextureImageUnits") == 0)
Resources.maxTessControlTextureImageUnits = value;
else if (strcmp(token, "MaxTessControlUniformComponents") == 0)
Resources.maxTessControlUniformComponents = value;
else if (strcmp(token, "MaxTessControlTotalOutputComponents") == 0)
Resources.maxTessControlTotalOutputComponents = value;
else if (strcmp(token, "MaxTessEvaluationInputComponents") == 0)
Resources.maxTessEvaluationInputComponents = value;
else if (strcmp(token, "MaxTessEvaluationOutputComponents") == 0)
Resources.maxTessEvaluationOutputComponents = value;
else if (strcmp(token, "MaxTessEvaluationTextureImageUnits") == 0)
Resources.maxTessEvaluationTextureImageUnits = value;
else if (strcmp(token, "MaxTessEvaluationUniformComponents") == 0)
Resources.maxTessEvaluationUniformComponents = value;
else if (strcmp(token, "MaxTessPatchComponents") == 0)
Resources.maxTessPatchComponents = value;
else if (strcmp(token, "MaxPatchVertices") == 0)
Resources.maxPatchVertices = value;
else if (strcmp(token, "MaxTessGenLevel") == 0)
Resources.maxTessGenLevel = value;
else if (strcmp(token, "MaxViewports") == 0)
Resources.maxViewports = value;
else if (strcmp(token, "MaxVertexAtomicCounters") == 0)
Resources.maxVertexAtomicCounters = value;
else if (strcmp(token, "MaxTessControlAtomicCounters") == 0)
Resources.maxTessControlAtomicCounters = value;
else if (strcmp(token, "MaxTessEvaluationAtomicCounters") == 0)
Resources.maxTessEvaluationAtomicCounters = value;
else if (strcmp(token, "MaxGeometryAtomicCounters") == 0)
Resources.maxGeometryAtomicCounters = value;
else if (strcmp(token, "MaxFragmentAtomicCounters") == 0)
Resources.maxFragmentAtomicCounters = value;
else if (strcmp(token, "MaxCombinedAtomicCounters") == 0)
Resources.maxCombinedAtomicCounters = value;
else if (strcmp(token, "MaxAtomicCounterBindings") == 0)
Resources.maxAtomicCounterBindings = value;
else if (strcmp(token, "MaxVertexAtomicCounterBuffers") == 0)
Resources.maxVertexAtomicCounterBuffers = value;
else if (strcmp(token, "MaxTessControlAtomicCounterBuffers") == 0)
Resources.maxTessControlAtomicCounterBuffers = value;
else if (strcmp(token, "MaxTessEvaluationAtomicCounterBuffers") == 0)
Resources.maxTessEvaluationAtomicCounterBuffers = value;
else if (strcmp(token, "MaxGeometryAtomicCounterBuffers") == 0)
Resources.maxGeometryAtomicCounterBuffers = value;
else if (strcmp(token, "MaxFragmentAtomicCounterBuffers") == 0)
Resources.maxFragmentAtomicCounterBuffers = value;
else if (strcmp(token, "MaxCombinedAtomicCounterBuffers") == 0)
Resources.maxCombinedAtomicCounterBuffers = value;
else if (strcmp(token, "MaxAtomicCounterBufferSize") == 0)
Resources.maxAtomicCounterBufferSize = value;
else if (strcmp(token, "MaxTransformFeedbackBuffers") == 0)
Resources.maxTransformFeedbackBuffers = value;
else if (strcmp(token, "MaxTransformFeedbackInterleavedComponents") == 0)
Resources.maxTransformFeedbackInterleavedComponents = value;
else if (strcmp(token, "MaxCullDistances") == 0)
Resources.maxCullDistances = value;
else if (strcmp(token, "MaxCombinedClipAndCullDistances") == 0)
Resources.maxCombinedClipAndCullDistances = value;
else if (strcmp(token, "MaxSamples") == 0)
Resources.maxSamples = value;
else if (strcmp(token, "nonInductiveForLoops") == 0)
Resources.limits.nonInductiveForLoops = (value != 0);
else if (strcmp(token, "whileLoops") == 0)
Resources.limits.whileLoops = (value != 0);
else if (strcmp(token, "doWhileLoops") == 0)
Resources.limits.doWhileLoops = (value != 0);
else if (strcmp(token, "generalUniformIndexing") == 0)
Resources.limits.generalUniformIndexing = (value != 0);
else if (strcmp(token, "generalAttributeMatrixVectorIndexing") == 0)
Resources.limits.generalAttributeMatrixVectorIndexing = (value != 0);
else if (strcmp(token, "generalVaryingIndexing") == 0)
Resources.limits.generalVaryingIndexing = (value != 0);
else if (strcmp(token, "generalSamplerIndexing") == 0)
Resources.limits.generalSamplerIndexing = (value != 0);
else if (strcmp(token, "generalVariableIndexing") == 0)
Resources.limits.generalVariableIndexing = (value != 0);
else if (strcmp(token, "generalConstantMatrixVectorIndexing") == 0)
Resources.limits.generalConstantMatrixVectorIndexing = (value != 0);
else
printf("Warning: unrecognized limit (%s) in configuration file.\n", token);
token = strtok(0, delims);
}
if (configStrings)
FreeFileData(configStrings);
}
void VkTestFramework::SetMessageOptions(EShMessages& messages)
{
if (m_compile_options & EOptionRelaxedErrors)
messages = (EShMessages)(messages | EShMsgRelaxedErrors);
if (m_compile_options & EOptionIntermediate)
messages = (EShMessages)(messages | EShMsgAST);
if (m_compile_options & EOptionSuppressWarnings)
messages = (EShMessages)(messages | EShMsgSuppressWarnings);
}
//
// Malloc a string of sufficient size and read a string into it.
//
char** VkTestFramework::ReadFileData(const char* fileName)
{
FILE *in;
#if defined(_WIN32) && defined(__GNUC__)
in = fopen(fileName, "r");
int errorCode = in ? 0 : 1;
#else
int errorCode = fopen_s(&in, fileName, "r");
#endif
char *fdata;
int count = 0;
const int maxSourceStrings = 5;
char** return_data = (char**)malloc(sizeof(char *) * (maxSourceStrings+1));
if (errorCode) {
printf("Error: unable to open input file: %s\n", fileName);
return 0;
}
while (fgetc(in) != EOF)
count++;
fseek(in, 0, SEEK_SET);
if (!(fdata = (char*)malloc(count+2))) {
printf("Error allocating memory\n");
return 0;
}
if (fread(fdata,1,count, in)!=count) {
printf("Error reading input file: %s\n", fileName);
return 0;
}
fdata[count] = '\0';
fclose(in);
if (count == 0) {
return_data[0]=(char*)malloc(count+2);
return_data[0][0]='\0';
m_num_shader_strings = 0;
return return_data;
} else
m_num_shader_strings = 1;
int len = (int)(ceil)((float)count/(float)m_num_shader_strings);
int ptr_len=0,i=0;
while(count>0){
return_data[i]=(char*)malloc(len+2);
memcpy(return_data[i],fdata+ptr_len,len);
return_data[i][len]='\0';
count-=(len);
ptr_len+=(len);
if(count<len){
if(count==0){
m_num_shader_strings=(i+1);
break;
}
len = count;
}
++i;
}
return return_data;
}
void VkTestFramework::FreeFileData(char** data)
{
for(int i=0;i<m_num_shader_strings;i++)
free(data[i]);
}
//
// Deduce the language from the filename. Files must end in one of the
// following extensions:
//
// .vert = vertex
// .tesc = tessellation control
// .tese = tessellation evaluation
// .geom = geometry
// .frag = fragment
// .comp = compute
//
EShLanguage VkTestFramework::FindLanguage(const std::string& name)
{
size_t ext = name.rfind('.');
if (ext == std::string::npos) {
return EShLangVertex;
}
std::string suffix = name.substr(ext + 1, std::string::npos);
if (suffix == "vert")
return EShLangVertex;
else if (suffix == "tesc")
return EShLangTessControl;
else if (suffix == "tese")
return EShLangTessEvaluation;
else if (suffix == "geom")
return EShLangGeometry;
else if (suffix == "frag")
return EShLangFragment;
else if (suffix == "comp")
return EShLangCompute;
return EShLangVertex;
}
//
// Convert VK shader type to compiler's
//
EShLanguage VkTestFramework::FindLanguage(const VkShaderStage shader_type)
{
switch (shader_type) {
case VK_SHADER_STAGE_VERTEX:
return EShLangVertex;
case VK_SHADER_STAGE_TESS_CONTROL:
return EShLangTessControl;
case VK_SHADER_STAGE_TESS_EVALUATION:
return EShLangTessEvaluation;
case VK_SHADER_STAGE_GEOMETRY:
return EShLangGeometry;
case VK_SHADER_STAGE_FRAGMENT:
return EShLangFragment;
case VK_SHADER_STAGE_COMPUTE:
return EShLangCompute;
default:
return EShLangVertex;
}
}
//
// Compile a given string containing GLSL into SPV for use by VK
// Return value of false means an error was encountered.
//
bool VkTestFramework::GLSLtoSPV(const VkShaderStage shader_type,
const char *pshader,
std::vector<unsigned int> &spv)
{
glslang::TProgram& program = *new glslang::TProgram;
const char *shaderStrings[1];
// TODO: Do we want to load a special config file depending on the
// shader source? Optional name maybe?
// SetConfigFile(fileName);
ProcessConfigFile();
EShMessages messages = EShMsgDefault;
SetMessageOptions(messages);
EShLanguage stage = FindLanguage(shader_type);
glslang::TShader* shader = new glslang::TShader(stage);
shaderStrings[0] = pshader;
shader->setStrings(shaderStrings, 1);
if (! shader->parse(&Resources, (m_compile_options & EOptionDefaultDesktop) ? 110 : 100, false, messages)) {
if (! (m_compile_options & EOptionSuppressInfolog)) {
puts(shader->getInfoLog());
puts(shader->getInfoDebugLog());
}
return false; // something didn't work
}
program.addShader(shader);
//
// Program-level processing...
//
if (! program.link(messages)) {
if (! (m_compile_options & EOptionSuppressInfolog)) {
puts(shader->getInfoLog());
puts(shader->getInfoDebugLog());
}
return false;
}
if (m_compile_options & EOptionDumpReflection) {
program.buildReflection();
program.dumpReflection();
}
glslang::GlslangToSpv(*program.getIntermediate(stage), spv);
return true;
}
VkTestImageRecord::VkTestImageRecord() : // Constructor
m_width( 0 ),
m_height( 0 ),
m_data( NULL ),
m_presentableImage( NULL ),
m_presentableMemory( NULL),
m_data_size( 0 )
{
}
VkTestImageRecord::~VkTestImageRecord()
{
}
VkTestImageRecord::VkTestImageRecord(const VkTestImageRecord &copyin) // Copy constructor to handle pass by value.
{
m_title = copyin.m_title;
m_width = copyin.m_width;
m_height = copyin.m_height;
m_data_size = copyin.m_data_size;
m_data = copyin.m_data; // TODO: Do we need to copy the data or is pointer okay?
m_presentableImage = copyin.m_presentableImage;
m_presentableMemory = copyin.m_presentableMemory;
}
ostream &operator<<(ostream &output, const VkTestImageRecord &VkTestImageRecord)
{
output << VkTestImageRecord.m_title << " (" << VkTestImageRecord.m_width <<
"," << VkTestImageRecord.m_height << ")" << endl;
return output;
}
VkTestImageRecord& VkTestImageRecord::operator=(const VkTestImageRecord &rhs)
{
m_title = rhs.m_title;
m_width = rhs.m_width;
m_height = rhs.m_height;
m_data_size = rhs.m_data_size;
m_data = rhs.m_data;
m_presentableImage = rhs.m_presentableImage;
m_presentableMemory = rhs.m_presentableMemory;
return *this;
}
int VkTestImageRecord::operator==(const VkTestImageRecord &rhs) const
{
if( this->m_data != rhs.m_data) return 0;
return 1;
}
// This function is required for built-in STL list functions like sort
int VkTestImageRecord::operator<(const VkTestImageRecord &rhs) const
{
if( this->m_data_size < rhs.m_data_size ) return 1;
return 0;
}