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// Copyright 2021 Google LLC.
// Use of this source code is governed by a BSD-style license that can be found in the LICENSE file.
#include "include/core/SkCanvas.h"
#include "include/core/SkGraphics.h"
#include "include/core/SkPicture.h"
#include "include/core/SkScalar.h"
#include "include/core/SkSurface.h"
#include "include/gpu/GrDirectContext.h"
#include "include/private/SkSLDefines.h"
#include "src/core/SkOSFile.h"
#include "src/gpu/GrCaps.h"
#include "src/gpu/GrDirectContextPriv.h"
#include "src/utils/SkOSPath.h"
#include "tools/DDLPromiseImageHelper.h"
#include "tools/ToolUtils.h"
#include "tools/flags/CommandLineFlags.h"
#include "tools/gpu/GrContextFactory.h"
#include "tools/gpu/TestContext.h"
#include <chrono>
#include <deque>
#include <thread>
using hires_clock = std::chrono::high_resolution_clock;
using duration = std::chrono::nanoseconds;
using sk_gpu_test::ContextInfo;
using sk_gpu_test::GrContextFactory;
using sk_gpu_test::TestContext;
static DEFINE_int(numRecordingThreads, 1, "number of DDL recording threads");
static DEFINE_int(numTilesX, 3, "number of tiles horizontally");
static DEFINE_int(numTilesY, 3, "number of tiles vertically");
static DEFINE_int(numSamples, 1, "number of MSAA samples");
static DEFINE_string(png, "", "if set, save a .png proof to disk at this file location");
static DEFINE_string(src, "", "input .skp file");
static void exitf(const char* format, ...) {
va_list args;
va_start(args, format);
vfprintf(stderr, format, args);
va_end(args);
exit(1);
}
// Each thread holds this chunk of data thread_locally
struct ThreadInfo {
ThreadInfo() = default;
ThreadInfo(const SkString& name, GrDirectContext* directContext, TestContext* testContext)
: fName(name)
, fDirectContext(directContext)
, fTestContext(testContext) {
}
double elapsedWorkSeconds() const {
return std::chrono::duration<double>(fWorkElapsed).count();
}
void dump() const {
duration totalThreadTime = fThreadStop - fThreadStart;
double totalThreadTimeSeconds = std::chrono::duration<double>(totalThreadTime).count();
printf("%s: num work units %d work: %.2gs total: %.2gs utilization %.2g%%\n",
fName.c_str(),
fWorkUnit,
this->elapsedWorkSeconds(),
totalThreadTimeSeconds,
100.0f * this->elapsedWorkSeconds() / totalThreadTimeSeconds);
}
SkString fName;
// These two can be null on recording/utility threads
GrDirectContext* fDirectContext = nullptr;
TestContext* fTestContext = nullptr;
int fWorkUnit = 0;
duration fWorkElapsed {0};
hires_clock::time_point fThreadStart;
hires_clock::time_point fThreadStop;
};
#if SKSL_USE_THREAD_LOCAL
static thread_local ThreadInfo* gThreadInfo;
static ThreadInfo* get_thread_local_info() {
return gThreadInfo;
}
static void set_thread_local_info(ThreadInfo* threadInfo) {
gThreadInfo = threadInfo;
}
#else
#include <pthread.h>
static pthread_key_t get_pthread_key() {
static pthread_key_t sKey = []{
pthread_key_t key;
int result = pthread_key_create(&key, /*destructor=*/nullptr);
if (result != 0) {
SK_ABORT("pthread_key_create failure: %d", result);
}
return key;
}();
return sKey;
}
static ThreadInfo* get_thread_local_info() {
return static_cast<ThreadInfo*>(pthread_getspecific(get_pthread_key()));
}
static void set_thread_local_info(ThreadInfo* threadInfo) {
pthread_setspecific(get_pthread_key(), threadInfo);
}
#endif
static void set_up_context_on_thread(ThreadInfo* threadInfo) {
if (threadInfo->fDirectContext) {
threadInfo->fTestContext->makeCurrent();
}
threadInfo->fThreadStart = hires_clock::now();
set_thread_local_info(threadInfo);
}
class GrThreadPool {
public:
explicit GrThreadPool(SkSpan<ThreadInfo> threadInfo) {
for (size_t i = 0; i < threadInfo.size(); i++) {
fThreads.emplace_back(&Loop, this, &threadInfo[i]);
}
}
~GrThreadPool() {
// Signal each thread that it's time to shut down.
for (int i = 0; i < fThreads.count(); i++) {
this->add(nullptr);
}
// Wait for each thread to shut down.
for (int i = 0; i < fThreads.count(); i++) {
fThreads[i].join();
}
}
void add(std::function<void(void)> work) {
// Add some work to our pile of work to do.
{
SkAutoMutexExclusive lock(fWorkLock);
fWork.emplace_back(std::move(work));
}
// Tell the Loop() threads to pick it up.
fWorkAvailable.signal(1);
}
private:
// This method should be called only when fWorkAvailable indicates there's work to do.
bool do_work(ThreadInfo* threadInfo) {
std::function<void(void)> work;
{
SkAutoMutexExclusive lock(fWorkLock);
SkASSERT(!fWork.empty()); // TODO: if (fWork.empty()) { return true; } ?
work = std::move(fWork.front());
fWork.pop_front();
}
if (!work) {
threadInfo->fThreadStop = hires_clock::now();
return false; // This is Loop()'s signal to shut down.
}
hires_clock::time_point start = hires_clock::now();
work();
threadInfo->fWorkElapsed = hires_clock::now() - start;
threadInfo->fWorkUnit++;
return true;
}
static void Loop(void* ctx, ThreadInfo* threadInfo) {
set_up_context_on_thread(threadInfo);
auto pool = (GrThreadPool*)ctx;
do {
pool->fWorkAvailable.wait();
} while (pool->do_work(threadInfo));
}
using WorkList = std::deque<std::function<void(void)>>;
SkTArray<std::thread> fThreads;
WorkList fWork;
SkMutex fWorkLock;
SkSemaphore fWorkAvailable;
};
class GrTaskGroup : SkNoncopyable {
public:
explicit GrTaskGroup(SkSpan<ThreadInfo> threadInfo)
: fPending(0)
, fThreadPool(std::make_unique<GrThreadPool>(threadInfo)) {
}
~GrTaskGroup() { this->wait(); }
// Add a task to this SkTaskGroup.
void add(std::function<void(void)> fn) {
fPending.fetch_add(+1, std::memory_order_relaxed);
fThreadPool->add([this, fn{std::move(fn)}] {
fn();
fPending.fetch_add(-1, std::memory_order_release);
});
}
// Returns true if all Tasks previously add()ed to this SkTaskGroup have run.
// It is safe to reuse this SkTaskGroup once done().
bool done() const {
return fPending.load(std::memory_order_acquire) == 0;
}
// Block until done().
void wait() {
while (!this->done()) {
std::this_thread::yield();
}
}
private:
std::atomic<int32_t> fPending;
std::unique_ptr<GrThreadPool> fThreadPool;
};
static bool create_contexts(GrContextFactory* factory,
GrContextFactory::ContextType contextType,
const GrContextFactory::ContextOverrides& overrides,
ThreadInfo* gpuThread,
SkSpan<ThreadInfo> utilityThreads) {
ContextInfo mainInfo = factory->getContextInfo(contextType, overrides);
if (!mainInfo.directContext()) {
exitf("Could not create primary direct context.");
}
*gpuThread = { SkString("g0"), mainInfo.directContext(), mainInfo.testContext() };
bool allSucceeded = true, allFailed = true;
// Create the utility contexts in a share group with the primary one. This is allowed to fail
// but either they should all work or the should all fail.
for (size_t i = 0; i < utilityThreads.size(); ++i) {
SkString name = SkStringPrintf("r%zu", i);
ContextInfo tmp = factory->getSharedContextInfo(mainInfo.directContext(), i);
utilityThreads[i] = { name, tmp.directContext(), tmp.testContext() };
allSucceeded &= SkToBool(tmp.directContext());
allFailed &= !tmp.directContext();
}
return allSucceeded || allFailed;
}
static sk_sp<SkPicture> create_shared_skp(const char* src,
GrDirectContext* dContext,
DDLPromiseImageHelper* promiseImageHelper) {
SkString srcfile(src);
std::unique_ptr<SkStream> srcstream(SkStream::MakeFromFile(srcfile.c_str()));
if (!srcstream) {
exitf("failed to open file %s", srcfile.c_str());
}
sk_sp<SkPicture> skp = SkPicture::MakeFromStream(srcstream.get());
if (!skp) {
exitf("failed to parse file %s", srcfile.c_str());
}
return promiseImageHelper->recreateSKP(dContext, skp.get());
}
static void check_params(GrDirectContext* dContext,
int width, int height, SkColorType ct, SkAlphaType at, int numSamples) {
if (dContext->maxRenderTargetSize() < std::max(width, height)) {
exitf("render target size %ix%i not supported by platform (max: %i)",
width, height, dContext->maxRenderTargetSize());
}
GrBackendFormat format = dContext->defaultBackendFormat(ct, GrRenderable::kYes);
if (!format.isValid()) {
exitf("failed to get GrBackendFormat from SkColorType: %d", ct);
}
int supportedSampleCount = dContext->priv().caps()->getRenderTargetSampleCount(numSamples,
format);
if (supportedSampleCount != numSamples) {
exitf("sample count %i not supported by platform", numSamples);
}
}
static bool mkdir_p(const SkString& dirname) {
if (dirname.isEmpty() || dirname == SkString("/")) {
return true;
}
return mkdir_p(SkOSPath::Dirname(dirname.c_str())) && sk_mkdir(dirname.c_str());
}
static void maybe_save_file(SkSurface* surface) {
if (FLAGS_png.isEmpty()) {
return;
}
SkBitmap bmp;
bmp.allocPixels(surface->imageInfo());
if (!surface->getCanvas()->readPixels(bmp, 0, 0)) {
exitf("failed to read canvas pixels for png");
}
if (!mkdir_p(SkOSPath::Dirname(FLAGS_png[0]))) {
exitf("failed to create directory for png \"%s\"", FLAGS_png[0]);
}
if (!ToolUtils::EncodeImageToFile(FLAGS_png[0], bmp, SkEncodedImageFormat::kPNG, 100)) {
exitf("failed to save png to \"%s\"", FLAGS_png[0]);
}
}
int main(int argc, char** argv) {
CommandLineFlags::Parse(argc, argv);
if (FLAGS_src.count() != 1) {
exitf("Missing input file");
}
// TODO: get these from the command line flags
const GrContextFactory::ContextType kContextType = GrContextFactory::kGL_ContextType;
const GrContextOptions kContextOptions;
const GrContextFactory::ContextOverrides kOverrides = GrContextFactory::ContextOverrides::kNone;
SkColorType ct = kRGBA_8888_SkColorType;
SkAlphaType at = kPremul_SkAlphaType;
SkGraphics::Init();
GrContextFactory factory(kContextOptions);
std::unique_ptr<ThreadInfo> mainContext(new ThreadInfo);
std::unique_ptr<ThreadInfo[]> utilityContexts(new ThreadInfo[FLAGS_numRecordingThreads]);
if (!create_contexts(&factory,
kContextType,
kOverrides,
mainContext.get(),
SkSpan<ThreadInfo>(utilityContexts.get(), FLAGS_numRecordingThreads))) {
return 1;
}
mainContext->fTestContext->makeCurrent();
SkYUVAPixmapInfo::SupportedDataTypes supportedYUVADTypes(*mainContext->fDirectContext);
DDLPromiseImageHelper promiseImageHelper(supportedYUVADTypes);
sk_sp<SkPicture> skp = create_shared_skp(FLAGS_src[0],
mainContext->fDirectContext,
&promiseImageHelper);
int width = std::min(SkScalarCeilToInt(skp->cullRect().width()), 2048);
int height = std::min(SkScalarCeilToInt(skp->cullRect().height()), 2048);
check_params(mainContext->fDirectContext, width, height, ct, at, FLAGS_numSamples);
// TODO: do this later on a utility thread!
promiseImageHelper.uploadAllToGPU(nullptr, mainContext->fDirectContext);
SkImageInfo info = SkImageInfo::Make(width, height, ct, at, nullptr);
sk_sp<SkSurface> dstSurface = SkSurface::MakeRenderTarget(mainContext->fDirectContext,
SkBudgeted::kNo, info,
FLAGS_numSamples, nullptr);
if (!dstSurface) {
exitf("Could not create a surface.");
}
if (FLAGS_numRecordingThreads == 0) {
mainContext->fThreadStart = hires_clock::now();
dstSurface->getCanvas()->drawPicture(skp);
mainContext->fThreadStop = hires_clock::now();
mainContext->fWorkElapsed = mainContext->fThreadStop - mainContext->fThreadStart;
mainContext->fWorkUnit++;
} else {
mainContext->fTestContext->makeNotCurrent();
GrTaskGroup gpuTaskGroup(SkSpan<ThreadInfo>(mainContext.get(), 1));
GrTaskGroup recordingTaskGroup(SkSpan<ThreadInfo>(utilityContexts.get(),
FLAGS_numRecordingThreads));
for (int i = 0; i < FLAGS_numRecordingThreads; ++i) {
recordingTaskGroup.add([] {
ThreadInfo* threadLocal = get_thread_local_info();
printf("%s: dContext %p\n", threadLocal->fName.c_str(),
threadLocal->fDirectContext);
std::this_thread::sleep_for(std::chrono::seconds(1));
});
}
gpuTaskGroup.add([] {
ThreadInfo* threadLocal = get_thread_local_info();
printf("%s: dContext %p\n", threadLocal->fName.c_str(),
threadLocal->fDirectContext);
});
gpuTaskGroup.add([] {
ThreadInfo* threadLocal = get_thread_local_info();
threadLocal->fTestContext->makeNotCurrent();
});
recordingTaskGroup.wait();
gpuTaskGroup.wait();
mainContext->fTestContext->makeCurrent();
}
maybe_save_file(dstSurface.get());
promiseImageHelper.deleteAllFromGPU(nullptr, mainContext->fDirectContext);
// Dump out the timing stats
mainContext->dump();
for (int i = 0; i < FLAGS_numRecordingThreads; ++i) {
utilityContexts[i].dump();
}
return 0;
}