/*------------------------------------------------------------------------- * drawElements Quality Program EGL Module * --------------------------------------- * * Copyright 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * *//*! * \file * \brief Multi threaded EGL tests *//*--------------------------------------------------------------------*/ #include "teglMultiThreadTests.hpp" #include "egluNativeWindow.hpp" #include "egluNativePixmap.hpp" #include "egluUtil.hpp" #include "tcuTestLog.hpp" #include "tcuCommandLine.hpp" #include "deRandom.hpp" #include "deThread.hpp" #include "deMutex.hpp" #include "deSemaphore.hpp" #include "deAtomic.h" #include "deClock.h" #include "eglwLibrary.hpp" #include "eglwEnums.hpp" #include #include #include #include using std::vector; using std::string; using std::pair; using std::set; using std::ostringstream; using namespace eglw; namespace deqp { namespace egl { class ThreadLog { public: class BeginMessageToken {}; class EndMessageToken {}; struct Message { Message (deUint64 timeUs_, const char* msg_) : timeUs(timeUs_), msg(msg_) {} deUint64 timeUs; string msg; }; ThreadLog (void) { m_messages.reserve(100); } ThreadLog& operator<< (const BeginMessageToken&) { return *this; } ThreadLog& operator<< (const EndMessageToken&); template ThreadLog& operator<< (const T& t) { m_message << t; return *this; } const vector& getMessages (void) const { return m_messages; } static BeginMessageToken BeginMessage; static EndMessageToken EndMessage; private: ostringstream m_message; vector m_messages; }; ThreadLog& ThreadLog::operator<< (const EndMessageToken&) { m_messages.push_back(Message(deGetMicroseconds(), m_message.str().c_str())); m_message.str(""); return *this; } ThreadLog::BeginMessageToken ThreadLog::BeginMessage; ThreadLog::EndMessageToken ThreadLog::EndMessage; class MultiThreadedTest; class TestThread : public de::Thread { public: enum ThreadStatus { THREADSTATUS_NOT_STARTED = 0, THREADSTATUS_RUNNING, THREADSTATUS_READY, }; TestThread (MultiThreadedTest& test, int id); void run (void); ThreadStatus getStatus (void) const { return m_status; } ThreadLog& getLog (void) { return m_log; } int getId (void) const { return m_id; } void setStatus (ThreadStatus status) { m_status = status; } const Library& getLibrary (void) const; // Test has stopped class TestStop {}; private: MultiThreadedTest& m_test; const int m_id; ThreadStatus m_status; ThreadLog m_log; }; class MultiThreadedTest : public TestCase { public: MultiThreadedTest (EglTestContext& eglTestCtx, const char* name, const char* description, int threadCount, deUint64 timeoutUs); virtual ~MultiThreadedTest (void); void init (void); void deinit (void); virtual bool runThread (TestThread& thread) = 0; virtual IterateResult iterate (void); void execTest (TestThread& thread); const Library& getLibrary (void) const { return m_eglTestCtx.getLibrary(); } protected: void barrier (void); private: int m_threadCount; bool m_initialized; deUint64 m_startTimeUs; const deUint64 m_timeoutUs; bool m_ok; bool m_supported; vector m_threads; volatile deInt32 m_barrierWaiters; de::Semaphore m_barrierSemaphore1; de::Semaphore m_barrierSemaphore2; protected: EGLDisplay m_display; }; inline const Library& TestThread::getLibrary (void) const { return m_test.getLibrary(); } TestThread::TestThread (MultiThreadedTest& test, int id) : m_test (test) , m_id (id) , m_status (THREADSTATUS_NOT_STARTED) { } void TestThread::run (void) { m_status = THREADSTATUS_RUNNING; try { m_test.execTest(*this); } catch (const TestThread::TestStop&) { getLog() << ThreadLog::BeginMessage << "Thread stopped" << ThreadLog::EndMessage; } catch (const tcu::NotSupportedError& e) { getLog() << ThreadLog::BeginMessage << "Not supported: '" << e.what() << "'" << ThreadLog::EndMessage; } catch (const std::exception& e) { getLog() << ThreadLog::BeginMessage << "Got exception: '" << e.what() << "'" << ThreadLog::EndMessage; } catch (...) { getLog() << ThreadLog::BeginMessage << "Unknown exception" << ThreadLog::EndMessage; } getLibrary().releaseThread(); m_status = THREADSTATUS_READY; } void MultiThreadedTest::execTest (TestThread& thread) { try { if (!runThread(thread)) m_ok = false; } catch (const TestThread::TestStop&) { // Thread exited due to error in other thread throw; } catch (const tcu::NotSupportedError&) { m_supported = false; // Release barriers for (int threadNdx = 0; threadNdx < (int)m_threads.size(); threadNdx++) { m_barrierSemaphore1.increment(); m_barrierSemaphore2.increment(); } throw; } catch(...) { m_ok = false; // Release barriers for (int threadNdx = 0; threadNdx < (int)m_threads.size(); threadNdx++) { m_barrierSemaphore1.increment(); m_barrierSemaphore2.increment(); } throw; } } MultiThreadedTest::MultiThreadedTest (EglTestContext& eglTestCtx, const char* name, const char* description, int threadCount, deUint64 timeoutUs) : TestCase (eglTestCtx, name, description) , m_threadCount (threadCount) , m_initialized (false) , m_startTimeUs (0) , m_timeoutUs (timeoutUs) , m_ok (true) , m_supported (true) , m_barrierWaiters (0) , m_barrierSemaphore1 (0, 0) , m_barrierSemaphore2 (1, 0) , m_display (EGL_NO_DISPLAY) { } MultiThreadedTest::~MultiThreadedTest (void) { for (int threadNdx = 0; threadNdx < (int)m_threads.size(); threadNdx++) delete m_threads[threadNdx]; m_threads.clear(); } void MultiThreadedTest::init (void) { m_display = eglu::getAndInitDisplay(m_eglTestCtx.getNativeDisplay()); } void MultiThreadedTest::deinit (void) { if (m_display != EGL_NO_DISPLAY) { m_eglTestCtx.getLibrary().terminate(m_display); m_display = EGL_NO_DISPLAY; } } void MultiThreadedTest::barrier (void) { { const deInt32 waiters = deAtomicIncrement32(&m_barrierWaiters); if (waiters == m_threadCount) { m_barrierSemaphore2.decrement(); m_barrierSemaphore1.increment(); } else { m_barrierSemaphore1.decrement(); m_barrierSemaphore1.increment(); } } { const deInt32 waiters = deAtomicDecrement32(&m_barrierWaiters); if (waiters == 0) { m_barrierSemaphore1.decrement(); m_barrierSemaphore2.increment(); } else { m_barrierSemaphore2.decrement(); m_barrierSemaphore2.increment(); } } // Barrier was released due an error in other thread if (!m_ok || !m_supported) throw TestThread::TestStop(); } TestCase::IterateResult MultiThreadedTest::iterate (void) { if (!m_initialized) { m_testCtx.getLog() << tcu::TestLog::Message << "Thread timeout limit: " << m_timeoutUs << "us" << tcu::TestLog::EndMessage; m_ok = true; m_supported = true; // Create threads m_threads.reserve(m_threadCount); for (int threadNdx = 0; threadNdx < m_threadCount; threadNdx++) m_threads.push_back(new TestThread(*this, threadNdx)); m_startTimeUs = deGetMicroseconds(); // Run threads for (int threadNdx = 0; threadNdx < (int)m_threads.size(); threadNdx++) m_threads[threadNdx]->start(); m_initialized = true; } int readyCount = 0; for (int threadNdx = 0; threadNdx < (int)m_threads.size(); threadNdx++) { if (m_threads[threadNdx]->getStatus() != TestThread::THREADSTATUS_RUNNING) readyCount++; } if (readyCount == m_threadCount) { // Join threads for (int threadNdx = 0; threadNdx < (int)m_threads.size(); threadNdx++) m_threads[threadNdx]->join(); // Get logs { vector messageNdx; messageNdx.resize(m_threads.size(), 0); while (true) { int nextThreadNdx = -1; deUint64 nextThreadTimeUs = 0; for (int threadNdx = 0; threadNdx < (int)m_threads.size(); threadNdx++) { if (messageNdx[threadNdx] >= (int)m_threads[threadNdx]->getLog().getMessages().size()) continue; if (nextThreadNdx == -1 || nextThreadTimeUs > m_threads[threadNdx]->getLog().getMessages()[messageNdx[threadNdx]].timeUs) { nextThreadNdx = threadNdx; nextThreadTimeUs = m_threads[threadNdx]->getLog().getMessages()[messageNdx[threadNdx]].timeUs; } } if (nextThreadNdx == -1) break; m_testCtx.getLog() << tcu::TestLog::Message << "[" << (nextThreadTimeUs - m_startTimeUs) << "] (" << nextThreadNdx << ") " << m_threads[nextThreadNdx]->getLog().getMessages()[messageNdx[nextThreadNdx]].msg << tcu::TestLog::EndMessage; messageNdx[nextThreadNdx]++; } } // Destroy threads for (int threadNdx = 0; threadNdx < (int)m_threads.size(); threadNdx++) delete m_threads[threadNdx]; m_threads.clear(); // Set result if (m_ok) { if (!m_supported) m_testCtx.setTestResult(QP_TEST_RESULT_NOT_SUPPORTED, "Not Supported"); else m_testCtx.setTestResult(QP_TEST_RESULT_PASS, "Pass"); } else m_testCtx.setTestResult(QP_TEST_RESULT_FAIL, "Fail"); return STOP; } else { // Check for timeout const deUint64 currentTimeUs = deGetMicroseconds(); if (currentTimeUs - m_startTimeUs > m_timeoutUs) { // Get logs { vector messageNdx; messageNdx.resize(m_threads.size(), 0); while (true) { int nextThreadNdx = -1; deUint64 nextThreadTimeUs = 0; for (int threadNdx = 0; threadNdx < (int)m_threads.size(); threadNdx++) { if (messageNdx[threadNdx] >= (int)m_threads[threadNdx]->getLog().getMessages().size()) continue; if (nextThreadNdx == -1 || nextThreadTimeUs > m_threads[threadNdx]->getLog().getMessages()[messageNdx[threadNdx]].timeUs) { nextThreadNdx = threadNdx; nextThreadTimeUs = m_threads[threadNdx]->getLog().getMessages()[messageNdx[threadNdx]].timeUs; } } if (nextThreadNdx == -1) break; m_testCtx.getLog() << tcu::TestLog::Message << "[" << (nextThreadTimeUs - m_startTimeUs) << "] (" << nextThreadNdx << ") " << m_threads[nextThreadNdx]->getLog().getMessages()[messageNdx[nextThreadNdx]].msg << tcu::TestLog::EndMessage; messageNdx[nextThreadNdx]++; } } m_testCtx.getLog() << tcu::TestLog::Message << "[" << (currentTimeUs - m_startTimeUs) << "] (-) Timeout, Limit: " << m_timeoutUs << "us" << tcu::TestLog::EndMessage; m_testCtx.getLog() << tcu::TestLog::Message << "[" << (currentTimeUs - m_startTimeUs) << "] (-) Trying to perform resource cleanup..." << tcu::TestLog::EndMessage; m_testCtx.setTestResult(QP_TEST_RESULT_FAIL, "Fail"); return STOP; } // Sleep deSleep(10); } return CONTINUE; } namespace { const char* configAttributeToString (EGLint e) { switch (e) { case EGL_BUFFER_SIZE: return "EGL_BUFFER_SIZE"; case EGL_RED_SIZE: return "EGL_RED_SIZE"; case EGL_GREEN_SIZE: return "EGL_GREEN_SIZE"; case EGL_BLUE_SIZE: return "EGL_BLUE_SIZE"; case EGL_LUMINANCE_SIZE: return "EGL_LUMINANCE_SIZE"; case EGL_ALPHA_SIZE: return "EGL_ALPHA_SIZE"; case EGL_ALPHA_MASK_SIZE: return "EGL_ALPHA_MASK_SIZE"; case EGL_BIND_TO_TEXTURE_RGB: return "EGL_BIND_TO_TEXTURE_RGB"; case EGL_BIND_TO_TEXTURE_RGBA: return "EGL_BIND_TO_TEXTURE_RGBA"; case EGL_COLOR_BUFFER_TYPE: return "EGL_COLOR_BUFFER_TYPE"; case EGL_CONFIG_CAVEAT: return "EGL_CONFIG_CAVEAT"; case EGL_CONFIG_ID: return "EGL_CONFIG_ID"; case EGL_CONFORMANT: return "EGL_CONFORMANT"; case EGL_DEPTH_SIZE: return "EGL_DEPTH_SIZE"; case EGL_LEVEL: return "EGL_LEVEL"; case EGL_MAX_PBUFFER_WIDTH: return "EGL_MAX_PBUFFER_WIDTH"; case EGL_MAX_PBUFFER_HEIGHT: return "EGL_MAX_PBUFFER_HEIGHT"; case EGL_MAX_PBUFFER_PIXELS: return "EGL_MAX_PBUFFER_PIXELS"; case EGL_MAX_SWAP_INTERVAL: return "EGL_MAX_SWAP_INTERVAL"; case EGL_MIN_SWAP_INTERVAL: return "EGL_MIN_SWAP_INTERVAL"; case EGL_NATIVE_RENDERABLE: return "EGL_NATIVE_RENDERABLE"; case EGL_NATIVE_VISUAL_ID: return "EGL_NATIVE_VISUAL_ID"; case EGL_NATIVE_VISUAL_TYPE: return "EGL_NATIVE_VISUAL_TYPE"; case EGL_RENDERABLE_TYPE: return "EGL_RENDERABLE_TYPE"; case EGL_SAMPLE_BUFFERS: return "EGL_SAMPLE_BUFFERS"; case EGL_SAMPLES: return "EGL_SAMPLES"; case EGL_STENCIL_SIZE: return "EGL_STENCIL_SIZE"; case EGL_SURFACE_TYPE: return "EGL_SURFACE_TYPE"; case EGL_TRANSPARENT_TYPE: return "EGL_TRANSPARENT_TYPE"; case EGL_TRANSPARENT_RED_VALUE: return "EGL_TRANSPARENT_RED_VALUE"; case EGL_TRANSPARENT_GREEN_VALUE: return "EGL_TRANSPARENT_GREEN_VALUE"; case EGL_TRANSPARENT_BLUE_VALUE: return "EGL_TRANSPARENT_BLUE_VALUE"; default: return ""; } } } // anonymous class MultiThreadedConfigTest : public MultiThreadedTest { public: MultiThreadedConfigTest (EglTestContext& context, const char* name, const char* description, int getConfigs, int chooseConfigs, int query); bool runThread (TestThread& thread); private: const int m_getConfigs; const int m_chooseConfigs; const int m_query; }; MultiThreadedConfigTest::MultiThreadedConfigTest (EglTestContext& context, const char* name, const char* description, int getConfigs, int chooseConfigs, int query) : MultiThreadedTest (context, name, description, 2, 20000000/*us = 20s*/) // \todo [mika] Set timeout to something relevant to frameworks timeout? , m_getConfigs (getConfigs) , m_chooseConfigs (chooseConfigs) , m_query (query) { } bool MultiThreadedConfigTest::runThread (TestThread& thread) { const Library& egl = getLibrary(); de::Random rnd (deInt32Hash(thread.getId() + 10435)); vector configs; barrier(); for (int getConfigsNdx = 0; getConfigsNdx < m_getConfigs; getConfigsNdx++) { EGLint configCount; // Get number of configs { EGLBoolean result; result = egl.getConfigs(m_display, NULL, 0, &configCount); thread.getLog() << ThreadLog::BeginMessage << result << " = eglGetConfigs(" << m_display << ", NULL, 0, " << configCount << ")" << ThreadLog::EndMessage; EGLU_CHECK_MSG(egl, "eglGetConfigs()"); if (!result) return false; } configs.resize(configs.size() + configCount); // Get configs if (configCount != 0) { EGLBoolean result; result = egl.getConfigs(m_display, &(configs[configs.size() - configCount]), configCount, &configCount); thread.getLog() << ThreadLog::BeginMessage << result << " = eglGetConfigs(" << m_display << ", &configs' " << configCount << ", " << configCount << ")" << ThreadLog::EndMessage; EGLU_CHECK_MSG(egl, "eglGetConfigs()"); if (!result) return false; } // Pop configs to stop config list growing if (configs.size() > 40) { configs.erase(configs.begin() + 40, configs.end()); } else { const int popCount = rnd.getInt(0, (int)(configs.size()-2)); configs.erase(configs.begin() + (configs.size() - popCount), configs.end()); } } for (int chooseConfigsNdx = 0; chooseConfigsNdx < m_chooseConfigs; chooseConfigsNdx++) { EGLint configCount; static const EGLint attribList[] = { EGL_NONE }; // Get number of configs { EGLBoolean result; result = egl.chooseConfig(m_display, attribList, NULL, 0, &configCount); thread.getLog() << ThreadLog::BeginMessage << result << " = eglChooseConfig(" << m_display << ", { EGL_NONE }, NULL, 0, " << configCount << ")" << ThreadLog::EndMessage; EGLU_CHECK_MSG(egl, "eglChooseConfig()"); if (!result) return false; } configs.resize(configs.size() + configCount); // Get configs if (configCount != 0) { EGLBoolean result; result = egl.chooseConfig(m_display, attribList, &(configs[configs.size() - configCount]), configCount, &configCount); thread.getLog() << ThreadLog::BeginMessage << result << " = eglChooseConfig(" << m_display << ", { EGL_NONE }, &configs, " << configCount << ", " << configCount << ")" << ThreadLog::EndMessage; EGLU_CHECK_MSG(egl, "eglChooseConfig()"); if (!result) return false; } // Pop configs to stop config list growing if (configs.size() > 40) { configs.erase(configs.begin() + 40, configs.end()); } else { const int popCount = rnd.getInt(0, (int)(configs.size()-2)); configs.erase(configs.begin() + (configs.size() - popCount), configs.end()); } } { // Perform queries on configs static const EGLint attributes[] = { EGL_BUFFER_SIZE, EGL_RED_SIZE, EGL_GREEN_SIZE, EGL_BLUE_SIZE, EGL_LUMINANCE_SIZE, EGL_ALPHA_SIZE, EGL_ALPHA_MASK_SIZE, EGL_BIND_TO_TEXTURE_RGB, EGL_BIND_TO_TEXTURE_RGBA, EGL_COLOR_BUFFER_TYPE, EGL_CONFIG_CAVEAT, EGL_CONFIG_ID, EGL_CONFORMANT, EGL_DEPTH_SIZE, EGL_LEVEL, EGL_MAX_PBUFFER_WIDTH, EGL_MAX_PBUFFER_HEIGHT, EGL_MAX_PBUFFER_PIXELS, EGL_MAX_SWAP_INTERVAL, EGL_MIN_SWAP_INTERVAL, EGL_NATIVE_RENDERABLE, EGL_NATIVE_VISUAL_ID, EGL_NATIVE_VISUAL_TYPE, EGL_RENDERABLE_TYPE, EGL_SAMPLE_BUFFERS, EGL_SAMPLES, EGL_STENCIL_SIZE, EGL_SURFACE_TYPE, EGL_TRANSPARENT_TYPE, EGL_TRANSPARENT_RED_VALUE, EGL_TRANSPARENT_GREEN_VALUE, EGL_TRANSPARENT_BLUE_VALUE }; for (int queryNdx = 0; queryNdx < m_query; queryNdx++) { const EGLint attribute = attributes[rnd.getInt(0, DE_LENGTH_OF_ARRAY(attributes)-1)]; EGLConfig config = configs[rnd.getInt(0, (int)(configs.size()-1))]; EGLint value; EGLBoolean result; result = egl.getConfigAttrib(m_display, config, attribute, &value); thread.getLog() << ThreadLog::BeginMessage << result << " = eglGetConfigAttrib(" << m_display << ", " << config << ", " << configAttributeToString(attribute) << ", " << value << ")" << ThreadLog::EndMessage; EGLU_CHECK_MSG(egl, "eglGetConfigAttrib()"); if (!result) return false; } } return true; } class MultiThreadedObjectTest : public MultiThreadedTest { public: enum Type { TYPE_PBUFFER = (1<<0), TYPE_PIXMAP = (1<<1), TYPE_WINDOW = (1<<2), TYPE_SINGLE_WINDOW = (1<<3), TYPE_CONTEXT = (1<<4) }; MultiThreadedObjectTest (EglTestContext& context, const char* name, const char* description, deUint32 types); ~MultiThreadedObjectTest (void); virtual void deinit (void); bool runThread (TestThread& thread); void createDestroyObjects (TestThread& thread, int count); void pushObjectsToShared (TestThread& thread); void pullObjectsFromShared (TestThread& thread, int pbufferCount, int pixmapCount, int windowCount, int contextCount); void querySetSharedObjects (TestThread& thread, int count); void destroyObjects (TestThread& thread); private: EGLConfig m_config; de::Random m_rnd0; de::Random m_rnd1; Type m_types; volatile deUint32 m_hasWindow; vector > m_sharedNativePixmaps; vector > m_nativePixmaps0; vector > m_nativePixmaps1; vector > m_sharedNativeWindows; vector > m_nativeWindows0; vector > m_nativeWindows1; vector m_sharedPbuffers; vector m_pbuffers0; vector m_pbuffers1; vector m_sharedContexts; vector m_contexts0; vector m_contexts1; }; MultiThreadedObjectTest::MultiThreadedObjectTest (EglTestContext& context, const char* name, const char* description, deUint32 type) : MultiThreadedTest (context, name, description, 2, 20000000/*us = 20s*/) // \todo [mika] Set timeout to something relevant to frameworks timeout? , m_config (DE_NULL) , m_rnd0 (58204327) , m_rnd1 (230983) , m_types ((Type)type) , m_hasWindow (0) { } MultiThreadedObjectTest::~MultiThreadedObjectTest (void) { deinit(); } void MultiThreadedObjectTest::deinit (void) { const Library& egl = getLibrary(); // Clear pbuffers for (int pbufferNdx = 0; pbufferNdx < (int)m_pbuffers0.size(); pbufferNdx++) { if (m_pbuffers0[pbufferNdx] != EGL_NO_SURFACE) { egl.destroySurface(m_display, m_pbuffers0[pbufferNdx]); EGLU_CHECK_MSG(egl, "eglDestroySurface()"); m_pbuffers0[pbufferNdx] = EGL_NO_SURFACE; } } m_pbuffers0.clear(); for (int pbufferNdx = 0; pbufferNdx < (int)m_pbuffers1.size(); pbufferNdx++) { if (m_pbuffers1[pbufferNdx] != EGL_NO_SURFACE) { egl.destroySurface(m_display, m_pbuffers1[pbufferNdx]); EGLU_CHECK_MSG(egl, "eglDestroySurface()"); m_pbuffers1[pbufferNdx] = EGL_NO_SURFACE; } } m_pbuffers1.clear(); for (int pbufferNdx = 0; pbufferNdx < (int)m_sharedPbuffers.size(); pbufferNdx++) { if (m_sharedPbuffers[pbufferNdx] != EGL_NO_SURFACE) { egl.destroySurface(m_display, m_sharedPbuffers[pbufferNdx]); EGLU_CHECK_MSG(egl, "eglDestroySurface()"); m_sharedPbuffers[pbufferNdx] = EGL_NO_SURFACE; } } m_sharedPbuffers.clear(); for (int contextNdx = 0; contextNdx < (int)m_sharedContexts.size(); contextNdx++) { if (m_sharedContexts[contextNdx] != EGL_NO_CONTEXT) { egl.destroyContext(m_display, m_sharedContexts[contextNdx]); EGLU_CHECK_MSG(egl, "eglDestroyContext()"); m_sharedContexts[contextNdx] = EGL_NO_CONTEXT; } } m_sharedContexts.clear(); for (int contextNdx = 0; contextNdx < (int)m_contexts0.size(); contextNdx++) { if (m_contexts0[contextNdx] != EGL_NO_CONTEXT) { egl.destroyContext(m_display, m_contexts0[contextNdx]); EGLU_CHECK_MSG(egl, "eglDestroyContext()"); m_contexts0[contextNdx] = EGL_NO_CONTEXT; } } m_contexts0.clear(); for (int contextNdx = 0; contextNdx < (int)m_contexts1.size(); contextNdx++) { if (m_contexts1[contextNdx] != EGL_NO_CONTEXT) { egl.destroyContext(m_display, m_contexts1[contextNdx]); EGLU_CHECK_MSG(egl, "eglDestroyContext()"); m_contexts1[contextNdx] = EGL_NO_CONTEXT; } } m_contexts1.clear(); // Clear pixmaps for (int pixmapNdx = 0; pixmapNdx < (int)m_nativePixmaps0.size(); pixmapNdx++) { if (m_nativePixmaps0[pixmapNdx].second != EGL_NO_SURFACE) EGLU_CHECK_CALL(egl, destroySurface(m_display, m_nativePixmaps0[pixmapNdx].second)); m_nativePixmaps0[pixmapNdx].second = EGL_NO_SURFACE; delete m_nativePixmaps0[pixmapNdx].first; m_nativePixmaps0[pixmapNdx].first = NULL; } m_nativePixmaps0.clear(); for (int pixmapNdx = 0; pixmapNdx < (int)m_nativePixmaps1.size(); pixmapNdx++) { if (m_nativePixmaps1[pixmapNdx].second != EGL_NO_SURFACE) EGLU_CHECK_CALL(egl, destroySurface(m_display, m_nativePixmaps1[pixmapNdx].second)); m_nativePixmaps1[pixmapNdx].second = EGL_NO_SURFACE; delete m_nativePixmaps1[pixmapNdx].first; m_nativePixmaps1[pixmapNdx].first = NULL; } m_nativePixmaps1.clear(); for (int pixmapNdx = 0; pixmapNdx < (int)m_sharedNativePixmaps.size(); pixmapNdx++) { if (m_sharedNativePixmaps[pixmapNdx].second != EGL_NO_SURFACE) EGLU_CHECK_CALL(egl, destroySurface(m_display, m_sharedNativePixmaps[pixmapNdx].second)); m_sharedNativePixmaps[pixmapNdx].second = EGL_NO_SURFACE; delete m_sharedNativePixmaps[pixmapNdx].first; m_sharedNativePixmaps[pixmapNdx].first = NULL; } m_sharedNativePixmaps.clear(); // Clear windows for (int windowNdx = 0; windowNdx < (int)m_nativeWindows1.size(); windowNdx++) { if (m_nativeWindows1[windowNdx].second != EGL_NO_SURFACE) EGLU_CHECK_CALL(egl, destroySurface(m_display, m_nativeWindows1[windowNdx].second)); m_nativeWindows1[windowNdx].second = EGL_NO_SURFACE; delete m_nativeWindows1[windowNdx].first; m_nativeWindows1[windowNdx].first = NULL; } m_nativeWindows1.clear(); for (int windowNdx = 0; windowNdx < (int)m_nativeWindows0.size(); windowNdx++) { if (m_nativeWindows0[windowNdx].second != EGL_NO_SURFACE) EGLU_CHECK_CALL(egl, destroySurface(m_display, m_nativeWindows0[windowNdx].second)); m_nativeWindows0[windowNdx].second = EGL_NO_SURFACE; delete m_nativeWindows0[windowNdx].first; m_nativeWindows0[windowNdx].first = NULL; } m_nativeWindows0.clear(); for (int windowNdx = 0; windowNdx < (int)m_sharedNativeWindows.size(); windowNdx++) { if (m_sharedNativeWindows[windowNdx].second != EGL_NO_SURFACE) EGLU_CHECK_CALL(egl, destroySurface(m_display, m_sharedNativeWindows[windowNdx].second)); m_sharedNativeWindows[windowNdx].second = EGL_NO_SURFACE; delete m_sharedNativeWindows[windowNdx].first; m_sharedNativeWindows[windowNdx].first = NULL; } m_sharedNativeWindows.clear(); MultiThreadedTest::deinit(); } bool MultiThreadedObjectTest::runThread (TestThread& thread) { const Library& egl = getLibrary(); if (thread.getId() == 0) { EGLint surfaceTypes = 0; if ((m_types & TYPE_WINDOW) != 0) surfaceTypes |= EGL_WINDOW_BIT; if ((m_types & TYPE_PBUFFER) != 0) surfaceTypes |= EGL_PBUFFER_BIT; if ((m_types & TYPE_PIXMAP) != 0) surfaceTypes |= EGL_PIXMAP_BIT; EGLint configCount; EGLint attribList[] = { EGL_SURFACE_TYPE, surfaceTypes, EGL_RENDERABLE_TYPE, EGL_OPENGL_ES2_BIT, EGL_NONE }; EGLU_CHECK_CALL(egl, chooseConfig(m_display, attribList, &m_config, 1, &configCount)); if (configCount == 0) TCU_THROW(NotSupportedError, "No usable config found"); } barrier(); // Create / Destroy Objects if ((m_types & TYPE_SINGLE_WINDOW) != 0 && (m_types & TYPE_PBUFFER) == 0 && (m_types & TYPE_PIXMAP) == 0 && (m_types & TYPE_CONTEXT) == 0) { if (thread.getId() == 0) createDestroyObjects(thread, 1); } else createDestroyObjects(thread, 100); // Push first threads objects to shared if (thread.getId() == 0) pushObjectsToShared(thread); barrier(); // Push second threads objects to shared if (thread.getId() == 1) pushObjectsToShared(thread); barrier(); // Make queries from shared surfaces querySetSharedObjects(thread, 100); barrier(); // Pull surfaces for first thread from shared surfaces if (thread.getId() == 0) pullObjectsFromShared(thread, (int)(m_sharedPbuffers.size()/2), (int)(m_sharedNativePixmaps.size()/2), (int)(m_sharedNativeWindows.size()/2), (int)(m_sharedContexts.size()/2)); barrier(); // Pull surfaces for second thread from shared surfaces if (thread.getId() == 1) pullObjectsFromShared(thread, (int)m_sharedPbuffers.size(), (int)m_sharedNativePixmaps.size(), (int)m_sharedNativeWindows.size(), (int)m_sharedContexts.size()); barrier(); // Create / Destroy Objects if ((m_types & TYPE_SINGLE_WINDOW) == 0) createDestroyObjects(thread, 100); // Destroy surfaces destroyObjects(thread); return true; } void MultiThreadedObjectTest::createDestroyObjects (TestThread& thread, int count) { const Library& egl = getLibrary(); de::Random& rnd = (thread.getId() == 0 ? m_rnd0 : m_rnd1); vector& pbuffers = (thread.getId() == 0 ? m_pbuffers0 : m_pbuffers1); vector >& windows = (thread.getId() == 0 ? m_nativeWindows0 : m_nativeWindows1); vector >& pixmaps = (thread.getId() == 0 ? m_nativePixmaps0 : m_nativePixmaps1); vector& contexts = (thread.getId() == 0 ? m_contexts0 : m_contexts1); set objectTypes; if ((m_types & TYPE_PBUFFER) != 0) objectTypes.insert(TYPE_PBUFFER); if ((m_types & TYPE_PIXMAP) != 0) objectTypes.insert(TYPE_PIXMAP); if ((m_types & TYPE_WINDOW) != 0) objectTypes.insert(TYPE_WINDOW); if ((m_types & TYPE_CONTEXT) != 0) objectTypes.insert(TYPE_CONTEXT); for (int createDestroyNdx = 0; createDestroyNdx < count; createDestroyNdx++) { bool create; Type type; if (pbuffers.size() > 5 && ((m_types & TYPE_PBUFFER) != 0)) { create = false; type = TYPE_PBUFFER; } else if (windows.size() > 5 && ((m_types & TYPE_WINDOW) != 0)) { create = false; type = TYPE_WINDOW; } else if (pixmaps.size() > 5 && ((m_types & TYPE_PIXMAP) != 0)) { create = false; type = TYPE_PIXMAP; } else if (contexts.size() > 5 && ((m_types & TYPE_CONTEXT) != 0)) { create = false; type = TYPE_CONTEXT; } else if (pbuffers.size() < 3 && ((m_types & TYPE_PBUFFER) != 0)) { create = true; type = TYPE_PBUFFER; } else if (pixmaps.size() < 3 && ((m_types & TYPE_PIXMAP) != 0)) { create = true; type = TYPE_PIXMAP; } else if (contexts.size() < 3 && ((m_types & TYPE_CONTEXT) != 0)) { create = true; type = TYPE_CONTEXT; } else if (windows.size() < 3 && ((m_types & TYPE_WINDOW) != 0) && ((m_types & TYPE_SINGLE_WINDOW) == 0)) { create = true; type = TYPE_WINDOW; } else if (windows.empty() && (m_hasWindow == 0) && ((m_types & TYPE_WINDOW) != 0) && ((m_types & TYPE_SINGLE_WINDOW) != 0)) { create = true; type = TYPE_WINDOW; } else { create = rnd.getBool(); if (!create && windows.empty()) objectTypes.erase(TYPE_WINDOW); type = rnd.choose(objectTypes.begin(), objectTypes.end()); } if (create) { switch (type) { case TYPE_PBUFFER: { EGLSurface surface; const EGLint attributes[] = { EGL_WIDTH, 64, EGL_HEIGHT, 64, EGL_NONE }; surface = egl.createPbufferSurface(m_display, m_config, attributes); thread.getLog() << ThreadLog::BeginMessage << surface << " = eglCreatePbufferSurface(" << m_display << ", " << m_config << ", { EGL_WIDTH, 64, EGL_HEIGHT, 64, EGL_NONE })" << ThreadLog::EndMessage; EGLU_CHECK_MSG(egl, "eglCreatePbufferSurface()"); pbuffers.push_back(surface); break; } case TYPE_WINDOW: { const eglu::NativeWindowFactory& windowFactory = eglu::selectNativeWindowFactory(m_eglTestCtx.getNativeDisplayFactory(), m_testCtx.getCommandLine()); if ((m_types & TYPE_SINGLE_WINDOW) != 0) { if (deAtomicCompareExchange32(&m_hasWindow, 0, 1) == 0) { eglu::NativeWindow* window = DE_NULL; EGLSurface surface = EGL_NO_SURFACE; try { window = windowFactory.createWindow(&m_eglTestCtx.getNativeDisplay(), m_display, m_config, DE_NULL, eglu::WindowParams(64, 64, eglu::parseWindowVisibility(m_testCtx.getCommandLine()))); surface = eglu::createWindowSurface(m_eglTestCtx.getNativeDisplay(), *window, m_display, m_config, DE_NULL); thread.getLog() << ThreadLog::BeginMessage << surface << " = eglCreateWindowSurface()" << ThreadLog::EndMessage; windows.push_back(std::make_pair(window, surface)); } catch (const std::exception&) { if (surface != EGL_NO_SURFACE) EGLU_CHECK_CALL(egl, destroySurface(m_display, surface)); delete window; m_hasWindow = 0; throw; } } else { createDestroyNdx--; } } else { eglu::NativeWindow* window = DE_NULL; EGLSurface surface = EGL_NO_SURFACE; try { window = windowFactory.createWindow(&m_eglTestCtx.getNativeDisplay(), m_display, m_config, DE_NULL, eglu::WindowParams(64, 64, eglu::parseWindowVisibility(m_testCtx.getCommandLine()))); surface = eglu::createWindowSurface(m_eglTestCtx.getNativeDisplay(), *window, m_display, m_config, DE_NULL); thread.getLog() << ThreadLog::BeginMessage << surface << " = eglCreateWindowSurface()" << ThreadLog::EndMessage; windows.push_back(std::make_pair(window, surface)); } catch (const std::exception&) { if (surface != EGL_NO_SURFACE) EGLU_CHECK_CALL(egl, destroySurface(m_display, surface)); delete window; throw; } } break; } case TYPE_PIXMAP: { const eglu::NativePixmapFactory& pixmapFactory = eglu::selectNativePixmapFactory(m_eglTestCtx.getNativeDisplayFactory(), m_testCtx.getCommandLine()); eglu::NativePixmap* pixmap = DE_NULL; EGLSurface surface = EGL_NO_SURFACE; try { pixmap = pixmapFactory.createPixmap(&m_eglTestCtx.getNativeDisplay(), m_display, m_config, DE_NULL, 64, 64); surface = eglu::createPixmapSurface(m_eglTestCtx.getNativeDisplay(), *pixmap, m_display, m_config, DE_NULL); thread.getLog() << ThreadLog::BeginMessage << surface << " = eglCreatePixmapSurface()" << ThreadLog::EndMessage; pixmaps.push_back(std::make_pair(pixmap, surface)); } catch (const std::exception&) { if (surface != EGL_NO_SURFACE) EGLU_CHECK_CALL(egl, destroySurface(m_display, surface)); delete pixmap; throw; } break; } case TYPE_CONTEXT: { EGLContext context; EGLU_CHECK_CALL(egl, bindAPI(EGL_OPENGL_ES_API)); thread.getLog() << ThreadLog::BeginMessage << "eglBindAPI(EGL_OPENGL_ES_API)" << ThreadLog::EndMessage; const EGLint attributes[] = { EGL_CONTEXT_CLIENT_VERSION, 2, EGL_NONE }; context = egl.createContext(m_display, m_config, EGL_NO_CONTEXT, attributes); thread.getLog() << ThreadLog::BeginMessage << context << " = eglCreateContext(" << m_display << ", " << m_config << ", EGL_NO_CONTEXT, { EGL_CONTEXT_CLIENT_VERSION, 2, EGL_NONE })" << ThreadLog::EndMessage; EGLU_CHECK_MSG(egl, "eglCreateContext()"); contexts.push_back(context); break; } default: DE_ASSERT(false); }; } else { switch (type) { case TYPE_PBUFFER: { const int pbufferNdx = rnd.getInt(0, (int)(pbuffers.size()-1)); EGLBoolean result; result = egl.destroySurface(m_display, pbuffers[pbufferNdx]); thread.getLog() << ThreadLog::BeginMessage << result << " = eglDestroySurface(" << m_display << ", " << pbuffers[pbufferNdx] << ")" << ThreadLog::EndMessage; EGLU_CHECK_MSG(egl, "eglDestroySurface()"); pbuffers.erase(pbuffers.begin() + pbufferNdx); break; } case TYPE_WINDOW: { const int windowNdx = rnd.getInt(0, (int)(windows.size()-1)); thread.getLog() << ThreadLog::BeginMessage << "eglDestroySurface(" << m_display << ", " << windows[windowNdx].second << ")" << ThreadLog::EndMessage; EGLU_CHECK_CALL(egl, destroySurface(m_display, windows[windowNdx].second)); windows[windowNdx].second = EGL_NO_SURFACE; delete windows[windowNdx].first; windows[windowNdx].first = DE_NULL; windows.erase(windows.begin() + windowNdx); if ((m_types & TYPE_SINGLE_WINDOW) != 0) m_hasWindow = 0; break; } case TYPE_PIXMAP: { const int pixmapNdx = rnd.getInt(0, (int)(pixmaps.size()-1)); thread.getLog() << ThreadLog::BeginMessage << "eglDestroySurface(" << m_display << ", " << pixmaps[pixmapNdx].second << ")" << ThreadLog::EndMessage; EGLU_CHECK_CALL(egl, destroySurface(m_display, pixmaps[pixmapNdx].second)); pixmaps[pixmapNdx].second = EGL_NO_SURFACE; delete pixmaps[pixmapNdx].first; pixmaps[pixmapNdx].first = DE_NULL; pixmaps.erase(pixmaps.begin() + pixmapNdx); break; } case TYPE_CONTEXT: { const int contextNdx = rnd.getInt(0, (int)(contexts.size()-1)); EGLU_CHECK_CALL(egl, destroyContext(m_display, contexts[contextNdx])); thread.getLog() << ThreadLog::BeginMessage << "eglDestroyContext(" << m_display << ", " << contexts[contextNdx] << ")" << ThreadLog::EndMessage; contexts.erase(contexts.begin() + contextNdx); break; } default: DE_ASSERT(false); } } } } void MultiThreadedObjectTest::pushObjectsToShared (TestThread& thread) { vector& pbuffers = (thread.getId() == 0 ? m_pbuffers0 : m_pbuffers1); vector >& windows = (thread.getId() == 0 ? m_nativeWindows0 : m_nativeWindows1); vector >& pixmaps = (thread.getId() == 0 ? m_nativePixmaps0 : m_nativePixmaps1); vector& contexts = (thread.getId() == 0 ? m_contexts0 : m_contexts1); for (int pbufferNdx = 0; pbufferNdx < (int)pbuffers.size(); pbufferNdx++) m_sharedPbuffers.push_back(pbuffers[pbufferNdx]); pbuffers.clear(); for (int windowNdx = 0; windowNdx < (int)windows.size(); windowNdx++) m_sharedNativeWindows.push_back(windows[windowNdx]); windows.clear(); for (int pixmapNdx = 0; pixmapNdx < (int)pixmaps.size(); pixmapNdx++) m_sharedNativePixmaps.push_back(pixmaps[pixmapNdx]); pixmaps.clear(); for (int contextNdx = 0; contextNdx < (int)contexts.size(); contextNdx++) m_sharedContexts.push_back(contexts[contextNdx]); contexts.clear(); } void MultiThreadedObjectTest::pullObjectsFromShared (TestThread& thread, int pbufferCount, int pixmapCount, int windowCount, int contextCount) { de::Random& rnd = (thread.getId() == 0 ? m_rnd0 : m_rnd1); vector& pbuffers = (thread.getId() == 0 ? m_pbuffers0 : m_pbuffers1); vector >& windows = (thread.getId() == 0 ? m_nativeWindows0 : m_nativeWindows1); vector >& pixmaps = (thread.getId() == 0 ? m_nativePixmaps0 : m_nativePixmaps1); vector& contexts = (thread.getId() == 0 ? m_contexts0 : m_contexts1); for (int pbufferNdx = 0; pbufferNdx < pbufferCount; pbufferNdx++) { const int ndx = rnd.getInt(0, (int)(m_sharedPbuffers.size()-1)); pbuffers.push_back(m_sharedPbuffers[ndx]); m_sharedPbuffers.erase(m_sharedPbuffers.begin() + ndx); } for (int pixmapNdx = 0; pixmapNdx < pixmapCount; pixmapNdx++) { const int ndx = rnd.getInt(0, (int)(m_sharedNativePixmaps.size()-1)); pixmaps.push_back(m_sharedNativePixmaps[ndx]); m_sharedNativePixmaps.erase(m_sharedNativePixmaps.begin() + ndx); } for (int windowNdx = 0; windowNdx < windowCount; windowNdx++) { const int ndx = rnd.getInt(0, (int)(m_sharedNativeWindows.size()-1)); windows.push_back(m_sharedNativeWindows[ndx]); m_sharedNativeWindows.erase(m_sharedNativeWindows.begin() + ndx); } for (int contextNdx = 0; contextNdx < contextCount; contextNdx++) { const int ndx = rnd.getInt(0, (int)(m_sharedContexts.size()-1)); contexts.push_back(m_sharedContexts[ndx]); m_sharedContexts.erase(m_sharedContexts.begin() + ndx); } } void MultiThreadedObjectTest::querySetSharedObjects (TestThread& thread, int count) { const Library& egl = getLibrary(); de::Random& rnd = (thread.getId() == 0 ? m_rnd0 : m_rnd1); vector objectTypes; if ((m_types & TYPE_PBUFFER) != 0) objectTypes.push_back(TYPE_PBUFFER); if ((m_types & TYPE_PIXMAP) != 0) objectTypes.push_back(TYPE_PIXMAP); if (!m_sharedNativeWindows.empty() && (m_types & TYPE_WINDOW) != 0) objectTypes.push_back(TYPE_WINDOW); if ((m_types & TYPE_CONTEXT) != 0) objectTypes.push_back(TYPE_CONTEXT); for (int queryNdx = 0; queryNdx < count; queryNdx++) { const Type type = rnd.choose(objectTypes.begin(), objectTypes.end()); EGLSurface surface = EGL_NO_SURFACE; EGLContext context = EGL_NO_CONTEXT; switch (type) { case TYPE_PBUFFER: surface = m_sharedPbuffers[rnd.getInt(0, (int)(m_sharedPbuffers.size()-1))]; break; case TYPE_PIXMAP: surface = m_sharedNativePixmaps[rnd.getInt(0, (int)(m_sharedNativePixmaps.size()-1))].second; break; case TYPE_WINDOW: surface = m_sharedNativeWindows[rnd.getInt(0, (int)(m_sharedNativeWindows.size()-1))].second; break; case TYPE_CONTEXT: context = m_sharedContexts[rnd.getInt(0, (int)(m_sharedContexts.size()-1))]; break; default: DE_ASSERT(false); } if (surface != EGL_NO_SURFACE) { static const EGLint queryAttributes[] = { EGL_LARGEST_PBUFFER, EGL_HEIGHT, EGL_WIDTH }; const EGLint attribute = queryAttributes[rnd.getInt(0, DE_LENGTH_OF_ARRAY(queryAttributes) - 1)]; EGLBoolean result; EGLint value; result = egl.querySurface(m_display, surface, attribute, &value); thread.getLog() << ThreadLog::BeginMessage << result << " = eglQuerySurface(" << m_display << ", " << surface << ", " << attribute << ", " << value << ")" << ThreadLog::EndMessage; EGLU_CHECK_MSG(egl, "eglQuerySurface()"); } else if (context != EGL_NO_CONTEXT) { static const EGLint attributes[] = { EGL_CONFIG_ID, EGL_CONTEXT_CLIENT_TYPE, EGL_CONTEXT_CLIENT_VERSION, EGL_RENDER_BUFFER }; const EGLint attribute = attributes[rnd.getInt(0, DE_LENGTH_OF_ARRAY(attributes)-1)]; EGLint value; EGLBoolean result; result = egl.queryContext(m_display, context, attribute, &value); thread.getLog() << ThreadLog::BeginMessage << result << " = eglQueryContext(" << m_display << ", " << context << ", " << attribute << ", " << value << ")" << ThreadLog::EndMessage; EGLU_CHECK_MSG(egl, "eglQueryContext()"); } else DE_ASSERT(false); } } void MultiThreadedObjectTest::destroyObjects (TestThread& thread) { const Library& egl = getLibrary(); vector& pbuffers = (thread.getId() == 0 ? m_pbuffers0 : m_pbuffers1); vector >& windows = (thread.getId() == 0 ? m_nativeWindows0 : m_nativeWindows1); vector >& pixmaps = (thread.getId() == 0 ? m_nativePixmaps0 : m_nativePixmaps1); vector& contexts = (thread.getId() == 0 ? m_contexts0 : m_contexts1); for (int pbufferNdx = 0; pbufferNdx < (int)pbuffers.size(); pbufferNdx++) { if (pbuffers[pbufferNdx] != EGL_NO_SURFACE) { // Destroy EGLSurface EGLBoolean result; result = egl.destroySurface(m_display, pbuffers[pbufferNdx]); thread.getLog() << ThreadLog::BeginMessage << result << " = eglDestroySurface(" << m_display << ", " << pbuffers[pbufferNdx] << ")" << ThreadLog::EndMessage; EGLU_CHECK_MSG(egl, "eglDestroySurface()"); pbuffers[pbufferNdx] = EGL_NO_SURFACE; } } pbuffers.clear(); for (int windowNdx = 0; windowNdx < (int)windows.size(); windowNdx++) { if (windows[windowNdx].second != EGL_NO_SURFACE) { thread.getLog() << ThreadLog::BeginMessage << "eglDestroySurface(" << m_display << ", " << windows[windowNdx].second << ")" << ThreadLog::EndMessage; EGLU_CHECK_CALL(egl, destroySurface(m_display, windows[windowNdx].second)); windows[windowNdx].second = EGL_NO_SURFACE; } if (windows[windowNdx].first) { delete windows[windowNdx].first; windows[windowNdx].first = NULL; } } windows.clear(); for (int pixmapNdx = 0; pixmapNdx < (int)pixmaps.size(); pixmapNdx++) { if (pixmaps[pixmapNdx].first != EGL_NO_SURFACE) { thread.getLog() << ThreadLog::BeginMessage << "eglDestroySurface(" << m_display << ", " << pixmaps[pixmapNdx].second << ")" << ThreadLog::EndMessage; EGLU_CHECK_CALL(egl, destroySurface(m_display, pixmaps[pixmapNdx].second)); pixmaps[pixmapNdx].second = EGL_NO_SURFACE; } if (pixmaps[pixmapNdx].first) { delete pixmaps[pixmapNdx].first; pixmaps[pixmapNdx].first = NULL; } } pixmaps.clear(); for (int contextNdx = 0; contextNdx < (int)contexts.size(); contextNdx++) { if (contexts[contextNdx] != EGL_NO_CONTEXT) { EGLU_CHECK_CALL(egl, destroyContext(m_display, contexts[contextNdx])); thread.getLog() << ThreadLog::BeginMessage << "eglDestroyContext(" << m_display << ", " << contexts[contextNdx] << ")" << ThreadLog::EndMessage; contexts[contextNdx] = EGL_NO_CONTEXT; } } contexts.clear(); } MultiThreadedTests::MultiThreadedTests (EglTestContext& context) : TestCaseGroup(context, "multithread", "Multithreaded EGL tests") { } void MultiThreadedTests::init (void) { // Config tests addChild(new MultiThreadedConfigTest(m_eglTestCtx, "config", "", 30, 30, 30)); // Object tests addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pbuffer", "", MultiThreadedObjectTest::TYPE_PBUFFER)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pixmap", "", MultiThreadedObjectTest::TYPE_PIXMAP)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "window", "", MultiThreadedObjectTest::TYPE_WINDOW)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "single_window", "", MultiThreadedObjectTest::TYPE_WINDOW|MultiThreadedObjectTest::TYPE_SINGLE_WINDOW)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "context", "", MultiThreadedObjectTest::TYPE_CONTEXT)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pbuffer_pixmap", "", MultiThreadedObjectTest::TYPE_PBUFFER|MultiThreadedObjectTest::TYPE_PIXMAP)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pbuffer_window", "", MultiThreadedObjectTest::TYPE_PBUFFER|MultiThreadedObjectTest::TYPE_WINDOW)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pbuffer_single_window", "", MultiThreadedObjectTest::TYPE_PBUFFER|MultiThreadedObjectTest::TYPE_WINDOW|MultiThreadedObjectTest::TYPE_SINGLE_WINDOW)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pbuffer_context", "", MultiThreadedObjectTest::TYPE_PBUFFER|MultiThreadedObjectTest::TYPE_CONTEXT)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pixmap_window", "", MultiThreadedObjectTest::TYPE_PIXMAP|MultiThreadedObjectTest::TYPE_WINDOW)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pixmap_single_window", "", MultiThreadedObjectTest::TYPE_PIXMAP|MultiThreadedObjectTest::TYPE_WINDOW|MultiThreadedObjectTest::TYPE_SINGLE_WINDOW)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pixmap_context", "", MultiThreadedObjectTest::TYPE_PIXMAP|MultiThreadedObjectTest::TYPE_CONTEXT)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "window_context", "", MultiThreadedObjectTest::TYPE_WINDOW|MultiThreadedObjectTest::TYPE_CONTEXT)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "single_window_context", "", MultiThreadedObjectTest::TYPE_WINDOW|MultiThreadedObjectTest::TYPE_SINGLE_WINDOW|MultiThreadedObjectTest::TYPE_CONTEXT)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pbuffer_pixmap_window", "", MultiThreadedObjectTest::TYPE_PBUFFER|MultiThreadedObjectTest::TYPE_PIXMAP|MultiThreadedObjectTest::TYPE_WINDOW)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pbuffer_pixmap_single_window", "", MultiThreadedObjectTest::TYPE_PBUFFER|MultiThreadedObjectTest::TYPE_PIXMAP|MultiThreadedObjectTest::TYPE_WINDOW|MultiThreadedObjectTest::TYPE_SINGLE_WINDOW)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pbuffer_pixmap_context", "", MultiThreadedObjectTest::TYPE_PBUFFER|MultiThreadedObjectTest::TYPE_PIXMAP|MultiThreadedObjectTest::TYPE_CONTEXT)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pbuffer_window_context", "", MultiThreadedObjectTest::TYPE_PBUFFER|MultiThreadedObjectTest::TYPE_WINDOW|MultiThreadedObjectTest::TYPE_CONTEXT)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pbuffer_single_window_context", "", MultiThreadedObjectTest::TYPE_PBUFFER|MultiThreadedObjectTest::TYPE_WINDOW|MultiThreadedObjectTest::TYPE_SINGLE_WINDOW|MultiThreadedObjectTest::TYPE_CONTEXT)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pixmap_window_context", "", MultiThreadedObjectTest::TYPE_PIXMAP|MultiThreadedObjectTest::TYPE_WINDOW|MultiThreadedObjectTest::TYPE_CONTEXT)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pixmap_single_window_context", "", MultiThreadedObjectTest::TYPE_PIXMAP|MultiThreadedObjectTest::TYPE_WINDOW|MultiThreadedObjectTest::TYPE_SINGLE_WINDOW|MultiThreadedObjectTest::TYPE_CONTEXT)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pbuffer_pixmap_window_context", "", MultiThreadedObjectTest::TYPE_PBUFFER|MultiThreadedObjectTest::TYPE_PIXMAP|MultiThreadedObjectTest::TYPE_WINDOW|MultiThreadedObjectTest::TYPE_CONTEXT)); addChild(new MultiThreadedObjectTest(m_eglTestCtx, "pbuffer_pixmap_single_window_context", "", MultiThreadedObjectTest::TYPE_PBUFFER|MultiThreadedObjectTest::TYPE_PIXMAP|MultiThreadedObjectTest::TYPE_WINDOW|MultiThreadedObjectTest::TYPE_SINGLE_WINDOW|MultiThreadedObjectTest::TYPE_CONTEXT)); } } // egl } // deqp