ref: c917d092635c98acd0c116c2b0dd9e040a4b95c6
dir: /test/common/CWelsCircleQueue.cpp/
#include <gtest/gtest.h> #include "WelsCircleQueue.h" #include "WelsTaskThread.h" using namespace WelsCommon; TEST (CWelsCircleQueue, CWelsCircleQueueOne) { CWelsCircleQueue<IWelsTask> cTaskList; IWelsTask* pTask = NULL; for (int i = 0; i < 60; i++) { cTaskList.push_back (pTask); EXPECT_TRUE (1 == cTaskList.size()) << "after push size=" << cTaskList.size() ; cTaskList.pop_front(); EXPECT_TRUE (0 == cTaskList.size()) << "after pop size=" << cTaskList.size() ; } } TEST (CWelsCircleQueue, CWelsCircleQueueTen) { CWelsCircleQueue<IWelsTask> cTaskList; IWelsTask* pTask = NULL; for (int j = 0; j < 10; j++) { for (int i = 0; i < 10; i++) { EXPECT_TRUE (i == cTaskList.size()) << "before push size=" << cTaskList.size() ; cTaskList.push_back (pTask); } EXPECT_TRUE (10 == cTaskList.size()) << "after push size=" << cTaskList.size() ; for (int i = 9; i >= 0; i--) { cTaskList.pop_front(); EXPECT_TRUE (i == cTaskList.size()) << "after pop size=" << cTaskList.size() ; } } } TEST (CWelsCircleQueue, CWelsCircleQueueExpand) { CWelsCircleQueue<IWelsTask> cTaskList; IWelsTask* pTask = NULL; const int kiIncreaseNum = (rand() % 65535) + 1; const int kiDecreaseNum = rand() % kiIncreaseNum; for (int j = 0; j < 10; j++) { for (int i = 0; i < kiIncreaseNum; i++) { cTaskList.push_back (pTask); } EXPECT_TRUE (kiIncreaseNum + j * (kiIncreaseNum - kiDecreaseNum) == cTaskList.size()) << "after push size=" << cTaskList.size() ; for (int i = kiDecreaseNum; i > 0; i--) { cTaskList.pop_front(); } EXPECT_TRUE ((j + 1) * (kiIncreaseNum - kiDecreaseNum) == cTaskList.size()) << "after pop size=" << cTaskList.size() ; } } TEST (CWelsCircleQueue, CWelsCircleQueueOverPop) { CWelsCircleQueue<IWelsTask> cTaskList; IWelsTask* pTask = NULL; const int kiDecreaseNum = (rand() % 65535) + 1; const int kiIncreaseNum = rand() % kiDecreaseNum; EXPECT_TRUE (0 == cTaskList.size()); cTaskList.pop_front(); EXPECT_TRUE (0 == cTaskList.size()); for (int i = 0; i < kiIncreaseNum; i++) { cTaskList.push_back (pTask); } for (int i = kiDecreaseNum; i > 0; i--) { cTaskList.pop_front(); } EXPECT_TRUE (0 == cTaskList.size()); } TEST (CWelsCircleQueue, CWelsCircleQueueOnDuplication) { int32_t a, b, c; CWelsCircleQueue<int32_t> cThreadQueue; //CWelsCircleQueue<IWelsTask> cThreadQueue; int32_t* pObject1 = &a; int32_t* pObject2 = &b; int32_t* pObject3 = &c; //initial adding EXPECT_TRUE (0 == cThreadQueue.push_back (pObject1)); EXPECT_TRUE (0 == cThreadQueue.push_back (pObject2)); EXPECT_TRUE (0 == cThreadQueue.push_back (pObject3)); EXPECT_TRUE (3 == cThreadQueue.size()); //try failed adding EXPECT_FALSE (0 == cThreadQueue.push_back (pObject3)); EXPECT_TRUE (3 == cThreadQueue.size()); //try pop EXPECT_TRUE (pObject1 == cThreadQueue.begin()); cThreadQueue.pop_front(); EXPECT_TRUE (2 == cThreadQueue.size()); //try what currently in EXPECT_TRUE (cThreadQueue.find (pObject2)); EXPECT_FALSE (0 == cThreadQueue.push_back (pObject2)); EXPECT_TRUE (cThreadQueue.find (pObject3)); EXPECT_FALSE (0 == cThreadQueue.push_back (pObject3)); EXPECT_TRUE (2 == cThreadQueue.size()); //add back EXPECT_TRUE (0 == cThreadQueue.push_back (pObject1)); EXPECT_TRUE (3 == cThreadQueue.size()); //another pop EXPECT_TRUE (pObject2 == cThreadQueue.begin()); cThreadQueue.pop_front(); cThreadQueue.pop_front(); EXPECT_TRUE (1 == cThreadQueue.size()); EXPECT_FALSE (0 == cThreadQueue.push_back (pObject1)); EXPECT_TRUE (1 == cThreadQueue.size()); EXPECT_TRUE (0 == cThreadQueue.push_back (pObject3)); EXPECT_TRUE (2 == cThreadQueue.size()); //clean-up while (NULL != cThreadQueue.begin()) { cThreadQueue.pop_front(); } EXPECT_TRUE (0 == cThreadQueue.size()); } #ifndef __APPLE__ TEST (CWelsCircleQueue, CWelsCircleQueueOnThread) { CWelsCircleQueue<CWelsTaskThread> cThreadQueue; CWelsTaskThread* pTaskThread1 = new CWelsTaskThread (NULL); //this initialization seemed making prob on osx? EXPECT_TRUE (NULL != pTaskThread1); CWelsTaskThread* pTaskThread2 = new CWelsTaskThread (NULL); EXPECT_TRUE (NULL != pTaskThread2); CWelsTaskThread* pTaskThread3 = new CWelsTaskThread (NULL); EXPECT_TRUE (NULL != pTaskThread3); //initial adding EXPECT_TRUE (0 == cThreadQueue.push_back (pTaskThread1)); EXPECT_TRUE (0 == cThreadQueue.push_back (pTaskThread2)); EXPECT_TRUE (0 == cThreadQueue.push_back (pTaskThread3)); EXPECT_TRUE (3 == cThreadQueue.size()); //try failed adding EXPECT_FALSE (0 == cThreadQueue.push_back (pTaskThread3)); EXPECT_TRUE (3 == cThreadQueue.size()); //try pop EXPECT_TRUE (pTaskThread1 == cThreadQueue.begin()); cThreadQueue.pop_front(); EXPECT_TRUE (2 == cThreadQueue.size()); //try what currently in EXPECT_TRUE (cThreadQueue.find (pTaskThread2)); EXPECT_FALSE (0 == cThreadQueue.push_back (pTaskThread2)); EXPECT_TRUE (cThreadQueue.find (pTaskThread3)); EXPECT_FALSE (0 == cThreadQueue.push_back (pTaskThread3)); EXPECT_TRUE (2 == cThreadQueue.size()); //add back EXPECT_TRUE (0 == cThreadQueue.push_back (pTaskThread1)); EXPECT_TRUE (3 == cThreadQueue.size()); //another pop EXPECT_TRUE (pTaskThread2 == cThreadQueue.begin()); cThreadQueue.pop_front(); cThreadQueue.pop_front(); EXPECT_TRUE (1 == cThreadQueue.size()); EXPECT_FALSE (0 == cThreadQueue.push_back (pTaskThread1)); EXPECT_TRUE (1 == cThreadQueue.size()); EXPECT_TRUE (0 == cThreadQueue.push_back (pTaskThread3)); EXPECT_TRUE (2 == cThreadQueue.size()); //clean-up while (NULL != cThreadQueue.begin()) { cThreadQueue.pop_front(); } EXPECT_TRUE (0 == cThreadQueue.size()); delete pTaskThread1; delete pTaskThread2; delete pTaskThread3; } #endif TEST (CWelsCircleQueue, CWelsCircleQueueReadWithIdx) { CWelsCircleQueue<int32_t> cThreadQueue; const int kiIncreaseNum = (rand() % 1000) + 1; const int kiDecreaseNum = rand() % kiIncreaseNum; int32_t* pInput = static_cast<int32_t*> (malloc (kiIncreaseNum * 10 * sizeof (int32_t))); if (!pInput) { return; } for (int32_t i = 0; i < kiIncreaseNum * 10; i++) { pInput[i] = i; } for (int j = 0; j < 10; j++) { const int iBias = j * (kiIncreaseNum - kiDecreaseNum); for (int i = 0; i < kiIncreaseNum; i++) { cThreadQueue.push_back (&pInput[i + kiIncreaseNum * j]); } EXPECT_TRUE (kiIncreaseNum + iBias == cThreadQueue.size()) << "after push size=" << cThreadQueue.size() ; EXPECT_TRUE ((kiDecreaseNum * j) == * (cThreadQueue.begin())); for (int i = 0; i < kiIncreaseNum; i++) { EXPECT_TRUE ((i + kiIncreaseNum * j) == * (cThreadQueue.GetIndexNode (i + iBias))); } for (int i = 0; i < cThreadQueue.size(); i++) { EXPECT_TRUE ((i + kiDecreaseNum * j) == * (cThreadQueue.GetIndexNode (i))); } for (int i = kiDecreaseNum; i > 0; i--) { cThreadQueue.pop_front(); } EXPECT_TRUE ((j + 1) * (kiIncreaseNum - kiDecreaseNum) == cThreadQueue.size()) << "after pop size=" << cThreadQueue.size() ; EXPECT_TRUE ((kiDecreaseNum * (j + 1)) == * (cThreadQueue.begin())); } //clean-up while (NULL != cThreadQueue.begin()) { cThreadQueue.pop_front(); } EXPECT_TRUE (0 == cThreadQueue.size()); free (pInput); }