Exemple #1
0
TEST_F(Directed, RotateTwo)
{
    InitQ(&q);

    test_item_t t1;
    t1.data = 0;
    AddQ(&q, &t1);

    test_item_t t2;
    t2.data = 1;
    AddQ(&q, &t2);

    repeat_n(100000, [&](size_t i){ ASSERT_EQ((i+1)%2, RotateQ(&q)->data); });
}
Exemple #2
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TEST_F(Directed, DelMovesCurrentToNext)
{
    Q RunQ;
    InitQ(&RunQ);
    list_value_type items[4];
    items[0].data = 1;
    items[1].data = 2;
    items[2].data = 3;
    items[3].data = 4;
    for(int i = 0; i < 4; ++i) AddQ(&RunQ, items + i);

    std::cout << RunQ << '\n';
    ASSERT_EQ(1, RunQ.curr->data);
    DelQ(&RunQ);
   
    std::cout << RunQ << '\n';
    ASSERT_EQ(4,  RunQ.curr->data);
    DelQ(&RunQ);

    std::cout << RunQ << '\n';
    ASSERT_EQ(3,  RunQ.curr->data);
    DelQ(&RunQ);

    std::cout << RunQ << '\n';
    ASSERT_EQ(2,  RunQ.curr->data);
    DelQ(&RunQ);
    
    std::cout << RunQ << '\n';
    ASSERT_EQ(2,  RunQ.curr->data);
    DelQ(&RunQ); //Shouldn't crash
}
Exemple #3
0
TEST_F(Directed, AddDoesntMoveCurrent)
{
    Q RunQ;
    InitQ(&RunQ);
    list_value_type items[4];
    items[0].data = 1;
    items[1].data = 2;
    items[2].data = 3;
    items[3].data = 4;
    for(int i = 0; i < 4; ++i) AddQ(&RunQ, items + i);

    auto old_current = RunQ.curr;

    AddQ(&RunQ, items+1);
    ASSERT_TRUE(old_current == RunQ.curr);
}
Exemple #4
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TEST_F(Directed, Rotate)
{
    size_t const test_size = 4;
    test_item_t data[test_size];

    for(size_t i = 0; i < test_size; ++i)
    {
        data[i].data = i;
        AddQ(&q, data + i);
    }

    std::cout << q << '\n';

    for(int i = 0; i < 2; ++i)
    {
        ASSERT_EQ(0, PeekQ(&q)->data);
        ASSERT_EQ(3, RotateQ(&q)->data);
    std::cout << q << '\n';
        ASSERT_EQ(2, RotateQ(&q)->data);
    std::cout << q << '\n';
        ASSERT_EQ(1, RotateQ(&q)->data);
    std::cout << q << '\n';
        ASSERT_EQ(0, RotateQ(&q)->data);
    std::cout << q << '\n';
    }
}
void EsPoolDeclined::SetActive(bool active)
{
#ifdef POOL_ONLINE
    if (active)
    {
        std::string opponent = ThePoolOnlineManager::Instance()->GetOpponentName();
        if (opponent.size() == 0)
        {
            opponent = "your opponent";
        }
        else
        {
            opponent[0] = toupper(opponent[0]);
        }
        m_question.clear();
        std::string s = "Sorry, " + opponent + " cannot play with you.";
        AddQ(s);

        // Hide No button
        m_pNoButton->SetVisible(false);

        m_pYesButton->SetSize(4.0f, 2.0f); // width, height
        m_pYesButton->SetRelPos(TOP + 2.0f * HSPACE, LEFT + 2.0f); // top, left

    }
#endif
    EsPoolYesNo::SetActive(active);
}
EsPoolDisconnect::EsPoolDisconnect()
{
#ifdef POOL_ONLINE
  std::string op = ThePoolOnlineManager::Instance()->GetOpponentName(); 
  Assert(!op.empty());
  op[0] = toupper(op[0]);
  std::string s = "Oh dear! ";
  s += op; 
  s += " seems to have disconnected.";
  AddQ(s);
  AddQ("Would you like to quit ?");
#endif

  m_yesFilename = "quit-yes-button.txt";
  m_noFilename = "quit-no-button.txt";
}
void LevelorderTraversal(AVLTree root){
    Queue Q;
    if(root == NULL) return;
    Q = CreatQueue(100);
    AddQ(Q,root);
    while(!IsEmpty(Q)){
        root = DeleteQ(Q);
            if(flag == 0){
                flag = 1;
            }else
                printf(" ");
            printf("%d",root->Data);
        if(root->Left != NULL) AddQ(Q,root->Left);
        if(root->Right != NULL) AddQ(Q,root->Right);
    }
}
Exemple #8
0
TEST_F(Directed, RotateOne)
{
    test_item_t t;
    t.data = 9;

    AddQ(&q, &t);
    repeat_n(100, [&](size_t i){ ASSERT_EQ(9, RotateQ(&q)->data); });
}
Exemple #9
0
void BFS(int i)
{
    G->Visited[i] = 1;
    printf("%d ", i);
    AddQ(Q, i);
    while (!IsEmptyQ(Q)) {
        int j = DeleteQ(Q);
        int k;
        for (k = 0; k < G->n; k++) {
            if (!G->Visited[k] && G->Edges[j][k]) {
                G->Visited[k] = 1;
                printf("%d ", k);
                AddQ(Q, k);
            }
        }
    }
}
Exemple #10
0
TEST_F(Directed, PutGet)
{
    int i = 8;
    test_item_t t;
    t.data = i;
    AddQ(&q, &t);
    ASSERT_EQ(8, DelQ(&q)->data);
    ASSERT_EQ(0, size_(&q));
}
Exemple #11
0
TEST_F(Directed, TwoQueues)
{
    Q RunQ;
    InitQ(&RunQ);
    //Q SemQ;
    list_value_type items[4];
    items[0].data = 1;
    items[1].data = 2;
    items[2].data = 3;
    items[3].data = 4;
    AddQ(&RunQ, items);
    AddQ(&RunQ, items+1);
    AddQ(&RunQ, items+2);
    AddQ(&RunQ, items+3);
    std::cout << RunQ << '\n';
    

}
Exemple #12
0
double QueueingAtBank( Queue Q, int N )
{   /* 模拟排队并计算平均等待时间 */
    struct People Next, Wait;
    int TotalTime, CurrentTime;
    int i = N;

    TotalTime = CurrentTime = 0;

    Wait = Enter( &i ); /* 至少可以读入一位顾客信息 */
    AddQ( Q, Wait );    /* 该顾客排队 */
    if (!i) { /* 如果只有1位顾客,则无须等待,直接返回 */
        Next = FrontQ(Q);
        printf("%s\n", Next.Name);
        return 0.0;
    }
    else Wait = Enter( &i ); /* 否则读入下一位顾客信息 */
    while ( !IsEmpty(Q) || (Wait.T >= 0) ) {
        if ( !IsEmpty(Q) ) {  /* 如果有人排队 */
            Next = FrontQ(Q); /* 下一位顾客准备接受服务 */
            printf("%s\n", Next.Name);
            if ( CurrentTime >= Next.T )  /* 如果Next有等待,累计时间 */
                TotalTime += (CurrentTime - Next.T);
            else /* 否则窗口空闲一段时间,更新当前时间到顾客Next的到达时间 */
                CurrentTime = Next.T; 
/* 更新当前时间到顾客Next处理完事务的时间 */
            CurrentTime += Next.P; 
            while ( (Wait.T >= 0) && (Wait.T <= CurrentTime) ) {
                /* 将输入中所有在顾客Next离开前到达的人入列 */
                AddQ( Q, Wait );
                Wait = Enter( &i );
            }
            DeleteQ(Q); /* 顾客Next办理完毕离开 */
        }
        else { /* 如果没人排队,读入下面2位顾客的输入信息,并令第1人入列 */
            AddQ( Q, Wait );
            Wait = Enter( &i );
        }
    }

    return ((double)TotalTime/(double)N);
}
Exemple #13
0
TEST_F(Directed, Add)
{
    repeat_n(100, [&](size_t i)
            {
            test_item_t* t = new test_item_t;
            t->data = i;
            AddQ(&q, t);
            ASSERT_EQ(i+1, size_(&q));
            });

    ASSERT_EQ(100, size_(&q));
    repeat_n(100, [&](size_t i){ DelQ(&q); });
    ASSERT_EQ(0, size_(&q));
}
Exemple #14
0
TEST_F(Model, AddDel)
{
    test_item_t data[test_size];

    repeat_n(test_size, [&](size_t i)
    {
        data[i].data = i;
        AddQ(&q, &data[i]);
    });

    for(size_t i = test_size; i > test_size; --i)
    {
        ASSERT_EQ(i, DelQ(&q)->data);
    }
}
Exemple #15
0
/**
 * 调试时参考这几个参数
 * q->rear
 * q->front
 * IsFull(q)
 * q->front%MaxSize
 * (q->rear + 1) % MaxSize
 * isEmpty(q)
 */
int main() {
    Queue *q = CreateQueue();
    AddQ(q, 1);
    DeleteQ(q);
    AddQ(q, 2);
    DeleteQ(q);
    AddQ(q, 3);
    DeleteQ(q);
    AddQ(q, 4);
    DeleteQ(q);
    AddQ(q, 5);
    DeleteQ(q);
    AddQ(q, 6);
    DeleteQ(q);
    AddQ(q, 7);
    AddQ(q, 8);
//    printf("队列%s\r\n", IsFullQ(q) ? "满" : "未满");
}
main()
{
   node *temp = NULL;
   node *head = NULL;

/*   
   AddQ(&head,11);
   AddQ(&head,13);
   
   AddQ(&head,17); 
   AddQ(&head,19);
   
   AddQ(&head,71); 
   AddQ(&head,91);
     
   printCDLL(&head);
   printf("\n");
   printCDLLReverse(&head); 
 
   printf("\n");

   RotateQ(&head);
   RotateQ(&head);
   printCDLL(&head);
   printf("\n");
   printCDLLReverse(&head); 
*/
   AddQ(&head,91);
   printCDLL(&head);   

   while(head -> right != head)
   {
   printf("%d ",DelQ(&head)->data);
   } 
   
   if( (temp = DelQ(&head)) != NULL)
   printf("%d ",temp->data);

   if( (temp = DelQ(&head)) != NULL)
   printf("%d ",temp->data);

}