/** * WinPR: Windows Portable Runtime * System.Collections.Queue * * Copyright 2012 Marc-Andre Moreau * * 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. */ #include #include #include #include struct s_wQueue { size_t capacity; size_t growthFactor; BOOL synchronized; BYTE padding[4]; size_t head; size_t tail; size_t size; void** array; CRITICAL_SECTION lock; HANDLE event; wObject object; BOOL haveLock; BYTE padding2[4]; }; /** * C equivalent of the C# Queue Class: * http://msdn.microsoft.com/en-us/library/system.collections.queue.aspx */ /** * Properties */ /** * Gets the number of elements contained in the Queue. */ size_t Queue_Count(wQueue* queue) { size_t ret = 0; Queue_Lock(queue); ret = queue->size; Queue_Unlock(queue); return ret; } /** * Lock access to the ArrayList */ void Queue_Lock(wQueue* queue) { WINPR_ASSERT(queue); if (queue->synchronized) EnterCriticalSection(&queue->lock); } /** * Unlock access to the ArrayList */ void Queue_Unlock(wQueue* queue) { WINPR_ASSERT(queue); if (queue->synchronized) LeaveCriticalSection(&queue->lock); } /** * Gets an event which is set when the queue is non-empty */ HANDLE Queue_Event(wQueue* queue) { WINPR_ASSERT(queue); return queue->event; } wObject* Queue_Object(wQueue* queue) { WINPR_ASSERT(queue); return &queue->object; } /** * Methods */ /** * Removes all objects from the Queue. */ void Queue_Clear(wQueue* queue) { Queue_Lock(queue); for (size_t index = queue->head; index != queue->tail; index = (index + 1) % queue->capacity) { if (queue->object.fnObjectFree) queue->object.fnObjectFree(queue->array[index]); queue->array[index] = NULL; } queue->size = 0; queue->head = queue->tail = 0; (void)ResetEvent(queue->event); Queue_Unlock(queue); } /** * Determines whether an element is in the Queue. */ BOOL Queue_Contains(wQueue* queue, const void* obj) { BOOL found = FALSE; Queue_Lock(queue); for (size_t index = 0; index < queue->tail; index++) { if (queue->object.fnObjectEquals(queue->array[index], obj)) { found = TRUE; break; } } Queue_Unlock(queue); return found; } static BOOL Queue_EnsureCapacity(wQueue* queue, size_t count) { WINPR_ASSERT(queue); if (queue->size + count >= queue->capacity) { const size_t old_capacity = queue->capacity; size_t new_capacity = queue->capacity * queue->growthFactor; void** newArray = NULL; if (new_capacity < queue->size + count) new_capacity = queue->size + count; newArray = (void**)realloc((void*)queue->array, sizeof(void*) * new_capacity); if (!newArray) return FALSE; queue->capacity = new_capacity; queue->array = newArray; ZeroMemory((void*)&(queue->array[old_capacity]), (new_capacity - old_capacity) * sizeof(void*)); /* rearrange wrapped entries */ if (queue->tail <= queue->head) { CopyMemory((void*)&(queue->array[old_capacity]), (void*)queue->array, queue->tail * sizeof(void*)); queue->tail += old_capacity; } } return TRUE; } /** * Adds an object to the end of the Queue. */ BOOL Queue_Enqueue(wQueue* queue, const void* obj) { BOOL ret = TRUE; Queue_Lock(queue); if (!Queue_EnsureCapacity(queue, 1)) goto out; if (queue->object.fnObjectNew) queue->array[queue->tail] = queue->object.fnObjectNew(obj); else { union { const void* cv; void* v; } cnv; cnv.cv = obj; queue->array[queue->tail] = cnv.v; } queue->tail = (queue->tail + 1) % queue->capacity; const BOOL signalSet = queue->size == 0; queue->size++; if (signalSet) (void)SetEvent(queue->event); out: Queue_Unlock(queue); return ret; } /** * Removes and returns the object at the beginning of the Queue. */ void* Queue_Dequeue(wQueue* queue) { void* obj = NULL; Queue_Lock(queue); if (queue->size > 0) { obj = queue->array[queue->head]; queue->array[queue->head] = NULL; queue->head = (queue->head + 1) % queue->capacity; queue->size--; } if (queue->size < 1) (void)ResetEvent(queue->event); Queue_Unlock(queue); return obj; } /** * Returns the object at the beginning of the Queue without removing it. */ void* Queue_Peek(wQueue* queue) { void* obj = NULL; Queue_Lock(queue); if (queue->size > 0) obj = queue->array[queue->head]; Queue_Unlock(queue); return obj; } void Queue_Discard(wQueue* queue) { void* obj = NULL; Queue_Lock(queue); obj = Queue_Dequeue(queue); if (queue->object.fnObjectFree) queue->object.fnObjectFree(obj); Queue_Unlock(queue); } static BOOL default_queue_equals(const void* obj1, const void* obj2) { return (obj1 == obj2); } /** * Construction, Destruction */ wQueue* Queue_New(BOOL synchronized, SSIZE_T capacity, SSIZE_T growthFactor) { wObject* obj = NULL; wQueue* queue = NULL; queue = (wQueue*)calloc(1, sizeof(wQueue)); if (!queue) return NULL; queue->synchronized = synchronized; queue->growthFactor = 2; if (growthFactor > 0) queue->growthFactor = (size_t)growthFactor; if (capacity <= 0) capacity = 32; if (!InitializeCriticalSectionAndSpinCount(&queue->lock, 4000)) goto fail; queue->haveLock = TRUE; if (!Queue_EnsureCapacity(queue, (size_t)capacity)) goto fail; queue->event = CreateEvent(NULL, TRUE, FALSE, NULL); if (!queue->event) goto fail; obj = Queue_Object(queue); obj->fnObjectEquals = default_queue_equals; return queue; fail: WINPR_PRAGMA_DIAG_PUSH WINPR_PRAGMA_DIAG_IGNORED_MISMATCHED_DEALLOC Queue_Free(queue); WINPR_PRAGMA_DIAG_POP return NULL; } void Queue_Free(wQueue* queue) { if (!queue) return; if (queue->haveLock) { Queue_Clear(queue); DeleteCriticalSection(&queue->lock); } (void)CloseHandle(queue->event); free((void*)queue->array); free(queue); }