/** * WinPR: Windows Portable Runtime * System.Collections.ArrayList * * 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 #include #if defined(_WIN32) && (_MSC_VER < 1800) && !defined(__MINGW32__) #define va_copy(dest, src) (dest = src) #endif struct s_wArrayList { size_t capacity; size_t growthFactor; BOOL synchronized; size_t size; void** array; CRITICAL_SECTION lock; wObject object; }; /** * C equivalent of the C# ArrayList Class: * http://msdn.microsoft.com/en-us/library/system.collections.arraylist.aspx */ /** * Properties */ /** * Gets or sets the number of elements that the ArrayList can contain. */ size_t ArrayList_Capacity(wArrayList* arrayList) { WINPR_ASSERT(arrayList); return arrayList->capacity; } /** * Gets the number of elements actually contained in the ArrayList. */ size_t ArrayList_Count(wArrayList* arrayList) { WINPR_ASSERT(arrayList); return arrayList->size; } /** * Gets the internal list of items contained in the ArrayList. */ size_t ArrayList_Items(wArrayList* arrayList, ULONG_PTR** ppItems) { WINPR_ASSERT(arrayList); *ppItems = (ULONG_PTR*)arrayList->array; return arrayList->size; } /** * Gets a value indicating whether the ArrayList has a fixed size. */ BOOL ArrayList_IsFixedSized(WINPR_ATTR_UNUSED wArrayList* arrayList) { WINPR_ASSERT(arrayList); return FALSE; } /** * Gets a value indicating whether the ArrayList is read-only. */ BOOL ArrayList_IsReadOnly(WINPR_ATTR_UNUSED wArrayList* arrayList) { WINPR_ASSERT(arrayList); return FALSE; } /** * Gets a value indicating whether access to the ArrayList is synchronized (thread safe). */ BOOL ArrayList_IsSynchronized(wArrayList* arrayList) { WINPR_ASSERT(arrayList); return arrayList->synchronized; } /** * Lock access to the ArrayList */ static void ArrayList_Lock_Conditional(wArrayList* arrayList) { WINPR_ASSERT(arrayList); if (arrayList->synchronized) EnterCriticalSection(&arrayList->lock); } void ArrayList_Lock(wArrayList* arrayList) { WINPR_ASSERT(arrayList); EnterCriticalSection(&arrayList->lock); } /** * Unlock access to the ArrayList */ static void ArrayList_Unlock_Conditional(wArrayList* arrayList) { WINPR_ASSERT(arrayList); if (arrayList->synchronized) LeaveCriticalSection(&arrayList->lock); } void ArrayList_Unlock(wArrayList* arrayList) { WINPR_ASSERT(arrayList); LeaveCriticalSection(&arrayList->lock); } /** * Gets the element at the specified index. */ void* ArrayList_GetItem(wArrayList* arrayList, size_t index) { void* obj = NULL; WINPR_ASSERT(arrayList); if (index < arrayList->size) { obj = arrayList->array[index]; } return obj; } /** * Sets the element at the specified index. */ BOOL ArrayList_SetItem(wArrayList* arrayList, size_t index, const void* obj) { WINPR_ASSERT(arrayList); if (index >= arrayList->size) return FALSE; if (arrayList->object.fnObjectNew) { arrayList->array[index] = arrayList->object.fnObjectNew(obj); if (obj && !arrayList->array[index]) return FALSE; } else { union { const void* cpv; void* pv; } cnv; cnv.cpv = obj; arrayList->array[index] = cnv.pv; } return TRUE; } /** * Methods */ static BOOL ArrayList_EnsureCapacity(wArrayList* arrayList, size_t count) { WINPR_ASSERT(arrayList); WINPR_ASSERT(count > 0); if (arrayList->size + count > arrayList->capacity) { void** newArray = NULL; size_t newCapacity = arrayList->capacity * arrayList->growthFactor; if (newCapacity < arrayList->size + count) newCapacity = arrayList->size + count; newArray = (void**)realloc((void*)arrayList->array, sizeof(void*) * newCapacity); if (!newArray) return FALSE; arrayList->array = newArray; arrayList->capacity = newCapacity; } return TRUE; } /** * Shift a section of the list. */ static BOOL ArrayList_Shift(wArrayList* arrayList, size_t index, SSIZE_T count) { WINPR_ASSERT(arrayList); if (count > 0) { if (!ArrayList_EnsureCapacity(arrayList, (size_t)count)) return FALSE; MoveMemory((void*)&arrayList->array[index + (size_t)count], (void*)&arrayList->array[index], (arrayList->size - index) * sizeof(void*)); arrayList->size += (size_t)count; } else if (count < 0) { const size_t scount = WINPR_ASSERTING_INT_CAST(size_t, -count); const size_t off = index + scount; if (off < arrayList->size) { const size_t chunk = arrayList->size - off; MoveMemory((void*)&arrayList->array[index], (void*)&arrayList->array[off], chunk * sizeof(void*)); } arrayList->size -= scount; } return TRUE; } /** * Removes all elements from the ArrayList. */ void ArrayList_Clear(wArrayList* arrayList) { WINPR_ASSERT(arrayList); ArrayList_Lock_Conditional(arrayList); for (size_t index = 0; index < arrayList->size; index++) { if (arrayList->object.fnObjectFree) arrayList->object.fnObjectFree(arrayList->array[index]); arrayList->array[index] = NULL; } arrayList->size = 0; ArrayList_Unlock_Conditional(arrayList); } /** * Determines whether an element is in the ArrayList. */ BOOL ArrayList_Contains(wArrayList* arrayList, const void* obj) { BOOL rc = FALSE; WINPR_ASSERT(arrayList); ArrayList_Lock_Conditional(arrayList); for (size_t index = 0; index < arrayList->size; index++) { rc = arrayList->object.fnObjectEquals(arrayList->array[index], obj); if (rc) break; } ArrayList_Unlock_Conditional(arrayList); return rc; } #if defined(WITH_WINPR_DEPRECATED) int ArrayList_Add(wArrayList* arrayList, const void* obj) { WINPR_ASSERT(arrayList); if (!ArrayList_Append(arrayList, obj)) return -1; return (int)ArrayList_Count(arrayList) - 1; } #endif /** * Adds an object to the end of the ArrayList. */ BOOL ArrayList_Append(wArrayList* arrayList, const void* obj) { size_t index = 0; BOOL rc = FALSE; WINPR_ASSERT(arrayList); ArrayList_Lock_Conditional(arrayList); if (!ArrayList_EnsureCapacity(arrayList, 1)) goto out; index = arrayList->size++; rc = ArrayList_SetItem(arrayList, index, obj); out: ArrayList_Unlock_Conditional(arrayList); return rc; } /* * Inserts an element into the ArrayList at the specified index. */ BOOL ArrayList_Insert(wArrayList* arrayList, size_t index, const void* obj) { BOOL ret = TRUE; WINPR_ASSERT(arrayList); ArrayList_Lock_Conditional(arrayList); if (index < arrayList->size) { if (!ArrayList_Shift(arrayList, index, 1)) { ret = FALSE; } else { ArrayList_SetItem(arrayList, index, obj); } } ArrayList_Unlock_Conditional(arrayList); return ret; } /** * Removes the first occurrence of a specific object from the ArrayList. */ BOOL ArrayList_Remove(wArrayList* arrayList, const void* obj) { BOOL found = FALSE; BOOL ret = TRUE; WINPR_ASSERT(arrayList); ArrayList_Lock_Conditional(arrayList); size_t index = 0; for (; index < arrayList->size; index++) { if (arrayList->object.fnObjectEquals(arrayList->array[index], obj)) { found = TRUE; break; } } if (found) { if (arrayList->object.fnObjectFree) arrayList->object.fnObjectFree(arrayList->array[index]); ret = ArrayList_Shift(arrayList, index, -1); } ArrayList_Unlock_Conditional(arrayList); return ret; } /** * Removes the element at the specified index of the ArrayList. */ BOOL ArrayList_RemoveAt(wArrayList* arrayList, size_t index) { BOOL ret = TRUE; WINPR_ASSERT(arrayList); ArrayList_Lock_Conditional(arrayList); if (index < arrayList->size) { if (arrayList->object.fnObjectFree) arrayList->object.fnObjectFree(arrayList->array[index]); ret = ArrayList_Shift(arrayList, index, -1); } ArrayList_Unlock_Conditional(arrayList); return ret; } /** * Searches for the specified Object and returns the zero-based index of the first occurrence within * the entire ArrayList. * * Searches for the specified Object and returns the zero-based index of the last occurrence within * the range of elements in the ArrayList that extends from the first element to the specified * index. * * Searches for the specified Object and returns the zero-based index of the last occurrence within * the range of elements in the ArrayList that contains the specified number of elements and ends at * the specified index. */ SSIZE_T ArrayList_IndexOf(wArrayList* arrayList, const void* obj, SSIZE_T startIndex, SSIZE_T count) { BOOL found = FALSE; WINPR_ASSERT(arrayList); ArrayList_Lock_Conditional(arrayList); SSIZE_T sindex = startIndex; if (startIndex < 0) sindex = 0; SSIZE_T index = sindex; SSIZE_T cindex = count; if (count < 0) { if (arrayList->size > SSIZE_MAX) goto fail; cindex = (SSIZE_T)arrayList->size; } for (; index < sindex + cindex; index++) { if (arrayList->object.fnObjectEquals(arrayList->array[index], obj)) { found = TRUE; break; } } fail: if (!found) index = -1; ArrayList_Unlock_Conditional(arrayList); return index; } /** * Searches for the specified Object and returns the zero-based index of the last occurrence within * the entire ArrayList. * * Searches for the specified Object and returns the zero-based index of the last occurrence within * the range of elements in the ArrayList that extends from the first element to the specified * index. * * Searches for the specified Object and returns the zero-based index of the last occurrence within * the range of elements in the ArrayList that contains the specified number of elements and ends at * the specified index. */ SSIZE_T ArrayList_LastIndexOf(wArrayList* arrayList, const void* obj, SSIZE_T startIndex, SSIZE_T count) { SSIZE_T sindex = 0; SSIZE_T cindex = 0; BOOL found = FALSE; WINPR_ASSERT(arrayList); ArrayList_Lock_Conditional(arrayList); sindex = startIndex; if (startIndex < 0) sindex = 0; cindex = count; if (count < 0) { WINPR_ASSERT(arrayList->size <= SSIZE_MAX); cindex = (SSIZE_T)arrayList->size; } SSIZE_T index = sindex + cindex; for (; index > sindex; index--) { if (arrayList->object.fnObjectEquals(arrayList->array[index - 1], obj)) { found = TRUE; break; } } if (!found) index = -1; ArrayList_Unlock_Conditional(arrayList); return index; } static BOOL ArrayList_DefaultCompare(const void* objA, const void* objB) { return objA == objB ? TRUE : FALSE; } wObject* ArrayList_Object(wArrayList* arrayList) { WINPR_ASSERT(arrayList); return &arrayList->object; } BOOL ArrayList_ForEach(wArrayList* arrayList, ArrayList_ForEachFkt fkt, ...) { BOOL rc = 0; va_list ap = { 0 }; va_start(ap, fkt); rc = ArrayList_ForEachAP(arrayList, fkt, ap); va_end(ap); return rc; } BOOL ArrayList_ForEachAP(wArrayList* arrayList, ArrayList_ForEachFkt fkt, va_list ap) { BOOL rc = FALSE; va_list cap; WINPR_ASSERT(arrayList); WINPR_ASSERT(fkt); ArrayList_Lock_Conditional(arrayList); size_t count = ArrayList_Count(arrayList); for (size_t index = 0; index < count; index++) { BOOL rs = 0; void* obj = ArrayList_GetItem(arrayList, index); va_copy(cap, ap); rs = fkt(obj, index, cap); va_end(cap); if (!rs) goto fail; } rc = TRUE; fail: ArrayList_Unlock_Conditional(arrayList); return rc; } /** * Construction, Destruction */ wArrayList* ArrayList_New(BOOL synchronized) { wObject* obj = NULL; wArrayList* arrayList = NULL; arrayList = (wArrayList*)calloc(1, sizeof(wArrayList)); if (!arrayList) return NULL; arrayList->synchronized = synchronized; arrayList->growthFactor = 2; obj = ArrayList_Object(arrayList); if (!obj) goto fail; obj->fnObjectEquals = ArrayList_DefaultCompare; if (!ArrayList_EnsureCapacity(arrayList, 32)) goto fail; InitializeCriticalSectionAndSpinCount(&arrayList->lock, 4000); return arrayList; fail: WINPR_PRAGMA_DIAG_PUSH WINPR_PRAGMA_DIAG_IGNORED_MISMATCHED_DEALLOC ArrayList_Free(arrayList); WINPR_PRAGMA_DIAG_POP return NULL; } void ArrayList_Free(wArrayList* arrayList) { if (!arrayList) return; ArrayList_Clear(arrayList); DeleteCriticalSection(&arrayList->lock); free((void*)arrayList->array); free(arrayList); }