// Copyright (c) Microsoft. All rights reserved. // Licensed under the MIT license. See LICENSE file in the project root for full license information. #include #include "azure_c_shared_utility/gballoc.h" #include "azure_c_shared_utility/singlylinkedlist.h" #include "azure_c_shared_utility/optimize_size.h" #include "azure_c_shared_utility/xlogging.h" typedef struct LIST_ITEM_INSTANCE_TAG { const void* item; void* next; } LIST_ITEM_INSTANCE; typedef struct SINGLYLINKEDLIST_INSTANCE_TAG { LIST_ITEM_INSTANCE* head; LIST_ITEM_INSTANCE* tail; } LIST_INSTANCE; SINGLYLINKEDLIST_HANDLE singlylinkedlist_create(void) { LIST_INSTANCE* result; /* Codes_SRS_LIST_01_001: [singlylinkedlist_create shall create a new list and return a non-NULL handle on success.] */ result = (LIST_INSTANCE*)malloc(sizeof(LIST_INSTANCE)); if (result != NULL) { /* Codes_SRS_LIST_01_002: [If any error occurs during the list creation, singlylinkedlist_create shall return NULL.] */ result->head = NULL; result->tail = NULL; } return result; } void singlylinkedlist_destroy(SINGLYLINKEDLIST_HANDLE list) { /* Codes_SRS_LIST_01_004: [If the list argument is NULL, no freeing of resources shall occur.] */ if (list != NULL) { LIST_INSTANCE* list_instance = (LIST_INSTANCE*)list; while (list_instance->head != NULL) { LIST_ITEM_INSTANCE* current_item = list_instance->head; list_instance->head = (LIST_ITEM_INSTANCE*)current_item->next; free(current_item); current_item = NULL; } /* Codes_SRS_LIST_01_003: [singlylinkedlist_destroy shall free all resources associated with the list identified by the handle argument.] */ free(list_instance); } } LIST_ITEM_HANDLE singlylinkedlist_add(SINGLYLINKEDLIST_HANDLE list, const void* item) { LIST_ITEM_INSTANCE* result; /* Codes_SRS_LIST_01_006: [If any of the arguments is NULL, singlylinkedlist_add shall not add the item to the list and return NULL.] */ if ((list == NULL) || (item == NULL)) { LogError("Invalid argument (list=%p, item=%p)", list, item); result = NULL; } else { LIST_INSTANCE* list_instance = (LIST_INSTANCE*)list; result = (LIST_ITEM_INSTANCE*)malloc(sizeof(LIST_ITEM_INSTANCE)); if (result == NULL) { /* Codes_SRS_LIST_01_007: [If allocating the new list node fails, singlylinkedlist_add shall return NULL.] */ /*return as is*/ } else { /* Codes_SRS_LIST_01_005: [singlylinkedlist_add shall add one item to the tail of the list and on success it shall return a handle to the added item.] */ result->next = NULL; result->item = item; if (list_instance->head == NULL) { list_instance->head = result; list_instance->tail = result; } else { list_instance->tail->next = result; list_instance->tail = result; } } } return result; } int singlylinkedlist_remove(SINGLYLINKEDLIST_HANDLE list, LIST_ITEM_HANDLE item) { int result; /* Codes_SRS_LIST_01_024: [If any of the arguments list or item_handle is NULL, singlylinkedlist_remove shall fail and return a non-zero value.] */ if ((list == NULL) || (item == NULL)) { LogError("Invalid argument (list=%p, item=%p)", list, item); result = MU_FAILURE; } else { LIST_INSTANCE* list_instance = (LIST_INSTANCE*)list; LIST_ITEM_INSTANCE* current_item = list_instance->head; LIST_ITEM_INSTANCE* previous_item = NULL; while (current_item != NULL) { if (current_item == item) { if (previous_item != NULL) { previous_item->next = current_item->next; } else { list_instance->head = (LIST_ITEM_INSTANCE*)current_item->next; } if (current_item == list_instance->tail) { list_instance->tail = previous_item; } free(current_item); break; } previous_item = current_item; current_item = (LIST_ITEM_INSTANCE*)current_item->next; } #ifdef _MSC_VER #pragma warning(disable:6001) // Using uninitialized memory 'current_item' #endif if (current_item == NULL) #ifdef _MSC_VER #pragma warning (default:6001) #endif { /* Codes_SRS_LIST_01_025: [If the item item_handle is not found in the list, then singlylinkedlist_remove shall fail and return a non-zero value.] */ result = MU_FAILURE; } else { /* Codes_SRS_LIST_01_023: [singlylinkedlist_remove shall remove a list item from the list and on success it shall return 0.] */ result = 0; } } return result; } LIST_ITEM_HANDLE singlylinkedlist_get_head_item(SINGLYLINKEDLIST_HANDLE list) { LIST_ITEM_HANDLE result; if (list == NULL) { /* Codes_SRS_LIST_01_009: [If the list argument is NULL, singlylinkedlist_get_head_item shall return NULL.] */ LogError("Invalid argument (list=NULL)"); result = NULL; } else { LIST_INSTANCE* list_instance = (LIST_INSTANCE*)list; /* Codes_SRS_LIST_01_008: [singlylinkedlist_get_head_item shall return the head of the list.] */ /* Codes_SRS_LIST_01_010: [If the list is empty, singlylinkedlist_get_head_item_shall_return NULL.] */ result = list_instance->head; } return result; } LIST_ITEM_HANDLE singlylinkedlist_get_next_item(LIST_ITEM_HANDLE item_handle) { LIST_ITEM_HANDLE result; if (item_handle == NULL) { LogError("Invalid argument (list is NULL)"); /* Codes_SRS_LIST_01_019: [If item_handle is NULL then singlylinkedlist_get_next_item shall return NULL.] */ result = NULL; } else { /* Codes_SRS_LIST_01_018: [singlylinkedlist_get_next_item shall return the next item in the list following the item item_handle.] */ result = (LIST_ITEM_HANDLE)((LIST_ITEM_INSTANCE*)item_handle)->next; } return result; } const void* singlylinkedlist_item_get_value(LIST_ITEM_HANDLE item_handle) { const void* result; if (item_handle == NULL) { LogError("Invalid argument (item_handle is NULL)"); /* Codes_SRS_LIST_01_021: [If item_handle is NULL, singlylinkedlist_item_get_value shall return NULL.] */ result = NULL; } else { /* Codes_SRS_LIST_01_020: [singlylinkedlist_item_get_value shall return the value associated with the list item identified by the item_handle argument.] */ result = ((LIST_ITEM_INSTANCE*)item_handle)->item; } return result; } LIST_ITEM_HANDLE singlylinkedlist_find(SINGLYLINKEDLIST_HANDLE list, LIST_MATCH_FUNCTION match_function, const void* match_context) { LIST_ITEM_HANDLE result; if ((list == NULL) || (match_function == NULL)) { LogError("Invalid argument (list=%p, match_function=%p)", list, match_function); /* Codes_SRS_LIST_01_012: [If the list or the match_function argument is NULL, singlylinkedlist_find shall return NULL.] */ result = NULL; } else { LIST_INSTANCE* list_instance = (LIST_INSTANCE*)list; LIST_ITEM_INSTANCE* current = list_instance->head; /* Codes_SRS_LIST_01_011: [singlylinkedlist_find shall iterate through all items in a list and return the first one that satisfies a certain match function.] */ while (current != NULL) { /* Codes_SRS_LIST_01_014: [list find shall determine whether an item satisfies the match criteria by invoking the match function for each item in the list until a matching item is found.] */ /* Codes_SRS_LIST_01_013: [The match_function shall get as arguments the list item being attempted to be matched and the match_context as is.] */ if (match_function((LIST_ITEM_HANDLE)current, match_context) == true) { /* Codes_SRS_LIST_01_017: [If the match function returns true, singlylinkedlist_find shall consider that item as matching.] */ break; } /* Codes_SRS_LIST_01_016: [If the match function returns false, singlylinkedlist_find shall consider that item as not matching.] */ current = (LIST_ITEM_INSTANCE*)current->next; } if (current == NULL) { /* Codes_SRS_LIST_01_015: [If the list is empty, singlylinkedlist_find shall return NULL.] */ result = NULL; } else { result = current; } } return result; } int singlylinkedlist_remove_if(SINGLYLINKEDLIST_HANDLE list, LIST_CONDITION_FUNCTION condition_function, const void* match_context) { int result; /* Codes_SRS_LIST_09_001: [ If the list or the condition_function argument is NULL, singlylinkedlist_remove_if shall return non-zero value. ] */ if ((list == NULL) || (condition_function == NULL)) { LogError("Invalid argument (list=%p, condition_function=%p)", list, condition_function); result = MU_FAILURE; } else { LIST_INSTANCE* list_instance = (LIST_INSTANCE*)list; LIST_ITEM_INSTANCE* current_item = list_instance->head; LIST_ITEM_INSTANCE* next_item = NULL; LIST_ITEM_INSTANCE* previous_item = NULL; /* Codes_SRS_LIST_09_002: [ singlylinkedlist_remove_if shall iterate through all items in a list and remove all that satisfies a certain condition function. ] */ while (current_item != NULL) { bool continue_processing = false; next_item = (LIST_ITEM_INSTANCE*)current_item->next; /* Codes_SRS_LIST_09_003: [ singlylinkedlist_remove_if shall determine whether an item satisfies the condition criteria by invoking the condition function for that item. ] */ /* Codes_SRS_LIST_09_004: [ If the condition function returns true, singlylinkedlist_find shall consider that item as to be removed. ] */ if (condition_function(current_item->item, match_context, &continue_processing) == true) { if (previous_item != NULL) { previous_item->next = next_item; } else { list_instance->head = next_item; } if (current_item == list_instance->tail) { list_instance->tail = previous_item; } free(current_item); } /* Codes_SRS_LIST_09_005: [ If the condition function returns false, singlylinkedlist_find shall consider that item as not to be removed. ] */ else { previous_item = current_item; } /* Codes_SRS_LIST_09_006: [ If the condition function returns continue_processing as false, singlylinkedlist_remove_if shall stop iterating through the list and return. ] */ if (continue_processing == false) { break; } current_item = next_item; } /* Codes_SRS_LIST_09_007: [ If no errors occur, singlylinkedlist_remove_if shall return zero. ] */ result = 0; } return result; } int singlylinkedlist_foreach(SINGLYLINKEDLIST_HANDLE list, LIST_ACTION_FUNCTION action_function, const void* action_context) { int result; /* Codes_SRS_LIST_09_008: [ If the list or the action_function argument is NULL, singlylinkedlist_foreach shall return non-zero value. ] */ if ((list == NULL) || (action_function == NULL)) { LogError("Invalid argument (list=%p, action_function=%p)", list, action_function); result = MU_FAILURE; } else { LIST_INSTANCE* list_instance = (LIST_INSTANCE*)list; LIST_ITEM_INSTANCE* list_item = list_instance->head; while (list_item != NULL) { bool continue_processing = false; /* Codes_SRS_LIST_09_009: [ singlylinkedlist_foreach shall iterate through all items in a list and invoke action_function for each one of them. ] */ action_function(list_item->item, action_context, &continue_processing); /* Codes_SRS_LIST_09_010: [ If the condition function returns continue_processing as false, singlylinkedlist_foreach shall stop iterating through the list and return. ] */ if (continue_processing == false) { break; } list_item = (LIST_ITEM_INSTANCE*)list_item->next; } /* Codes_SRS_LIST_09_011: [ If no errors occur, singlylinkedlist_foreach shall return zero. ] */ result = 0; } return result; } LIST_ITEM_HANDLE singlylinkedlist_add_head(SINGLYLINKEDLIST_HANDLE list, const void* item) { LIST_ITEM_HANDLE result; /* Codes_SRS_LIST_02_001: [ If list is NULL then singlylinkedlist_add_head shall fail and return NULL. ]*/ if (list == NULL) { LogError("Invalid argument SINGLYLINKEDLIST_HANDLE list=%p", list); result = NULL; } else { result = malloc(sizeof(LIST_ITEM_INSTANCE)); if (result == NULL) { /*Codes_SRS_LIST_02_003: [ If there are any failures then singlylinkedlist_add_head shall fail and return NULL. ]*/ LogError("failure in malloc"); /*return as is*/ } else { /*Codes_SRS_LIST_02_002: [ singlylinkedlist_add_head shall insert item at head, succeed and return a non-NULL value. ]*/ result->item = item; if (list->head == NULL) { result->next = NULL; list->head = result; list->tail = result; } else { result->next = list->head; list->head = result; } } } return result; }