/* vim: tabstop=4 shiftwidth=4 noexpandtab * This file is part of ToaruOS and is released under the terms * of the NCSA / University of Illinois License - see LICENSE.md * Copyright (C) 2011-2014 Kevin Lange * * General-purpose list implementations. */ #include #include void list_destroy(list_t * list) { /* Free all of the contents of a list */ node_t * n = list->head; while (n) { free(n->value); n = n->next; } } void list_free(list_t * list) { /* Free the actual structure of a list */ node_t * n = list->head; while (n) { node_t * s = n->next; free(n); n = s; } } void list_append(list_t * list, node_t * node) { assert(!(node->next || node->prev) && "Node is already in a list."); node->next = NULL; /* Insert a node onto the end of a list */ node->owner = list; if (!list->length) { list->head = node; list->tail = node; node->prev = NULL; node->next = NULL; list->length++; return; } list->tail->next = node; node->prev = list->tail; list->tail = node; list->length++; } node_t * list_insert(list_t * list, void * item) { /* Insert an item into a list */ node_t * node = malloc(sizeof(node_t)); node->value = item; node->next = NULL; node->prev = NULL; node->owner = NULL; list_append(list, node); return node; } void list_append_after(list_t * list, node_t * before, node_t * node) { assert(!(node->next || node->prev) && "Node is already in a list."); node->owner = list; if (!list->length) { list_append(list, node); return; } if (before == NULL) { node->next = list->head; node->prev = NULL; list->head->prev = node; list->head = node; list->length++; return; } if (before == list->tail) { list->tail = node; } else { before->next->prev = node; node->next = before->next; } node->prev = before; before->next = node; list->length++; } node_t * list_insert_after(list_t * list, node_t * before, void * item) { node_t * node = malloc(sizeof(node_t)); node->value = item; node->next = NULL; node->prev = NULL; node->owner = NULL; list_append_after(list, before, node); return node; } void list_append_before(list_t * list, node_t * after, node_t * node) { assert(!(node->next || node->prev) && "Node is already in a list."); node->owner = list; if (!list->length) { list_append(list, node); return; } if (after == NULL) { node->next = NULL; node->prev = list->tail; list->tail->next = node; list->tail = node; list->length++; return; } if (after == list->head) { list->head = node; } else { after->prev->next = node; node->prev = after->prev; } node->next = after; after->prev = node; list->length++; } node_t * list_insert_before(list_t * list, node_t * after, void * item) { node_t * node = malloc(sizeof(node_t)); node->value = item; node->next = NULL; node->prev = NULL; node->owner = NULL; list_append_before(list, after, node); return node; } list_t * list_create(void) { /* Create a fresh list */ list_t * out = malloc(sizeof(list_t)); out->head = NULL; out->tail = NULL; out->length = 0; return out; } node_t * list_find(list_t * list, void * value) { foreach(item, list) { if (item->value == value) { return item; } } return NULL; } int list_index_of(list_t * list, void * value) { int i = 0; foreach(item, list) { if (item->value == value) { return i; } i++; } return -1; /* not find */ } void list_remove(list_t * list, size_t index) { /* remove index from the list */ if (index > list->length) return; size_t i = 0; node_t * n = list->head; while (i < index) { n = n->next; i++; } list_delete(list, n); } void list_delete(list_t * list, node_t * node) { /* remove node from the list */ assert(node->owner == list && "Tried to remove a list node from a list it does not belong to."); if (node == list->head) { list->head = node->next; } if (node == list->tail) { list->tail = node->prev; } if (node->prev) { node->prev->next = node->next; } if (node->next) { node->next->prev = node->prev; } node->prev = NULL; node->next = NULL; node->owner = NULL; list->length--; } node_t * list_pop(list_t * list) { /* Remove and return the last value in the list * If you don't need it, you still probably want to free it! * Try free(list_pop(list)); ! * */ if (!list->tail) return NULL; node_t * out = list->tail; list_delete(list, out); return out; } node_t * list_dequeue(list_t * list) { if (!list->head) return NULL; node_t * out = list->head; list_delete(list, out); return out; } list_t * list_copy(list_t * original) { /* Create a new copy of original */ list_t * out = list_create(); node_t * node = original->head; while (node) { list_insert(out, node->value); } return out; } void list_merge(list_t * target, list_t * source) { /* Destructively merges source into target */ foreach(node, source) { node->owner = target; } if (source->head) { source->head->prev = target->tail; } if (target->tail) { target->tail->next = source->head; } else { target->head = source->head; } if (source->tail) { target->tail = source->tail; } target->length += source->length; free(source); }