Implement list functions

Add the list functions that will be used for memory pools.
--- a/src/packages/game/data/IZ_list.c
+++ b/src/packages/game/data/IZ_list.c
@@ -29,25 +29,68 @@ void IZ_ListTeardown(IZ_List* list) {
 /**
 * Appends a node to the end of the list.
 * @param list - The list to append to.
 * @param node_value - The value of the node to append.
 * @return Pointer to the newly created node.
 */
 IZ_ListNode** IZ_ListAppendNode(IZ_List* list, void* node_value) {
 	IZ_ListNode* new_node = SDL_malloc(sizeof(IZ_ListNode));
 	new_node->value = node_value;
 	new_node->next = NULL;
 	list->length += 1;

 	if (!(list->root)) {
 		list->root = new_node;
 		list->length += 1;
 		return &list->root;
 	}

 	IZ_ListNode *last_node = list->root;
 	IZ_ListNode* last_node = list->root;
 	while (last_node->next) {
 		last_node = last_node->next;
 	}

 	last_node->next = new_node;
 	list->length += 1;
 	return &last_node->next;
 }

 /**
 * Inserts a node at the specified index in the list.
 * @param list - The list to append to.
 * @param node_value - The value of the node to insert.
 * @param index - The index to insert the node at.
 * @return Pointer to the newly created node.
 */
 IZ_ListNode** IZ_ListInsertNodeAtIndex(IZ_List* list, void* node_value, u64 index) {
 	if (index > list->length) {
 		// we don't want to go out of bounds
 		return NULL;
 	}

 	IZ_ListNode* new_node = SDL_malloc(sizeof(IZ_ListNode));
 	new_node->value = node_value;
 	new_node->next = NULL;

 	if (!(list->root)) {
 		list->root = new_node;
 		list->length += 1;
 		return &list->root;
 	}

 	if (index == 0) {
 		new_node->next = list->root;
 		list->root = new_node;
 		list->length += 1;
 		return &list->root;
 	}

 	IZ_ListNode* last_node = list->root;
 	for (u64 i = 0; i < index - 1; i += 1) {
 		last_node = last_node->next;
 	}

 	new_node->next = last_node->next;
 	last_node->next = new_node;
 	list->length += 1;
 	return &last_node->next;
 }

@@ -107,13 +150,50 @@ IZ_ListNode** IZ_ListFindFirstNode(IZ_List* list, IZ_ListFindPredicate filter) {
 	list->iterator = &list->root;
 	u64 index = 0;
 	do {
 		if (!filter(list->iterator, index, list)) {
 			list->iterator = &((*list->iterator)->next);
 			index += 1;
 			continue;
 		if (filter(list->iterator, index, list)) {
 			return list->iterator;
 		}
 		return list->iterator;
 		list->iterator = &((*list->iterator)->next);
 		index += 1;
 	} while (*list->iterator);

 	return NULL;
 }

 void IZ_ListFilter(IZ_List* original_list, IZ_ListFindPredicate filter, IZ_List* out_filtered_list) {
 	// we assume the new list is already initialized
 	IZ_ListNode* node = original_list->root;
 	u64 index;
 	for (index = 0; node; index += 1) {
 		if (!filter(&node, index, original_list)) {
 			node = node->next;
 			continue;
 		}
 		IZ_ListAppendNode(out_filtered_list, node->value);
 		node = node->next;
 	}
 }

 void IZ_ListSort(IZ_List* original_list, IZ_ListSortComparatorPredicate sort, IZ_List* out_sorted_list) {
 	// we assume the new list is already initialized
 	IZ_ListNode* original_node = original_list->root;
 	u64 original_index;

 	for (original_index = 0; original_node; original_index += 1) {
 		if (!out_sorted_list->root) {
 			IZ_ListAppendNode(out_sorted_list, original_node->value);
 			original_node = original_node->next;
 			continue;
 		}

 		IZ_ListNode* sorted_node = out_sorted_list->root;
 		for (u64 sorted_index = 0; sorted_node; sorted_index += 1) {
 			if (sort(&original_node, &sorted_node, original_index, original_list) < 0) {
 				IZ_ListInsertNodeAtIndex(out_sorted_list, original_node->value, sorted_index);
 				original_node = original_node->next;
 				break;
 			}
 			sorted_node = sorted_node->next;
 		}
 	}
 }
--- a/src/packages/game/data/IZ_list.h
+++ b/src/packages/game/data/IZ_list.h
@@ -34,10 +34,22 @@ typedef struct {
 	 * The iterator for traversing the list.
 	 */
 	IZ_ListNode** iterator;
 	/**
 	 * The custom data for use in matching for the find predicate.
 	 */
 	void* find_predicate_userdata;
 } IZ_List;

 /**
 * Predicate for finding a node in a list.
 */
 typedef bool IZ_ListFindPredicate(IZ_ListNode**, u64, IZ_List*);

 /**
 * Comparator callback for sorting a list. Returns a positive value if a > b, a negative value if a < b, and 0 if a == b.
 */
 typedef i64 IZ_ListSortComparatorPredicate(IZ_ListNode**, IZ_ListNode**, u64, IZ_List*);

 /**
 * Initializes a list.
 */
@@ -54,6 +66,12 @@ void IZ_ListTeardown(IZ_List*);
 */
 IZ_ListNode** IZ_ListAppendNode(IZ_List*, void*);

 /**
 * Inserts a node at the specified index in the list.
 * @return Pointer to the newly created node.
 */
 IZ_ListNode** IZ_ListInsertNodeAtIndex(IZ_List*, void*, u64);

 /**
 * Deletes the first node in the list that matches the filter.
 */
@@ -65,4 +83,14 @@ void IZ_ListDeleteFirstNode(IZ_List*, IZ_ListFindPredicate);
 */
 IZ_ListNode** IZ_ListFindFirstNode(IZ_List*, IZ_ListFindPredicate);

 /**
 * Creates a new list that contains the nodes that match the filter.
 */
 void IZ_ListFilter(IZ_List*, IZ_ListFindPredicate, IZ_List* out1);

 /**
 * Creates a new list that contains the sorted nodes from the original list.
 */
 void IZ_ListSort(IZ_List*, IZ_ListSortComparatorPredicate, IZ_List* out1);

 #endif
--- a/src/packages/game/data/data.test.c
+++ b/src/packages/game/data/data.test.c
@@ -117,31 +117,60 @@ spec("data") {
 			}
 		}

 		describe("FindFirstNode") {
 		describe("InsertNodeAtIndex") {
 			static IZ_List list;
 			static u64 value1 = 69420u;
 			static u64 value2 = 42069u;
 			static IZ_List list2;

 			before_each() {
 				IZ_ListInitialize(&list);
 				IZ_ListAppendNode(&list, &value1);
 				IZ_ListAppendNode(&list, &value2);
 			}

 			before_each() {
 				IZ_ListInitialize(&list2);
 				static u64 existing_value = 69420u;
 				static IZ_ListNode existing_node = {
 					.value = &existing_value,
 					.next = NULL,
 				};
 				list2.root = &existing_node;
 				list2.length = 1;
 			}

 			after_each() {
 				mock_reset(SDL_malloc);
 			}

 			after_each() {
 				IZ_ListTeardown(&list);
 			}

 			it("retrieves first node satisfying the filter condition") {
 				static IZ_ListNode** node;
 				node = IZ_ListFindFirstNode(&list, NodeExists);
 				check(*((u64*) (*node)->value) == 42069u, "Existing node not found.");
 			after_each() {
 				IZ_ListTeardown(&list2);
 			}

 			it("returns NULL when all nodes do not satisfy the filter condition") {
 				static IZ_ListNode** node;
 				node = IZ_ListFindFirstNode(&list, NodeDoesNotExist);
 				check(node == NULL, "Non-existing node found.");
 			it("inserts new node to empty list and sets it as root") {
 				static u64 value = 69420u;
 				IZ_ListInsertNodeAtIndex(&list, &value, 0);

 				check(*((u64*) list.root->value) == 69420u, "Node not properly appended.");
 				check(
 					mock_is_called(SDL_malloc),
 					"Allocator function not called."
 				);
 				check(list.length == 1, "Length mismatch.");
 			}

 			it("inserts new node to non-empty list") {
 				static u64 value1 = 42069u;

 				IZ_ListInsertNodeAtIndex(&list2, &value1, 0);

 				check(*((u64*) list2.root->value) == 42069u, "Node not properly appended.");
 				check(
 					mock_is_called(SDL_malloc),
 					"Allocator function not called."
 				);
 				check(list2.length == 2, "Length mismatch.");
 			}
 		}

@@ -184,5 +213,75 @@ spec("data") {
 				check(list.length == 2, "Length mismatch.");
 			}
 		}

 		describe("FindFirstNode") {
 			static IZ_List list;
 			static u64 value1 = 69420u;
 			static u64 value2 = 42069u;

 			before_each() {
 				IZ_ListInitialize(&list);
 				IZ_ListAppendNode(&list, &value1);
 				IZ_ListAppendNode(&list, &value2);
 			}

 			after_each() {
 				IZ_ListTeardown(&list);
 			}

 			it("retrieves first node satisfying the filter condition") {
 				static IZ_ListNode** node;
 				node = IZ_ListFindFirstNode(&list, NodeExists);
 				check(*((u64*) (*node)->value) == 42069u, "Existing node not found.");
 			}

 			it("returns NULL when all nodes do not satisfy the filter condition") {
 				static IZ_ListNode** node;
 				node = IZ_ListFindFirstNode(&list, NodeDoesNotExist);
 				check(node == NULL, "Non-existing node found.");
 			}
 		}

 		describe("Filter") {
 			static IZ_List original_list;
 			static IZ_List filtered_list;

 			before_each() {
 				IZ_ListInitialize(&original_list);
 				IZ_ListInitialize(&filtered_list);
 				static u64 value1 = 69420u;
 				static u64 value2 = 42069u;
 				static u64 value3 = 69069u;
 				IZ_ListAppendNode(&original_list, &value1);
 				IZ_ListAppendNode(&original_list, &value2);
 				IZ_ListAppendNode(&original_list, &value3);
 			}

 			it("ensures nodes that satisfy find predicate are present") {
 				IZ_ListFilter(&original_list, NodeExists, &filtered_list);

 				check(
 					IZ_ListFindFirstNode(&filtered_list, NodeExists),
 					"Node supposed to be present in list is absent."
 				);

 				check(filtered_list.length == 1, "Length mismatch.");
 			}

 			it("ensures nodes that do not satisfy find predicate are absent") {
 				IZ_ListFilter(&original_list, NodeDoesNotExist, &filtered_list);

 				check(
 					IZ_ListFindFirstNode(&filtered_list, NodeDoesNotExist),
 					"Node supposed to be absent in list is present."
 				);

 				check(filtered_list.length == 0, "Length mismatch.");
 			}
 		}

 		describe("Sort") {

 		}
 	}
 }
--- a/src/packages/game/memory/IZ_pool.c
+++ b/src/packages/game/memory/IZ_pool.c
@@ -9,6 +9,12 @@ void IZ_PoolInitialize(IZ_Pool* pool, size_t size) {
 	pool->max_size = size;
 }

 bool IZ_PoolFindItemsWithLowerPrecedence(IZ_ListNode** node, u64 index, IZ_List* list) {
 	IZ_PoolItem* item = (IZ_PoolItem*)(*node)->value;
 	IZ_PoolAllocationArgs* args = (IZ_PoolAllocationArgs*) list->find_predicate_userdata;
 	return item->args.priority < args->priority;
 }

 IZ_PoolItem* IZ_PoolAllocate(IZ_Pool* pool, IZ_PoolAllocationArgs args) {
 	// 1. check next free allocation for size
 	// 2. if 1. returns non-null,
@@ -21,7 +27,14 @@ IZ_PoolItem* IZ_PoolAllocate(IZ_Pool* pool, IZ_PoolAllocationArgs args) {
 //		}
 //	}

 	if (pool->max_size < args.size) {
 		// couldn't allocate anything bigger than the pool
 		return NULL;
 	}

 	if (pool->max_size - pool->allocated_memory < args.size) {
 		pool->items.find_predicate_userdata = &args;
 		IZ_ListDeleteFirstNode(&pool->items, IZ_PoolFindItemsWithLowerPrecedence);
 		// TODO deallocate memory based from priority
 	}

--- a/src/packages/game/memory/memory.test.c
+++ b/src/packages/game/memory/memory.test.c
@@ -144,6 +144,8 @@ spec("memory") {

 				// FIXME here onwards

 				printf("\np1: %p, p2: %p, p3: %p\n", p1, p2, p3);

 				check(
 					p3 == p2 + sizeof(u8),
 					"Free memory not properly utilized."