228 lines
6.8 KiB
Zig
228 lines
6.8 KiB
Zig
const debug = @import("debug.zig");
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const assert = debug.assert;
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const mem = @import("mem.zig");
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/// Generic doubly linked list.
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pub fn LinkedList(comptime T: type) -> type {
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struct {
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const Self = this;
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/// Node inside the linked list wrapping the actual data.
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pub const Node = struct {
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prev: ?&Node,
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next: ?&Node,
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data: T,
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pub fn init(data: &const T) -> Node {
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Node {
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.data = *data,
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.prev = null,
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.next = null,
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}
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}
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};
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first: ?&Node,
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last: ?&Node,
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len: usize,
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/// Initialize a linked list.
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///
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/// Returns:
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/// An empty linked list.
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pub fn init() -> Self {
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Self {
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.first = null,
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.last = null,
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.len = 0,
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}
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}
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/// Insert a new node after an existing one.
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///
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/// Arguments:
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/// node: Pointer to a node in the list.
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/// new_node: Pointer to the new node to insert.
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pub fn insertAfter(list: &Self, node: &Node, new_node: &Node) {
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new_node.prev = node;
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if (node.next) |next_node| {
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// Intermediate node.
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new_node.next = next_node;
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next_node.prev = new_node;
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} else {
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// Last element of the list.
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new_node.next = null;
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list.last = new_node;
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}
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node.next = new_node;
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list.len += 1;
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}
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/// Insert a new node before an existing one.
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///
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/// Arguments:
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/// node: Pointer to a node in the list.
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/// new_node: Pointer to the new node to insert.
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pub fn insertBefore(list: &Self, node: &Node, new_node: &Node) {
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new_node.next = node;
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if (node.prev) |prev_node| {
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// Intermediate node.
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new_node.prev = prev_node;
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prev_node.next = new_node;
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} else {
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// First element of the list.
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new_node.prev = null;
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list.first = new_node;
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}
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node.prev = new_node;
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list.len += 1;
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}
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/// Insert a new node at the end of the list.
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///
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/// Arguments:
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/// new_node: Pointer to the new node to insert.
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pub fn append(list: &Self, new_node: &Node) {
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if (list.last) |last| {
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// Insert after last.
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list.insertAfter(last, new_node);
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} else {
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// Empty list.
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list.prepend(new_node);
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}
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}
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/// Insert a new node at the beginning of the list.
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///
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/// Arguments:
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/// new_node: Pointer to the new node to insert.
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pub fn prepend(list: &Self, new_node: &Node) {
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if (list.first) |first| {
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// Insert before first.
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list.insertBefore(first, new_node);
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} else {
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// Empty list.
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list.first = new_node;
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list.last = new_node;
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new_node.prev = null;
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new_node.next = null;
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list.len = 1;
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}
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}
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/// Remove a node from the list.
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///
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/// Arguments:
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/// node: Pointer to the node to be removed.
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pub fn remove(list: &Self, node: &Node) {
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if (node.prev) |prev_node| {
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// Intermediate node.
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prev_node.next = node.next;
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} else {
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// First element of the list.
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list.first = node.next;
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}
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if (node.next) |next_node| {
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// Intermediate node.
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next_node.prev = node.prev;
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} else {
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// Last element of the list.
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list.last = node.prev;
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}
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list.len -= 1;
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}
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/// Remove and return the last node in the list.
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///
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/// Returns:
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/// A pointer to the last node in the list.
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pub fn pop(list: &Self) -> ?&Node {
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const last = list.last ?? return null;
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list.remove(last);
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return last;
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}
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/// Remove and return the first node in the list.
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///
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/// Returns:
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/// A pointer to the first node in the list.
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pub fn popFirst(list: &Self) -> ?&Node {
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const first = list.first ?? return null;
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list.remove(first);
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return first;
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}
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}
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}
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pub fn testAllocateNode(comptime T: type, list: &LinkedList(T), allocator: &mem.Allocator) -> %&LinkedList(T).Node {
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allocator.create(LinkedList(T).Node)
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}
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pub fn testDestroyNode(comptime T: type, list: &LinkedList(T), node: &LinkedList(T).Node, allocator: &mem.Allocator) {
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allocator.destroy(node);
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}
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pub fn testCreateNode(comptime T: type, list: &LinkedList(T), data: &const T, allocator: &mem.Allocator) -> %&LinkedList(T).Node {
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var node = %return testAllocateNode(T, list, allocator);
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*node = LinkedList(T).Node.init(data);
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return node;
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}
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test "basic linked list test" {
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const allocator = &debug.global_allocator;
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var list = LinkedList(u32).init();
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var one = %%testCreateNode(u32, &list, 1, allocator);
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var two = %%testCreateNode(u32, &list, 2, allocator);
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var three = %%testCreateNode(u32, &list, 3, allocator);
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var four = %%testCreateNode(u32, &list, 4, allocator);
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var five = %%testCreateNode(u32, &list, 5, allocator);
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defer {
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testDestroyNode(u32, &list, one, allocator);
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testDestroyNode(u32, &list, two, allocator);
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testDestroyNode(u32, &list, three, allocator);
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testDestroyNode(u32, &list, four, allocator);
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testDestroyNode(u32, &list, five, allocator);
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}
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list.append(two); // {2}
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list.append(five); // {2, 5}
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list.prepend(one); // {1, 2, 5}
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list.insertBefore(five, four); // {1, 2, 4, 5}
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list.insertAfter(two, three); // {1, 2, 3, 4, 5}
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// traverse forwards
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{
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var it = list.first;
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var index: u32 = 1;
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while (it) |node| : (it = node.next) {
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assert(node.data == index);
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index += 1;
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}
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}
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// traverse backwards
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{
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var it = list.last;
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var index: u32 = 1;
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while (it) |node| : (it = node.prev) {
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assert(node.data == (6 - index));
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index += 1;
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}
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}
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var first = list.popFirst(); // {2, 3, 4, 5}
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var last = list.pop(); // {2, 3, 4}
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list.remove(three); // {2, 4}
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assert ((??list.first).data == 2);
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assert ((??list.last ).data == 4);
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assert (list.len == 2);
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}
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