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update zig codes for Section 'Heap' (heap.zig)
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bf907e1715
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5e17778f69
3 changed files with 64 additions and 24 deletions
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@ -18,13 +18,13 @@ fn testPush(comptime T: type, mem_allocator: std.mem.Allocator, heap_push: anyty
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var heap = heap_push;
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try heap.add(val); //元素入堆
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std.debug.print("\n元素 {} 入堆后\n", .{val});
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try inc.PrintUtil.printHeap(T, mem_allocator, heap);
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try inc.PrintUtil.printHeap(T, mem_allocator, heap, true);
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}
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fn testPop(comptime T: type, mem_allocator: std.mem.Allocator, heap_pop: anytype) !void {
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var val = heap_pop.remove(); //堆顶元素出堆
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std.debug.print("\n堆顶元素 {} 出堆后\n", .{val});
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try inc.PrintUtil.printHeap(T, mem_allocator, heap_pop);
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try inc.PrintUtil.printHeap(T, mem_allocator, heap_pop, true);
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}
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// Driver Code
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@ -74,11 +74,10 @@ pub fn main() !void {
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// 输入列表并建堆
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// 时间复杂度为 O(n) ,而非 O(nlogn)
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try minHeap.addSlice(&[_]i32{ 1, 3, 2, 5, 4 });
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try minHeap.addSlice(&[_]i32{ 1, 3, 2, 5, 4, 8, 9 });
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std.debug.print("\n输入列表并建立小顶堆后\n", .{});
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try inc.PrintUtil.printHeap(i32, mem_allocator, minHeap);
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try inc.PrintUtil.printHeap(i32, mem_allocator, minHeap, true);
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const getchar = try std.io.getStdIn().reader().readByte();
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_ = getchar;
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}
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}
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@ -59,13 +59,16 @@ pub fn printHashMap(comptime TKey: type, comptime TValue: type, map: std.AutoHas
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}
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// print a heap (PriorityQueue)
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pub fn printHeap(comptime T: type, mem_allocator: std.mem.Allocator, queue: anytype) !void {
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pub fn printHeap(comptime T: type, mem_allocator: std.mem.Allocator, queue: anytype, queue_flag: bool) !void {
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var arr = queue.items;
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var len = queue.len;
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std.debug.print("堆的数组表示:", .{});
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printArray(T, arr[0..len]);
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std.debug.print("\n堆的树状表示:\n", .{});
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var root = try TreeUtil.arrToTree(T, mem_allocator, arr[0..len]);
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var root = if (queue_flag)
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try TreeUtil.arrQueToTree(T, mem_allocator, arr[0..len]) // through TailQueue
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else
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try TreeUtil.arrListToTree(T, mem_allocator, arr[0..len]); // through ArrayList to work as queue
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try printTree(root, null, false);
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}
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@ -23,31 +23,69 @@ pub fn TreeNode(comptime T: type) type {
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};
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}
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// Generate a binary tree with an array
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pub fn arrToTree(comptime T: type, mem_allocator: std.mem.Allocator, list: []T) !?*TreeNode(T) {
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if (list.len == 0) return null;
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// Generate a binary tree with an array (through ArrayList to work as queue)
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pub fn arrListToTree(comptime T: type, mem_allocator: std.mem.Allocator, arr: []T) !?*TreeNode(T) {
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if (arr.len == 0) return null;
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var root = try mem_allocator.create(TreeNode(T));
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root.init(list[0]);
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var que = std.ArrayList(*TreeNode(T)).init(std.heap.page_allocator);
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try que.append(root);
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root.init(arr[0]);
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var list = std.ArrayList(*TreeNode(T)).init(std.heap.page_allocator);
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try list.append(root);
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var index: usize = 0;
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while (que.items.len > 0) {
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var node = que.orderedRemove(0);
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while (list.items.len > 0) {
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var node = list.orderedRemove(0);
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index += 1;
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if (index >= list.len) break;
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if (index < list.len) {
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if (index >= arr.len) break;
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if (index < arr.len) {
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var tmp = try mem_allocator.create(TreeNode(T));
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tmp.init(list[index]);
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tmp.init(arr[index]);
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node.left = tmp;
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try que.append(node.left.?);
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try list.append(node.left.?);
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}
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index += 1;
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if (index >= list.len) break;
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if (index < list.len) {
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if (index >= arr.len) break;
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if (index < arr.len) {
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var tmp = try mem_allocator.create(TreeNode(T));
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tmp.init(list[index]);
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tmp.init(arr[index]);
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node.right = tmp;
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try que.append(node.right.?);
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try list.append(node.right.?);
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}
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}
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return root;
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}
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// Generate a binary tree with an array (through TailQueue)
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pub fn arrQueToTree(comptime T: type, mem_allocator: std.mem.Allocator, arr: []T) !?*TreeNode(T) {
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if (arr.len == 0) return null;
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var root = try mem_allocator.create(TreeNode(T));
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root.init(arr[0]);
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const L = std.TailQueue(*TreeNode(T));
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var que = L{};
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var root_node = try mem_allocator.create(L.Node);
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root_node.data = root;
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que.append(root_node);
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var index: usize = 0;
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while (que.len > 0) {
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var que_node = que.popFirst().?;
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var node = que_node.data;
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index += 1;
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if (index >= arr.len) break;
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if (index < arr.len) {
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var tmp = try mem_allocator.create(TreeNode(T));
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tmp.init(arr[index]);
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node.left = tmp;
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var tmp_node = try mem_allocator.create(L.Node);
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tmp_node.data = node.left.?;
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que.append(tmp_node);
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}
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index += 1;
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if (index >= arr.len) break;
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if (index < arr.len) {
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var tmp = try mem_allocator.create(TreeNode(T));
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tmp.init(arr[index]);
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node.right = tmp;
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var tmp_node = try mem_allocator.create(L.Node);
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tmp_node.data = node.right.?;
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que.append(tmp_node);
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}
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}
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return root;
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