const std = @import("std.zig"); const StringHashMap = std.StringHashMap; const mem = @import("mem.zig"); const Allocator = mem.Allocator; const testing = std.testing; pub const BufSet = struct { hash_map: BufSetHashMap, const BufSetHashMap = StringHashMap(void); pub fn init(a: *Allocator) BufSet { var self = BufSet{ .hash_map = BufSetHashMap.init(a) }; return self; } pub fn deinit(self: *const BufSet) void { var it = self.hash_map.iterator(); while (true) { const entry = it.next() orelse break; self.free(entry.key); } self.hash_map.deinit(); } pub fn put(self: *BufSet, key: []const u8) !void { if (self.hash_map.get(key) == null) { const key_copy = try self.copy(key); errdefer self.free(key_copy); _ = try self.hash_map.put(key_copy, {}); } } pub fn exists(self: BufSet, key: []const u8) bool { return self.hash_map.get(key) != null; } pub fn delete(self: *BufSet, key: []const u8) void { const entry = self.hash_map.remove(key) orelse return; self.free(entry.key); } pub fn count(self: *const BufSet) usize { return self.hash_map.count(); } pub fn iterator(self: *const BufSet) BufSetHashMap.Iterator { return self.hash_map.iterator(); } pub fn allocator(self: *const BufSet) *Allocator { return self.hash_map.allocator; } fn free(self: *const BufSet, value: []const u8) void { self.hash_map.allocator.free(value); } fn copy(self: *const BufSet, value: []const u8) ![]const u8 { const result = try self.hash_map.allocator.alloc(u8, value.len); mem.copy(u8, result, value); return result; } }; test "BufSet" { var bufset = BufSet.init(std.testing.allocator); defer bufset.deinit(); try bufset.put("x"); testing.expect(bufset.count() == 1); bufset.delete("x"); testing.expect(bufset.count() == 0); try bufset.put("x"); try bufset.put("y"); try bufset.put("z"); }