const std = @import("std"); const assert = std.debug.assert; const atomic = std.atomic; const Futex = std.Thread.Futex; pub fn Queue( comptime T: type, comptime size: usize, ) type { return struct { buf: [size]T = undefined, read_index: usize = 0, write_index: usize = 0, mutex: std.Thread.Mutex = .{}, // blocks when the buffer is full or empty futex: atomic.Value(u32) = atomic.Value(u32).init(0), const Self = @This(); pub fn pop(self: *Self) T { self.mutex.lock(); defer self.mutex.unlock(); if (self.isEmpty()) { // If we don't have any items, we unlock and wait self.mutex.unlock(); Futex.wait(&self.futex, 0); // regain our lock self.mutex.lock(); } if (self.isFull()) { // If we are full, wake up the push defer Futex.wake(&self.futex, 1); } const i = self.read_index; self.read_index += 1; self.read_index = self.read_index % self.buf.len; return self.buf[i]; } pub fn push(self: *Self, item: T) void { self.mutex.lock(); defer self.mutex.unlock(); if (self.isFull()) { self.mutex.unlock(); Futex.wait(&self.futex, 0); self.mutex.lock(); } if (self.isEmpty()) { defer Futex.wake(&self.futex, 1); } const i = self.write_index; self.write_index += 1; self.write_index = self.write_index % self.buf.len; self.buf[i] = item; } /// Returns `true` if the ring buffer is empty and `false` otherwise. pub fn isEmpty(self: Self) bool { return self.write_index == self.read_index; } /// Returns `true` if the ring buffer is full and `false` otherwise. pub fn isFull(self: Self) bool { return self.mask2(self.write_index + self.buf.len) == self.read_index; } /// Returns the length pub fn len(self: Self) usize { const wrap_offset = 2 * self.buf.len * @intFromBool(self.write_index < self.read_index); const adjusted_write_index = self.write_index + wrap_offset; return adjusted_write_index - self.read_index; } /// Returns `index` modulo the length of the backing slice. pub fn mask(self: Self, index: usize) usize { return index % self.buf.len; } /// Returns `index` modulo twice the length of the backing slice. pub fn mask2(self: Self, index: usize) usize { return index % (2 * self.buf.len); } }; } test "Queue: simple push / pop" { var queue: Queue(u8, 16) = .{}; queue.push(1); const pop = queue.pop(); try std.testing.expectEqual(1, pop); }