zig/test/cases/coroutines.zig

159 lines
3.4 KiB
Zig

const std = @import("std");
const assert = std.debug.assert;
var x: i32 = 1;
test "create a coroutine and cancel it" {
const p = try async<std.debug.global_allocator> simpleAsyncFn();
cancel p;
assert(x == 2);
}
async fn simpleAsyncFn() void {
x += 1;
suspend;
x += 1;
}
test "coroutine suspend, resume, cancel" {
seq('a');
const p = try async<std.debug.global_allocator> testAsyncSeq();
seq('c');
resume p;
seq('f');
cancel p;
seq('g');
assert(std.mem.eql(u8, points, "abcdefg"));
}
async fn testAsyncSeq() void {
defer seq('e');
seq('b');
suspend;
seq('d');
}
var points = []u8{0} ** "abcdefg".len;
var index: usize = 0;
fn seq(c: u8) void {
points[index] = c;
index += 1;
}
test "coroutine suspend with block" {
const p = try async<std.debug.global_allocator> testSuspendBlock();
std.debug.assert(!result);
resume a_promise;
std.debug.assert(result);
cancel p;
}
var a_promise: promise = undefined;
var result = false;
async fn testSuspendBlock() void {
suspend |p| {
a_promise = p;
}
result = true;
}
var await_a_promise: promise = undefined;
var await_final_result: i32 = 0;
test "coroutine await" {
await_seq('a');
const p = async<std.debug.global_allocator> await_amain() catch unreachable;
await_seq('f');
resume await_a_promise;
await_seq('i');
assert(await_final_result == 1234);
assert(std.mem.eql(u8, await_points, "abcdefghi"));
}
async fn await_amain() void {
await_seq('b');
const p = async await_another() catch unreachable;
await_seq('e');
await_final_result = await p;
await_seq('h');
}
async fn await_another() i32 {
await_seq('c');
suspend |p| {
await_seq('d');
await_a_promise = p;
}
await_seq('g');
return 1234;
}
var await_points = []u8{0} ** "abcdefghi".len;
var await_seq_index: usize = 0;
fn await_seq(c: u8) void {
await_points[await_seq_index] = c;
await_seq_index += 1;
}
var early_final_result: i32 = 0;
test "coroutine await early return" {
early_seq('a');
const p = async<std.debug.global_allocator> early_amain() catch unreachable;
early_seq('f');
assert(early_final_result == 1234);
assert(std.mem.eql(u8, early_points, "abcdef"));
}
async fn early_amain() void {
early_seq('b');
const p = async early_another() catch unreachable;
early_seq('d');
early_final_result = await p;
early_seq('e');
}
async fn early_another() i32 {
early_seq('c');
return 1234;
}
var early_points = []u8{0} ** "abcdef".len;
var early_seq_index: usize = 0;
fn early_seq(c: u8) void {
early_points[early_seq_index] = c;
early_seq_index += 1;
}
test "coro allocation failure" {
var failing_allocator = std.debug.FailingAllocator.init(std.debug.global_allocator, 0);
if (async<&failing_allocator.allocator> asyncFuncThatNeverGetsRun()) {
@panic("expected allocation failure");
} else |err| switch (err) {
error.OutOfMemory => {},
}
}
async fn asyncFuncThatNeverGetsRun() void {
@panic("coro frame allocation should fail");
}
test "async function with dot syntax" {
const S = struct {
var y: i32 = 1;
async fn foo() void {
y += 1;
suspend;
}
};
const p = try async<std.debug.global_allocator> S.foo();
cancel p;
assert(S.y == 2);
}