v/vlib/sync/channel_select_2_test.v

77 lines
1.4 KiB
V

import sync
fn do_rec_i64(ch chan i64) {
mut sum := i64(0)
for _ in 0 .. 300 {
mut a := i64(0)
(&sync.Channel(ch)).pop(&a)
sum += a
}
assert sum == 300 * (300 - 1) / 2
}
fn do_send_int(ch chan int) {
for i in 0 .. 300 {
(&sync.Channel(ch)).push(&i)
}
}
fn do_send_byte(ch chan byte) {
for i in 0 .. 300 {
ii := byte(i)
(&sync.Channel(ch)).push(&ii)
}
}
fn do_send_i64(mut ch sync.Channel) {
for i in 0 .. 300 {
ii := i64(i)
ch.push(&ii)
}
}
fn test_select() {
chi := chan int{}
mut chl := sync.new_channel<i64>(1)
chb := chan byte{cap: 10}
recch := chan i64{cap: 0}
go do_rec_i64(recch)
go do_send_int(chi)
go do_send_byte(chb)
go do_send_i64(mut chl)
mut channels := [&sync.Channel(chi), &sync.Channel(recch), chl, &sync.Channel(chb)]
directions := [sync.Direction.pop, .push, .pop, .pop]
mut sum := i64(0)
mut rl := i64(0)
mut ri := int(0)
mut rb := byte(0)
mut sl := i64(0)
mut objs := [voidptr(&ri), &sl, &rl, &rb]
for _ in 0 .. 1200 {
idx := sync.channel_select(mut channels, directions, mut objs, -1)
match idx {
0 {
sum += ri
}
1 {
sl++
}
2 {
sum += rl
}
3 {
sum += rb
}
else {
println('got $idx (timeout)')
}
}
}
// Use Gauß' formula for the first 2 contributions
expected_sum := 2 * (300 * (300 - 1) / 2) +
// the 3rd contribution is `byte` and must be seen modulo 256
256 * (256 - 1) / 2 +
44 * (44 - 1) / 2
assert sum == expected_sum
}