package main import ( "math" "testing" "time" ) func TestMomentaryOutput(t *testing.T) { mo := momentaryOutput{} mo.trigger() mo.process() if !mo.output { t.Fatalf("output didn't trigger") } mo.process() if !mo.output { t.Fatalf("output didn't keep triggered") } time.Sleep(time.Second) mo.process() if mo.output { t.Fatalf("output didn't untrigger") } } func TestThresholdOutput(t *testing.T) { to := thresholdOutput{ threshold: 1, } to.process(0) if to.output { t.Fatalf("output shouldn't have triggered") } to.process(2) if !to.output { t.Fatalf("output should have triggered") } to.process(0) if !to.output { t.Fatalf("output should have triggered (in debounce)") } } func TestRingbufferInput(t *testing.T) { ri := ringbufferInput{ limit: 3, } if ri.saturated() { t.Fatal("ringbuffer shouldn't be saturated yet") } ri.process(1) if ri.saturated() { t.Fatal("ringbuffer shouldn't be saturated yet") } ri.process(2) if ri.saturated() { t.Fatal("ringbuffer shouldn't be saturated yet") } ri.process(3) if !ri.saturated() { t.Fatalf("ringbuffer should be saturated") } if diff := math.Abs(float64(ri.avg) - 2); diff > 0.01 { t.Fatalf("ringbuffer avg should be ~2, is %f", ri.avg) } ri.process(10) if diff := math.Abs(float64(ri.avg) - 5); diff > 0.01 { t.Fatalf("ringbuffer avg should be ~5, is %f", ri.avg) } }