package traffic import ( "testing" ) func TestLimitGenerator_In(t *testing.T) { g := newLimitGenerator(100, 0) lim := g.In() if lim == nil { t.Fatal("In() should not be nil for positive in") } if lim.Limit() != 100 { t.Fatalf("expected limit 100, got %d", lim.Limit()) } // Each In() call creates a new instance. lim2 := g.In() if lim2 == lim { t.Fatal("each In() call should create a new instance") } } func TestLimitGenerator_In_Zero(t *testing.T) { g := newLimitGenerator(0, 200) if lim := g.In(); lim != nil { t.Fatal("In() should be nil for zero in") } } func TestLimitGenerator_Out(t *testing.T) { g := newLimitGenerator(0, 200) lim := g.Out() if lim == nil { t.Fatal("Out() should not be nil for positive out") } if lim.Limit() != 200 { t.Fatalf("expected limit 200, got %d", lim.Limit()) } // Each Out() call creates a new instance. lim2 := g.Out() if lim2 == lim { t.Fatal("each Out() call should create a new instance") } } func TestLimitGenerator_Out_Zero(t *testing.T) { g := newLimitGenerator(100, 0) if lim := g.Out(); lim != nil { t.Fatal("Out() should be nil for zero out") } } func TestLimitGenerator_NilReceiver(t *testing.T) { var g *limitGenerator if lim := g.In(); lim != nil { t.Fatal("nil receiver In() should return nil") } if lim := g.Out(); lim != nil { t.Fatal("nil receiver Out() should return nil") } }