package mathutil import ( "testing" ) func TestIntegerSquareRoot(t *testing.T) { tt := []struct { number uint64 root uint64 }{ { number: 20, root: 4, }, { number: 200, root: 14, }, { number: 1987, root: 44, }, { number: 34989843, root: 5915, }, { number: 97282, root: 311, }, } for _, testVals := range tt { root := IntegerSquareRoot(testVals.number) if testVals.root != root { t.Fatalf("expected root and computed root are not equal %d, %d", testVals.root, root) } } } func TestCeilDiv8(t *testing.T) { tests := []struct { number int div8 int }{ { number: 20, div8: 3, }, { number: 200, div8: 25, }, { number: 1987, div8: 249, }, { number: 1, div8: 1, }, { number: 97282, div8: 12161, }, } for _, tt := range tests { div8 := CeilDiv8(tt.number) if tt.div8 != div8 { t.Fatalf("Div8 was not an expected value. Wanted: %d, got: %d", tt.div8, div8) } } } func TestIsPowerOf2(t *testing.T) { tests := []struct { a uint64 b bool }{ { a: 2, b: true, }, { a: 64, b: true, }, { a: 100, b: false, }, { a: 1024, b: true, }, { a: 0, b: false, }, } for _, tt := range tests { if tt.b != IsPowerOf2(tt.a) { t.Fatalf("IsPowerOf2(%d) = %v, wanted: %v", tt.a, IsPowerOf2(tt.a), tt.b) } } } func TestPowerOf2(t *testing.T) { tests := []struct { a uint64 b uint64 }{ { a: 3, b: 8, }, { a: 20, b: 1048576, }, { a: 11, b: 2048, }, { a: 8, b: 256, }, } for _, tt := range tests { if tt.b != PowerOf2(tt.a) { t.Fatalf("PowerOf2(%d) = %d, wanted: %d", tt.a, PowerOf2(tt.a), tt.b) } } } func TestClosestPowerOf2(t *testing.T) { tests := []struct { a uint64 b uint64 }{ { a: 10, b: 8, }, { a: 300, b: 256, }, { a: 1200, b: 1024, }, { a: 4500, b: 4096, }, } for _, tt := range tests { if tt.b != ClosestPowerOf2(tt.a) { t.Fatalf("ClosestPowerOf2(%d) = %d, wanted: %d", tt.a, ClosestPowerOf2(tt.a), tt.b) } } } func TestMaxValue(t *testing.T) { tests := []struct { a uint64 b uint64 result uint64 }{ { a: 10, b: 8, result: 10, }, { a: 300, b: 256, result: 300, }, { a: 1200, b: 1024, result: 1200, }, { a: 4500, b: 4096, result: 4500, }, { a: 9999, b: 9999, result: 9999, }, } for _, tt := range tests { if tt.result != Max(tt.a, tt.b) { t.Fatalf("Max(%d) = %d, wanted: %d", tt.a, Max(tt.a, tt.b), tt.result) } } } func TestMinValue(t *testing.T) { tests := []struct { a uint64 b uint64 result uint64 }{ { a: 10, b: 8, result: 8, }, { a: 300, b: 256, result: 256, }, { a: 1200, b: 1024, result: 1024, }, { a: 4500, b: 4096, result: 4096, }, { a: 9999, b: 9999, result: 9999, }, } for _, tt := range tests { if tt.result != Min(tt.a, tt.b) { t.Fatalf("Min(%d) = %d, wanted: %d", tt.a, Min(tt.a, tt.b), tt.result) } } }