package encoding import ( "fmt" "math/rand" "reflect" "testing" ) func TestMarshalInt64NearestDelta(t *testing.T) { testMarshalInt64NearestDelta(t, []int64{0}, 4, 0, "") testMarshalInt64NearestDelta(t, []int64{0, 0}, 4, 0, "00") testMarshalInt64NearestDelta(t, []int64{1, -3}, 4, 1, "07") testMarshalInt64NearestDelta(t, []int64{255, 255}, 4, 255, "00") testMarshalInt64NearestDelta(t, []int64{0, 1, 2, 3, 4, 5}, 4, 0, "0202020202") testMarshalInt64NearestDelta(t, []int64{5, 4, 3, 2, 1, 0}, 1, 5, "0003000301") testMarshalInt64NearestDelta(t, []int64{5, 4, 3, 2, 1, 0}, 2, 5, "0003010101") testMarshalInt64NearestDelta(t, []int64{5, 4, 3, 2, 1, 0}, 3, 5, "0101010101") testMarshalInt64NearestDelta(t, []int64{5, 4, 3, 2, 1, 0}, 4, 5, "0101010101") testMarshalInt64NearestDelta(t, []int64{-5e2, -6e2, -7e2, -8e2, -8.9e2}, 1, -5e2, "00000000") testMarshalInt64NearestDelta(t, []int64{-5e2, -6e2, -7e2, -8e2, -8.9e2}, 2, -5e2, "0000ff0300") testMarshalInt64NearestDelta(t, []int64{-5e2, -6e2, -7e2, -8e2, -8.9e2}, 3, -5e2, "00ff01ff01ff01") testMarshalInt64NearestDelta(t, []int64{-5e2, -6e2, -7e2, -8e2, -8.9e2}, 4, -5e2, "7fff017fff01") testMarshalInt64NearestDelta(t, []int64{-5e2, -6e2, -7e2, -8e2, -8.9e2}, 5, -5e2, "bf01bf01bf01bf01") testMarshalInt64NearestDelta(t, []int64{-5e2, -6e2, -7e2, -8e2, -8.9e2}, 6, -5e2, "bf01bf01bf01bf01") testMarshalInt64NearestDelta(t, []int64{-5e2, -6e2, -7e2, -8e2, -8.9e2}, 7, -5e2, "bf01cf01bf01af01") testMarshalInt64NearestDelta(t, []int64{-5e2, -6e2, -7e2, -8e2, -8.9e2}, 8, -5e2, "c701c701c701af01") } func testMarshalInt64NearestDelta(t *testing.T, va []int64, precisionBits uint8, firstValueExpected int64, bExpected string) { t.Helper() b, firstValue := marshalInt64NearestDelta(nil, va, precisionBits) if firstValue != firstValueExpected { t.Fatalf("unexpected firstValue for va=%d, precisionBits=%d; got %d; want %d", va, precisionBits, firstValue, firstValueExpected) } if fmt.Sprintf("%x", b) != bExpected { t.Fatalf("invalid marshaled data for va=%d, precisionBits=%d; got\n%x; expecting\n%s", va, precisionBits, b, bExpected) } prefix := []byte("foobar") b, firstValue = marshalInt64NearestDelta(prefix, va, precisionBits) if firstValue != firstValueExpected { t.Fatalf("unexpected firstValue for va=%d, precisionBits=%d; got %d; want %d", va, precisionBits, firstValue, firstValueExpected) } if string(b[:len(prefix)]) != string(prefix) { t.Fatalf("invalid prefix for va=%d, precisionBits=%d; got\n%x; expecting\n%x", va, precisionBits, b[:len(prefix)], prefix) } if fmt.Sprintf("%x", b[len(prefix):]) != bExpected { t.Fatalf("invalid marshaled prefixed data for va=%d, precisionBits=%d; got\n%x; expecting\n%s", va, precisionBits, b[len(prefix):], bExpected) } } func TestMarshalUnmarshalInt64NearestDelta(t *testing.T) { testMarshalUnmarshalInt64NearestDelta(t, []int64{0}, 4) testMarshalUnmarshalInt64NearestDelta(t, []int64{0, 0}, 4) testMarshalUnmarshalInt64NearestDelta(t, []int64{1, -3}, 4) testMarshalUnmarshalInt64NearestDelta(t, []int64{255, 255}, 4) testMarshalUnmarshalInt64NearestDelta(t, []int64{0, 1, 2, 3, 4, 5}, 4) testMarshalUnmarshalInt64NearestDelta(t, []int64{5, 4, 3, 2, 1, 0}, 4) testMarshalUnmarshalInt64NearestDelta(t, []int64{-5e12, -6e12, -7e12, -8e12, -8.9e12}, 1) testMarshalUnmarshalInt64NearestDelta(t, []int64{-5e12, -6e12, -7e12, -8e12, -8.9e12}, 2) testMarshalUnmarshalInt64NearestDelta(t, []int64{-5e12, -6e12, -7e12, -8e12, -8.9e12}, 3) testMarshalUnmarshalInt64NearestDelta(t, []int64{-5e12, -5.6e12, -7e12, -8e12, -8.9e12}, 4) // Verify constant encoding. va := []int64{} for i := 0; i < 1024; i++ { va = append(va, 9876543210123) } testMarshalUnmarshalInt64NearestDelta(t, va, 4) testMarshalUnmarshalInt64NearestDelta(t, va, 63) // Verify encoding for monotonically incremented va. v := int64(-35) va = []int64{} for i := 0; i < 1024; i++ { v += 8 va = append(va, v) } testMarshalUnmarshalInt64NearestDelta(t, va, 4) testMarshalUnmarshalInt64NearestDelta(t, va, 63) // Verify encoding for monotonically decremented va. v = 793 va = []int64{} for i := 0; i < 1024; i++ { v -= 16 va = append(va, v) } testMarshalUnmarshalInt64NearestDelta(t, va, 4) testMarshalUnmarshalInt64NearestDelta(t, va, 63) // Verify encoding for quadratically incremented va. v = -1234567 va = []int64{} for i := 0; i < 1024; i++ { v += 32 + int64(i) va = append(va, v) } testMarshalUnmarshalInt64NearestDelta(t, va, 4) // Verify encoding for decremented va with norm-float noise. v = 787933 va = []int64{} for i := 0; i < 1024; i++ { v -= 25 + int64(rand.NormFloat64()*2) va = append(va, v) } testMarshalUnmarshalInt64NearestDelta(t, va, 4) // Verify encoding for incremented va with random noise. v = 943854 va = []int64{} for i := 0; i < 1024; i++ { v += 30 + rand.Int63n(5) va = append(va, v) } testMarshalUnmarshalInt64NearestDelta(t, va, 4) // Verify encoding for constant va with norm-float noise. v = -12345 va = []int64{} for i := 0; i < 1024; i++ { v += int64(rand.NormFloat64() * 10) va = append(va, v) } testMarshalUnmarshalInt64NearestDelta(t, va, 4) // Verify encoding for constant va with random noise. v = -12345 va = []int64{} for i := 0; i < 1024; i++ { v += rand.Int63n(15) - 1 va = append(va, v) } testMarshalUnmarshalInt64NearestDelta(t, va, 4) } func testMarshalUnmarshalInt64NearestDelta(t *testing.T, va []int64, precisionBits uint8) { t.Helper() b, firstValue := marshalInt64NearestDelta(nil, va, precisionBits) vaNew, err := unmarshalInt64NearestDelta(nil, b, firstValue, len(va)) if err != nil { t.Fatalf("cannot unmarshal data for va=%d, precisionBits=%d from b=%x: %s", va, precisionBits, b, err) } if err = checkPrecisionBits(vaNew, va, precisionBits); err != nil { t.Fatalf("too small precisionBits for va=%d, precisionBits=%d: %s, vaNew=\n%d", va, precisionBits, err, vaNew) } vaPrefix := []int64{1, 2, 3, 4} vaNew, err = unmarshalInt64NearestDelta(vaPrefix, b, firstValue, len(va)) if err != nil { t.Fatalf("cannot unmarshal prefixed data for va=%d, precisionBits=%d from b=%x: %s", va, precisionBits, b, err) } if !reflect.DeepEqual(vaNew[:len(vaPrefix)], vaPrefix) { t.Fatalf("unexpected prefix for va=%d, precisionBits=%d: got\n%d; expecting\n%d", va, precisionBits, vaNew[:len(vaPrefix)], vaPrefix) } if err = checkPrecisionBits(vaNew[len(vaPrefix):], va, precisionBits); err != nil { t.Fatalf("too small precisionBits for prefixed va=%d, precisionBits=%d: %s, vaNew=\n%d", va, precisionBits, err, vaNew[len(vaPrefix):]) } }