package encoding import ( "fmt" "github.com/VictoriaMetrics/VictoriaMetrics/lib/logger" ) // marshalInt64NearestDelta2 encodes src using `nearest delta2` encoding // with the given precisionBits and appends the encoded value to dst. // // precisionBits must be in the range [1...64], where 1 means 50% precision, // while 64 means 100% precision, i.e. lossless encoding. func marshalInt64NearestDelta2(dst []byte, src []int64, precisionBits uint8) (result []byte, firstValue int64) { if len(src) < 2 { logger.Panicf("BUG: src must contain at least 2 items; got %d items", len(src)) } if err := CheckPrecisionBits(precisionBits); err != nil { logger.Panicf("BUG: %s", err) } firstValue = src[0] d1 := src[1] - src[0] dst = MarshalVarInt64(dst, d1) v := src[1] src = src[2:] is := GetInt64s(len(src)) if precisionBits == 64 { // Fast path. for i, next := range src { d2 := next - v - d1 d1 += d2 v += d1 is.A[i] = d2 } } else { // Slower path. trailingZeros := getTrailingZeros(v, precisionBits) for i, next := range src { d2, tzs := nearestDelta(next-v, d1, precisionBits, trailingZeros) trailingZeros = tzs d1 += d2 v += d1 is.A[i] = d2 } } dst = MarshalVarInt64s(dst, is.A) PutInt64s(is) return dst, firstValue } // unmarshalInt64NearestDelta2 decodes src using `nearest delta2` encoding, // appends the result to dst and returns the appended result. // // firstValue must be the value returned from marshalInt64NearestDelta2. func unmarshalInt64NearestDelta2(dst []int64, src []byte, firstValue int64, itemsCount int) ([]int64, error) { if itemsCount < 2 { logger.Panicf("BUG: itemsCount must be greater than 1; got %d", itemsCount) } is := GetInt64s(itemsCount - 1) defer PutInt64s(is) tail, err := UnmarshalVarInt64s(is.A, src) if err != nil { return nil, fmt.Errorf("cannot unmarshal nearest delta from %d bytes; src=%X: %w", len(src), src, err) } if len(tail) > 0 { return nil, fmt.Errorf("unexpected tail left after unmarshaling %d items from %d bytes; tail size=%d; src=%X; tail=%X", itemsCount, len(src), len(tail), src, tail) } v := firstValue d1 := is.A[0] dst = append(dst, v) v += d1 dst = append(dst, v) for _, d2 := range is.A[1:] { d1 += d2 v += d1 dst = append(dst, v) } return dst, nil }