/usr/share/gocode/src/github.com/influxdata/influxdb/tsdb/engine/tsm1/float.go is in golang-github-influxdb-influxdb-dev 1.0.2+dfsg1-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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/*
This code is originally from: https://github.com/dgryski/go-tsz and has been modified to remove
the timestamp compression fuctionality.
It implements the float compression as presented in: http://www.vldb.org/pvldb/vol8/p1816-teller.pdf.
This implementation uses a sentinel value of NaN which means that float64 NaN cannot be stored using
this version.
*/
import (
"bytes"
"fmt"
"math"
"github.com/dgryski/go-bits"
"github.com/dgryski/go-bitstream"
)
const (
// floatUncompressed is an uncompressed format using 8 bytes per value.
// Not yet implemented.
floatUncompressed = 0
// floatCompressedGorilla is a compressed format using the gorilla paper encoding
floatCompressedGorilla = 1
)
// uvnan is the constant returned from math.NaN().
const uvnan = 0x7FF8000000000001
// FloatEncoder encodes multiple float64s into a byte slice
type FloatEncoder struct {
val float64
err error
leading uint64
trailing uint64
buf bytes.Buffer
bw *bitstream.BitWriter
first bool
finished bool
}
func NewFloatEncoder() *FloatEncoder {
s := FloatEncoder{
first: true,
leading: ^uint64(0),
}
s.bw = bitstream.NewWriter(&s.buf)
return &s
}
func (s *FloatEncoder) Bytes() ([]byte, error) {
return append([]byte{floatCompressedGorilla << 4}, s.buf.Bytes()...), s.err
}
func (s *FloatEncoder) Finish() {
if !s.finished {
// write an end-of-stream record
s.finished = true
s.Push(math.NaN())
s.bw.Flush(bitstream.Zero)
}
}
func (s *FloatEncoder) Push(v float64) {
// Only allow NaN as a sentinel value
if math.IsNaN(v) && !s.finished {
s.err = fmt.Errorf("unsupported value: NaN")
return
}
if s.first {
// first point
s.val = v
s.first = false
s.bw.WriteBits(math.Float64bits(v), 64)
return
}
vDelta := math.Float64bits(v) ^ math.Float64bits(s.val)
if vDelta == 0 {
s.bw.WriteBit(bitstream.Zero)
} else {
s.bw.WriteBit(bitstream.One)
leading := bits.Clz(vDelta)
trailing := bits.Ctz(vDelta)
// Clamp number of leading zeros to avoid overflow when encoding
leading &= 0x1F
if leading >= 32 {
leading = 31
}
// TODO(dgryski): check if it's 'cheaper' to reset the leading/trailing bits instead
if s.leading != ^uint64(0) && leading >= s.leading && trailing >= s.trailing {
s.bw.WriteBit(bitstream.Zero)
s.bw.WriteBits(vDelta>>s.trailing, 64-int(s.leading)-int(s.trailing))
} else {
s.leading, s.trailing = leading, trailing
s.bw.WriteBit(bitstream.One)
s.bw.WriteBits(leading, 5)
// Note that if leading == trailing == 0, then sigbits == 64. But that
// value doesn't actually fit into the 6 bits we have.
// Luckily, we never need to encode 0 significant bits, since that would
// put us in the other case (vdelta == 0). So instead we write out a 0 and
// adjust it back to 64 on unpacking.
sigbits := 64 - leading - trailing
s.bw.WriteBits(sigbits, 6)
s.bw.WriteBits(vDelta>>trailing, int(sigbits))
}
}
s.val = v
}
// FloatDecoder decodes a byte slice into multipe float64 values
type FloatDecoder struct {
val uint64
leading uint64
trailing uint64
br BitReader
b []byte
first bool
finished bool
err error
}
// SetBytes initializes the decoder with b. Must call before calling Next().
func (it *FloatDecoder) SetBytes(b []byte) error {
var v uint64
if len(b) == 0 {
v = uvnan
} else {
// first byte is the compression type.
// we currently just have gorilla compression.
it.br.Reset(b[1:])
var err error
v, err = it.br.ReadBits(64)
if err != nil {
return err
}
}
// Reset all fields.
it.val = v
it.leading = 0
it.trailing = 0
it.b = b
it.first = true
it.finished = false
it.err = nil
return nil
}
func (it *FloatDecoder) Next() bool {
if it.err != nil || it.finished {
return false
}
if it.first {
it.first = false
// mark as finished if there were no values.
if it.val == uvnan { // IsNaN
it.finished = true
return false
}
return true
}
// read compressed value
var bit bool
if it.br.CanReadBitFast() {
bit = it.br.ReadBitFast()
} else if v, err := it.br.ReadBit(); err != nil {
it.err = err
return false
} else {
bit = v
}
if !bit {
// it.val = it.val
} else {
var bit bool
if it.br.CanReadBitFast() {
bit = it.br.ReadBitFast()
} else if v, err := it.br.ReadBit(); err != nil {
it.err = err
return false
} else {
bit = v
}
if !bit {
// reuse leading/trailing zero bits
// it.leading, it.trailing = it.leading, it.trailing
} else {
bits, err := it.br.ReadBits(5)
if err != nil {
it.err = err
return false
}
it.leading = bits
bits, err = it.br.ReadBits(6)
if err != nil {
it.err = err
return false
}
mbits := bits
// 0 significant bits here means we overflowed and we actually need 64; see comment in encoder
if mbits == 0 {
mbits = 64
}
it.trailing = 64 - it.leading - mbits
}
mbits := uint(64 - it.leading - it.trailing)
bits, err := it.br.ReadBits(mbits)
if err != nil {
it.err = err
return false
}
vbits := it.val
vbits ^= (bits << it.trailing)
if vbits == uvnan { // IsNaN
it.finished = true
return false
}
it.val = vbits
}
return true
}
func (it *FloatDecoder) Values() float64 {
return math.Float64frombits(it.val)
}
func (it *FloatDecoder) Error() error {
return it.err
}
|