mirror of
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684b7a999f
* Dump: Use mholt/archive/v3 to support tar including many compressions Signed-off-by: Philipp Homann <homann.philipp@googlemail.com> * Dump: Allow dump output to stdout Signed-off-by: Philipp Homann <homann.philipp@googlemail.com> * Dump: Fixed bug present since #6677 where SessionConfig.Provider is never "file" Signed-off-by: Philipp Homann <homann.philipp@googlemail.com> * Dump: never pack RepoRootPath, LFS.ContentPath and LogRootPath when they are below AppDataPath Signed-off-by: Philipp Homann <homann.philipp@googlemail.com> * Dump: also dump LFS (fixes #10058) Signed-off-by: Philipp Homann <homann.philipp@googlemail.com> * Dump: never dump CustomPath if CustomPath is a subdir of or equal to AppDataPath (fixes #10365) Signed-off-by: Philipp Homann <homann.philipp@googlemail.com> * Use log.Info instead of fmt.Fprintf Signed-off-by: Philipp Homann <homann.philipp@googlemail.com> * import ordering * make fmt Co-authored-by: zeripath <art27@cantab.net> Co-authored-by: techknowlogick <techknowlogick@gitea.io> Co-authored-by: Matti R <matti@mdranta.net>
374 lines
9.2 KiB
Go
Vendored
374 lines
9.2 KiB
Go
Vendored
package fse
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import (
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"errors"
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"fmt"
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)
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const (
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tablelogAbsoluteMax = 15
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)
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// Decompress a block of data.
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// You can provide a scratch buffer to avoid allocations.
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// If nil is provided a temporary one will be allocated.
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// It is possible, but by no way guaranteed that corrupt data will
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// return an error.
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// It is up to the caller to verify integrity of the returned data.
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// Use a predefined Scrach to set maximum acceptable output size.
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func Decompress(b []byte, s *Scratch) ([]byte, error) {
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s, err := s.prepare(b)
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if err != nil {
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return nil, err
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}
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s.Out = s.Out[:0]
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err = s.readNCount()
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if err != nil {
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return nil, err
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}
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err = s.buildDtable()
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if err != nil {
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return nil, err
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}
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err = s.decompress()
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if err != nil {
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return nil, err
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}
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return s.Out, nil
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}
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// readNCount will read the symbol distribution so decoding tables can be constructed.
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func (s *Scratch) readNCount() error {
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var (
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charnum uint16
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previous0 bool
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b = &s.br
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)
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iend := b.remain()
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if iend < 4 {
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return errors.New("input too small")
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}
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bitStream := b.Uint32()
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nbBits := uint((bitStream & 0xF) + minTablelog) // extract tableLog
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if nbBits > tablelogAbsoluteMax {
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return errors.New("tableLog too large")
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}
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bitStream >>= 4
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bitCount := uint(4)
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s.actualTableLog = uint8(nbBits)
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remaining := int32((1 << nbBits) + 1)
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threshold := int32(1 << nbBits)
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gotTotal := int32(0)
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nbBits++
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for remaining > 1 {
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if previous0 {
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n0 := charnum
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for (bitStream & 0xFFFF) == 0xFFFF {
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n0 += 24
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if b.off < iend-5 {
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b.advance(2)
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bitStream = b.Uint32() >> bitCount
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} else {
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bitStream >>= 16
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bitCount += 16
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}
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}
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for (bitStream & 3) == 3 {
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n0 += 3
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bitStream >>= 2
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bitCount += 2
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}
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n0 += uint16(bitStream & 3)
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bitCount += 2
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if n0 > maxSymbolValue {
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return errors.New("maxSymbolValue too small")
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}
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for charnum < n0 {
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s.norm[charnum&0xff] = 0
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charnum++
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}
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if b.off <= iend-7 || b.off+int(bitCount>>3) <= iend-4 {
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b.advance(bitCount >> 3)
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bitCount &= 7
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bitStream = b.Uint32() >> bitCount
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} else {
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bitStream >>= 2
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}
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}
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max := (2*(threshold) - 1) - (remaining)
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var count int32
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if (int32(bitStream) & (threshold - 1)) < max {
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count = int32(bitStream) & (threshold - 1)
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bitCount += nbBits - 1
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} else {
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count = int32(bitStream) & (2*threshold - 1)
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if count >= threshold {
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count -= max
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}
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bitCount += nbBits
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}
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count-- // extra accuracy
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if count < 0 {
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// -1 means +1
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remaining += count
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gotTotal -= count
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} else {
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remaining -= count
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gotTotal += count
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}
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s.norm[charnum&0xff] = int16(count)
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charnum++
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previous0 = count == 0
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for remaining < threshold {
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nbBits--
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threshold >>= 1
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}
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if b.off <= iend-7 || b.off+int(bitCount>>3) <= iend-4 {
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b.advance(bitCount >> 3)
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bitCount &= 7
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} else {
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bitCount -= (uint)(8 * (len(b.b) - 4 - b.off))
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b.off = len(b.b) - 4
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}
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bitStream = b.Uint32() >> (bitCount & 31)
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}
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s.symbolLen = charnum
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if s.symbolLen <= 1 {
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return fmt.Errorf("symbolLen (%d) too small", s.symbolLen)
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}
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if s.symbolLen > maxSymbolValue+1 {
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return fmt.Errorf("symbolLen (%d) too big", s.symbolLen)
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}
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if remaining != 1 {
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return fmt.Errorf("corruption detected (remaining %d != 1)", remaining)
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}
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if bitCount > 32 {
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return fmt.Errorf("corruption detected (bitCount %d > 32)", bitCount)
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}
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if gotTotal != 1<<s.actualTableLog {
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return fmt.Errorf("corruption detected (total %d != %d)", gotTotal, 1<<s.actualTableLog)
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}
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b.advance((bitCount + 7) >> 3)
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return nil
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}
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// decSymbol contains information about a state entry,
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// Including the state offset base, the output symbol and
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// the number of bits to read for the low part of the destination state.
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type decSymbol struct {
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newState uint16
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symbol uint8
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nbBits uint8
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}
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// allocDtable will allocate decoding tables if they are not big enough.
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func (s *Scratch) allocDtable() {
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tableSize := 1 << s.actualTableLog
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if cap(s.decTable) < int(tableSize) {
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s.decTable = make([]decSymbol, tableSize)
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}
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s.decTable = s.decTable[:tableSize]
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if cap(s.ct.tableSymbol) < 256 {
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s.ct.tableSymbol = make([]byte, 256)
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}
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s.ct.tableSymbol = s.ct.tableSymbol[:256]
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if cap(s.ct.stateTable) < 256 {
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s.ct.stateTable = make([]uint16, 256)
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}
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s.ct.stateTable = s.ct.stateTable[:256]
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}
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// buildDtable will build the decoding table.
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func (s *Scratch) buildDtable() error {
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tableSize := uint32(1 << s.actualTableLog)
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highThreshold := tableSize - 1
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s.allocDtable()
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symbolNext := s.ct.stateTable[:256]
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// Init, lay down lowprob symbols
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s.zeroBits = false
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{
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largeLimit := int16(1 << (s.actualTableLog - 1))
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for i, v := range s.norm[:s.symbolLen] {
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if v == -1 {
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s.decTable[highThreshold].symbol = uint8(i)
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highThreshold--
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symbolNext[i] = 1
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} else {
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if v >= largeLimit {
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s.zeroBits = true
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}
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symbolNext[i] = uint16(v)
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}
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}
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}
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// Spread symbols
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{
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tableMask := tableSize - 1
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step := tableStep(tableSize)
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position := uint32(0)
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for ss, v := range s.norm[:s.symbolLen] {
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for i := 0; i < int(v); i++ {
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s.decTable[position].symbol = uint8(ss)
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position = (position + step) & tableMask
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for position > highThreshold {
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// lowprob area
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position = (position + step) & tableMask
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}
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}
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}
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if position != 0 {
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// position must reach all cells once, otherwise normalizedCounter is incorrect
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return errors.New("corrupted input (position != 0)")
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}
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}
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// Build Decoding table
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{
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tableSize := uint16(1 << s.actualTableLog)
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for u, v := range s.decTable {
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symbol := v.symbol
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nextState := symbolNext[symbol]
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symbolNext[symbol] = nextState + 1
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nBits := s.actualTableLog - byte(highBits(uint32(nextState)))
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s.decTable[u].nbBits = nBits
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newState := (nextState << nBits) - tableSize
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if newState >= tableSize {
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return fmt.Errorf("newState (%d) outside table size (%d)", newState, tableSize)
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}
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if newState == uint16(u) && nBits == 0 {
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// Seems weird that this is possible with nbits > 0.
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return fmt.Errorf("newState (%d) == oldState (%d) and no bits", newState, u)
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}
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s.decTable[u].newState = newState
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}
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}
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return nil
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}
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// decompress will decompress the bitstream.
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// If the buffer is over-read an error is returned.
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func (s *Scratch) decompress() error {
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br := &s.bits
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br.init(s.br.unread())
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var s1, s2 decoder
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// Initialize and decode first state and symbol.
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s1.init(br, s.decTable, s.actualTableLog)
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s2.init(br, s.decTable, s.actualTableLog)
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// Use temp table to avoid bound checks/append penalty.
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var tmp = s.ct.tableSymbol[:256]
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var off uint8
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// Main part
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if !s.zeroBits {
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for br.off >= 8 {
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br.fillFast()
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tmp[off+0] = s1.nextFast()
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tmp[off+1] = s2.nextFast()
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br.fillFast()
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tmp[off+2] = s1.nextFast()
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tmp[off+3] = s2.nextFast()
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off += 4
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// When off is 0, we have overflowed and should write.
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if off == 0 {
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s.Out = append(s.Out, tmp...)
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if len(s.Out) >= s.DecompressLimit {
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return fmt.Errorf("output size (%d) > DecompressLimit (%d)", len(s.Out), s.DecompressLimit)
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}
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}
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}
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} else {
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for br.off >= 8 {
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br.fillFast()
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tmp[off+0] = s1.next()
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tmp[off+1] = s2.next()
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br.fillFast()
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tmp[off+2] = s1.next()
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tmp[off+3] = s2.next()
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off += 4
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if off == 0 {
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s.Out = append(s.Out, tmp...)
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// When off is 0, we have overflowed and should write.
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if len(s.Out) >= s.DecompressLimit {
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return fmt.Errorf("output size (%d) > DecompressLimit (%d)", len(s.Out), s.DecompressLimit)
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}
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}
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}
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}
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s.Out = append(s.Out, tmp[:off]...)
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// Final bits, a bit more expensive check
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for {
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if s1.finished() {
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s.Out = append(s.Out, s1.final(), s2.final())
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break
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}
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br.fill()
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s.Out = append(s.Out, s1.next())
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if s2.finished() {
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s.Out = append(s.Out, s2.final(), s1.final())
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break
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}
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s.Out = append(s.Out, s2.next())
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if len(s.Out) >= s.DecompressLimit {
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return fmt.Errorf("output size (%d) > DecompressLimit (%d)", len(s.Out), s.DecompressLimit)
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}
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}
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return br.close()
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}
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// decoder keeps track of the current state and updates it from the bitstream.
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type decoder struct {
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state uint16
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br *bitReader
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dt []decSymbol
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}
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// init will initialize the decoder and read the first state from the stream.
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func (d *decoder) init(in *bitReader, dt []decSymbol, tableLog uint8) {
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d.dt = dt
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d.br = in
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d.state = uint16(in.getBits(tableLog))
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}
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// next returns the next symbol and sets the next state.
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// At least tablelog bits must be available in the bit reader.
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func (d *decoder) next() uint8 {
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n := &d.dt[d.state]
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lowBits := d.br.getBits(n.nbBits)
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d.state = n.newState + lowBits
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return n.symbol
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}
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// finished returns true if all bits have been read from the bitstream
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// and the next state would require reading bits from the input.
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func (d *decoder) finished() bool {
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return d.br.finished() && d.dt[d.state].nbBits > 0
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}
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// final returns the current state symbol without decoding the next.
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func (d *decoder) final() uint8 {
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return d.dt[d.state].symbol
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}
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// nextFast returns the next symbol and sets the next state.
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// This can only be used if no symbols are 0 bits.
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// At least tablelog bits must be available in the bit reader.
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func (d *decoder) nextFast() uint8 {
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n := d.dt[d.state]
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lowBits := d.br.getBitsFast(n.nbBits)
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d.state = n.newState + lowBits
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return n.symbol
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}
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