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gitea/vendor/github.com/dsnet/compress/bzip2/mtf_rle2.go

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// Copyright 2015, Joe Tsai. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE.md file.
package bzip2
import "github.com/dsnet/compress/internal/errors"
// moveToFront implements both the MTF and RLE stages of bzip2 at the same time.
// Any runs of zeros in the encoded output will be replaced by a sequence of
// RUNA and RUNB symbols are encode the length of the run.
//
// The RLE encoding used can actually be encoded to and decoded from using
// normal two's complement arithmetic. The methodology for doing so is below.
//
// Assuming the following:
// num: The value being encoded by RLE encoding.
// run: A sequence of RUNA and RUNB symbols represented as a binary integer,
// where RUNA is the 0 bit, RUNB is the 1 bit, and least-significant RUN
// symbols are at the least-significant bit positions.
// cnt: The number of RUNA and RUNB symbols.
//
// Then the RLE encoding used by bzip2 has this mathematical property:
// num+1 == (1<<cnt) | run
type moveToFront struct {
dictBuf [256]uint8
dictLen int
vals []byte
syms []uint16
blkSize int
}
func (mtf *moveToFront) Init(dict []uint8, blkSize int) {
if len(dict) > len(mtf.dictBuf) {
panicf(errors.Internal, "alphabet too large")
}
copy(mtf.dictBuf[:], dict)
mtf.dictLen = len(dict)
mtf.blkSize = blkSize
}
func (mtf *moveToFront) Encode(vals []byte) (syms []uint16) {
dict := mtf.dictBuf[:mtf.dictLen]
syms = mtf.syms[:0]
if len(vals) > mtf.blkSize {
panicf(errors.Internal, "exceeded block size")
}
var lastNum uint32
for _, val := range vals {
// Normal move-to-front transform.
var idx uint8 // Reverse lookup idx in dict
for di, dv := range dict {
if dv == val {
idx = uint8(di)
break
}
}
copy(dict[1:], dict[:idx])
dict[0] = val
// Run-length encoding augmentation.
if idx == 0 {
lastNum++
continue
}
if lastNum > 0 {
for rc := lastNum + 1; rc != 1; rc >>= 1 {
syms = append(syms, uint16(rc&1))
}
lastNum = 0
}
syms = append(syms, uint16(idx)+1)
}
if lastNum > 0 {
for rc := lastNum + 1; rc != 1; rc >>= 1 {
syms = append(syms, uint16(rc&1))
}
}
mtf.syms = syms
return syms
}
func (mtf *moveToFront) Decode(syms []uint16) (vals []byte) {
dict := mtf.dictBuf[:mtf.dictLen]
vals = mtf.vals[:0]
var lastCnt uint
var lastRun uint32
for _, sym := range syms {
// Run-length encoding augmentation.
if sym < 2 {
lastRun |= uint32(sym) << lastCnt
lastCnt++
continue
}
if lastCnt > 0 {
cnt := int((1<<lastCnt)|lastRun) - 1
if len(vals)+cnt > mtf.blkSize || lastCnt > 24 {
panicf(errors.Corrupted, "run-length decoding exceeded block size")
}
for i := cnt; i > 0; i-- {
vals = append(vals, dict[0])
}
lastCnt, lastRun = 0, 0
}
// Normal move-to-front transform.
val := dict[sym-1] // Forward lookup val in dict
copy(dict[1:], dict[:sym-1])
dict[0] = val
if len(vals) >= mtf.blkSize {
panicf(errors.Corrupted, "run-length decoding exceeded block size")
}
vals = append(vals, val)
}
if lastCnt > 0 {
cnt := int((1<<lastCnt)|lastRun) - 1
if len(vals)+cnt > mtf.blkSize || lastCnt > 24 {
panicf(errors.Corrupted, "run-length decoding exceeded block size")
}
for i := cnt; i > 0; i-- {
vals = append(vals, dict[0])
}
}
mtf.vals = vals
return vals
}