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804 lines
18 KiB
C
804 lines
18 KiB
C
/* Lzma2Enc.c -- LZMA2 Encoder
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2021-02-09 : Igor Pavlov : Public domain */
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#include "Precomp.h"
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#include <string.h>
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/* #define _7ZIP_ST */
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#include "Lzma2Enc.h"
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#ifndef _7ZIP_ST
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#include "MtCoder.h"
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#else
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#define MTCODER__THREADS_MAX 1
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#endif
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#define LZMA2_CONTROL_LZMA (1 << 7)
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#define LZMA2_CONTROL_COPY_NO_RESET 2
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#define LZMA2_CONTROL_COPY_RESET_DIC 1
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#define LZMA2_CONTROL_EOF 0
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#define LZMA2_LCLP_MAX 4
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#define LZMA2_DIC_SIZE_FROM_PROP(p) (((UInt32)2 | ((p) & 1)) << ((p) / 2 + 11))
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#define LZMA2_PACK_SIZE_MAX (1 << 16)
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#define LZMA2_COPY_CHUNK_SIZE LZMA2_PACK_SIZE_MAX
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#define LZMA2_UNPACK_SIZE_MAX (1 << 21)
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#define LZMA2_KEEP_WINDOW_SIZE LZMA2_UNPACK_SIZE_MAX
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#define LZMA2_CHUNK_SIZE_COMPRESSED_MAX ((1 << 16) + 16)
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#define PRF(x) /* x */
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/* ---------- CLimitedSeqInStream ---------- */
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typedef struct
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{
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ISeqInStream vt;
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ISeqInStream *realStream;
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UInt64 limit;
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UInt64 processed;
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int finished;
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} CLimitedSeqInStream;
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static void LimitedSeqInStream_Init(CLimitedSeqInStream *p)
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{
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p->limit = (UInt64)(Int64)-1;
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p->processed = 0;
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p->finished = 0;
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}
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static SRes LimitedSeqInStream_Read(const ISeqInStream *pp, void *data, size_t *size)
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{
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CLimitedSeqInStream *p = CONTAINER_FROM_VTBL(pp, CLimitedSeqInStream, vt);
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size_t size2 = *size;
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SRes res = SZ_OK;
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if (p->limit != (UInt64)(Int64)-1)
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{
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UInt64 rem = p->limit - p->processed;
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if (size2 > rem)
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size2 = (size_t)rem;
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}
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if (size2 != 0)
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{
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res = ISeqInStream_Read(p->realStream, data, &size2);
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p->finished = (size2 == 0 ? 1 : 0);
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p->processed += size2;
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}
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*size = size2;
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return res;
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}
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/* ---------- CLzma2EncInt ---------- */
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typedef struct
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{
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CLzmaEncHandle enc;
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Byte propsAreSet;
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Byte propsByte;
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Byte needInitState;
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Byte needInitProp;
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UInt64 srcPos;
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} CLzma2EncInt;
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static SRes Lzma2EncInt_InitStream(CLzma2EncInt *p, const CLzma2EncProps *props)
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{
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if (!p->propsAreSet)
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{
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SizeT propsSize = LZMA_PROPS_SIZE;
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Byte propsEncoded[LZMA_PROPS_SIZE];
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RINOK(LzmaEnc_SetProps(p->enc, &props->lzmaProps));
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RINOK(LzmaEnc_WriteProperties(p->enc, propsEncoded, &propsSize));
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p->propsByte = propsEncoded[0];
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p->propsAreSet = True;
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}
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return SZ_OK;
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}
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static void Lzma2EncInt_InitBlock(CLzma2EncInt *p)
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{
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p->srcPos = 0;
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p->needInitState = True;
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p->needInitProp = True;
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}
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SRes LzmaEnc_PrepareForLzma2(CLzmaEncHandle pp, ISeqInStream *inStream, UInt32 keepWindowSize,
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ISzAllocPtr alloc, ISzAllocPtr allocBig);
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SRes LzmaEnc_MemPrepare(CLzmaEncHandle pp, const Byte *src, SizeT srcLen,
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UInt32 keepWindowSize, ISzAllocPtr alloc, ISzAllocPtr allocBig);
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SRes LzmaEnc_CodeOneMemBlock(CLzmaEncHandle pp, BoolInt reInit,
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Byte *dest, size_t *destLen, UInt32 desiredPackSize, UInt32 *unpackSize);
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const Byte *LzmaEnc_GetCurBuf(CLzmaEncHandle pp);
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void LzmaEnc_Finish(CLzmaEncHandle pp);
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void LzmaEnc_SaveState(CLzmaEncHandle pp);
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void LzmaEnc_RestoreState(CLzmaEncHandle pp);
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/*
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UInt32 LzmaEnc_GetNumAvailableBytes(CLzmaEncHandle pp);
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*/
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static SRes Lzma2EncInt_EncodeSubblock(CLzma2EncInt *p, Byte *outBuf,
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size_t *packSizeRes, ISeqOutStream *outStream)
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{
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size_t packSizeLimit = *packSizeRes;
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size_t packSize = packSizeLimit;
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UInt32 unpackSize = LZMA2_UNPACK_SIZE_MAX;
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unsigned lzHeaderSize = 5 + (p->needInitProp ? 1 : 0);
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BoolInt useCopyBlock;
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SRes res;
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*packSizeRes = 0;
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if (packSize < lzHeaderSize)
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return SZ_ERROR_OUTPUT_EOF;
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packSize -= lzHeaderSize;
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LzmaEnc_SaveState(p->enc);
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res = LzmaEnc_CodeOneMemBlock(p->enc, p->needInitState,
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outBuf + lzHeaderSize, &packSize, LZMA2_PACK_SIZE_MAX, &unpackSize);
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PRF(printf("\npackSize = %7d unpackSize = %7d ", packSize, unpackSize));
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if (unpackSize == 0)
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return res;
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if (res == SZ_OK)
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useCopyBlock = (packSize + 2 >= unpackSize || packSize > (1 << 16));
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else
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{
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if (res != SZ_ERROR_OUTPUT_EOF)
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return res;
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res = SZ_OK;
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useCopyBlock = True;
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}
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if (useCopyBlock)
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{
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size_t destPos = 0;
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PRF(printf("################# COPY "));
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while (unpackSize > 0)
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{
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UInt32 u = (unpackSize < LZMA2_COPY_CHUNK_SIZE) ? unpackSize : LZMA2_COPY_CHUNK_SIZE;
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if (packSizeLimit - destPos < u + 3)
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return SZ_ERROR_OUTPUT_EOF;
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outBuf[destPos++] = (Byte)(p->srcPos == 0 ? LZMA2_CONTROL_COPY_RESET_DIC : LZMA2_CONTROL_COPY_NO_RESET);
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outBuf[destPos++] = (Byte)((u - 1) >> 8);
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outBuf[destPos++] = (Byte)(u - 1);
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memcpy(outBuf + destPos, LzmaEnc_GetCurBuf(p->enc) - unpackSize, u);
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unpackSize -= u;
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destPos += u;
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p->srcPos += u;
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if (outStream)
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{
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*packSizeRes += destPos;
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if (ISeqOutStream_Write(outStream, outBuf, destPos) != destPos)
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return SZ_ERROR_WRITE;
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destPos = 0;
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}
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else
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*packSizeRes = destPos;
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/* needInitState = True; */
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}
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LzmaEnc_RestoreState(p->enc);
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return SZ_OK;
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}
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{
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size_t destPos = 0;
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UInt32 u = unpackSize - 1;
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UInt32 pm = (UInt32)(packSize - 1);
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unsigned mode = (p->srcPos == 0) ? 3 : (p->needInitState ? (p->needInitProp ? 2 : 1) : 0);
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PRF(printf(" "));
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outBuf[destPos++] = (Byte)(LZMA2_CONTROL_LZMA | (mode << 5) | ((u >> 16) & 0x1F));
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outBuf[destPos++] = (Byte)(u >> 8);
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outBuf[destPos++] = (Byte)u;
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outBuf[destPos++] = (Byte)(pm >> 8);
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outBuf[destPos++] = (Byte)pm;
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if (p->needInitProp)
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outBuf[destPos++] = p->propsByte;
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p->needInitProp = False;
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p->needInitState = False;
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destPos += packSize;
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p->srcPos += unpackSize;
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if (outStream)
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if (ISeqOutStream_Write(outStream, outBuf, destPos) != destPos)
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return SZ_ERROR_WRITE;
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*packSizeRes = destPos;
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return SZ_OK;
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}
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}
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/* ---------- Lzma2 Props ---------- */
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void Lzma2EncProps_Init(CLzma2EncProps *p)
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{
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LzmaEncProps_Init(&p->lzmaProps);
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p->blockSize = LZMA2_ENC_PROPS__BLOCK_SIZE__AUTO;
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p->numBlockThreads_Reduced = -1;
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p->numBlockThreads_Max = -1;
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p->numTotalThreads = -1;
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}
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void Lzma2EncProps_Normalize(CLzma2EncProps *p)
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{
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UInt64 fileSize;
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int t1, t1n, t2, t2r, t3;
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{
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CLzmaEncProps lzmaProps = p->lzmaProps;
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LzmaEncProps_Normalize(&lzmaProps);
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t1n = lzmaProps.numThreads;
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}
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t1 = p->lzmaProps.numThreads;
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t2 = p->numBlockThreads_Max;
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t3 = p->numTotalThreads;
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if (t2 > MTCODER__THREADS_MAX)
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t2 = MTCODER__THREADS_MAX;
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if (t3 <= 0)
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{
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if (t2 <= 0)
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t2 = 1;
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t3 = t1n * t2;
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}
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else if (t2 <= 0)
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{
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t2 = t3 / t1n;
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if (t2 == 0)
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{
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t1 = 1;
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t2 = t3;
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}
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if (t2 > MTCODER__THREADS_MAX)
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t2 = MTCODER__THREADS_MAX;
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}
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else if (t1 <= 0)
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{
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t1 = t3 / t2;
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if (t1 == 0)
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t1 = 1;
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}
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else
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t3 = t1n * t2;
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p->lzmaProps.numThreads = t1;
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t2r = t2;
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fileSize = p->lzmaProps.reduceSize;
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if ( p->blockSize != LZMA2_ENC_PROPS__BLOCK_SIZE__SOLID
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&& p->blockSize != LZMA2_ENC_PROPS__BLOCK_SIZE__AUTO
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&& (p->blockSize < fileSize || fileSize == (UInt64)(Int64)-1))
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p->lzmaProps.reduceSize = p->blockSize;
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LzmaEncProps_Normalize(&p->lzmaProps);
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p->lzmaProps.reduceSize = fileSize;
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t1 = p->lzmaProps.numThreads;
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if (p->blockSize == LZMA2_ENC_PROPS__BLOCK_SIZE__SOLID)
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{
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t2r = t2 = 1;
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t3 = t1;
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}
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else if (p->blockSize == LZMA2_ENC_PROPS__BLOCK_SIZE__AUTO && t2 <= 1)
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{
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/* if there is no block multi-threading, we use SOLID block */
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p->blockSize = LZMA2_ENC_PROPS__BLOCK_SIZE__SOLID;
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}
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else
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{
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if (p->blockSize == LZMA2_ENC_PROPS__BLOCK_SIZE__AUTO)
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{
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const UInt32 kMinSize = (UInt32)1 << 20;
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const UInt32 kMaxSize = (UInt32)1 << 28;
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const UInt32 dictSize = p->lzmaProps.dictSize;
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UInt64 blockSize = (UInt64)dictSize << 2;
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if (blockSize < kMinSize) blockSize = kMinSize;
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if (blockSize > kMaxSize) blockSize = kMaxSize;
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if (blockSize < dictSize) blockSize = dictSize;
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blockSize += (kMinSize - 1);
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blockSize &= ~(UInt64)(kMinSize - 1);
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p->blockSize = blockSize;
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}
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if (t2 > 1 && fileSize != (UInt64)(Int64)-1)
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{
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UInt64 numBlocks = fileSize / p->blockSize;
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if (numBlocks * p->blockSize != fileSize)
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numBlocks++;
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if (numBlocks < (unsigned)t2)
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{
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t2r = (int)numBlocks;
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if (t2r == 0)
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t2r = 1;
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t3 = t1 * t2r;
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}
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}
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}
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p->numBlockThreads_Max = t2;
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p->numBlockThreads_Reduced = t2r;
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p->numTotalThreads = t3;
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}
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static SRes Progress(ICompressProgress *p, UInt64 inSize, UInt64 outSize)
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{
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return (p && ICompressProgress_Progress(p, inSize, outSize) != SZ_OK) ? SZ_ERROR_PROGRESS : SZ_OK;
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}
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/* ---------- Lzma2 ---------- */
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typedef struct
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{
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Byte propEncoded;
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CLzma2EncProps props;
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UInt64 expectedDataSize;
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Byte *tempBufLzma;
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ISzAllocPtr alloc;
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ISzAllocPtr allocBig;
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CLzma2EncInt coders[MTCODER__THREADS_MAX];
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#ifndef _7ZIP_ST
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ISeqOutStream *outStream;
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Byte *outBuf;
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size_t outBuf_Rem; /* remainder in outBuf */
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size_t outBufSize; /* size of allocated outBufs[i] */
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size_t outBufsDataSizes[MTCODER__BLOCKS_MAX];
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BoolInt mtCoder_WasConstructed;
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CMtCoder mtCoder;
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Byte *outBufs[MTCODER__BLOCKS_MAX];
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#endif
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} CLzma2Enc;
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CLzma2EncHandle Lzma2Enc_Create(ISzAllocPtr alloc, ISzAllocPtr allocBig)
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{
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CLzma2Enc *p = (CLzma2Enc *)ISzAlloc_Alloc(alloc, sizeof(CLzma2Enc));
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if (!p)
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return NULL;
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Lzma2EncProps_Init(&p->props);
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Lzma2EncProps_Normalize(&p->props);
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p->expectedDataSize = (UInt64)(Int64)-1;
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p->tempBufLzma = NULL;
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p->alloc = alloc;
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p->allocBig = allocBig;
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{
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unsigned i;
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for (i = 0; i < MTCODER__THREADS_MAX; i++)
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p->coders[i].enc = NULL;
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}
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#ifndef _7ZIP_ST
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p->mtCoder_WasConstructed = False;
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{
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unsigned i;
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for (i = 0; i < MTCODER__BLOCKS_MAX; i++)
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p->outBufs[i] = NULL;
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p->outBufSize = 0;
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}
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#endif
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return p;
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}
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#ifndef _7ZIP_ST
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static void Lzma2Enc_FreeOutBufs(CLzma2Enc *p)
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{
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unsigned i;
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for (i = 0; i < MTCODER__BLOCKS_MAX; i++)
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if (p->outBufs[i])
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{
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ISzAlloc_Free(p->alloc, p->outBufs[i]);
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p->outBufs[i] = NULL;
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}
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p->outBufSize = 0;
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}
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#endif
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void Lzma2Enc_Destroy(CLzma2EncHandle pp)
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{
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CLzma2Enc *p = (CLzma2Enc *)pp;
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unsigned i;
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for (i = 0; i < MTCODER__THREADS_MAX; i++)
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{
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CLzma2EncInt *t = &p->coders[i];
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if (t->enc)
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{
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LzmaEnc_Destroy(t->enc, p->alloc, p->allocBig);
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t->enc = NULL;
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}
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}
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#ifndef _7ZIP_ST
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if (p->mtCoder_WasConstructed)
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{
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MtCoder_Destruct(&p->mtCoder);
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p->mtCoder_WasConstructed = False;
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}
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Lzma2Enc_FreeOutBufs(p);
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#endif
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ISzAlloc_Free(p->alloc, p->tempBufLzma);
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p->tempBufLzma = NULL;
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ISzAlloc_Free(p->alloc, pp);
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}
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SRes Lzma2Enc_SetProps(CLzma2EncHandle pp, const CLzma2EncProps *props)
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{
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CLzma2Enc *p = (CLzma2Enc *)pp;
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CLzmaEncProps lzmaProps = props->lzmaProps;
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LzmaEncProps_Normalize(&lzmaProps);
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if (lzmaProps.lc + lzmaProps.lp > LZMA2_LCLP_MAX)
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return SZ_ERROR_PARAM;
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p->props = *props;
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Lzma2EncProps_Normalize(&p->props);
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return SZ_OK;
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}
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void Lzma2Enc_SetDataSize(CLzmaEncHandle pp, UInt64 expectedDataSiize)
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{
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CLzma2Enc *p = (CLzma2Enc *)pp;
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p->expectedDataSize = expectedDataSiize;
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}
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Byte Lzma2Enc_WriteProperties(CLzma2EncHandle pp)
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{
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CLzma2Enc *p = (CLzma2Enc *)pp;
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unsigned i;
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UInt32 dicSize = LzmaEncProps_GetDictSize(&p->props.lzmaProps);
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for (i = 0; i < 40; i++)
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if (dicSize <= LZMA2_DIC_SIZE_FROM_PROP(i))
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break;
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return (Byte)i;
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}
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static SRes Lzma2Enc_EncodeMt1(
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CLzma2Enc *me,
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CLzma2EncInt *p,
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ISeqOutStream *outStream,
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Byte *outBuf, size_t *outBufSize,
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ISeqInStream *inStream,
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const Byte *inData, size_t inDataSize,
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int finished,
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ICompressProgress *progress)
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{
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UInt64 unpackTotal = 0;
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UInt64 packTotal = 0;
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size_t outLim = 0;
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CLimitedSeqInStream limitedInStream;
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if (outBuf)
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{
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outLim = *outBufSize;
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*outBufSize = 0;
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}
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if (!p->enc)
|
|
{
|
|
p->propsAreSet = False;
|
|
p->enc = LzmaEnc_Create(me->alloc);
|
|
if (!p->enc)
|
|
return SZ_ERROR_MEM;
|
|
}
|
|
|
|
limitedInStream.realStream = inStream;
|
|
if (inStream)
|
|
{
|
|
limitedInStream.vt.Read = LimitedSeqInStream_Read;
|
|
}
|
|
|
|
if (!outBuf)
|
|
{
|
|
// outStream version works only in one thread. So we use CLzma2Enc::tempBufLzma
|
|
if (!me->tempBufLzma)
|
|
{
|
|
me->tempBufLzma = (Byte *)ISzAlloc_Alloc(me->alloc, LZMA2_CHUNK_SIZE_COMPRESSED_MAX);
|
|
if (!me->tempBufLzma)
|
|
return SZ_ERROR_MEM;
|
|
}
|
|
}
|
|
|
|
RINOK(Lzma2EncInt_InitStream(p, &me->props));
|
|
|
|
for (;;)
|
|
{
|
|
SRes res = SZ_OK;
|
|
size_t inSizeCur = 0;
|
|
|
|
Lzma2EncInt_InitBlock(p);
|
|
|
|
LimitedSeqInStream_Init(&limitedInStream);
|
|
limitedInStream.limit = me->props.blockSize;
|
|
|
|
if (inStream)
|
|
{
|
|
UInt64 expected = (UInt64)(Int64)-1;
|
|
// inStream version works only in one thread. So we use CLzma2Enc::expectedDataSize
|
|
if (me->expectedDataSize != (UInt64)(Int64)-1
|
|
&& me->expectedDataSize >= unpackTotal)
|
|
expected = me->expectedDataSize - unpackTotal;
|
|
if (me->props.blockSize != LZMA2_ENC_PROPS__BLOCK_SIZE__SOLID
|
|
&& expected > me->props.blockSize)
|
|
expected = (size_t)me->props.blockSize;
|
|
|
|
LzmaEnc_SetDataSize(p->enc, expected);
|
|
|
|
RINOK(LzmaEnc_PrepareForLzma2(p->enc,
|
|
&limitedInStream.vt,
|
|
LZMA2_KEEP_WINDOW_SIZE,
|
|
me->alloc,
|
|
me->allocBig));
|
|
}
|
|
else
|
|
{
|
|
inSizeCur = inDataSize - (size_t)unpackTotal;
|
|
if (me->props.blockSize != LZMA2_ENC_PROPS__BLOCK_SIZE__SOLID
|
|
&& inSizeCur > me->props.blockSize)
|
|
inSizeCur = (size_t)me->props.blockSize;
|
|
|
|
// LzmaEnc_SetDataSize(p->enc, inSizeCur);
|
|
|
|
RINOK(LzmaEnc_MemPrepare(p->enc,
|
|
inData + (size_t)unpackTotal, inSizeCur,
|
|
LZMA2_KEEP_WINDOW_SIZE,
|
|
me->alloc,
|
|
me->allocBig));
|
|
}
|
|
|
|
for (;;)
|
|
{
|
|
size_t packSize = LZMA2_CHUNK_SIZE_COMPRESSED_MAX;
|
|
if (outBuf)
|
|
packSize = outLim - (size_t)packTotal;
|
|
|
|
res = Lzma2EncInt_EncodeSubblock(p,
|
|
outBuf ? outBuf + (size_t)packTotal : me->tempBufLzma, &packSize,
|
|
outBuf ? NULL : outStream);
|
|
|
|
if (res != SZ_OK)
|
|
break;
|
|
|
|
packTotal += packSize;
|
|
if (outBuf)
|
|
*outBufSize = (size_t)packTotal;
|
|
|
|
res = Progress(progress, unpackTotal + p->srcPos, packTotal);
|
|
if (res != SZ_OK)
|
|
break;
|
|
|
|
/*
|
|
if (LzmaEnc_GetNumAvailableBytes(p->enc) == 0)
|
|
break;
|
|
*/
|
|
|
|
if (packSize == 0)
|
|
break;
|
|
}
|
|
|
|
LzmaEnc_Finish(p->enc);
|
|
|
|
unpackTotal += p->srcPos;
|
|
|
|
RINOK(res);
|
|
|
|
if (p->srcPos != (inStream ? limitedInStream.processed : inSizeCur))
|
|
return SZ_ERROR_FAIL;
|
|
|
|
if (inStream ? limitedInStream.finished : (unpackTotal == inDataSize))
|
|
{
|
|
if (finished)
|
|
{
|
|
if (outBuf)
|
|
{
|
|
const size_t destPos = *outBufSize;
|
|
if (destPos >= outLim)
|
|
return SZ_ERROR_OUTPUT_EOF;
|
|
outBuf[destPos] = LZMA2_CONTROL_EOF; // 0
|
|
*outBufSize = destPos + 1;
|
|
}
|
|
else
|
|
{
|
|
const Byte b = LZMA2_CONTROL_EOF; // 0;
|
|
if (ISeqOutStream_Write(outStream, &b, 1) != 1)
|
|
return SZ_ERROR_WRITE;
|
|
}
|
|
}
|
|
return SZ_OK;
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
|
|
#ifndef _7ZIP_ST
|
|
|
|
static SRes Lzma2Enc_MtCallback_Code(void *pp, unsigned coderIndex, unsigned outBufIndex,
|
|
const Byte *src, size_t srcSize, int finished)
|
|
{
|
|
CLzma2Enc *me = (CLzma2Enc *)pp;
|
|
size_t destSize = me->outBufSize;
|
|
SRes res;
|
|
CMtProgressThunk progressThunk;
|
|
|
|
Byte *dest = me->outBufs[outBufIndex];
|
|
|
|
me->outBufsDataSizes[outBufIndex] = 0;
|
|
|
|
if (!dest)
|
|
{
|
|
dest = (Byte *)ISzAlloc_Alloc(me->alloc, me->outBufSize);
|
|
if (!dest)
|
|
return SZ_ERROR_MEM;
|
|
me->outBufs[outBufIndex] = dest;
|
|
}
|
|
|
|
MtProgressThunk_CreateVTable(&progressThunk);
|
|
progressThunk.mtProgress = &me->mtCoder.mtProgress;
|
|
progressThunk.inSize = 0;
|
|
progressThunk.outSize = 0;
|
|
|
|
res = Lzma2Enc_EncodeMt1(me,
|
|
&me->coders[coderIndex],
|
|
NULL, dest, &destSize,
|
|
NULL, src, srcSize,
|
|
finished,
|
|
&progressThunk.vt);
|
|
|
|
me->outBufsDataSizes[outBufIndex] = destSize;
|
|
|
|
return res;
|
|
}
|
|
|
|
|
|
static SRes Lzma2Enc_MtCallback_Write(void *pp, unsigned outBufIndex)
|
|
{
|
|
CLzma2Enc *me = (CLzma2Enc *)pp;
|
|
size_t size = me->outBufsDataSizes[outBufIndex];
|
|
const Byte *data = me->outBufs[outBufIndex];
|
|
|
|
if (me->outStream)
|
|
return ISeqOutStream_Write(me->outStream, data, size) == size ? SZ_OK : SZ_ERROR_WRITE;
|
|
|
|
if (size > me->outBuf_Rem)
|
|
return SZ_ERROR_OUTPUT_EOF;
|
|
memcpy(me->outBuf, data, size);
|
|
me->outBuf_Rem -= size;
|
|
me->outBuf += size;
|
|
return SZ_OK;
|
|
}
|
|
|
|
#endif
|
|
|
|
|
|
|
|
SRes Lzma2Enc_Encode2(CLzma2EncHandle pp,
|
|
ISeqOutStream *outStream,
|
|
Byte *outBuf, size_t *outBufSize,
|
|
ISeqInStream *inStream,
|
|
const Byte *inData, size_t inDataSize,
|
|
ICompressProgress *progress)
|
|
{
|
|
CLzma2Enc *p = (CLzma2Enc *)pp;
|
|
|
|
if (inStream && inData)
|
|
return SZ_ERROR_PARAM;
|
|
|
|
if (outStream && outBuf)
|
|
return SZ_ERROR_PARAM;
|
|
|
|
{
|
|
unsigned i;
|
|
for (i = 0; i < MTCODER__THREADS_MAX; i++)
|
|
p->coders[i].propsAreSet = False;
|
|
}
|
|
|
|
#ifndef _7ZIP_ST
|
|
|
|
if (p->props.numBlockThreads_Reduced > 1)
|
|
{
|
|
IMtCoderCallback2 vt;
|
|
|
|
if (!p->mtCoder_WasConstructed)
|
|
{
|
|
p->mtCoder_WasConstructed = True;
|
|
MtCoder_Construct(&p->mtCoder);
|
|
}
|
|
|
|
vt.Code = Lzma2Enc_MtCallback_Code;
|
|
vt.Write = Lzma2Enc_MtCallback_Write;
|
|
|
|
p->outStream = outStream;
|
|
p->outBuf = NULL;
|
|
p->outBuf_Rem = 0;
|
|
if (!outStream)
|
|
{
|
|
p->outBuf = outBuf;
|
|
p->outBuf_Rem = *outBufSize;
|
|
*outBufSize = 0;
|
|
}
|
|
|
|
p->mtCoder.allocBig = p->allocBig;
|
|
p->mtCoder.progress = progress;
|
|
p->mtCoder.inStream = inStream;
|
|
p->mtCoder.inData = inData;
|
|
p->mtCoder.inDataSize = inDataSize;
|
|
p->mtCoder.mtCallback = &vt;
|
|
p->mtCoder.mtCallbackObject = p;
|
|
|
|
p->mtCoder.blockSize = (size_t)p->props.blockSize;
|
|
if (p->mtCoder.blockSize != p->props.blockSize)
|
|
return SZ_ERROR_PARAM; /* SZ_ERROR_MEM */
|
|
|
|
{
|
|
size_t destBlockSize = p->mtCoder.blockSize + (p->mtCoder.blockSize >> 10) + 16;
|
|
if (destBlockSize < p->mtCoder.blockSize)
|
|
return SZ_ERROR_PARAM;
|
|
if (p->outBufSize != destBlockSize)
|
|
Lzma2Enc_FreeOutBufs(p);
|
|
p->outBufSize = destBlockSize;
|
|
}
|
|
|
|
p->mtCoder.numThreadsMax = (unsigned)p->props.numBlockThreads_Max;
|
|
p->mtCoder.expectedDataSize = p->expectedDataSize;
|
|
|
|
{
|
|
SRes res = MtCoder_Code(&p->mtCoder);
|
|
if (!outStream)
|
|
*outBufSize = (size_t)(p->outBuf - outBuf);
|
|
return res;
|
|
}
|
|
}
|
|
|
|
#endif
|
|
|
|
|
|
return Lzma2Enc_EncodeMt1(p,
|
|
&p->coders[0],
|
|
outStream, outBuf, outBufSize,
|
|
inStream, inData, inDataSize,
|
|
True, /* finished */
|
|
progress);
|
|
}
|