// Copyright 2015 PDFium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com
#include "core/fxcodec/jbig2/JBig2_GrdProc.h"
#include <memory>
#include "core/fxcodec/fx_codec.h"
#include "core/fxcodec/jbig2/JBig2_ArithDecoder.h"
#include "core/fxcodec/jbig2/JBig2_BitStream.h"
#include "core/fxcodec/jbig2/JBig2_Image.h"
CJBig2_GRDProc::CJBig2_GRDProc()
: m_loopIndex(0),
m_pLine(nullptr),
m_pPause(nullptr),
m_DecodeType(0),
m_LTP(0) {
m_ReplaceRect.left = 0;
m_ReplaceRect.bottom = 0;
m_ReplaceRect.top = 0;
m_ReplaceRect.right = 0;
}
bool CJBig2_GRDProc::UseTemplate0Opt3() const {
return (GBAT[0] == 3) && (GBAT[1] == -1) && (GBAT[2] == -3) &&
(GBAT[3] == -1) && (GBAT[4] == 2) && (GBAT[5] == -2) &&
(GBAT[6] == -2) && (GBAT[7] == -2);
}
bool CJBig2_GRDProc::UseTemplate1Opt3() const {
return (GBAT[0] == 3) && (GBAT[1] == -1);
}
bool CJBig2_GRDProc::UseTemplate23Opt3() const {
return (GBAT[0] == 2) && (GBAT[1] == -1);
}
CJBig2_Image* CJBig2_GRDProc::decode_Arith(CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext) {
if (GBW == 0 || GBH == 0)
return new CJBig2_Image(GBW, GBH);
if (GBTEMPLATE == 0) {
if (UseTemplate0Opt3())
return decode_Arith_Template0_opt3(pArithDecoder, gbContext);
return decode_Arith_Template0_unopt(pArithDecoder, gbContext);
} else if (GBTEMPLATE == 1) {
if (UseTemplate1Opt3())
return decode_Arith_Template1_opt3(pArithDecoder, gbContext);
return decode_Arith_Template1_unopt(pArithDecoder, gbContext);
} else if (GBTEMPLATE == 2) {
if (UseTemplate23Opt3())
return decode_Arith_Template2_opt3(pArithDecoder, gbContext);
return decode_Arith_Template2_unopt(pArithDecoder, gbContext);
} else {
if (UseTemplate23Opt3())
return decode_Arith_Template3_opt3(pArithDecoder, gbContext);
return decode_Arith_Template3_unopt(pArithDecoder, gbContext);
}
}
CJBig2_Image* CJBig2_GRDProc::decode_Arith_Template0_opt3(
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext) {
std::unique_ptr<CJBig2_Image> GBREG(new CJBig2_Image(GBW, GBH));
if (!GBREG->m_pData)
return nullptr;
int LTP = 0;
uint8_t* pLine = GBREG->m_pData;
int32_t nStride = GBREG->stride();
int32_t nStride2 = nStride << 1;
int32_t nLineBytes = ((GBW + 7) >> 3) - 1;
int32_t nBitsLeft = GBW - (nLineBytes << 3);
uint32_t height = GBH & 0x7fffffff;
for (uint32_t h = 0; h < height; h++) {
if (TPGDON)
LTP = LTP ^ pArithDecoder->DECODE(&gbContext[0x9b25]);
if (LTP) {
GBREG->copyLine(h, h - 1);
} else {
if (h > 1) {
uint8_t* pLine1 = pLine - nStride2;
uint8_t* pLine2 = pLine - nStride;
uint32_t line1 = (*pLine1++) << 6;
uint32_t line2 = *pLine2++;
uint32_t CONTEXT = ((line1 & 0xf800) | (line2 & 0x07f0));
for (int32_t cc = 0; cc < nLineBytes; cc++) {
line1 = (line1 << 8) | ((*pLine1++) << 6);
line2 = (line2 << 8) | (*pLine2++);
uint8_t cVal = 0;
for (int32_t k = 7; k >= 0; k--) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal |= bVal << k;
CONTEXT = (((CONTEXT & 0x7bf7) << 1) | bVal |
((line1 >> k) & 0x0800) | ((line2 >> k) & 0x0010));
}
pLine[cc] = cVal;
}
line1 <<= 8;
line2 <<= 8;
uint8_t cVal1 = 0;
for (int32_t k = 0; k < nBitsLeft; k++) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal1 |= bVal << (7 - k);
CONTEXT =
(((CONTEXT & 0x7bf7) << 1) | bVal |
((line1 >> (7 - k)) & 0x0800) | ((line2 >> (7 - k)) & 0x0010));
}
pLine[nLineBytes] = cVal1;
} else {
uint8_t* pLine2 = pLine - nStride;
uint32_t line2 = (h & 1) ? (*pLine2++) : 0;
uint32_t CONTEXT = (line2 & 0x07f0);
for (int32_t cc = 0; cc < nLineBytes; cc++) {
if (h & 1) {
line2 = (line2 << 8) | (*pLine2++);
}
uint8_t cVal = 0;
for (int32_t k = 7; k >= 0; k--) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal |= bVal << k;
CONTEXT =
(((CONTEXT & 0x7bf7) << 1) | bVal | ((line2 >> k) & 0x0010));
}
pLine[cc] = cVal;
}
line2 <<= 8;
uint8_t cVal1 = 0;
for (int32_t k = 0; k < nBitsLeft; k++) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal1 |= bVal << (7 - k);
CONTEXT = (((CONTEXT & 0x7bf7) << 1) | bVal |
(((line2 >> (7 - k))) & 0x0010));
}
pLine[nLineBytes] = cVal1;
}
}
pLine += nStride;
}
return GBREG.release();
}
CJBig2_Image* CJBig2_GRDProc::decode_Arith_Template0_unopt(
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext) {
int LTP = 0;
std::unique_ptr<CJBig2_Image> GBREG(new CJBig2_Image(GBW, GBH));
GBREG->fill(0);
for (uint32_t h = 0; h < GBH; h++) {
if (TPGDON)
LTP = LTP ^ pArithDecoder->DECODE(&gbContext[0x9b25]);
if (LTP) {
GBREG->copyLine(h, h - 1);
} else {
uint32_t line1 = GBREG->getPixel(1, h - 2);
line1 |= GBREG->getPixel(0, h - 2) << 1;
uint32_t line2 = GBREG->getPixel(2, h - 1);
line2 |= GBREG->getPixel(1, h - 1) << 1;
line2 |= GBREG->getPixel(0, h - 1) << 2;
uint32_t line3 = 0;
for (uint32_t w = 0; w < GBW; w++) {
int bVal;
if (USESKIP && SKIP->getPixel(w, h)) {
bVal = 0;
} else {
uint32_t CONTEXT = line3;
CONTEXT |= GBREG->getPixel(w + GBAT[0], h + GBAT[1]) << 4;
CONTEXT |= line2 << 5;
CONTEXT |= GBREG->getPixel(w + GBAT[2], h + GBAT[3]) << 10;
CONTEXT |= GBREG->getPixel(w + GBAT[4], h + GBAT[5]) << 11;
CONTEXT |= line1 << 12;
CONTEXT |= GBREG->getPixel(w + GBAT[6], h + GBAT[7]) << 15;
bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
}
if (bVal) {
GBREG->setPixel(w, h, bVal);
}
line1 = ((line1 << 1) | GBREG->getPixel(w + 2, h - 2)) & 0x07;
line2 = ((line2 << 1) | GBREG->getPixel(w + 3, h - 1)) & 0x1f;
line3 = ((line3 << 1) | bVal) & 0x0f;
}
}
}
return GBREG.release();
}
CJBig2_Image* CJBig2_GRDProc::decode_Arith_Template1_opt3(
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext) {
std::unique_ptr<CJBig2_Image> GBREG(new CJBig2_Image(GBW, GBH));
if (!GBREG->m_pData)
return nullptr;
int LTP = 0;
uint8_t* pLine = GBREG->m_pData;
int32_t nStride = GBREG->stride();
int32_t nStride2 = nStride << 1;
int32_t nLineBytes = ((GBW + 7) >> 3) - 1;
int32_t nBitsLeft = GBW - (nLineBytes << 3);
for (uint32_t h = 0; h < GBH; h++) {
if (TPGDON)
LTP = LTP ^ pArithDecoder->DECODE(&gbContext[0x0795]);
if (LTP) {
GBREG->copyLine(h, h - 1);
} else {
if (h > 1) {
uint8_t* pLine1 = pLine - nStride2;
uint8_t* pLine2 = pLine - nStride;
uint32_t line1 = (*pLine1++) << 4;
uint32_t line2 = *pLine2++;
uint32_t CONTEXT = (line1 & 0x1e00) | ((line2 >> 1) & 0x01f8);
for (int32_t cc = 0; cc < nLineBytes; cc++) {
line1 = (line1 << 8) | ((*pLine1++) << 4);
line2 = (line2 << 8) | (*pLine2++);
uint8_t cVal = 0;
for (int32_t k = 7; k >= 0; k--) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal |= bVal << k;
CONTEXT = ((CONTEXT & 0x0efb) << 1) | bVal |
((line1 >> k) & 0x0200) | ((line2 >> (k + 1)) & 0x0008);
}
pLine[cc] = cVal;
}
line1 <<= 8;
line2 <<= 8;
uint8_t cVal1 = 0;
for (int32_t k = 0; k < nBitsLeft; k++) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal1 |= bVal << (7 - k);
CONTEXT = ((CONTEXT & 0x0efb) << 1) | bVal |
((line1 >> (7 - k)) & 0x0200) |
((line2 >> (8 - k)) & 0x0008);
}
pLine[nLineBytes] = cVal1;
} else {
uint8_t* pLine2 = pLine - nStride;
uint32_t line2 = (h & 1) ? (*pLine2++) : 0;
uint32_t CONTEXT = (line2 >> 1) & 0x01f8;
for (int32_t cc = 0; cc < nLineBytes; cc++) {
if (h & 1) {
line2 = (line2 << 8) | (*pLine2++);
}
uint8_t cVal = 0;
for (int32_t k = 7; k >= 0; k--) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal |= bVal << k;
CONTEXT = ((CONTEXT & 0x0efb) << 1) | bVal |
((line2 >> (k + 1)) & 0x0008);
}
pLine[cc] = cVal;
}
line2 <<= 8;
uint8_t cVal1 = 0;
for (int32_t k = 0; k < nBitsLeft; k++) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal1 |= bVal << (7 - k);
CONTEXT =
((CONTEXT & 0x0efb) << 1) | bVal | ((line2 >> (8 - k)) & 0x0008);
}
pLine[nLineBytes] = cVal1;
}
}
pLine += nStride;
}
return GBREG.release();
}
CJBig2_Image* CJBig2_GRDProc::decode_Arith_Template1_unopt(
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext) {
int LTP = 0;
std::unique_ptr<CJBig2_Image> GBREG(new CJBig2_Image(GBW, GBH));
GBREG->fill(0);
for (uint32_t h = 0; h < GBH; h++) {
if (TPGDON)
LTP = LTP ^ pArithDecoder->DECODE(&gbContext[0x0795]);
if (LTP) {
GBREG->copyLine(h, h - 1);
} else {
uint32_t line1 = GBREG->getPixel(2, h - 2);
line1 |= GBREG->getPixel(1, h - 2) << 1;
line1 |= GBREG->getPixel(0, h - 2) << 2;
uint32_t line2 = GBREG->getPixel(2, h - 1);
line2 |= GBREG->getPixel(1, h - 1) << 1;
line2 |= GBREG->getPixel(0, h - 1) << 2;
uint32_t line3 = 0;
for (uint32_t w = 0; w < GBW; w++) {
int bVal;
if (USESKIP && SKIP->getPixel(w, h)) {
bVal = 0;
} else {
uint32_t CONTEXT = line3;
CONTEXT |= GBREG->getPixel(w + GBAT[0], h + GBAT[1]) << 3;
CONTEXT |= line2 << 4;
CONTEXT |= line1 << 9;
bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
}
if (bVal) {
GBREG->setPixel(w, h, bVal);
}
line1 = ((line1 << 1) | GBREG->getPixel(w + 3, h - 2)) & 0x0f;
line2 = ((line2 << 1) | GBREG->getPixel(w + 3, h - 1)) & 0x1f;
line3 = ((line3 << 1) | bVal) & 0x07;
}
}
}
return GBREG.release();
}
CJBig2_Image* CJBig2_GRDProc::decode_Arith_Template2_opt3(
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext) {
std::unique_ptr<CJBig2_Image> GBREG(new CJBig2_Image(GBW, GBH));
if (!GBREG->m_pData)
return nullptr;
int LTP = 0;
uint8_t* pLine = GBREG->m_pData;
int32_t nStride = GBREG->stride();
int32_t nStride2 = nStride << 1;
int32_t nLineBytes = ((GBW + 7) >> 3) - 1;
int32_t nBitsLeft = GBW - (nLineBytes << 3);
for (uint32_t h = 0; h < GBH; h++) {
if (TPGDON)
LTP = LTP ^ pArithDecoder->DECODE(&gbContext[0x00e5]);
if (LTP) {
GBREG->copyLine(h, h - 1);
} else {
if (h > 1) {
uint8_t* pLine1 = pLine - nStride2;
uint8_t* pLine2 = pLine - nStride;
uint32_t line1 = (*pLine1++) << 1;
uint32_t line2 = *pLine2++;
uint32_t CONTEXT = (line1 & 0x0380) | ((line2 >> 3) & 0x007c);
for (int32_t cc = 0; cc < nLineBytes; cc++) {
line1 = (line1 << 8) | ((*pLine1++) << 1);
line2 = (line2 << 8) | (*pLine2++);
uint8_t cVal = 0;
for (int32_t k = 7; k >= 0; k--) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal |= bVal << k;
CONTEXT = ((CONTEXT & 0x01bd) << 1) | bVal |
((line1 >> k) & 0x0080) | ((line2 >> (k + 3)) & 0x0004);
}
pLine[cc] = cVal;
}
line1 <<= 8;
line2 <<= 8;
uint8_t cVal1 = 0;
for (int32_t k = 0; k < nBitsLeft; k++) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal1 |= bVal << (7 - k);
CONTEXT = ((CONTEXT & 0x01bd) << 1) | bVal |
((line1 >> (7 - k)) & 0x0080) |
((line2 >> (10 - k)) & 0x0004);
}
pLine[nLineBytes] = cVal1;
} else {
uint8_t* pLine2 = pLine - nStride;
uint32_t line2 = (h & 1) ? (*pLine2++) : 0;
uint32_t CONTEXT = (line2 >> 3) & 0x007c;
for (int32_t cc = 0; cc < nLineBytes; cc++) {
if (h & 1) {
line2 = (line2 << 8) | (*pLine2++);
}
uint8_t cVal = 0;
for (int32_t k = 7; k >= 0; k--) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal |= bVal << k;
CONTEXT = ((CONTEXT & 0x01bd) << 1) | bVal |
((line2 >> (k + 3)) & 0x0004);
}
pLine[cc] = cVal;
}
line2 <<= 8;
uint8_t cVal1 = 0;
for (int32_t k = 0; k < nBitsLeft; k++) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal1 |= bVal << (7 - k);
CONTEXT = ((CONTEXT & 0x01bd) << 1) | bVal |
(((line2 >> (10 - k))) & 0x0004);
}
pLine[nLineBytes] = cVal1;
}
}
pLine += nStride;
}
return GBREG.release();
}
CJBig2_Image* CJBig2_GRDProc::decode_Arith_Template2_unopt(
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext) {
int LTP = 0;
std::unique_ptr<CJBig2_Image> GBREG(new CJBig2_Image(GBW, GBH));
GBREG->fill(0);
for (uint32_t h = 0; h < GBH; h++) {
if (TPGDON)
LTP = LTP ^ pArithDecoder->DECODE(&gbContext[0x00e5]);
if (LTP) {
GBREG->copyLine(h, h - 1);
} else {
uint32_t line1 = GBREG->getPixel(1, h - 2);
line1 |= GBREG->getPixel(0, h - 2) << 1;
uint32_t line2 = GBREG->getPixel(1, h - 1);
line2 |= GBREG->getPixel(0, h - 1) << 1;
uint32_t line3 = 0;
for (uint32_t w = 0; w < GBW; w++) {
int bVal;
if (USESKIP && SKIP->getPixel(w, h)) {
bVal = 0;
} else {
uint32_t CONTEXT = line3;
CONTEXT |= GBREG->getPixel(w + GBAT[0], h + GBAT[1]) << 2;
CONTEXT |= line2 << 3;
CONTEXT |= line1 << 7;
bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
}
if (bVal) {
GBREG->setPixel(w, h, bVal);
}
line1 = ((line1 << 1) | GBREG->getPixel(w + 2, h - 2)) & 0x07;
line2 = ((line2 << 1) | GBREG->getPixel(w + 2, h - 1)) & 0x0f;
line3 = ((line3 << 1) | bVal) & 0x03;
}
}
}
return GBREG.release();
}
CJBig2_Image* CJBig2_GRDProc::decode_Arith_Template3_opt3(
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext) {
std::unique_ptr<CJBig2_Image> GBREG(new CJBig2_Image(GBW, GBH));
if (!GBREG->m_pData)
return nullptr;
int LTP = 0;
uint8_t* pLine = GBREG->m_pData;
int32_t nStride = GBREG->stride();
int32_t nLineBytes = ((GBW + 7) >> 3) - 1;
int32_t nBitsLeft = GBW - (nLineBytes << 3);
for (uint32_t h = 0; h < GBH; h++) {
if (TPGDON)
LTP = LTP ^ pArithDecoder->DECODE(&gbContext[0x0195]);
if (LTP) {
GBREG->copyLine(h, h - 1);
} else {
if (h > 0) {
uint8_t* pLine1 = pLine - nStride;
uint32_t line1 = *pLine1++;
uint32_t CONTEXT = (line1 >> 1) & 0x03f0;
for (int32_t cc = 0; cc < nLineBytes; cc++) {
line1 = (line1 << 8) | (*pLine1++);
uint8_t cVal = 0;
for (int32_t k = 7; k >= 0; k--) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal |= bVal << k;
CONTEXT = ((CONTEXT & 0x01f7) << 1) | bVal |
((line1 >> (k + 1)) & 0x0010);
}
pLine[cc] = cVal;
}
line1 <<= 8;
uint8_t cVal1 = 0;
for (int32_t k = 0; k < nBitsLeft; k++) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal1 |= bVal << (7 - k);
CONTEXT =
((CONTEXT & 0x01f7) << 1) | bVal | ((line1 >> (8 - k)) & 0x0010);
}
pLine[nLineBytes] = cVal1;
} else {
uint32_t CONTEXT = 0;
for (int32_t cc = 0; cc < nLineBytes; cc++) {
uint8_t cVal = 0;
for (int32_t k = 7; k >= 0; k--) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal |= bVal << k;
CONTEXT = ((CONTEXT & 0x01f7) << 1) | bVal;
}
pLine[cc] = cVal;
}
uint8_t cVal1 = 0;
for (int32_t k = 0; k < nBitsLeft; k++) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal1 |= bVal << (7 - k);
CONTEXT = ((CONTEXT & 0x01f7) << 1) | bVal;
}
pLine[nLineBytes] = cVal1;
}
}
pLine += nStride;
}
return GBREG.release();
}
CJBig2_Image* CJBig2_GRDProc::decode_Arith_Template3_unopt(
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext) {
int LTP = 0;
std::unique_ptr<CJBig2_Image> GBREG(new CJBig2_Image(GBW, GBH));
GBREG->fill(0);
for (uint32_t h = 0; h < GBH; h++) {
if (TPGDON)
LTP = LTP ^ pArithDecoder->DECODE(&gbContext[0x0195]);
if (LTP == 1) {
GBREG->copyLine(h, h - 1);
} else {
uint32_t line1 = GBREG->getPixel(1, h - 1);
line1 |= GBREG->getPixel(0, h - 1) << 1;
uint32_t line2 = 0;
for (uint32_t w = 0; w < GBW; w++) {
int bVal;
if (USESKIP && SKIP->getPixel(w, h)) {
bVal = 0;
} else {
uint32_t CONTEXT = line2;
CONTEXT |= GBREG->getPixel(w + GBAT[0], h + GBAT[1]) << 4;
CONTEXT |= line1 << 5;
bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
}
if (bVal) {
GBREG->setPixel(w, h, bVal);
}
line1 = ((line1 << 1) | GBREG->getPixel(w + 2, h - 1)) & 0x1f;
line2 = ((line2 << 1) | bVal) & 0x0f;
}
}
}
return GBREG.release();
}
FXCODEC_STATUS CJBig2_GRDProc::Start_decode_Arith(
CJBig2_Image** pImage,
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext,
IFX_Pause* pPause) {
if (GBW == 0 || GBH == 0) {
m_ProssiveStatus = FXCODEC_STATUS_DECODE_FINISH;
return FXCODEC_STATUS_DECODE_FINISH;
}
m_ProssiveStatus = FXCODEC_STATUS_DECODE_READY;
m_pPause = pPause;
if (!*pImage)
*pImage = new CJBig2_Image(GBW, GBH);
if (!(*pImage)->m_pData) {
delete *pImage;
*pImage = nullptr;
m_ProssiveStatus = FXCODEC_STATUS_ERROR;
return FXCODEC_STATUS_ERROR;
}
m_DecodeType = 1;
m_pImage = pImage;
(*m_pImage)->fill(0);
m_pArithDecoder = pArithDecoder;
m_gbContext = gbContext;
m_LTP = 0;
m_pLine = nullptr;
m_loopIndex = 0;
return decode_Arith(pPause);
}
FXCODEC_STATUS CJBig2_GRDProc::decode_Arith(IFX_Pause* pPause) {
int iline = m_loopIndex;
CJBig2_Image* pImage = *m_pImage;
if (GBTEMPLATE == 0) {
if (UseTemplate0Opt3()) {
m_ProssiveStatus = decode_Arith_Template0_opt3(pImage, m_pArithDecoder,
m_gbContext, pPause);
} else {
m_ProssiveStatus = decode_Arith_Template0_unopt(pImage, m_pArithDecoder,
m_gbContext, pPause);
}
} else if (GBTEMPLATE == 1) {
if (UseTemplate1Opt3()) {
m_ProssiveStatus = decode_Arith_Template1_opt3(pImage, m_pArithDecoder,
m_gbContext, pPause);
} else {
m_ProssiveStatus = decode_Arith_Template1_unopt(pImage, m_pArithDecoder,
m_gbContext, pPause);
}
} else if (GBTEMPLATE == 2) {
if (UseTemplate23Opt3()) {
m_ProssiveStatus = decode_Arith_Template2_opt3(pImage, m_pArithDecoder,
m_gbContext, pPause);
} else {
m_ProssiveStatus = decode_Arith_Template2_unopt(pImage, m_pArithDecoder,
m_gbContext, pPause);
}
} else {
if (UseTemplate23Opt3()) {
m_ProssiveStatus = decode_Arith_Template3_opt3(pImage, m_pArithDecoder,
m_gbContext, pPause);
} else {
m_ProssiveStatus = decode_Arith_Template3_unopt(pImage, m_pArithDecoder,
m_gbContext, pPause);
}
}
m_ReplaceRect.left = 0;
m_ReplaceRect.right = pImage->width();
m_ReplaceRect.top = iline;
m_ReplaceRect.bottom = m_loopIndex;
if (m_ProssiveStatus == FXCODEC_STATUS_DECODE_FINISH) {
m_loopIndex = 0;
}
return m_ProssiveStatus;
}
FXCODEC_STATUS CJBig2_GRDProc::Start_decode_MMR(CJBig2_Image** pImage,
CJBig2_BitStream* pStream,
IFX_Pause* pPause) {
int bitpos, i;
*pImage = new CJBig2_Image(GBW, GBH);
if (!(*pImage)->m_pData) {
delete (*pImage);
(*pImage) = nullptr;
m_ProssiveStatus = FXCODEC_STATUS_ERROR;
return m_ProssiveStatus;
}
bitpos = (int)pStream->getBitPos();
FaxG4Decode(pStream->getBuf(), pStream->getLength(), &bitpos,
(*pImage)->m_pData, GBW, GBH, (*pImage)->stride());
pStream->setBitPos(bitpos);
for (i = 0; (uint32_t)i < (*pImage)->stride() * GBH; i++) {
(*pImage)->m_pData[i] = ~(*pImage)->m_pData[i];
}
m_ProssiveStatus = FXCODEC_STATUS_DECODE_FINISH;
return m_ProssiveStatus;
}
FXCODEC_STATUS CJBig2_GRDProc::Continue_decode(IFX_Pause* pPause) {
if (m_ProssiveStatus != FXCODEC_STATUS_DECODE_TOBECONTINUE)
return m_ProssiveStatus;
if (m_DecodeType != 1) {
m_ProssiveStatus = FXCODEC_STATUS_ERROR;
return m_ProssiveStatus;
}
return decode_Arith(pPause);
}
FXCODEC_STATUS CJBig2_GRDProc::decode_Arith_Template0_opt3(
CJBig2_Image* pImage,
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext,
IFX_Pause* pPause) {
if (!m_pLine) {
m_pLine = pImage->m_pData;
}
int32_t nStride = pImage->stride();
int32_t nStride2 = nStride << 1;
int32_t nLineBytes = ((GBW + 7) >> 3) - 1;
int32_t nBitsLeft = GBW - (nLineBytes << 3);
uint32_t height = GBH & 0x7fffffff;
for (; m_loopIndex < height; m_loopIndex++) {
if (TPGDON)
m_LTP = m_LTP ^ pArithDecoder->DECODE(&gbContext[0x9b25]);
if (m_LTP) {
pImage->copyLine(m_loopIndex, m_loopIndex - 1);
} else {
if (m_loopIndex > 1) {
uint8_t* pLine1 = m_pLine - nStride2;
uint8_t* pLine2 = m_pLine - nStride;
uint32_t line1 = (*pLine1++) << 6;
uint32_t line2 = *pLine2++;
uint32_t CONTEXT = ((line1 & 0xf800) | (line2 & 0x07f0));
for (int32_t cc = 0; cc < nLineBytes; cc++) {
line1 = (line1 << 8) | ((*pLine1++) << 6);
line2 = (line2 << 8) | (*pLine2++);
uint8_t cVal = 0;
for (int32_t k = 7; k >= 0; k--) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal |= bVal << k;
CONTEXT = (((CONTEXT & 0x7bf7) << 1) | bVal |
((line1 >> k) & 0x0800) | ((line2 >> k) & 0x0010));
}
m_pLine[cc] = cVal;
}
line1 <<= 8;
line2 <<= 8;
uint8_t cVal1 = 0;
for (int32_t k = 0; k < nBitsLeft; k++) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal1 |= bVal << (7 - k);
CONTEXT =
(((CONTEXT & 0x7bf7) << 1) | bVal |
((line1 >> (7 - k)) & 0x0800) | ((line2 >> (7 - k)) & 0x0010));
}
m_pLine[nLineBytes] = cVal1;
} else {
uint8_t* pLine2 = m_pLine - nStride;
uint32_t line2 = (m_loopIndex & 1) ? (*pLine2++) : 0;
uint32_t CONTEXT = (line2 & 0x07f0);
for (int32_t cc = 0; cc < nLineBytes; cc++) {
if (m_loopIndex & 1) {
line2 = (line2 << 8) | (*pLine2++);
}
uint8_t cVal = 0;
for (int32_t k = 7; k >= 0; k--) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal |= bVal << k;
CONTEXT =
(((CONTEXT & 0x7bf7) << 1) | bVal | ((line2 >> k) & 0x0010));
}
m_pLine[cc] = cVal;
}
line2 <<= 8;
uint8_t cVal1 = 0;
for (int32_t k = 0; k < nBitsLeft; k++) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal1 |= bVal << (7 - k);
CONTEXT = (((CONTEXT & 0x7bf7) << 1) | bVal |
((line2 >> (7 - k)) & 0x0010));
}
m_pLine[nLineBytes] = cVal1;
}
}
m_pLine += nStride;
if (pPause && pPause->NeedToPauseNow()) {
m_loopIndex++;
m_ProssiveStatus = FXCODEC_STATUS_DECODE_TOBECONTINUE;
return FXCODEC_STATUS_DECODE_TOBECONTINUE;
}
}
m_ProssiveStatus = FXCODEC_STATUS_DECODE_FINISH;
return FXCODEC_STATUS_DECODE_FINISH;
}
FXCODEC_STATUS CJBig2_GRDProc::decode_Arith_Template0_unopt(
CJBig2_Image* pImage,
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext,
IFX_Pause* pPause) {
for (; m_loopIndex < GBH; m_loopIndex++) {
if (TPGDON)
m_LTP = m_LTP ^ pArithDecoder->DECODE(&gbContext[0x9b25]);
if (m_LTP) {
pImage->copyLine(m_loopIndex, m_loopIndex - 1);
} else {
uint32_t line1 = pImage->getPixel(1, m_loopIndex - 2);
line1 |= pImage->getPixel(0, m_loopIndex - 2) << 1;
uint32_t line2 = pImage->getPixel(2, m_loopIndex - 1);
line2 |= pImage->getPixel(1, m_loopIndex - 1) << 1;
line2 |= pImage->getPixel(0, m_loopIndex - 1) << 2;
uint32_t line3 = 0;
for (uint32_t w = 0; w < GBW; w++) {
int bVal;
if (USESKIP && SKIP->getPixel(w, m_loopIndex)) {
bVal = 0;
} else {
uint32_t CONTEXT = line3;
CONTEXT |= pImage->getPixel(w + GBAT[0], m_loopIndex + GBAT[1]) << 4;
CONTEXT |= line2 << 5;
CONTEXT |= pImage->getPixel(w + GBAT[2], m_loopIndex + GBAT[3]) << 10;
CONTEXT |= pImage->getPixel(w + GBAT[4], m_loopIndex + GBAT[5]) << 11;
CONTEXT |= line1 << 12;
CONTEXT |= pImage->getPixel(w + GBAT[6], m_loopIndex + GBAT[7]) << 15;
bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
}
if (bVal) {
pImage->setPixel(w, m_loopIndex, bVal);
}
line1 =
((line1 << 1) | pImage->getPixel(w + 2, m_loopIndex - 2)) & 0x07;
line2 =
((line2 << 1) | pImage->getPixel(w + 3, m_loopIndex - 1)) & 0x1f;
line3 = ((line3 << 1) | bVal) & 0x0f;
}
}
if (pPause && pPause->NeedToPauseNow()) {
m_loopIndex++;
m_ProssiveStatus = FXCODEC_STATUS_DECODE_TOBECONTINUE;
return FXCODEC_STATUS_DECODE_TOBECONTINUE;
}
}
m_ProssiveStatus = FXCODEC_STATUS_DECODE_FINISH;
return FXCODEC_STATUS_DECODE_FINISH;
}
FXCODEC_STATUS CJBig2_GRDProc::decode_Arith_Template1_opt3(
CJBig2_Image* pImage,
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext,
IFX_Pause* pPause) {
if (!m_pLine) {
m_pLine = pImage->m_pData;
}
int32_t nStride = pImage->stride();
int32_t nStride2 = nStride << 1;
int32_t nLineBytes = ((GBW + 7) >> 3) - 1;
int32_t nBitsLeft = GBW - (nLineBytes << 3);
for (; m_loopIndex < GBH; m_loopIndex++) {
if (TPGDON)
m_LTP = m_LTP ^ pArithDecoder->DECODE(&gbContext[0x0795]);
if (m_LTP) {
pImage->copyLine(m_loopIndex, m_loopIndex - 1);
} else {
if (m_loopIndex > 1) {
uint8_t* pLine1 = m_pLine - nStride2;
uint8_t* pLine2 = m_pLine - nStride;
uint32_t line1 = (*pLine1++) << 4;
uint32_t line2 = *pLine2++;
uint32_t CONTEXT = (line1 & 0x1e00) | ((line2 >> 1) & 0x01f8);
for (int32_t cc = 0; cc < nLineBytes; cc++) {
line1 = (line1 << 8) | ((*pLine1++) << 4);
line2 = (line2 << 8) | (*pLine2++);
uint8_t cVal = 0;
for (int32_t k = 7; k >= 0; k--) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal |= bVal << k;
CONTEXT = ((CONTEXT & 0x0efb) << 1) | bVal |
((line1 >> k) & 0x0200) | ((line2 >> (k + 1)) & 0x0008);
}
m_pLine[cc] = cVal;
}
line1 <<= 8;
line2 <<= 8;
uint8_t cVal1 = 0;
for (int32_t k = 0; k < nBitsLeft; k++) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal1 |= bVal << (7 - k);
CONTEXT = ((CONTEXT & 0x0efb) << 1) | bVal |
((line1 >> (7 - k)) & 0x0200) |
((line2 >> (8 - k)) & 0x0008);
}
m_pLine[nLineBytes] = cVal1;
} else {
uint8_t* pLine2 = m_pLine - nStride;
uint32_t line2 = (m_loopIndex & 1) ? (*pLine2++) : 0;
uint32_t CONTEXT = (line2 >> 1) & 0x01f8;
for (int32_t cc = 0; cc < nLineBytes; cc++) {
if (m_loopIndex & 1) {
line2 = (line2 << 8) | (*pLine2++);
}
uint8_t cVal = 0;
for (int32_t k = 7; k >= 0; k--) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal |= bVal << k;
CONTEXT = ((CONTEXT & 0x0efb) << 1) | bVal |
((line2 >> (k + 1)) & 0x0008);
}
m_pLine[cc] = cVal;
}
line2 <<= 8;
uint8_t cVal1 = 0;
for (int32_t k = 0; k < nBitsLeft; k++) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal1 |= bVal << (7 - k);
CONTEXT =
((CONTEXT & 0x0efb) << 1) | bVal | ((line2 >> (8 - k)) & 0x0008);
}
m_pLine[nLineBytes] = cVal1;
}
}
m_pLine += nStride;
if (pPause && pPause->NeedToPauseNow()) {
m_loopIndex++;
m_ProssiveStatus = FXCODEC_STATUS_DECODE_TOBECONTINUE;
return FXCODEC_STATUS_DECODE_TOBECONTINUE;
}
}
m_ProssiveStatus = FXCODEC_STATUS_DECODE_FINISH;
return FXCODEC_STATUS_DECODE_FINISH;
}
FXCODEC_STATUS CJBig2_GRDProc::decode_Arith_Template1_unopt(
CJBig2_Image* pImage,
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext,
IFX_Pause* pPause) {
for (uint32_t h = 0; h < GBH; h++) {
if (TPGDON)
m_LTP = m_LTP ^ pArithDecoder->DECODE(&gbContext[0x0795]);
if (m_LTP) {
pImage->copyLine(h, h - 1);
} else {
uint32_t line1 = pImage->getPixel(2, h - 2);
line1 |= pImage->getPixel(1, h - 2) << 1;
line1 |= pImage->getPixel(0, h - 2) << 2;
uint32_t line2 = pImage->getPixel(2, h - 1);
line2 |= pImage->getPixel(1, h - 1) << 1;
line2 |= pImage->getPixel(0, h - 1) << 2;
uint32_t line3 = 0;
for (uint32_t w = 0; w < GBW; w++) {
int bVal;
if (USESKIP && SKIP->getPixel(w, h)) {
bVal = 0;
} else {
uint32_t CONTEXT = line3;
CONTEXT |= pImage->getPixel(w + GBAT[0], h + GBAT[1]) << 3;
CONTEXT |= line2 << 4;
CONTEXT |= line1 << 9;
bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
}
if (bVal) {
pImage->setPixel(w, h, bVal);
}
line1 = ((line1 << 1) | pImage->getPixel(w + 3, h - 2)) & 0x0f;
line2 = ((line2 << 1) | pImage->getPixel(w + 3, h - 1)) & 0x1f;
line3 = ((line3 << 1) | bVal) & 0x07;
}
}
if (pPause && pPause->NeedToPauseNow()) {
m_loopIndex++;
m_ProssiveStatus = FXCODEC_STATUS_DECODE_TOBECONTINUE;
return FXCODEC_STATUS_DECODE_TOBECONTINUE;
}
}
m_ProssiveStatus = FXCODEC_STATUS_DECODE_FINISH;
return FXCODEC_STATUS_DECODE_FINISH;
}
FXCODEC_STATUS CJBig2_GRDProc::decode_Arith_Template2_opt3(
CJBig2_Image* pImage,
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext,
IFX_Pause* pPause) {
if (!m_pLine) {
m_pLine = pImage->m_pData;
}
int32_t nStride = pImage->stride();
int32_t nStride2 = nStride << 1;
int32_t nLineBytes = ((GBW + 7) >> 3) - 1;
int32_t nBitsLeft = GBW - (nLineBytes << 3);
for (; m_loopIndex < GBH; m_loopIndex++) {
if (TPGDON)
m_LTP = m_LTP ^ pArithDecoder->DECODE(&gbContext[0x00e5]);
if (m_LTP) {
pImage->copyLine(m_loopIndex, m_loopIndex - 1);
} else {
if (m_loopIndex > 1) {
uint8_t* pLine1 = m_pLine - nStride2;
uint8_t* pLine2 = m_pLine - nStride;
uint32_t line1 = (*pLine1++) << 1;
uint32_t line2 = *pLine2++;
uint32_t CONTEXT = (line1 & 0x0380) | ((line2 >> 3) & 0x007c);
for (int32_t cc = 0; cc < nLineBytes; cc++) {
line1 = (line1 << 8) | ((*pLine1++) << 1);
line2 = (line2 << 8) | (*pLine2++);
uint8_t cVal = 0;
for (int32_t k = 7; k >= 0; k--) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal |= bVal << k;
CONTEXT = ((CONTEXT & 0x01bd) << 1) | bVal |
((line1 >> k) & 0x0080) | ((line2 >> (k + 3)) & 0x0004);
}
m_pLine[cc] = cVal;
}
line1 <<= 8;
line2 <<= 8;
uint8_t cVal1 = 0;
for (int32_t k = 0; k < nBitsLeft; k++) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal1 |= bVal << (7 - k);
CONTEXT = ((CONTEXT & 0x01bd) << 1) | bVal |
((line1 >> (7 - k)) & 0x0080) |
((line2 >> (10 - k)) & 0x0004);
}
m_pLine[nLineBytes] = cVal1;
} else {
uint8_t* pLine2 = m_pLine - nStride;
uint32_t line2 = (m_loopIndex & 1) ? (*pLine2++) : 0;
uint32_t CONTEXT = (line2 >> 3) & 0x007c;
for (int32_t cc = 0; cc < nLineBytes; cc++) {
if (m_loopIndex & 1) {
line2 = (line2 << 8) | (*pLine2++);
}
uint8_t cVal = 0;
for (int32_t k = 7; k >= 0; k--) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal |= bVal << k;
CONTEXT = ((CONTEXT & 0x01bd) << 1) | bVal |
((line2 >> (k + 3)) & 0x0004);
}
m_pLine[cc] = cVal;
}
line2 <<= 8;
uint8_t cVal1 = 0;
for (int32_t k = 0; k < nBitsLeft; k++) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal1 |= bVal << (7 - k);
CONTEXT = ((CONTEXT & 0x01bd) << 1) | bVal |
(((line2 >> (10 - k))) & 0x0004);
}
m_pLine[nLineBytes] = cVal1;
}
}
m_pLine += nStride;
if (pPause && m_loopIndex % 50 == 0 && pPause->NeedToPauseNow()) {
m_loopIndex++;
m_ProssiveStatus = FXCODEC_STATUS_DECODE_TOBECONTINUE;
return FXCODEC_STATUS_DECODE_TOBECONTINUE;
}
}
m_ProssiveStatus = FXCODEC_STATUS_DECODE_FINISH;
return FXCODEC_STATUS_DECODE_FINISH;
}
FXCODEC_STATUS CJBig2_GRDProc::decode_Arith_Template2_unopt(
CJBig2_Image* pImage,
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext,
IFX_Pause* pPause) {
for (; m_loopIndex < GBH; m_loopIndex++) {
if (TPGDON)
m_LTP = m_LTP ^ pArithDecoder->DECODE(&gbContext[0x00e5]);
if (m_LTP) {
pImage->copyLine(m_loopIndex, m_loopIndex - 1);
} else {
uint32_t line1 = pImage->getPixel(1, m_loopIndex - 2);
line1 |= pImage->getPixel(0, m_loopIndex - 2) << 1;
uint32_t line2 = pImage->getPixel(1, m_loopIndex - 1);
line2 |= pImage->getPixel(0, m_loopIndex - 1) << 1;
uint32_t line3 = 0;
for (uint32_t w = 0; w < GBW; w++) {
int bVal;
if (USESKIP && SKIP->getPixel(w, m_loopIndex)) {
bVal = 0;
} else {
uint32_t CONTEXT = line3;
CONTEXT |= pImage->getPixel(w + GBAT[0], m_loopIndex + GBAT[1]) << 2;
CONTEXT |= line2 << 3;
CONTEXT |= line1 << 7;
bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
}
if (bVal) {
pImage->setPixel(w, m_loopIndex, bVal);
}
line1 =
((line1 << 1) | pImage->getPixel(w + 2, m_loopIndex - 2)) & 0x07;
line2 =
((line2 << 1) | pImage->getPixel(w + 2, m_loopIndex - 1)) & 0x0f;
line3 = ((line3 << 1) | bVal) & 0x03;
}
}
if (pPause && pPause->NeedToPauseNow()) {
m_loopIndex++;
m_ProssiveStatus = FXCODEC_STATUS_DECODE_TOBECONTINUE;
return FXCODEC_STATUS_DECODE_TOBECONTINUE;
}
}
m_ProssiveStatus = FXCODEC_STATUS_DECODE_FINISH;
return FXCODEC_STATUS_DECODE_FINISH;
}
FXCODEC_STATUS CJBig2_GRDProc::decode_Arith_Template3_opt3(
CJBig2_Image* pImage,
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext,
IFX_Pause* pPause) {
if (!m_pLine)
m_pLine = pImage->m_pData;
int32_t nStride = pImage->stride();
int32_t nLineBytes = ((GBW + 7) >> 3) - 1;
int32_t nBitsLeft = GBW - (nLineBytes << 3);
for (; m_loopIndex < GBH; m_loopIndex++) {
if (TPGDON)
m_LTP = m_LTP ^ pArithDecoder->DECODE(&gbContext[0x0195]);
if (m_LTP) {
pImage->copyLine(m_loopIndex, m_loopIndex - 1);
} else {
if (m_loopIndex > 0) {
uint8_t* pLine1 = m_pLine - nStride;
uint32_t line1 = *pLine1++;
uint32_t CONTEXT = (line1 >> 1) & 0x03f0;
for (int32_t cc = 0; cc < nLineBytes; cc++) {
line1 = (line1 << 8) | (*pLine1++);
uint8_t cVal = 0;
for (int32_t k = 7; k >= 0; k--) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal |= bVal << k;
CONTEXT = ((CONTEXT & 0x01f7) << 1) | bVal |
((line1 >> (k + 1)) & 0x0010);
}
m_pLine[cc] = cVal;
}
line1 <<= 8;
uint8_t cVal1 = 0;
for (int32_t k = 0; k < nBitsLeft; k++) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal1 |= bVal << (7 - k);
CONTEXT =
((CONTEXT & 0x01f7) << 1) | bVal | ((line1 >> (8 - k)) & 0x0010);
}
m_pLine[nLineBytes] = cVal1;
} else {
uint32_t CONTEXT = 0;
for (int32_t cc = 0; cc < nLineBytes; cc++) {
uint8_t cVal = 0;
for (int32_t k = 7; k >= 0; k--) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal |= bVal << k;
CONTEXT = ((CONTEXT & 0x01f7) << 1) | bVal;
}
m_pLine[cc] = cVal;
}
uint8_t cVal1 = 0;
for (int32_t k = 0; k < nBitsLeft; k++) {
int bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
cVal1 |= bVal << (7 - k);
CONTEXT = ((CONTEXT & 0x01f7) << 1) | bVal;
}
m_pLine[nLineBytes] = cVal1;
}
}
m_pLine += nStride;
if (pPause && pPause->NeedToPauseNow()) {
m_loopIndex++;
m_ProssiveStatus = FXCODEC_STATUS_DECODE_TOBECONTINUE;
return FXCODEC_STATUS_DECODE_TOBECONTINUE;
}
}
m_ProssiveStatus = FXCODEC_STATUS_DECODE_FINISH;
return FXCODEC_STATUS_DECODE_FINISH;
}
FXCODEC_STATUS CJBig2_GRDProc::decode_Arith_Template3_unopt(
CJBig2_Image* pImage,
CJBig2_ArithDecoder* pArithDecoder,
JBig2ArithCtx* gbContext,
IFX_Pause* pPause) {
for (; m_loopIndex < GBH; m_loopIndex++) {
if (TPGDON)
m_LTP = m_LTP ^ pArithDecoder->DECODE(&gbContext[0x0195]);
if (m_LTP) {
pImage->copyLine(m_loopIndex, m_loopIndex - 1);
} else {
uint32_t line1 = pImage->getPixel(1, m_loopIndex - 1);
line1 |= pImage->getPixel(0, m_loopIndex - 1) << 1;
uint32_t line2 = 0;
for (uint32_t w = 0; w < GBW; w++) {
int bVal;
if (USESKIP && SKIP->getPixel(w, m_loopIndex)) {
bVal = 0;
} else {
uint32_t CONTEXT = line2;
CONTEXT |= pImage->getPixel(w + GBAT[0], m_loopIndex + GBAT[1]) << 4;
CONTEXT |= line1 << 5;
bVal = pArithDecoder->DECODE(&gbContext[CONTEXT]);
}
if (bVal) {
pImage->setPixel(w, m_loopIndex, bVal);
}
line1 =
((line1 << 1) | pImage->getPixel(w + 2, m_loopIndex - 1)) & 0x1f;
line2 = ((line2 << 1) | bVal) & 0x0f;
}
}
if (pPause && pPause->NeedToPauseNow()) {
m_loopIndex++;
m_ProssiveStatus = FXCODEC_STATUS_DECODE_TOBECONTINUE;
return FXCODEC_STATUS_DECODE_TOBECONTINUE;
}
}
m_ProssiveStatus = FXCODEC_STATUS_DECODE_FINISH;
return FXCODEC_STATUS_DECODE_FINISH;
}