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-rw-r--r--kpdf/xpdf/xpdf/JPXStream.cpp3144
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diff --git a/kpdf/xpdf/xpdf/JPXStream.cpp b/kpdf/xpdf/xpdf/JPXStream.cpp
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+++ b/kpdf/xpdf/xpdf/JPXStream.cpp
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+//========================================================================
+//
+// JPXStream.cpp
+//
+// Copyright 2002-2003 Glyph & Cog, LLC
+//
+//========================================================================
+
+#include <aconf.h>
+
+#ifdef USE_GCC_PRAGMAS
+#pragma implementation
+#endif
+
+#include <limits.h>
+#include "gmem.h"
+#include "Error.h"
+#include "JArithmeticDecoder.h"
+#include "JPXStream.h"
+
+//~ to do:
+// - precincts
+// - ROI
+// - progression order changes
+// - packed packet headers
+// - support for palettes, channel maps, etc.
+// - make sure all needed JP2/JPX subboxes are parsed (readBoxes)
+// - can we assume that QCC segments must come after the QCD segment?
+// - skip EPH markers (readTilePartData)
+// - handle tilePartToEOC in readTilePartData
+// - deal with multiple codeword segments (readTilePartData,
+// readCodeBlockData)
+// - progression orders 2, 3, and 4
+// - in coefficient decoding (readCodeBlockData):
+// - termination pattern: terminate after every coding pass
+// - error resilience segmentation symbol
+// - selective arithmetic coding bypass
+// - vertically causal context formation
+// - coeffs longer than 31 bits (should just ignore the extra bits?)
+// - handle boxes larger than 2^32 bytes
+// - the fixed-point arithmetic won't handle 16-bit pixels
+
+//------------------------------------------------------------------------
+
+// number of contexts for the arithmetic decoder
+#define jpxNContexts 19
+
+#define jpxContextSigProp 0 // 0 - 8: significance prop and cleanup
+#define jpxContextSign 9 // 9 - 13: sign
+#define jpxContextMagRef 14 // 14 -16: magnitude refinement
+#define jpxContextRunLength 17 // cleanup: run length
+#define jpxContextUniform 18 // cleanup: first signif coeff
+
+//------------------------------------------------------------------------
+
+#define jpxPassSigProp 0
+#define jpxPassMagRef 1
+#define jpxPassCleanup 2
+
+//------------------------------------------------------------------------
+
+// arithmetic decoder context for the significance propagation and
+// cleanup passes:
+// [horiz][vert][diag][subband]
+// where subband = 0 for HL
+// = 1 for LH and LL
+// = 2 for HH
+static Guint sigPropContext[3][3][5][3] = {
+ {{{ 0, 0, 0 }, // horiz=0, vert=0, diag=0
+ { 1, 1, 3 }, // horiz=0, vert=0, diag=1
+ { 2, 2, 6 }, // horiz=0, vert=0, diag=2
+ { 2, 2, 8 }, // horiz=0, vert=0, diag=3
+ { 2, 2, 8 }}, // horiz=0, vert=0, diag=4
+ {{ 5, 3, 1 }, // horiz=0, vert=1, diag=0
+ { 6, 3, 4 }, // horiz=0, vert=1, diag=1
+ { 6, 3, 7 }, // horiz=0, vert=1, diag=2
+ { 6, 3, 8 }, // horiz=0, vert=1, diag=3
+ { 6, 3, 8 }}, // horiz=0, vert=1, diag=4
+ {{ 8, 4, 2 }, // horiz=0, vert=2, diag=0
+ { 8, 4, 5 }, // horiz=0, vert=2, diag=1
+ { 8, 4, 7 }, // horiz=0, vert=2, diag=2
+ { 8, 4, 8 }, // horiz=0, vert=2, diag=3
+ { 8, 4, 8 }}}, // horiz=0, vert=2, diag=4
+ {{{ 3, 5, 1 }, // horiz=1, vert=0, diag=0
+ { 3, 6, 4 }, // horiz=1, vert=0, diag=1
+ { 3, 6, 7 }, // horiz=1, vert=0, diag=2
+ { 3, 6, 8 }, // horiz=1, vert=0, diag=3
+ { 3, 6, 8 }}, // horiz=1, vert=0, diag=4
+ {{ 7, 7, 2 }, // horiz=1, vert=1, diag=0
+ { 7, 7, 5 }, // horiz=1, vert=1, diag=1
+ { 7, 7, 7 }, // horiz=1, vert=1, diag=2
+ { 7, 7, 8 }, // horiz=1, vert=1, diag=3
+ { 7, 7, 8 }}, // horiz=1, vert=1, diag=4
+ {{ 8, 7, 2 }, // horiz=1, vert=2, diag=0
+ { 8, 7, 5 }, // horiz=1, vert=2, diag=1
+ { 8, 7, 7 }, // horiz=1, vert=2, diag=2
+ { 8, 7, 8 }, // horiz=1, vert=2, diag=3
+ { 8, 7, 8 }}}, // horiz=1, vert=2, diag=4
+ {{{ 4, 8, 2 }, // horiz=2, vert=0, diag=0
+ { 4, 8, 5 }, // horiz=2, vert=0, diag=1
+ { 4, 8, 7 }, // horiz=2, vert=0, diag=2
+ { 4, 8, 8 }, // horiz=2, vert=0, diag=3
+ { 4, 8, 8 }}, // horiz=2, vert=0, diag=4
+ {{ 7, 8, 2 }, // horiz=2, vert=1, diag=0
+ { 7, 8, 5 }, // horiz=2, vert=1, diag=1
+ { 7, 8, 7 }, // horiz=2, vert=1, diag=2
+ { 7, 8, 8 }, // horiz=2, vert=1, diag=3
+ { 7, 8, 8 }}, // horiz=2, vert=1, diag=4
+ {{ 8, 8, 2 }, // horiz=2, vert=2, diag=0
+ { 8, 8, 5 }, // horiz=2, vert=2, diag=1
+ { 8, 8, 7 }, // horiz=2, vert=2, diag=2
+ { 8, 8, 8 }, // horiz=2, vert=2, diag=3
+ { 8, 8, 8 }}} // horiz=2, vert=2, diag=4
+};
+
+// arithmetic decoder context and xor bit for the sign bit in the
+// significance propagation pass:
+// [horiz][vert][k]
+// where horiz/vert are offset by 2 (i.e., range is -2 .. 2)
+// and k = 0 for the context
+// = 1 for the xor bit
+static Guint signContext[5][5][2] = {
+ {{ 13, 1 }, // horiz=-2, vert=-2
+ { 13, 1 }, // horiz=-2, vert=-1
+ { 12, 1 }, // horiz=-2, vert= 0
+ { 11, 1 }, // horiz=-2, vert=+1
+ { 11, 1 }}, // horiz=-2, vert=+2
+ {{ 13, 1 }, // horiz=-1, vert=-2
+ { 13, 1 }, // horiz=-1, vert=-1
+ { 12, 1 }, // horiz=-1, vert= 0
+ { 11, 1 }, // horiz=-1, vert=+1
+ { 11, 1 }}, // horiz=-1, vert=+2
+ {{ 10, 1 }, // horiz= 0, vert=-2
+ { 10, 1 }, // horiz= 0, vert=-1
+ { 9, 0 }, // horiz= 0, vert= 0
+ { 10, 0 }, // horiz= 0, vert=+1
+ { 10, 0 }}, // horiz= 0, vert=+2
+ {{ 11, 0 }, // horiz=+1, vert=-2
+ { 11, 0 }, // horiz=+1, vert=-1
+ { 12, 0 }, // horiz=+1, vert= 0
+ { 13, 0 }, // horiz=+1, vert=+1
+ { 13, 0 }}, // horiz=+1, vert=+2
+ {{ 11, 0 }, // horiz=+2, vert=-2
+ { 11, 0 }, // horiz=+2, vert=-1
+ { 12, 0 }, // horiz=+2, vert= 0
+ { 13, 0 }, // horiz=+2, vert=+1
+ { 13, 0 }}, // horiz=+2, vert=+2
+};
+
+//------------------------------------------------------------------------
+
+// constants used in the IDWT
+#define idwtAlpha -1.586134342059924
+#define idwtBeta -0.052980118572961
+#define idwtGamma 0.882911075530934
+#define idwtDelta 0.443506852043971
+#define idwtKappa 1.230174104914001
+#define idwtIKappa (1.0 / idwtKappa)
+
+// number of bits to the right of the decimal point for the fixed
+// point arithmetic used in the IDWT
+#define fracBits 16
+
+//------------------------------------------------------------------------
+
+// floor(x / y)
+#define jpxFloorDiv(x, y) ((x) / (y))
+
+// floor(x / 2^y)
+#define jpxFloorDivPow2(x, y) ((x) >> (y))
+
+// ceil(x / y)
+#define jpxCeilDiv(x, y) (((x) + (y) - 1) / (y))
+
+// ceil(x / 2^y)
+#define jpxCeilDivPow2(x, y) (((x) + (1 << (y)) - 1) >> (y))
+
+//------------------------------------------------------------------------
+
+#if 1 //----- disable coverage tracking
+
+#define cover(idx)
+
+#else //----- enable coverage tracking
+
+class JPXCover {
+public:
+
+ JPXCover(int sizeA);
+ ~JPXCover();
+ void incr(int idx);
+
+private:
+
+ int size, used;
+ int *data;
+};
+
+JPXCover::JPXCover(int sizeA) {
+ size = sizeA;
+ used = -1;
+ data = (int *)gmallocn(size, sizeof(int));
+ memset(data, 0, size * sizeof(int));
+}
+
+JPXCover::~JPXCover() {
+ int i;
+
+ printf("JPX coverage:\n");
+ for (i = 0; i <= used; ++i) {
+ printf(" %4d: %8d\n", i, data[i]);
+ }
+ gfree(data);
+}
+
+void JPXCover::incr(int idx) {
+ if (idx < size) {
+ ++data[idx];
+ if (idx > used) {
+ used = idx;
+ }
+ }
+}
+
+JPXCover jpxCover(150);
+
+#define cover(idx) jpxCover.incr(idx)
+
+#endif //----- coverage tracking
+
+//------------------------------------------------------------------------
+
+JPXStream::JPXStream(Stream *strA):
+ FilterStream(strA)
+{
+ nComps = 0;
+ bpc = NULL;
+ width = height = 0;
+ haveCS = gFalse;
+ havePalette = gFalse;
+ haveCompMap = gFalse;
+ haveChannelDefn = gFalse;
+
+ img.tiles = NULL;
+ bitBuf = 0;
+ bitBufLen = 0;
+ bitBufSkip = gFalse;
+ byteCount = 0;
+}
+
+JPXStream::~JPXStream() {
+ close();
+ delete str;
+}
+
+void JPXStream::reset() {
+ str->reset();
+ if (readBoxes()) {
+ curY = img.yOffset;
+ } else {
+ // readBoxes reported an error, so we go immediately to EOF
+ curY = img.ySize;
+ }
+ curX = img.xOffset;
+ curComp = 0;
+ readBufLen = 0;
+}
+
+void JPXStream::close() {
+ JPXTile *tile;
+ JPXTileComp *tileComp;
+ JPXResLevel *resLevel;
+ JPXPrecinct *precinct;
+ JPXSubband *subband;
+ JPXCodeBlock *cb;
+ Guint comp, i, k, r, pre, sb;
+
+ gfree(bpc);
+ bpc = NULL;
+ if (havePalette) {
+ gfree(palette.bpc);
+ gfree(palette.c);
+ havePalette = gFalse;
+ }
+ if (haveCompMap) {
+ gfree(compMap.comp);
+ gfree(compMap.type);
+ gfree(compMap.pComp);
+ haveCompMap = gFalse;
+ }
+ if (haveChannelDefn) {
+ gfree(channelDefn.idx);
+ gfree(channelDefn.type);
+ gfree(channelDefn.assoc);
+ haveChannelDefn = gFalse;
+ }
+
+ if (img.tiles) {
+ for (i = 0; i < img.nXTiles * img.nYTiles; ++i) {
+ tile = &img.tiles[i];
+ if (tile->tileComps) {
+ for (comp = 0; comp < img.nComps; ++comp) {
+ tileComp = &tile->tileComps[comp];
+ gfree(tileComp->quantSteps);
+ gfree(tileComp->data);
+ gfree(tileComp->buf);
+ if (tileComp->resLevels) {
+ for (r = 0; r <= tileComp->nDecompLevels; ++r) {
+ resLevel = &tileComp->resLevels[r];
+ if (resLevel->precincts) {
+ for (pre = 0; pre < 1; ++pre) {
+ precinct = &resLevel->precincts[pre];
+ if (precinct->subbands) {
+ for (sb = 0; sb < (Guint)(r == 0 ? 1 : 3); ++sb) {
+ subband = &precinct->subbands[sb];
+ gfree(subband->inclusion);
+ gfree(subband->zeroBitPlane);
+ if (subband->cbs) {
+ for (k = 0; k < subband->nXCBs * subband->nYCBs; ++k) {
+ cb = &subband->cbs[k];
+ gfree(cb->coeffs);
+ if (cb->arithDecoder) {
+ delete cb->arithDecoder;
+ }
+ if (cb->stats) {
+ delete cb->stats;
+ }
+ }
+ gfree(subband->cbs);
+ }
+ }
+ gfree(precinct->subbands);
+ }
+ }
+ gfree(img.tiles[i].tileComps[comp].resLevels[r].precincts);
+ }
+ }
+ gfree(img.tiles[i].tileComps[comp].resLevels);
+ }
+ }
+ gfree(img.tiles[i].tileComps);
+ }
+ }
+ gfree(img.tiles);
+ img.tiles = NULL;
+ }
+ FilterStream::close();
+}
+
+int JPXStream::getChar() {
+ int c;
+
+ if (readBufLen < 8) {
+ fillReadBuf();
+ }
+ if (readBufLen == 8) {
+ c = readBuf & 0xff;
+ readBufLen = 0;
+ } else if (readBufLen > 8) {
+ c = (readBuf >> (readBufLen - 8)) & 0xff;
+ readBufLen -= 8;
+ } else if (readBufLen == 0) {
+ c = EOF;
+ } else {
+ c = (readBuf << (8 - readBufLen)) & 0xff;
+ readBufLen = 0;
+ }
+ return c;
+}
+
+int JPXStream::lookChar() {
+ int c;
+
+ if (readBufLen < 8) {
+ fillReadBuf();
+ }
+ if (readBufLen == 8) {
+ c = readBuf & 0xff;
+ } else if (readBufLen > 8) {
+ c = (readBuf >> (readBufLen - 8)) & 0xff;
+ } else if (readBufLen == 0) {
+ c = EOF;
+ } else {
+ c = (readBuf << (8 - readBufLen)) & 0xff;
+ }
+ return c;
+}
+
+void JPXStream::fillReadBuf() {
+ JPXTileComp *tileComp;
+ Guint tileIdx, tx, ty;
+ int pix, pixBits;
+
+ do {
+ if (curY >= img.ySize) {
+ return;
+ }
+ tileIdx = ((curY - img.yTileOffset) / img.yTileSize) * img.nXTiles
+ + (curX - img.xTileOffset) / img.xTileSize;
+#if 1 //~ ignore the palette, assume the PDF ColorSpace object is valid
+ tileComp = &img.tiles[tileIdx].tileComps[curComp];
+#else
+ tileComp = &img.tiles[tileIdx].tileComps[havePalette ? 0 : curComp];
+#endif
+ tx = jpxCeilDiv((curX - img.xTileOffset) % img.xTileSize, tileComp->hSep);
+ ty = jpxCeilDiv((curY - img.yTileOffset) % img.yTileSize, tileComp->vSep);
+ pix = (int)tileComp->data[ty * (tileComp->x1 - tileComp->x0) + tx];
+ pixBits = tileComp->prec;
+#if 1 //~ ignore the palette, assume the PDF ColorSpace object is valid
+ if (++curComp == img.nComps) {
+#else
+ if (havePalette) {
+ if (pix >= 0 && pix < palette.nEntries) {
+ pix = palette.c[pix * palette.nComps + curComp];
+ } else {
+ pix =
+ pixBits = palette.bpc[curComp];
+ }
+ if (++curComp == (Guint)(havePalette ? palette.nComps : img.nComps)) {
+#endif
+ curComp = 0;
+ if (++curX == img.xSize) {
+ curX = img.xOffset;
+ ++curY;
+ }
+ }
+ if (pixBits == 8) {
+ readBuf = (readBuf << 8) | (pix & 0xff);
+ } else {
+ readBuf = (readBuf << pixBits) | (pix & ((1 << pixBits) - 1));
+ }
+ readBufLen += pixBits;
+ } while (readBufLen < 8);
+}
+
+GString *JPXStream::getPSFilter(int /*psLevel*/, char * /*indent*/) {
+ return NULL;
+}
+
+GBool JPXStream::isBinary(GBool /*last*/) {
+ return str->isBinary(gTrue);
+}
+
+void JPXStream::getImageParams(int *bitsPerComponent,
+ StreamColorSpaceMode *csMode) {
+ Guint boxType, boxLen, dataLen, csEnum;
+ Guint bpc1, dummy, i;
+ int csMeth, csPrec, csPrec1, dummy2;
+ StreamColorSpaceMode csMode1;
+ GBool haveBPC, haveCSMode;
+
+ csPrec = 0; // make gcc happy
+ haveBPC = haveCSMode = gFalse;
+ str->reset();
+ if (str->lookChar() == 0xff) {
+ getImageParams2(bitsPerComponent, csMode);
+ } else {
+ while (readBoxHdr(&boxType, &boxLen, &dataLen)) {
+ if (boxType == 0x6a703268) { // JP2 header
+ cover(0);
+ // skip the superbox
+ } else if (boxType == 0x69686472) { // image header
+ cover(1);
+ if (readULong(&dummy) &&
+ readULong(&dummy) &&
+ readUWord(&dummy) &&
+ readUByte(&bpc1) &&
+ readUByte(&dummy) &&
+ readUByte(&dummy) &&
+ readUByte(&dummy)) {
+ *bitsPerComponent = bpc1 + 1;
+ haveBPC = gTrue;
+ }
+ } else if (boxType == 0x636F6C72) { // color specification
+ cover(2);
+ if (readByte(&csMeth) &&
+ readByte(&csPrec1) &&
+ readByte(&dummy2)) {
+ if (csMeth == 1) {
+ if (readULong(&csEnum)) {
+ csMode1 = streamCSNone;
+ if (csEnum == jpxCSBiLevel ||
+ csEnum == jpxCSGrayscale) {
+ csMode1 = streamCSDeviceGray;
+ } else if (csEnum == jpxCSCMYK) {
+ csMode1 = streamCSDeviceCMYK;
+ } else if (csEnum == jpxCSsRGB ||
+ csEnum == jpxCSCISesRGB ||
+ csEnum == jpxCSROMMRGB) {
+ csMode1 = streamCSDeviceRGB;
+ }
+ if (csMode1 != streamCSNone &&
+ (!haveCSMode || csPrec1 > csPrec)) {
+ *csMode = csMode1;
+ csPrec = csPrec1;
+ haveCSMode = gTrue;
+ }
+ for (i = 0; i < dataLen - 7; ++i) {
+ str->getChar();
+ }
+ }
+ } else {
+ for (i = 0; i < dataLen - 3; ++i) {
+ str->getChar();
+ }
+ }
+ }
+ } else if (boxType == 0x6A703263) { // codestream
+ cover(3);
+ if (!(haveBPC && haveCSMode)) {
+ getImageParams2(bitsPerComponent, csMode);
+ }
+ break;
+ } else {
+ cover(4);
+ for (i = 0; i < dataLen; ++i) {
+ str->getChar();
+ }
+ }
+ }
+ }
+ str->close();
+}
+
+// Get image parameters from the codestream.
+void JPXStream::getImageParams2(int *bitsPerComponent,
+ StreamColorSpaceMode *csMode) {
+ int segType;
+ Guint segLen, nComps1, bpc1, dummy, i;
+
+ while (readMarkerHdr(&segType, &segLen)) {
+ if (segType == 0x51) { // SIZ - image and tile size
+ cover(5);
+ if (readUWord(&dummy) &&
+ readULong(&dummy) &&
+ readULong(&dummy) &&
+ readULong(&dummy) &&
+ readULong(&dummy) &&
+ readULong(&dummy) &&
+ readULong(&dummy) &&
+ readULong(&dummy) &&
+ readULong(&dummy) &&
+ readUWord(&nComps1) &&
+ readUByte(&bpc1)) {
+ *bitsPerComponent = (bpc1 & 0x7f) + 1;
+ // if there's no color space info, take a guess
+ if (nComps1 == 1) {
+ *csMode = streamCSDeviceGray;
+ } else if (nComps1 == 3) {
+ *csMode = streamCSDeviceRGB;
+ } else if (nComps1 == 4) {
+ *csMode = streamCSDeviceCMYK;
+ }
+ }
+ break;
+ } else {
+ cover(6);
+ if (segLen > 2) {
+ for (i = 0; i < segLen - 2; ++i) {
+ str->getChar();
+ }
+ }
+ }
+ }
+}
+
+GBool JPXStream::readBoxes() {
+ Guint boxType, boxLen, dataLen;
+ Guint bpc1, compression, unknownColorspace, ipr;
+ Guint i, j;
+
+ haveImgHdr = gFalse;
+
+ // check for a naked JPEG 2000 codestream (without the JP2/JPX
+ // wrapper) -- this appears to be a violation of the PDF spec, but
+ // Acrobat allows it
+ if (str->lookChar() == 0xff) {
+ cover(7);
+ error(getPos(), "Naked JPEG 2000 codestream, missing JP2/JPX wrapper");
+ readCodestream(0);
+ nComps = img.nComps;
+ bpc = (Guint *)gmallocn(nComps, sizeof(Guint));
+ for (i = 0; i < nComps; ++i) {
+ bpc[i] = img.tiles[0].tileComps[i].prec;
+ }
+ width = img.xSize - img.xOffset;
+ height = img.ySize - img.yOffset;
+ return gTrue;
+ }
+
+ while (readBoxHdr(&boxType, &boxLen, &dataLen)) {
+ switch (boxType) {
+ case 0x6a703268: // JP2 header
+ // this is a grouping box ('superbox') which has no real
+ // contents and doesn't appear to be used consistently, i.e.,
+ // some things which should be subboxes of the JP2 header box
+ // show up outside of it - so we simply ignore the JP2 header
+ // box
+ cover(8);
+ break;
+ case 0x69686472: // image header
+ cover(9);
+ if (!readULong(&height) ||
+ !readULong(&width) ||
+ !readUWord(&nComps) ||
+ !readUByte(&bpc1) ||
+ !readUByte(&compression) ||
+ !readUByte(&unknownColorspace) ||
+ !readUByte(&ipr)) {
+ error(getPos(), "Unexpected EOF in JPX stream");
+ return gFalse;
+ }
+ if (compression != 7) {
+ error(getPos(), "Unknown compression type in JPX stream");
+ return gFalse;
+ }
+ bpc = (Guint *)gmallocn(nComps, sizeof(Guint));
+ for (i = 0; i < nComps; ++i) {
+ bpc[i] = bpc1;
+ }
+ haveImgHdr = gTrue;
+ break;
+ case 0x62706363: // bits per component
+ cover(10);
+ if (!haveImgHdr) {
+ error(getPos(), "Found bits per component box before image header box in JPX stream");
+ return gFalse;
+ }
+ if (dataLen != nComps) {
+ error(getPos(), "Invalid bits per component box in JPX stream");
+ return gFalse;
+ }
+ for (i = 0; i < nComps; ++i) {
+ if (!readUByte(&bpc[i])) {
+ error(getPos(), "Unexpected EOF in JPX stream");
+ return gFalse;
+ }
+ }
+ break;
+ case 0x636F6C72: // color specification
+ cover(11);
+ if (!readColorSpecBox(dataLen)) {
+ return gFalse;
+ }
+ break;
+ case 0x70636c72: // palette
+ cover(12);
+ if (!readUWord(&palette.nEntries) ||
+ !readUByte(&palette.nComps)) {
+ error(getPos(), "Unexpected EOF in JPX stream");
+ return gFalse;
+ }
+ palette.bpc = (Guint *)gmallocn(palette.nComps, sizeof(Guint));
+ palette.c =
+ (int *)gmallocn(palette.nEntries * palette.nComps, sizeof(int));
+ for (i = 0; i < palette.nComps; ++i) {
+ if (!readUByte(&palette.bpc[i])) {
+ error(getPos(), "Unexpected EOF in JPX stream");
+ return gFalse;
+ }
+ ++palette.bpc[i];
+ }
+ for (i = 0; i < palette.nEntries; ++i) {
+ for (j = 0; j < palette.nComps; ++j) {
+ if (!readNBytes(((palette.bpc[j] & 0x7f) + 7) >> 3,
+ (palette.bpc[j] & 0x80) ? gTrue : gFalse,
+ &palette.c[i * palette.nComps + j])) {
+ error(getPos(), "Unexpected EOF in JPX stream");
+ return gFalse;
+ }
+ }
+ }
+ havePalette = gTrue;
+ break;
+ case 0x636d6170: // component mapping
+ cover(13);
+ compMap.nChannels = dataLen / 4;
+ compMap.comp = (Guint *)gmallocn(compMap.nChannels, sizeof(Guint));
+ compMap.type = (Guint *)gmallocn(compMap.nChannels, sizeof(Guint));
+ compMap.pComp = (Guint *)gmallocn(compMap.nChannels, sizeof(Guint));
+ for (i = 0; i < compMap.nChannels; ++i) {
+ if (!readUWord(&compMap.comp[i]) ||
+ !readUByte(&compMap.type[i]) ||
+ !readUByte(&compMap.pComp[i])) {
+ error(getPos(), "Unexpected EOF in JPX stream");
+ return gFalse;
+ }
+ }
+ haveCompMap = gTrue;
+ break;
+ case 0x63646566: // channel definition
+ cover(14);
+ if (!readUWord(&channelDefn.nChannels)) {
+ error(getPos(), "Unexpected EOF in JPX stream");
+ return gFalse;
+ }
+ channelDefn.idx =
+ (Guint *)gmallocn(channelDefn.nChannels, sizeof(Guint));
+ channelDefn.type =
+ (Guint *)gmallocn(channelDefn.nChannels, sizeof(Guint));
+ channelDefn.assoc =
+ (Guint *)gmallocn(channelDefn.nChannels, sizeof(Guint));
+ for (i = 0; i < channelDefn.nChannels; ++i) {
+ if (!readUWord(&channelDefn.idx[i]) ||
+ !readUWord(&channelDefn.type[i]) ||
+ !readUWord(&channelDefn.assoc[i])) {
+ error(getPos(), "Unexpected EOF in JPX stream");
+ return gFalse;
+ }
+ }
+ haveChannelDefn = gTrue;
+ break;
+ case 0x6A703263: // contiguous codestream
+ cover(15);
+ if (!bpc) {
+ error(getPos(), "JPX stream is missing the image header box");
+ }
+ if (!haveCS) {
+ error(getPos(), "JPX stream has no supported color spec");
+ }
+ if (!readCodestream(dataLen)) {
+ return gFalse;
+ }
+ break;
+ default:
+ cover(16);
+ for (i = 0; i < dataLen; ++i) {
+ if (str->getChar() == EOF) {
+ error(getPos(), "Unexpected EOF in JPX stream");
+ return gFalse;
+ }
+ }
+ break;
+ }
+ }
+ return gTrue;
+}
+
+GBool JPXStream::readColorSpecBox(Guint dataLen) {
+ JPXColorSpec newCS;
+ Guint csApprox, csEnum;
+ Guint i;
+ GBool ok;
+
+ ok = gFalse;
+ if (!readUByte(&newCS.meth) ||
+ !readByte(&newCS.prec) ||
+ !readUByte(&csApprox)) {
+ goto err;
+ }
+ switch (newCS.meth) {
+ case 1: // enumerated colorspace
+ cover(17);
+ if (!readULong(&csEnum)) {
+ goto err;
+ }
+ newCS.enumerated.type = (JPXColorSpaceType)csEnum;
+ switch (newCS.enumerated.type) {
+ case jpxCSBiLevel:
+ ok = gTrue;
+ break;
+ case jpxCSYCbCr1:
+ ok = gTrue;
+ break;
+ case jpxCSYCbCr2:
+ ok = gTrue;
+ break;
+ case jpxCSYCBCr3:
+ ok = gTrue;
+ break;
+ case jpxCSPhotoYCC:
+ ok = gTrue;
+ break;
+ case jpxCSCMY:
+ ok = gTrue;
+ break;
+ case jpxCSCMYK:
+ ok = gTrue;
+ break;
+ case jpxCSYCCK:
+ ok = gTrue;
+ break;
+ case jpxCSCIELab:
+ if (dataLen == 7 + 7*4) {
+ if (!readULong(&newCS.enumerated.cieLab.rl) ||
+ !readULong(&newCS.enumerated.cieLab.ol) ||
+ !readULong(&newCS.enumerated.cieLab.ra) ||
+ !readULong(&newCS.enumerated.cieLab.oa) ||
+ !readULong(&newCS.enumerated.cieLab.rb) ||
+ !readULong(&newCS.enumerated.cieLab.ob) ||
+ !readULong(&newCS.enumerated.cieLab.il)) {
+ goto err;
+ }
+ } else if (dataLen == 7) {
+ //~ this assumes the 8-bit case
+ cover(92);
+ newCS.enumerated.cieLab.rl = 100;
+ newCS.enumerated.cieLab.ol = 0;
+ newCS.enumerated.cieLab.ra = 255;
+ newCS.enumerated.cieLab.oa = 128;
+ newCS.enumerated.cieLab.rb = 255;
+ newCS.enumerated.cieLab.ob = 96;
+ newCS.enumerated.cieLab.il = 0x00443530;
+ } else {
+ goto err;
+ }
+ ok = gTrue;
+ break;
+ case jpxCSsRGB:
+ ok = gTrue;
+ break;
+ case jpxCSGrayscale:
+ ok = gTrue;
+ break;
+ case jpxCSBiLevel2:
+ ok = gTrue;
+ break;
+ case jpxCSCIEJab:
+ // not allowed in PDF
+ goto err;
+ case jpxCSCISesRGB:
+ ok = gTrue;
+ break;
+ case jpxCSROMMRGB:
+ ok = gTrue;
+ break;
+ case jpxCSsRGBYCbCr:
+ ok = gTrue;
+ break;
+ case jpxCSYPbPr1125:
+ ok = gTrue;
+ break;
+ case jpxCSYPbPr1250:
+ ok = gTrue;
+ break;
+ default:
+ goto err;
+ }
+ break;
+ case 2: // restricted ICC profile
+ case 3: // any ICC profile (JPX)
+ case 4: // vendor color (JPX)
+ cover(18);
+ for (i = 0; i < dataLen - 3; ++i) {
+ if (str->getChar() == EOF) {
+ goto err;
+ }
+ }
+ break;
+ }
+
+ if (ok && (!haveCS || newCS.prec > cs.prec)) {
+ cs = newCS;
+ haveCS = gTrue;
+ }
+
+ return gTrue;
+
+ err:
+ error(getPos(), "Error in JPX color spec");
+ return gFalse;
+}
+
+GBool JPXStream::readCodestream(Guint /*len*/) {
+ JPXTile *tile;
+ JPXTileComp *tileComp;
+ int segType;
+ GBool haveSIZ, haveCOD, haveQCD, haveSOT;
+ Guint precinctSize, style;
+ Guint segLen, capabilities, comp, i, j, r;
+
+ //----- main header
+ haveSIZ = haveCOD = haveQCD = haveSOT = gFalse;
+ do {
+ if (!readMarkerHdr(&segType, &segLen)) {
+ error(getPos(), "Error in JPX codestream");
+ return gFalse;
+ }
+ switch (segType) {
+ case 0x4f: // SOC - start of codestream
+ // marker only
+ cover(19);
+ break;
+ case 0x51: // SIZ - image and tile size
+ cover(20);
+ if (!readUWord(&capabilities) ||
+ !readULong(&img.xSize) ||
+ !readULong(&img.ySize) ||
+ !readULong(&img.xOffset) ||
+ !readULong(&img.yOffset) ||
+ !readULong(&img.xTileSize) ||
+ !readULong(&img.yTileSize) ||
+ !readULong(&img.xTileOffset) ||
+ !readULong(&img.yTileOffset) ||
+ !readUWord(&img.nComps)) {
+ error(getPos(), "Error in JPX SIZ marker segment");
+ return gFalse;
+ }
+ if (haveImgHdr && img.nComps != nComps) {
+ error(getPos(), "Different number of components in JPX SIZ marker segment");
+ return gFalse;
+ }
+ img.nXTiles = (img.xSize - img.xTileOffset + img.xTileSize - 1)
+ / img.xTileSize;
+ img.nYTiles = (img.ySize - img.yTileOffset + img.yTileSize - 1)
+ / img.yTileSize;
+ // check for overflow before allocating memory
+ if (img.nXTiles <= 0 || img.nYTiles <= 0 ||
+ img.nXTiles >= INT_MAX / img.nYTiles) {
+ error(getPos(), "Bad tile count in JPX SIZ marker segment");
+ return gFalse;
+ }
+ img.tiles = (JPXTile *)gmallocn(img.nXTiles * img.nYTiles,
+ sizeof(JPXTile));
+ for (i = 0; i < img.nXTiles * img.nYTiles; ++i) {
+ img.tiles[i].tileComps = (JPXTileComp *)gmallocn(img.nComps,
+ sizeof(JPXTileComp));
+ for (comp = 0; comp < img.nComps; ++comp) {
+ img.tiles[i].tileComps[comp].quantSteps = NULL;
+ img.tiles[i].tileComps[comp].data = NULL;
+ img.tiles[i].tileComps[comp].buf = NULL;
+ img.tiles[i].tileComps[comp].resLevels = NULL;
+ }
+ }
+ for (comp = 0; comp < img.nComps; ++comp) {
+ if (!readUByte(&img.tiles[0].tileComps[comp].prec) ||
+ !readUByte(&img.tiles[0].tileComps[comp].hSep) ||
+ !readUByte(&img.tiles[0].tileComps[comp].vSep)) {
+ error(getPos(), "Error in JPX SIZ marker segment");
+ return gFalse;
+ }
+ img.tiles[0].tileComps[comp].sgned =
+ (img.tiles[0].tileComps[comp].prec & 0x80) ? gTrue : gFalse;
+ img.tiles[0].tileComps[comp].prec =
+ (img.tiles[0].tileComps[comp].prec & 0x7f) + 1;
+ for (i = 1; i < img.nXTiles * img.nYTiles; ++i) {
+ img.tiles[i].tileComps[comp] = img.tiles[0].tileComps[comp];
+ }
+ }
+ haveSIZ = gTrue;
+ break;
+ case 0x52: // COD - coding style default
+ cover(21);
+ if (!readUByte(&img.tiles[0].tileComps[0].style) ||
+ !readUByte(&img.tiles[0].progOrder) ||
+ !readUWord(&img.tiles[0].nLayers) ||
+ !readUByte(&img.tiles[0].multiComp) ||
+ !readUByte(&img.tiles[0].tileComps[0].nDecompLevels) ||
+ !readUByte(&img.tiles[0].tileComps[0].codeBlockW) ||
+ !readUByte(&img.tiles[0].tileComps[0].codeBlockH) ||
+ !readUByte(&img.tiles[0].tileComps[0].codeBlockStyle) ||
+ !readUByte(&img.tiles[0].tileComps[0].transform)) {
+ error(getPos(), "Error in JPX COD marker segment");
+ return gFalse;
+ }
+ img.tiles[0].tileComps[0].codeBlockW += 2;
+ img.tiles[0].tileComps[0].codeBlockH += 2;
+ for (i = 0; i < img.nXTiles * img.nYTiles; ++i) {
+ if (i != 0) {
+ img.tiles[i].progOrder = img.tiles[0].progOrder;
+ img.tiles[i].nLayers = img.tiles[0].nLayers;
+ img.tiles[i].multiComp = img.tiles[0].multiComp;
+ }
+ for (comp = 0; comp < img.nComps; ++comp) {
+ if (!(i == 0 && comp == 0)) {
+ img.tiles[i].tileComps[comp].style =
+ img.tiles[0].tileComps[0].style;
+ img.tiles[i].tileComps[comp].nDecompLevels =
+ img.tiles[0].tileComps[0].nDecompLevels;
+ img.tiles[i].tileComps[comp].codeBlockW =
+ img.tiles[0].tileComps[0].codeBlockW;
+ img.tiles[i].tileComps[comp].codeBlockH =
+ img.tiles[0].tileComps[0].codeBlockH;
+ img.tiles[i].tileComps[comp].codeBlockStyle =
+ img.tiles[0].tileComps[0].codeBlockStyle;
+ img.tiles[i].tileComps[comp].transform =
+ img.tiles[0].tileComps[0].transform;
+ }
+ img.tiles[i].tileComps[comp].resLevels =
+ (JPXResLevel *)gmallocn(
+ (img.tiles[i].tileComps[comp].nDecompLevels + 1),
+ sizeof(JPXResLevel));
+ for (r = 0; r <= img.tiles[i].tileComps[comp].nDecompLevels; ++r) {
+ img.tiles[i].tileComps[comp].resLevels[r].precincts = NULL;
+ }
+ }
+ }
+ for (r = 0; r <= img.tiles[0].tileComps[0].nDecompLevels; ++r) {
+ if (img.tiles[0].tileComps[0].style & 0x01) {
+ cover(91);
+ if (!readUByte(&precinctSize)) {
+ error(getPos(), "Error in JPX COD marker segment");
+ return gFalse;
+ }
+ img.tiles[0].tileComps[0].resLevels[r].precinctWidth =
+ precinctSize & 0x0f;
+ img.tiles[0].tileComps[0].resLevels[r].precinctHeight =
+ (precinctSize >> 4) & 0x0f;
+ } else {
+ img.tiles[0].tileComps[0].resLevels[r].precinctWidth = 15;
+ img.tiles[0].tileComps[0].resLevels[r].precinctHeight = 15;
+ }
+ }
+ for (i = 0; i < img.nXTiles * img.nYTiles; ++i) {
+ for (comp = 0; comp < img.nComps; ++comp) {
+ if (!(i == 0 && comp == 0)) {
+ for (r = 0; r <= img.tiles[i].tileComps[comp].nDecompLevels; ++r) {
+ img.tiles[i].tileComps[comp].resLevels[r].precinctWidth =
+ img.tiles[0].tileComps[0].resLevels[r].precinctWidth;
+ img.tiles[i].tileComps[comp].resLevels[r].precinctHeight =
+ img.tiles[0].tileComps[0].resLevels[r].precinctHeight;
+ }
+ }
+ }
+ }
+ haveCOD = gTrue;
+ break;
+ case 0x53: // COC - coding style component
+ cover(22);
+ if (!haveCOD) {
+ error(getPos(), "JPX COC marker segment before COD segment");
+ return gFalse;
+ }
+ if ((img.nComps > 256 && !readUWord(&comp)) ||
+ (img.nComps <= 256 && !readUByte(&comp)) ||
+ comp >= img.nComps ||
+ !readUByte(&style) ||
+ !readUByte(&img.tiles[0].tileComps[comp].nDecompLevels) ||
+ !readUByte(&img.tiles[0].tileComps[comp].codeBlockW) ||
+ !readUByte(&img.tiles[0].tileComps[comp].codeBlockH) ||
+ !readUByte(&img.tiles[0].tileComps[comp].codeBlockStyle) ||
+ !readUByte(&img.tiles[0].tileComps[comp].transform)) {
+ error(getPos(), "Error in JPX COC marker segment");
+ return gFalse;
+ }
+ img.tiles[0].tileComps[comp].style =
+ (img.tiles[0].tileComps[comp].style & ~1) | (style & 1);
+ img.tiles[0].tileComps[comp].codeBlockW += 2;
+ img.tiles[0].tileComps[comp].codeBlockH += 2;
+ for (i = 0; i < img.nXTiles * img.nYTiles; ++i) {
+ if (i != 0) {
+ img.tiles[i].tileComps[comp].style =
+ img.tiles[0].tileComps[comp].style;
+ img.tiles[i].tileComps[comp].nDecompLevels =
+ img.tiles[0].tileComps[comp].nDecompLevels;
+ img.tiles[i].tileComps[comp].codeBlockW =
+ img.tiles[0].tileComps[comp].codeBlockW;
+ img.tiles[i].tileComps[comp].codeBlockH =
+ img.tiles[0].tileComps[comp].codeBlockH;
+ img.tiles[i].tileComps[comp].codeBlockStyle =
+ img.tiles[0].tileComps[comp].codeBlockStyle;
+ img.tiles[i].tileComps[comp].transform =
+ img.tiles[0].tileComps[comp].transform;
+ }
+ img.tiles[i].tileComps[comp].resLevels =
+ (JPXResLevel *)greallocn(
+ img.tiles[i].tileComps[comp].resLevels,
+ (img.tiles[i].tileComps[comp].nDecompLevels + 1),
+ sizeof(JPXResLevel));
+ for (r = 0; r <= img.tiles[i].tileComps[comp].nDecompLevels; ++r) {
+ img.tiles[i].tileComps[comp].resLevels[r].precincts = NULL;
+ }
+ }
+ for (r = 0; r <= img.tiles[0].tileComps[comp].nDecompLevels; ++r) {
+ if (img.tiles[0].tileComps[comp].style & 0x01) {
+ if (!readUByte(&precinctSize)) {
+ error(getPos(), "Error in JPX COD marker segment");
+ return gFalse;
+ }
+ img.tiles[0].tileComps[comp].resLevels[r].precinctWidth =
+ precinctSize & 0x0f;
+ img.tiles[0].tileComps[comp].resLevels[r].precinctHeight =
+ (precinctSize >> 4) & 0x0f;
+ } else {
+ img.tiles[0].tileComps[comp].resLevels[r].precinctWidth = 15;
+ img.tiles[0].tileComps[comp].resLevels[r].precinctHeight = 15;
+ }
+ }
+ for (i = 1; i < img.nXTiles * img.nYTiles; ++i) {
+ for (r = 0; r <= img.tiles[i].tileComps[comp].nDecompLevels; ++r) {
+ img.tiles[i].tileComps[comp].resLevels[r].precinctWidth =
+ img.tiles[0].tileComps[comp].resLevels[r].precinctWidth;
+ img.tiles[i].tileComps[comp].resLevels[r].precinctHeight =
+ img.tiles[0].tileComps[comp].resLevels[r].precinctHeight;
+ }
+ }
+ break;
+ case 0x5c: // QCD - quantization default
+ cover(23);
+ if (!readUByte(&img.tiles[0].tileComps[0].quantStyle)) {
+ error(getPos(), "Error in JPX QCD marker segment");
+ return gFalse;
+ }
+ if ((img.tiles[0].tileComps[0].quantStyle & 0x1f) == 0x00) {
+ img.tiles[0].tileComps[0].nQuantSteps = segLen - 3;
+ img.tiles[0].tileComps[0].quantSteps =
+ (Guint *)greallocn(img.tiles[0].tileComps[0].quantSteps,
+ img.tiles[0].tileComps[0].nQuantSteps,
+ sizeof(Guint));
+ for (i = 0; i < img.tiles[0].tileComps[0].nQuantSteps; ++i) {
+ if (!readUByte(&img.tiles[0].tileComps[0].quantSteps[i])) {
+ error(getPos(), "Error in JPX QCD marker segment");
+ return gFalse;
+ }
+ }
+ } else if ((img.tiles[0].tileComps[0].quantStyle & 0x1f) == 0x01) {
+ img.tiles[0].tileComps[0].nQuantSteps = 1;
+ img.tiles[0].tileComps[0].quantSteps =
+ (Guint *)greallocn(img.tiles[0].tileComps[0].quantSteps,
+ img.tiles[0].tileComps[0].nQuantSteps,
+ sizeof(Guint));
+ if (!readUWord(&img.tiles[0].tileComps[0].quantSteps[0])) {
+ error(getPos(), "Error in JPX QCD marker segment");
+ return gFalse;
+ }
+ } else if ((img.tiles[0].tileComps[0].quantStyle & 0x1f) == 0x02) {
+ img.tiles[0].tileComps[0].nQuantSteps = (segLen - 3) / 2;
+ img.tiles[0].tileComps[0].quantSteps =
+ (Guint *)greallocn(img.tiles[0].tileComps[0].quantSteps,
+ img.tiles[0].tileComps[0].nQuantSteps,
+ sizeof(Guint));
+ for (i = 0; i < img.tiles[0].tileComps[0].nQuantSteps; ++i) {
+ if (!readUWord(&img.tiles[0].tileComps[0].quantSteps[i])) {
+ error(getPos(), "Error in JPX QCD marker segment");
+ return gFalse;
+ }
+ }
+ } else {
+ error(getPos(), "Error in JPX QCD marker segment");
+ return gFalse;
+ }
+ for (i = 0; i < img.nXTiles * img.nYTiles; ++i) {
+ for (comp = 0; comp < img.nComps; ++comp) {
+ if (!(i == 0 && comp == 0)) {
+ img.tiles[i].tileComps[comp].quantStyle =
+ img.tiles[0].tileComps[0].quantStyle;
+ img.tiles[i].tileComps[comp].nQuantSteps =
+ img.tiles[0].tileComps[0].nQuantSteps;
+ img.tiles[i].tileComps[comp].quantSteps =
+ (Guint *)greallocn(img.tiles[i].tileComps[comp].quantSteps,
+ img.tiles[0].tileComps[0].nQuantSteps,
+ sizeof(Guint));
+ for (j = 0; j < img.tiles[0].tileComps[0].nQuantSteps; ++j) {
+ img.tiles[i].tileComps[comp].quantSteps[j] =
+ img.tiles[0].tileComps[0].quantSteps[j];
+ }
+ }
+ }
+ }
+ haveQCD = gTrue;
+ break;
+ case 0x5d: // QCC - quantization component
+ cover(24);
+ if (!haveQCD) {
+ error(getPos(), "JPX QCC marker segment before QCD segment");
+ return gFalse;
+ }
+ if ((img.nComps > 256 && !readUWord(&comp)) ||
+ (img.nComps <= 256 && !readUByte(&comp)) ||
+ comp >= img.nComps ||
+ !readUByte(&img.tiles[0].tileComps[comp].quantStyle)) {
+ error(getPos(), "Error in JPX QCC marker segment");
+ return gFalse;
+ }
+ if ((img.tiles[0].tileComps[comp].quantStyle & 0x1f) == 0x00) {
+ img.tiles[0].tileComps[comp].nQuantSteps =
+ segLen - (img.nComps > 256 ? 5 : 4);
+ img.tiles[0].tileComps[comp].quantSteps =
+ (Guint *)greallocn(img.tiles[0].tileComps[comp].quantSteps,
+ img.tiles[0].tileComps[comp].nQuantSteps,
+ sizeof(Guint));
+ for (i = 0; i < img.tiles[0].tileComps[comp].nQuantSteps; ++i) {
+ if (!readUByte(&img.tiles[0].tileComps[comp].quantSteps[i])) {
+ error(getPos(), "Error in JPX QCC marker segment");
+ return gFalse;
+ }
+ }
+ } else if ((img.tiles[0].tileComps[comp].quantStyle & 0x1f) == 0x01) {
+ img.tiles[0].tileComps[comp].nQuantSteps = 1;
+ img.tiles[0].tileComps[comp].quantSteps =
+ (Guint *)greallocn(img.tiles[0].tileComps[comp].quantSteps,
+ img.tiles[0].tileComps[comp].nQuantSteps,
+ sizeof(Guint));
+ if (!readUWord(&img.tiles[0].tileComps[comp].quantSteps[0])) {
+ error(getPos(), "Error in JPX QCC marker segment");
+ return gFalse;
+ }
+ } else if ((img.tiles[0].tileComps[comp].quantStyle & 0x1f) == 0x02) {
+ img.tiles[0].tileComps[comp].nQuantSteps =
+ (segLen - (img.nComps > 256 ? 5 : 4)) / 2;
+ img.tiles[0].tileComps[comp].quantSteps =
+ (Guint *)greallocn(img.tiles[0].tileComps[comp].quantSteps,
+ img.tiles[0].tileComps[comp].nQuantSteps,
+ sizeof(Guint));
+ for (i = 0; i < img.tiles[0].tileComps[comp].nQuantSteps; ++i) {
+ if (!readUWord(&img.tiles[0].tileComps[comp].quantSteps[i])) {
+ error(getPos(), "Error in JPX QCD marker segment");
+ return gFalse;
+ }
+ }
+ } else {
+ error(getPos(), "Error in JPX QCC marker segment");
+ return gFalse;
+ }
+ for (i = 1; i < img.nXTiles * img.nYTiles; ++i) {
+ img.tiles[i].tileComps[comp].quantStyle =
+ img.tiles[0].tileComps[comp].quantStyle;
+ img.tiles[i].tileComps[comp].nQuantSteps =
+ img.tiles[0].tileComps[comp].nQuantSteps;
+ img.tiles[i].tileComps[comp].quantSteps =
+ (Guint *)greallocn(img.tiles[i].tileComps[comp].quantSteps,
+ img.tiles[0].tileComps[comp].nQuantSteps,
+ sizeof(Guint));
+ for (j = 0; j < img.tiles[0].tileComps[comp].nQuantSteps; ++j) {
+ img.tiles[i].tileComps[comp].quantSteps[j] =
+ img.tiles[0].tileComps[comp].quantSteps[j];
+ }
+ }
+ break;
+ case 0x5e: // RGN - region of interest
+ cover(25);
+#if 1 //~ ROI is unimplemented
+ fprintf(stderr, "RGN\n");
+ for (i = 0; i < segLen - 2; ++i) {
+ if (str->getChar() == EOF) {
+ error(getPos(), "Error in JPX PPM marker segment");
+ return gFalse;
+ }
+ }
+#else
+ if ((img.nComps > 256 && !readUWord(&comp)) ||
+ (img.nComps <= 256 && !readUByte(&comp)) ||
+ comp >= img.nComps ||
+ !readUByte(&compInfo[comp].defROI.style) ||
+ !readUByte(&compInfo[comp].defROI.shift)) {
+ error(getPos(), "Error in JPX RGN marker segment");
+ return gFalse;
+ }
+#endif
+ break;
+ case 0x5f: // POC - progression order change
+ cover(26);
+#if 1 //~ progression order changes are unimplemented
+ fprintf(stderr, "POC\n");
+ for (i = 0; i < segLen - 2; ++i) {
+ if (str->getChar() == EOF) {
+ error(getPos(), "Error in JPX PPM marker segment");
+ return gFalse;
+ }
+ }
+#else
+ nProgs = (segLen - 2) / (img.nComps > 256 ? 9 : 7);
+ progs = (JPXProgOrder *)gmallocn(nProgs, sizeof(JPXProgOrder));
+ for (i = 0; i < nProgs; ++i) {
+ if (!readUByte(&progs[i].startRes) ||
+ !(img.nComps > 256 && readUWord(&progs[i].startComp)) ||
+ !(img.nComps <= 256 && readUByte(&progs[i].startComp)) ||
+ !readUWord(&progs[i].endLayer) ||
+ !readUByte(&progs[i].endRes) ||
+ !(img.nComps > 256 && readUWord(&progs[i].endComp)) ||
+ !(img.nComps <= 256 && readUByte(&progs[i].endComp)) ||
+ !readUByte(&progs[i].progOrder)) {
+ error(getPos(), "Error in JPX POC marker segment");
+ return gFalse;
+ }
+ }
+#endif
+ break;
+ case 0x60: // PPM - packed packet headers, main header
+ cover(27);
+#if 1 //~ packed packet headers are unimplemented
+ fprintf(stderr, "PPM\n");
+ for (i = 0; i < segLen - 2; ++i) {
+ if (str->getChar() == EOF) {
+ error(getPos(), "Error in JPX PPM marker segment");
+ return gFalse;
+ }
+ }
+#endif
+ break;
+ case 0x55: // TLM - tile-part lengths
+ // skipped
+ cover(28);
+ for (i = 0; i < segLen - 2; ++i) {
+ if (str->getChar() == EOF) {
+ error(getPos(), "Error in JPX TLM marker segment");
+ return gFalse;
+ }
+ }
+ break;
+ case 0x57: // PLM - packet length, main header
+ // skipped
+ cover(29);
+ for (i = 0; i < segLen - 2; ++i) {
+ if (str->getChar() == EOF) {
+ error(getPos(), "Error in JPX PLM marker segment");
+ return gFalse;
+ }
+ }
+ break;
+ case 0x63: // CRG - component registration
+ // skipped
+ cover(30);
+ for (i = 0; i < segLen - 2; ++i) {
+ if (str->getChar() == EOF) {
+ error(getPos(), "Error in JPX CRG marker segment");
+ return gFalse;
+ }
+ }
+ break;
+ case 0x64: // COM - comment
+ // skipped
+ cover(31);
+ for (i = 0; i < segLen - 2; ++i) {
+ if (str->getChar() == EOF) {
+ error(getPos(), "Error in JPX COM marker segment");
+ return gFalse;
+ }
+ }
+ break;
+ case 0x90: // SOT - start of tile
+ cover(32);
+ haveSOT = gTrue;
+ break;
+ default:
+ cover(33);
+ error(getPos(), "Unknown marker segment %02x in JPX stream", segType);
+ for (i = 0; i < segLen - 2; ++i) {
+ if (str->getChar() == EOF) {
+ break;
+ }
+ }
+ break;
+ }
+ } while (!haveSOT);
+
+ if (!haveSIZ) {
+ error(getPos(), "Missing SIZ marker segment in JPX stream");
+ return gFalse;
+ }
+ if (!haveCOD) {
+ error(getPos(), "Missing COD marker segment in JPX stream");
+ return gFalse;
+ }
+ if (!haveQCD) {
+ error(getPos(), "Missing QCD marker segment in JPX stream");
+ return gFalse;
+ }
+
+ //----- read the tile-parts
+ while (1) {
+ if (!readTilePart()) {
+ return gFalse;
+ }
+ if (!readMarkerHdr(&segType, &segLen)) {
+ error(getPos(), "Error in JPX codestream");
+ return gFalse;
+ }
+ if (segType != 0x90) { // SOT - start of tile
+ break;
+ }
+ }
+
+ if (segType != 0xd9) { // EOC - end of codestream
+ error(getPos(), "Missing EOC marker in JPX codestream");
+ return gFalse;
+ }
+
+ //----- finish decoding the image
+ for (i = 0; i < img.nXTiles * img.nYTiles; ++i) {
+ tile = &img.tiles[i];
+ for (comp = 0; comp < img.nComps; ++comp) {
+ tileComp = &tile->tileComps[comp];
+ inverseTransform(tileComp);
+ }
+ if (!inverseMultiCompAndDC(tile)) {
+ return gFalse;
+ }
+ }
+
+ //~ can free memory below tileComps here, and also tileComp.buf
+
+ return gTrue;
+}
+
+GBool JPXStream::readTilePart() {
+ JPXTile *tile;
+ JPXTileComp *tileComp;
+ JPXResLevel *resLevel;
+ JPXPrecinct *precinct;
+ JPXSubband *subband;
+ JPXCodeBlock *cb;
+ GBool haveSOD;
+ Guint tileIdx, tilePartLen, tilePartIdx, nTileParts;
+ GBool tilePartToEOC;
+ Guint precinctSize, style;
+ Guint n, nSBs, nx, ny, sbx0, sby0, comp, segLen;
+ Guint i, j, k, cbX, cbY, r, pre, sb, cbi;
+ int segType, level;
+
+ // process the SOT marker segment
+ if (!readUWord(&tileIdx) ||
+ !readULong(&tilePartLen) ||
+ !readUByte(&tilePartIdx) ||
+ !readUByte(&nTileParts)) {
+ error(getPos(), "Error in JPX SOT marker segment");
+ return gFalse;
+ }
+
+ if (tileIdx >= img.nXTiles * img.nYTiles) {
+ error(getPos(), "Weird tile index in JPX stream");
+ return gFalse;
+ }
+
+ tilePartToEOC = tilePartLen == 0;
+ tilePartLen -= 12; // subtract size of SOT segment
+
+ haveSOD = gFalse;
+ do {
+ if (!readMarkerHdr(&segType, &segLen)) {
+ error(getPos(), "Error in JPX tile-part codestream");
+ return gFalse;
+ }
+ tilePartLen -= 2 + segLen;
+ switch (segType) {
+ case 0x52: // COD - coding style default
+ cover(34);
+ if (!readUByte(&img.tiles[tileIdx].tileComps[0].style) ||
+ !readUByte(&img.tiles[tileIdx].progOrder) ||
+ !readUWord(&img.tiles[tileIdx].nLayers) ||
+ !readUByte(&img.tiles[tileIdx].multiComp) ||
+ !readUByte(&img.tiles[tileIdx].tileComps[0].nDecompLevels) ||
+ !readUByte(&img.tiles[tileIdx].tileComps[0].codeBlockW) ||
+ !readUByte(&img.tiles[tileIdx].tileComps[0].codeBlockH) ||
+ !readUByte(&img.tiles[tileIdx].tileComps[0].codeBlockStyle) ||
+ !readUByte(&img.tiles[tileIdx].tileComps[0].transform)) {
+ error(getPos(), "Error in JPX COD marker segment");
+ return gFalse;
+ }
+ img.tiles[tileIdx].tileComps[0].codeBlockW += 2;
+ img.tiles[tileIdx].tileComps[0].codeBlockH += 2;
+ for (comp = 0; comp < img.nComps; ++comp) {
+ if (comp != 0) {
+ img.tiles[tileIdx].tileComps[comp].style =
+ img.tiles[tileIdx].tileComps[0].style;
+ img.tiles[tileIdx].tileComps[comp].nDecompLevels =
+ img.tiles[tileIdx].tileComps[0].nDecompLevels;
+ img.tiles[tileIdx].tileComps[comp].codeBlockW =
+ img.tiles[tileIdx].tileComps[0].codeBlockW;
+ img.tiles[tileIdx].tileComps[comp].codeBlockH =
+ img.tiles[tileIdx].tileComps[0].codeBlockH;
+ img.tiles[tileIdx].tileComps[comp].codeBlockStyle =
+ img.tiles[tileIdx].tileComps[0].codeBlockStyle;
+ img.tiles[tileIdx].tileComps[comp].transform =
+ img.tiles[tileIdx].tileComps[0].transform;
+ }
+ img.tiles[tileIdx].tileComps[comp].resLevels =
+ (JPXResLevel *)greallocn(
+ img.tiles[tileIdx].tileComps[comp].resLevels,
+ (img.tiles[tileIdx].tileComps[comp].nDecompLevels + 1),
+ sizeof(JPXResLevel));
+ for (r = 0;
+ r <= img.tiles[tileIdx].tileComps[comp].nDecompLevels;
+ ++r) {
+ img.tiles[tileIdx].tileComps[comp].resLevels[r].precincts = NULL;
+ }
+ }
+ for (r = 0; r <= img.tiles[tileIdx].tileComps[0].nDecompLevels; ++r) {
+ if (img.tiles[tileIdx].tileComps[0].style & 0x01) {
+ if (!readUByte(&precinctSize)) {
+ error(getPos(), "Error in JPX COD marker segment");
+ return gFalse;
+ }
+ img.tiles[tileIdx].tileComps[0].resLevels[r].precinctWidth =
+ precinctSize & 0x0f;
+ img.tiles[tileIdx].tileComps[0].resLevels[r].precinctHeight =
+ (precinctSize >> 4) & 0x0f;
+ } else {
+ img.tiles[tileIdx].tileComps[0].resLevels[r].precinctWidth = 15;
+ img.tiles[tileIdx].tileComps[0].resLevels[r].precinctHeight = 15;
+ }
+ }
+ for (comp = 1; comp < img.nComps; ++comp) {
+ for (r = 0;
+ r <= img.tiles[tileIdx].tileComps[comp].nDecompLevels;
+ ++r) {
+ img.tiles[tileIdx].tileComps[comp].resLevels[r].precinctWidth =
+ img.tiles[tileIdx].tileComps[0].resLevels[r].precinctWidth;
+ img.tiles[tileIdx].tileComps[comp].resLevels[r].precinctHeight =
+ img.tiles[tileIdx].tileComps[0].resLevels[r].precinctHeight;
+ }
+ }
+ break;
+ case 0x53: // COC - coding style component
+ cover(35);
+ if ((img.nComps > 256 && !readUWord(&comp)) ||
+ (img.nComps <= 256 && !readUByte(&comp)) ||
+ comp >= img.nComps ||
+ !readUByte(&style) ||
+ !readUByte(&img.tiles[tileIdx].tileComps[comp].nDecompLevels) ||
+ !readUByte(&img.tiles[tileIdx].tileComps[comp].codeBlockW) ||
+ !readUByte(&img.tiles[tileIdx].tileComps[comp].codeBlockH) ||
+ !readUByte(&img.tiles[tileIdx].tileComps[comp].codeBlockStyle) ||
+ !readUByte(&img.tiles[tileIdx].tileComps[comp].transform)) {
+ error(getPos(), "Error in JPX COC marker segment");
+ return gFalse;
+ }
+ img.tiles[tileIdx].tileComps[comp].style =
+ (img.tiles[tileIdx].tileComps[comp].style & ~1) | (style & 1);
+ img.tiles[tileIdx].tileComps[comp].codeBlockW += 2;
+ img.tiles[tileIdx].tileComps[comp].codeBlockH += 2;
+ img.tiles[tileIdx].tileComps[comp].resLevels =
+ (JPXResLevel *)greallocn(
+ img.tiles[tileIdx].tileComps[comp].resLevels,
+ (img.tiles[tileIdx].tileComps[comp].nDecompLevels + 1),
+ sizeof(JPXResLevel));
+ for (r = 0; r <= img.tiles[tileIdx].tileComps[comp].nDecompLevels; ++r) {
+ img.tiles[tileIdx].tileComps[comp].resLevels[r].precincts = NULL;
+ }
+ for (r = 0; r <= img.tiles[tileIdx].tileComps[comp].nDecompLevels; ++r) {
+ if (img.tiles[tileIdx].tileComps[comp].style & 0x01) {
+ if (!readUByte(&precinctSize)) {
+ error(getPos(), "Error in JPX COD marker segment");
+ return gFalse;
+ }
+ img.tiles[tileIdx].tileComps[comp].resLevels[r].precinctWidth =
+ precinctSize & 0x0f;
+ img.tiles[tileIdx].tileComps[comp].resLevels[r].precinctHeight =
+ (precinctSize >> 4) & 0x0f;
+ } else {
+ img.tiles[tileIdx].tileComps[comp].resLevels[r].precinctWidth = 15;
+ img.tiles[tileIdx].tileComps[comp].resLevels[r].precinctHeight = 15;
+ }
+ }
+ break;
+ case 0x5c: // QCD - quantization default
+ cover(36);
+ if (!readUByte(&img.tiles[tileIdx].tileComps[0].quantStyle)) {
+ error(getPos(), "Error in JPX QCD marker segment");
+ return gFalse;
+ }
+ if ((img.tiles[tileIdx].tileComps[0].quantStyle & 0x1f) == 0x00) {
+ img.tiles[tileIdx].tileComps[0].nQuantSteps =
+ segLen - 3;
+ img.tiles[tileIdx].tileComps[0].quantSteps =
+ (Guint *)greallocn(img.tiles[tileIdx].tileComps[0].quantSteps,
+ img.tiles[tileIdx].tileComps[0].nQuantSteps,
+ sizeof(Guint));
+ for (i = 0; i < img.tiles[tileIdx].tileComps[0].nQuantSteps; ++i) {
+ if (!readUByte(&img.tiles[tileIdx].tileComps[0].quantSteps[i])) {
+ error(getPos(), "Error in JPX QCD marker segment");
+ return gFalse;
+ }
+ }
+ } else if ((img.tiles[tileIdx].tileComps[0].quantStyle & 0x1f) == 0x01) {
+ img.tiles[tileIdx].tileComps[0].nQuantSteps = 1;
+ img.tiles[tileIdx].tileComps[0].quantSteps =
+ (Guint *)greallocn(img.tiles[tileIdx].tileComps[0].quantSteps,
+ img.tiles[tileIdx].tileComps[0].nQuantSteps,
+ sizeof(Guint));
+ if (!readUWord(&img.tiles[tileIdx].tileComps[0].quantSteps[0])) {
+ error(getPos(), "Error in JPX QCD marker segment");
+ return gFalse;
+ }
+ } else if ((img.tiles[tileIdx].tileComps[0].quantStyle & 0x1f) == 0x02) {
+ img.tiles[tileIdx].tileComps[0].nQuantSteps = (segLen - 3) / 2;
+ img.tiles[tileIdx].tileComps[0].quantSteps =
+ (Guint *)greallocn(img.tiles[tileIdx].tileComps[0].quantSteps,
+ img.tiles[tileIdx].tileComps[0].nQuantSteps,
+ sizeof(Guint));
+ for (i = 0; i < img.tiles[tileIdx].tileComps[0].nQuantSteps; ++i) {
+ if (!readUWord(&img.tiles[tileIdx].tileComps[0].quantSteps[i])) {
+ error(getPos(), "Error in JPX QCD marker segment");
+ return gFalse;
+ }
+ }
+ } else {
+ error(getPos(), "Error in JPX QCD marker segment");
+ return gFalse;
+ }
+ for (comp = 1; comp < img.nComps; ++comp) {
+ img.tiles[tileIdx].tileComps[comp].quantStyle =
+ img.tiles[tileIdx].tileComps[0].quantStyle;
+ img.tiles[tileIdx].tileComps[comp].nQuantSteps =
+ img.tiles[tileIdx].tileComps[0].nQuantSteps;
+ img.tiles[tileIdx].tileComps[comp].quantSteps =
+ (Guint *)greallocn(img.tiles[tileIdx].tileComps[comp].quantSteps,
+ img.tiles[tileIdx].tileComps[0].nQuantSteps,
+ sizeof(Guint));
+ for (j = 0; j < img.tiles[tileIdx].tileComps[0].nQuantSteps; ++j) {
+ img.tiles[tileIdx].tileComps[comp].quantSteps[j] =
+ img.tiles[tileIdx].tileComps[0].quantSteps[j];
+ }
+ }
+ break;
+ case 0x5d: // QCC - quantization component
+ cover(37);
+ if ((img.nComps > 256 && !readUWord(&comp)) ||
+ (img.nComps <= 256 && !readUByte(&comp)) ||
+ comp >= img.nComps ||
+ !readUByte(&img.tiles[tileIdx].tileComps[comp].quantStyle)) {
+ error(getPos(), "Error in JPX QCC marker segment");
+ return gFalse;
+ }
+ if ((img.tiles[tileIdx].tileComps[comp].quantStyle & 0x1f) == 0x00) {
+ img.tiles[tileIdx].tileComps[comp].nQuantSteps =
+ segLen - (img.nComps > 256 ? 5 : 4);
+ img.tiles[tileIdx].tileComps[comp].quantSteps =
+ (Guint *)greallocn(img.tiles[tileIdx].tileComps[comp].quantSteps,
+ img.tiles[tileIdx].tileComps[comp].nQuantSteps,
+ sizeof(Guint));
+ for (i = 0; i < img.tiles[tileIdx].tileComps[comp].nQuantSteps; ++i) {
+ if (!readUByte(&img.tiles[tileIdx].tileComps[comp].quantSteps[i])) {
+ error(getPos(), "Error in JPX QCC marker segment");
+ return gFalse;
+ }
+ }
+ } else if ((img.tiles[tileIdx].tileComps[comp].quantStyle & 0x1f)
+ == 0x01) {
+ img.tiles[tileIdx].tileComps[comp].nQuantSteps = 1;
+ img.tiles[tileIdx].tileComps[comp].quantSteps =
+ (Guint *)greallocn(img.tiles[tileIdx].tileComps[comp].quantSteps,
+ img.tiles[tileIdx].tileComps[comp].nQuantSteps,
+ sizeof(Guint));
+ if (!readUWord(&img.tiles[tileIdx].tileComps[comp].quantSteps[0])) {
+ error(getPos(), "Error in JPX QCC marker segment");
+ return gFalse;
+ }
+ } else if ((img.tiles[tileIdx].tileComps[comp].quantStyle & 0x1f)
+ == 0x02) {
+ img.tiles[tileIdx].tileComps[comp].nQuantSteps =
+ (segLen - (img.nComps > 256 ? 5 : 4)) / 2;
+ img.tiles[tileIdx].tileComps[comp].quantSteps =
+ (Guint *)greallocn(img.tiles[tileIdx].tileComps[comp].quantSteps,
+ img.tiles[tileIdx].tileComps[comp].nQuantSteps,
+ sizeof(Guint));
+ for (i = 0; i < img.tiles[tileIdx].tileComps[comp].nQuantSteps; ++i) {
+ if (!readUWord(&img.tiles[tileIdx].tileComps[comp].quantSteps[i])) {
+ error(getPos(), "Error in JPX QCD marker segment");
+ return gFalse;
+ }
+ }
+ } else {
+ error(getPos(), "Error in JPX QCC marker segment");
+ return gFalse;
+ }
+ break;
+ case 0x5e: // RGN - region of interest
+ cover(38);
+#if 1 //~ ROI is unimplemented
+ fprintf(stderr, "RGN\n");
+ for (i = 0; i < segLen - 2; ++i) {
+ if (str->getChar() == EOF) {
+ error(getPos(), "Error in JPX PPM marker segment");
+ return gFalse;
+ }
+ }
+#else
+ if ((img.nComps > 256 && !readUWord(&comp)) ||
+ (img.nComps <= 256 && !readUByte(&comp)) ||
+ comp >= img.nComps ||
+ !readUByte(&compInfo[comp].roi.style) ||
+ !readUByte(&compInfo[comp].roi.shift)) {
+ error(getPos(), "Error in JPX RGN marker segment");
+ return gFalse;
+ }
+#endif
+ break;
+ case 0x5f: // POC - progression order change
+ cover(39);
+#if 1 //~ progression order changes are unimplemented
+ fprintf(stderr, "POC\n");
+ for (i = 0; i < segLen - 2; ++i) {
+ if (str->getChar() == EOF) {
+ error(getPos(), "Error in JPX PPM marker segment");
+ return gFalse;
+ }
+ }
+#else
+ nTileProgs = (segLen - 2) / (img.nComps > 256 ? 9 : 7);
+ tileProgs = (JPXProgOrder *)gmallocn(nTileProgs, sizeof(JPXProgOrder));
+ for (i = 0; i < nTileProgs; ++i) {
+ if (!readUByte(&tileProgs[i].startRes) ||
+ !(img.nComps > 256 && readUWord(&tileProgs[i].startComp)) ||
+ !(img.nComps <= 256 && readUByte(&tileProgs[i].startComp)) ||
+ !readUWord(&tileProgs[i].endLayer) ||
+ !readUByte(&tileProgs[i].endRes) ||
+ !(img.nComps > 256 && readUWord(&tileProgs[i].endComp)) ||
+ !(img.nComps <= 256 && readUByte(&tileProgs[i].endComp)) ||
+ !readUByte(&tileProgs[i].progOrder)) {
+ error(getPos(), "Error in JPX POC marker segment");
+ return gFalse;
+ }
+ }
+#endif
+ break;
+ case 0x61: // PPT - packed packet headers, tile-part hdr
+ cover(40);
+#if 1 //~ packed packet headers are unimplemented
+ fprintf(stderr, "PPT\n");
+ for (i = 0; i < segLen - 2; ++i) {
+ if (str->getChar() == EOF) {
+ error(getPos(), "Error in JPX PPT marker segment");
+ return gFalse;
+ }
+ }
+#endif
+ case 0x58: // PLT - packet length, tile-part header
+ // skipped
+ cover(41);
+ for (i = 0; i < segLen - 2; ++i) {
+ if (str->getChar() == EOF) {
+ error(getPos(), "Error in JPX PLT marker segment");
+ return gFalse;
+ }
+ }
+ break;
+ case 0x64: // COM - comment
+ // skipped
+ cover(42);
+ for (i = 0; i < segLen - 2; ++i) {
+ if (str->getChar() == EOF) {
+ error(getPos(), "Error in JPX COM marker segment");
+ return gFalse;
+ }
+ }
+ break;
+ case 0x93: // SOD - start of data
+ cover(43);
+ haveSOD = gTrue;
+ break;
+ default:
+ cover(44);
+ error(getPos(), "Unknown marker segment %02x in JPX tile-part stream",
+ segType);
+ for (i = 0; i < segLen - 2; ++i) {
+ if (str->getChar() == EOF) {
+ break;
+ }
+ }
+ break;
+ }
+ } while (!haveSOD);
+
+ //----- initialize the tile, precincts, and code-blocks
+ if (tilePartIdx == 0) {
+ tile = &img.tiles[tileIdx];
+ i = tileIdx / img.nXTiles;
+ j = tileIdx % img.nXTiles;
+ if ((tile->x0 = img.xTileOffset + j * img.xTileSize) < img.xOffset) {
+ tile->x0 = img.xOffset;
+ }
+ if ((tile->y0 = img.yTileOffset + i * img.yTileSize) < img.yOffset) {
+ tile->y0 = img.yOffset;
+ }
+ if ((tile->x1 = img.xTileOffset + (j + 1) * img.xTileSize) > img.xSize) {
+ tile->x1 = img.xSize;
+ }
+ if ((tile->y1 = img.yTileOffset + (i + 1) * img.yTileSize) > img.ySize) {
+ tile->y1 = img.ySize;
+ }
+ tile->comp = 0;
+ tile->res = 0;
+ tile->precinct = 0;
+ tile->layer = 0;
+ tile->maxNDecompLevels = 0;
+ for (comp = 0; comp < img.nComps; ++comp) {
+ tileComp = &tile->tileComps[comp];
+ if (tileComp->nDecompLevels > tile->maxNDecompLevels) {
+ tile->maxNDecompLevels = tileComp->nDecompLevels;
+ }
+ tileComp->x0 = jpxCeilDiv(tile->x0, tileComp->hSep);
+ tileComp->y0 = jpxCeilDiv(tile->y0, tileComp->hSep);
+ tileComp->x1 = jpxCeilDiv(tile->x1, tileComp->hSep);
+ tileComp->y1 = jpxCeilDiv(tile->y1, tileComp->hSep);
+ tileComp->cbW = 1 << tileComp->codeBlockW;
+ tileComp->cbH = 1 << tileComp->codeBlockH;
+ tileComp->data = (int *)gmallocn((tileComp->x1 - tileComp->x0) *
+ (tileComp->y1 - tileComp->y0),
+ sizeof(int));
+ if (tileComp->x1 - tileComp->x0 > tileComp->y1 - tileComp->y0) {
+ n = tileComp->x1 - tileComp->x0;
+ } else {
+ n = tileComp->y1 - tileComp->y0;
+ }
+ tileComp->buf = (int *)gmallocn(n + 8, sizeof(int));
+ for (r = 0; r <= tileComp->nDecompLevels; ++r) {
+ resLevel = &tileComp->resLevels[r];
+ k = r == 0 ? tileComp->nDecompLevels
+ : tileComp->nDecompLevels - r + 1;
+ resLevel->x0 = jpxCeilDivPow2(tileComp->x0, k);
+ resLevel->y0 = jpxCeilDivPow2(tileComp->y0, k);
+ resLevel->x1 = jpxCeilDivPow2(tileComp->x1, k);
+ resLevel->y1 = jpxCeilDivPow2(tileComp->y1, k);
+ if (r == 0) {
+ resLevel->bx0[0] = resLevel->x0;
+ resLevel->by0[0] = resLevel->y0;
+ resLevel->bx1[0] = resLevel->x1;
+ resLevel->by1[0] = resLevel->y1;
+ } else {
+ resLevel->bx0[0] = jpxCeilDivPow2(tileComp->x0 - (1 << (k-1)), k);
+ resLevel->by0[0] = resLevel->y0;
+ resLevel->bx1[0] = jpxCeilDivPow2(tileComp->x1 - (1 << (k-1)), k);
+ resLevel->by1[0] = resLevel->y1;
+ resLevel->bx0[1] = resLevel->x0;
+ resLevel->by0[1] = jpxCeilDivPow2(tileComp->y0 - (1 << (k-1)), k);
+ resLevel->bx1[1] = resLevel->x1;
+ resLevel->by1[1] = jpxCeilDivPow2(tileComp->y1 - (1 << (k-1)), k);
+ resLevel->bx0[2] = jpxCeilDivPow2(tileComp->x0 - (1 << (k-1)), k);
+ resLevel->by0[2] = jpxCeilDivPow2(tileComp->y0 - (1 << (k-1)), k);
+ resLevel->bx1[2] = jpxCeilDivPow2(tileComp->x1 - (1 << (k-1)), k);
+ resLevel->by1[2] = jpxCeilDivPow2(tileComp->y1 - (1 << (k-1)), k);
+ }
+ resLevel->precincts = (JPXPrecinct *)gmallocn(1, sizeof(JPXPrecinct));
+ for (pre = 0; pre < 1; ++pre) {
+ precinct = &resLevel->precincts[pre];
+ precinct->x0 = resLevel->x0;
+ precinct->y0 = resLevel->y0;
+ precinct->x1 = resLevel->x1;
+ precinct->y1 = resLevel->y1;
+ nSBs = r == 0 ? 1 : 3;
+ precinct->subbands =
+ (JPXSubband *)gmallocn(nSBs, sizeof(JPXSubband));
+ for (sb = 0; sb < nSBs; ++sb) {
+ subband = &precinct->subbands[sb];
+ subband->x0 = resLevel->bx0[sb];
+ subband->y0 = resLevel->by0[sb];
+ subband->x1 = resLevel->bx1[sb];
+ subband->y1 = resLevel->by1[sb];
+ subband->nXCBs = jpxCeilDivPow2(subband->x1,
+ tileComp->codeBlockW)
+ - jpxFloorDivPow2(subband->x0,
+ tileComp->codeBlockW);
+ subband->nYCBs = jpxCeilDivPow2(subband->y1,
+ tileComp->codeBlockH)
+ - jpxFloorDivPow2(subband->y0,
+ tileComp->codeBlockH);
+ n = subband->nXCBs > subband->nYCBs ? subband->nXCBs
+ : subband->nYCBs;
+ for (subband->maxTTLevel = 0, --n;
+ n;
+ ++subband->maxTTLevel, n >>= 1) ;
+ n = 0;
+ for (level = subband->maxTTLevel; level >= 0; --level) {
+ nx = jpxCeilDivPow2(subband->nXCBs, level);
+ ny = jpxCeilDivPow2(subband->nYCBs, level);
+ n += nx * ny;
+ }
+ subband->inclusion =
+ (JPXTagTreeNode *)gmallocn(n, sizeof(JPXTagTreeNode));
+ subband->zeroBitPlane =
+ (JPXTagTreeNode *)gmallocn(n, sizeof(JPXTagTreeNode));
+ for (k = 0; k < n; ++k) {
+ subband->inclusion[k].finished = gFalse;
+ subband->inclusion[k].val = 0;
+ subband->zeroBitPlane[k].finished = gFalse;
+ subband->zeroBitPlane[k].val = 0;
+ }
+ subband->cbs = (JPXCodeBlock *)gmallocn(subband->nXCBs *
+ subband->nYCBs,
+ sizeof(JPXCodeBlock));
+ sbx0 = jpxFloorDivPow2(subband->x0, tileComp->codeBlockW);
+ sby0 = jpxFloorDivPow2(subband->y0, tileComp->codeBlockH);
+ cb = subband->cbs;
+ for (cbY = 0; cbY < subband->nYCBs; ++cbY) {
+ for (cbX = 0; cbX < subband->nXCBs; ++cbX) {
+ cb->x0 = (sbx0 + cbX) << tileComp->codeBlockW;
+ cb->x1 = cb->x0 + tileComp->cbW;
+ if (subband->x0 > cb->x0) {
+ cb->x0 = subband->x0;
+ }
+ if (subband->x1 < cb->x1) {
+ cb->x1 = subband->x1;
+ }
+ cb->y0 = (sby0 + cbY) << tileComp->codeBlockH;
+ cb->y1 = cb->y0 + tileComp->cbH;
+ if (subband->y0 > cb->y0) {
+ cb->y0 = subband->y0;
+ }
+ if (subband->y1 < cb->y1) {
+ cb->y1 = subband->y1;
+ }
+ cb->seen = gFalse;
+ cb->lBlock = 3;
+ cb->nextPass = jpxPassCleanup;
+ cb->nZeroBitPlanes = 0;
+ cb->coeffs =
+ (JPXCoeff *)gmallocn((1 << (tileComp->codeBlockW
+ + tileComp->codeBlockH)),
+ sizeof(JPXCoeff));
+ for (cbi = 0;
+ cbi < (Guint)(1 << (tileComp->codeBlockW
+ + tileComp->codeBlockH));
+ ++cbi) {
+ cb->coeffs[cbi].flags = 0;
+ cb->coeffs[cbi].len = 0;
+ cb->coeffs[cbi].mag = 0;
+ }
+ cb->arithDecoder = NULL;
+ cb->stats = NULL;
+ ++cb;
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+
+ return readTilePartData(tileIdx, tilePartLen, tilePartToEOC);
+}
+
+GBool JPXStream::readTilePartData(Guint tileIdx,
+ Guint tilePartLen, GBool tilePartToEOC) {
+ JPXTile *tile;
+ JPXTileComp *tileComp;
+ JPXResLevel *resLevel;
+ JPXPrecinct *precinct;
+ JPXSubband *subband;
+ JPXCodeBlock *cb;
+ Guint ttVal;
+ Guint bits, cbX, cbY, nx, ny, i, j, n, sb;
+ int level;
+
+ tile = &img.tiles[tileIdx];
+
+ // read all packets from this tile-part
+ while (1) {
+ if (tilePartToEOC) {
+ //~ peek for an EOC marker
+ cover(93);
+ } else if (tilePartLen == 0) {
+ break;
+ }
+
+ tileComp = &tile->tileComps[tile->comp];
+ resLevel = &tileComp->resLevels[tile->res];
+ precinct = &resLevel->precincts[tile->precinct];
+
+ //----- packet header
+
+ // setup
+ startBitBuf(tilePartLen);
+
+ // zero-length flag
+ if (!readBits(1, &bits)) {
+ goto err;
+ }
+ if (!bits) {
+ // packet is empty -- clear all code-block inclusion flags
+ cover(45);
+ for (sb = 0; sb < (Guint)(tile->res == 0 ? 1 : 3); ++sb) {
+ subband = &precinct->subbands[sb];
+ for (cbY = 0; cbY < subband->nYCBs; ++cbY) {
+ for (cbX = 0; cbX < subband->nXCBs; ++cbX) {
+ cb = &subband->cbs[cbY * subband->nXCBs + cbX];
+ cb->included = gFalse;
+ }
+ }
+ }
+ } else {
+
+ for (sb = 0; sb < (Guint)(tile->res == 0 ? 1 : 3); ++sb) {
+ subband = &precinct->subbands[sb];
+ for (cbY = 0; cbY < subband->nYCBs; ++cbY) {
+ for (cbX = 0; cbX < subband->nXCBs; ++cbX) {
+ cb = &subband->cbs[cbY * subband->nXCBs + cbX];
+
+ // skip code-blocks with no coefficients
+ if (cb->x0 >= cb->x1 || cb->y0 >= cb->y1) {
+ cover(46);
+ cb->included = gFalse;
+ continue;
+ }
+
+ // code-block inclusion
+ if (cb->seen) {
+ cover(47);
+ if (!readBits(1, &cb->included)) {
+ goto err;
+ }
+ } else {
+ cover(48);
+ ttVal = 0;
+ i = 0;
+ for (level = subband->maxTTLevel; level >= 0; --level) {
+ nx = jpxCeilDivPow2(subband->nXCBs, level);
+ ny = jpxCeilDivPow2(subband->nYCBs, level);
+ j = i + (cbY >> level) * nx + (cbX >> level);
+ if (!subband->inclusion[j].finished &&
+ !subband->inclusion[j].val) {
+ subband->inclusion[j].val = ttVal;
+ } else {
+ ttVal = subband->inclusion[j].val;
+ }
+ while (!subband->inclusion[j].finished &&
+ ttVal <= tile->layer) {
+ if (!readBits(1, &bits)) {
+ goto err;
+ }
+ if (bits == 1) {
+ subband->inclusion[j].finished = gTrue;
+ } else {
+ ++ttVal;
+ }
+ }
+ subband->inclusion[j].val = ttVal;
+ if (ttVal > tile->layer) {
+ break;
+ }
+ i += nx * ny;
+ }
+ cb->included = level < 0;
+ }
+
+ if (cb->included) {
+ cover(49);
+
+ // zero bit-plane count
+ if (!cb->seen) {
+ cover(50);
+ ttVal = 0;
+ i = 0;
+ for (level = subband->maxTTLevel; level >= 0; --level) {
+ nx = jpxCeilDivPow2(subband->nXCBs, level);
+ ny = jpxCeilDivPow2(subband->nYCBs, level);
+ j = i + (cbY >> level) * nx + (cbX >> level);
+ if (!subband->zeroBitPlane[j].finished &&
+ !subband->zeroBitPlane[j].val) {
+ subband->zeroBitPlane[j].val = ttVal;
+ } else {
+ ttVal = subband->zeroBitPlane[j].val;
+ }
+ while (!subband->zeroBitPlane[j].finished) {
+ if (!readBits(1, &bits)) {
+ goto err;
+ }
+ if (bits == 1) {
+ subband->zeroBitPlane[j].finished = gTrue;
+ } else {
+ ++ttVal;
+ }
+ }
+ subband->zeroBitPlane[j].val = ttVal;
+ i += nx * ny;
+ }
+ cb->nZeroBitPlanes = ttVal;
+ }
+
+ // number of coding passes
+ if (!readBits(1, &bits)) {
+ goto err;
+ }
+ if (bits == 0) {
+ cover(51);
+ cb->nCodingPasses = 1;
+ } else {
+ if (!readBits(1, &bits)) {
+ goto err;
+ }
+ if (bits == 0) {
+ cover(52);
+ cb->nCodingPasses = 2;
+ } else {
+ cover(53);
+ if (!readBits(2, &bits)) {
+ goto err;
+ }
+ if (bits < 3) {
+ cover(54);
+ cb->nCodingPasses = 3 + bits;
+ } else {
+ cover(55);
+ if (!readBits(5, &bits)) {
+ goto err;
+ }
+ if (bits < 31) {
+ cover(56);
+ cb->nCodingPasses = 6 + bits;
+ } else {
+ cover(57);
+ if (!readBits(7, &bits)) {
+ goto err;
+ }
+ cb->nCodingPasses = 37 + bits;
+ }
+ }
+ }
+ }
+
+ // update Lblock
+ while (1) {
+ if (!readBits(1, &bits)) {
+ goto err;
+ }
+ if (!bits) {
+ break;
+ }
+ ++cb->lBlock;
+ }
+
+ // length of compressed data
+ //~ deal with multiple codeword segments
+ for (n = cb->lBlock, i = cb->nCodingPasses >> 1;
+ i;
+ ++n, i >>= 1) ;
+ if (!readBits(n, &cb->dataLen)) {
+ goto err;
+ }
+ }
+ }
+ }
+ }
+ }
+ tilePartLen = finishBitBuf();
+
+ //----- packet data
+
+ for (sb = 0; sb < (Guint)(tile->res == 0 ? 1 : 3); ++sb) {
+ subband = &precinct->subbands[sb];
+ for (cbY = 0; cbY < subband->nYCBs; ++cbY) {
+ for (cbX = 0; cbX < subband->nXCBs; ++cbX) {
+ cb = &subband->cbs[cbY * subband->nXCBs + cbX];
+ if (cb->included) {
+ if (!readCodeBlockData(tileComp, resLevel, precinct, subband,
+ tile->res, sb, cb)) {
+ return gFalse;
+ }
+ tilePartLen -= cb->dataLen;
+ cb->seen = gTrue;
+ }
+ }
+ }
+ }
+
+ //----- next packet
+
+ switch (tile->progOrder) {
+ case 0: // layer, resolution level, component, precinct
+ cover(58);
+ if (++tile->comp == img.nComps) {
+ tile->comp = 0;
+ if (++tile->res == tile->maxNDecompLevels + 1) {
+ tile->res = 0;
+ if (++tile->layer == tile->nLayers) {
+ tile->layer = 0;
+ }
+ }
+ }
+ break;
+ case 1: // resolution level, layer, component, precinct
+ cover(59);
+ if (++tile->comp == img.nComps) {
+ tile->comp = 0;
+ if (++tile->layer == tile->nLayers) {
+ tile->layer = 0;
+ if (++tile->res == tile->maxNDecompLevels + 1) {
+ tile->res = 0;
+ }
+ }
+ }
+ break;
+ case 2: // resolution level, precinct, component, layer
+ //~ this isn't correct -- see B.12.1.3
+ cover(60);
+ if (++tile->layer == tile->nLayers) {
+ tile->layer = 0;
+ if (++tile->comp == img.nComps) {
+ tile->comp = 0;
+ if (++tile->res == tile->maxNDecompLevels + 1) {
+ tile->res = 0;
+ }
+ }
+ }
+ break;
+ case 3: // precinct, component, resolution level, layer
+ //~ this isn't correct -- see B.12.1.4
+ cover(61);
+ if (++tile->layer == tile->nLayers) {
+ tile->layer = 0;
+ if (++tile->res == tile->maxNDecompLevels + 1) {
+ tile->res = 0;
+ if (++tile->comp == img.nComps) {
+ tile->comp = 0;
+ }
+ }
+ }
+ break;
+ case 4: // component, precinct, resolution level, layer
+ //~ this isn't correct -- see B.12.1.5
+ cover(62);
+ if (++tile->layer == tile->nLayers) {
+ tile->layer = 0;
+ if (++tile->res == tile->maxNDecompLevels + 1) {
+ tile->res = 0;
+ if (++tile->comp == img.nComps) {
+ tile->comp = 0;
+ }
+ }
+ }
+ break;
+ }
+ }
+
+ return gTrue;
+
+ err:
+ error(getPos(), "Error in JPX stream");
+ return gFalse;
+}
+
+GBool JPXStream::readCodeBlockData(JPXTileComp *tileComp,
+ JPXResLevel * /*resLevel*/,
+ JPXPrecinct * /*precinct*/,
+ JPXSubband * /*subband*/,
+ Guint res, Guint sb,
+ JPXCodeBlock *cb) {
+ JPXCoeff *coeff0, *coeff1, *coeff;
+ Guint horiz, vert, diag, all, cx, xorBit;
+ int horizSign, vertSign;
+ Guint i, x, y0, y1, y2;
+
+ if (cb->arithDecoder) {
+ cover(63);
+ cb->arithDecoder->restart(cb->dataLen);
+ } else {
+ cover(64);
+ cb->arithDecoder = new JArithmeticDecoder();
+ cb->arithDecoder->setStream(str, cb->dataLen);
+ cb->arithDecoder->start();
+ cb->stats = new JArithmeticDecoderStats(jpxNContexts);
+ cb->stats->setEntry(jpxContextSigProp, 4, 0);
+ cb->stats->setEntry(jpxContextRunLength, 3, 0);
+ cb->stats->setEntry(jpxContextUniform, 46, 0);
+ }
+
+ for (i = 0; i < cb->nCodingPasses; ++i) {
+ switch (cb->nextPass) {
+
+ //----- significance propagation pass
+ case jpxPassSigProp:
+ cover(65);
+ for (y0 = cb->y0, coeff0 = cb->coeffs;
+ y0 < cb->y1;
+ y0 += 4, coeff0 += 4 << tileComp->codeBlockW) {
+ for (x = cb->x0, coeff1 = coeff0;
+ x < cb->x1;
+ ++x, ++coeff1) {
+ for (y1 = 0, coeff = coeff1;
+ y1 < 4 && y0+y1 < cb->y1;
+ ++y1, coeff += tileComp->cbW) {
+ if (!(coeff->flags & jpxCoeffSignificant)) {
+ horiz = vert = diag = 0;
+ horizSign = vertSign = 2;
+ if (x > cb->x0) {
+ if (coeff[-1].flags & jpxCoeffSignificant) {
+ ++horiz;
+ horizSign += (coeff[-1].flags & jpxCoeffSign) ? -1 : 1;
+ }
+ if (y0+y1 > cb->y0) {
+ diag += (coeff[-(int)tileComp->cbW - 1].flags
+ >> jpxCoeffSignificantB) & 1;
+ }
+ if (y0+y1 < cb->y1 - 1) {
+ diag += (coeff[tileComp->cbW - 1].flags
+ >> jpxCoeffSignificantB) & 1;
+ }
+ }
+ if (x < cb->x1 - 1) {
+ if (coeff[1].flags & jpxCoeffSignificant) {
+ ++horiz;
+ horizSign += (coeff[1].flags & jpxCoeffSign) ? -1 : 1;
+ }
+ if (y0+y1 > cb->y0) {
+ diag += (coeff[-(int)tileComp->cbW + 1].flags
+ >> jpxCoeffSignificantB) & 1;
+ }
+ if (y0+y1 < cb->y1 - 1) {
+ diag += (coeff[tileComp->cbW + 1].flags
+ >> jpxCoeffSignificantB) & 1;
+ }
+ }
+ if (y0+y1 > cb->y0) {
+ if (coeff[-(int)tileComp->cbW].flags & jpxCoeffSignificant) {
+ ++vert;
+ vertSign += (coeff[-(int)tileComp->cbW].flags & jpxCoeffSign)
+ ? -1 : 1;
+ }
+ }
+ if (y0+y1 < cb->y1 - 1) {
+ if (coeff[tileComp->cbW].flags & jpxCoeffSignificant) {
+ ++vert;
+ vertSign += (coeff[tileComp->cbW].flags & jpxCoeffSign)
+ ? -1 : 1;
+ }
+ }
+ cx = sigPropContext[horiz][vert][diag][res == 0 ? 1 : sb];
+ if (cx != 0) {
+ if (cb->arithDecoder->decodeBit(cx, cb->stats)) {
+ coeff->flags |= jpxCoeffSignificant | jpxCoeffFirstMagRef;
+ coeff->mag = (coeff->mag << 1) | 1;
+ cx = signContext[horizSign][vertSign][0];
+ xorBit = signContext[horizSign][vertSign][1];
+ if (cb->arithDecoder->decodeBit(cx, cb->stats) ^ xorBit) {
+ coeff->flags |= jpxCoeffSign;
+ }
+ }
+ ++coeff->len;
+ coeff->flags |= jpxCoeffTouched;
+ }
+ }
+ }
+ }
+ }
+ ++cb->nextPass;
+ break;
+
+ //----- magnitude refinement pass
+ case jpxPassMagRef:
+ cover(66);
+ for (y0 = cb->y0, coeff0 = cb->coeffs;
+ y0 < cb->y1;
+ y0 += 4, coeff0 += 4 << tileComp->codeBlockW) {
+ for (x = cb->x0, coeff1 = coeff0;
+ x < cb->x1;
+ ++x, ++coeff1) {
+ for (y1 = 0, coeff = coeff1;
+ y1 < 4 && y0+y1 < cb->y1;
+ ++y1, coeff += tileComp->cbW) {
+ if ((coeff->flags & jpxCoeffSignificant) &&
+ !(coeff->flags & jpxCoeffTouched)) {
+ if (coeff->flags & jpxCoeffFirstMagRef) {
+ all = 0;
+ if (x > cb->x0) {
+ all += (coeff[-1].flags >> jpxCoeffSignificantB) & 1;
+ if (y0+y1 > cb->y0) {
+ all += (coeff[-(int)tileComp->cbW - 1].flags
+ >> jpxCoeffSignificantB) & 1;
+ }
+ if (y0+y1 < cb->y1 - 1) {
+ all += (coeff[tileComp->cbW - 1].flags
+ >> jpxCoeffSignificantB) & 1;
+ }
+ }
+ if (x < cb->x1 - 1) {
+ all += (coeff[1].flags >> jpxCoeffSignificantB) & 1;
+ if (y0+y1 > cb->y0) {
+ all += (coeff[-(int)tileComp->cbW + 1].flags
+ >> jpxCoeffSignificantB) & 1;
+ }
+ if (y0+y1 < cb->y1 - 1) {
+ all += (coeff[tileComp->cbW + 1].flags
+ >> jpxCoeffSignificantB) & 1;
+ }
+ }
+ if (y0+y1 > cb->y0) {
+ all += (coeff[-(int)tileComp->cbW].flags
+ >> jpxCoeffSignificantB) & 1;
+ }
+ if (y0+y1 < cb->y1 - 1) {
+ all += (coeff[tileComp->cbW].flags
+ >> jpxCoeffSignificantB) & 1;
+ }
+ cx = all ? 15 : 14;
+ } else {
+ cx = 16;
+ }
+ coeff->mag = (coeff->mag << 1) |
+ cb->arithDecoder->decodeBit(cx, cb->stats);
+ ++coeff->len;
+ coeff->flags |= jpxCoeffTouched;
+ coeff->flags &= ~jpxCoeffFirstMagRef;
+ }
+ }
+ }
+ }
+ ++cb->nextPass;
+ break;
+
+ //----- cleanup pass
+ case jpxPassCleanup:
+ cover(67);
+ for (y0 = cb->y0, coeff0 = cb->coeffs;
+ y0 < cb->y1;
+ y0 += 4, coeff0 += 4 << tileComp->codeBlockW) {
+ for (x = cb->x0, coeff1 = coeff0;
+ x < cb->x1;
+ ++x, ++coeff1) {
+ y1 = 0;
+ if (y0 + 3 < cb->y1 &&
+ !(coeff1->flags & jpxCoeffTouched) &&
+ !(coeff1[tileComp->cbW].flags & jpxCoeffTouched) &&
+ !(coeff1[2 * tileComp->cbW].flags & jpxCoeffTouched) &&
+ !(coeff1[3 * tileComp->cbW].flags & jpxCoeffTouched) &&
+ (x == cb->x0 || y0 == cb->y0 ||
+ !(coeff1[-(int)tileComp->cbW - 1].flags
+ & jpxCoeffSignificant)) &&
+ (y0 == cb->y0 ||
+ !(coeff1[-(int)tileComp->cbW].flags
+ & jpxCoeffSignificant)) &&
+ (x == cb->x1 - 1 || y0 == cb->y0 ||
+ !(coeff1[-(int)tileComp->cbW + 1].flags
+ & jpxCoeffSignificant)) &&
+ (x == cb->x0 ||
+ (!(coeff1[-1].flags & jpxCoeffSignificant) &&
+ !(coeff1[tileComp->cbW - 1].flags
+ & jpxCoeffSignificant) &&
+ !(coeff1[2 * tileComp->cbW - 1].flags
+ & jpxCoeffSignificant) &&
+ !(coeff1[3 * tileComp->cbW - 1].flags
+ & jpxCoeffSignificant))) &&
+ (x == cb->x1 - 1 ||
+ (!(coeff1[1].flags & jpxCoeffSignificant) &&
+ !(coeff1[tileComp->cbW + 1].flags
+ & jpxCoeffSignificant) &&
+ !(coeff1[2 * tileComp->cbW + 1].flags
+ & jpxCoeffSignificant) &&
+ !(coeff1[3 * tileComp->cbW + 1].flags
+ & jpxCoeffSignificant))) &&
+ (x == cb->x0 || y0+4 == cb->y1 ||
+ !(coeff1[4 * tileComp->cbW - 1].flags & jpxCoeffSignificant)) &&
+ (y0+4 == cb->y1 ||
+ !(coeff1[4 * tileComp->cbW].flags & jpxCoeffSignificant)) &&
+ (x == cb->x1 - 1 || y0+4 == cb->y1 ||
+ !(coeff1[4 * tileComp->cbW + 1].flags
+ & jpxCoeffSignificant))) {
+ if (cb->arithDecoder->decodeBit(jpxContextRunLength, cb->stats)) {
+ y1 = cb->arithDecoder->decodeBit(jpxContextUniform, cb->stats);
+ y1 = (y1 << 1) |
+ cb->arithDecoder->decodeBit(jpxContextUniform, cb->stats);
+ for (y2 = 0, coeff = coeff1;
+ y2 < y1;
+ ++y2, coeff += tileComp->cbW) {
+ ++coeff->len;
+ }
+ coeff->flags |= jpxCoeffSignificant | jpxCoeffFirstMagRef;
+ coeff->mag = (coeff->mag << 1) | 1;
+ ++coeff->len;
+ cx = signContext[2][2][0];
+ xorBit = signContext[2][2][1];
+ if (cb->arithDecoder->decodeBit(cx, cb->stats) ^ xorBit) {
+ coeff->flags |= jpxCoeffSign;
+ }
+ ++y1;
+ } else {
+ for (y1 = 0, coeff = coeff1;
+ y1 < 4;
+ ++y1, coeff += tileComp->cbW) {
+ ++coeff->len;
+ }
+ y1 = 4;
+ }
+ }
+ for (coeff = &coeff1[y1 << tileComp->codeBlockW];
+ y1 < 4 && y0 + y1 < cb->y1;
+ ++y1, coeff += tileComp->cbW) {
+ if (!(coeff->flags & jpxCoeffTouched)) {
+ horiz = vert = diag = 0;
+ horizSign = vertSign = 2;
+ if (x > cb->x0) {
+ if (coeff[-1].flags & jpxCoeffSignificant) {
+ ++horiz;
+ horizSign += (coeff[-1].flags & jpxCoeffSign) ? -1 : 1;
+ }
+ if (y0+y1 > cb->y0) {
+ diag += (coeff[-(int)tileComp->cbW - 1].flags
+ >> jpxCoeffSignificantB) & 1;
+ }
+ if (y0+y1 < cb->y1 - 1) {
+ diag += (coeff[tileComp->cbW - 1].flags
+ >> jpxCoeffSignificantB) & 1;
+ }
+ }
+ if (x < cb->x1 - 1) {
+ if (coeff[1].flags & jpxCoeffSignificant) {
+ ++horiz;
+ horizSign += (coeff[1].flags & jpxCoeffSign) ? -1 : 1;
+ }
+ if (y0+y1 > cb->y0) {
+ diag += (coeff[-(int)tileComp->cbW + 1].flags
+ >> jpxCoeffSignificantB) & 1;
+ }
+ if (y0+y1 < cb->y1 - 1) {
+ diag += (coeff[tileComp->cbW + 1].flags
+ >> jpxCoeffSignificantB) & 1;
+ }
+ }
+ if (y0+y1 > cb->y0) {
+ if (coeff[-(int)tileComp->cbW].flags & jpxCoeffSignificant) {
+ ++vert;
+ vertSign += (coeff[-(int)tileComp->cbW].flags & jpxCoeffSign)
+ ? -1 : 1;
+ }
+ }
+ if (y0+y1 < cb->y1 - 1) {
+ if (coeff[tileComp->cbW].flags & jpxCoeffSignificant) {
+ ++vert;
+ vertSign += (coeff[tileComp->cbW].flags & jpxCoeffSign)
+ ? -1 : 1;
+ }
+ }
+ cx = sigPropContext[horiz][vert][diag][res == 0 ? 1 : sb];
+ if (cb->arithDecoder->decodeBit(cx, cb->stats)) {
+ coeff->flags |= jpxCoeffSignificant | jpxCoeffFirstMagRef;
+ coeff->mag = (coeff->mag << 1) | 1;
+ cx = signContext[horizSign][vertSign][0];
+ xorBit = signContext[horizSign][vertSign][1];
+ if (cb->arithDecoder->decodeBit(cx, cb->stats) ^ xorBit) {
+ coeff->flags |= jpxCoeffSign;
+ }
+ }
+ ++coeff->len;
+ } else {
+ coeff->flags &= ~jpxCoeffTouched;
+ }
+ }
+ }
+ }
+ cb->nextPass = jpxPassSigProp;
+ break;
+ }
+ }
+
+ cb->arithDecoder->cleanup();
+ return gTrue;
+}
+
+// Inverse quantization, and wavelet transform (IDWT). This also does
+// the initial shift to convert to fixed point format.
+void JPXStream::inverseTransform(JPXTileComp *tileComp) {
+ JPXResLevel *resLevel;
+ JPXPrecinct *precinct;
+ JPXSubband *subband;
+ JPXCodeBlock *cb;
+ JPXCoeff *coeff0, *coeff;
+ Guint qStyle, guard, eps, shift;
+ int shift2;
+ double mu;
+ int val;
+ int *dataPtr;
+ Guint nx0, ny0, nx1, ny1;
+ Guint r, cbX, cbY, x, y;
+
+ cover(68);
+
+ //----- (NL)LL subband (resolution level 0)
+
+ resLevel = &tileComp->resLevels[0];
+ precinct = &resLevel->precincts[0];
+ subband = &precinct->subbands[0];
+
+ // i-quant parameters
+ qStyle = tileComp->quantStyle & 0x1f;
+ guard = (tileComp->quantStyle >> 5) & 7;
+ if (qStyle == 0) {
+ cover(69);
+ eps = (tileComp->quantSteps[0] >> 3) & 0x1f;
+ shift = guard + eps - 1;
+ mu = 0; // make gcc happy
+ } else {
+ cover(70);
+ shift = guard - 1 + tileComp->prec;
+ mu = (double)(0x800 + (tileComp->quantSteps[0] & 0x7ff)) / 2048.0;
+ }
+ if (tileComp->transform == 0) {
+ cover(71);
+ shift += fracBits;
+ }
+
+ // copy (NL)LL into the upper-left corner of the data array, doing
+ // the fixed point adjustment and dequantization along the way
+ cb = subband->cbs;
+ for (cbY = 0; cbY < subband->nYCBs; ++cbY) {
+ for (cbX = 0; cbX < subband->nXCBs; ++cbX) {
+ for (y = cb->y0, coeff0 = cb->coeffs;
+ y < cb->y1;
+ ++y, coeff0 += tileComp->cbW) {
+ dataPtr = &tileComp->data[(y - subband->y0)
+ * (tileComp->x1 - tileComp->x0)
+ + (cb->x0 - subband->x0)];
+ for (x = cb->x0, coeff = coeff0; x < cb->x1; ++x, ++coeff) {
+ val = (int)coeff->mag;
+ if (val != 0) {
+ shift2 = shift - (cb->nZeroBitPlanes + coeff->len);
+ if (shift2 > 0) {
+ cover(94);
+ val = (val << shift2) + (1 << (shift2 - 1));
+ } else {
+ cover(95);
+ val >>= -shift2;
+ }
+ if (qStyle == 0) {
+ cover(96);
+ if (tileComp->transform == 0) {
+ cover(97);
+ val &= -1 << fracBits;
+ }
+ } else {
+ cover(98);
+ val = (int)((double)val * mu);
+ }
+ if (coeff->flags & jpxCoeffSign) {
+ cover(99);
+ val = -val;
+ }
+ }
+ *dataPtr++ = val;
+ }
+ }
+ ++cb;
+ }
+ }
+
+ //----- IDWT for each level
+
+ for (r = 1; r <= tileComp->nDecompLevels; ++r) {
+ resLevel = &tileComp->resLevels[r];
+
+ // (n)LL is already in the upper-left corner of the
+ // tile-component data array -- interleave with (n)HL/LH/HH
+ // and inverse transform to get (n-1)LL, which will be stored
+ // in the upper-left corner of the tile-component data array
+ if (r == tileComp->nDecompLevels) {
+ cover(72);
+ nx0 = tileComp->x0;
+ ny0 = tileComp->y0;
+ nx1 = tileComp->x1;
+ ny1 = tileComp->y1;
+ } else {
+ cover(73);
+ nx0 = tileComp->resLevels[r+1].x0;
+ ny0 = tileComp->resLevels[r+1].y0;
+ nx1 = tileComp->resLevels[r+1].x1;
+ ny1 = tileComp->resLevels[r+1].y1;
+ }
+ inverseTransformLevel(tileComp, r, resLevel, nx0, ny0, nx1, ny1);
+ }
+}
+
+// Do one level of the inverse transform:
+// - take (n)LL from the tile-component data array
+// - take (n)HL/LH/HH from <resLevel>
+// - leave the resulting (n-1)LL in the tile-component data array
+void JPXStream::inverseTransformLevel(JPXTileComp *tileComp,
+ Guint r, JPXResLevel *resLevel,
+ Guint nx0, Guint ny0,
+ Guint nx1, Guint ny1) {
+ JPXPrecinct *precinct;
+ JPXSubband *subband;
+ JPXCodeBlock *cb;
+ JPXCoeff *coeff0, *coeff;
+ Guint qStyle, guard, eps, shift, t;
+ int shift2;
+ double mu;
+ int val;
+ int *dataPtr;
+ Guint xo, yo;
+ Guint x, y, sb, cbX, cbY;
+ int xx, yy;
+
+ //----- interleave
+
+ // spread out LL
+ for (yy = resLevel->y1 - 1; yy >= (int)resLevel->y0; --yy) {
+ for (xx = resLevel->x1 - 1; xx >= (int)resLevel->x0; --xx) {
+ tileComp->data[(2 * yy - ny0) * (tileComp->x1 - tileComp->x0)
+ + (2 * xx - nx0)] =
+ tileComp->data[(yy - resLevel->y0) * (tileComp->x1 - tileComp->x0)
+ + (xx - resLevel->x0)];
+ }
+ }
+
+ // i-quant parameters
+ qStyle = tileComp->quantStyle & 0x1f;
+ guard = (tileComp->quantStyle >> 5) & 7;
+
+ // interleave HL/LH/HH
+ precinct = &resLevel->precincts[0];
+ for (sb = 0; sb < 3; ++sb) {
+
+ // i-quant parameters
+ if (qStyle == 0) {
+ cover(100);
+ eps = (tileComp->quantSteps[3*r - 2 + sb] >> 3) & 0x1f;
+ shift = guard + eps - 1;
+ mu = 0; // make gcc happy
+ } else {
+ cover(101);
+ shift = guard + tileComp->prec;
+ if (sb == 2) {
+ cover(102);
+ ++shift;
+ }
+ t = tileComp->quantSteps[qStyle == 1 ? 0 : (3*r - 2 + sb)];
+ mu = (double)(0x800 + (t & 0x7ff)) / 2048.0;
+ }
+ if (tileComp->transform == 0) {
+ cover(103);
+ shift += fracBits;
+ }
+
+ // copy the subband coefficients into the data array, doing the
+ // fixed point adjustment and dequantization along the way
+ xo = (sb & 1) ? 0 : 1;
+ yo = (sb > 0) ? 1 : 0;
+ subband = &precinct->subbands[sb];
+ cb = subband->cbs;
+ for (cbY = 0; cbY < subband->nYCBs; ++cbY) {
+ for (cbX = 0; cbX < subband->nXCBs; ++cbX) {
+ for (y = cb->y0, coeff0 = cb->coeffs;
+ y < cb->y1;
+ ++y, coeff0 += tileComp->cbW) {
+ dataPtr = &tileComp->data[(2 * y + yo - ny0)
+ * (tileComp->x1 - tileComp->x0)
+ + (2 * cb->x0 + xo - nx0)];
+ for (x = cb->x0, coeff = coeff0; x < cb->x1; ++x, ++coeff) {
+ val = (int)coeff->mag;
+ if (val != 0) {
+ shift2 = shift - (cb->nZeroBitPlanes + coeff->len);
+ if (shift2 > 0) {
+ cover(74);
+ val = (val << shift2) + (1 << (shift2 - 1));
+ } else {
+ cover(75);
+ val >>= -shift2;
+ }
+ if (qStyle == 0) {
+ cover(76);
+ if (tileComp->transform == 0) {
+ val &= -1 << fracBits;
+ }
+ } else {
+ cover(77);
+ val = (int)((double)val * mu);
+ }
+ if (coeff->flags & jpxCoeffSign) {
+ cover(78);
+ val = -val;
+ }
+ }
+ *dataPtr = val;
+ dataPtr += 2;
+ }
+ }
+ ++cb;
+ }
+ }
+ }
+
+ //----- horizontal (row) transforms
+ dataPtr = tileComp->data;
+ for (y = 0; y < ny1 - ny0; ++y) {
+ inverseTransform1D(tileComp, dataPtr, 1, nx0, nx1);
+ dataPtr += tileComp->x1 - tileComp->x0;
+ }
+
+ //----- vertical (column) transforms
+ dataPtr = tileComp->data;
+ for (x = 0; x < nx1 - nx0; ++x) {
+ inverseTransform1D(tileComp, dataPtr,
+ tileComp->x1 - tileComp->x0, ny0, ny1);
+ ++dataPtr;
+ }
+}
+
+void JPXStream::inverseTransform1D(JPXTileComp *tileComp,
+ int *data, Guint stride,
+ Guint i0, Guint i1) {
+ int *buf;
+ Guint offset, end, i;
+
+ //----- special case for length = 1
+ if (i1 - i0 == 1) {
+ cover(79);
+ if (i0 & 1) {
+ cover(104);
+ *data >>= 1;
+ }
+
+ } else {
+ cover(80);
+
+ // choose an offset: this makes even buf[] indexes correspond to
+ // odd values of i, and vice versa
+ offset = 3 + (i0 & 1);
+ end = offset + i1 - i0;
+
+ //----- gather
+ buf = tileComp->buf;
+ for (i = 0; i < i1 - i0; ++i) {
+ buf[offset + i] = data[i * stride];
+ }
+
+ //----- extend right
+ buf[end] = buf[end - 2];
+ if (i1 - i0 == 2) {
+ cover(81);
+ buf[end+1] = buf[offset + 1];
+ buf[end+2] = buf[offset];
+ buf[end+3] = buf[offset + 1];
+ } else {
+ cover(82);
+ buf[end+1] = buf[end - 3];
+ if (i1 - i0 == 3) {
+ cover(105);
+ buf[end+2] = buf[offset + 1];
+ buf[end+3] = buf[offset + 2];
+ } else {
+ cover(106);
+ buf[end+2] = buf[end - 4];
+ if (i1 - i0 == 4) {
+ cover(107);
+ buf[end+3] = buf[offset + 1];
+ } else {
+ cover(108);
+ buf[end+3] = buf[end - 5];
+ }
+ }
+ }
+
+ //----- extend left
+ buf[offset - 1] = buf[offset + 1];
+ buf[offset - 2] = buf[offset + 2];
+ buf[offset - 3] = buf[offset + 3];
+ if (offset == 4) {
+ cover(83);
+ buf[0] = buf[offset + 4];
+ }
+
+ //----- 9-7 irreversible filter
+
+ if (tileComp->transform == 0) {
+ cover(84);
+ // step 1 (even)
+ for (i = 1; i <= end + 2; i += 2) {
+ buf[i] = (int)(idwtKappa * buf[i]);
+ }
+ // step 2 (odd)
+ for (i = 0; i <= end + 3; i += 2) {
+ buf[i] = (int)(idwtIKappa * buf[i]);
+ }
+ // step 3 (even)
+ for (i = 1; i <= end + 2; i += 2) {
+ buf[i] = (int)(buf[i] - idwtDelta * (buf[i-1] + buf[i+1]));
+ }
+ // step 4 (odd)
+ for (i = 2; i <= end + 1; i += 2) {
+ buf[i] = (int)(buf[i] - idwtGamma * (buf[i-1] + buf[i+1]));
+ }
+ // step 5 (even)
+ for (i = 3; i <= end; i += 2) {
+ buf[i] = (int)(buf[i] - idwtBeta * (buf[i-1] + buf[i+1]));
+ }
+ // step 6 (odd)
+ for (i = 4; i <= end - 1; i += 2) {
+ buf[i] = (int)(buf[i] - idwtAlpha * (buf[i-1] + buf[i+1]));
+ }
+
+ //----- 5-3 reversible filter
+
+ } else {
+ cover(85);
+ // step 1 (even)
+ for (i = 3; i <= end; i += 2) {
+ buf[i] -= (buf[i-1] + buf[i+1] + 2) >> 2;
+ }
+ // step 2 (odd)
+ for (i = 4; i < end; i += 2) {
+ buf[i] += (buf[i-1] + buf[i+1]) >> 1;
+ }
+ }
+
+ //----- scatter
+ for (i = 0; i < i1 - i0; ++i) {
+ data[i * stride] = buf[offset + i];
+ }
+ }
+}
+
+// Inverse multi-component transform and DC level shift. This also
+// converts fixed point samples back to integers.
+GBool JPXStream::inverseMultiCompAndDC(JPXTile *tile) {
+ JPXTileComp *tileComp;
+ int coeff, d0, d1, d2, t, minVal, maxVal, zeroVal;
+ int *dataPtr;
+ Guint j, comp, x, y;
+
+ //----- inverse multi-component transform
+
+ if (tile->multiComp == 1) {
+ cover(86);
+ if (img.nComps < 3 ||
+ tile->tileComps[0].hSep != tile->tileComps[1].hSep ||
+ tile->tileComps[0].vSep != tile->tileComps[1].vSep ||
+ tile->tileComps[1].hSep != tile->tileComps[2].hSep ||
+ tile->tileComps[1].vSep != tile->tileComps[2].vSep) {
+ return gFalse;
+ }
+
+ // inverse irreversible multiple component transform
+ if (tile->tileComps[0].transform == 0) {
+ cover(87);
+ j = 0;
+ for (y = 0; y < tile->tileComps[0].y1 - tile->tileComps[0].y0; ++y) {
+ for (x = 0; x < tile->tileComps[0].x1 - tile->tileComps[0].x0; ++x) {
+ d0 = tile->tileComps[0].data[j];
+ d1 = tile->tileComps[1].data[j];
+ d2 = tile->tileComps[2].data[j];
+ tile->tileComps[0].data[j] = (int)(d0 + 1.402 * d2 + 0.5);
+ tile->tileComps[1].data[j] =
+ (int)(d0 - 0.34413 * d1 - 0.71414 * d2 + 0.5);
+ tile->tileComps[2].data[j] = (int)(d0 + 1.772 * d1 + 0.5);
+ ++j;
+ }
+ }
+
+ // inverse reversible multiple component transform
+ } else {
+ cover(88);
+ j = 0;
+ for (y = 0; y < tile->tileComps[0].y1 - tile->tileComps[0].y0; ++y) {
+ for (x = 0; x < tile->tileComps[0].x1 - tile->tileComps[0].x0; ++x) {
+ d0 = tile->tileComps[0].data[j];
+ d1 = tile->tileComps[1].data[j];
+ d2 = tile->tileComps[2].data[j];
+ tile->tileComps[1].data[j] = t = d0 - ((d2 + d1) >> 2);
+ tile->tileComps[0].data[j] = d2 + t;
+ tile->tileComps[2].data[j] = d1 + t;
+ ++j;
+ }
+ }
+ }
+ }
+
+ //----- DC level shift
+ for (comp = 0; comp < img.nComps; ++comp) {
+ tileComp = &tile->tileComps[comp];
+
+ // signed: clip
+ if (tileComp->sgned) {
+ cover(89);
+ minVal = -(1 << (tileComp->prec - 1));
+ maxVal = (1 << (tileComp->prec - 1)) - 1;
+ dataPtr = tileComp->data;
+ for (y = 0; y < tileComp->y1 - tileComp->y0; ++y) {
+ for (x = 0; x < tileComp->x1 - tileComp->x0; ++x) {
+ coeff = *dataPtr;
+ if (tileComp->transform == 0) {
+ cover(109);
+ coeff >>= fracBits;
+ }
+ if (coeff < minVal) {
+ cover(110);
+ coeff = minVal;
+ } else if (coeff > maxVal) {
+ cover(111);
+ coeff = maxVal;
+ }
+ *dataPtr++ = coeff;
+ }
+ }
+
+ // unsigned: inverse DC level shift and clip
+ } else {
+ cover(90);
+ maxVal = (1 << tileComp->prec) - 1;
+ zeroVal = 1 << (tileComp->prec - 1);
+ dataPtr = tileComp->data;
+ for (y = 0; y < tileComp->y1 - tileComp->y0; ++y) {
+ for (x = 0; x < tileComp->x1 - tileComp->x0; ++x) {
+ coeff = *dataPtr;
+ if (tileComp->transform == 0) {
+ cover(112);
+ coeff >>= fracBits;
+ }
+ coeff += zeroVal;
+ if (coeff < 0) {
+ cover(113);
+ coeff = 0;
+ } else if (coeff > maxVal) {
+ cover(114);
+ coeff = maxVal;
+ }
+ *dataPtr++ = coeff;
+ }
+ }
+ }
+ }
+
+ return gTrue;
+}
+
+GBool JPXStream::readBoxHdr(Guint *boxType, Guint *boxLen, Guint *dataLen) {
+ Guint len, lenH;
+
+ if (!readULong(&len) ||
+ !readULong(boxType)) {
+ return gFalse;
+ }
+ if (len == 1) {
+ if (!readULong(&lenH) || !readULong(&len)) {
+ return gFalse;
+ }
+ if (lenH) {
+ error(getPos(), "JPX stream contains a box larger than 2^32 bytes");
+ return gFalse;
+ }
+ *boxLen = len;
+ *dataLen = len - 16;
+ } else if (len == 0) {
+ *boxLen = 0;
+ *dataLen = 0;
+ } else {
+ *boxLen = len;
+ *dataLen = len - 8;
+ }
+ return gTrue;
+}
+
+int JPXStream::readMarkerHdr(int *segType, Guint *segLen) {
+ int c;
+
+ do {
+ do {
+ if ((c = str->getChar()) == EOF) {
+ return gFalse;
+ }
+ } while (c != 0xff);
+ do {
+ if ((c = str->getChar()) == EOF) {
+ return gFalse;
+ }
+ } while (c == 0xff);
+ } while (c == 0x00);
+ *segType = c;
+ if ((c >= 0x30 && c <= 0x3f) ||
+ c == 0x4f || c == 0x92 || c == 0x93 || c == 0xd9) {
+ *segLen = 0;
+ return gTrue;
+ }
+ return readUWord(segLen);
+}
+
+GBool JPXStream::readUByte(Guint *x) {
+ int c0;
+
+ if ((c0 = str->getChar()) == EOF) {
+ return gFalse;
+ }
+ *x = (Guint)c0;
+ return gTrue;
+}
+
+GBool JPXStream::readByte(int *x) {
+ int c0;
+
+ if ((c0 = str->getChar()) == EOF) {
+ return gFalse;
+ }
+ *x = c0;
+ if (c0 & 0x80) {
+ *x |= -1 - 0xff;
+ }
+ return gTrue;
+}
+
+GBool JPXStream::readUWord(Guint *x) {
+ int c0, c1;
+
+ if ((c0 = str->getChar()) == EOF ||
+ (c1 = str->getChar()) == EOF) {
+ return gFalse;
+ }
+ *x = (Guint)((c0 << 8) | c1);
+ return gTrue;
+}
+
+GBool JPXStream::readULong(Guint *x) {
+ int c0, c1, c2, c3;
+
+ if ((c0 = str->getChar()) == EOF ||
+ (c1 = str->getChar()) == EOF ||
+ (c2 = str->getChar()) == EOF ||
+ (c3 = str->getChar()) == EOF) {
+ return gFalse;
+ }
+ *x = (Guint)((c0 << 24) | (c1 << 16) | (c2 << 8) | c3);
+ return gTrue;
+}
+
+GBool JPXStream::readNBytes(int nBytes, GBool signd, int *x) {
+ int y, c, i;
+
+ y = 0;
+ for (i = 0; i < nBytes; ++i) {
+ if ((c = str->getChar()) == EOF) {
+ return gFalse;
+ }
+ y = (y << 8) + c;
+ }
+ if (signd) {
+ if (y & (1 << (8 * nBytes - 1))) {
+ y |= -1 << (8 * nBytes);
+ }
+ }
+ *x = y;
+ return gTrue;
+}
+
+GBool JPXStream::readBits(int nBits, Guint *x) {
+ int c;
+
+ while (bitBufLen < nBits) {
+ if (byteCount == 0 || (c = str->getChar()) == EOF) {
+ return gFalse;
+ }
+ --byteCount;
+ if (bitBufSkip) {
+ bitBuf = (bitBuf << 7) | (c & 0x7f);
+ bitBufLen += 7;
+ } else {
+ bitBuf = (bitBuf << 8) | (c & 0xff);
+ bitBufLen += 8;
+ }
+ bitBufSkip = c == 0xff;
+ }
+ *x = (bitBuf >> (bitBufLen - nBits)) & ((1 << nBits) - 1);
+ bitBufLen -= nBits;
+ return gTrue;
+}
+
+void JPXStream::startBitBuf(Guint byteCountA) {
+ bitBufLen = 0;
+ bitBufSkip = gFalse;
+ byteCount = byteCountA;
+}
+
+Guint JPXStream::finishBitBuf() {
+ if (bitBufSkip) {
+ str->getChar();
+ --byteCount;
+ }
+ return byteCount;
+}