diff options
Diffstat (limited to 'src/jogl/classes/jogamp/opengl/util/pngj')
3 files changed, 1438 insertions, 1336 deletions
diff --git a/src/jogl/classes/jogamp/opengl/util/pngj/PngReader.java b/src/jogl/classes/jogamp/opengl/util/pngj/PngReader.java index 8cb4295a5..e42dd8733 100644 --- a/src/jogl/classes/jogamp/opengl/util/pngj/PngReader.java +++ b/src/jogl/classes/jogamp/opengl/util/pngj/PngReader.java @@ -1,940 +1,1000 @@ -package jogamp.opengl.util.pngj;
-
-import java.io.IOException;
-import java.io.InputStream;
-import java.util.Arrays;
-import java.util.HashSet;
-import java.util.zip.CRC32;
-import java.util.zip.InflaterInputStream;
-
-import jogamp.opengl.util.pngj.ImageInfo;
-import jogamp.opengl.util.pngj.ImageLine.SampleType;
-import jogamp.opengl.util.pngj.chunks.ChunkHelper;
-import jogamp.opengl.util.pngj.chunks.ChunkLoadBehaviour;
-import jogamp.opengl.util.pngj.chunks.ChunkRaw;
-import jogamp.opengl.util.pngj.chunks.ChunksList;
-import jogamp.opengl.util.pngj.chunks.PngChunk;
-import jogamp.opengl.util.pngj.chunks.PngChunkIDAT;
-import jogamp.opengl.util.pngj.chunks.PngChunkIHDR;
-import jogamp.opengl.util.pngj.chunks.PngChunkSkipped;
-import jogamp.opengl.util.pngj.chunks.PngMetadata;
-
-/**
- * Reads a PNG image, line by line.
- * <p>
- * The reading sequence is as follows: <br>
- * 1. At construction time, the header and IHDR chunk are read (basic image info) <br>
- * 2. Afterwards you can set some additional global options. Eg. {@link #setUnpackedMode(boolean)},
- * {@link #setCrcCheckDisabled()}.<br>
- * 3. Optional: If you call getMetadata() or getChunksLisk() before start reading the rows, all the chunks before IDAT
- * are automatically loaded and available <br>
- * 4a. The rows are read onen by one of the <tt>readRowXXX</tt> methods: {@link #readRowInt(int)},
- * {@link PngReader#readRowByte(int)}, etc, in order, from 0 to nrows-1 (you can skip or repeat rows, but not go
- * backwards)<br>
- * 4b. Alternatively, you can read all rows, or a subset, in a single call: {@link #readRowsInt()},
- * {@link #readRowsByte()} ,etc. In general this consumes more memory, but for interlaced images this is equally
- * efficient, and more so if reading a small subset of rows.<br>
- * 5. Read of the last row auyomatically loads the trailing chunks, and ends the reader.<br>
- * 6. end() forcibly finishes/aborts the reading and closes the stream
- */
-public class PngReader {
- /**
- * Basic image info - final and inmutable.
- */
- public final ImageInfo imgInfo;
-
- /**
- * not necesarily a filename, can be a description - merely informative
- */
- protected final String filename;
-
- private ChunkLoadBehaviour chunkLoadBehaviour = ChunkLoadBehaviour.LOAD_CHUNK_ALWAYS; // see setter/getter
-
- private boolean shouldCloseStream = true; // true: closes stream after ending - see setter/getter
-
- // some performance/defensive limits
- private long maxTotalBytesRead = 200 * 1024 * 1024; // 200MB
- private int maxBytesMetadata = 5 * 1024 * 1024; // for ancillary chunks - see setter/getter
- private int skipChunkMaxSize = 2 * 1024 * 1024; // chunks exceeding this size will be skipped (nor even CRC checked)
- private String[] skipChunkIds = { "fdAT" }; // chunks with these ids will be skipped (nor even CRC checked)
- private HashSet<String> skipChunkIdsSet; // lazily created from skipChunksById
-
- protected final PngMetadata metadata; // this a wrapper over chunks
- protected final ChunksList chunksList;
-
- protected ImageLine imgLine;
-
- // line as bytes, counting from 1 (index 0 is reserved for filter type)
- protected byte[] rowb = null;
- protected byte[] rowbprev = null; // rowb previous
- protected byte[] rowbfilter = null; // current line 'filtered': exactly as in uncompressed stream
-
- // only set for interlaced PNG
- private final boolean interlaced;
- private final PngDeinterlacer deinterlacer;
-
- private boolean crcEnabled = true;
-
- // this only influences the 1-2-4 bitdepth format
- private boolean unpackedMode = false;
- /**
- * Current chunk group, (0-6) already read or reading
- * <p>
- * see {@link ChunksList}
- */
- protected int currentChunkGroup = -1;
-
- protected int rowNum = -1; // last read row number, starting from 0
- private long offset = 0; // offset in InputStream = bytes read
- private int bytesChunksLoaded; // bytes loaded from anciallary chunks
-
- protected final InputStream inputStream;
- protected InflaterInputStream idatIstream;
- protected PngIDatChunkInputStream iIdatCstream;
-
- protected CRC32 crctest; // If set to non null, it gets a CRC of the unfiltered bytes, to check for images equality
-
- /**
- * Constructs a PngReader from an InputStream.
- * <p>
- * See also <code>FileHelper.createPngReader(File f)</code> if available.
- *
- * Reads only the signature and first chunk (IDHR)
- *
- * @param filenameOrDescription
- * : Optional, can be a filename or a description. Just for error/debug messages
- *
- */
- public PngReader(InputStream inputStream, String filenameOrDescription) {
- this.filename = filenameOrDescription == null ? "" : filenameOrDescription;
- this.inputStream = inputStream;
- this.chunksList = new ChunksList(null);
- this.metadata = new PngMetadata(chunksList);
- // starts reading: signature
- byte[] pngid = new byte[8];
- PngHelperInternal.readBytes(inputStream, pngid, 0, pngid.length);
- offset += pngid.length;
- if (!Arrays.equals(pngid, PngHelperInternal.getPngIdSignature()))
- throw new PngjInputException("Bad PNG signature");
- // reads first chunk
- currentChunkGroup = ChunksList.CHUNK_GROUP_0_IDHR;
- int clen = PngHelperInternal.readInt4(inputStream);
- offset += 4;
- if (clen != 13)
- throw new PngjInputException("IDHR chunk len != 13 ?? " + clen);
- byte[] chunkid = new byte[4];
- PngHelperInternal.readBytes(inputStream, chunkid, 0, 4);
- if (!Arrays.equals(chunkid, ChunkHelper.b_IHDR))
- throw new PngjInputException("IHDR not found as first chunk??? [" + ChunkHelper.toString(chunkid) + "]");
- offset += 4;
- PngChunkIHDR ihdr = (PngChunkIHDR) readChunk(chunkid, clen, false);
- boolean alpha = (ihdr.getColormodel() & 0x04) != 0;
- boolean palette = (ihdr.getColormodel() & 0x01) != 0;
- boolean grayscale = (ihdr.getColormodel() == 0 || ihdr.getColormodel() == 4);
- // creates ImgInfo and imgLine, and allocates buffers
- imgInfo = new ImageInfo(ihdr.getCols(), ihdr.getRows(), ihdr.getBitspc(), alpha, grayscale, palette);
- // allocation: one extra byte for filter type one pixel
- rowbfilter = new byte[imgInfo.bytesPerRow + 1];
- rowb = new byte[imgInfo.bytesPerRow + 1];
- rowbprev = new byte[rowb.length];
- interlaced = ihdr.getInterlaced() == 1;
- deinterlacer = interlaced ? new PngDeinterlacer(imgInfo) : null;
- // some checks
- if (ihdr.getFilmeth() != 0 || ihdr.getCompmeth() != 0 || (ihdr.getInterlaced() & 0xFFFE) != 0)
- throw new PngjInputException("compression method o filter method or interlaced unrecognized ");
- if (ihdr.getColormodel() < 0 || ihdr.getColormodel() > 6 || ihdr.getColormodel() == 1
- || ihdr.getColormodel() == 5)
- throw new PngjInputException("Invalid colormodel " + ihdr.getColormodel());
- if (ihdr.getBitspc() != 1 && ihdr.getBitspc() != 2 && ihdr.getBitspc() != 4 && ihdr.getBitspc() != 8
- && ihdr.getBitspc() != 16)
- throw new PngjInputException("Invalid bit depth " + ihdr.getBitspc());
- }
-
- private boolean firstChunksNotYetRead() {
- return currentChunkGroup < ChunksList.CHUNK_GROUP_1_AFTERIDHR;
- }
-
- /**
- * Reads last Internally called after having read the last line. It reads extra chunks after IDAT, if present.
- */
- private void readLastAndClose() {
- // offset = iIdatCstream.getOffset();
- if (currentChunkGroup < ChunksList.CHUNK_GROUP_5_AFTERIDAT) {
- try {
- idatIstream.close();
- } catch (Exception e) {
- }
- readLastChunks();
- }
- close();
- }
-
- private void close() {
- if (currentChunkGroup < ChunksList.CHUNK_GROUP_6_END) { // this could only happen if forced close
- try {
- idatIstream.close();
- } catch (Exception e) {
- }
- currentChunkGroup = ChunksList.CHUNK_GROUP_6_END;
- }
- if (shouldCloseStream) {
- try {
- inputStream.close();
- } catch (Exception e) {
- throw new PngjInputException("error closing input stream!", e);
- }
- }
- }
-
- // nbytes: NOT including the filter byte. leaves result in rowb
- private void unfilterRow(int nbytes) {
- int ftn = rowbfilter[0];
- FilterType ft = FilterType.getByVal(ftn);
- if (ft == null)
- throw new PngjInputException("Filter type " + ftn + " invalid");
- switch (ft) {
- case FILTER_NONE:
- unfilterRowNone(nbytes);
- break;
- case FILTER_SUB:
- unfilterRowSub(nbytes);
- break;
- case FILTER_UP:
- unfilterRowUp(nbytes);
- break;
- case FILTER_AVERAGE:
- unfilterRowAverage(nbytes);
- break;
- case FILTER_PAETH:
- unfilterRowPaeth(nbytes);
- break;
- default:
- throw new PngjInputException("Filter type " + ftn + " not implemented");
- }
- if (crctest != null)
- crctest.update(rowb, 1, rowb.length - 1);
- }
-
- private void unfilterRowAverage(final int nbytes) {
- int i, j, x;
- for (j = 1 - imgInfo.bytesPixel, i = 1; i <= nbytes; i++, j++) {
- x = j > 0 ? (rowb[j] & 0xff) : 0;
- rowb[i] = (byte) (rowbfilter[i] + (x + (rowbprev[i] & 0xFF)) / 2);
- }
- }
-
- private void unfilterRowNone(final int nbytes) {
- for (int i = 1; i <= nbytes; i++) {
- rowb[i] = (byte) (rowbfilter[i]);
- }
- }
-
- private void unfilterRowPaeth(final int nbytes) {
- int i, j, x, y;
- for (j = 1 - imgInfo.bytesPixel, i = 1; i <= nbytes; i++, j++) {
- x = j > 0 ? (rowb[j] & 0xFF) : 0;
- y = j > 0 ? (rowbprev[j] & 0xFF) : 0;
- rowb[i] = (byte) (rowbfilter[i] + PngHelperInternal.filterPaethPredictor(x, rowbprev[i] & 0xFF, y));
- }
- }
-
- private void unfilterRowSub(final int nbytes) {
- int i, j;
- for (i = 1; i <= imgInfo.bytesPixel; i++) {
- rowb[i] = (byte) (rowbfilter[i]);
- }
- for (j = 1, i = imgInfo.bytesPixel + 1; i <= nbytes; i++, j++) {
- rowb[i] = (byte) (rowbfilter[i] + rowb[j]);
- }
- }
-
- private void unfilterRowUp(final int nbytes) {
- for (int i = 1; i <= nbytes; i++) {
- rowb[i] = (byte) (rowbfilter[i] + rowbprev[i]);
- }
- }
-
- /**
- * Reads chunks before first IDAT. Normally this is called automatically
- * <p>
- * Position before: after IDHR (crc included) Position after: just after the first IDAT chunk id
- * <P>
- * This can be called several times (tentatively), it does nothing if already run
- * <p>
- * (Note: when should this be called? in the constructor? hardly, because we loose the opportunity to call
- * setChunkLoadBehaviour() and perhaps other settings before reading the first row? but sometimes we want to access
- * some metadata (plte, phys) before. Because of this, this method can be called explicitly but is also called
- * implicititly in some methods (getMetatada(), getChunksList())
- */
- private final void readFirstChunks() {
- if (!firstChunksNotYetRead())
- return;
- int clen = 0;
- boolean found = false;
- byte[] chunkid = new byte[4]; // it's important to reallocate in each iteration
- currentChunkGroup = ChunksList.CHUNK_GROUP_1_AFTERIDHR;
- while (!found) {
- clen = PngHelperInternal.readInt4(inputStream);
- offset += 4;
- if (clen < 0)
- break;
- PngHelperInternal.readBytes(inputStream, chunkid, 0, 4);
- offset += 4;
- if (Arrays.equals(chunkid, ChunkHelper.b_IDAT)) {
- found = true;
- currentChunkGroup = ChunksList.CHUNK_GROUP_4_IDAT;
- // add dummy idat chunk to list
- chunksList.appendReadChunk(new PngChunkIDAT(imgInfo, clen, offset - 8), currentChunkGroup);
- break;
- } else if (Arrays.equals(chunkid, ChunkHelper.b_IEND)) {
- throw new PngjInputException("END chunk found before image data (IDAT) at offset=" + offset);
- }
- if (Arrays.equals(chunkid, ChunkHelper.b_PLTE))
- currentChunkGroup = ChunksList.CHUNK_GROUP_2_PLTE;
- readChunk(chunkid, clen, false);
- if (Arrays.equals(chunkid, ChunkHelper.b_PLTE))
- currentChunkGroup = ChunksList.CHUNK_GROUP_3_AFTERPLTE;
- }
- int idatLen = found ? clen : -1;
- if (idatLen < 0)
- throw new PngjInputException("first idat chunk not found!");
- iIdatCstream = new PngIDatChunkInputStream(inputStream, idatLen, offset);
- idatIstream = new InflaterInputStream(iIdatCstream);
- if (!crcEnabled)
- iIdatCstream.disableCrcCheck();
- }
-
- /**
- * Reads (and processes) chunks after last IDAT.
- **/
- void readLastChunks() {
- // PngHelper.logdebug("idat ended? " + iIdatCstream.isEnded());
- currentChunkGroup = ChunksList.CHUNK_GROUP_5_AFTERIDAT;
- if (!iIdatCstream.isEnded())
- iIdatCstream.forceChunkEnd();
- int clen = iIdatCstream.getLenLastChunk();
- byte[] chunkid = iIdatCstream.getIdLastChunk();
- boolean endfound = false;
- boolean first = true;
- boolean skip = false;
- while (!endfound) {
- skip = false;
- if (!first) {
- clen = PngHelperInternal.readInt4(inputStream);
- offset += 4;
- if (clen < 0)
- throw new PngjInputException("bad chuck len " + clen);
- PngHelperInternal.readBytes(inputStream, chunkid, 0, 4);
- offset += 4;
- }
- first = false;
- if (Arrays.equals(chunkid, ChunkHelper.b_IDAT)) {
- skip = true; // extra dummy (empty?) idat chunk, it can happen, ignore it
- } else if (Arrays.equals(chunkid, ChunkHelper.b_IEND)) {
- currentChunkGroup = ChunksList.CHUNK_GROUP_6_END;
- endfound = true;
- }
- readChunk(chunkid, clen, skip);
- }
- if (!endfound)
- throw new PngjInputException("end chunk not found - offset=" + offset);
- // PngHelper.logdebug("end chunk found ok offset=" + offset);
- }
-
- /**
- * Reads chunkd from input stream, adds to ChunksList, and returns it. If it's skipped, a PngChunkSkipped object is
- * created
- */
- private PngChunk readChunk(byte[] chunkid, int clen, boolean skipforced) {
- if (clen < 0)
- throw new PngjInputException("invalid chunk lenght: " + clen);
- // skipChunksByIdSet is created lazyly, if fist IHDR has already been read
- if (skipChunkIdsSet == null && currentChunkGroup > ChunksList.CHUNK_GROUP_0_IDHR)
- skipChunkIdsSet = new HashSet<String>(Arrays.asList(skipChunkIds));
- String chunkidstr = ChunkHelper.toString(chunkid);
- boolean critical = ChunkHelper.isCritical(chunkidstr);
- PngChunk pngChunk = null;
- boolean skip = skipforced;
- if (maxTotalBytesRead > 0 && clen + offset > maxTotalBytesRead)
- throw new PngjInputException("Maximum total bytes to read exceeeded: " + maxTotalBytesRead + " offset:"
- + offset + " clen=" + clen);
- // an ancillary chunks can be skipped because of several reasons:
- if (currentChunkGroup > ChunksList.CHUNK_GROUP_0_IDHR && !critical)
- skip = skip || (skipChunkMaxSize > 0 && clen >= skipChunkMaxSize) || skipChunkIdsSet.contains(chunkidstr)
- || (maxBytesMetadata > 0 && clen > maxBytesMetadata - bytesChunksLoaded)
- || !ChunkHelper.shouldLoad(chunkidstr, chunkLoadBehaviour);
- if (skip) {
- PngHelperInternal.skipBytes(inputStream, clen);
- PngHelperInternal.readInt4(inputStream); // skip - we dont call PngHelperInternal.skipBytes(inputStream,
- // clen + 4) for risk of overflow
- pngChunk = new PngChunkSkipped(chunkidstr, imgInfo, clen);
- } else {
- ChunkRaw chunk = new ChunkRaw(clen, chunkid, true);
- chunk.readChunkData(inputStream, crcEnabled || critical);
- pngChunk = PngChunk.factory(chunk, imgInfo);
- if (!pngChunk.crit)
- bytesChunksLoaded += chunk.len;
- }
- pngChunk.setOffset(offset - 8L);
- chunksList.appendReadChunk(pngChunk, currentChunkGroup);
- offset += clen + 4L;
- return pngChunk;
- }
-
- /**
- * Logs/prints a warning.
- * <p>
- * The default behaviour is print to stderr, but it can be overriden.
- * <p>
- * This happens rarely - most errors are fatal.
- */
- protected void logWarn(String warn) {
- System.err.println(warn);
- }
-
- /**
- * @see #setChunkLoadBehaviour(ChunkLoadBehaviour)
- */
- public ChunkLoadBehaviour getChunkLoadBehaviour() {
- return chunkLoadBehaviour;
- }
-
- /**
- * Determines which ancillary chunks (metada) are to be loaded
- *
- * @param chunkLoadBehaviour
- * {@link ChunkLoadBehaviour}
- */
- public void setChunkLoadBehaviour(ChunkLoadBehaviour chunkLoadBehaviour) {
- this.chunkLoadBehaviour = chunkLoadBehaviour;
- }
-
- /**
- * All loaded chunks (metada). If we have not yet end reading the image, this will include only the chunks before
- * the pixels data (IDAT)
- * <p>
- * Critical chunks are included, except that all IDAT chunks appearance are replaced by a single dummy-marker IDAT
- * chunk. These might be copied to the PngWriter
- * <p>
- *
- * @see #getMetadata()
- */
- public ChunksList getChunksList() {
- if (firstChunksNotYetRead())
- readFirstChunks();
- return chunksList;
- }
-
- int getCurrentChunkGroup() {
- return currentChunkGroup;
- }
-
- /**
- * High level wrapper over chunksList
- *
- * @see #getChunksList()
- */
- public PngMetadata getMetadata() {
- if (firstChunksNotYetRead())
- readFirstChunks();
- return metadata;
- }
-
- /**
- * If called for first time, calls readRowInt. Elsewhere, it calls the appropiate readRowInt/readRowByte
- * <p>
- * In general, specifying the concrete readRowInt/readRowByte is preferrable
- *
- * @see #readRowInt(int) {@link #readRowByte(int)}
- */
- public ImageLine readRow(int nrow) {
- if (imgLine == null)
- imgLine = new ImageLine(imgInfo, SampleType.INT, unpackedMode);
- return imgLine.sampleType != SampleType.BYTE ? readRowInt(nrow) : readRowByte(nrow);
- }
-
- /**
- * Reads the row as INT, storing it in the {@link #imgLine} property and returning it.
- *
- * The row must be greater or equal than the last read row.
- *
- * @param nrow
- * Row number, from 0 to rows-1. Increasing order.
- * @return ImageLine object, also available as field. Data is in {@link ImageLine#scanline} (int) field.
- */
- public ImageLine readRowInt(int nrow) {
- if (imgLine == null)
- imgLine = new ImageLine(imgInfo, SampleType.INT, unpackedMode);
- if (imgLine.getRown() == nrow) // already read
- return imgLine;
- readRowInt(imgLine.scanline, nrow);
- imgLine.setFilterUsed(FilterType.getByVal(rowbfilter[0]));
- imgLine.setRown(nrow);
- return imgLine;
- }
-
- /**
- * Reads the row as BYTES, storing it in the {@link #imgLine} property and returning it.
- *
- * The row must be greater or equal than the last read row. This method allows to pass the same row that was last
- * read.
- *
- * @param nrow
- * Row number, from 0 to rows-1. Increasing order.
- * @return ImageLine object, also available as field. Data is in {@link ImageLine#scanlineb} (byte) field.
- */
- public ImageLine readRowByte(int nrow) {
- if (imgLine == null)
- imgLine = new ImageLine(imgInfo, SampleType.BYTE, unpackedMode);
- if (imgLine.getRown() == nrow) // already read
- return imgLine;
- readRowByte(imgLine.scanlineb, nrow);
- imgLine.setFilterUsed(FilterType.getByVal(rowbfilter[0]));
- imgLine.setRown(nrow);
- return imgLine;
- }
-
- /**
- * @see #readRowInt(int[], int)
- */
- public final int[] readRow(int[] buffer, final int nrow) {
- return readRowInt(buffer, nrow);
- }
-
- /**
- * Reads a line and returns it as a int[] array.
- * <p>
- * You can pass (optionally) a prealocatted buffer.
- * <p>
- * If the bitdepth is less than 8, the bytes are packed - unless {@link #unpackedMode} is true.
- *
- * @param buffer
- * Prealocated buffer, or null.
- * @param nrow
- * Row number (0 is top). Most be strictly greater than the last read row.
- *
- * @return The scanline in the same passwd buffer if it was allocated, a newly allocated one otherwise
- */
- public final int[] readRowInt(int[] buffer, final int nrow) {
- if (buffer == null)
- buffer = new int[unpackedMode ? imgInfo.samplesPerRow : imgInfo.samplesPerRowPacked];
- if (!interlaced) {
- if (nrow <= rowNum)
- throw new PngjInputException("rows must be read in increasing order: " + nrow);
- int bytesread = 0;
- while (rowNum < nrow)
- bytesread = readRowRaw(rowNum + 1); // read rows, perhaps skipping if necessary
- decodeLastReadRowToInt(buffer, bytesread);
- } else { // interlaced
- if (deinterlacer.getImageInt() == null)
- deinterlacer.setImageInt(readRowsInt().scanlines); // read all image and store it in deinterlacer
- System.arraycopy(deinterlacer.getImageInt()[nrow], 0, buffer, 0, unpackedMode ? imgInfo.samplesPerRow
- : imgInfo.samplesPerRowPacked);
- }
- return buffer;
- }
-
- /**
- * Reads a line and returns it as a byte[] array.
- * <p>
- * You can pass (optionally) a prealocatted buffer.
- * <p>
- * If the bitdepth is less than 8, the bytes are packed - unless {@link #unpackedMode} is true. <br>
- * If the bitdepth is 16, the least significant byte is lost.
- * <p>
- *
- * @param buffer
- * Prealocated buffer, or null.
- * @param nrow
- * Row number (0 is top). Most be strictly greater than the last read row.
- *
- * @return The scanline in the same passwd buffer if it was allocated, a newly allocated one otherwise
- */
- public final byte[] readRowByte(byte[] buffer, final int nrow) {
- if (buffer == null)
- buffer = new byte[unpackedMode ? imgInfo.samplesPerRow : imgInfo.samplesPerRowPacked];
- if (!interlaced) {
- if (nrow <= rowNum)
- throw new PngjInputException("rows must be read in increasing order: " + nrow);
- int bytesread = 0;
- while (rowNum < nrow)
- bytesread = readRowRaw(rowNum + 1); // read rows, perhaps skipping if necessary
- decodeLastReadRowToByte(buffer, bytesread);
- } else { // interlaced
- if (deinterlacer.getImageByte() == null)
- deinterlacer.setImageByte(readRowsByte().scanlinesb); // read all image and store it in deinterlacer
- System.arraycopy(deinterlacer.getImageByte()[nrow], 0, buffer, 0, unpackedMode ? imgInfo.samplesPerRow
- : imgInfo.samplesPerRowPacked);
- }
- return buffer;
- }
-
- /**
- * @param nrow
- * @deprecated Now {@link #readRow(int)} implements the same funcion. This method will be removed in future releases
- */
- public ImageLine getRow(int nrow) {
- return readRow(nrow);
- }
-
- private void decodeLastReadRowToInt(int[] buffer, int bytesRead) {
- if (imgInfo.bitDepth <= 8)
- for (int i = 0, j = 1; i < bytesRead; i++)
- buffer[i] = (rowb[j++] & 0xFF); // http://www.libpng.org/pub/png/spec/1.2/PNG-DataRep.html
- else
- for (int i = 0, j = 1; j <= bytesRead; i++)
- buffer[i] = ((rowb[j++] & 0xFF) << 8) + (rowb[j++] & 0xFF); // 16 bitspc
- if (imgInfo.packed && unpackedMode)
- ImageLine.unpackInplaceInt(imgInfo, buffer, buffer, false);
- }
-
- private void decodeLastReadRowToByte(byte[] buffer, int bytesRead) {
- if (imgInfo.bitDepth <= 8)
- System.arraycopy(rowb, 1, buffer, 0, bytesRead);
- else
- for (int i = 0, j = 1; j < bytesRead; i++, j += 2)
- buffer[i] = rowb[j];// 16 bits in 1 byte: this discards the LSB!!!
- if (imgInfo.packed && unpackedMode)
- ImageLine.unpackInplaceByte(imgInfo, buffer, buffer, false);
- }
-
- /**
- * Reads a set of lines and returns it as a ImageLines object, which wraps matrix. Internally it reads all lines,
- * but decodes and stores only the wanted ones. This starts and ends the reading, and cannot be combined with other
- * reading methods.
- * <p>
- * This it's more efficient (speed an memory) that doing calling readRowInt() for each desired line only if the
- * image is interlaced.
- * <p>
- * Notice that the columns in the matrix is not the pixel width of the image, but rather pixels x channels
- *
- * @see #readRowInt(int) to read about the format of each row
- *
- * @param rowOffset
- * Number of rows to be skipped
- * @param nRows
- * Total number of rows to be read. -1: read all available
- * @param rowStep
- * Row increment. If 1, we read consecutive lines; if 2, we read even/odd lines, etc
- * @return Set of lines as a ImageLines, which wraps a matrix
- */
- public ImageLines readRowsInt(int rowOffset, int nRows, int rowStep) {
- if (nRows < 0)
- nRows = (imgInfo.rows - rowOffset) / rowStep;
- if (rowStep < 1 || rowOffset < 0 || nRows * rowStep + rowOffset > imgInfo.rows)
- throw new PngjInputException("bad args");
- ImageLines imlines = new ImageLines(imgInfo, SampleType.INT, unpackedMode, rowOffset, nRows, rowStep);
- if (!interlaced) {
- for (int j = 0; j < imgInfo.rows; j++) {
- int bytesread = readRowRaw(j); // read and perhaps discards
- int mrow = imlines.imageRowToMatrixRowStrict(j);
- if (mrow >= 0)
- decodeLastReadRowToInt(imlines.scanlines[mrow], bytesread);
- }
- } else { // and now, for something completely different (interlaced)
- int[] buf = new int[unpackedMode ? imgInfo.samplesPerRow : imgInfo.samplesPerRowPacked];
- for (int p = 1; p <= 7; p++) {
- deinterlacer.setPass(p);
- for (int i = 0; i < deinterlacer.getRows(); i++) {
- int bytesread = readRowRaw(i);
- int j = deinterlacer.getCurrRowReal();
- int mrow = imlines.imageRowToMatrixRowStrict(j);
- if (mrow >= 0) {
- decodeLastReadRowToInt(buf, bytesread);
- deinterlacer.deinterlaceInt(buf, imlines.scanlines[mrow], !unpackedMode);
- }
- }
- }
- }
- end();
- return imlines;
- }
-
- /**
- * Same as readRowsInt(0, imgInfo.rows, 1)
- *
- * @see #readRowsInt(int, int, int)
- */
- public ImageLines readRowsInt() {
- return readRowsInt(0, imgInfo.rows, 1);
- }
-
- /**
- * Reads a set of lines and returns it as a ImageLines object, which wrapas a byte[][] matrix. Internally it reads
- * all lines, but decodes and stores only the wanted ones. This starts and ends the reading, and cannot be combined
- * with other reading methods.
- * <p>
- * This it's more efficient (speed an memory) that doing calling readRowByte() for each desired line only if the
- * image is interlaced.
- * <p>
- * Notice that the columns in the matrix is not the pixel width of the image, but rather pixels x channels
- *
- * @see #readRowByte(int) to read about the format of each row. Notice that if the bitdepth is 16 this will lose
- * information
- *
- * @param rowOffset
- * Number of rows to be skipped
- * @param nRows
- * Total number of rows to be read. -1: read all available
- * @param rowStep
- * Row increment. If 1, we read consecutive lines; if 2, we read even/odd lines, etc
- * @return Set of lines as a matrix
- */
- public ImageLines readRowsByte(int rowOffset, int nRows, int rowStep) {
- if (nRows < 0)
- nRows = (imgInfo.rows - rowOffset) / rowStep;
- if (rowStep < 1 || rowOffset < 0 || nRows * rowStep + rowOffset > imgInfo.rows)
- throw new PngjInputException("bad args");
- ImageLines imlines = new ImageLines(imgInfo, SampleType.BYTE, unpackedMode, rowOffset, nRows, rowStep);
- if (!interlaced) {
- for (int j = 0; j < imgInfo.rows; j++) {
- int bytesread = readRowRaw(j); // read and perhaps discards
- int mrow = imlines.imageRowToMatrixRowStrict(j);
- if (mrow >= 0)
- decodeLastReadRowToByte(imlines.scanlinesb[mrow], bytesread);
- }
- } else { // and now, for something completely different (interlaced)
- byte[] buf = new byte[unpackedMode ? imgInfo.samplesPerRow : imgInfo.samplesPerRowPacked];
- for (int p = 1; p <= 7; p++) {
- deinterlacer.setPass(p);
- for (int i = 0; i < deinterlacer.getRows(); i++) {
- int bytesread = readRowRaw(i);
- int j = deinterlacer.getCurrRowReal();
- int mrow = imlines.imageRowToMatrixRowStrict(j);
- if (mrow >= 0) {
- decodeLastReadRowToByte(buf, bytesread);
- deinterlacer.deinterlaceByte(buf, imlines.scanlinesb[mrow], !unpackedMode);
- }
- }
- }
- }
- end();
- return imlines;
- }
-
- /**
- * Same as readRowsByte(0, imgInfo.rows, 1)
- *
- * @see #readRowsByte(int, int, int)
- */
- public ImageLines readRowsByte() {
- return readRowsByte(0, imgInfo.rows, 1);
- }
-
- /*
- * For the interlaced case, nrow indicates the subsampled image - the pass must be set already.
- *
- * This must be called in strict order, both for interlaced or no interlaced.
- *
- * Updates rowNum.
- *
- * Leaves raw result in rowb
- *
- * Returns bytes actually read (not including the filter byte)
- */
- private int readRowRaw(final int nrow) {
- //
- if (nrow == 0 && firstChunksNotYetRead())
- readFirstChunks();
- if (nrow == 0 && interlaced)
- Arrays.fill(rowb, (byte) 0); // new subimage: reset filters: this is enough, see the swap that happens lines
- // below
- int bytesRead = imgInfo.bytesPerRow; // NOT including the filter byte
- if (interlaced) {
- if (nrow < 0 || nrow > deinterlacer.getRows() || (nrow != 0 && nrow != deinterlacer.getCurrRowSubimg() + 1))
- throw new PngjInputException("invalid row in interlaced mode: " + nrow);
- deinterlacer.setRow(nrow);
- bytesRead = (imgInfo.bitspPixel * deinterlacer.getPixelsToRead() + 7) / 8;
- if (bytesRead < 1)
- throw new PngjExceptionInternal("wtf??");
- } else { // check for non interlaced
- if (nrow < 0 || nrow >= imgInfo.rows || nrow != rowNum + 1)
- throw new PngjInputException("invalid row: " + nrow);
- }
- rowNum = nrow;
- // swap buffers
- byte[] tmp = rowb;
- rowb = rowbprev;
- rowbprev = tmp;
- // loads in rowbfilter "raw" bytes, with filter
- PngHelperInternal.readBytes(idatIstream, rowbfilter, 0, bytesRead + 1);
- offset = iIdatCstream.getOffset();
- if (offset < 0)
- throw new PngjExceptionInternal("bad offset ??" + offset);
- if (maxTotalBytesRead > 0 && offset >= maxTotalBytesRead)
- throw new PngjInputException("Reading IDAT: Maximum total bytes to read exceeeded: " + maxTotalBytesRead
- + " offset:" + offset);
- rowb[0] = 0;
- unfilterRow(bytesRead);
- rowb[0] = rowbfilter[0];
- if ((rowNum == imgInfo.rows - 1 && !interlaced) || (interlaced && deinterlacer.isAtLastRow()))
- readLastAndClose();
- return bytesRead;
- }
-
- /**
- * Reads all the (remaining) file, skipping the pixels data. This is much more efficient that calling readRow(),
- * specially for big files (about 10 times faster!), because it doesn't even decompress the IDAT stream and disables
- * CRC check Use this if you are not interested in reading pixels,only metadata.
- */
- public void readSkippingAllRows() {
- if (firstChunksNotYetRead())
- readFirstChunks();
- // we read directly from the compressed stream, we dont decompress nor chec CRC
- iIdatCstream.disableCrcCheck();
- try {
- int r;
- do {
- r = iIdatCstream.read(rowbfilter, 0, rowbfilter.length);
- } while (r >= 0);
- } catch (IOException e) {
- throw new PngjInputException("error in raw read of IDAT", e);
- }
- offset = iIdatCstream.getOffset();
- if (offset < 0)
- throw new PngjExceptionInternal("bad offset ??" + offset);
- if (maxTotalBytesRead > 0 && offset >= maxTotalBytesRead)
- throw new PngjInputException("Reading IDAT: Maximum total bytes to read exceeeded: " + maxTotalBytesRead
- + " offset:" + offset);
- readLastAndClose();
- }
-
- /**
- * Set total maximum bytes to read (0: unlimited; default: 200MB). <br>
- * These are the bytes read (not loaded) in the input stream. If exceeded, an exception will be thrown.
- */
- public void setMaxTotalBytesRead(long maxTotalBytesToRead) {
- this.maxTotalBytesRead = maxTotalBytesToRead;
- }
-
- /**
- * @return Total maximum bytes to read.
- */
- public long getMaxTotalBytesRead() {
- return maxTotalBytesRead;
- }
-
- /**
- * Set total maximum bytes to load from ancillary chunks (0: unlimited; default: 5Mb).<br>
- * If exceeded, some chunks will be skipped
- */
- public void setMaxBytesMetadata(int maxBytesChunksToLoad) {
- this.maxBytesMetadata = maxBytesChunksToLoad;
- }
-
- /**
- * @return Total maximum bytes to load from ancillary ckunks.
- */
- public int getMaxBytesMetadata() {
- return maxBytesMetadata;
- }
-
- /**
- * Set maximum size in bytes for individual ancillary chunks (0: unlimited; default: 2MB). <br>
- * Chunks exceeding this length will be skipped (the CRC will not be checked) and the chunk will be saved as a
- * PngChunkSkipped object. See also setSkipChunkIds
- */
- public void setSkipChunkMaxSize(int skipChunksBySize) {
- this.skipChunkMaxSize = skipChunksBySize;
- }
-
- /**
- * @return maximum size in bytes for individual ancillary chunks.
- */
- public int getSkipChunkMaxSize() {
- return skipChunkMaxSize;
- }
-
- /**
- * Chunks ids to be skipped. <br>
- * These chunks will be skipped (the CRC will not be checked) and the chunk will be saved as a PngChunkSkipped
- * object. See also setSkipChunkMaxSize
- */
- public void setSkipChunkIds(String[] skipChunksById) {
- this.skipChunkIds = skipChunksById == null ? new String[] {} : skipChunksById;
- }
-
- /**
- * @return Chunk-IDs to be skipped.
- */
- public String[] getSkipChunkIds() {
- return skipChunkIds;
- }
-
- /**
- * if true, input stream will be closed after ending read
- * <p>
- * default=true
- */
- public void setShouldCloseStream(boolean shouldCloseStream) {
- this.shouldCloseStream = shouldCloseStream;
- }
-
- /**
- * Normally this does nothing, but it can be used to force a premature closing. Its recommended practice to call it
- * after reading the image pixels.
- */
- public void end() {
- if (currentChunkGroup < ChunksList.CHUNK_GROUP_6_END)
- close();
- }
-
- /**
- * Interlaced PNG is accepted -though not welcomed- now...
- */
- public boolean isInterlaced() {
- return interlaced;
- }
-
- /**
- * set/unset "unpackedMode"<br>
- * If false (default) packed types (bitdepth=1,2 or 4) will keep several samples packed in one element (byte or int) <br>
- * If true, samples will be unpacked on reading, and each element in the scanline will be sample. This implies more
- * processing and memory, but it's the most efficient option if you intend to read individual pixels. <br>
- * This option should only be set before start reading.
- *
- * @param unPackedMode
- */
- public void setUnpackedMode(boolean unPackedMode) {
- this.unpackedMode = unPackedMode;
- }
-
- /**
- * @see PngReader#setUnpackedMode(boolean)
- */
- public boolean isUnpackedMode() {
- return unpackedMode;
- }
-
- /**
- * Disables the CRC integrity check in IDAT chunks and ancillary chunks, this gives a slight increase in reading
- * speed for big files
- */
- public void setCrcCheckDisabled() {
- crcEnabled = false;
- }
-
- /**
- * Just for testing. TO be called after ending reading, only if initCrctest() was called before start
- *
- * @return CRC of the raw pixels values
- */
- long getCrctestVal() {
- return crctest.getValue();
- }
-
- /**
- * Inits CRC object and enables CRC calculation
- */
- void initCrctest() {
- this.crctest = new CRC32();
- }
-
- /**
- * Basic info, for debugging.
- */
- public String toString() { // basic info
- return "filename=" + filename + " " + imgInfo.toString();
- }
-
-}
+package jogamp.opengl.util.pngj; + +import java.io.IOException; +import java.io.InputStream; +import java.util.Arrays; +import java.util.HashSet; +import java.util.zip.CRC32; +import java.util.zip.Inflater; +import java.util.zip.InflaterInputStream; + +import jogamp.opengl.util.pngj.ImageLine.SampleType; +import jogamp.opengl.util.pngj.chunks.ChunkHelper; +import jogamp.opengl.util.pngj.chunks.ChunkLoadBehaviour; +import jogamp.opengl.util.pngj.chunks.ChunkRaw; +import jogamp.opengl.util.pngj.chunks.ChunksList; +import jogamp.opengl.util.pngj.chunks.PngChunk; +import jogamp.opengl.util.pngj.chunks.PngChunkIDAT; +import jogamp.opengl.util.pngj.chunks.PngChunkIHDR; +import jogamp.opengl.util.pngj.chunks.PngChunkSkipped; +import jogamp.opengl.util.pngj.chunks.PngMetadata; + +/** + * Reads a PNG image, line by line. + * <p> + * The reading sequence is as follows: <br> + * 1. At construction time, the header and IHDR chunk are read (basic image + * info) <br> + * 2. Afterwards you can set some additional global options. Eg. + * {@link #setUnpackedMode(boolean)}, {@link #setCrcCheckDisabled()}.<br> + * 3. Optional: If you call getMetadata() or getChunksLisk() before start + * reading the rows, all the chunks before IDAT are automatically loaded and + * available <br> + * 4a. The rows are read onen by one of the <tt>readRowXXX</tt> methods: + * {@link #readRowInt(int)}, {@link PngReader#readRowByte(int)}, etc, in order, + * from 0 to nrows-1 (you can skip or repeat rows, but not go backwards)<br> + * 4b. Alternatively, you can read all rows, or a subset, in a single call: + * {@link #readRowsInt()}, {@link #readRowsByte()} ,etc. In general this + * consumes more memory, but for interlaced images this is equally efficient, + * and more so if reading a small subset of rows.<br> + * 5. Read of the last row auyomatically loads the trailing chunks, and ends the + * reader.<br> + * 6. end() forcibly finishes/aborts the reading and closes the stream + */ +public class PngReader { + + /** + * Basic image info - final and inmutable. + */ + public final ImageInfo imgInfo; + /** + * not necesarily a filename, can be a description - merely informative + */ + protected final String filename; + private ChunkLoadBehaviour chunkLoadBehaviour = ChunkLoadBehaviour.LOAD_CHUNK_ALWAYS; // see setter/getter + private boolean shouldCloseStream = true; // true: closes stream after ending - see setter/getter + // some performance/defensive limits + private long maxTotalBytesRead = 200 * 1024 * 1024; // 200MB + private int maxBytesMetadata = 5 * 1024 * 1024; // for ancillary chunks - see setter/getter + private int skipChunkMaxSize = 2 * 1024 * 1024; // chunks exceeding this size will be skipped (nor even CRC checked) + private String[] skipChunkIds = { "fdAT" }; // chunks with these ids will be skipped (nor even CRC checked) + private HashSet<String> skipChunkIdsSet; // lazily created from skipChunksById + protected final PngMetadata metadata; // this a wrapper over chunks + protected final ChunksList chunksList; + protected ImageLine imgLine; + // line as bytes, counting from 1 (index 0 is reserved for filter type) + protected final int buffersLen; // nominal length is imgInfo.bytesPerRow + 1 but it can be larger + protected byte[] rowb = null; + protected byte[] rowbprev = null; // rowb previous + protected byte[] rowbfilter = null; // current line 'filtered': exactly as in uncompressed stream + // only set for interlaced PNG + private final boolean interlaced; + private final PngDeinterlacer deinterlacer; + private boolean crcEnabled = true; + // this only influences the 1-2-4 bitdepth format + private boolean unpackedMode = false; + private Inflater inflater = null; // can be reused among several objects. see reuseBuffersFrom() + /** + * Current chunk group, (0-6) already read or reading + * <p> + * see {@link ChunksList} + */ + protected int currentChunkGroup = -1; + protected int rowNum = -1; // last read row number, starting from 0 + private long offset = 0; // offset in InputStream = bytes read + private int bytesChunksLoaded; // bytes loaded from anciallary chunks + protected final InputStream inputStream; + protected InflaterInputStream idatIstream; + protected PngIDatChunkInputStream iIdatCstream; + protected CRC32 crctest; // If set to non null, it gets a CRC of the unfiltered bytes, to check for images equality + + /** + * Constructs a PngReader from an InputStream. + * <p> + * See also <code>FileHelper.createPngReader(File f)</code> if available. + * + * Reads only the signature and first chunk (IDHR) + * + * @param filenameOrDescription + * : Optional, can be a filename or a description. Just for + * error/debug messages + * + */ + public PngReader(InputStream inputStream, String filenameOrDescription) { + this.filename = filenameOrDescription == null ? "" : filenameOrDescription; + this.inputStream = inputStream; + this.chunksList = new ChunksList(null); + this.metadata = new PngMetadata(chunksList); + // starts reading: signature + byte[] pngid = new byte[8]; + PngHelperInternal.readBytes(inputStream, pngid, 0, pngid.length); + offset += pngid.length; + if (!Arrays.equals(pngid, PngHelperInternal.getPngIdSignature())) + throw new PngjInputException("Bad PNG signature"); + // reads first chunk + currentChunkGroup = ChunksList.CHUNK_GROUP_0_IDHR; + int clen = PngHelperInternal.readInt4(inputStream); + offset += 4; + if (clen != 13) + throw new PngjInputException("IDHR chunk len != 13 ?? " + clen); + byte[] chunkid = new byte[4]; + PngHelperInternal.readBytes(inputStream, chunkid, 0, 4); + if (!Arrays.equals(chunkid, ChunkHelper.b_IHDR)) + throw new PngjInputException("IHDR not found as first chunk??? [" + ChunkHelper.toString(chunkid) + "]"); + offset += 4; + PngChunkIHDR ihdr = (PngChunkIHDR) readChunk(chunkid, clen, false); + boolean alpha = (ihdr.getColormodel() & 0x04) != 0; + boolean palette = (ihdr.getColormodel() & 0x01) != 0; + boolean grayscale = (ihdr.getColormodel() == 0 || ihdr.getColormodel() == 4); + // creates ImgInfo and imgLine, and allocates buffers + imgInfo = new ImageInfo(ihdr.getCols(), ihdr.getRows(), ihdr.getBitspc(), alpha, grayscale, palette); + interlaced = ihdr.getInterlaced() == 1; + deinterlacer = interlaced ? new PngDeinterlacer(imgInfo) : null; + buffersLen = imgInfo.bytesPerRow + 1; + // some checks + if (ihdr.getFilmeth() != 0 || ihdr.getCompmeth() != 0 || (ihdr.getInterlaced() & 0xFFFE) != 0) + throw new PngjInputException("compression method o filter method or interlaced unrecognized "); + if (ihdr.getColormodel() < 0 || ihdr.getColormodel() > 6 || ihdr.getColormodel() == 1 + || ihdr.getColormodel() == 5) + throw new PngjInputException("Invalid colormodel " + ihdr.getColormodel()); + if (ihdr.getBitspc() != 1 && ihdr.getBitspc() != 2 && ihdr.getBitspc() != 4 && ihdr.getBitspc() != 8 + && ihdr.getBitspc() != 16) + throw new PngjInputException("Invalid bit depth " + ihdr.getBitspc()); + } + + private boolean firstChunksNotYetRead() { + return currentChunkGroup < ChunksList.CHUNK_GROUP_1_AFTERIDHR; + } + + private void allocateBuffers() { // only if needed + if (rowbfilter == null || rowbfilter.length < buffersLen) { + rowbfilter = new byte[buffersLen]; + rowb = new byte[buffersLen]; + rowbprev = new byte[buffersLen]; + } + } + + /** + * Reads last Internally called after having read the last line. It reads + * extra chunks after IDAT, if present. + */ + private void readLastAndClose() { + // offset = iIdatCstream.getOffset(); + if (currentChunkGroup < ChunksList.CHUNK_GROUP_5_AFTERIDAT) { + try { + idatIstream.close(); + } catch (Exception e) { + } + readLastChunks(); + } + close(); + } + + private void close() { + if (currentChunkGroup < ChunksList.CHUNK_GROUP_6_END) { // this could only happen if forced close + try { + idatIstream.close(); + } catch (Exception e) { + } + currentChunkGroup = ChunksList.CHUNK_GROUP_6_END; + } + if (shouldCloseStream) { + try { + inputStream.close(); + } catch (Exception e) { + throw new PngjInputException("error closing input stream!", e); + } + } + } + + // nbytes: NOT including the filter byte. leaves result in rowb + private void unfilterRow(int nbytes) { + int ftn = rowbfilter[0]; + FilterType ft = FilterType.getByVal(ftn); + if (ft == null) + throw new PngjInputException("Filter type " + ftn + " invalid"); + switch (ft) { + case FILTER_NONE: + unfilterRowNone(nbytes); + break; + case FILTER_SUB: + unfilterRowSub(nbytes); + break; + case FILTER_UP: + unfilterRowUp(nbytes); + break; + case FILTER_AVERAGE: + unfilterRowAverage(nbytes); + break; + case FILTER_PAETH: + unfilterRowPaeth(nbytes); + break; + default: + throw new PngjInputException("Filter type " + ftn + " not implemented"); + } + if (crctest != null) + crctest.update(rowb, 1, buffersLen - 1); + } + + private void unfilterRowAverage(final int nbytes) { + int i, j, x; + for (j = 1 - imgInfo.bytesPixel, i = 1; i <= nbytes; i++, j++) { + x = j > 0 ? (rowb[j] & 0xff) : 0; + rowb[i] = (byte) (rowbfilter[i] + (x + (rowbprev[i] & 0xFF)) / 2); + } + } + + private void unfilterRowNone(final int nbytes) { + for (int i = 1; i <= nbytes; i++) { + rowb[i] = (byte) (rowbfilter[i]); + } + } + + private void unfilterRowPaeth(final int nbytes) { + int i, j, x, y; + for (j = 1 - imgInfo.bytesPixel, i = 1; i <= nbytes; i++, j++) { + x = j > 0 ? (rowb[j] & 0xFF) : 0; + y = j > 0 ? (rowbprev[j] & 0xFF) : 0; + rowb[i] = (byte) (rowbfilter[i] + PngHelperInternal.filterPaethPredictor(x, rowbprev[i] & 0xFF, y)); + } + } + + private void unfilterRowSub(final int nbytes) { + int i, j; + for (i = 1; i <= imgInfo.bytesPixel; i++) { + rowb[i] = (byte) (rowbfilter[i]); + } + for (j = 1, i = imgInfo.bytesPixel + 1; i <= nbytes; i++, j++) { + rowb[i] = (byte) (rowbfilter[i] + rowb[j]); + } + } + + private void unfilterRowUp(final int nbytes) { + for (int i = 1; i <= nbytes; i++) { + rowb[i] = (byte) (rowbfilter[i] + rowbprev[i]); + } + } + + /** + * Reads chunks before first IDAT. Normally this is called automatically + * <p> + * Position before: after IDHR (crc included) Position after: just after the + * first IDAT chunk id + * <P> + * This can be called several times (tentatively), it does nothing if + * already run + * <p> + * (Note: when should this be called? in the constructor? hardly, because we + * loose the opportunity to call setChunkLoadBehaviour() and perhaps other + * settings before reading the first row? but sometimes we want to access + * some metadata (plte, phys) before. Because of this, this method can be + * called explicitly but is also called implicititly in some methods + * (getMetatada(), getChunksList()) + */ + private final void readFirstChunks() { + if (!firstChunksNotYetRead()) + return; + int clen = 0; + boolean found = false; + byte[] chunkid = new byte[4]; // it's important to reallocate in each iteration + currentChunkGroup = ChunksList.CHUNK_GROUP_1_AFTERIDHR; + while (!found) { + clen = PngHelperInternal.readInt4(inputStream); + offset += 4; + if (clen < 0) + break; + PngHelperInternal.readBytes(inputStream, chunkid, 0, 4); + offset += 4; + if (Arrays.equals(chunkid, ChunkHelper.b_IDAT)) { + found = true; + currentChunkGroup = ChunksList.CHUNK_GROUP_4_IDAT; + // add dummy idat chunk to list + chunksList.appendReadChunk(new PngChunkIDAT(imgInfo, clen, offset - 8), currentChunkGroup); + break; + } else if (Arrays.equals(chunkid, ChunkHelper.b_IEND)) { + throw new PngjInputException("END chunk found before image data (IDAT) at offset=" + offset); + } + if (Arrays.equals(chunkid, ChunkHelper.b_PLTE)) + currentChunkGroup = ChunksList.CHUNK_GROUP_2_PLTE; + readChunk(chunkid, clen, false); + if (Arrays.equals(chunkid, ChunkHelper.b_PLTE)) + currentChunkGroup = ChunksList.CHUNK_GROUP_3_AFTERPLTE; + } + int idatLen = found ? clen : -1; + if (idatLen < 0) + throw new PngjInputException("first idat chunk not found!"); + iIdatCstream = new PngIDatChunkInputStream(inputStream, idatLen, offset); + if(inflater == null) { + inflater = new Inflater(); + } else { + inflater.reset(); + } + idatIstream = new InflaterInputStream(iIdatCstream, inflater); + if (!crcEnabled) + iIdatCstream.disableCrcCheck(); + } + + /** + * Reads (and processes) chunks after last IDAT. + **/ + void readLastChunks() { + // PngHelper.logdebug("idat ended? " + iIdatCstream.isEnded()); + currentChunkGroup = ChunksList.CHUNK_GROUP_5_AFTERIDAT; + if (!iIdatCstream.isEnded()) + iIdatCstream.forceChunkEnd(); + int clen = iIdatCstream.getLenLastChunk(); + byte[] chunkid = iIdatCstream.getIdLastChunk(); + boolean endfound = false; + boolean first = true; + boolean skip = false; + while (!endfound) { + skip = false; + if (!first) { + clen = PngHelperInternal.readInt4(inputStream); + offset += 4; + if (clen < 0) + throw new PngjInputException("bad chuck len " + clen); + PngHelperInternal.readBytes(inputStream, chunkid, 0, 4); + offset += 4; + } + first = false; + if (Arrays.equals(chunkid, ChunkHelper.b_IDAT)) { + skip = true; // extra dummy (empty?) idat chunk, it can happen, ignore it + } else if (Arrays.equals(chunkid, ChunkHelper.b_IEND)) { + currentChunkGroup = ChunksList.CHUNK_GROUP_6_END; + endfound = true; + } + readChunk(chunkid, clen, skip); + } + if (!endfound) + throw new PngjInputException("end chunk not found - offset=" + offset); + // PngHelper.logdebug("end chunk found ok offset=" + offset); + } + + /** + * Reads chunkd from input stream, adds to ChunksList, and returns it. If + * it's skipped, a PngChunkSkipped object is created + */ + private PngChunk readChunk(byte[] chunkid, int clen, boolean skipforced) { + if (clen < 0) + throw new PngjInputException("invalid chunk lenght: " + clen); + // skipChunksByIdSet is created lazyly, if fist IHDR has already been read + if (skipChunkIdsSet == null && currentChunkGroup > ChunksList.CHUNK_GROUP_0_IDHR) + skipChunkIdsSet = new HashSet<String>(Arrays.asList(skipChunkIds)); + String chunkidstr = ChunkHelper.toString(chunkid); + boolean critical = ChunkHelper.isCritical(chunkidstr); + PngChunk pngChunk = null; + boolean skip = skipforced; + if (maxTotalBytesRead > 0 && clen + offset > maxTotalBytesRead) + throw new PngjInputException("Maximum total bytes to read exceeeded: " + maxTotalBytesRead + " offset:" + + offset + " clen=" + clen); + // an ancillary chunks can be skipped because of several reasons: + if (currentChunkGroup > ChunksList.CHUNK_GROUP_0_IDHR && !critical) + skip = skip || (skipChunkMaxSize > 0 && clen >= skipChunkMaxSize) || skipChunkIdsSet.contains(chunkidstr) + || (maxBytesMetadata > 0 && clen > maxBytesMetadata - bytesChunksLoaded) + || !ChunkHelper.shouldLoad(chunkidstr, chunkLoadBehaviour); + if (skip) { + PngHelperInternal.skipBytes(inputStream, clen); + PngHelperInternal.readInt4(inputStream); // skip - we dont call PngHelperInternal.skipBytes(inputStream, + // clen + 4) for risk of overflow + pngChunk = new PngChunkSkipped(chunkidstr, imgInfo, clen); + } else { + ChunkRaw chunk = new ChunkRaw(clen, chunkid, true); + chunk.readChunkData(inputStream, crcEnabled || critical); + pngChunk = PngChunk.factory(chunk, imgInfo); + if (!pngChunk.crit) + bytesChunksLoaded += chunk.len; + } + pngChunk.setOffset(offset - 8L); + chunksList.appendReadChunk(pngChunk, currentChunkGroup); + offset += clen + 4L; + return pngChunk; + } + + /** + * Logs/prints a warning. + * <p> + * The default behaviour is print to stderr, but it can be overriden. + * <p> + * This happens rarely - most errors are fatal. + */ + protected void logWarn(String warn) { + System.err.println(warn); + } + + /** + * @see #setChunkLoadBehaviour(ChunkLoadBehaviour) + */ + public ChunkLoadBehaviour getChunkLoadBehaviour() { + return chunkLoadBehaviour; + } + + /** + * Determines which ancillary chunks (metada) are to be loaded + * + * @param chunkLoadBehaviour + * {@link ChunkLoadBehaviour} + */ + public void setChunkLoadBehaviour(ChunkLoadBehaviour chunkLoadBehaviour) { + this.chunkLoadBehaviour = chunkLoadBehaviour; + } + + /** + * All loaded chunks (metada). If we have not yet end reading the image, + * this will include only the chunks before the pixels data (IDAT) + * <p> + * Critical chunks are included, except that all IDAT chunks appearance are + * replaced by a single dummy-marker IDAT chunk. These might be copied to + * the PngWriter + * <p> + * + * @see #getMetadata() + */ + public ChunksList getChunksList() { + if (firstChunksNotYetRead()) + readFirstChunks(); + return chunksList; + } + + int getCurrentChunkGroup() { + return currentChunkGroup; + } + + /** + * High level wrapper over chunksList + * + * @see #getChunksList() + */ + public PngMetadata getMetadata() { + if (firstChunksNotYetRead()) + readFirstChunks(); + return metadata; + } + + /** + * If called for first time, calls readRowInt. Elsewhere, it calls the + * appropiate readRowInt/readRowByte + * <p> + * In general, specifying the concrete readRowInt/readRowByte is preferrable + * + * @see #readRowInt(int) {@link #readRowByte(int)} + */ + public ImageLine readRow(int nrow) { + if (imgLine == null) + imgLine = new ImageLine(imgInfo, SampleType.INT, unpackedMode); + return imgLine.sampleType != SampleType.BYTE ? readRowInt(nrow) : readRowByte(nrow); + } + + /** + * Reads the row as INT, storing it in the {@link #imgLine} property and + * returning it. + * + * The row must be greater or equal than the last read row. + * + * @param nrow + * Row number, from 0 to rows-1. Increasing order. + * @return ImageLine object, also available as field. Data is in + * {@link ImageLine#scanline} (int) field. + */ + public ImageLine readRowInt(int nrow) { + if (imgLine == null) + imgLine = new ImageLine(imgInfo, SampleType.INT, unpackedMode); + if (imgLine.getRown() == nrow) // already read + return imgLine; + readRowInt(imgLine.scanline, nrow); + imgLine.setFilterUsed(FilterType.getByVal(rowbfilter[0])); + imgLine.setRown(nrow); + return imgLine; + } + + /** + * Reads the row as BYTES, storing it in the {@link #imgLine} property and + * returning it. + * + * The row must be greater or equal than the last read row. This method + * allows to pass the same row that was last read. + * + * @param nrow + * Row number, from 0 to rows-1. Increasing order. + * @return ImageLine object, also available as field. Data is in + * {@link ImageLine#scanlineb} (byte) field. + */ + public ImageLine readRowByte(int nrow) { + if (imgLine == null) + imgLine = new ImageLine(imgInfo, SampleType.BYTE, unpackedMode); + if (imgLine.getRown() == nrow) // already read + return imgLine; + readRowByte(imgLine.scanlineb, nrow); + imgLine.setFilterUsed(FilterType.getByVal(rowbfilter[0])); + imgLine.setRown(nrow); + return imgLine; + } + + /** + * @see #readRowInt(int[], int) + */ + public final int[] readRow(int[] buffer, final int nrow) { + return readRowInt(buffer, nrow); + } + + /** + * Reads a line and returns it as a int[] array. + * <p> + * You can pass (optionally) a prealocatted buffer. + * <p> + * If the bitdepth is less than 8, the bytes are packed - unless + * {@link #unpackedMode} is true. + * + * @param buffer + * Prealocated buffer, or null. + * @param nrow + * Row number (0 is top). Most be strictly greater than the last + * read row. + * + * @return The scanline in the same passwd buffer if it was allocated, a + * newly allocated one otherwise + */ + public final int[] readRowInt(int[] buffer, final int nrow) { + if (buffer == null) + buffer = new int[unpackedMode ? imgInfo.samplesPerRow : imgInfo.samplesPerRowPacked]; + if (!interlaced) { + if (nrow <= rowNum) + throw new PngjInputException("rows must be read in increasing order: " + nrow); + int bytesread = 0; + while (rowNum < nrow) + bytesread = readRowRaw(rowNum + 1); // read rows, perhaps skipping if necessary + decodeLastReadRowToInt(buffer, bytesread); + } else { // interlaced + if (deinterlacer.getImageInt() == null) + deinterlacer.setImageInt(readRowsInt().scanlines); // read all image and store it in deinterlacer + System.arraycopy(deinterlacer.getImageInt()[nrow], 0, buffer, 0, unpackedMode ? imgInfo.samplesPerRow + : imgInfo.samplesPerRowPacked); + } + return buffer; + } + + /** + * Reads a line and returns it as a byte[] array. + * <p> + * You can pass (optionally) a prealocatted buffer. + * <p> + * If the bitdepth is less than 8, the bytes are packed - unless + * {@link #unpackedMode} is true. <br> + * If the bitdepth is 16, the least significant byte is lost. + * <p> + * + * @param buffer + * Prealocated buffer, or null. + * @param nrow + * Row number (0 is top). Most be strictly greater than the last + * read row. + * + * @return The scanline in the same passwd buffer if it was allocated, a + * newly allocated one otherwise + */ + public final byte[] readRowByte(byte[] buffer, final int nrow) { + if (buffer == null) + buffer = new byte[unpackedMode ? imgInfo.samplesPerRow : imgInfo.samplesPerRowPacked]; + if (!interlaced) { + if (nrow <= rowNum) + throw new PngjInputException("rows must be read in increasing order: " + nrow); + int bytesread = 0; + while (rowNum < nrow) + bytesread = readRowRaw(rowNum + 1); // read rows, perhaps skipping if necessary + decodeLastReadRowToByte(buffer, bytesread); + } else { // interlaced + if (deinterlacer.getImageByte() == null) + deinterlacer.setImageByte(readRowsByte().scanlinesb); // read all image and store it in deinterlacer + System.arraycopy(deinterlacer.getImageByte()[nrow], 0, buffer, 0, unpackedMode ? imgInfo.samplesPerRow + : imgInfo.samplesPerRowPacked); + } + return buffer; + } + + /** + * @param nrow + * @deprecated Now {@link #readRow(int)} implements the same funcion. This + * method will be removed in future releases + */ + public ImageLine getRow(int nrow) { + return readRow(nrow); + } + + private void decodeLastReadRowToInt(int[] buffer, int bytesRead) { + if (imgInfo.bitDepth <= 8) + for (int i = 0, j = 1; i < bytesRead; i++) + buffer[i] = (rowb[j++] & 0xFF); // http://www.libpng.org/pub/png/spec/1.2/PNG-DataRep.html + else + for (int i = 0, j = 1; j <= bytesRead; i++) + buffer[i] = ((rowb[j++] & 0xFF) << 8) + (rowb[j++] & 0xFF); // 16 bitspc + if (imgInfo.packed && unpackedMode) + ImageLine.unpackInplaceInt(imgInfo, buffer, buffer, false); + } + + private void decodeLastReadRowToByte(byte[] buffer, int bytesRead) { + if (imgInfo.bitDepth <= 8) + System.arraycopy(rowb, 1, buffer, 0, bytesRead); + else + for (int i = 0, j = 1; j < bytesRead; i++, j += 2) + buffer[i] = rowb[j];// 16 bits in 1 byte: this discards the LSB!!! + if (imgInfo.packed && unpackedMode) + ImageLine.unpackInplaceByte(imgInfo, buffer, buffer, false); + } + + /** + * Reads a set of lines and returns it as a ImageLines object, which wraps + * matrix. Internally it reads all lines, but decodes and stores only the + * wanted ones. This starts and ends the reading, and cannot be combined + * with other reading methods. + * <p> + * This it's more efficient (speed an memory) that doing calling + * readRowInt() for each desired line only if the image is interlaced. + * <p> + * Notice that the columns in the matrix is not the pixel width of the + * image, but rather pixels x channels + * + * @see #readRowInt(int) to read about the format of each row + * + * @param rowOffset + * Number of rows to be skipped + * @param nRows + * Total number of rows to be read. -1: read all available + * @param rowStep + * Row increment. If 1, we read consecutive lines; if 2, we read + * even/odd lines, etc + * @return Set of lines as a ImageLines, which wraps a matrix + */ + public ImageLines readRowsInt(int rowOffset, int nRows, int rowStep) { + if (nRows < 0) + nRows = (imgInfo.rows - rowOffset) / rowStep; + if (rowStep < 1 || rowOffset < 0 || nRows * rowStep + rowOffset > imgInfo.rows) + throw new PngjInputException("bad args"); + ImageLines imlines = new ImageLines(imgInfo, SampleType.INT, unpackedMode, rowOffset, nRows, rowStep); + if (!interlaced) { + for (int j = 0; j < imgInfo.rows; j++) { + int bytesread = readRowRaw(j); // read and perhaps discards + int mrow = imlines.imageRowToMatrixRowStrict(j); + if (mrow >= 0) + decodeLastReadRowToInt(imlines.scanlines[mrow], bytesread); + } + } else { // and now, for something completely different (interlaced) + int[] buf = new int[unpackedMode ? imgInfo.samplesPerRow : imgInfo.samplesPerRowPacked]; + for (int p = 1; p <= 7; p++) { + deinterlacer.setPass(p); + for (int i = 0; i < deinterlacer.getRows(); i++) { + int bytesread = readRowRaw(i); + int j = deinterlacer.getCurrRowReal(); + int mrow = imlines.imageRowToMatrixRowStrict(j); + if (mrow >= 0) { + decodeLastReadRowToInt(buf, bytesread); + deinterlacer.deinterlaceInt(buf, imlines.scanlines[mrow], !unpackedMode); + } + } + } + } + end(); + return imlines; + } + + /** + * Same as readRowsInt(0, imgInfo.rows, 1) + * + * @see #readRowsInt(int, int, int) + */ + public ImageLines readRowsInt() { + return readRowsInt(0, imgInfo.rows, 1); + } + + /** + * Reads a set of lines and returns it as a ImageLines object, which wrapas + * a byte[][] matrix. Internally it reads all lines, but decodes and stores + * only the wanted ones. This starts and ends the reading, and cannot be + * combined with other reading methods. + * <p> + * This it's more efficient (speed an memory) that doing calling + * readRowByte() for each desired line only if the image is interlaced. + * <p> + * Notice that the columns in the matrix is not the pixel width of the + * image, but rather pixels x channels + * + * @see #readRowByte(int) to read about the format of each row. Notice that + * if the bitdepth is 16 this will lose information + * + * @param rowOffset + * Number of rows to be skipped + * @param nRows + * Total number of rows to be read. -1: read all available + * @param rowStep + * Row increment. If 1, we read consecutive lines; if 2, we read + * even/odd lines, etc + * @return Set of lines as a matrix + */ + public ImageLines readRowsByte(int rowOffset, int nRows, int rowStep) { + if (nRows < 0) + nRows = (imgInfo.rows - rowOffset) / rowStep; + if (rowStep < 1 || rowOffset < 0 || nRows * rowStep + rowOffset > imgInfo.rows) + throw new PngjInputException("bad args"); + ImageLines imlines = new ImageLines(imgInfo, SampleType.BYTE, unpackedMode, rowOffset, nRows, rowStep); + if (!interlaced) { + for (int j = 0; j < imgInfo.rows; j++) { + int bytesread = readRowRaw(j); // read and perhaps discards + int mrow = imlines.imageRowToMatrixRowStrict(j); + if (mrow >= 0) + decodeLastReadRowToByte(imlines.scanlinesb[mrow], bytesread); + } + } else { // and now, for something completely different (interlaced) + byte[] buf = new byte[unpackedMode ? imgInfo.samplesPerRow : imgInfo.samplesPerRowPacked]; + for (int p = 1; p <= 7; p++) { + deinterlacer.setPass(p); + for (int i = 0; i < deinterlacer.getRows(); i++) { + int bytesread = readRowRaw(i); + int j = deinterlacer.getCurrRowReal(); + int mrow = imlines.imageRowToMatrixRowStrict(j); + if (mrow >= 0) { + decodeLastReadRowToByte(buf, bytesread); + deinterlacer.deinterlaceByte(buf, imlines.scanlinesb[mrow], !unpackedMode); + } + } + } + } + end(); + return imlines; + } + + /** + * Same as readRowsByte(0, imgInfo.rows, 1) + * + * @see #readRowsByte(int, int, int) + */ + public ImageLines readRowsByte() { + return readRowsByte(0, imgInfo.rows, 1); + } + + /* + * For the interlaced case, nrow indicates the subsampled image - the pass must be set already. + * + * This must be called in strict order, both for interlaced or no interlaced. + * + * Updates rowNum. + * + * Leaves raw result in rowb + * + * Returns bytes actually read (not including the filter byte) + */ + private int readRowRaw(final int nrow) { + if (nrow == 0) { + if (firstChunksNotYetRead()) + readFirstChunks(); + allocateBuffers(); + if (interlaced) + Arrays.fill(rowb, (byte) 0); // new subimage: reset filters: this is enough, see the swap that happens lines + } + // below + int bytesRead = imgInfo.bytesPerRow; // NOT including the filter byte + if (interlaced) { + if (nrow < 0 || nrow > deinterlacer.getRows() || (nrow != 0 && nrow != deinterlacer.getCurrRowSubimg() + 1)) + throw new PngjInputException("invalid row in interlaced mode: " + nrow); + deinterlacer.setRow(nrow); + bytesRead = (imgInfo.bitspPixel * deinterlacer.getPixelsToRead() + 7) / 8; + if (bytesRead < 1) + throw new PngjExceptionInternal("wtf??"); + } else { // check for non interlaced + if (nrow < 0 || nrow >= imgInfo.rows || nrow != rowNum + 1) + throw new PngjInputException("invalid row: " + nrow); + } + rowNum = nrow; + // swap buffers + byte[] tmp = rowb; + rowb = rowbprev; + rowbprev = tmp; + // loads in rowbfilter "raw" bytes, with filter + PngHelperInternal.readBytes(idatIstream, rowbfilter, 0, bytesRead + 1); + offset = iIdatCstream.getOffset(); + if (offset < 0) + throw new PngjExceptionInternal("bad offset ??" + offset); + if (maxTotalBytesRead > 0 && offset >= maxTotalBytesRead) + throw new PngjInputException("Reading IDAT: Maximum total bytes to read exceeeded: " + maxTotalBytesRead + + " offset:" + offset); + rowb[0] = 0; + unfilterRow(bytesRead); + rowb[0] = rowbfilter[0]; + if ((rowNum == imgInfo.rows - 1 && !interlaced) || (interlaced && deinterlacer.isAtLastRow())) + readLastAndClose(); + return bytesRead; + } + + /** + * Reads all the (remaining) file, skipping the pixels data. This is much + * more efficient that calling readRow(), specially for big files (about 10 + * times faster!), because it doesn't even decompress the IDAT stream and + * disables CRC check Use this if you are not interested in reading + * pixels,only metadata. + */ + public void readSkippingAllRows() { + if (firstChunksNotYetRead()) + readFirstChunks(); + // we read directly from the compressed stream, we dont decompress nor chec CRC + iIdatCstream.disableCrcCheck(); + allocateBuffers(); + try { + int r; + do { + r = iIdatCstream.read(rowbfilter, 0, buffersLen); + } while (r >= 0); + } catch (IOException e) { + throw new PngjInputException("error in raw read of IDAT", e); + } + offset = iIdatCstream.getOffset(); + if (offset < 0) + throw new PngjExceptionInternal("bad offset ??" + offset); + if (maxTotalBytesRead > 0 && offset >= maxTotalBytesRead) + throw new PngjInputException("Reading IDAT: Maximum total bytes to read exceeeded: " + maxTotalBytesRead + + " offset:" + offset); + readLastAndClose(); + } + + /** + * Set total maximum bytes to read (0: unlimited; default: 200MB). <br> + * These are the bytes read (not loaded) in the input stream. If exceeded, + * an exception will be thrown. + */ + public void setMaxTotalBytesRead(long maxTotalBytesToRead) { + this.maxTotalBytesRead = maxTotalBytesToRead; + } + + /** + * @return Total maximum bytes to read. + */ + public long getMaxTotalBytesRead() { + return maxTotalBytesRead; + } + + /** + * Set total maximum bytes to load from ancillary chunks (0: unlimited; + * default: 5Mb).<br> + * If exceeded, some chunks will be skipped + */ + public void setMaxBytesMetadata(int maxBytesChunksToLoad) { + this.maxBytesMetadata = maxBytesChunksToLoad; + } + + /** + * @return Total maximum bytes to load from ancillary ckunks. + */ + public int getMaxBytesMetadata() { + return maxBytesMetadata; + } + + /** + * Set maximum size in bytes for individual ancillary chunks (0: unlimited; + * default: 2MB). <br> + * Chunks exceeding this length will be skipped (the CRC will not be + * checked) and the chunk will be saved as a PngChunkSkipped object. See + * also setSkipChunkIds + */ + public void setSkipChunkMaxSize(int skipChunksBySize) { + this.skipChunkMaxSize = skipChunksBySize; + } + + /** + * @return maximum size in bytes for individual ancillary chunks. + */ + public int getSkipChunkMaxSize() { + return skipChunkMaxSize; + } + + /** + * Chunks ids to be skipped. <br> + * These chunks will be skipped (the CRC will not be checked) and the chunk + * will be saved as a PngChunkSkipped object. See also setSkipChunkMaxSize + */ + public void setSkipChunkIds(String[] skipChunksById) { + this.skipChunkIds = skipChunksById == null ? new String[] {} : skipChunksById; + } + + /** + * @return Chunk-IDs to be skipped. + */ + public String[] getSkipChunkIds() { + return skipChunkIds; + } + + /** + * if true, input stream will be closed after ending read + * <p> + * default=true + */ + public void setShouldCloseStream(boolean shouldCloseStream) { + this.shouldCloseStream = shouldCloseStream; + } + + /** + * Normally this does nothing, but it can be used to force a premature + * closing. Its recommended practice to call it after reading the image + * pixels. + */ + public void end() { + if (currentChunkGroup < ChunksList.CHUNK_GROUP_6_END) + close(); + } + + /** + * Interlaced PNG is accepted -though not welcomed- now... + */ + public boolean isInterlaced() { + return interlaced; + } + + /** + * set/unset "unpackedMode"<br> + * If false (default) packed types (bitdepth=1,2 or 4) will keep several + * samples packed in one element (byte or int) <br> + * If true, samples will be unpacked on reading, and each element in the + * scanline will be sample. This implies more processing and memory, but + * it's the most efficient option if you intend to read individual pixels. <br> + * This option should only be set before start reading. + * + * @param unPackedMode + */ + public void setUnpackedMode(boolean unPackedMode) { + this.unpackedMode = unPackedMode; + } + + /** + * @see PngReader#setUnpackedMode(boolean) + */ + public boolean isUnpackedMode() { + return unpackedMode; + } + + /** + * Tries to reuse the allocated buffers from other already used PngReader + * object. This will have no effect if the buffers are smaller than necessary. + * It also reuses the inflater. + * + * @param other A PngReader that has already finished reading pixels. Can be null. + */ + public void reuseBuffersFrom(PngReader other) { + if(other==null) return; + if (other.currentChunkGroup < ChunksList.CHUNK_GROUP_5_AFTERIDAT) + throw new PngjInputException("PngReader to be reused have not yet ended reading pixels"); + if (other.rowbfilter != null && other.rowbfilter.length >= buffersLen) { + rowbfilter = other.rowbfilter; + rowb = other.rowb; + rowbprev = other.rowbprev; + } + inflater = other.inflater; + } + + /** + * Disables the CRC integrity check in IDAT chunks and ancillary chunks, + * this gives a slight increase in reading speed for big files + */ + public void setCrcCheckDisabled() { + crcEnabled = false; + } + + /** + * Just for testing. TO be called after ending reading, only if + * initCrctest() was called before start + * + * @return CRC of the raw pixels values + */ + long getCrctestVal() { + return crctest.getValue(); + } + + /** + * Inits CRC object and enables CRC calculation + */ + void initCrctest() { + this.crctest = new CRC32(); + } + + /** + * Basic info, for debugging. + */ + public String toString() { // basic info + return "filename=" + filename + " " + imgInfo.toString(); + } +} diff --git a/src/jogl/classes/jogamp/opengl/util/pngj/chunks/ChunkHelper.java b/src/jogl/classes/jogamp/opengl/util/pngj/chunks/ChunkHelper.java index ed091d35a..a995e4481 100644 --- a/src/jogl/classes/jogamp/opengl/util/pngj/chunks/ChunkHelper.java +++ b/src/jogl/classes/jogamp/opengl/util/pngj/chunks/ChunkHelper.java @@ -1,253 +1,297 @@ -package jogamp.opengl.util.pngj.chunks;
-
-// see http://www.libpng.org/pub/png/spec/1.2/PNG-Chunks.html
-// http://www.w3.org/TR/PNG/#5Chunk-naming-conventions
-// http://www.w3.org/TR/PNG/#table53
-import java.io.ByteArrayInputStream;
-import java.io.ByteArrayOutputStream;
-import java.io.IOException;
-import java.io.InputStream;
-import java.io.OutputStream;
-import java.util.ArrayList;
-import java.util.Iterator;
-import java.util.List;
-import java.util.zip.DeflaterOutputStream;
-import java.util.zip.InflaterInputStream;
-
-import jogamp.opengl.util.pngj.PngHelperInternal;
-import jogamp.opengl.util.pngj.PngjException;
-
-
-public class ChunkHelper {
- public static final String IHDR = "IHDR";
- public static final String PLTE = "PLTE";
- public static final String IDAT = "IDAT";
- public static final String IEND = "IEND";
- public static final byte[] b_IHDR = toBytes(IHDR);
- public static final byte[] b_PLTE = toBytes(PLTE);
- public static final byte[] b_IDAT = toBytes(IDAT);
- public static final byte[] b_IEND = toBytes(IEND);
-
- public static final String cHRM = "cHRM";
- public static final String gAMA = "gAMA";
- public static final String iCCP = "iCCP";
- public static final String sBIT = "sBIT";
- public static final String sRGB = "sRGB";
- public static final String bKGD = "bKGD";
- public static final String hIST = "hIST";
- public static final String tRNS = "tRNS";
- public static final String pHYs = "pHYs";
- public static final String sPLT = "sPLT";
- public static final String tIME = "tIME";
- public static final String iTXt = "iTXt";
- public static final String tEXt = "tEXt";
- public static final String zTXt = "zTXt";
-
- /**
- * Converts to bytes using Latin1 (ISO-8859-1)
- */
- public static byte[] toBytes(String x) {
- return x.getBytes(PngHelperInternal.charsetLatin1);
- }
-
- /**
- * Converts to String using Latin1 (ISO-8859-1)
- */
- public static String toString(byte[] x) {
- return new String(x, PngHelperInternal.charsetLatin1);
- }
-
- /**
- * Converts to String using Latin1 (ISO-8859-1)
- */
- public static String toString(byte[] x, int offset, int len) {
- return new String(x, offset, len, PngHelperInternal.charsetLatin1);
- }
-
- /**
- * Converts to bytes using UTF-8
- */
- public static byte[] toBytesUTF8(String x) {
- return x.getBytes(PngHelperInternal.charsetUTF8);
- }
-
- /**
- * Converts to string using UTF-8
- */
- public static String toStringUTF8(byte[] x) {
- return new String(x, PngHelperInternal.charsetUTF8);
- }
-
- /**
- * Converts to string using UTF-8
- */
- public static String toStringUTF8(byte[] x, int offset, int len) {
- return new String(x, offset, len, PngHelperInternal.charsetUTF8);
- }
-
- /**
- * critical chunk : first letter is uppercase
- */
- public static boolean isCritical(String id) {
- return (Character.isUpperCase(id.charAt(0)));
- }
-
- /**
- * public chunk: second letter is uppercase
- */
- public static boolean isPublic(String id) { //
- return (Character.isUpperCase(id.charAt(1)));
- }
-
- /**
- * Safe to copy chunk: fourth letter is lower case
- */
- public static boolean isSafeToCopy(String id) {
- return (!Character.isUpperCase(id.charAt(3)));
- }
-
- /**
- * "Unknown" just means that our chunk factory (even when it has been augmented by client code) did not recognize
- * its id
- */
- public static boolean isUnknown(PngChunk c) {
- return c instanceof PngChunkUNKNOWN;
- }
-
- /**
- * Finds position of null byte in array
- *
- * @param b
- * @return -1 if not found
- */
- public static int posNullByte(byte[] b) {
- for (int i = 0; i < b.length; i++)
- if (b[i] == 0)
- return i;
- return -1;
- }
-
- /**
- * Decides if a chunk should be loaded, according to a ChunkLoadBehaviour
- *
- * @param id
- * @param behav
- * @return true/false
- */
- public static boolean shouldLoad(String id, ChunkLoadBehaviour behav) {
- if (isCritical(id))
- return true;
- boolean kwown = PngChunk.isKnown(id);
- switch (behav) {
- case LOAD_CHUNK_ALWAYS:
- return true;
- case LOAD_CHUNK_IF_SAFE:
- return kwown || isSafeToCopy(id);
- case LOAD_CHUNK_KNOWN:
- return kwown;
- case LOAD_CHUNK_NEVER:
- return false;
- }
- return false; // should not reach here
- }
-
- public final static byte[] compressBytes(byte[] ori, boolean compress) {
- return compressBytes(ori, 0, ori.length, compress);
- }
-
- public static byte[] compressBytes(byte[] ori, int offset, int len, boolean compress) {
- try {
- ByteArrayInputStream inb = new ByteArrayInputStream(ori, offset, len);
- InputStream in = compress ? inb : new InflaterInputStream(inb);
- ByteArrayOutputStream outb = new ByteArrayOutputStream();
- OutputStream out = compress ? new DeflaterOutputStream(outb) : outb;
- shovelInToOut(in, out);
- in.close();
- out.close();
- return outb.toByteArray();
- } catch (Exception e) {
- throw new PngjException(e);
- }
- }
-
- /**
- * Shovels all data from an input stream to an output stream.
- */
- private static void shovelInToOut(InputStream in, OutputStream out) throws IOException {
- byte[] buffer = new byte[1024];
- int len;
- while ((len = in.read(buffer)) > 0) {
- out.write(buffer, 0, len);
- }
- }
-
- public static boolean maskMatch(int v, int mask) {
- return (v & mask) != 0;
- }
-
- /**
- * Returns only the chunks that "match" the predicate
- *
- * See also trimList()
- */
- public static List<PngChunk> filterList(List<PngChunk> target, ChunkPredicate predicateKeep) {
- List<PngChunk> result = new ArrayList<PngChunk>();
- for (PngChunk element : target) {
- if (predicateKeep.match(element)) {
- result.add(element);
- }
- }
- return result;
- }
-
- /**
- * Remove (in place) the chunks that "match" the predicate
- *
- * See also filterList
- */
- public static int trimList(List<PngChunk> target, ChunkPredicate predicateRemove) {
- Iterator<PngChunk> it = target.iterator();
- int cont = 0;
- while (it.hasNext()) {
- PngChunk c = it.next();
- if (predicateRemove.match(c)) {
- it.remove();
- cont++;
- }
- }
- return cont;
- }
-
- /**
- * MY adhoc criteria: two chunks are "equivalent" ("practically equal") if they have same id and (perhaps, if
- * multiple are allowed) if the match also in some "internal key" (eg: key for string values, palette for sPLT, etc)
- *
- * Notice that the use of this is optional, and that the PNG standard allows Text chunks that have same key
- *
- * @return true if "equivalent"
- */
- public static final boolean equivalent(PngChunk c1, PngChunk c2) {
- if (c1 == c2)
- return true;
- if (c1 == null || c2 == null || !c1.id.equals(c2.id))
- return false;
- // same id
- if (c1.getClass() != c2.getClass())
- return false; // should not happen
- if (!c2.allowsMultiple())
- return true;
- if (c1 instanceof PngChunkTextVar) {
- return ((PngChunkTextVar) c1).getKey().equals(((PngChunkTextVar) c2).getKey());
- }
- if (c1 instanceof PngChunkSPLT) {
- return ((PngChunkSPLT) c1).getPalName().equals(((PngChunkSPLT) c2).getPalName());
- }
- // unknown chunks that allow multiple? consider they don't match
- return false;
- }
-
- public static boolean isText(PngChunk c) {
- return c instanceof PngChunkTextVar;
- }
-
-}
+package jogamp.opengl.util.pngj.chunks; + + +// see http://www.libpng.org/pub/png/spec/1.2/PNG-Chunks.html +// http://www.w3.org/TR/PNG/#5Chunk-naming-conventions +// http://www.w3.org/TR/PNG/#table53 +import java.io.ByteArrayInputStream; +import java.io.ByteArrayOutputStream; +import java.io.IOException; +import java.io.InputStream; +import java.io.OutputStream; +import java.util.ArrayList; +import java.util.Iterator; +import java.util.List; +import java.util.zip.Deflater; +import java.util.zip.DeflaterOutputStream; +import java.util.zip.Inflater; +import java.util.zip.InflaterInputStream; + +import jogamp.opengl.util.pngj.PngHelperInternal; +import jogamp.opengl.util.pngj.PngjException; + + +public class ChunkHelper { + public static final String IHDR = "IHDR"; + public static final String PLTE = "PLTE"; + public static final String IDAT = "IDAT"; + public static final String IEND = "IEND"; + public static final byte[] b_IHDR = toBytes(IHDR); + public static final byte[] b_PLTE = toBytes(PLTE); + public static final byte[] b_IDAT = toBytes(IDAT); + public static final byte[] b_IEND = toBytes(IEND); + + public static final String cHRM = "cHRM"; + public static final String gAMA = "gAMA"; + public static final String iCCP = "iCCP"; + public static final String sBIT = "sBIT"; + public static final String sRGB = "sRGB"; + public static final String bKGD = "bKGD"; + public static final String hIST = "hIST"; + public static final String tRNS = "tRNS"; + public static final String pHYs = "pHYs"; + public static final String sPLT = "sPLT"; + public static final String tIME = "tIME"; + public static final String iTXt = "iTXt"; + public static final String tEXt = "tEXt"; + public static final String zTXt = "zTXt"; + + private static final ThreadLocal<Inflater> inflaterProvider = new ThreadLocal<Inflater>() { + protected Inflater initialValue() { + return new Inflater(); + } + }; + + private static final ThreadLocal<Deflater> deflaterProvider = new ThreadLocal<Deflater>() { + protected Deflater initialValue() { + return new Deflater(); + } + }; + + /* + * static auxiliary buffer. any method that uses this should synchronize against this + */ + private static byte[] tmpbuffer = new byte[4096]; + + /** + * Converts to bytes using Latin1 (ISO-8859-1) + */ + public static byte[] toBytes(String x) { + return x.getBytes(PngHelperInternal.charsetLatin1); + } + + /** + * Converts to String using Latin1 (ISO-8859-1) + */ + public static String toString(byte[] x) { + return new String(x, PngHelperInternal.charsetLatin1); + } + + /** + * Converts to String using Latin1 (ISO-8859-1) + */ + public static String toString(byte[] x, int offset, int len) { + return new String(x, offset, len, PngHelperInternal.charsetLatin1); + } + + /** + * Converts to bytes using UTF-8 + */ + public static byte[] toBytesUTF8(String x) { + return x.getBytes(PngHelperInternal.charsetUTF8); + } + + /** + * Converts to string using UTF-8 + */ + public static String toStringUTF8(byte[] x) { + return new String(x, PngHelperInternal.charsetUTF8); + } + + /** + * Converts to string using UTF-8 + */ + public static String toStringUTF8(byte[] x, int offset, int len) { + return new String(x, offset, len, PngHelperInternal.charsetUTF8); + } + + /** + * critical chunk : first letter is uppercase + */ + public static boolean isCritical(String id) { + return (Character.isUpperCase(id.charAt(0))); + } + + /** + * public chunk: second letter is uppercase + */ + public static boolean isPublic(String id) { // + return (Character.isUpperCase(id.charAt(1))); + } + + /** + * Safe to copy chunk: fourth letter is lower case + */ + public static boolean isSafeToCopy(String id) { + return (!Character.isUpperCase(id.charAt(3))); + } + + /** + * "Unknown" just means that our chunk factory (even when it has been + * augmented by client code) did not recognize its id + */ + public static boolean isUnknown(PngChunk c) { + return c instanceof PngChunkUNKNOWN; + } + + /** + * Finds position of null byte in array + * + * @param b + * @return -1 if not found + */ + public static int posNullByte(byte[] b) { + for (int i = 0; i < b.length; i++) + if (b[i] == 0) + return i; + return -1; + } + + /** + * Decides if a chunk should be loaded, according to a ChunkLoadBehaviour + * + * @param id + * @param behav + * @return true/false + */ + public static boolean shouldLoad(String id, ChunkLoadBehaviour behav) { + if (isCritical(id)) + return true; + boolean kwown = PngChunk.isKnown(id); + switch (behav) { + case LOAD_CHUNK_ALWAYS: + return true; + case LOAD_CHUNK_IF_SAFE: + return kwown || isSafeToCopy(id); + case LOAD_CHUNK_KNOWN: + return kwown; + case LOAD_CHUNK_NEVER: + return false; + } + return false; // should not reach here + } + + public final static byte[] compressBytes(byte[] ori, boolean compress) { + return compressBytes(ori, 0, ori.length, compress); + } + + public static byte[] compressBytes(byte[] ori, int offset, int len, boolean compress) { + try { + ByteArrayInputStream inb = new ByteArrayInputStream(ori, offset, len); + InputStream in = compress ? inb : new InflaterInputStream(inb, getInflater()); + ByteArrayOutputStream outb = new ByteArrayOutputStream(); + OutputStream out = compress ? new DeflaterOutputStream(outb) : outb; + shovelInToOut(in, out); + in.close(); + out.close(); + return outb.toByteArray(); + } catch (Exception e) { + throw new PngjException(e); + } + } + + /** + * Shovels all data from an input stream to an output stream. + */ + private static void shovelInToOut(InputStream in, OutputStream out) throws IOException { + synchronized (tmpbuffer) { + int len; + while ((len = in.read(tmpbuffer)) > 0) { + out.write(tmpbuffer, 0, len); + } + } + } + + public static boolean maskMatch(int v, int mask) { + return (v & mask) != 0; + } + + /** + * Returns only the chunks that "match" the predicate + * + * See also trimList() + */ + public static List<PngChunk> filterList(List<PngChunk> target, ChunkPredicate predicateKeep) { + List<PngChunk> result = new ArrayList<PngChunk>(); + for (PngChunk element : target) { + if (predicateKeep.match(element)) { + result.add(element); + } + } + return result; + } + + /** + * Remove (in place) the chunks that "match" the predicate + * + * See also filterList + */ + public static int trimList(List<PngChunk> target, ChunkPredicate predicateRemove) { + Iterator<PngChunk> it = target.iterator(); + int cont = 0; + while (it.hasNext()) { + PngChunk c = it.next(); + if (predicateRemove.match(c)) { + it.remove(); + cont++; + } + } + return cont; + } + + /** + * MY adhoc criteria: two chunks are "equivalent" ("practically equal") if + * they have same id and (perhaps, if multiple are allowed) if the match + * also in some "internal key" (eg: key for string values, palette for sPLT, + * etc) + * + * Notice that the use of this is optional, and that the PNG standard allows + * Text chunks that have same key + * + * @return true if "equivalent" + */ + public static final boolean equivalent(PngChunk c1, PngChunk c2) { + if (c1 == c2) + return true; + if (c1 == null || c2 == null || !c1.id.equals(c2.id)) + return false; + // same id + if (c1.getClass() != c2.getClass()) + return false; // should not happen + if (!c2.allowsMultiple()) + return true; + if (c1 instanceof PngChunkTextVar) { + return ((PngChunkTextVar) c1).getKey().equals(((PngChunkTextVar) c2).getKey()); + } + if (c1 instanceof PngChunkSPLT) { + return ((PngChunkSPLT) c1).getPalName().equals(((PngChunkSPLT) c2).getPalName()); + } + // unknown chunks that allow multiple? consider they don't match + return false; + } + + public static boolean isText(PngChunk c) { + return c instanceof PngChunkTextVar; + } + + /** + * thread-local inflater, just reset : this should be only used for short + * individual chunks compression + */ + public static Inflater getInflater() { + Inflater inflater = inflaterProvider.get(); + inflater.reset(); + return inflater; + } + + /** + * thread-local deflater, just reset : this should be only used for short + * individual chunks decompression + */ + public static Deflater getDeflater() { + Deflater deflater = deflaterProvider.get(); + deflater.reset(); + return deflater; + } + +} diff --git a/src/jogl/classes/jogamp/opengl/util/pngj/chunks/PngChunkTRNS.java b/src/jogl/classes/jogamp/opengl/util/pngj/chunks/PngChunkTRNS.java index 1de5c0833..b68776477 100644 --- a/src/jogl/classes/jogamp/opengl/util/pngj/chunks/PngChunkTRNS.java +++ b/src/jogl/classes/jogamp/opengl/util/pngj/chunks/PngChunkTRNS.java @@ -1,143 +1,141 @@ -package jogamp.opengl.util.pngj.chunks;
-
-import jogamp.opengl.util.pngj.ImageInfo;
-import jogamp.opengl.util.pngj.PngHelperInternal;
-import jogamp.opengl.util.pngj.PngjException;
-
-/**
- * tRNS chunk.
- * <p>
- * see http://www.w3.org/TR/PNG/#11tRNS
- * <p>
- * this chunk structure depends on the image type
- */
-public class PngChunkTRNS extends PngChunkSingle {
- public final static String ID = ChunkHelper.tRNS;
-
- // http://www.w3.org/TR/PNG/#11tRNS
-
- // only one of these is meaningful, depending on the image type
- private int gray;
- private int red, green, blue;
- private int[] paletteAlpha = new int[] {};
-
- public PngChunkTRNS(ImageInfo info) {
- super(ID, info);
- }
-
- @Override
- public ChunkOrderingConstraint getOrderingConstraint() {
- return ChunkOrderingConstraint.AFTER_PLTE_BEFORE_IDAT;
- }
-
- @Override
- public ChunkRaw createRawChunk() {
- ChunkRaw c = null;
- if (imgInfo.greyscale) {
- c = createEmptyChunk(2, true);
- PngHelperInternal.writeInt2tobytes(gray, c.data, 0);
- } else if (imgInfo.indexed) {
- c = createEmptyChunk(paletteAlpha.length, true);
- for (int n = 0; n < c.len; n++) {
- c.data[n] = (byte) paletteAlpha[n];
- }
- } else {
- c = createEmptyChunk(6, true);
- PngHelperInternal.writeInt2tobytes(red, c.data, 0);
- PngHelperInternal.writeInt2tobytes(green, c.data, 0);
- PngHelperInternal.writeInt2tobytes(blue, c.data, 0);
- }
- return c;
- }
-
- @Override
- public void parseFromRaw(ChunkRaw c) {
- if (imgInfo.greyscale) {
- gray = PngHelperInternal.readInt2fromBytes(c.data, 0);
- } else if (imgInfo.indexed) {
- int nentries = c.data.length;
- paletteAlpha = new int[nentries];
- for (int n = 0; n < nentries; n++) {
- paletteAlpha[n] = (int) (c.data[n] & 0xff);
- }
- } else {
- red = PngHelperInternal.readInt2fromBytes(c.data, 0);
- green = PngHelperInternal.readInt2fromBytes(c.data, 2);
- blue = PngHelperInternal.readInt2fromBytes(c.data, 4);
- }
- }
-
- @Override
- public void cloneDataFromRead(PngChunk other) {
- PngChunkTRNS otherx = (PngChunkTRNS) other;
- gray = otherx.gray;
- red = otherx.red;
- green = otherx.red;
- blue = otherx.red;
- if (otherx.paletteAlpha != null) {
- paletteAlpha = new int[otherx.paletteAlpha.length];
- System.arraycopy(otherx.paletteAlpha, 0, paletteAlpha, 0, paletteAlpha.length);
- }
- }
-
- /**
- * Set rgb values
- *
- */
- public void setRGB(int r, int g, int b) {
- if (imgInfo.greyscale || imgInfo.indexed)
- throw new PngjException("only rgb or rgba images support this");
- red = r;
- green = g;
- blue = b;
- }
-
- public int[] getRGB() {
- if (imgInfo.greyscale || imgInfo.indexed)
- throw new PngjException("only rgb or rgba images support this");
- return new int[] { red, green, blue };
- }
-
- public void setGray(int g) {
- if (!imgInfo.greyscale)
- throw new PngjException("only grayscale images support this");
- gray = g;
- }
-
- public int getGray() {
- if (!imgInfo.greyscale)
- throw new PngjException("only grayscale images support this");
- return gray;
- }
-
- /**
- * WARNING: non deep copy
- */
- public void setPalletteAlpha(int[] palAlpha) {
- if (!imgInfo.indexed)
- throw new PngjException("only indexed images support this");
- paletteAlpha = palAlpha;
- }
-
- /**
- * to use when only one pallete index is set as totally transparent
- */
- public void setIndexEntryAsTransparent(int palAlphaIndex) {
- if (!imgInfo.indexed)
- throw new PngjException("only indexed images support this");
- paletteAlpha = new int[] { palAlphaIndex + 1 };
- for (int i = 0; i < palAlphaIndex; i++)
- paletteAlpha[i] = 255;
- paletteAlpha[palAlphaIndex] = 0;
- }
-
- /**
- * WARNING: non deep copy
- */
- public int[] getPalletteAlpha() {
- if (!imgInfo.indexed)
- throw new PngjException("only indexed images support this");
- return paletteAlpha;
- }
-
-}
+package jogamp.opengl.util.pngj.chunks; + +import jogamp.opengl.util.pngj.ImageInfo; +import jogamp.opengl.util.pngj.PngHelperInternal; +import jogamp.opengl.util.pngj.PngjException; + +/** + * tRNS chunk. + * <p> + * see http://www.w3.org/TR/PNG/#11tRNS + * <p> + * this chunk structure depends on the image type + */ +public class PngChunkTRNS extends PngChunkSingle { + public final static String ID = ChunkHelper.tRNS; + + // http://www.w3.org/TR/PNG/#11tRNS + + // only one of these is meaningful, depending on the image type + private int gray; + private int red, green, blue; + private int[] paletteAlpha = new int[] {}; + + public PngChunkTRNS(ImageInfo info) { + super(ID, info); + } + + @Override + public ChunkOrderingConstraint getOrderingConstraint() { + return ChunkOrderingConstraint.AFTER_PLTE_BEFORE_IDAT; + } + + @Override + public ChunkRaw createRawChunk() { + ChunkRaw c = null; + if (imgInfo.greyscale) { + c = createEmptyChunk(2, true); + PngHelperInternal.writeInt2tobytes(gray, c.data, 0); + } else if (imgInfo.indexed) { + c = createEmptyChunk(paletteAlpha.length, true); + for (int n = 0; n < c.len; n++) { + c.data[n] = (byte) paletteAlpha[n]; + } + } else { + c = createEmptyChunk(6, true); + PngHelperInternal.writeInt2tobytes(red, c.data, 0); + PngHelperInternal.writeInt2tobytes(green, c.data, 0); + PngHelperInternal.writeInt2tobytes(blue, c.data, 0); + } + return c; + } + + @Override + public void parseFromRaw(ChunkRaw c) { + if (imgInfo.greyscale) { + gray = PngHelperInternal.readInt2fromBytes(c.data, 0); + } else if (imgInfo.indexed) { + int nentries = c.data.length; + paletteAlpha = new int[nentries]; + for (int n = 0; n < nentries; n++) { + paletteAlpha[n] = (int) (c.data[n] & 0xff); + } + } else { + red = PngHelperInternal.readInt2fromBytes(c.data, 0); + green = PngHelperInternal.readInt2fromBytes(c.data, 2); + blue = PngHelperInternal.readInt2fromBytes(c.data, 4); + } + } + + @Override + public void cloneDataFromRead(PngChunk other) { + PngChunkTRNS otherx = (PngChunkTRNS) other; + gray = otherx.gray; + red = otherx.red; + green = otherx.green; + blue = otherx.blue; + if (otherx.paletteAlpha != null) { + paletteAlpha = new int[otherx.paletteAlpha.length]; + System.arraycopy(otherx.paletteAlpha, 0, paletteAlpha, 0, paletteAlpha.length); + } + } + + /** + * Set rgb values + * + */ + public void setRGB(int r, int g, int b) { + if (imgInfo.greyscale || imgInfo.indexed) + throw new PngjException("only rgb or rgba images support this"); + red = r; + green = g; + blue = b; + } + + public int[] getRGB() { + if (imgInfo.greyscale || imgInfo.indexed) + throw new PngjException("only rgb or rgba images support this"); + return new int[] { red, green, blue }; + } + + public void setGray(int g) { + if (!imgInfo.greyscale) + throw new PngjException("only grayscale images support this"); + gray = g; + } + + public int getGray() { + if (!imgInfo.greyscale) + throw new PngjException("only grayscale images support this"); + return gray; + } + + /** + * WARNING: non deep copy + */ + public void setPalletteAlpha(int[] palAlpha) { + if (!imgInfo.indexed) + throw new PngjException("only indexed images support this"); + paletteAlpha = palAlpha; + } + + /** + * to use when only one pallete index is set as totally transparent + */ + public void setIndexEntryAsTransparent(int palAlphaIndex) { + if (!imgInfo.indexed) + throw new PngjException("only indexed images support this"); + paletteAlpha = new int[] { palAlphaIndex + 1 }; + for (int i = 0; i < palAlphaIndex; i++) + paletteAlpha[i] = 255; + paletteAlpha[palAlphaIndex] = 0; + } + + /** + * WARNING: non deep copy + */ + public int[] getPalletteAlpha() { + return paletteAlpha; + } + +} |