package jogamp.opengl.util.pngj; import jogamp.opengl.util.pngj.ImageLine.SampleType; /** * Wraps in a matrix a set of image rows, not necessarily contiguous - but * equispaced. * * The fields mirrors those of {@link ImageLine}, and you can access each row as * a ImageLine backed by the matrix row, see * {@link #getImageLineAtMatrixRow(int)} */ public class ImageLines { public final ImageInfo imgInfo; public final int channels; public final int bitDepth; public final SampleType sampleType; public final boolean samplesUnpacked; public final int elementsPerRow; public final int rowOffset; public final int nRows; public final int rowStep; public final int[][] scanlines; public final byte[][] scanlinesb; /** * Allocates a matrix to store {@code nRows} image rows. See * {@link ImageLine} and {@link PngReader#readRowsInt()} * {@link PngReader#readRowsByte()} * * @param imgInfo * @param stype * @param unpackedMode * @param rowOffset * @param nRows * @param rowStep */ public ImageLines(ImageInfo imgInfo, SampleType stype, boolean unpackedMode, int rowOffset, int nRows, int rowStep) { this.imgInfo = imgInfo; channels = imgInfo.channels; bitDepth = imgInfo.bitDepth; this.sampleType = stype; this.samplesUnpacked = unpackedMode || !imgInfo.packed; elementsPerRow = unpackedMode ? imgInfo.samplesPerRow : imgInfo.samplesPerRowPacked; this.rowOffset = rowOffset; this.nRows = nRows; this.rowStep = rowStep; if (stype == SampleType.INT) { scanlines = new int[nRows][elementsPerRow]; scanlinesb = null; } else if (stype == SampleType.BYTE) { scanlinesb = new byte[nRows][elementsPerRow]; scanlines = null; } else throw new PngjExceptionInternal("bad ImageLine initialization"); } /** * Warning: this always returns a valid matrix row (clamping on 0 : nrows-1, * and rounding down) Eg: rowOffset=4,rowStep=2 imageRowToMatrixRow(17) * returns 6 , imageRowToMatrixRow(1) returns 0 */ public int imageRowToMatrixRow(int imrow) { int r = (imrow - rowOffset) / rowStep; return r < 0 ? 0 : (r < nRows ? r : nRows - 1); } /** * Same as imageRowToMatrixRow, but returns negative if invalid */ public int imageRowToMatrixRowStrict(int imrow) { imrow -= rowOffset; int mrow = imrow >= 0 && imrow % rowStep == 0 ? imrow / rowStep : -1; return mrow < nRows ? mrow : -1; } /** * Converts from matrix row number (0 : nRows-1) to image row number * * @param mrow * Matrix row number * @return Image row number. Invalid only if mrow is invalid */ public int matrixRowToImageRow(int mrow) { return mrow * rowStep + rowOffset; } /** * Returns a ImageLine is backed by the matrix, no allocation done * * @param mrow * Matrix row, from 0 to nRows This is not necessarily the image * row, see {@link #imageRowToMatrixRow(int)} and * {@link #matrixRowToImageRow(int)} * @return A new ImageLine, backed by the matrix, with the correct ('real') * rownumber */ public ImageLine getImageLineAtMatrixRow(int mrow) { if (mrow < 0 || mrow > nRows) throw new PngjException("Bad row " + mrow + ". Should be positive and less than " + nRows); ImageLine imline = sampleType == SampleType.INT ? new ImageLine(imgInfo, sampleType, samplesUnpacked, scanlines[mrow], null) : new ImageLine(imgInfo, sampleType, samplesUnpacked, null, scanlinesb[mrow]); imline.setRown(matrixRowToImageRow(mrow)); return imline; } }