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590 lines
12 KiB
590 lines
12 KiB
// kimgio module for SGI images
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//
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// Copyright (C) 2004 Melchior FRANZ <mfranz@kde.org>
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//
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// This program is free software; you can redistribute it and/or
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// modify it under the terms of the Lesser GNU General Public License as
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// published by the Free Software Foundation; either version 2 of the
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// License, or (at your option) any later version.
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/* this code supports:
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* reading:
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* everything, except images with 1 dimension or images with
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* mapmode != NORMAL (e.g. dithered); Images with 16 bit
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* precision or more than 4 layers are stripped down.
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* writing:
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* Run Length Encoded (RLE) or Verbatim (uncompressed)
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* (whichever is smaller)
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*
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* Please report if you come across rgb/rgba/sgi/bw files that aren't
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* recognized. Also report applications that can't deal with images
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* saved by this filter.
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*/
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#include "rgb.h"
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#include <tqimage.h>
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#include <kdebug.h>
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///////////////////////////////////////////////////////////////////////////////
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KDE_EXPORT void kimgio_rgb_read(TQImageIO *io)
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{
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SGIImage sgi(io);
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TQImage img;
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if (!sgi.readImage(img)) {
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io->setImage(TQImage());
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io->seStatus(-1);
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return;
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}
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io->setImage(img);
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io->seStatus(0);
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}
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KDE_EXPORT void kimgio_rgb_write(TQImageIO *io)
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{
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SGIImage sgi(io);
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TQImage img = io->image();
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if (!sgi.writeImage(img))
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io->seStatus(-1);
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io->seStatus(0);
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}
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///////////////////////////////////////////////////////////////////////////////
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SGIImage::SGIImage(TQImageIO *io) :
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m_io(io),
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m_starttab(0),
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m_lengthtab(0)
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{
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m_dev = io->ioDevice();
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m_stream.setDevice(m_dev);
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}
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SGIImage::~SGIImage()
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{
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delete[] m_starttab;
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delete[] m_lengthtab;
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}
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///////////////////////////////////////////////////////////////////////////////
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bool SGIImage::getRow(uchar *dest)
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{
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int n, i;
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if (!m_rle) {
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for (i = 0; i < m_xsize; i++) {
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if (m_pos >= m_data.end())
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return false;
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dest[i] = uchar(*m_pos);
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m_pos += m_bpc;
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}
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return true;
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}
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for (i = 0; i < m_xsize;) {
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if (m_bpc == 2)
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m_pos++;
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n = *m_pos & 0x7f;
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if (!n)
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break;
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if (*m_pos++ & 0x80) {
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for (; i < m_xsize && n--; i++) {
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*dest++ = *m_pos;
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m_pos += m_bpc;
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}
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} else {
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for (; i < m_xsize && n--; i++)
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*dest++ = *m_pos;
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m_pos += m_bpc;
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}
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}
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return i == m_xsize;
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}
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bool SGIImage::readData(TQImage& img)
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{
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QRgb *c;
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TQ_UINT32 *start = m_starttab;
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TQByteArray lguard(m_xsize);
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uchar *line = (uchar *)lguard.data();
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unsigned x, y;
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if (!m_rle)
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m_pos = m_data.begin();
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for (y = 0; y < m_ysize; y++) {
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if (m_rle)
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m_pos = m_data.begin() + *start++;
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if (!getRow(line))
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return false;
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c = (QRgb *)img.scanLine(m_ysize - y - 1);
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for (x = 0; x < m_xsize; x++, c++)
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*c = tqRgb(line[x], line[x], line[x]);
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}
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if (m_zsize == 1)
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return true;
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if (m_zsize != 2) {
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for (y = 0; y < m_ysize; y++) {
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if (m_rle)
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m_pos = m_data.begin() + *start++;
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if (!getRow(line))
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return false;
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c = (QRgb *)img.scanLine(m_ysize - y - 1);
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for (x = 0; x < m_xsize; x++, c++)
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*c = tqRgb(tqRed(*c), line[x], line[x]);
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}
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for (y = 0; y < m_ysize; y++) {
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if (m_rle)
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m_pos = m_data.begin() + *start++;
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if (!getRow(line))
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return false;
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c = (QRgb *)img.scanLine(m_ysize - y - 1);
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for (x = 0; x < m_xsize; x++, c++)
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*c = tqRgb(tqRed(*c), tqGreen(*c), line[x]);
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}
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if (m_zsize == 3)
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return true;
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}
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for (y = 0; y < m_ysize; y++) {
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if (m_rle)
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m_pos = m_data.begin() + *start++;
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if (!getRow(line))
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return false;
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c = (QRgb *)img.scanLine(m_ysize - y - 1);
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for (x = 0; x < m_xsize; x++, c++)
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*c = tqRgba(tqRed(*c), tqGreen(*c), tqBlue(*c), line[x]);
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}
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return true;
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}
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bool SGIImage::readImage(TQImage& img)
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{
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TQ_INT8 u8;
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TQ_INT16 u16;
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TQ_INT32 u32;
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kdDebug(399) << "reading '" << m_io->fileName() << '\'' << endl;
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// magic
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m_stream >> u16;
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if (u16 != 0x01da)
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return false;
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// verbatim/rle
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m_stream >> m_rle;
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kdDebug(399) << (m_rle ? "RLE" : "verbatim") << endl;
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if (m_rle > 1)
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return false;
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// bytes per channel
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m_stream >> m_bpc;
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kdDebug(399) << "bytes per channel: " << int(m_bpc) << endl;
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if (m_bpc == 1)
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;
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else if (m_bpc == 2)
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kdDebug(399) << "dropping least significant byte" << endl;
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else
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return false;
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// number of dimensions
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m_stream >> m_dim;
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kdDebug(399) << "dimensions: " << m_dim << endl;
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if (m_dim < 1 || m_dim > 3)
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return false;
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m_stream >> m_xsize >> m_ysize >> m_zsize >> m_pixmin >> m_pixmax >> u32;
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kdDebug(399) << "x: " << m_xsize << endl;
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kdDebug(399) << "y: " << m_ysize << endl;
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kdDebug(399) << "z: " << m_zsize << endl;
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// name
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m_stream.readRawBytes(m_imagename, 80);
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m_imagename[79] = '\0';
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m_io->setDescription(m_imagename);
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m_stream >> m_colormap;
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kdDebug(399) << "colormap: " << m_colormap << endl;
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if (m_colormap != NORMAL)
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return false; // only NORMAL supported
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for (int i = 0; i < 404; i++)
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m_stream >> u8;
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if (m_dim == 1) {
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kdDebug(399) << "1-dimensional images aren't supported yet" << endl;
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return false;
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}
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if( m_stream.atEnd())
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return false;
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m_numrows = m_ysize * m_zsize;
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if (!img.create(m_xsize, m_ysize, 32)) {
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kdDebug(399) << "cannot create image" << endl;
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return false;
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}
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if (m_zsize == 2 || m_zsize == 4)
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img.setAlphaBuffer(true);
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else if (m_zsize > 4)
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kdDebug(399) << "using first 4 of " << m_zsize << " channels" << endl;
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if (m_rle) {
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uint l;
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m_starttab = new TQ_UINT32[m_numrows];
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for (l = 0; !m_stream.atEnd() && l < m_numrows; l++) {
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m_stream >> m_starttab[l];
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m_starttab[l] -= 512 + m_numrows * 2 * sizeof(TQ_UINT32);
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}
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m_lengthtab = new TQ_UINT32[m_numrows];
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for (l = 0; l < m_numrows; l++)
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m_stream >> m_lengthtab[l];
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}
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m_data = m_dev->readAll();
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// sanity check
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if (m_rle)
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for (uint o = 0; o < m_numrows; o++)
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// don't change to greater-or-equal!
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if (m_starttab[o] + m_lengthtab[o] > m_data.size()) {
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kdDebug(399) << "image corrupt (sanity check failed)" << endl;
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return false;
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}
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if (!readData(img)) {
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kdDebug(399) << "image corrupt (incomplete scanline)" << endl;
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return false;
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}
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return true;
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}
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///////////////////////////////////////////////////////////////////////////////
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// TODO remove; for debugging purposes only
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void RLEData::print(TQString desc) const
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{
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TQString s = desc + ": ";
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for (uint i = 0; i < size(); i++)
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s += TQString::number(at(i)) + ",";
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kdDebug() << "--- " << s << endl;
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}
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void RLEData::write(TQDataStream& s)
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{
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for (unsigned i = 0; i < size(); i++)
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s << at(i);
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}
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bool RLEData::operator<(const RLEData& b) const
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{
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uchar ac, bc;
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for (unsigned i = 0; i < QMIN(size(), b.size()); i++) {
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ac = at(i);
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bc = b[i];
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if (ac != bc)
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return ac < bc;
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}
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return size() < b.size();
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}
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uint RLEMap::insert(const uchar *d, uint l)
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{
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RLEData data = RLEData(d, l, m_offset);
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Iterator it = find(data);
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if (it != end())
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return it.data();
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m_offset += l;
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return TQMap<RLEData, uint>::insert(data, m_counter++).data();
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}
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TQPtrVector<RLEData> RLEMap::vector()
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{
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TQPtrVector<RLEData> v(size());
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for (Iterator it = begin(); it != end(); ++it)
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v.insert(it.data(), &it.key());
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return v;
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}
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uchar SGIImage::intensity(uchar c)
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{
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if (c < m_pixmin)
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m_pixmin = c;
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if (c > m_pixmax)
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m_pixmax = c;
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return c;
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}
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uint SGIImage::compact(uchar *d, uchar *s)
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{
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uchar *dest = d, *src = s, patt, *t, *end = s + m_xsize;
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int i, n;
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while (src < end) {
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for (n = 0, t = src; t + 2 < end && !(*t == t[1] && *t == t[2]); t++)
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n++;
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while (n) {
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i = n > 126 ? 126 : n;
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n -= i;
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*dest++ = 0x80 | i;
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while (i--)
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*dest++ = *src++;
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}
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if (src == end)
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break;
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patt = *src++;
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for (n = 1; src < end && *src == patt; src++)
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n++;
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while (n) {
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i = n > 126 ? 126 : n;
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n -= i;
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*dest++ = i;
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*dest++ = patt;
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}
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}
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*dest++ = 0;
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return dest - d;
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}
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bool SGIImage::scanData(const TQImage& img)
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{
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TQ_UINT32 *start = m_starttab;
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TQCString lineguard(m_xsize * 2);
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TQCString bufguard(m_xsize);
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uchar *line = (uchar *)lineguard.data();
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uchar *buf = (uchar *)bufguard.data();
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QRgb *c;
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unsigned x, y;
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uint len;
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for (y = 0; y < m_ysize; y++) {
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c = reinterpret_cast<QRgb *>(const_cast<TQImage&>(img).scanLine(m_ysize - y - 1));
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for (x = 0; x < m_xsize; x++)
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buf[x] = intensity(tqRed(*c++));
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len = compact(line, buf);
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*start++ = m_rlemap.insert(line, len);
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}
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if (m_zsize == 1)
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return true;
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if (m_zsize != 2) {
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for (y = 0; y < m_ysize; y++) {
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c = reinterpret_cast<QRgb *>(const_cast<TQImage&>(img).scanLine(m_ysize - y - 1));
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for (x = 0; x < m_xsize; x++)
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buf[x] = intensity(tqGreen(*c++));
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len = compact(line, buf);
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*start++ = m_rlemap.insert(line, len);
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}
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for (y = 0; y < m_ysize; y++) {
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c = reinterpret_cast<QRgb *>(const_cast<TQImage&>(img).scanLine(m_ysize - y - 1));
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for (x = 0; x < m_xsize; x++)
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buf[x] = intensity(tqBlue(*c++));
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len = compact(line, buf);
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*start++ = m_rlemap.insert(line, len);
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}
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if (m_zsize == 3)
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return true;
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}
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for (y = 0; y < m_ysize; y++) {
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c = reinterpret_cast<QRgb *>(const_cast<TQImage&>(img).scanLine(m_ysize - y - 1));
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for (x = 0; x < m_xsize; x++)
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buf[x] = intensity(tqAlpha(*c++));
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len = compact(line, buf);
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*start++ = m_rlemap.insert(line, len);
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}
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return true;
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}
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void SGIImage::writeHeader()
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{
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m_stream << TQ_UINT16(0x01da);
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m_stream << m_rle << m_bpc << m_dim;
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m_stream << m_xsize << m_ysize << m_zsize;
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m_stream << m_pixmin << m_pixmax;
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m_stream << TQ_UINT32(0);
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uint i;
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TQString desc = m_io->description();
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kdDebug(399) << "Description: " << desc << endl;
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desc.truncate(79);
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for (i = 0; i < desc.length(); i++)
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m_imagename[i] = desc.latin1()[i];
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for (; i < 80; i++)
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m_imagename[i] = '\0';
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m_stream.writeRawBytes(m_imagename, 80);
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m_stream << m_colormap;
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for (i = 0; i < 404; i++)
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m_stream << TQ_UINT8(0);
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}
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void SGIImage::writeRle()
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{
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m_rle = 1;
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kdDebug(399) << "writing RLE data" << endl;
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writeHeader();
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uint i;
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// write start table
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for (i = 0; i < m_numrows; i++)
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m_stream << TQ_UINT32(m_rlevector[m_starttab[i]]->offset());
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// write length table
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for (i = 0; i < m_numrows; i++)
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m_stream << TQ_UINT32(m_rlevector[m_starttab[i]]->size());
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// write data
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for (i = 0; i < m_rlevector.size(); i++)
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m_rlevector[i]->write(m_stream);
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}
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void SGIImage::writeVerbatim(const TQImage& img)
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{
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m_rle = 0;
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kdDebug(399) << "writing verbatim data" << endl;
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writeHeader();
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QRgb *c;
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unsigned x, y;
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for (y = 0; y < m_ysize; y++) {
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c = reinterpret_cast<QRgb *>(const_cast<TQImage&>(img).scanLine(m_ysize - y - 1));
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for (x = 0; x < m_xsize; x++)
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m_stream << TQ_UINT8(tqRed(*c++));
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}
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if (m_zsize == 1)
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return;
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if (m_zsize != 2) {
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for (y = 0; y < m_ysize; y++) {
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c = reinterpret_cast<QRgb *>(const_cast<TQImage&>(img).scanLine(m_ysize - y - 1));
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for (x = 0; x < m_xsize; x++)
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m_stream << TQ_UINT8(tqGreen(*c++));
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}
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for (y = 0; y < m_ysize; y++) {
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c = reinterpret_cast<QRgb *>(const_cast<TQImage&>(img).scanLine(m_ysize - y - 1));
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for (x = 0; x < m_xsize; x++)
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m_stream << TQ_UINT8(tqBlue(*c++));
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}
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if (m_zsize == 3)
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return;
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}
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for (y = 0; y < m_ysize; y++) {
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c = reinterpret_cast<QRgb *>(const_cast<TQImage&>(img).scanLine(m_ysize - y - 1));
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for (x = 0; x < m_xsize; x++)
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m_stream << TQ_UINT8(tqAlpha(*c++));
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}
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}
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bool SGIImage::writeImage(TQImage& img)
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{
|
|
kdDebug(399) << "writing '" << m_io->fileName() << '\'' << endl;
|
|
|
|
if (img.allGray())
|
|
m_dim = 2, m_zsize = 1;
|
|
else
|
|
m_dim = 3, m_zsize = 3;
|
|
|
|
if (img.hasAlphaBuffer())
|
|
m_dim = 3, m_zsize++;
|
|
|
|
img = img.convertDepth(32);
|
|
if (img.isNull()) {
|
|
kdDebug(399) << "can't convert image to depth 32" << endl;
|
|
return false;
|
|
}
|
|
|
|
m_bpc = 1;
|
|
m_xsize = img.width();
|
|
m_ysize = img.height();
|
|
m_pixmin = ~0;
|
|
m_pixmax = 0;
|
|
m_colormap = NORMAL;
|
|
|
|
m_numrows = m_ysize * m_zsize;
|
|
|
|
m_starttab = new TQ_UINT32[m_numrows];
|
|
m_rlemap.setBaseOffset(512 + m_numrows * 2 * sizeof(TQ_UINT32));
|
|
|
|
if (!scanData(img)) {
|
|
kdDebug(399) << "this can't happen" << endl;
|
|
return false;
|
|
}
|
|
|
|
m_rlevector = m_rlemap.vector();
|
|
|
|
long verbatim_size = m_numrows * m_xsize;
|
|
long rle_size = m_numrows * 2 * sizeof(TQ_UINT32);
|
|
for (uint i = 0; i < m_rlevector.size(); i++)
|
|
rle_size += m_rlevector[i]->size();
|
|
|
|
kdDebug(399) << "minimum intensity: " << m_pixmin << endl;
|
|
kdDebug(399) << "maximum intensity: " << m_pixmax << endl;
|
|
kdDebug(399) << "saved scanlines: " << m_numrows - m_rlemap.size() << endl;
|
|
kdDebug(399) << "total savings: " << (verbatim_size - rle_size) << " bytes" << endl;
|
|
kdDebug(399) << "compression: " << (rle_size * 100.0 / verbatim_size) << '%' << endl;
|
|
|
|
if (verbatim_size <= rle_size || m_io->quality() > 50)
|
|
writeVerbatim(img);
|
|
else
|
|
writeRle();
|
|
return true;
|
|
}
|
|
|
|
|