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/*  This file is part of ksquirrel-libs (http://ksquirrel.sf.net)

    Copyright (c) 2004 Dmitry Baryshev <ksquirrel@tut.by>

    This library is free software; you can redistribute it and/or
    modify it under the terms of the GNU Library General Public
    License as published by the Free Software Foundation;
    either version 2 of the License, or (at your option) any later
    version.

    This library is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
    Library General Public License for more details.

    You should have received a copy of the GNU Library General Public License
    as32 with this library; see the file COPYING.  If not, write to
    the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
    Boston, MA 02110-1301, USA.
*/

#include <iostream>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>

#include "ksquirrel-libs/fmt_types.h"
#include "ksquirrel-libs/fileio.h"
#include "ksquirrel-libs/error.h"
#include "ksquirrel-libs/fmt_utils.h"

#include "fmt_codec_ras_defs.h"
#include "fmt_codec_ras.h"

#include "../xpm/codec_ras.xpm"

/*
 *
 * The Sun Raster image file format is the native bitmap format of the Sun
 * Microsystems UNIX platforms using the SunOS operating system. This format is
 * capable of storing black-and-white, gray-scale, and color bitmapped data of any
 * pixel depth. The use of color maps and a simple Run-Length data compression
 * are also supported. Typically, most images found on a SunOS system are Sun
 * Raster images, and this format is supported by most UNIX imaging applications.
 *
 */

bool fmt_readdata(ifstreamK &, u8 *, u32, bool);

fmt_codec::fmt_codec() : fmt_codec_base()
{}

fmt_codec::~fmt_codec()
{}

void fmt_codec::options(codec_options *o)
{
    o->version = "0.6.3";
    o->name = "SUN Raster";
    o->filter = "*.ras ";
    o->config = "";
    o->mime = "\x0059\x00A6\x006A\x0095";
    o->mimetype = "image/x-ras";
    o->pixmap = codec_ras;
    o->readable = true;
    o->canbemultiple = false;
    o->writestatic = false;
    o->writeanimated = false;
    o->needtempfile = false;
}

s32 fmt_codec::read_init(const std::string &file)
{
    frs.open(file.c_str(), ios::binary | ios::in);

    if(!frs.good())
        return SQE_R_NOFILE;

    currentImage = -1;
    rle = false;
    isRGB = false;
    buf = NULL;

    finfo.animated = false;

    return SQE_OK;
}

s32 fmt_codec::read_next()
{
    currentImage++;
    
    if(currentImage)
	return SQE_NOTOK;
	    
    fmt_image image;

    if(!frs.be_getlong(&rfh.ras_magic)) return SQE_R_BADFILE;
    if(!frs.be_getlong(&rfh.ras_width)) return SQE_R_BADFILE;
    if(!frs.be_getlong(&rfh.ras_height)) return SQE_R_BADFILE;
    if(!frs.be_getlong(&rfh.ras_depth)) return SQE_R_BADFILE;
    if(!frs.be_getlong(&rfh.ras_length)) return SQE_R_BADFILE;
    if(!frs.be_getlong(&rfh.ras_type)) return SQE_R_BADFILE;
    if(!frs.be_getlong(&rfh.ras_maptype)) return SQE_R_BADFILE;
    if(!frs.be_getlong(&rfh.ras_maplength)) return SQE_R_BADFILE;

    if(rfh.ras_magic != RAS_MAGIC) return SQE_R_BADFILE;

    if(rfh.ras_type != RAS_OLD && rfh.ras_type != RAS_STANDARD && rfh.ras_type != RAS_BYTE_ENCODED && rfh.ras_type != RAS_RGB &&
	    rfh.ras_type != RAS_TIFF && rfh.ras_type != RAS_IFF &&  rfh.ras_type != RAS_EXPERIMENTAL)
	return SQE_R_BADFILE;
    else if(rfh.ras_type == RAS_EXPERIMENTAL)
	return SQE_R_NOTSUPPORTED;

    image.w = rfh.ras_width;
    image.h = rfh.ras_height;
    image.bpp = rfh.ras_depth;

    switch(rfh.ras_maptype)
    {
	case RMT_NONE :
	{
		if (rfh.ras_depth < 24)
		{
		    s32 numcolors = 1 << rfh.ras_depth, i;

		    for (i = 0; i < numcolors; i++)
		    {
			pal[i].r = (255 * i) / (numcolors - 1);
			pal[i].g = (255 * i) / (numcolors - 1);
			pal[i].b = (255 * i) / (numcolors - 1);
		    }
		}

	break;
	}

	case RMT_EQUAL_RGB:
	{
		s8 *g, *b;

		s32 numcolors = 1 << rfh.ras_depth;

		s8 r[3 * numcolors];

		g = r + numcolors;
		b = g + numcolors;

		if(!frs.readK(r, 3 * numcolors)) return SQE_R_BADFILE;

		for(s32 i = 0; i < numcolors; i++)
		{
			pal[i].r = r[i];
			pal[i].g = g[i];
			pal[i].b = b[i];
		}
	break;
	}

	case RMT_RAW:
	{
		s8 colormap[rfh.ras_maplength];

		if(!frs.readK(colormap, rfh.ras_maplength)) return SQE_R_BADFILE;
	break;
	}
    }

    switch(rfh.ras_type)
    {
	case RAS_OLD:
	case RAS_STANDARD:
	case RAS_TIFF:
	case RAS_IFF:
	break;

	case RAS_BYTE_ENCODED:
	    rle = true;
	break;

	case RAS_RGB:
	    isRGB = true;
	break;
    }
    
    if(rfh.ras_depth == 1)
	linelength = (short)((rfh.ras_width / 8) + (rfh.ras_width % 8 ? 1 : 0));
    else
	linelength = (short)rfh.ras_width;

    fill = (linelength % 2) ? 1 : 0;

    buf = new u8 [rfh.ras_width * sizeof(RGB)];

    if(!buf)
	return SQE_R_NOMEMORY;

    image.compression = ((isRGB) ? "-":"RLE");
    image.colorspace = "RGB";

    finfo.image.push_back(image);

    return SQE_OK;
}

s32 fmt_codec::read_next_pass()
{
    return SQE_OK;
}
    
s32 fmt_codec::read_scanline(RGBA *scan)
{
    u32 i;
    fmt_image *im = image(currentImage);
    fmt_utils::fillAlpha(scan, im->w);

    switch(im->bpp)
    {
    	case 1:
	break;

	case 8:
		if(!fmt_readdata(frs, buf, linelength, rle))
		    return SQE_R_BADFILE;

		for(i = 0;i < rfh.ras_width;i++)
		    memcpy(scan+i, &pal[i], sizeof(RGB));

		if(fill)
		{
		    if(!fmt_readdata(frs, &fillchar, fill, rle))
			return SQE_R_BADFILE;
		}
    	break;

	case 24:
	{
	    u8 *b = buf;
	    
	    if(!fmt_readdata(frs, buf, rfh.ras_width * 3, rle))
		return SQE_R_BADFILE;

	    if(isRGB)
	        for (i = 0; i < rfh.ras_width; i++)
	        {
	    	    scan[i].r = *b;
    	    	    scan[i].g = *(b+1);
		    scan[i].b = *(b+2);
		    b += 3;
		}
	    else
	        for (i = 0; i < rfh.ras_width; i++)
	        {
		    scan[i].r = *(b + 2);
		    scan[i].g = *(b + 1);
		    scan[i].b = *b;
		    b += 3;
		}
		
	    if(fill)
	    {
	        if(!fmt_readdata(frs, &fillchar, fill, rle))
		    return SQE_R_BADFILE;
	    }
	}	
	break;

	case 32:
	{
	    u8 *b = buf;
	    
	    if(!fmt_readdata(frs, buf, rfh.ras_width * 4, rle))
		return SQE_R_BADFILE;

	    if(isRGB)
	        for (i = 0; i < rfh.ras_width; i++)
	        {
	    	    scan[i].a = *b;
	    	    scan[i].r = *(b+1);
    	    	    scan[i].g = *(b+2);
		    scan[i].b = *(b+3);
		    b += 4;
		}
	    else
	        for (i = 0; i < rfh.ras_width; i++)
	        {
		    scan[i].r = *(b + 3);
		    scan[i].g = *(b + 2);
		    scan[i].b = *(b + 1);
		    scan[i].a = *b;
		    b += 4;
		}
		
	    if(fill)
	    {
	        if(!fmt_readdata(frs, &fillchar, fill, rle))
		    return SQE_R_BADFILE;
	    }

	}
	break;
    }

    return SQE_OK;
}

void fmt_codec::read_close()
{
    frs.close();

    delete [] buf;
    buf = NULL;

    finfo.meta.clear();
    finfo.image.clear();
}

bool fmt_readdata(ifstreamK &ff, u8 *_buf, u32 length, bool rle)
{
    u8 repchar, remaining = 0;

    if(rle)
    {
	while(length--)
	{
		if (remaining)
		{
    		    remaining--;
		    *(_buf++)= repchar;
		}
		else
		{
			if(!ff.readK(&repchar, 1)) return false;

			if(repchar == RESC)
			{
				if(!ff.readK(&remaining, 1)) return false;

				if (remaining == 0)
					*(_buf++) = RESC;
				else
				{
					if(!ff.readK(&repchar, 1)) return false;
					*(_buf++) = repchar;
				}
			}
			else
				*(_buf++) = repchar;
		}
	}
    }
    else
    {
	if(!ff.readK(_buf, length)) return false;
	
    }

    return true;
}

#include "fmt_codec_cd_func.h"