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6849bb8e3bcdc2e07a4a599cf517b80419509b06
OpenSceneGraph/src/osgPlugins/tga/ReaderWriterTGA.cpp
Robert Osfield 6849bb8e3b From Wang Rui, "Attachment is the implementation of the writing operation of the TGA 
format. I wrote it just for one of my client. At present it only
outputs uncompressed RGBA images, but the OSG community can go deeper
at any time."
2010-08-16 14:39:53 +00:00

619 lines
18 KiB
C++
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#include <osg/Image>
#include <osg/Notify>
#include <osg/Geode>
#include <osg/GL>
#include <osgDB/Registry>
#include <osgDB/FileNameUtils>
#include <osgDB/FileUtils>
#include <osgDB/fstream>
#include <stdio.h>
#include <assert.h>
#include <string.h>
#include <stdlib.h>
/****************************************************************************
*
* Follows is code extracted from the simage library. Original Authors:
*
* Systems in Motion,
* <URL:http://www.sim.no>
*
* Peder Blekken <pederb@sim.no>
* Morten Eriksen <mortene@sim.no>
* Marius Bugge Monsen <mariusbu@sim.no>
*
* The original COPYING notice
*
* All files in this library are public domain, except simage_rgb.cpp which is
* Copyright (c) Mark J Kilgard <mjk@nvidia.com>. I will contact Mark
* very soon to hear if this source also can become public domain.
*
* Please send patches for bugs and new features to: <pederb@sim.no>.
*
* Peder Blekken
*
*
* Ported into the OSG as a plugin, Robert Osfield Decemeber 2000.
* Note, reference above to license of simage_rgb is not relevent to the OSG
* as the OSG does not use it. Also for patches, bugs and new features
* please send them direct to the OSG dev team rather than address above.
*
**********************************************************************/
/* */
/* Supported types: */
/* */
/* 1 (Uncompressed, color-mapped images) */
/* 2 (RGB uncompressed) */
/* 9 RLE color-mapped */
/* 10 RLE RGB */
/* */
#define ERR_NO_ERROR 0
#define ERR_OPEN 1
#define ERR_READ 2
#define ERR_MEM 3
#define ERR_UNSUPPORTED 4
static int tgaerror = ERR_NO_ERROR;
int
simage_tga_error(char * buffer, int buflen)
{
switch (tgaerror)
{
case ERR_OPEN:
strncpy(buffer, "TGA loader: Error opening file", buflen);
break;
case ERR_READ:
strncpy(buffer, "TGA loader: Error reading file", buflen);
break;
case ERR_MEM:
strncpy(buffer, "TGA loader: Out of memory error", buflen);
break;
}
return tgaerror;
}
/* TODO: */
/* - bottom-up images */
/* - huffman, delta encoding */
static void
convert_16_to_24(const unsigned char * const src, unsigned char * const dest)
{
/* RGB for opengl, lo-hi 16 bit for TGA */
unsigned int t0 = src[0];
unsigned int t1 = src[1];
/* r */
dest[0] = (unsigned char) (t0 & 0x1f) << 2;
/* g */
dest[1] = (unsigned char) (t1 & 0x7c) >> 2;
/*b */
dest[2] = (unsigned char) ((t1 & 0x3)<<3) | ((t0&0xe)>>5);
}
static void
convert_16_to_32(const unsigned char * const src, unsigned char * const dest)
{
/* RGBA for opengl, lo-hi 16 bit for TGA */
unsigned int t0 = src[0];
unsigned int t1 = src[1];
/* r */
dest[0] = (unsigned char) (t0 & 0x1f) << 2;
/* g */
dest[1] = (unsigned char) (t1 & 0x7c) >> 2;
/*b */
dest[2] = (unsigned char) ((t1 & 0x3)<<3) | ((t0&0xe)>>5);
dest[3] = (t1&0x70)?255:0; /* a */
}
static void
convert_24_to_24(const unsigned char * const src, unsigned char * const dest)
{
/* RGB for opengl */
/* BGR for TGA */
dest[0] = src[2];
dest[1] = src[1];
dest[2] = src[0];
}
static void
convert_32_to_32(const unsigned char * const src, unsigned char * const dest)
{
/* opengl image format is RGBA, not ARGB */
/* TGA image format is BGRA for 32 bit */
dest[0] = src[2];
dest[1] = src[1];
dest[2] = src[0];
dest[3] = src[3];
}
static void
convert_data(const unsigned char * const src, unsigned char * const dest,
const int x, const int srcformat,
const int destformat)
{
if (srcformat == 2)
{
if (destformat == 3)
convert_16_to_24(src+x*srcformat,
dest+x*destformat);
else
{
assert(destformat == 4);
convert_16_to_32(src+x*srcformat,
dest+x*destformat);
}
}
else if (srcformat == 3)
{
assert(destformat == 3);
convert_24_to_24(src+x*srcformat,
dest+x*destformat);
}
else
{
assert(srcformat == 4 && destformat == 4);
convert_32_to_32(src+x*srcformat,
dest+x*destformat);
}
}
/* Intel byte order workaround */
static int getInt16(unsigned char *ptr)
{
int res = ptr[0];
int tmp = ptr[1];
return res | (tmp<<8);
}
/* */
/* decode a new rle packet */
/* */
static void
rle_new_packet(unsigned char ** src,
int * rleRemaining,
int * rleIsCompressed,
unsigned char *rleCurrent,
const int rleEntrySize)
{
int i;
unsigned char code = *(*src)++;
/* number of bytes left in this packet */
*rleRemaining = (code & 127) + 1;
if (code & 128) /* rle */
{
*rleIsCompressed = 1;
for (i = 0; i < rleEntrySize; i++)
rleCurrent[i] = *(*src)++;
}
else /* uncompressed */
{
*rleIsCompressed = 0;
}
}
/* */
/* decode the # of specified bytes */
/* */
static void
rle_decode(unsigned char ** src,
unsigned char *dest,
const int numbytes,
int * rleRemaining,
int * rleIsCompressed,
unsigned char *rleCurrent,
const int rleEntrySize)
{
int i;
int size = rleEntrySize;
unsigned char *stop = dest + numbytes;
while (dest < stop)
{
if (*rleRemaining == 0) /* start new packet */
rle_new_packet(src, rleRemaining, rleIsCompressed,
rleCurrent, rleEntrySize);
if (*rleIsCompressed)
{
for (i = 0; i < size; i++)
{
*dest++ = rleCurrent[i];
}
}
else
{
for (i = 0; i < size; i++)
{
*dest++ = *(*src)++;
}
}
// original code : *rleRemaining)--;
(*rleRemaining)--;
}
}
unsigned char *
simage_tga_load(std::istream& fin,
int *width_ret,
int *height_ret,
int *numComponents_ret)
{
unsigned char header[18];
int type;
int width;
int height;
int depth;
int flags;
int format;
unsigned char *colormap;
int indexsize;
int rleIsCompressed;
int rleRemaining;
int rleEntrySize;
unsigned char rleCurrent[4];
unsigned char *buffer;
unsigned char *dest;
int bpr;
unsigned char *linebuf;
tgaerror = ERR_NO_ERROR; /* clear error */
fin.read((char*)header,18);
if (fin.gcount() != 18)
{
tgaerror = ERR_READ;
return NULL;
}
type = header[2];
width = getInt16(&header[12]);
height = getInt16(&header[14]);
depth = header[16] >> 3;
flags = header[17];
/* check for reasonable values in case this is not a tga file */
if ((type != 2 && type != 10) ||
(width < 0 || width > 4096) ||
(height < 0 || height > 4096) ||
(depth < 2 || depth > 4))
{
tgaerror = ERR_UNSUPPORTED;
return NULL;
}
if (header[0]) /* skip identification field */
fin.seekg(header[0],std::ios::cur);
colormap = NULL;
if (header[1] == 1) /* there is a colormap */
{
int len = getInt16(&header[5]);
indexsize = header[7]>>3;
colormap = new unsigned char [len*indexsize];
fin.read((char*)colormap,len*indexsize);
}
if (depth == 2) /* 16 bits */
{
if (flags & 1) format = 4;
else format = 3;
}
else format = depth;
/* SoDebugError::postInfo("simage_tga_load", "TARGA file: %d %d %d %d %d\n", */
/* type, width, height, depth, format); */
rleIsCompressed = 0;
rleRemaining = 0;
rleEntrySize = depth;
buffer = new unsigned char [width*height*format];
dest = buffer;
bpr = format * width;
linebuf = new unsigned char [width*depth];
//check the intended image orientation
bool bLeftToRight = (flags&0x10)==0;
bool bTopToBottom = (flags&0x20)!=0;
int lineoffset = bTopToBottom ? -bpr : bpr;
if (bTopToBottom) //move start point to last line in buffer
dest += (bpr*(height-1));
switch(type)
{
case 1: /* colormap, uncompressed */
{
/* FIXME: write code */
/* should never get here because simage_tga_identify returns 0 */
/* for this filetype */
/* I need example files in this format to write the code... */
tgaerror = ERR_UNSUPPORTED;
}
break;
case 2: /* RGB, uncompressed */
{
int x, y;
for (y = 0; y < height; y++)
{
fin.read((char*)linebuf,width*depth);
if (fin.gcount() != (std::streamsize) (width*depth))
{
tgaerror = ERR_READ;
break;
}
for (x = 0; x < width; x++)
{
convert_data(linebuf, dest, bLeftToRight ? x : (width-1) - x, depth, format);
}
dest += lineoffset;
}
}
break;
case 9: /* colormap, compressed */
{
/* FIXME: write code */
/* should never get here because simage_tga_identify returns 0 */
/* for this filetype */
/* I need example files in this format to write the code... */
tgaerror = ERR_UNSUPPORTED;
}
break;
case 10: /* RGB, compressed */
{
int size, x, y;
unsigned char *buf;
unsigned char *src;
int pos = fin.tellg();
fin.seekg(0,std::ios::end);
size = (int)fin.tellg() - pos;
fin.seekg(pos,std::ios::beg);
buf = new unsigned char [size];
if (buf == NULL)
{
tgaerror = ERR_MEM;
break;
}
src = buf;
fin.read((char*)buf,size);
if (fin.gcount() != (std::streamsize) size)
{
tgaerror = ERR_READ;
break;
}
for (y = 0; y < height; y++)
{
rle_decode(&src, linebuf, width*depth, &rleRemaining,
&rleIsCompressed, rleCurrent, rleEntrySize);
assert(src <= buf + size);
for (x = 0; x < width; x++)
{
convert_data(linebuf, dest, bLeftToRight ? x : (width-1) - x, depth, format);
}
dest += lineoffset;
}
if (buf) delete [] buf;
}
break;
default:
tgaerror = ERR_UNSUPPORTED;
}
if (linebuf) delete [] linebuf;
if (tgaerror)
{
if (buffer) delete [] buffer;
return NULL;
}
*width_ret = width;
*height_ret = height;
*numComponents_ret = format;
return buffer;
}
int
simage_tga_identify(const char *filename,
const unsigned char *buf,
int headerlen)
{
char * ptr;
if (headerlen < 18) return 0;
ptr = (char *)strrchr(filename, '.');
if (!ptr) return 0; /* TGA files must end with .tga|.TGA */
if (strcmp(ptr, ".tga") && strcmp(ptr, ".TGA")) return 0;
if (buf[1] == 1 && buf[2] == 1 && buf[17] < 64)
{
/* SoDebugError::postInfo("simage_tga_identify", */
/* "TARGA colormap file: %s\n", filename); */
return 0;
}
if ((buf[1] == 0 || buf[1] == 1) && buf[2] == 2 && buf[17] < 64) return 1;
if (buf[1] == 1 && buf[2] == 9 && buf[17] < 64)
{
/* SoDebugError::postInfo("simage_tga_identity", */
/* "TARGA RLE and colormap file: %s\n", filename); */
/* will soon be supported */
return 0;
}
if ((buf[1] == 0 || buf[1] == 1) && buf[2] == 10 && buf[17] < 64)
{
/* RLE and RGB */
return 1;
}
else /* unsupported */
{
/* SoDebugError::postInfo("simage_tga_identify", */
/* "Unsupported TARGA type.\n"); */
}
/* not a TGA, or not supported type */
return 0;
}
class ReaderWriterTGA : public osgDB::ReaderWriter
{
public:
ReaderWriterTGA()
{
supportsExtension("tga","Tga Image format");
}
virtual const char* className() const { return "TGA Image Reader"; }
ReadResult readTGAStream(std::istream& fin) const
{
unsigned char *imageData = NULL;
int width_ret;
int height_ret;
int numComponents_ret;
imageData = simage_tga_load(fin,&width_ret,&height_ret,&numComponents_ret);
if (imageData==NULL) return ReadResult::FILE_NOT_HANDLED;
int s = width_ret;
int t = height_ret;
int r = 1;
int internalFormat = numComponents_ret;
unsigned int pixelFormat =
numComponents_ret == 1 ? GL_LUMINANCE :
numComponents_ret == 2 ? GL_LUMINANCE_ALPHA :
numComponents_ret == 3 ? GL_RGB :
numComponents_ret == 4 ? GL_RGBA : (GLenum)-1;
unsigned int dataType = GL_UNSIGNED_BYTE;
osg::Image* pOsgImage = new osg::Image;
pOsgImage->setImage(s,t,r,
internalFormat,
pixelFormat,
dataType,
imageData,
osg::Image::USE_NEW_DELETE);
return pOsgImage;
}
virtual ReadResult readObject(std::istream& fin,const osgDB::ReaderWriter::Options* options =NULL) const
{
return readImage(fin, options);
}
virtual ReadResult readObject(const std::string& file, const osgDB::ReaderWriter::Options* options =NULL) const
{
return readImage(file, options);
}
virtual ReadResult readImage(std::istream& fin,const Options* =NULL) const
{
return readTGAStream(fin);
}
virtual ReadResult readImage(const std::string& file, const osgDB::ReaderWriter::Options* options) const
{
std::string ext = osgDB::getLowerCaseFileExtension(file);
if (!acceptsExtension(ext)) return ReadResult::FILE_NOT_HANDLED;
std::string fileName = osgDB::findDataFile( file, options );
if (fileName.empty()) return ReadResult::FILE_NOT_FOUND;
osgDB::ifstream istream(fileName.c_str(), std::ios::in | std::ios::binary);
if(!istream) return ReadResult::FILE_NOT_HANDLED;
ReadResult rr = readTGAStream(istream);
if(rr.validImage()) rr.getImage()->setFileName(file);
return rr;
}
bool saveTGAStream(const osg::Image& image, std::ostream& fout) const
{
// At present, I will only save the image to unmapped RGB format
// Other data types can be added soon with different options
// The format description can be found at:
// http://local.wasp.uwa.edu.au/~pbourke/dataformats/tga/
int width = image.s(), height = image.t();
int numPerPixel = image.computeNumComponents(image.getPixelFormat());
int pixelMultiplier = (image.getDataType()==GL_FLOAT ? 255 : 1);
const unsigned char* data = image.data();
if ( !data ) return false;
// Headers
fout.put(0); // Identification field size
fout.put(0); // Color map type
fout.put(2); // Image type
fout.put(0); fout.put(0); // Color map origin
fout.put(0); fout.put(0); // Color map length
fout.put(0); // Color map entry size
fout.put(0); fout.put(0); // X origin of image
fout.put(0); fout.put(0); // Y origin of image
fout.put(width&0xff); fout.put((width&0xff00)>>8); // Width of image
fout.put(height&0xff); fout.put((height&0xff00)>>8); // Height of image
fout.put(numPerPixel * 8); // Image pixel size
fout.put(0); // Image descriptor
// Data
for (int y=0; y<height; ++y)
{
const unsigned char* ptr = data + y * width * numPerPixel;
for (int x=0; x<width; ++x)
{
int off = x * numPerPixel;
switch ( numPerPixel )
{
case 3: // BGR
fout.put(ptr[off+2] * pixelMultiplier); fout.put(ptr[off+1] * pixelMultiplier);
fout.put(ptr[off+0] * pixelMultiplier);
break;
case 4: // BGRA
fout.put(ptr[off+2] * pixelMultiplier); fout.put(ptr[off+1] * pixelMultiplier);
fout.put(ptr[off+0] * pixelMultiplier); fout.put(ptr[off+3] * pixelMultiplier);
break;
default:
return false;
}
}
}
return true;
}
virtual WriteResult writeImage(const osg::Image& image, std::ostream& fout, const Options*) const
{
if (saveTGAStream(image, fout))
return WriteResult::FILE_SAVED;
else
return WriteResult::ERROR_IN_WRITING_FILE;
}
virtual WriteResult writeImage(const osg::Image& image, const std::string& fileName, const Options* options) const
{
std::string ext = osgDB::getFileExtension(fileName);
if (!acceptsExtension(ext)) return WriteResult::FILE_NOT_HANDLED;
osgDB::ofstream fout(fileName.c_str(), std::ios::out | std::ios::binary);
if (!fout) return WriteResult::ERROR_IN_WRITING_FILE;
return writeImage(image, fout, options);
}
};
// now register with Registry to instantiate the above
// reader/writer.
REGISTER_OSGPLUGIN(tga, ReaderWriterTGA)
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