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//
// TGA lib for cocos2d-iphone
//
// sources from: http://www.lighthouse3d.com/opengl/terrain/index.php3?tgasource
//
// TGA RLE compression support by Ernesto Corvi
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#import "TGAlib.h"
void tgaLoadRLEImageData(FILE *file, tImageTGA *info);
void tgaFlipImage( tImageTGA *info );
// load the image header fields. We only keep those that matter!
void tgaLoadHeader(FILE *file, tImageTGA *info) {
unsigned char cGarbage;
short int iGarbage;
fread(&cGarbage, sizeof(unsigned char), 1, file);
fread(&cGarbage, sizeof(unsigned char), 1, file);
// type must be 2 or 3
fread(&info->type, sizeof(unsigned char), 1, file);
fread(&iGarbage, sizeof(short int), 1, file);
fread(&iGarbage, sizeof(short int), 1, file);
fread(&cGarbage, sizeof(unsigned char), 1, file);
fread(&iGarbage, sizeof(short int), 1, file);
fread(&iGarbage, sizeof(short int), 1, file);
fread(&info->width, sizeof(short int), 1, file);
fread(&info->height, sizeof(short int), 1, file);
fread(&info->pixelDepth, sizeof(unsigned char), 1, file);
fread(&cGarbage, sizeof(unsigned char), 1, file);
info->flipped = 0;
if ( cGarbage & 0x20 ) info->flipped = 1;
}
// loads the image pixels. You shouldn't call this function directly
void tgaLoadImageData(FILE *file, tImageTGA *info) {
int mode,total,i;
unsigned char aux;
// mode equal the number of components for each pixel
mode = info->pixelDepth / 8;
// total is the number of unsigned chars we'll have to read
total = info->height * info->width * mode;
fread(info->imageData,sizeof(unsigned char),total,file);
// mode=3 or 4 implies that the image is RGB(A). However TGA
// stores it as BGR(A) so we'll have to swap R and B.
if (mode >= 3)
for (i=0; i < total; i+= mode) {
aux = info->imageData[i];
info->imageData[i] = info->imageData[i+2];
info->imageData[i+2] = aux;
}
}
// loads the RLE encoded image pixels. You shouldn't call this function directly
void tgaLoadRLEImageData(FILE *file, tImageTGA *info)
{
unsigned int mode,total,i, index = 0;
unsigned char aux[4], runlength = 0;
unsigned int skip = 0, flag = 0;
// mode equal the number of components for each pixel
mode = info->pixelDepth / 8;
// total is the number of unsigned chars we'll have to read
total = info->height * info->width;
for( i = 0; i < total; i++ )
{
// if we have a run length pending, run it
if ( runlength != 0 )
{
// we do, update the run length count
runlength--;
skip = (flag != 0);
}
else
{
// otherwise, read in the run length token
if ( fread(&runlength,sizeof(unsigned char),1,file) != 1 )
return;
// see if it's a RLE encoded sequence
flag = runlength & 0x80;
if ( flag ) runlength -= 128;
skip = 0;
}
// do we need to skip reading this pixel?
if ( !skip )
{
// no, read in the pixel data
if ( fread(aux,sizeof(unsigned char),mode,file) != mode )
return;
// mode=3 or 4 implies that the image is RGB(A). However TGA
// stores it as BGR(A) so we'll have to swap R and B.
if ( mode >= 3 )
{
unsigned char tmp;
tmp = aux[0];
aux[0] = aux[2];
aux[2] = tmp;
}
}
// add the pixel to our image
memcpy(&info->imageData[index], aux, mode);
index += mode;
}
}
void tgaFlipImage( tImageTGA *info )
{
// mode equal the number of components for each pixel
int mode = info->pixelDepth / 8;
int rowbytes = info->width*mode;
unsigned char *row = (unsigned char *)malloc(rowbytes);
int y;
if (row == NULL) return;
for( y = 0; y < (info->height/2); y++ )
{
memcpy(row, &info->imageData[y*rowbytes],rowbytes);
memcpy(&info->imageData[y*rowbytes], &info->imageData[(info->height-(y+1))*rowbytes], rowbytes);
memcpy(&info->imageData[(info->height-(y+1))*rowbytes], row, rowbytes);
}
free(row);
info->flipped = 0;
}
// this is the function to call when we want to load an image
tImageTGA * tgaLoad(const char *filename) {
FILE *file;
tImageTGA *info;
int mode,total;
// allocate memory for the info struct and check!
info = (tImageTGA *)malloc(sizeof(tImageTGA));
if (info == NULL)
return(NULL);
// open the file for reading (binary mode)
file = fopen(filename, "rb");
if (file == NULL) {
info->status = TGA_ERROR_FILE_OPEN;
return(info);
}
// load the header
tgaLoadHeader(file,info);
// check for errors when loading the header
if (ferror(file)) {
info->status = TGA_ERROR_READING_FILE;
fclose(file);
return(info);
}
// check if the image is color indexed
if (info->type == 1) {
info->status = TGA_ERROR_INDEXED_COLOR;
fclose(file);
return(info);
}
// check for other types (compressed images)
if ((info->type != 2) && (info->type !=3) && (info->type !=10) ) {
info->status = TGA_ERROR_COMPRESSED_FILE;
fclose(file);
return(info);
}
// mode equals the number of image components
mode = info->pixelDepth / 8;
// total is the number of unsigned chars to read
total = info->height * info->width * mode;
// allocate memory for image pixels
info->imageData = (unsigned char *)malloc(sizeof(unsigned char) *
total);
// check to make sure we have the memory required
if (info->imageData == NULL) {
info->status = TGA_ERROR_MEMORY;
fclose(file);
return(info);
}
// finally load the image pixels
if ( info->type == 10 )
tgaLoadRLEImageData(file, info);
else
tgaLoadImageData(file,info);
// check for errors when reading the pixels
if (ferror(file)) {
info->status = TGA_ERROR_READING_FILE;
fclose(file);
return(info);
}
fclose(file);
info->status = TGA_OK;
if ( info->flipped )
{
tgaFlipImage( info );
if ( info->flipped ) info->status = TGA_ERROR_MEMORY;
}
return(info);
}
// converts RGB to greyscale
void tgaRGBtogreyscale(tImageTGA *info) {
int mode,i,j;
unsigned char *newImageData;
// if the image is already greyscale do nothing
if (info->pixelDepth == 8)
return;
// compute the number of actual components
mode = info->pixelDepth / 8;
// allocate an array for the new image data
newImageData = (unsigned char *)malloc(sizeof(unsigned char) *
info->height * info->width);
if (newImageData == NULL) {
return;
}
// convert pixels: greyscale = o.30 * R + 0.59 * G + 0.11 * B
for (i = 0,j = 0; j < info->width * info->height; i +=mode, j++)
newImageData[j] =
(unsigned char)(0.30 * info->imageData[i] +
0.59 * info->imageData[i+1] +
0.11 * info->imageData[i+2]);
//free old image data
free(info->imageData);
// reassign pixelDepth and type according to the new image type
info->pixelDepth = 8;
info->type = 3;
// reassing imageData to the new array.
info->imageData = newImageData;
}
// releases the memory used for the image
void tgaDestroy(tImageTGA *info) {
if (info != NULL) {
if (info->imageData != NULL)
free(info->imageData);
free(info);
}
}
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