boinc/api/texture.C

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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
void bwtorgba(unsigned char *b,unsigned char *l,int n) {
while(n--) {
l[0] = *b;
l[1] = *b;
l[2] = *b;
l[3] = 0xff;
l += 4;
b++;
}
}
void latorgba(unsigned char *b, unsigned char *a,unsigned char *l,int n) {
while(n--) {
l[0] = *b;
l[1] = *b;
l[2] = *b;
l[3] = *a;
l += 4;
b++;
a++;
}
}
void rgbtorgba(unsigned char *r,unsigned char *g,unsigned char *b,unsigned char *l,int n) {
while(n--) {
l[0] = r[0];
l[1] = g[0];
l[2] = b[0];
l[3] = 0xff;
l += 4;
r++;
g++;
b++;
}
}
void rgbatorgba(unsigned char *r,unsigned char *g,unsigned char *b,unsigned char *a,unsigned char *l,int n) {
while(n--) {
l[0] = r[0];
l[1] = g[0];
l[2] = b[0];
l[3] = a[0];
l += 4;
r++;
g++;
b++;
a++;
}
}
typedef struct _ImageRec {
unsigned short imagic;
unsigned short type;
unsigned short dim;
unsigned short xsize, ysize, zsize;
unsigned int min, max;
unsigned int wasteBytes;
char name[80];
unsigned long colorMap;
FILE *file;
unsigned char *tmp, *tmpR, *tmpG, *tmpB;
unsigned long rleEnd;
unsigned int *rowStart;
int *rowSize;
} ImageRec;
static void ConvertShort(unsigned short *array, long length) {
unsigned b1, b2;
unsigned char *ptr;
ptr = (unsigned char *) array;
while (length--) {
b1 = *ptr++;
b2 = *ptr++;
*array++ = (b1 << 8) | (b2);
}
}
static void ConvertLong(unsigned *array, long length) {
unsigned long b1, b2, b3, b4;
unsigned char *ptr;
ptr = (unsigned char *)array;
while (length--) {
b1 = *ptr++;
b2 = *ptr++;
b3 = *ptr++;
b4 = *ptr++;
*array++ = (b1 << 24) | (b2 << 16) | (b3 << 8) | (b4);
}
}
static ImageRec *ImageOpen(const char *fileName){
union {
int testWord;
char testByte[4];
}
endianTest;
ImageRec *image;
int swapFlag;
int x;
endianTest.testWord = 1;
if (endianTest.testByte[0] == 1) {
swapFlag = 1;
}
else {
swapFlag = 0;
}
image = (ImageRec *)malloc(sizeof(ImageRec));
if (image == NULL) {
fprintf(stderr, "Out of memory!\n");
#ifdef BOINC_APP_GRAPHICS
return NULL;
#else
exit(1);
#endif
}
if ((image->file = fopen(fileName, "rb")) == NULL) {
perror(fileName);
#ifdef BOINC_APP_GRAPHICS
return NULL;
#else
exit(1);
#endif
}
fread(image, 1, 12, image->file);
if (swapFlag) {
ConvertShort(&image->imagic, 6);
}
image->tmp = (unsigned char *)malloc(image->xsize*256);
image->tmpR = (unsigned char *)malloc(image->xsize*256);
image->tmpG = (unsigned char *)malloc(image->xsize*256);
image->tmpB = (unsigned char *)malloc(image->xsize*256);
if (image->tmp == NULL || image->tmpR == NULL || image->tmpG == NULL ||image->tmpB == NULL) {
fprintf(stderr, "Out of memory!\n");
#ifdef BOINC_APP_GRAPHICS
return NULL;
#else
exit(1);
#endif
}
if ((image->type & 0xFF00) == 0x0100) {
x = image->ysize * image->zsize * sizeof(unsigned);
image->rowStart = (unsigned *)malloc(x);
image->rowSize = (int *)malloc(x);
if (image->rowStart == NULL || image->rowSize == NULL) {
fprintf(stderr, "Out of memory!\n");
#ifdef BOINC_APP_GRAPHICS
return NULL;
#else
exit(1);
#endif
}
image->rleEnd = 512 + (2 * x);
fseek(image->file, 512, SEEK_SET);
fread(image->rowStart, 1, x, image->file);
fread(image->rowSize, 1, x, image->file);
if (swapFlag) {
ConvertLong(image->rowStart, x/sizeof(unsigned));
ConvertLong((unsigned *)image->rowSize, x/sizeof(int));
}
}
return image;
}
static void ImageClose(ImageRec *image) {
fclose(image->file);
free(image->tmp);
free(image->tmpR);
free(image->tmpG);
free(image->tmpB);
free(image);
}
static void ImageGetRow(ImageRec *image, unsigned char *buf, int y, int z) {
unsigned char *iPtr, *oPtr, pixel;
int count;
if ((image->type & 0xFF00) == 0x0100) {
fseek(image->file, image->rowStart[y+z*image->ysize], SEEK_SET);
fread(image->tmp, 1, (unsigned int)image->rowSize[y+z*image->ysize],image->file);
iPtr = image->tmp;
oPtr = buf;
while (1) {
pixel = *iPtr++;
count = (int)(pixel & 0x7F);
if (!count) {
return;
}
if (pixel & 0x80) {
while (count--) {
*oPtr++ = *iPtr++;
}
}
else {
pixel = *iPtr++;
while (count--) {
*oPtr++ = pixel;
}
}
}
}
else {
fseek(image->file, 512+(y*image->xsize)+(z*image->xsize*image->ysize),SEEK_SET);
fread(buf, 1, image->xsize, image->file);
}
}
//-------------------------TGA LOADER-------------------------
// =============
// checkSize
// Make sure its a power of 2.
// =============
int checkSize (int x){
return 1;
if (x == 2 || x == 4 ||
x == 8 || x == 16 ||
x == 32 || x == 64 ||
x == 128 || x == 256 || x == 512)
return 1;
else
return 0;
}
unsigned int texFormat;
unsigned char* getRGBA (FILE *s, int size){
unsigned char *rgba;
unsigned char temp;
int bread;
int i;
rgba=(unsigned char*)malloc(size * 4);
if (rgba == NULL) return 0;
bread = fread (rgba, sizeof (unsigned char), size * 4, s);
// TGA is stored in BGRA, make it RGBA
if (bread != size * 4) {
free (rgba);
return 0;
}
for (i = 0; i < size * 4; i += 4 ){
temp = rgba[i];
rgba[i] = rgba[i + 2];
rgba[i + 2] = temp;
}
return rgba;
}
// =============
// getRGB
// Reads in RGB data for a 24bit image.
// =============
unsigned char* getRGB (FILE *s, int size){
unsigned char *rgb;
unsigned char temp;
int bread;
int i;
rgb=(unsigned char*)malloc(size * 3);
if (rgb == NULL) return 0;
bread = fread (rgb, sizeof (unsigned char), size * 3, s);
if (bread != size * 3){
free (rgb);
return 0;
}
// TGA is stored in BGR, make it RGB
for (i = 0; i < size * 3; i += 3){
temp = rgb[i];
rgb[i] = rgb[i + 2];
rgb[i + 2] = temp;
}
return rgb;
}
// =============
// getGray
// Gets the grayscale image data. Used as an alpha channel.
// =============
unsigned char* getGray (FILE *s, int size){
unsigned char *grayData;
int bread;
grayData=(unsigned char*)malloc (size);
if (grayData == NULL) return 0;
bread = fread (grayData, sizeof (unsigned char), size, s);
if (bread != size){
free (grayData);
return 0;
}
return grayData;
}
// =============
// getData
// Gets the image data for the specified bit depth.
// =============
unsigned char* getData (FILE *s, int sz, int iBits){
switch (iBits){
case 32 : return getRGBA (s, sz); break;
case 24 : return getRGB (s, sz); break;
case 8 : return getGray (s, sz); break;
default : return NULL;
}
}
unsigned * read_tga_texture(char *name, int *width, int *height, int*) {
unsigned char type[4];
unsigned char info[7];
unsigned *base;
int imageBits, size;
FILE *s;
if (!(s = fopen (name, "r+bt"))) return NULL;
fread (&type, sizeof (char), 3, s); // read in colormap info and image type, byte 0 ignored
fseek (s, 12, SEEK_SET); // seek past the header and useless info
fread (&info, sizeof (char), 6, s);
if (type[1] != 0 || (type[2] != 2 && type[2] != 3)) return NULL;
(*width) = info[0] + info[1] * 256;
(*height) = info[2] + info[3] * 256;
imageBits = info[4];
size = (*width) * (*height);
// make sure dimension is a power of 2
if (!checkSize ((*width)) || !checkSize ((*height) )) return NULL;
// make sure we are loading a supported type
if (imageBits != 32 && imageBits != 24 && imageBits != 8) return NULL;
base = (unsigned int *)getData (s, size, imageBits);
return (unsigned *) base;
fclose(s);
}
unsigned * read_rgb_texture(const char *name, int *width, int *height, int *components) {
unsigned *base, *lptr;
unsigned char *rbuf, *gbuf, *bbuf, *abuf;
ImageRec *image;
int y;
image = ImageOpen(name);
if(!image) return NULL;
(*width)=image->xsize;
(*height)=image->ysize;
(*components)=image->zsize;
base = (unsigned *)malloc(image->xsize*image->ysize*sizeof(unsigned));
rbuf = (unsigned char *)malloc(image->xsize*sizeof(unsigned char));
gbuf = (unsigned char *)malloc(image->xsize*sizeof(unsigned char));
bbuf = (unsigned char *)malloc(image->xsize*sizeof(unsigned char));
abuf = (unsigned char *)malloc(image->xsize*sizeof(unsigned char));
if(!base || !rbuf || !gbuf || !bbuf) return NULL;
lptr = base;
for(y=0; y<image->ysize; y++) {
if(image->zsize>=4) {
ImageGetRow(image,rbuf,y,0);
ImageGetRow(image,gbuf,y,1);
ImageGetRow(image,bbuf,y,2);
ImageGetRow(image,abuf,y,3);
rgbatorgba(rbuf,gbuf,bbuf,abuf,(unsigned char *)lptr,image->xsize);
lptr += image->xsize;
} else if(image->zsize==3) {
ImageGetRow(image,rbuf,y,0);
ImageGetRow(image,gbuf,y,1);
ImageGetRow(image,bbuf,y,2);
rgbtorgba(rbuf,gbuf,bbuf,(unsigned char *)lptr,image->xsize);
lptr += image->xsize;
} else if(image->zsize==2) {
ImageGetRow(image,rbuf,y,0);
ImageGetRow(image,abuf,y,1);
latorgba(rbuf,abuf,(unsigned char *)lptr,image->xsize);
lptr += image->xsize;
} else {
ImageGetRow(image,rbuf,y,0);
bwtorgba(rbuf,(unsigned char *)lptr,image->xsize);
lptr += image->xsize;
}
}
ImageClose(image);
free(rbuf);
free(gbuf);
free(bbuf);
free(abuf);
return (unsigned *) base;
}
const char *BOINC_RCSID_97d4f29d84="$Id$";