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so i'm working with a bunch of 2048x2048 sprite sheets which fill up memory rather quickly. As is, i'm using the following method (via Ray Wenderlich) to load a texture:

- (GLuint)setupTexture:(NSString *)fileName 
    CGImageRef spriteImage = [UIImage imageNamed:fileName].CGImage;
    if (!spriteImage) 
        NSLog(@"Failed to load image %@", fileName);
    size_t width = CGImageGetWidth(spriteImage);
    size_t height = CGImageGetHeight(spriteImage);
    GLubyte * spriteData = (GLubyte *) calloc(width*height*4, sizeof(GLubyte));
    CGContextRef spriteContext = CGBitmapContextCreate(spriteData, width, height, 8,     width*4,CGImageGetColorSpace(spriteImage), kCGImageAlphaPremultipliedLast);    
    CGContextDrawImage(spriteContext, CGRectMake(0, 0, width, height), spriteImage);
    GLuint texName;
    glGenTextures(1, &texName);
    glBindTexture(GL_TEXTURE_2D, texName);
    glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA, width, height, 0, GL_RGBA, GL_UNSIGNED_BYTE, spriteData);
    GLenum err = glGetError();
    if (err != GL_NO_ERROR)
        NSLog(@"Error uploading texture. glError: 0x%04X", err);    
    return texName;    

so my question is, how do i discard alpha information from the CGImage, then "downsample" the image to fewer bits per pixel, and finally tell OpenGL about it?

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up vote 7 down vote accepted

I use this code to convert the data written by CGContextDrawImage to RGB565. It uses optimized NEON code to process 8 pixels at a time on devices with support NEON (every iOS device that runs armv7 code has such a chip). The data pointer that you see there is the same as your spriteData pointer, I was just too lazy to rename it.

void *temp = malloc(width * height * 2);
uint32_t *inPixel32  = (uint32_t *)data;
uint16_t *outPixel16 = (uint16_t *)temp;
uint32_t pixelCount = width * height;

#ifdef __ARM_NEON__
for(uint32_t i=0; i<pixelCount; i+=8, inPixel32+=8, outPixel16+=8)
    uint8x8x4_t rgba  = vld4_u8((const uint8_t *)inPixel32);

    uint8x8_t r = vshr_n_u8(rgba.val[0], 3);
    uint8x8_t g = vshr_n_u8(rgba.val[1], 2);
    uint8x8_t b = vshr_n_u8(rgba.val[2], 3);

    uint16x8_t r16 = vmovl_u8(r);
    uint16x8_t g16 = vmovl_u8(g);
    uint16x8_t b16 = vmovl_u8(b);

    r16 = vshlq_n_u16(r16, 11);
    g16 = vshlq_n_u16(g16, 5);

    uint16x8_t rg16 = vorrq_u16(r16, g16);
    uint16x8_t result = vorrq_u16(rg16, b16);

    vst1q_u16(outPixel16, result);
for(uint32_t i=0; i<pixelCount; i++, inPixel32++)
    uint32_t r = (((*inPixel32 >> 0)  & 0xFF) >> 3);
    uint32_t g = (((*inPixel32 >> 8)  & 0xFF) >> 2);
    uint32_t b = (((*inPixel32 >> 16) & 0xFF) >> 3);

    *outPixel16++ = (r << 11) | (g << 5) | (b << 0);               

data = temp;
share|improve this answer
uint8x8_t type is defined in arm_neon.h – brigadir Oct 28 '11 at 14:32
splendid! had to change the glTexImage2D line to the following parameters: glTexImage2D(GL_TEXTURE_2D, 0, GL_RGB, width, height, 0, GL_RGB, GL_UNSIGNED_SHORT_5_6_5, spriteData); – Jakob Oct 28 '11 at 14:55
Great answer, you don't see much NEON code out there. To be more hardware-agnostic, have you looked at implementing this using the Accelerate framework? – Brad Larson Oct 28 '11 at 16:11
@BradLarson Yes, this was my first attempt, but to me the accelerate framework uses even more cryptic names and I had no idea what to look for. I also wanted to target iOS 3.0 and thus I decided to use NEON "directly" since it would also run on iOS 3.x. – JustSid Oct 28 '11 at 16:57

Rather than simply changing the colorspace, I might suggest using a PVRTC-compressed texture here. That should use far less memory on-GPU than even the RGB565 version, because these textures remain compressed rather than expanding into uncompressed bitmaps.

In the "Best Practices for Working with Texture Data" section of the OpenGL ES Programming Guide for iOS, Apple says

Texture compression usually provides the best balance of memory savings and quality. OpenGL ES for iOS supports the PowerVR Texture Compression (PVRTC) format by implementing the GL_IMG_texture_compression_pvrtc extension. There are two levels of PVRTC compression, 4 bits per channel and 2 bits per channel, which offer a 8:1 and 16:1 compression ratio over the uncompressed 32-bit texture format respectively. A compressed PVRTC texture still provides a decent level of quality, particularly at the 4-bit level.


If your application cannot use compressed textures, consider using a lower precision pixel format.

which indicates that you'll get smaller in-memory sizes for the compressed textures than even the ones using a smaller colorspace.

Apple has a good example of this in their PVRTextureLoader sample application, and I reused some of that code to load PVRTC textures in a textured cube sample application I slapped together. You can look at the "Encode Images" build phase in the PVRTextureLoader for how to script the conversion of PNG textures into PVRTC ones at compile time.

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your answer has encouraged me to look at the PVRTexturLoader example again. I had tried getting it to work with my textures the night before and failed, but i've got it working now. Huge memory footprint improvements! Thanks Mr. Larson – Jakob Oct 28 '11 at 20:02

Look at the internalFormat parameter. Perhaps you could specify GL_R3_G3_B2 to use only 8 bits per pixel or GL_RGB5 may be useful. There are several options that might be useful.

See Texture Internal Formats for more information.

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