FasTC/Core/src/Image.cpp

#include "Image.h"
#include "ImageLoader.h"

#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>
#include <math.h>

template <typename T>
static inline T sad( const T &a, const T &b ) {
  return (a > b)? a - b : b - a;
}

Image::Image(const CompressedImage &ci) 
  : m_Width(ci.GetWidth())
  , m_Height(ci.GetHeight())
{
	unsigned int bufSz = ci.GetWidth() * ci.GetHeight() * 4;
	m_PixelData = new uint8[ bufSz ];
	if(!m_PixelData) { fprintf(stderr, "%s\n", "Out of memory!"); return; }

	if(!ci.DecompressImage(m_PixelData, bufSz)) {
		fprintf(stderr, "Error decompressing image!\n");
		return;
	}
}

Image::Image(const ImageLoader &loader) 
  : m_PixelData(0)
  , m_Width(loader.GetWidth())
  , m_Height(loader.GetHeight())
{
  if(loader.GetImageData()) {
    m_PixelData = new uint8[ loader.GetImageDataSz() ];
    if(!m_PixelData) { fprintf(stderr, "%s\n", "Out of memory!"); return; }
    memcpy(m_PixelData, loader.GetImageData(), loader.GetImageDataSz());
  }
  else {
    fprintf(stderr, "%s\n", "Failed to get data from image loader!");
  }
}

CompressedImage *Image::Compress(const SCompressionSettings &settings) const {
  CompressedImage *outImg = NULL;
  const unsigned int dataSz = GetWidth() * GetHeight() * 4;

  assert(dataSz > 0);

  // Allocate data based on the compression method
  int cmpDataSz = 0;
  switch(settings.format) {
    case eCompressionFormat_DXT1: cmpDataSz = dataSz / 8;
    case eCompressionFormat_DXT5: cmpDataSz = dataSz / 4;
    case eCompressionFormat_BPTC: cmpDataSz = dataSz / 4;
  }

  unsigned char *cmpData = new unsigned char[cmpDataSz];
  CompressImageData(m_PixelData, dataSz, cmpData, cmpDataSz, settings);

  outImg = new CompressedImage(GetWidth(), GetHeight(), settings.format, cmpData);
  return outImg;
}

double Image::ComputePSNR(const CompressedImage &ci) const {
  unsigned int imageSz = 4 * GetWidth() * GetHeight();
  unsigned char *unCompData = new unsigned char[imageSz];
  if(!(ci.DecompressImage(unCompData, imageSz))) {
    fprintf(stderr, "%s\n", "Failed to decompress image.");
    return -1.0f;
  }

  const double wr = 1.0;
  const double wg = 1.0;
  const double wb = 1.0;
    
  double MSE = 0.0;
  for(int i = 0; i < imageSz; i+=4) {

    const unsigned char *pixelDataRaw = m_PixelData + i;
    const unsigned char *pixelDataUncomp = unCompData + i;

    double rawAlphaScale = double(pixelDataRaw[3]) / 255.0;
    double uncompAlphaScale = double(pixelDataUncomp[3]) / 255.0;
    double dr = double(sad(rawAlphaScale * pixelDataRaw[0], uncompAlphaScale * pixelDataUncomp[0])) * wr;
    double dg = double(sad(rawAlphaScale * pixelDataRaw[1], uncompAlphaScale * pixelDataUncomp[1])) * wg;
    double db = double(sad(rawAlphaScale * pixelDataRaw[2], uncompAlphaScale * pixelDataUncomp[2])) * wb;
    
    const double pixelMSE = 
      (double(dr) * double(dr)) + 
      (double(dg) * double(dg)) + 
      (double(db) * double(db));
    
    //fprintf(stderr, "Pixel MSE: %f\n", pixelMSE);
    MSE += pixelMSE;
  }

  MSE /= (double(GetWidth()) * double(GetHeight()));

  double MAXI = 
    (255.0 * wr) * (255.0 * wr) + 
    (255.0 * wg) * (255.0 * wg) + 
    (255.0 * wb) * (255.0 * wb);

  double PSNR = 10 * log10(MAXI/MSE);

  // Cleanup
  delete unCompData;
  return PSNR;
}
Broke the coupling between ImageFile and Image. One is strictly for IO, the other can be platform and file format agnostic. 2012-09-21 20:42:15 +00:00			`#include "Image.h"`
			`#include "ImageLoader.h"`

			`#include <stdlib.h>`
			`#include <stdio.h>`
			`#include <string.h>`
			`#include <assert.h>`
			`#include <math.h>`

			`template <typename T>`
			`static inline T sad( const T &a, const T &b ) {`
			`return (a > b)? a - b : b - a;`
			`}`

Fix bug where we forgot to store the new height and width 2012-10-21 01:19:04 +00:00			`Image::Image(const CompressedImage &ci)`
			`: m_Width(ci.GetWidth())`
			`, m_Height(ci.GetHeight())`
			`{`
Add new structure to support creating Images and ImageFiles from compressed images 2012-10-20 20:54:43 +00:00			`unsigned int bufSz = ci.GetWidth() * ci.GetHeight() * 4;`
			`m_PixelData = new uint8[ bufSz ];`
			`if(!m_PixelData) { fprintf(stderr, "%s\n", "Out of memory!"); return; }`

			`if(!ci.DecompressImage(m_PixelData, bufSz)) {`
			`fprintf(stderr, "Error decompressing image!\n");`
			`return;`
			`}`
			`}`

Broke the coupling between ImageFile and Image. One is strictly for IO, the other can be platform and file format agnostic. 2012-09-21 20:42:15 +00:00			`Image::Image(const ImageLoader &loader)`
			`: m_PixelData(0)`
			`, m_Width(loader.GetWidth())`
			`, m_Height(loader.GetHeight())`
			`{`
			`if(loader.GetImageData()) {`
			`m_PixelData = new uint8[ loader.GetImageDataSz() ];`
			`if(!m_PixelData) { fprintf(stderr, "%s\n", "Out of memory!"); return; }`
			`memcpy(m_PixelData, loader.GetImageData(), loader.GetImageDataSz());`
			`}`
			`else {`
			`fprintf(stderr, "%s\n", "Failed to get data from image loader!");`
			`}`
			`}`

			`CompressedImage *Image::Compress(const SCompressionSettings &settings) const {`
			`CompressedImage *outImg = NULL;`
			`const unsigned int dataSz = GetWidth() * GetHeight() * 4;`

			`assert(dataSz > 0);`

			`// Allocate data based on the compression method`
			`int cmpDataSz = 0;`
			`switch(settings.format) {`
			`case eCompressionFormat_DXT1: cmpDataSz = dataSz / 8;`
			`case eCompressionFormat_DXT5: cmpDataSz = dataSz / 4;`
			`case eCompressionFormat_BPTC: cmpDataSz = dataSz / 4;`
			`}`

			`unsigned char *cmpData = new unsigned char[cmpDataSz];`
			`CompressImageData(m_PixelData, dataSz, cmpData, cmpDataSz, settings);`

			`outImg = new CompressedImage(GetWidth(), GetHeight(), settings.format, cmpData);`
			`return outImg;`
			`}`

			`double Image::ComputePSNR(const CompressedImage &ci) const {`
			`unsigned int imageSz = 4 * GetWidth() * GetHeight();`
			`unsigned char *unCompData = new unsigned char[imageSz];`
			`if(!(ci.DecompressImage(unCompData, imageSz))) {`
			`fprintf(stderr, "%s\n", "Failed to decompress image.");`
			`return -1.0f;`
			`}`

			`const double wr = 1.0;`
			`const double wg = 1.0;`
			`const double wb = 1.0;`

			`double MSE = 0.0;`
			`for(int i = 0; i < imageSz; i+=4) {`

			`const unsigned char *pixelDataRaw = m_PixelData + i;`
			`const unsigned char *pixelDataUncomp = unCompData + i;`

Make sure to take alpha into account when computing PSNR 2012-10-22 23:01:03 +00:00			`double rawAlphaScale = double(pixelDataRaw[3]) / 255.0;`
			`double uncompAlphaScale = double(pixelDataUncomp[3]) / 255.0;`
			`double dr = double(sad(rawAlphaScale * pixelDataRaw[0], uncompAlphaScale * pixelDataUncomp[0])) * wr;`
			`double dg = double(sad(rawAlphaScale * pixelDataRaw[1], uncompAlphaScale * pixelDataUncomp[1])) * wg;`
			`double db = double(sad(rawAlphaScale * pixelDataRaw[2], uncompAlphaScale * pixelDataUncomp[2])) * wb;`

Broke the coupling between ImageFile and Image. One is strictly for IO, the other can be platform and file format agnostic. 2012-09-21 20:42:15 +00:00			`const double pixelMSE =`
			`(double(dr) * double(dr)) +`
			`(double(dg) * double(dg)) +`
			`(double(db) * double(db));`
Make sure to take alpha into account when computing PSNR 2012-10-22 23:01:03 +00:00
Broke the coupling between ImageFile and Image. One is strictly for IO, the other can be platform and file format agnostic. 2012-09-21 20:42:15 +00:00			`//fprintf(stderr, "Pixel MSE: %f\n", pixelMSE);`
			`MSE += pixelMSE;`
			`}`

			`MSE /= (double(GetWidth()) * double(GetHeight()));`

			`double MAXI =`
			`(255.0 * wr) * (255.0 * wr) +`
			`(255.0 * wg) * (255.0 * wg) +`
			`(255.0 * wb) * (255.0 * wb);`

			`double PSNR = 10 * log10(MAXI/MSE);`

			`// Cleanup`
			`delete unCompData;`
			`return PSNR;`
			`}`