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imageTools.cpp

//==============================================
//  copyright            : (C) 2003-2005 by Will Stokes
//==============================================
//  This program is free software; you can redistribute it
//  and/or modify it under the terms of the GNU General
//  Public License as published by the Free Software
//  Foundation; either version 2 of the License, or
//  (at your option) any later version.
//==============================================

//Systemwide includes
#include <fstream>
#include <cstdlib>
#include <iostream>
#include <cmath>

#include <qstring.h>
#include <qimage.h>
#include <qdir.h>
#include <qfile.h>
#include <qcolor.h>
#include <fstream>
#include <qpoint.h>
#include <qpainter.h>

//Projectwide includes
#include "imageTools.h"
#include "jpeg/jpegTools.h"
#include "jpeg/jpegSize.h"
#include "../../config.h"

//==============================================
bool isJpeg(const char* filename)
{
  int w,h;
  return getJPEGSize( QFile::encodeName(filename), w, h );
}
//==============================================
void calcScaledImageDimensions(int origWidth, int origHeight,
                               int idealWidth, int idealHeight,
                               int& width, int& height)
{
  //if original dimensions are within ideal new size then use
  //original dimensions
  if(origWidth <= idealWidth &&
     origHeight <= idealHeight)
  {
    width = origWidth;
    height = origHeight;
    return;
  }

  //else find dimension which is way over bounds
  float widthRatio = ((float)idealWidth) / ((float)origWidth);
  float heightRatio = ((float)idealHeight) / ((float)origHeight);

  if(widthRatio < heightRatio)
  {
    width = idealWidth;
    height = (int)((((float)idealWidth) / ((float)origWidth)) * ((float)origHeight));
  }
  else
  {
    height = idealHeight;
    width = (int)((((float)idealHeight) / ((float)origHeight)) * ((float)origWidth));
  }
}
//==============================================
void constructImages(QString imageName, 
                     QImage& slideshowImage, QImage& thumbnailImage)
{
  //---------------------------------------------------------
  //obtain original image width and height
  int origWidth, origHeight;
  getImageSize( imageName, origWidth, origHeight );
  
  //compute dimensions of unhapped scaled thumbnail and slideshow images
  int thumbWidth, thumbHeight;
  calcScaledImageDimensions( origWidth, origHeight,
                             THUMBNAIL_WIDTH, THUMBNAIL_HEIGHT,
                             thumbWidth, thumbHeight);
  
  int slideWidth, slideHeight;
  calcScaledImageDimensions( origWidth, origHeight,
                             SLIDESHOW_WIDTH, SLIDESHOW_HEIGHT,
                             slideWidth, slideHeight);
  //---------------------------------------------------------
  //create slide show image
  
  //first scale full image to unpadded dimensions
  QImage temp;
  scaleImage( imageName, temp, slideWidth, slideHeight );
  slideWidth = temp.width();
  slideHeight = temp.height();
 
  //create slideshow image and fill with white
  slideshowImage.create( SLIDESHOW_WIDTH, SLIDESHOW_HEIGHT, 32 );
  slideshowImage.fill( Qt::white.rgb() );
  
  //paint unpadded scaled image
  int xDiff = SLIDESHOW_WIDTH - slideWidth;
  int yDiff = SLIDESHOW_HEIGHT - slideHeight;
  bitBlt( &slideshowImage, xDiff/2, yDiff/2,
          &temp, 0, 0, slideWidth, slideHeight );
   
  //---------------------------------------------------------
  //create thumnail image
  scaleImage( imageName, thumbnailImage, thumbWidth, thumbHeight );
  //---------------------------------------------------------
}
//==============================================
bool transformImage( QString fileIn, QString fileOut, TRANSFORM_CODE transformation )
{
  //if file is jpeg use faster method
  if( isJpeg(fileIn) )
    return transformJPEG( fileIn, fileOut, transformation );
  
  //load image
  QImage origImage(fileIn);
  QImage transformedImage;
  
  //transform image
  if(transformation == ROTATE_90)
  {
    if(!transformedImage.create( origImage.height(), origImage.width(), origImage.depth() ) )
      return false;
    
    int x,y;
    for(x=0; x < origImage.height(); x++)
    {
      for(y=0; y < origImage.width(); y++)
        transformedImage.setPixel(origImage.height() - 1 - x, y, origImage.pixel(y, x) );
    }
  }
  else if(transformation == ROTATE_270)
  {
    if(!transformedImage.create( origImage.height(), origImage.width(), origImage.depth() ) )
      return false;
    
    int x,y;
    for(x=0; x < origImage.height(); x++)
    {
      for(y=0; y < origImage.width(); y++)
          transformedImage.setPixel(x, origImage.width() - 1 - y, origImage.pixel(y, x) );
    }
  }
  else if(transformation == FLIP_H)
  {  transformedImage = origImage.mirror(false,true); }
  else
  {  transformedImage = origImage.mirror(true,false); }
  
  //save out transformed image  
  transformedImage.save( fileOut, "JPEG", 95 );
  return true;  
}
//==============================================
bool scaleImage( QString fileIn, QString fileOut, 
                 int newWidth, int newHeight)
{
  //scale image
  QImage scaledImage;
  if( scaleImage(fileIn, scaledImage, newWidth, newHeight ) )
  {
    scaledImage.save( fileOut, "JPEG", 95 );
    return true;
  }
  else
    return false;
}
//==============================================
bool scaleImage(QString fileIn, QImage& scaledImage, int targetWidth, int targetHeight)
{
  //if file is jpeg use faster method
  QString extension = QFileInfo(fileIn).extension(false).lower();
  if( extension.compare("jpeg") == 0 ||
      extension.compare("jpg") == 0 )
    return scaleJPEG( QFile::encodeName(fileIn), scaledImage, targetWidth, targetHeight );
  
  //use slow smooth-scale method for scaling image.
  //clamp scaling to <= 2x
  QImage orig(fileIn);  
  if(QMIN( ((float)targetWidth)/orig.width(), ((float)targetHeight)/orig.height() ) > 2)    
  {
    targetWidth = 2*orig.width();
    targetHeight = 2*orig.height();
  }
  
  scaledImage = orig.smoothScale( targetWidth, targetHeight, QImage::ScaleMin );
  return true;
}
//==============================================
bool getImageSize( const char* filename,QSize& size )
{
  int w,h;
  bool result = getImageSize( filename, w, h );
  size.setWidth( w );
  size.setHeight( h );
  return result;
}
//==============================================
bool getImageSize( const char* filename, int& width, int& height )
{
  //if file is jpeg use faster method
  QString extension = QFileInfo(filename).extension(false).lower();
  if( extension.compare("jpeg") == 0 ||
      extension.compare("jpg") == 0 )
    return getJPEGSize( QFile::encodeName(filename),
                        width, height );

  //load entire image to qimage object in order to determine size
  QImage image(filename);
  width = image.width();
  height = image.height();
  return true;
}
//==============================================
double RGBtoL(QRgb* rgb)
{
  double r = ((double)qRed(*rgb)   )/255.0;
  double g = ((double)qGreen(*rgb) )/255.0;
  double b = ((double)qBlue(*rgb)  )/255.0;

  double h,s,v;
  RGBtoHSV(r,g,b,&h,&s,&v);
  return 255.0*v;
}
//==============================================
//RGB to HSV and HSB to RGB algorithms based
//on by A. R. Smith in 1978, found at 
//http://www.cs.rit.edu/~ncs/color/t_convert.html
void RGBtoHSV( double r, double g, double b, 
               double *h, double *s, double *v )
{
      double min, max, delta;
  
      min = QMIN(QMIN( r, g), b );
      max = QMAX(QMAX( r, g), b );
      *v = max;                     // v
  
      delta = max - min;
  
      if( max != 0 )
            *s = delta / max;       // s
      else {
            // r = g = b = 0        // s = 0, v is undefined
            *s = 0;
            *h = -1;
            return;
      }
  
      if( r == max )
            *h = ( g - b ) / delta;       // between yellow & magenta
      else if( g == max )
            *h = 2 + ( b - r ) / delta;   // between cyan & yellow
      else
            *h = 4 + ( r - g ) / delta;   // between magenta & cyan
  
      *h *= 60;                     // degrees
      if( *h < 0 )
            *h += 360;
  
}
//==============================================
void HSVtoRGB( double *r, double *g, double *b, 
               double h, double s, double v )
{
      int i;
      double f, p, q, t;
  
      if( s == 0 ) {
            // achromatic (grey)
            *r = *g = *b = v;
            return;
      }
  
      h /= 60;                // sector 0 to 5
      i = (int)floor( h );
      f = h - i;              // factorial part of h
      p = v * ( 1 - s );
      q = v * ( 1 - s * f );
      t = v * ( 1 - s * ( 1 - f ) );
  
      switch( i ) {
            case 0:
                  *r = v;
                  *g = t;
                  *b = p;
                  break;
            case 1:
                  *r = q;
                  *g = v;
                  *b = p;
                  break;
            case 2:
                  *r = p;
                  *g = v;
                  *b = t;
                  break;
            case 3:
                  *r = p;
                  *g = q;
                  *b = v;
                  break;
            case 4:
                  *r = t;
                  *g = p;
                  *b = v;
                  break;
            default:          // case 5:
                  *r = v;
                  *g = p;
                  *b = q;
                  break;
      }  
}
//==============================================

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