vpImageConvert.cpp

/****************************************************************************
 *
 * ViSP, open source Visual Servoing Platform software.
 * Copyright (C) 2005 - 2021 by Inria. All rights reserved.
 *
 * This software 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.
 * See the file LICENSE.txt at the root directory of this source
 * distribution for additional information about the GNU GPL.
 *
 * For using ViSP with software that can not be combined with the GNU
 * GPL, please contact Inria about acquiring a ViSP Professional
 * Edition License.
 *
 * See http://visp.inria.fr for more information.
 *
 * This software was developed at:
 * Inria Rennes - Bretagne Atlantique
 * Campus Universitaire de Beaulieu
 * 35042 Rennes Cedex
 * France
 *
 * If you have questions regarding the use of this file, please contact
 * Inria at visp@inria.fr
 *
 * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
 * WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
 *
 * Description:
 * Convert image types.
 *
 * Authors:
 * Eric Marchand
 * Fabien Spindler
 * Anthony Saunier
 *
 *****************************************************************************/
 
#include <map>
#include <sstream>
 
#if defined _OPENMP
#include <omp.h>
#endif
 
// image
#include "private/vpBayerConversion.h"
#include "private/vpImageConvert_impl.h"
#include <Simd/SimdLib.hpp>
#include <visp3/core/vpImageConvert.h>
 
bool vpImageConvert::YCbCrLUTcomputed = false;
int vpImageConvert::vpCrr[256];
int vpImageConvert::vpCgb[256];
int vpImageConvert::vpCgr[256];
int vpImageConvert::vpCbb[256];
 
void vpImageConvert::convert(const vpImage<unsigned char> &src, vpImage<vpRGBa> &dest)
{
  dest.resize(src.getHeight(), src.getWidth());
 
  GreyToRGBa(src.bitmap, reinterpret_cast<unsigned char *>(dest.bitmap), src.getWidth(), src.getHeight());
}
 
void vpImageConvert::convert(const vpImage<vpRGBa> &src, vpImage<unsigned char> &dest, unsigned int nThreads)
{
  dest.resize(src.getHeight(), src.getWidth());
 
  RGBaToGrey(reinterpret_cast<unsigned char *>(src.bitmap), dest.bitmap, src.getWidth(), src.getHeight(), nThreads);
}
 
void vpImageConvert::convert(const vpImage<float> &src, vpImage<unsigned char> &dest)
{
  dest.resize(src.getHeight(), src.getWidth());
  unsigned int max_xy = src.getWidth() * src.getHeight();
  float min, max;
 
  src.getMinMaxValue(min, max);
 
  for (unsigned int i = 0; i < max_xy; i++) {
    float val = 255.f * (src.bitmap[i] - min) / (max - min);
    if (val < 0)
      dest.bitmap[i] = 0;
    else if (val > 255)
      dest.bitmap[i] = 255;
    else
      dest.bitmap[i] = (unsigned char)val;
  }
}
 
void vpImageConvert::convert(const vpImage<unsigned char> &src, vpImage<float> &dest)
{
  dest.resize(src.getHeight(), src.getWidth());
  for (unsigned int i = 0; i < src.getHeight() * src.getWidth(); i++)
    dest.bitmap[i] = (float)src.bitmap[i];
}
 
void vpImageConvert::convert(const vpImage<double> &src, vpImage<unsigned char> &dest)
{
  dest.resize(src.getHeight(), src.getWidth());
  unsigned int max_xy = src.getWidth() * src.getHeight();
  double min, max;
 
  src.getMinMaxValue(min, max);
 
  for (unsigned int i = 0; i < max_xy; i++) {
    double val = 255. * (src.bitmap[i] - min) / (max - min);
    if (val < 0)
      dest.bitmap[i] = 0;
    else if (val > 255)
      dest.bitmap[i] = 255;
    else
      dest.bitmap[i] = (unsigned char)val;
  }
}
 
void vpImageConvert::convert(const vpImage<uint16_t> &src, vpImage<unsigned char> &dest, unsigned char bitshift)
{
  dest.resize(src.getHeight(), src.getWidth());
 
  for (unsigned int i = 0; i < src.getSize(); i++)
    dest.bitmap[i] = static_cast<unsigned char>(src.bitmap[i] >> bitshift);
}
 
void vpImageConvert::convert(const vpImage<unsigned char> &src, vpImage<uint16_t> &dest, unsigned char bitshift)
{
  dest.resize(src.getHeight(), src.getWidth());
 
  for (unsigned int i = 0; i < src.getSize(); i++)
    dest.bitmap[i] = static_cast<unsigned char>(src.bitmap[i] << bitshift);
}
 
void vpImageConvert::convert(const vpImage<unsigned char> &src, vpImage<double> &dest)
{
  dest.resize(src.getHeight(), src.getWidth());
  for (unsigned int i = 0; i < src.getHeight() * src.getWidth(); i++)
    dest.bitmap[i] = (double)src.bitmap[i];
}
 
void vpImageConvert::createDepthHistogram(const vpImage<uint16_t> &src_depth, vpImage<vpRGBa> &dest_rgba)
{
  vp_createDepthHistogram(src_depth, dest_rgba);
}
 
void vpImageConvert::createDepthHistogram(const vpImage<uint16_t> &src_depth, vpImage<unsigned char> &dest_depth)
{
  vp_createDepthHistogram(src_depth, dest_depth);
}
 
void vpImageConvert::createDepthHistogram(const vpImage<float> &src_depth, vpImage<vpRGBa> &dest_rgba)
{
  vp_createDepthHistogram(src_depth, dest_rgba);
}
 
void vpImageConvert::createDepthHistogram(const vpImage<float> &src_depth, vpImage<unsigned char> &dest_depth)
{
  vp_createDepthHistogram(src_depth, dest_depth);
}
 
#ifdef VISP_HAVE_OPENCV
// Deprecated: will be removed with OpenCV transcient from C to C++ api
void vpImageConvert::convert(const IplImage *src, vpImage<vpRGBa> &dest, bool flip)
{
  int nChannel = src->nChannels;
  int depth = src->depth;
  int height = src->height;
  int width = src->width;
  int widthStep = src->widthStep;
  int lineStep = (flip) ? 1 : 0;
 
  if (nChannel == 3 && depth == 8) {
    dest.resize((unsigned int)height, (unsigned int)width);
 
    // starting source address
    unsigned char *input = (unsigned char *)src->imageData;
    unsigned char *beginOutput = (unsigned char *)dest.bitmap;
 
    for (int i = 0; i < height; i++) {
      unsigned char *line = input;
      unsigned char *output = beginOutput + lineStep * (4 * width * (height - 1 - i)) + (1 - lineStep) * 4 * width * i;
      for (int j = 0; j < width; j++) {
        *(output++) = *(line + 2);
        *(output++) = *(line + 1);
        *(output++) = *(line);
        *(output++) = vpRGBa::alpha_default;
 
        line += 3;
      }
      // go to the next line
      input += widthStep;
    }
  } else if (nChannel == 1 && depth == 8) {
    dest.resize((unsigned int)height, (unsigned int)width);
    // starting source address
    unsigned char *input = (unsigned char *)src->imageData;
    unsigned char *beginOutput = (unsigned char *)dest.bitmap;
 
    for (int i = 0; i < height; i++) {
      unsigned char *line = input;
      unsigned char *output = beginOutput + lineStep * (4 * width * (height - 1 - i)) + (1 - lineStep) * 4 * width * i;
      for (int j = 0; j < width; j++) {
        *output++ = *(line);
        *output++ = *(line);
        *output++ = *(line);
        *output++ = vpRGBa::alpha_default; // alpha
 
        line++;
      }
      // go to the next line
      input += widthStep;
    }
  }
}
 
void vpImageConvert::convert(const IplImage *src, vpImage<unsigned char> &dest, bool flip)
{
  int nChannel = src->nChannels;
  int depth = src->depth;
  int height = src->height;
  int width = src->width;
  int widthStep = src->widthStep;
  int lineStep = (flip) ? 1 : 0;
 
  if (flip == false) {
    if (widthStep == width) {
      if (nChannel == 1 && depth == 8) {
        dest.resize((unsigned int)height, (unsigned int)width);
        memcpy(dest.bitmap, src->imageData, (size_t)(height * width));
      }
      if (nChannel == 3 && depth == 8) {
        dest.resize((unsigned int)height, (unsigned int)width);
        BGRToGrey((unsigned char *)src->imageData, dest.bitmap, (unsigned int)width, (unsigned int)height, false);
      }
    } else {
      if (nChannel == 1 && depth == 8) {
        dest.resize((unsigned int)height, (unsigned int)width);
        for (int i = 0; i < height; i++) {
          memcpy(dest.bitmap + i * width, src->imageData + i * widthStep, (size_t)width);
        }
      }
      if (nChannel == 3 && depth == 8) {
        dest.resize((unsigned int)height, (unsigned int)width);
        for (int i = 0; i < height; i++) {
          BGRToGrey((unsigned char *)src->imageData + i * widthStep, dest.bitmap + i * width, (unsigned int)width, 1,
                    false);
        }
      }
    }
  } else {
    if (nChannel == 1 && depth == 8) {
      dest.resize((unsigned int)height, (unsigned int)width);
      unsigned char *beginOutput = (unsigned char *)dest.bitmap;
      for (int i = 0; i < height; i++) {
        memcpy(beginOutput + lineStep * (4 * width * (height - 1 - i)), src->imageData + i * widthStep, (size_t)width);
      }
    }
    if (nChannel == 3 && depth == 8) {
      dest.resize((unsigned int)height, (unsigned int)width);
      // for (int i = 0  ; i < height ; i++){
      BGRToGrey((unsigned char *)src->imageData /*+ i*widthStep*/, dest.bitmap /*+ i*width*/, (unsigned int)width,
                (unsigned int)height /*1*/, true);
      //}
    }
  }
}
 
void vpImageConvert::convert(const vpImage<vpRGBa> &src, IplImage *&dest)
{
  int height = (int)src.getHeight();
  int width = (int)src.getWidth();
  CvSize size = cvSize(width, height);
  int depth = 8;
  int channels = 3;
  if (dest != NULL) {
    if (dest->nChannels != channels || dest->depth != depth || dest->height != height || dest->width != width) {
      if (dest->nChannels != 0)
        cvReleaseImage(&dest);
      dest = cvCreateImage(size, depth, channels);
    }
  } else
    dest = cvCreateImage(size, depth, channels);
 
  // starting source address
  unsigned char *input = (unsigned char *)src.bitmap;       // rgba image
  unsigned char *output = (unsigned char *)dest->imageData; // bgr image
 
  int j = 0;
  int i = 0;
  int widthStep = dest->widthStep;
 
  for (i = 0; i < height; i++) {
    output = (unsigned char *)dest->imageData + i * widthStep;
    unsigned char *line = input;
    for (j = 0; j < width; j++) {
      *output++ = *(line + 2); // B
      *output++ = *(line + 1); // G
      *output++ = *(line);     // R
 
      line += 4;
    }
    // go to the next line
    input += 4 * width;
  }
}
 
void vpImageConvert::convert(const vpImage<unsigned char> &src, IplImage *&dest)
{
  unsigned int height = src.getHeight();
  unsigned int width = src.getWidth();
  CvSize size = cvSize((int)width, (int)height);
  int depth = 8;
  int channels = 1;
  if (dest != NULL) {
    if (dest->nChannels != channels || dest->depth != depth || dest->height != (int)height ||
        dest->width != (int)width) {
      if (dest->nChannels != 0)
        cvReleaseImage(&dest);
      dest = cvCreateImage(size, depth, channels);
    }
  } else
    dest = cvCreateImage(size, depth, channels);
 
  unsigned int widthStep = (unsigned int)dest->widthStep;
 
  if (width == widthStep) {
    memcpy(dest->imageData, src.bitmap, width * height);
  } else {
    // copying each line taking account of the widthStep
    for (unsigned int i = 0; i < height; i++) {
      memcpy(dest->imageData + i * widthStep, src.bitmap + i * width, width);
    }
  }
}
 
#if VISP_HAVE_OPENCV_VERSION >= 0x020100
void vpImageConvert::convert(const cv::Mat &src, vpImage<vpRGBa> &dest, bool flip)
{
  dest.resize((unsigned int)src.rows, (unsigned int)src.cols);
 
  if (src.type() == CV_8UC4) {
    vpRGBa rgbaVal;
    for (unsigned int i = 0; i < dest.getRows(); ++i)
      for (unsigned int j = 0; j < dest.getCols(); ++j) {
        cv::Vec4b tmp = src.at<cv::Vec4b>((int)i, (int)j);
        rgbaVal.R = tmp[2];
        rgbaVal.G = tmp[1];
        rgbaVal.B = tmp[0];
        rgbaVal.A = tmp[3];
        if (flip)
          dest[dest.getRows() - i - 1][j] = rgbaVal;
        else
          dest[i][j] = rgbaVal;
      }
  } else if (src.type() == CV_8UC3) {
    if (src.isContinuous() && !flip) {
      SimdRgbToBgra(src.data, src.cols, src.rows, src.step[0], reinterpret_cast<uint8_t *>(dest.bitmap),
                    dest.getWidth() * sizeof(vpRGBa), vpRGBa::alpha_default);
    } else {
      vpRGBa rgbaVal;
      rgbaVal.A = vpRGBa::alpha_default;
      for (unsigned int i = 0; i < dest.getRows(); ++i) {
        for (unsigned int j = 0; j < dest.getCols(); ++j) {
          cv::Vec3b tmp = src.at<cv::Vec3b>((int)i, (int)j);
          rgbaVal.R = tmp[2];
          rgbaVal.G = tmp[1];
          rgbaVal.B = tmp[0];
          if (flip) {
            dest[dest.getRows() - i - 1][j] = rgbaVal;
          } else {
            dest[i][j] = rgbaVal;
          }
        }
      }
    }
  } else if (src.type() == CV_8UC1) {
    if (src.isContinuous() && !flip) {
      SimdGrayToBgra(src.data, src.cols, src.rows, src.step[0], reinterpret_cast<uint8_t *>(dest.bitmap),
                     dest.getWidth() * sizeof(vpRGBa), vpRGBa::alpha_default);
    } else {
      vpRGBa rgbaVal;
      for (unsigned int i = 0; i < dest.getRows(); ++i) {
        for (unsigned int j = 0; j < dest.getCols(); ++j) {
          rgbaVal = src.at<unsigned char>((int)i, (int)j);
          if (flip) {
            dest[dest.getRows() - i - 1][j] = rgbaVal;
          } else {
            dest[i][j] = rgbaVal;
          }
        }
      }
    }
  }
}
 
void vpImageConvert::convert(const cv::Mat &src, vpImage<unsigned char> &dest, bool flip, unsigned int nThreads)
{
  if (src.type() == CV_8UC1) {
    dest.resize((unsigned int)src.rows, (unsigned int)src.cols);
    if (src.isContinuous() && !flip) {
      memcpy(dest.bitmap, src.data, (size_t)(src.rows * src.cols));
    } else {
      if (flip) {
        for (unsigned int i = 0; i < dest.getRows(); ++i) {
          memcpy(dest.bitmap + i * dest.getCols(), src.data + (dest.getRows() - i - 1) * src.step1(), (size_t)src.step);
        }
      } else {
        for (unsigned int i = 0; i < dest.getRows(); ++i) {
          memcpy(dest.bitmap + i * dest.getCols(), src.data + i * src.step1(), (size_t)src.step);
        }
      }
    }
  } else if (src.type() == CV_8UC3) {
    dest.resize((unsigned int)src.rows, (unsigned int)src.cols);
    if (src.isContinuous()) {
      BGRToGrey((unsigned char *)src.data, (unsigned char *)dest.bitmap, (unsigned int)src.cols, (unsigned int)src.rows,
                flip, nThreads);
    } else {
      if (flip) {
        for (unsigned int i = 0; i < dest.getRows(); ++i) {
          BGRToGrey((unsigned char *)src.data + i * src.step1(),
                    (unsigned char *)dest.bitmap + (dest.getRows() - i - 1) * dest.getCols(),
                    (unsigned int)dest.getCols(), 1, false);
        }
      } else {
        for (unsigned int i = 0; i < dest.getRows(); ++i) {
          BGRToGrey((unsigned char *)src.data + i * src.step1(), (unsigned char *)dest.bitmap + i * dest.getCols(),
                    (unsigned int)dest.getCols(), 1, false);
        }
      }
    }
  } else if (src.type() == CV_8UC4) {
    dest.resize((unsigned int)src.rows, (unsigned int)src.cols);
    if (src.isContinuous()) {
      BGRaToGrey((unsigned char *)src.data, (unsigned char *)dest.bitmap, (unsigned int)src.cols,
                 (unsigned int)src.rows, flip, nThreads);
    } else {
      if (flip) {
        for (unsigned int i = 0; i < dest.getRows(); ++i) {
          BGRaToGrey((unsigned char *)src.data + i * src.step1(),
                     (unsigned char *)dest.bitmap + (dest.getRows() - i - 1) * dest.getCols(),
                     (unsigned int)dest.getCols(), 1, false);
        }
      } else {
        for (unsigned int i = 0; i < dest.getRows(); ++i) {
          BGRaToGrey((unsigned char *)src.data + i * src.step1(), (unsigned char *)dest.bitmap + i * dest.getCols(),
                     (unsigned int)dest.getCols(), 1, false);
        }
      }
    }
  }
}
 
void vpImageConvert::convert(const vpImage<vpRGBa> &src, cv::Mat &dest)
{
  cv::Mat vpToMat((int)src.getRows(), (int)src.getCols(), CV_8UC4, (void *)src.bitmap);
  cv::cvtColor(vpToMat, dest, cv::COLOR_RGBA2BGR);
}
 
void vpImageConvert::convert(const vpImage<unsigned char> &src, cv::Mat &dest, bool copyData)
{
  if (copyData) {
    cv::Mat tmpMap((int)src.getRows(), (int)src.getCols(), CV_8UC1, (void *)src.bitmap);
    dest = tmpMap.clone();
  } else {
    dest = cv::Mat((int)src.getRows(), (int)src.getCols(), CV_8UC1, (void *)src.bitmap);
  }
}
 
#endif
#endif
 
#ifdef VISP_HAVE_YARP
void vpImageConvert::convert(const vpImage<unsigned char> &src, yarp::sig::ImageOf<yarp::sig::PixelMono> *dest,
                             bool copyData)
{
  if (copyData) {
    dest->resize(src.getWidth(), src.getHeight());
    memcpy(dest->getRawImage(), src.bitmap, src.getHeight() * src.getWidth());
  } else
    dest->setExternal(src.bitmap, (int)src.getCols(), (int)src.getRows());
}
 
void vpImageConvert::convert(const yarp::sig::ImageOf<yarp::sig::PixelMono> *src, vpImage<unsigned char> &dest,
                             bool copyData)
{
  dest.resize(src->height(), src->width());
  if (copyData)
    memcpy(dest.bitmap, src->getRawImage(), src->height() * src->width() * sizeof(yarp::sig::PixelMono));
  else
    dest.bitmap = src->getRawImage();
}
 
void vpImageConvert::convert(const vpImage<vpRGBa> &src, yarp::sig::ImageOf<yarp::sig::PixelRgba> *dest, bool copyData)
{
  if (copyData) {
    dest->resize(src.getWidth(), src.getHeight());
    memcpy(dest->getRawImage(), src.bitmap, src.getHeight() * src.getWidth() * sizeof(vpRGBa));
  } else
    dest->setExternal(src.bitmap, (int)src.getCols(), (int)src.getRows());
}
 
void vpImageConvert::convert(const yarp::sig::ImageOf<yarp::sig::PixelRgba> *src, vpImage<vpRGBa> &dest, bool copyData)
{
  dest.resize(src->height(), src->width());
  if (copyData)
    memcpy(dest.bitmap, src->getRawImage(), src->height() * src->width() * sizeof(yarp::sig::PixelRgba));
  else
    dest.bitmap = static_cast<vpRGBa *>(src->getRawImage());
}
 
void vpImageConvert::convert(const vpImage<vpRGBa> &src, yarp::sig::ImageOf<yarp::sig::PixelRgb> *dest)
{
  dest->resize(src.getWidth(), src.getHeight());
  for (unsigned int i = 0; i < src.getRows(); i++) {
    for (unsigned int j = 0; j < src.getWidth(); j++) {
      dest->pixel(j, i).r = src[i][j].R;
      dest->pixel(j, i).g = src[i][j].G;
      dest->pixel(j, i).b = src[i][j].B;
    }
  }
}
 
void vpImageConvert::convert(const yarp::sig::ImageOf<yarp::sig::PixelRgb> *src, vpImage<vpRGBa> &dest)
{
  dest.resize(src->height(), src->width());
  for (int i = 0; i < src->height(); i++) {
    for (int j = 0; j < src->width(); j++) {
      dest[i][j].R = src->pixel(j, i).r;
      dest[i][j].G = src->pixel(j, i).g;
      dest[i][j].B = src->pixel(j, i).b;
      dest[i][j].A = vpRGBa::alpha_default;
    }
  }
}
 
#endif
 
#define vpSAT(c)                                                                                                       \
  if (c & (~255)) {                                                                                                    \
    if (c < 0)                                                                                                         \
      c = 0;                                                                                                           \
    else                                                                                                               \
      c = 255;                                                                                                         \
  }
void vpImageConvert::YUYVToRGBa(unsigned char *yuyv, unsigned char *rgba, unsigned int width, unsigned int height)
{
  unsigned char *s;
  unsigned char *d;
  int w, h;
  int r, g, b, cr, cg, cb, y1, y2;
 
  h = (int)height;
  w = (int)width;
  s = yuyv;
  d = rgba;
  while (h--) {
    int c = w >> 1;
    while (c--) {
      y1 = *s++;
      cb = ((*s - 128) * 454) >> 8;
      cg = (*s++ - 128) * 88;
      y2 = *s++;
      cr = ((*s - 128) * 359) >> 8;
      cg = (cg + (*s++ - 128) * 183) >> 8;
 
      r = y1 + cr;
      b = y1 + cb;
      g = y1 - cg;
      vpSAT(r) vpSAT(g) vpSAT(b)
 
          *d++ = static_cast<unsigned char>(r);
      *d++ = static_cast<unsigned char>(g);
      *d++ = static_cast<unsigned char>(b);
      *d++ = vpRGBa::alpha_default;
 
      r = y2 + cr;
      b = y2 + cb;
      g = y2 - cg;
      vpSAT(r) vpSAT(g) vpSAT(b)
 
          *d++ = static_cast<unsigned char>(r);
      *d++ = static_cast<unsigned char>(g);
      *d++ = static_cast<unsigned char>(b);
      *d++ = vpRGBa::alpha_default;
    }
  }
}
 
void vpImageConvert::YUYVToRGB(unsigned char *yuyv, unsigned char *rgb, unsigned int width, unsigned int height)
{
  unsigned char *s;
  unsigned char *d;
  int h, w;
  int r, g, b, cr, cg, cb, y1, y2;
 
  h = (int)height;
  w = (int)width;
  s = yuyv;
  d = rgb;
  while (h--) {
    int c = w >> 1;
    while (c--) {
      y1 = *s++;
      cb = ((*s - 128) * 454) >> 8;
      cg = (*s++ - 128) * 88;
      y2 = *s++;
      cr = ((*s - 128) * 359) >> 8;
      cg = (cg + (*s++ - 128) * 183) >> 8;
 
      r = y1 + cr;
      b = y1 + cb;
      g = y1 - cg;
      vpSAT(r) vpSAT(g) vpSAT(b)
 
          *d++ = static_cast<unsigned char>(r);
      *d++ = static_cast<unsigned char>(g);
      *d++ = static_cast<unsigned char>(b);
 
      r = y2 + cr;
      b = y2 + cb;
      g = y2 - cg;
      vpSAT(r) vpSAT(g) vpSAT(b)
 
          *d++ = static_cast<unsigned char>(r);
      *d++ = static_cast<unsigned char>(g);
      *d++ = static_cast<unsigned char>(b);
    }
  }
}
 
void vpImageConvert::YUYVToGrey(unsigned char *yuyv, unsigned char *grey, unsigned int size)
{
  unsigned int i = 0, j = 0;
 
  while (j < size * 2) {
    grey[i++] = yuyv[j];
    grey[i++] = yuyv[j + 2];
    j += 4;
  }
}
 
void vpImageConvert::YUV411ToRGBa(unsigned char *yuv, unsigned char *rgba, unsigned int size)
{
#if 1
  //  std::cout << "call optimized ConvertYUV411ToRGBa()" << std::endl;
  for (unsigned int i = size / 4; i; i--) {
    int U = (int)((*yuv++ - 128) * 0.354);
    int U5 = 5 * U;
    int Y0 = *yuv++;
    int Y1 = *yuv++;
    int V = (int)((*yuv++ - 128) * 0.707);
    int V2 = 2 * V;
    int Y2 = *yuv++;
    int Y3 = *yuv++;
    int UV = -U - V;
 
    // Original equations
    // R = Y           + 1.402 V
    // G = Y - 0.344 U - 0.714 V
    // B = Y + 1.772 U
    int R = Y0 + V2;
    if ((R >> 8) > 0)
      R = 255;
    else if (R < 0)
      R = 0;
 
    int G = Y0 + UV;
    if ((G >> 8) > 0)
      G = 255;
    else if (G < 0)
      G = 0;
 
    int B = Y0 + U5;
    if ((B >> 8) > 0)
      B = 255;
    else if (B < 0)
      B = 0;
 
    *rgba++ = (unsigned char)R;
    *rgba++ = (unsigned char)G;
    *rgba++ = (unsigned char)B;
    *rgba++ = vpRGBa::alpha_default;
 
    //---
    R = Y1 + V2;
    if ((R >> 8) > 0)
      R = 255;
    else if (R < 0)
      R = 0;
 
    G = Y1 + UV;
    if ((G >> 8) > 0)
      G = 255;
    else if (G < 0)
      G = 0;
 
    B = Y1 + U5;
    if ((B >> 8) > 0)
      B = 255;
    else if (B < 0)
      B = 0;
 
    *rgba++ = (unsigned char)R;
    *rgba++ = (unsigned char)G;
    *rgba++ = (unsigned char)B;
    *rgba++ = vpRGBa::alpha_default;
 
    //---
    R = Y2 + V2;
    if ((R >> 8) > 0)
      R = 255;
    else if (R < 0)
      R = 0;
 
    G = Y2 + UV;
    if ((G >> 8) > 0)
      G = 255;
    else if (G < 0)
      G = 0;
 
    B = Y2 + U5;
    if ((B >> 8) > 0)
      B = 255;
    else if (B < 0)
      B = 0;
 
    *rgba++ = (unsigned char)R;
    *rgba++ = (unsigned char)G;
    *rgba++ = (unsigned char)B;
    *rgba++ = vpRGBa::alpha_default;
 
    //---
    R = Y3 + V2;
    if ((R >> 8) > 0)
      R = 255;
    else if (R < 0)
      R = 0;
 
    G = Y3 + UV;
    if ((G >> 8) > 0)
      G = 255;
    else if (G < 0)
      G = 0;
 
    B = Y3 + U5;
    if ((B >> 8) > 0)
      B = 255;
    else if (B < 0)
      B = 0;
 
    *rgba++ = (unsigned char)R;
    *rgba++ = (unsigned char)G;
    *rgba++ = (unsigned char)B;
    *rgba++ = vpRGBa::alpha_default;
  }
#else
  // tres tres lent ....
  unsigned int i = 0, j = 0;
  unsigned char r, g, b;
  while (j < numpixels * 3 / 2) {
 
    YUVToRGB(yuv[j + 1], yuv[j], yuv[j + 3], r, g, b);
    rgba[i] = r;
    rgba[i + 1] = g;
    rgba[i + 2] = b;
    rgba[i + 3] = vpRGBa::alpha_default;
    i += 4;
 
    YUVToRGB(yuv[j + 2], yuv[j], yuv[j + 3], r, g, b);
    rgba[i] = r;
    rgba[i + 1] = g;
    rgba[i + 2] = b;
    rgba[i + 3] = vpRGBa::alpha_default;
    i += 4;
 
    YUVToRGB(yuv[j + 4], yuv[j], yuv[j + 3], r, g, b);
    rgba[i] = r;
    rgba[i + 1] = g;
    rgba[i + 2] = b;
    rgba[i + 3] = vpRGBa::alpha_default;
    i += 4;
 
    YUVToRGB(yuv[j + 5], yuv[j], yuv[j + 3], r, g, b);
    rgba[i] = r;
    rgba[i + 1] = g;
    rgba[i + 2] = b;
    rgba[i + 3] = vpRGBa::alpha_default;
    i += 4;
 
    j += 6;
  }
#endif
}
 
void vpImageConvert::YUV422ToRGBa(unsigned char *yuv, unsigned char *rgba, unsigned int size)
{
 
#if 1
  //  std::cout << "call optimized convertYUV422ToRGBa()" << std::endl;
  for (unsigned int i = size / 2; i; i--) {
    int U = (int)((*yuv++ - 128) * 0.354);
    int U5 = 5 * U;
    int Y0 = *yuv++;
    int V = (int)((*yuv++ - 128) * 0.707);
    int V2 = 2 * V;
    int Y1 = *yuv++;
    int UV = -U - V;
 
    //---
    int R = Y0 + V2;
    if ((R >> 8) > 0)
      R = 255;
    else if (R < 0)
      R = 0;
 
    int G = Y0 + UV;
    if ((G >> 8) > 0)
      G = 255;
    else if (G < 0)
      G = 0;
 
    int B = Y0 + U5;
    if ((B >> 8) > 0)
      B = 255;
    else if (B < 0)
      B = 0;
 
    *rgba++ = (unsigned char)R;
    *rgba++ = (unsigned char)G;
    *rgba++ = (unsigned char)B;
    *rgba++ = vpRGBa::alpha_default;
 
    //---
    R = Y1 + V2;
    if ((R >> 8) > 0)
      R = 255;
    else if (R < 0)
      R = 0;
 
    G = Y1 + UV;
    if ((G >> 8) > 0)
      G = 255;
    else if (G < 0)
      G = 0;
 
    B = Y1 + U5;
    if ((B >> 8) > 0)
      B = 255;
    else if (B < 0)
      B = 0;
 
    *rgba++ = (unsigned char)R;
    *rgba++ = (unsigned char)G;
    *rgba++ = (unsigned char)B;
    *rgba++ = vpRGBa::alpha_default;
  }
 
#else
  // tres tres lent ....
  unsigned int i = 0, j = 0;
  unsigned char r, g, b;
 
  while (j < size * 2) {
 
    YUVToRGB(yuv[j + 1], yuv[j], yuv[j + 2], r, g, b);
    rgba[i] = r;
    rgba[i + 1] = g;
    rgba[i + 2] = b;
    rgba[i + 3] = vpRGBa::alpha_default;
    i += 4;
 
    YUVToRGB(yuv[j + 3], yuv[j], yuv[j + 2], r, g, b);
    rgba[i] = r;
    rgba[i + 1] = g;
    rgba[i + 2] = b;
    rgba[i + 3] = vpRGBa::alpha_default;
    i += 4;
    j += 4;
  }
#endif
}
 
void vpImageConvert::YUV411ToGrey(unsigned char *yuv, unsigned char *grey, unsigned int size)
{
  unsigned int i = 0, j = 0;
  while (j < size * 3 / 2) {
    grey[i] = yuv[j + 1];
    grey[i + 1] = yuv[j + 2];
    grey[i + 2] = yuv[j + 4];
    grey[i + 3] = yuv[j + 5];
 
    i += 4;
 
    j += 6;
  }
}
 
void vpImageConvert::YUV422ToRGB(unsigned char *yuv, unsigned char *rgb, unsigned int size)
{
#if 1
  //  std::cout << "call optimized convertYUV422ToRGB()" << std::endl;
  for (unsigned int i = size / 2; i; i--) {
    int U = (int)((*yuv++ - 128) * 0.354);
    int U5 = 5 * U;
    int Y0 = *yuv++;
    int V = (int)((*yuv++ - 128) * 0.707);
    int V2 = 2 * V;
    int Y1 = *yuv++;
    int UV = -U - V;
 
    //---
    int R = Y0 + V2;
    if ((R >> 8) > 0)
      R = 255;
    else if (R < 0)
      R = 0;
 
    int G = Y0 + UV;
    if ((G >> 8) > 0)
      G = 255;
    else if (G < 0)
      G = 0;
 
    int B = Y0 + U5;
    if ((B >> 8) > 0)
      B = 255;
    else if (B < 0)
      B = 0;
 
    *rgb++ = (unsigned char)R;
    *rgb++ = (unsigned char)G;
    *rgb++ = (unsigned char)B;
 
    //---
    R = Y1 + V2;
    if ((R >> 8) > 0)
      R = 255;
    else if (R < 0)
      R = 0;
 
    G = Y1 + UV;
    if ((G >> 8) > 0)
      G = 255;
    else if (G < 0)
      G = 0;
 
    B = Y1 + U5;
    if ((B >> 8) > 0)
      B = 255;
    else if (B < 0)
      B = 0;
 
    *rgb++ = (unsigned char)R;
    *rgb++ = (unsigned char)G;
    *rgb++ = (unsigned char)B;
  }
 
#else
  // tres tres lent ....
  unsigned int i = 0, j = 0;
  unsigned char r, g, b;
 
  while (j < size * 2) {
 
    YUVToRGB(yuv[j + 1], yuv[j], yuv[j + 2], r, g, b);
    rgb[i] = r;
    rgb[i + 1] = g;
    rgb[i + 2] = b;
    i += 3;
 
    YUVToRGB(yuv[j + 3], yuv[j], yuv[j + 2], r, g, b);
    rgb[i] = r;
    rgb[i + 1] = g;
    rgb[i + 2] = b;
    i += 3;
    j += 4;
  }
#endif
}
 
void vpImageConvert::YUV422ToGrey(unsigned char *yuv, unsigned char *grey, unsigned int size)
{
  unsigned int i = 0, j = 0;
 
  while (j < size * 2) {
    grey[i++] = yuv[j + 1];
    grey[i++] = yuv[j + 3];
    j += 4;
  }
}
 
void vpImageConvert::YUV411ToRGB(unsigned char *yuv, unsigned char *rgb, unsigned int size)
{
#if 1
  //  std::cout << "call optimized ConvertYUV411ToRGB()" << std::endl;
  for (unsigned int i = size / 4; i; i--) {
    int U = (int)((*yuv++ - 128) * 0.354);
    int U5 = 5 * U;
    int Y0 = *yuv++;
    int Y1 = *yuv++;
    int V = (int)((*yuv++ - 128) * 0.707);
    int V2 = 2 * V;
    int Y2 = *yuv++;
    int Y3 = *yuv++;
    int UV = -U - V;
 
    // Original equations
    // R = Y           + 1.402 V
    // G = Y - 0.344 U - 0.714 V
    // B = Y + 1.772 U
    int R = Y0 + V2;
    if ((R >> 8) > 0)
      R = 255;
    else if (R < 0)
      R = 0;
 
    int G = Y0 + UV;
    if ((G >> 8) > 0)
      G = 255;
    else if (G < 0)
      G = 0;
 
    int B = Y0 + U5;
    if ((B >> 8) > 0)
      B = 255;
    else if (B < 0)
      B = 0;
 
    *rgb++ = (unsigned char)R;
    *rgb++ = (unsigned char)G;
    *rgb++ = (unsigned char)B;
 
    //---
    R = Y1 + V2;
    if ((R >> 8) > 0)
      R = 255;
    else if (R < 0)
      R = 0;
 
    G = Y1 + UV;
    if ((G >> 8) > 0)
      G = 255;
    else if (G < 0)
      G = 0;
 
    B = Y1 + U5;
    if ((B >> 8) > 0)
      B = 255;
    else if (B < 0)
      B = 0;
 
    *rgb++ = (unsigned char)R;
    *rgb++ = (unsigned char)G;
    *rgb++ = (unsigned char)B;
 
    //---
    R = Y2 + V2;
    if ((R >> 8) > 0)
      R = 255;
    else if (R < 0)
      R = 0;
 
    G = Y2 + UV;
    if ((G >> 8) > 0)
      G = 255;
    else if (G < 0)
      G = 0;
 
    B = Y2 + U5;
    if ((B >> 8) > 0)
      B = 255;
    else if (B < 0)
      B = 0;
 
    *rgb++ = (unsigned char)R;
    *rgb++ = (unsigned char)G;
    *rgb++ = (unsigned char)B;
 
    //---
    R = Y3 + V2;
    if ((R >> 8) > 0)
      R = 255;
    else if (R < 0)
      R = 0;
 
    G = Y3 + UV;
    if ((G >> 8) > 0)
      G = 255;
    else if (G < 0)
      G = 0;
 
    B = Y3 + U5;
    if ((B >> 8) > 0)
      B = 255;
    else if (B < 0)
      B = 0;
 
    *rgb++ = (unsigned char)R;
    *rgb++ = (unsigned char)G;
    *rgb++ = (unsigned char)B;
  }
#else
  // tres tres lent ....
 
  unsigned int i = 0, j = 0;
  unsigned char r, g, b;
 
  while (j < size * 3 / 2) {
    YUVToRGB(yuv[j + 1], yuv[j], yuv[j + 3], r, g, b);
    rgb[i] = r;
    rgb[i + 1] = g;
    rgb[i + 2] = b;
    i += 3;
 
    YUVToRGB(yuv[j + 2], yuv[j], yuv[j + 3], r, g, b);
    rgb[i] = r;
    rgb[i + 1] = g;
    rgb[i + 2] = b;
    i += 3;
 
    YUVToRGB(yuv[j + 4], yuv[j], yuv[j + 3], r, g, b);
    rgb[i] = r;
    rgb[i + 1] = g;
    rgb[i + 2] = b;
    i += 3;
 
    YUVToRGB(yuv[j + 5], yuv[j], yuv[j + 3], r, g, b);
    rgb[i] = r;
    rgb[i + 1] = g;
    rgb[i + 2] = b;
    i += 3;
    // TRACE("r= %d g=%d b=%d", r, g, b);
 
    j += 6;
  }
#endif
}
 
void vpImageConvert::YUV420ToRGBa(unsigned char *yuv, unsigned char *rgba, unsigned int width, unsigned int height)
{
  //  std::cout << "call optimized ConvertYUV420ToRGBa()" << std::endl;
  int U, V, R, G, B, V2, U5, UV;
  int Y0, Y1, Y2, Y3;
  unsigned int size = width * height;
  unsigned char *iU = yuv + size;
  unsigned char *iV = yuv + 5 * size / 4;
  for (unsigned int i = 0; i < height / 2; i++) {
    for (unsigned int j = 0; j < width / 2; j++) {
      U = (int)((*iU++ - 128) * 0.354);
      U5 = 5 * U;
      V = (int)((*iV++ - 128) * 0.707);
      V2 = 2 * V;
      UV = -U - V;
      Y0 = *yuv++;
      Y1 = *yuv;
      yuv = yuv + width - 1;
      Y2 = *yuv++;
      Y3 = *yuv;
      yuv = yuv - width + 1;
 
      // Original equations
      // R = Y           + 1.402 V
      // G = Y - 0.344 U - 0.714 V
      // B = Y + 1.772 U
      R = Y0 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y0 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y0 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba++ = vpRGBa::alpha_default;
 
      //---
      R = Y1 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y1 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y1 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba = vpRGBa::alpha_default;
      rgba = rgba + 4 * width - 7;
 
      //---
      R = Y2 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y2 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y2 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba++ = vpRGBa::alpha_default;
 
      //---
      R = Y3 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y3 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y3 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba = vpRGBa::alpha_default;
      rgba = rgba - 4 * width + 1;
    }
    yuv += width;
    rgba += 4 * width;
  }
}
 
void vpImageConvert::YUV420ToRGB(unsigned char *yuv, unsigned char *rgb, unsigned int width, unsigned int height)
{
  //  std::cout << "call optimized ConvertYUV420ToRGB()" << std::endl;
  int U, V, R, G, B, V2, U5, UV;
  int Y0, Y1, Y2, Y3;
  unsigned int size = width * height;
  unsigned char *iU = yuv + size;
  unsigned char *iV = yuv + 5 * size / 4;
  for (unsigned int i = 0; i < height / 2; i++) {
    for (unsigned int j = 0; j < width / 2; j++) {
      U = (int)((*iU++ - 128) * 0.354);
      U5 = 5 * U;
      V = (int)((*iV++ - 128) * 0.707);
      V2 = 2 * V;
      UV = -U - V;
      Y0 = *yuv++;
      Y1 = *yuv;
      yuv = yuv + width - 1;
      Y2 = *yuv++;
      Y3 = *yuv;
      yuv = yuv - width + 1;
 
      // Original equations
      // R = Y           + 1.402 V
      // G = Y - 0.344 U - 0.714 V
      // B = Y + 1.772 U
      R = Y0 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y0 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y0 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
 
      //---
      R = Y1 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y1 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y1 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb = (unsigned char)B;
      rgb = rgb + 3 * width - 5;
 
      //---
      R = Y2 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y2 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y2 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
 
      //---
      R = Y3 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y3 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y3 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb = (unsigned char)B;
      rgb = rgb - 3 * width + 1;
    }
    yuv += width;
    rgb += 3 * width;
  }
}
 
void vpImageConvert::YUV420ToGrey(unsigned char *yuv, unsigned char *grey, unsigned int size)
{
  for (unsigned int i = 0; i < size; i++) {
    *grey++ = *yuv++;
  }
}
 
void vpImageConvert::YUV444ToRGBa(unsigned char *yuv, unsigned char *rgba, unsigned int size)
{
  for (unsigned int i = 0; i < size; i++) {
    int U = (int)((*yuv++ - 128) * 0.354);
    int U5 = 5 * U;
    int Y = *yuv++;
    int V = (int)((*yuv++ - 128) * 0.707);
    int V2 = 2 * V;
    int UV = -U - V;
 
    // Original equations
    // R = Y           + 1.402 V
    // G = Y - 0.344 U - 0.714 V
    // B = Y + 1.772 U
    int R = Y + V2;
    if ((R >> 8) > 0)
      R = 255;
    else if (R < 0)
      R = 0;
 
    int G = Y + UV;
    if ((G >> 8) > 0)
      G = 255;
    else if (G < 0)
      G = 0;
 
    int B = Y + U5;
    if ((B >> 8) > 0)
      B = 255;
    else if (B < 0)
      B = 0;
 
    *rgba++ = (unsigned char)R;
    *rgba++ = (unsigned char)G;
    *rgba++ = (unsigned char)B;
    *rgba++ = vpRGBa::alpha_default;
  }
}
 
void vpImageConvert::YUV444ToRGB(unsigned char *yuv, unsigned char *rgb, unsigned int size)
{
  for (unsigned int i = 0; i < size; i++) {
    int U = (int)((*yuv++ - 128) * 0.354);
    int U5 = 5 * U;
    int Y = *yuv++;
    int V = (int)((*yuv++ - 128) * 0.707);
    int V2 = 2 * V;
    int UV = -U - V;
 
    // Original equations
    // R = Y           + 1.402 V
    // G = Y - 0.344 U - 0.714 V
    // B = Y + 1.772 U
    int R = Y + V2;
    if ((R >> 8) > 0)
      R = 255;
    else if (R < 0)
      R = 0;
 
    int G = Y + UV;
    if ((G >> 8) > 0)
      G = 255;
    else if (G < 0)
      G = 0;
 
    int B = Y + U5;
    if ((B >> 8) > 0)
      B = 255;
    else if (B < 0)
      B = 0;
 
    *rgb++ = (unsigned char)R;
    *rgb++ = (unsigned char)G;
    *rgb++ = (unsigned char)B;
  }
}
 
void vpImageConvert::YUV444ToGrey(unsigned char *yuv, unsigned char *grey, unsigned int size)
{
  yuv++;
  for (unsigned int i = 0; i < size; i++) {
    *grey++ = *yuv;
    yuv = yuv + 3;
  }
}
 
void vpImageConvert::YV12ToRGBa(unsigned char *yuv, unsigned char *rgba, unsigned int width, unsigned int height)
{
  //  std::cout << "call optimized ConvertYV12ToRGBa()" << std::endl;
  int U, V, R, G, B, V2, U5, UV;
  int Y0, Y1, Y2, Y3;
  unsigned int size = width * height;
  unsigned char *iV = yuv + size;
  unsigned char *iU = yuv + 5 * size / 4;
  for (unsigned int i = 0; i < height / 2; i++) {
    for (unsigned int j = 0; j < width / 2; j++) {
      U = (int)((*iU++ - 128) * 0.354);
      U5 = 5 * U;
      V = (int)((*iV++ - 128) * 0.707);
      V2 = 2 * V;
      UV = -U - V;
      Y0 = *yuv++;
      Y1 = *yuv;
      yuv = yuv + width - 1;
      Y2 = *yuv++;
      Y3 = *yuv;
      yuv = yuv - width + 1;
 
      // Original equations
      // R = Y           + 1.402 V
      // G = Y - 0.344 U - 0.714 V
      // B = Y + 1.772 U
      R = Y0 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y0 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y0 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba++ = vpRGBa::alpha_default;
 
      //---
      R = Y1 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y1 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y1 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba = 0;
      rgba = rgba + 4 * width - 7;
 
      //---
      R = Y2 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y2 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y2 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba++ = vpRGBa::alpha_default;
 
      //---
      R = Y3 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y3 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y3 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba = vpRGBa::alpha_default;
      rgba = rgba - 4 * width + 1;
    }
    yuv += width;
    rgba += 4 * width;
  }
}
 
void vpImageConvert::YV12ToRGB(unsigned char *yuv, unsigned char *rgb, unsigned int height, unsigned int width)
{
  //  std::cout << "call optimized ConvertYV12ToRGB()" << std::endl;
  int U, V, R, G, B, V2, U5, UV;
  int Y0, Y1, Y2, Y3;
  unsigned int size = width * height;
  unsigned char *iV = yuv + size;
  unsigned char *iU = yuv + 5 * size / 4;
  for (unsigned int i = 0; i < height / 2; i++) {
    for (unsigned int j = 0; j < width / 2; j++) {
      U = (int)((*iU++ - 128) * 0.354);
      U5 = 5 * U;
      V = (int)((*iV++ - 128) * 0.707);
      V2 = 2 * V;
      UV = -U - V;
      Y0 = *yuv++;
      Y1 = *yuv;
      yuv = yuv + width - 1;
      Y2 = *yuv++;
      Y3 = *yuv;
      yuv = yuv - width + 1;
 
      // Original equations
      // R = Y           + 1.402 V
      // G = Y - 0.344 U - 0.714 V
      // B = Y + 1.772 U
      R = Y0 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y0 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y0 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
 
      //---
      R = Y1 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y1 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y1 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb = (unsigned char)B;
      rgb = rgb + 3 * width - 5;
 
      //---
      R = Y2 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y2 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y2 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
 
      //---
      R = Y3 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y3 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y3 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb = (unsigned char)B;
      rgb = rgb - 3 * width + 1;
    }
    yuv += width;
    rgb += 3 * width;
  }
}
 
void vpImageConvert::YVU9ToRGBa(unsigned char *yuv, unsigned char *rgba, unsigned int width, unsigned int height)
{
  //  std::cout << "call optimized ConvertYVU9ToRGBa()" << std::endl;
  int U, V, R, G, B, V2, U5, UV;
  int Y0, Y1, Y2, Y3, Y4, Y5, Y6, Y7, Y8, Y9, Y10, Y11, Y12, Y13, Y14, Y15;
  unsigned int size = width * height;
  unsigned char *iV = yuv + size;
  unsigned char *iU = yuv + 17 * size / 16;
  for (unsigned int i = 0; i < height / 4; i++) {
    for (unsigned int j = 0; j < width / 4; j++) {
      U = (int)((*iU++ - 128) * 0.354);
      U5 = 5 * U;
      V = (int)((*iV++ - 128) * 0.707);
      V2 = 2 * V;
      UV = -U - V;
      Y0 = *yuv++;
      Y1 = *yuv++;
      Y2 = *yuv++;
      Y3 = *yuv;
      yuv = yuv + width - 3;
      Y4 = *yuv++;
      Y5 = *yuv++;
      Y6 = *yuv++;
      Y7 = *yuv;
      yuv = yuv + width - 3;
      Y8 = *yuv++;
      Y9 = *yuv++;
      Y10 = *yuv++;
      Y11 = *yuv;
      yuv = yuv + width - 3;
      Y12 = *yuv++;
      Y13 = *yuv++;
      Y14 = *yuv++;
      Y15 = *yuv;
      yuv = yuv - 3 * width + 1;
 
      // Original equations
      // R = Y           + 1.402 V
      // G = Y - 0.344 U - 0.714 V
      // B = Y + 1.772 U
      R = Y0 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y0 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y0 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba++ = vpRGBa::alpha_default;
 
      //---
      R = Y1 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y1 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y1 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba++ = vpRGBa::alpha_default;
 
      //---
      R = Y2 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y2 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y2 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba++ = vpRGBa::alpha_default;
 
      //---
      R = Y3 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y3 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y3 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba = vpRGBa::alpha_default;
      rgba = rgba + 4 * width - 15;
 
      R = Y4 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y4 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y4 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba++ = vpRGBa::alpha_default;
 
      //---
      R = Y5 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y5 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y5 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba++ = vpRGBa::alpha_default;
 
      //---
      R = Y6 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y6 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y6 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba++ = vpRGBa::alpha_default;
 
      //---
      R = Y7 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y7 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y7 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba = vpRGBa::alpha_default;
      rgba = rgba + 4 * width - 15;
 
      R = Y8 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y8 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y8 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba++ = vpRGBa::alpha_default;
 
      //---
      R = Y9 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y9 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y9 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba++ = vpRGBa::alpha_default;
 
      //---
      R = Y10 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y10 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y10 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba++ = vpRGBa::alpha_default;
 
      //---
      R = Y11 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y11 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y11 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba = vpRGBa::alpha_default;
      rgba = rgba + 4 * width - 15;
 
      R = Y12 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y12 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y12 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba++ = vpRGBa::alpha_default;
 
      //---
      R = Y13 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y13 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y13 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba++ = vpRGBa::alpha_default;
 
      //---
      R = Y14 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y14 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y14 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba++ = vpRGBa::alpha_default;
 
      //---
      R = Y15 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y15 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y15 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgba++ = (unsigned char)R;
      *rgba++ = (unsigned char)G;
      *rgba++ = (unsigned char)B;
      *rgba = vpRGBa::alpha_default;
      rgba = rgba - 12 * width + 1;
    }
    yuv += 3 * width;
    rgba += 12 * width;
  }
}
 
void vpImageConvert::YVU9ToRGB(unsigned char *yuv, unsigned char *rgb, unsigned int height, unsigned int width)
{
  //  std::cout << "call optimized ConvertYVU9ToRGB()" << std::endl;
  int U, V, R, G, B, V2, U5, UV;
  int Y0, Y1, Y2, Y3, Y4, Y5, Y6, Y7, Y8, Y9, Y10, Y11, Y12, Y13, Y14, Y15;
  unsigned int size = width * height;
  unsigned char *iV = yuv + size;
  unsigned char *iU = yuv + 17 * size / 16;
  for (unsigned int i = 0; i < height / 4; i++) {
    for (unsigned int j = 0; j < width / 4; j++) {
      U = (int)((*iU++ - 128) * 0.354);
      U5 = 5 * U;
      V = (int)((*iV++ - 128) * 0.707);
      V2 = 2 * V;
      UV = -U - V;
      Y0 = *yuv++;
      Y1 = *yuv++;
      Y2 = *yuv++;
      Y3 = *yuv;
      yuv = yuv + width - 3;
      Y4 = *yuv++;
      Y5 = *yuv++;
      Y6 = *yuv++;
      Y7 = *yuv;
      yuv = yuv + width - 3;
      Y8 = *yuv++;
      Y9 = *yuv++;
      Y10 = *yuv++;
      Y11 = *yuv;
      yuv = yuv + width - 3;
      Y12 = *yuv++;
      Y13 = *yuv++;
      Y14 = *yuv++;
      Y15 = *yuv;
      yuv = yuv - 3 * width + 1;
 
      // Original equations
      // R = Y           + 1.402 V
      // G = Y - 0.344 U - 0.714 V
      // B = Y + 1.772 U
      R = Y0 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y0 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y0 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
 
      //---
      R = Y1 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y1 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y1 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
 
      //---
      R = Y2 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y2 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y2 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
 
      //---
      R = Y3 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y3 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y3 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb = (unsigned char)B;
      rgb = rgb + 3 * width - 11;
 
      R = Y4 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y4 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y4 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
 
      //---
      R = Y5 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y5 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y5 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
 
      //---
      R = Y6 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y6 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y6 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
 
      //---
      R = Y7 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y7 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y7 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb = (unsigned char)B;
      rgb = rgb + 3 * width - 11;
 
      R = Y8 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y8 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y8 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
 
      //---
      R = Y9 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y9 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y9 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
 
      //---
      R = Y10 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y10 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y10 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
 
      //---
      R = Y11 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y11 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y11 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb = (unsigned char)B;
      rgb = rgb + 3 * width - 11;
 
      R = Y12 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y12 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y12 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
 
      //---
      R = Y13 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y13 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y13 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
 
      //---
      R = Y14 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y14 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y14 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
 
      //---
      R = Y15 + V2;
      if ((R >> 8) > 0)
        R = 255;
      else if (R < 0)
        R = 0;
 
      G = Y15 + UV;
      if ((G >> 8) > 0)
        G = 255;
      else if (G < 0)
        G = 0;
 
      B = Y15 + U5;
      if ((B >> 8) > 0)
        B = 255;
      else if (B < 0)
        B = 0;
 
      *rgb++ = (unsigned char)R;
      *rgb++ = (unsigned char)G;
      *rgb++ = (unsigned char)B;
      rgb = rgb - 9 * width + 1;
    }
    yuv += 3 * width;
    rgb += 9 * width;
  }
}
 
void vpImageConvert::RGBToRGBa(unsigned char *rgb, unsigned char *rgba, unsigned int size)
{
  RGBToRGBa(rgb, rgba, size, 1, false);
}
 
void vpImageConvert::RGBToRGBa(unsigned char *rgb, unsigned char *rgba, unsigned int width, unsigned int height,
                               bool flip)
{
  if (!flip) {
    SimdBgrToBgra(rgb, width, height, width * 3, rgba, width * 4, vpRGBa::alpha_default);
  } else {
    // if we have to flip the image, we start from the end last scanline so the
    // step is negative
    int lineStep = (flip) ? -(int)(width * 3) : (int)(width * 3);
 
    // starting source address = last line if we need to flip the image
    unsigned char *src = (flip) ? (rgb + (width * height * 3) + lineStep) : rgb;
 
    unsigned int j = 0;
    unsigned int i = 0;
 
    for (i = 0; i < height; i++) {
      unsigned char *line = src;
      for (j = 0; j < width; j++) {
        *rgba++ = *(line++);
        *rgba++ = *(line++);
        *rgba++ = *(line++);
        *rgba++ = vpRGBa::alpha_default;
      }
      // go to the next line
      src += lineStep;
    }
  }
}
 
void vpImageConvert::RGBaToRGB(unsigned char *rgba, unsigned char *rgb, unsigned int size)
{
  SimdBgraToBgr(rgba, size, 1, size * 4, rgb, size * 3);
}
 
void vpImageConvert::RGBToGrey(unsigned char *rgb, unsigned char *grey, unsigned int size)
{
  RGBToGrey(rgb, grey, size, 1, false);
}
 
void vpImageConvert::RGBToGrey(unsigned char *rgb, unsigned char *grey, unsigned int width, unsigned int height,
                               bool flip)
{
  if (!flip) {
    SimdRgbToGray(rgb, width, height, width * 3, grey, width);
  } else {
    // if we have to flip the image, we start from the end last scanline so
    // the  step is negative
    int lineStep = (flip) ? -(int)(width * 3) : (int)(width * 3);
 
    // starting source address = last line if we need to flip the image
    unsigned char *src = (flip) ? rgb + (width * height * 3) + lineStep : rgb;
 
    unsigned int j = 0;
    unsigned int i = 0;
 
    unsigned r, g, b;
 
    for (i = 0; i < height; i++) {
      unsigned char *line = src;
      for (j = 0; j < width; j++) {
        r = *(line++);
        g = *(line++);
        b = *(line++);
        *grey++ = (unsigned char)(0.2126 * r + 0.7152 * g + 0.0722 * b);
      }
 
      // go to the next line
      src += lineStep;
    }
  }
}
 
void vpImageConvert::RGBaToGrey(unsigned char *rgba, unsigned char *grey, unsigned int width, unsigned int height,
                                unsigned int
#if defined _OPENMP
                                    nThreads
#endif
)
{
#if defined _OPENMP
  if (nThreads > 0) {
    omp_set_num_threads(static_cast<int>(nThreads));
  }
#pragma omp parallel for
#endif
  for (int i = 0; i < static_cast<int>(height); i++) {
    SimdRgbaToGray(rgba + i * width * 4, width, 1, width * 4, grey + i * width, width);
  }
}
 
void vpImageConvert::RGBaToGrey(unsigned char *rgba, unsigned char *grey, unsigned int size)
{
  SimdRgbaToGray(rgba, size, 1, size * 4, grey, size);
}
 
void vpImageConvert::GreyToRGBa(unsigned char *grey, unsigned char *rgba, unsigned int width, unsigned int height)
{
  SimdGrayToBgra(grey, width, height, width, rgba, width * sizeof(vpRGBa), vpRGBa::alpha_default);
}
 
void vpImageConvert::GreyToRGBa(unsigned char *grey, unsigned char *rgba, unsigned int size)
{
  GreyToRGBa(grey, rgba, size, 1);
}
 
void vpImageConvert::GreyToRGB(unsigned char *grey, unsigned char *rgb, unsigned int size)
{
  SimdGrayToBgr(grey, size, 1, size, rgb, size * 3);
}
 
void vpImageConvert::BGRToRGBa(unsigned char *bgr, unsigned char *rgba, unsigned int width, unsigned int height,
                               bool flip)
{
  if (!flip) {
    SimdRgbToBgra(bgr, width, height, width * 3, rgba, width * sizeof(vpRGBa), vpRGBa::alpha_default);
  } else {
    // if we have to flip the image, we start from the end last scanline so the
    // step is negative
    int lineStep = (flip) ? -(int)(width * 3) : (int)(width * 3);
 
    // starting source address = last line if we need to flip the image
    unsigned char *src = (flip) ? (bgr + (width * height * 3) + lineStep) : bgr;
 
    for (unsigned int i = 0; i < height; i++) {
      unsigned char *line = src;
      for (unsigned int j = 0; j < width; j++) {
        *rgba++ = *(line + 2);
        *rgba++ = *(line + 1);
        *rgba++ = *(line + 0);
        *rgba++ = vpRGBa::alpha_default;
 
        line += 3;
      }
      // go to the next line
      src += lineStep;
    }
  }
}
 
void vpImageConvert::BGRaToRGBa(unsigned char *bgra, unsigned char *rgba, unsigned int width, unsigned int height,
                                bool flip)
{
  if (!flip) {
    SimdBgraToRgba(bgra, width, height, width * 4, rgba, width * 4);
  } else {
    // if we have to flip the image, we start from the end last scanline so the
    // step is negative
    int lineStep = (flip) ? -(int)(width * 4) : (int)(width * 4);
 
    // starting source address = last line if we need to flip the image
    unsigned char *src = (flip) ? (bgra + (width * height * 4) + lineStep) : bgra;
 
    for (unsigned int i = 0; i < height; i++) {
      unsigned char *line = src;
      for (unsigned int j = 0; j < width; j++) {
        *rgba++ = *(line + 2);
        *rgba++ = *(line + 1);
        *rgba++ = *(line + 0);
        *rgba++ = *(line + 3);
 
        line += 4;
      }
      // go to the next line
      src += lineStep;
    }
  }
}
 
void vpImageConvert::BGRToGrey(unsigned char *bgr, unsigned char *grey, unsigned int width, unsigned int height,
                               bool flip,
                               unsigned int
#if defined _OPENMP
                                   nThreads
#endif
)
{
  if (!flip) {
#if defined _OPENMP
    if (nThreads > 0) {
      omp_set_num_threads(static_cast<int>(nThreads));
    }
#pragma omp parallel for
#endif
    for (int i = 0; i < static_cast<int>(height); i++) {
      SimdBgrToGray(bgr + i * width * 3, width, 1, width * 3, grey + i * width, width);
    }
  } else {
    // if we have to flip the image, we start from the end last scanline so
    // the  step is negative
    int lineStep = (flip) ? -(int)(width * 3) : (int)(width * 3);
 
    // starting source address = last line if we need to flip the image
    unsigned char *src = (flip) ? bgr + (width * height * 3) + lineStep : bgr;
 
    for (unsigned int i = 0; i < height; i++) {
      unsigned char *line = src;
      for (unsigned int j = 0; j < width; j++) {
        *grey++ = (unsigned char)(0.2126 * *(line + 2) + 0.7152 * *(line + 1) + 0.0722 * *(line + 0));
        line += 3;
      }
 
      // go to the next line
      src += lineStep;
    }
  }
}
 
void vpImageConvert::BGRaToGrey(unsigned char *bgra, unsigned char *grey, unsigned int width, unsigned int height,
                                bool flip,
                                unsigned int
#if defined _OPENMP
                                    nThreads
#endif
)
{
  if (!flip) {
#if defined _OPENMP
    if (nThreads > 0) {
      omp_set_num_threads(static_cast<int>(nThreads));
    }
#pragma omp parallel for
#endif
    for (int i = 0; i < static_cast<int>(height); i++) {
      SimdBgraToGray(bgra + i * width * 4, width, 1, width * 4, grey + i * width, width);
    }
  } else {
    // if we have to flip the image, we start from the end last scanline so
    // the  step is negative
    int lineStep = (flip) ? -(int)(width * 4) : (int)(width * 4);
 
    // starting source address = last line if we need to flip the image
    unsigned char *src = (flip) ? bgra + (width * height * 4) + lineStep : bgra;
 
    for (unsigned int i = 0; i < height; i++) {
      unsigned char *line = src;
      for (unsigned int j = 0; j < width; j++) {
        *grey++ = (unsigned char)(0.2126 * *(line + 2) + 0.7152 * *(line + 1) + 0.0722 * *(line + 0));
        line += 4;
      }
 
      // go to the next line
      src += lineStep;
    }
  }
}
 
void vpImageConvert::computeYCbCrLUT()
{
  if (YCbCrLUTcomputed == false) {
    int index = 256;
 
    while (index--) {
 
      int aux = index - 128;
      vpImageConvert::vpCrr[index] = (int)(364.6610 * aux) >> 8;
      vpImageConvert::vpCgb[index] = (int)(-89.8779 * aux) >> 8;
      vpImageConvert::vpCgr[index] = (int)(-185.8154 * aux) >> 8;
      vpImageConvert::vpCbb[index] = (int)(460.5724 * aux) >> 8;
    }
 
    YCbCrLUTcomputed = true;
  }
}
 
void vpImageConvert::YCbCrToRGB(unsigned char *ycbcr, unsigned char *rgb, unsigned int size)
{
  unsigned char *cbv;
  unsigned char *crv;
  unsigned char *pt_ycbcr = ycbcr;
  unsigned char *pt_rgb = rgb;
  cbv = pt_ycbcr + 1;
  crv = pt_ycbcr + 3;
 
  vpImageConvert::computeYCbCrLUT();
 
  int col = 0;
 
  while (size--) {
    int val_r, val_g, val_b;
    if (!(col++ % 2)) {
      cbv = pt_ycbcr + 1;
      crv = pt_ycbcr + 3;
    }
 
    val_r = *pt_ycbcr + vpImageConvert::vpCrr[*crv];
    val_g = *pt_ycbcr + vpImageConvert::vpCgb[*cbv] + vpImageConvert::vpCgr[*crv];
    val_b = *pt_ycbcr + vpImageConvert::vpCbb[*cbv];
 
    vpDEBUG_TRACE(5, "[%d] R: %d G: %d B: %d\n", size, val_r, val_g, val_b);
 
    *pt_rgb++ = (val_r < 0) ? 0u : ((val_r > 255) ? 255u : (unsigned char)val_r); // Red component.
    *pt_rgb++ = (val_g < 0) ? 0u : ((val_g > 255) ? 255u : (unsigned char)val_g); // Green component.
    *pt_rgb++ = (val_b < 0) ? 0u : ((val_b > 255) ? 255u : (unsigned char)val_b); // Blue component.
 
    pt_ycbcr += 2;
  }
}
 
void vpImageConvert::YCbCrToRGBa(unsigned char *ycbcr, unsigned char *rgba, unsigned int size)
{
  unsigned char *cbv;
  unsigned char *crv;
  unsigned char *pt_ycbcr = ycbcr;
  unsigned char *pt_rgba = rgba;
  cbv = pt_ycbcr + 1;
  crv = pt_ycbcr + 3;
 
  vpImageConvert::computeYCbCrLUT();
 
  int col = 0;
 
  while (size--) {
    int val_r, val_g, val_b;
    if (!(col++ % 2)) {
      cbv = pt_ycbcr + 1;
      crv = pt_ycbcr + 3;
    }
 
    val_r = *pt_ycbcr + vpImageConvert::vpCrr[*crv];
    val_g = *pt_ycbcr + vpImageConvert::vpCgb[*cbv] + vpImageConvert::vpCgr[*crv];
    val_b = *pt_ycbcr + vpImageConvert::vpCbb[*cbv];
 
    vpDEBUG_TRACE(5, "[%d] R: %d G: %d B: %d\n", size, val_r, val_g, val_b);
 
    *pt_rgba++ = (val_r < 0) ? 0u : ((val_r > 255) ? 255u : (unsigned char)val_r); // Red component.
    *pt_rgba++ = (val_g < 0) ? 0u : ((val_g > 255) ? 255u : (unsigned char)val_g); // Green component.
    *pt_rgba++ = (val_b < 0) ? 0u : ((val_b > 255) ? 255u : (unsigned char)val_b); // Blue component.
    *pt_rgba++ = vpRGBa::alpha_default;
 
    pt_ycbcr += 2;
  }
}
 
void vpImageConvert::YCbCrToGrey(unsigned char *ycbcr, unsigned char *grey, unsigned int size)
{
  unsigned int i = 0, j = 0;
 
  while (j < size * 2) {
    grey[i++] = ycbcr[j];
    grey[i++] = ycbcr[j + 2];
    j += 4;
  }
}
 
void vpImageConvert::YCrCbToRGB(unsigned char *ycrcb, unsigned char *rgb, unsigned int size)
{
  unsigned char *cbv;
  unsigned char *crv;
  unsigned char *pt_ycbcr = ycrcb;
  unsigned char *pt_rgb = rgb;
  crv = pt_ycbcr + 1;
  cbv = pt_ycbcr + 3;
 
  vpImageConvert::computeYCbCrLUT();
 
  int col = 0;
 
  while (size--) {
    int val_r, val_g, val_b;
    if (!(col++ % 2)) {
      crv = pt_ycbcr + 1;
      cbv = pt_ycbcr + 3;
    }
 
    val_r = *pt_ycbcr + vpImageConvert::vpCrr[*crv];
    val_g = *pt_ycbcr + vpImageConvert::vpCgb[*cbv] + vpImageConvert::vpCgr[*crv];
    val_b = *pt_ycbcr + vpImageConvert::vpCbb[*cbv];
 
    vpDEBUG_TRACE(5, "[%d] R: %d G: %d B: %d\n", size, val_r, val_g, val_b);
 
    *pt_rgb++ = (val_r < 0) ? 0u : ((val_r > 255) ? 255u : (unsigned char)val_r); // Red component.
    *pt_rgb++ = (val_g < 0) ? 0u : ((val_g > 255) ? 255u : (unsigned char)val_g); // Green component.
    *pt_rgb++ = (val_b < 0) ? 0u : ((val_b > 255) ? 255u : (unsigned char)val_b); // Blue component.
 
    pt_ycbcr += 2;
  }
}
 
void vpImageConvert::YCrCbToRGBa(unsigned char *ycrcb, unsigned char *rgba, unsigned int size)
{
  unsigned char *cbv;
  unsigned char *crv;
  unsigned char *pt_ycbcr = ycrcb;
  unsigned char *pt_rgba = rgba;
  crv = pt_ycbcr + 1;
  cbv = pt_ycbcr + 3;
 
  vpImageConvert::computeYCbCrLUT();
 
  int col = 0;
 
  while (size--) {
    int val_r, val_g, val_b;
    if (!(col++ % 2)) {
      crv = pt_ycbcr + 1;
      cbv = pt_ycbcr + 3;
    }
 
    val_r = *pt_ycbcr + vpImageConvert::vpCrr[*crv];
    val_g = *pt_ycbcr + vpImageConvert::vpCgb[*cbv] + vpImageConvert::vpCgr[*crv];
    val_b = *pt_ycbcr + vpImageConvert::vpCbb[*cbv];
 
    vpDEBUG_TRACE(5, "[%d] R: %d G: %d B: %d\n", size, val_r, val_g, val_b);
 
    *pt_rgba++ = (val_r < 0) ? 0u : ((val_r > 255) ? 255u : (unsigned char)val_r); // Red component.
    *pt_rgba++ = (val_g < 0) ? 0u : ((val_g > 255) ? 255u : (unsigned char)val_g); // Green component.
    *pt_rgba++ = (val_b < 0) ? 0u : ((val_b > 255) ? 255u : (unsigned char)val_b); // Blue component.
    *pt_rgba++ = vpRGBa::alpha_default;
 
    pt_ycbcr += 2;
  }
}
 
void vpImageConvert::split(const vpImage<vpRGBa> &src, vpImage<unsigned char> *pR, vpImage<unsigned char> *pG,
                           vpImage<unsigned char> *pB, vpImage<unsigned char> *pa)
{
  if (src.getSize() > 0) {
    if (pR) {
      pR->resize(src.getHeight(), src.getWidth());
    }
    if (pG) {
      pG->resize(src.getHeight(), src.getWidth());
    }
    if (pB) {
      pB->resize(src.getHeight(), src.getWidth());
    }
    if (pa) {
      pa->resize(src.getHeight(), src.getWidth());
    }
 
    unsigned char *ptrR = pR ? pR->bitmap : new unsigned char[src.getSize()];
    unsigned char *ptrG = pG ? pG->bitmap : new unsigned char[src.getSize()];
    unsigned char *ptrB = pB ? pB->bitmap : new unsigned char[src.getSize()];
    unsigned char *ptrA = pa ? pa->bitmap : new unsigned char[src.getSize()];
 
    SimdDeinterleaveBgra(reinterpret_cast<unsigned char *>(src.bitmap), src.getWidth() * sizeof(vpRGBa), src.getWidth(),
                         src.getHeight(), ptrR, src.getWidth(), ptrG, src.getWidth(), ptrB, src.getWidth(), ptrA,
                         src.getWidth());
 
    if (!pR) {
      delete[] ptrR;
    }
    if (!pG) {
      delete[] ptrG;
    }
    if (!pB) {
      delete[] ptrB;
    }
    if (!pa) {
      delete[] ptrA;
    }
  }
}
 
void vpImageConvert::merge(const vpImage<unsigned char> *R, const vpImage<unsigned char> *G,
                           const vpImage<unsigned char> *B, const vpImage<unsigned char> *a, vpImage<vpRGBa> &RGBa)
{
  // Check if the input channels have all the same dimensions
  std::map<unsigned int, unsigned int> mapOfWidths, mapOfHeights;
  if (R != NULL) {
    mapOfWidths[R->getWidth()]++;
    mapOfHeights[R->getHeight()]++;
  }
 
  if (G != NULL) {
    mapOfWidths[G->getWidth()]++;
    mapOfHeights[G->getHeight()]++;
  }
 
  if (B != NULL) {
    mapOfWidths[B->getWidth()]++;
    mapOfHeights[B->getHeight()]++;
  }
 
  if (a != NULL) {
    mapOfWidths[a->getWidth()]++;
    mapOfHeights[a->getHeight()]++;
  }
 
  if (mapOfWidths.size() == 1 && mapOfHeights.size() == 1) {
    unsigned int width = mapOfWidths.begin()->first;
    unsigned int height = mapOfHeights.begin()->first;
 
    RGBa.resize(height, width);
 
    if (R != NULL && G != NULL && B != NULL && a != NULL) {
      SimdInterleaveBgra(R->bitmap, width, G->bitmap, width, B->bitmap, width, a->bitmap, width, width, height,
                         reinterpret_cast<uint8_t *>(RGBa.bitmap), width * sizeof(vpRGBa));
    } else {
      unsigned int size = width * height;
      for (unsigned int i = 0; i < size; i++) {
        if (R != NULL) {
          RGBa.bitmap[i].R = R->bitmap[i];
        }
 
        if (G != NULL) {
          RGBa.bitmap[i].G = G->bitmap[i];
        }
 
        if (B != NULL) {
          RGBa.bitmap[i].B = B->bitmap[i];
        }
 
        if (a != NULL) {
          RGBa.bitmap[i].A = a->bitmap[i];
        }
      }
    }
  } else {
    throw vpException(vpException::dimensionError, "Mismatched dimensions!");
  }
}
 
void vpImageConvert::MONO16ToGrey(unsigned char *grey16, unsigned char *grey, unsigned int size)
{
  int i = (((int)size) << 1) - 1;
  int j = (int)size - 1;
 
  while (i >= 0) {
    int y = grey16[i--];
    grey[j--] = static_cast<unsigned char>((y + (grey16[i--] << 8)) >> 8);
  }
}
 
void vpImageConvert::MONO16ToRGBa(unsigned char *grey16, unsigned char *rgba, unsigned int size)
{
  int i = (((int)size) << 1) - 1;
  int j = (int)(size * 4 - 1);
 
  while (i >= 0) {
    int y = grey16[i--];
    unsigned char v = static_cast<unsigned char>((y + (grey16[i--] << 8)) >> 8);
    rgba[j--] = vpRGBa::alpha_default;
    rgba[j--] = v;
    rgba[j--] = v;
    rgba[j--] = v;
  }
}
 
void vpImageConvert::HSV2RGB(const double *hue_, const double *saturation_, const double *value_, unsigned char *rgb,
                             unsigned int size, unsigned int step)
{
  for (unsigned int i = 0; i < size; i++) {
    double hue = hue_[i], saturation = saturation_[i], value = value_[i];
 
    if (vpMath::equal(saturation, 0.0, std::numeric_limits<double>::epsilon())) {
      hue = value;
      saturation = value;
    } else {
      double h = hue * 6.0;
      double s = saturation;
      double v = value;
 
      if (vpMath::equal(h, 6.0, std::numeric_limits<double>::epsilon())) {
        h = 0.0;
      }
 
      double f = h - (int)h;
      double p = v * (1.0 - s);
      double q = v * (1.0 - s * f);
      double t = v * (1.0 - s * (1.0 - f));
 
      switch ((int)h) {
      case 0:
        hue = v;
        saturation = t;
        value = p;
        break;
 
      case 1:
        hue = q;
        saturation = v;
        value = p;
        break;
 
      case 2:
        hue = p;
        saturation = v;
        value = t;
        break;
 
      case 3:
        hue = p;
        saturation = q;
        value = v;
        break;
 
      case 4:
        hue = t;
        saturation = p;
        value = v;
        break;
 
      default: // case 5:
        hue = v;
        saturation = p;
        value = q;
        break;
      }
    }
 
    rgb[i * step] = (unsigned char)vpMath::round(hue * 255.0);
    rgb[i * step + 1] = (unsigned char)vpMath::round(saturation * 255.0);
    rgb[i * step + 2] = (unsigned char)vpMath::round(value * 255.0);
    if (step == 4) // alpha
      rgb[i * step + 3] = vpRGBa::alpha_default;
  }
}
 
void vpImageConvert::RGB2HSV(const unsigned char *rgb, double *hue, double *saturation, double *value,
                             unsigned int size, unsigned int step)
{
  for (unsigned int i = 0; i < size; i++) {
    double red, green, blue;
    double h, s, v;
    double min, max;
 
    red = rgb[i * step] / 255.0;
    green = rgb[i * step + 1] / 255.0;
    blue = rgb[i * step + 2] / 255.0;
 
    if (red > green) {
      max = ((std::max))(red, blue);
      min = ((std::min))(green, blue);
    } else {
      max = ((std::max))(green, blue);
      min = ((std::min))(red, blue);
    }
 
    v = max;
 
    if (!vpMath::equal(max, 0.0, std::numeric_limits<double>::epsilon())) {
      s = (max - min) / max;
    } else {
      s = 0.0;
    }
 
    if (vpMath::equal(s, 0.0, std::numeric_limits<double>::epsilon())) {
      h = 0.0;
    } else {
      double delta = max - min;
      if (vpMath::equal(delta, 0.0, std::numeric_limits<double>::epsilon())) {
        delta = 1.0;
      }
 
      if (vpMath::equal(red, max, std::numeric_limits<double>::epsilon())) {
        h = (green - blue) / delta;
      } else if (vpMath::equal(green, max, std::numeric_limits<double>::epsilon())) {
        h = 2 + (blue - red) / delta;
      } else {
        h = 4 + (red - green) / delta;
      }
 
      h /= 6.0;
      if (h < 0.0) {
        h += 1.0;
      } else if (h > 1.0) {
        h -= 1.0;
      }
    }
 
    hue[i] = h;
    saturation[i] = s;
    value[i] = v;
  }
}
 
void vpImageConvert::HSVToRGBa(const double *hue, const double *saturation, const double *value, unsigned char *rgba,
                               unsigned int size)
{
  vpImageConvert::HSV2RGB(hue, saturation, value, rgba, size, 4);
}
 
void vpImageConvert::HSVToRGBa(const unsigned char *hue, const unsigned char *saturation, const unsigned char *value,
                               unsigned char *rgba, unsigned int size)
{
  for (unsigned int i = 0; i < size; i++) {
    double h = hue[i] / 255.0, s = saturation[i] / 255.0, v = value[i] / 255.0;
 
    vpImageConvert::HSVToRGBa(&h, &s, &v, (rgba + i * 4), 1);
  }
}
 
void vpImageConvert::RGBaToHSV(const unsigned char *rgba, double *hue, double *saturation, double *value,
                               unsigned int size)
{
  vpImageConvert::RGB2HSV(rgba, hue, saturation, value, size, 4);
}
 
void vpImageConvert::RGBaToHSV(const unsigned char *rgba, unsigned char *hue, unsigned char *saturation,
                               unsigned char *value, unsigned int size)
{
  for (unsigned int i = 0; i < size; i++) {
    double h, s, v;
    vpImageConvert::RGBaToHSV((rgba + i * 4), &h, &s, &v, 1);
 
    hue[i] = (unsigned char)(255.0 * h);
    saturation[i] = (unsigned char)(255.0 * s);
    value[i] = (unsigned char)(255.0 * v);
  }
}
 
void vpImageConvert::HSVToRGB(const double *hue, const double *saturation, const double *value, unsigned char *rgb,
                              unsigned int size)
{
  vpImageConvert::HSV2RGB(hue, saturation, value, rgb, size, 3);
}
 
void vpImageConvert::HSVToRGB(const unsigned char *hue, const unsigned char *saturation, const unsigned char *value,
                              unsigned char *rgb, unsigned int size)
{
  for (unsigned int i = 0; i < size; i++) {
    double h = hue[i] / 255.0, s = saturation[i] / 255.0, v = value[i] / 255.0;
 
    vpImageConvert::HSVToRGB(&h, &s, &v, (rgb + i * 3), 1);
  }
}
 
void vpImageConvert::RGBToHSV(const unsigned char *rgb, double *hue, double *saturation, double *value,
                              unsigned int size)
{
  vpImageConvert::RGB2HSV(rgb, hue, saturation, value, size, 3);
}
 
void vpImageConvert::RGBToHSV(const unsigned char *rgb, unsigned char *hue, unsigned char *saturation,
                              unsigned char *value, unsigned int size)
{
  for (unsigned int i = 0; i < size; i++) {
    double h, s, v;
 
    vpImageConvert::RGBToHSV((rgb + i * 3), &h, &s, &v, 1);
 
    hue[i] = (unsigned char)(255.0 * h);
    saturation[i] = (unsigned char)(255.0 * s);
    value[i] = (unsigned char)(255.0 * v);
  }
}
 
// Bilinear
 
void vpImageConvert::demosaicBGGRToRGBaBilinear(const uint8_t *bggr, uint8_t *rgba, unsigned int width,
                                                unsigned int height, unsigned int nThreads)
{
  demosaicBGGRToRGBaBilinearTpl(bggr, rgba, width, height, nThreads);
}
 
void vpImageConvert::demosaicBGGRToRGBaBilinear(const uint16_t *bggr, uint16_t *rgba, unsigned int width,
                                                unsigned int height, unsigned int nThreads)
{
  demosaicBGGRToRGBaBilinearTpl(bggr, rgba, width, height, nThreads);
}
 
void vpImageConvert::demosaicGBRGToRGBaBilinear(const uint8_t *gbrg, uint8_t *rgba, unsigned int width,
                                                unsigned int height, unsigned int nThreads)
{
  demosaicGBRGToRGBaBilinearTpl(gbrg, rgba, width, height, nThreads);
}
 
void vpImageConvert::demosaicGBRGToRGBaBilinear(const uint16_t *gbrg, uint16_t *rgba, unsigned int width,
                                                unsigned int height, unsigned int nThreads)
{
  demosaicGBRGToRGBaBilinearTpl(gbrg, rgba, width, height, nThreads);
}
 
void vpImageConvert::demosaicGRBGToRGBaBilinear(const uint8_t *grbg, uint8_t *rgba, unsigned int width,
                                                unsigned int height, unsigned int nThreads)
{
  demosaicGRBGToRGBaBilinearTpl(grbg, rgba, width, height, nThreads);
}
 
void vpImageConvert::demosaicGRBGToRGBaBilinear(const uint16_t *grbg, uint16_t *rgba, unsigned int width,
                                                unsigned int height, unsigned int nThreads)
{
  demosaicGRBGToRGBaBilinearTpl(grbg, rgba, width, height, nThreads);
}
 
void vpImageConvert::demosaicRGGBToRGBaBilinear(const uint8_t *rggb, uint8_t *rgba, unsigned int width,
                                                unsigned int height, unsigned int nThreads)
{
  demosaicRGGBToRGBaBilinearTpl(rggb, rgba, width, height, nThreads);
}
 
void vpImageConvert::demosaicRGGBToRGBaBilinear(const uint16_t *rggb, uint16_t *rgba, unsigned int width,
                                                unsigned int height, unsigned int nThreads)
{
  demosaicRGGBToRGBaBilinearTpl(rggb, rgba, width, height, nThreads);
}
 
// Malvar
 
void vpImageConvert::demosaicBGGRToRGBaMalvar(const uint8_t *bggr, uint8_t *rgba, unsigned int width,
                                              unsigned int height, unsigned int nThreads)
{
  demosaicBGGRToRGBaMalvarTpl(bggr, rgba, width, height, nThreads);
}
 
void vpImageConvert::demosaicBGGRToRGBaMalvar(const uint16_t *bggr, uint16_t *rgba, unsigned int width,
                                              unsigned int height, unsigned int nThreads)
{
  demosaicBGGRToRGBaMalvarTpl(bggr, rgba, width, height, nThreads);
}
 
void vpImageConvert::demosaicGBRGToRGBaMalvar(const uint8_t *gbrg, uint8_t *rgba, unsigned int width,
                                              unsigned int height, unsigned int nThreads)
{
  demosaicGBRGToRGBaMalvarTpl(gbrg, rgba, width, height, nThreads);
}
 
void vpImageConvert::demosaicGBRGToRGBaMalvar(const uint16_t *gbrg, uint16_t *rgba, unsigned int width,
                                              unsigned int height, unsigned int nThreads)
{
  demosaicGBRGToRGBaMalvarTpl(gbrg, rgba, width, height, nThreads);
}
 
void vpImageConvert::demosaicGRBGToRGBaMalvar(const uint8_t *grbg, uint8_t *rgba, unsigned int width,
                                              unsigned int height, unsigned int nThreads)
{
  demosaicGRBGToRGBaMalvarTpl(grbg, rgba, width, height, nThreads);
}
 
void vpImageConvert::demosaicGRBGToRGBaMalvar(const uint16_t *grbg, uint16_t *rgba, unsigned int width,
                                              unsigned int height, unsigned int nThreads)
{
  demosaicGRBGToRGBaMalvarTpl(grbg, rgba, width, height, nThreads);
}
 
void vpImageConvert::demosaicRGGBToRGBaMalvar(const uint8_t *rggb, uint8_t *rgba, unsigned int width,
                                              unsigned int height, unsigned int nThreads)
{
  demosaicRGGBToRGBaMalvarTpl(rggb, rgba, width, height, nThreads);
}
 
void vpImageConvert::demosaicRGGBToRGBaMalvar(const uint16_t *rggb, uint16_t *rgba, unsigned int width,
                                              unsigned int height, unsigned int nThreads)
{
  demosaicRGGBToRGBaMalvarTpl(rggb, rgba, width, height, nThreads);
}