r328: *** empty log message ***

[ctsim.git] / libctsim / imagefile.cpp

diff --git a/libctsim/imagefile.cpp b/libctsim/imagefile.cpp
index 8756bc88317082473d7385d5813e980077aa04b6..0cbd67826ae194750b64cb8df9a70f3dbbdaeeac 100644 (file)
--- a/libctsim/imagefile.cpp
+++ b/libctsim/imagefile.cpp
@@ -9,7 +9,7 @@
 **  This is part of the CTSim program
 **  Copyright (C) 1983-2000 Kevin Rosenberg
 **
-**  $Id: imagefile.cpp,v 1.1 2000/06/19 02:59:34 kevin Exp $
+**  $Id: imagefile.cpp,v 1.29 2001/01/02 05:34:57 kevin Exp $
 **
 **  This program is free software; you can redistribute it and/or modify
 **  it under the terms of the GNU General Public License (version 2) as
@@ -27,145 +27,1286 @@
 
 #include "ct.h"
 
+const int ImageFile::FORMAT_INVALID = -1;\r
+const int ImageFile::FORMAT_PGM = 0;\r
+const int ImageFile::FORMAT_PGMASCII = 1;\r
+#ifdef HAVE_PNG\r
+const int ImageFile::FORMAT_PNG = 2;\r
+const int ImageFile::FORMAT_PNG16 = 3;\r
+#endif\r
+\r
+const char* ImageFile::s_aszFormatName[] = \r
+{\r
+  {"pgm"},\r
+  {"pgmascii"},\r
+#ifdef HAVE_PNG\r
+  {"png"},\r
+  {"png16"},\r
+#endif\r
+};\r
+\r
+const char* ImageFile::s_aszFormatTitle[] = \r
+{\r
+  {"PGM"},\r
+  {"PGM ASCII"},\r
+  {"PNG"},\r
+  {"PNG 16-bit"},\r
+};\r
+\r
+const int ImageFile::s_iFormatCount = sizeof(s_aszFormatName) / sizeof(const char*);\r
+\r
+\r
 
-///////////////////////////////////////////////////////////////////////////
-// CLASS IMPLEMENTATION
-//
-//     Name: Array2dFileLabel
-//     Purpose: Labels for Array2dFiles
-///////////////////////////////////////////////////////////////////////////
+F32Image::F32Image (int nx, int ny, int dataType)\r
+: Array2dFile (nx, ny, sizeof(kfloat32), Array2dFile::PIXEL_FLOAT32, dataType)\r
+{\r
+}\r
+\r
+F32Image::F32Image (void)\r
+: Array2dFile()\r
+{\r
+  setPixelFormat (Array2dFile::PIXEL_FLOAT32);\r
+  setPixelSize (sizeof(kfloat32));\r
+  setDataType (Array2dFile::DATA_TYPE_REAL);\r
+}\r
+\r
+F64Image::F64Image (int nx, int ny, int dataType)\r
+: Array2dFile (nx, ny, sizeof(kfloat64), Array2dFile::PIXEL_FLOAT64, dataType)\r
+{\r
+}\r
+\r
+F64Image::F64Image (void)\r
+: Array2dFile ()\r
+{\r
+  setPixelFormat (PIXEL_FLOAT64);\r
+  setPixelSize (sizeof(kfloat64));\r
+  setDataType (Array2dFile::DATA_TYPE_REAL);\r
+}\r
 
-void
-Array2dFileLabel::init (void)
-{
-    m_calcTime = 0;
-    m_labelType = L_EMPTY;
-    TIMEDATE td;
-    td_get_tmdt (&td);
-    m_year = td.d.year;
-    m_month = td.d.month;
-    m_day = td.d.date;
-    m_hour = td.t.hour;
-    m_minute = td.t.minute;
-    m_second = td.t.second;
+void 
+ImageFile::filterResponse (const char* const domainName, double bw, const char* const filterName, double filt_param, double dInputScale, double dOutputScale)
+{\r
+  ImageFileArray v = getArray();\r
+  SignalFilter filter (filterName, domainName, bw, filt_param);\r
+\r
+#if 1\r
+  int iXCenter, iYCenter;\r
+  if (isEven (m_nx))\r
+    iXCenter = m_nx / 2;\r
+  else\r
+    iXCenter = (m_nx - 1) / 2;\r
+  if (isEven (m_ny))\r
+    iYCenter = m_ny / 2;\r
+  else\r
+    iYCenter = (m_ny - 1) / 2;\r
+\r
+  for (int ix = 0; ix < m_nx; ix++)\r
+    for (int iy = 0; iy < m_ny; iy++) {\r
+      long lD2 = ((ix - iXCenter) * (ix - iXCenter)) + ((iy - iYCenter) * (iy - iYCenter));\r
+      double r = ::sqrt (static_cast<double>(lD2)) * dInputScale;\r
+      v[ix][iy] = filter.response (r) * dOutputScale;\r
+    }\r
+#else
+  int hx = (m_nx - 1) / 2;
+  int hy = (m_ny - 1) / 2;
+  
+  for (int i = -hx; i <= hx; i++) {
+    for (int j = -hy; j <= hy; j++) {
+      double r = ::sqrt (i * i + j * j);
+      
+      v[i+hx][j+hy] = filter.response (r);
+    }
+  }\r
+#endif
 }
 
-Array2dFileLabel::Array2dFileLabel() 
+int
+ImageFile::display (void) const
 {
-    init();
+  double pmin, pmax;
+  
+  getMinMax (pmin, pmax);
+  
+  return (displayScaling (1, pmin, pmax));
 }
 
-Array2dFileLabel::Array2dFileLabel(const char* const str, double ctime = 0.)
-  : m_strLabel (str)
+int 
+ImageFile::displayScaling (const int scale, const ImageFileValue pmin, const ImageFileValue pmax) const
 {
-    init();
-
-    m_labelType = L_USER;
-    m_calcTime = ctime;
+  int nx = m_nx;
+  int ny = m_ny;
+  ImageFileArrayConst v = getArray();
+  if (v == NULL || nx == 0 || ny == 0)
+    return 0;
+  
+#if HAVE_G2_H
+  int* pPens = new int [nx * ny * scale * scale ];
+  
+  double view_scale = 255 / (pmax - pmin);
+  int id_X11 = g2_open_X11 (nx * scale, ny * scale);
+  int grayscale[256];
+  for (int i = 0; i < 256; i++) {
+    double cval = i / 255.;
+    grayscale[i] = g2_ink (id_X11, cval, cval, cval);
+  }
+  
+  for (int iy = ny - 1; iy >= 0; iy--) {
+    int iRowPos = ((ny - 1 - iy) * scale) * (nx * scale);
+    for (int ix = 0; ix < nx; ix++) {
+      int cval = static_cast<int>((v[ix][iy] - pmin) * view_scale);
+      if (cval < 0)  
+        cval = 0;
+      else if (cval > 255) 
+        cval = 255;
+      for (int sy = 0; sy < scale; sy++)
+        for (int sx = 0; sx < scale; sx++)
+          pPens[iRowPos+(sy * nx * scale)+(sx + (ix * scale))] = grayscale[cval];
+    }
+  }
+  
+  g2_image (id_X11, 0., 0., nx * scale, ny * scale, pPens);
+  
+  delete pPens;
+  return (id_X11);
+#else
+  return 0;
+#endif
 }
 
-Array2dFileLabel::Array2dFileLabel(const int type, const char* const str, double ctime = 0.)
-  :  m_strLabel (str)
-{
-    init();
 
-    m_labelType = type;
-    m_calcTime = ctime;
+
+// ImageFile::comparativeStatistics    Calculate comparative stats
+//
+// OUTPUT
+//   d   Normalized root mean squared distance measure
+//   r   Normalized mean absolute distance measure
+//   e   Worst case distance measure
+//
+// REFERENCES
+//  G.T. Herman, Image Reconstruction From Projections, 1980
+
+bool
+ImageFile::comparativeStatistics (const ImageFile& imComp, double& d, double& r, double& e) const
+{
+  if (imComp.nx() != m_nx && imComp.ny() != m_ny) {
+    sys_error (ERR_WARNING, "Image sizes differ [ImageFile::comparativeStatistics]");
+    return false;
+  }
+  ImageFileArrayConst v = getArray();
+  if (v == NULL || m_nx == 0 || m_ny == 0)
+    return false;
+  
+  ImageFileArrayConst vComp = imComp.getArray();
+  
+  double myMean = 0.;
+  for (unsigned int ix = 0; ix < m_nx; ix++) {
+    for (unsigned int iy = 0; iy < m_ny; iy++) {
+      myMean += v[ix][iy];
+    }
+  }
+  myMean /= (m_nx * m_ny);
+  
+  double sqErrorSum = 0.;
+  double absErrorSum = 0.;
+  double sqDiffFromMeanSum = 0.;
+  double absValueSum = 0.;
+  for (unsigned int ix2 = 0; ix2 < m_nx; ix2++) {
+    for (unsigned int iy = 0; iy < m_ny; iy++) {
+      double diff = v[ix2][iy] - vComp[ix2][iy];
+      sqErrorSum += diff * diff;
+      absErrorSum += fabs(diff);
+      double diffFromMean = v[ix2][iy] - myMean;
+      sqDiffFromMeanSum += diffFromMean * diffFromMean;
+      absValueSum += fabs(v[ix2][iy]);
+    }
+  }
+  
+  d = ::sqrt (sqErrorSum / sqDiffFromMeanSum);
+  r = absErrorSum / absValueSum;
+  
+  int hx = m_nx / 2;
+  int hy = m_ny / 2;
+  double eMax = -1;
+  for (int ix3 = 0; ix3 < hx; ix3++) {
+    for (int iy = 0; iy < hy; iy++) {
+      double avgPixel = 0.25 * (v[2*ix3][2*iy] + v[2*ix3+1][2*iy] + v[2*ix3][2*iy+1] + v[2*ix3+1][2*iy+1]);
+      double avgPixelComp = 0.25 * (vComp[2*ix3][2*iy] + vComp[2*ix3+1][2*iy] + vComp[2*ix3][2*iy+1] + vComp[2*ix3+1][2*iy+1]);
+      double error = fabs (avgPixel - avgPixelComp);
+      if (error > eMax)
+        eMax = error;
+    }
+  }
+  
+  e = eMax;
+  
+  return true;
 }
 
-Array2dFileLabel::~Array2dFileLabel()
+
+bool
+ImageFile::printComparativeStatistics (const ImageFile& imComp, std::ostream& os) const
 {
+  double d, r, e;
+  
+  if (comparativeStatistics (imComp, d, r, e)) {
+    os << "  Normalized root mean squared distance (d): " << d << std::endl;
+    os << "      Normalized mean absolute distance (r): " << r << std::endl;
+    os << "Worst case distance (2x2 pixel average) (e): " << e << std::endl;
+    return true;
+  }
+  return false;
 }
 
-const string& 
-Array2dFileLabel::getDateString (void) const
+
+void
+ImageFile::printStatistics (std::ostream& os) const
 {
-  ostringstream oss;
-  oss <<  m_month <<"/"<< m_day <<"/"<< m_year << " " << m_hour <<":"<<  m_minute <<":"<< m_second;
-  m_strDate = oss.str();
-  return m_strDate;
+  double min, max, mean, mode, median, stddev;
+  
+  statistics (min, max, mean, mode, median, stddev);\r
+  if (isComplex())\r
+    os << "Real Component Statistics" << std::endl;\r
+  
+  os << "   min: " << min << std::endl;
+  os << "   max: " << max << std::endl;
+  os << "  mean: " << mean << std::endl;
+  os << "  mode: " << mode << std::endl;
+  os << "median: " << median << std::endl;
+  os << "stddev: " << stddev << std::endl;\r
+  \r
+  if (isComplex()) {\r
+    statistics (getImaginaryArray(), min, max, mean, mode, median, stddev);\r
+    os << std::endl << "Imaginary Component Statistics" << std::endl;
+    os << "   min: " << min << std::endl;\r
+    os << "   max: " << max << std::endl;\r
+    os << "  mean: " << mean << std::endl;\r
+    os << "  mode: " << mode << std::endl;\r
+    os << "median: " << median << std::endl;\r
+    os << "stddev: " << stddev << std::endl;\r
+  }\r
 }
 
 
-/* FILE
- *   image.c                           Routines for managing images
- *
- * PROGRAMMER: Kevin Rosenberg
- * DATE:       Aug 1984
- *
- * FUNCTION
- *     Provides a set of routines for handling image files
- */
+void
+ImageFile::statistics (double& min, double& max, double& mean, double& mode, double& median, double& stddev) const
+{\r
+  ImageFileArrayConst v = getArray();\r
+  statistics (v, min, max, mean, mode, median, stddev);\r
+}
 
 
-void 
-image_filter_response (ImageFile& im, const DomainType domain, double bw, const FilterType filt_type, double filt_param, const int opt_trace)
+void\r
+ImageFile::statistics (ImageFileArrayConst v, double& min, double& max, double& mean, double& mode, double& median, double& stddev) const\r
+{\r
+  int nx = m_nx;\r
+  int ny = m_ny;\r
+  \r
+  if (v == NULL || nx == 0 || ny == 0)\r
+    return;\r
+  \r
+  std::vector<double> vecImage;\r
+  int iVec = 0;\r
+  vecImage.resize (nx * ny);\r
+  for (int ix = 0; ix < nx; ix++) {\r
+    for (int iy = 0; iy < ny; iy++)\r
+      vecImage[iVec++] = v[ix][iy];\r
+  }\r
+  \r
+  vectorNumericStatistics (vecImage, nx * ny, min, max, mean, mode, median, stddev);\r
+}\r
+\r
+void
+ImageFile::getMinMax (double& min, double& max) const
 {
-  int hx = im.nx() / 2;
-  int hy = im.ny() / 2;
-  ImageFileArray v = im.getArray();
-
-  for (int i = -hx; i <= hx; i++) {
-    for (int j = -hy; j <= hy; j++) {
-      double r = sqrt(i * i + j * j);
-      
-      if (domain == D_SPATIAL)
-       v[i+hx][j+hy] = filter_spatial_response_analytic (filt_type, r, bw, filt_param);
-      else
-       v[i+hx][j+hy] = filter_frequency_response (filt_type, r, bw, filt_param);
-      if (opt_trace >= TRACE_PHM)
-       printf ("r=%8.4f, v=%8.4f\n", r, v[i+hx][j+hy]);
+  int nx = m_nx;
+  int ny = m_ny;
+  ImageFileArrayConst v = getArray();
+  
+  if (v == NULL || nx == 0 || ny == 0)
+    return;
+  
+  min = v[0][0];
+  max = v[0][0];
+  for (int ix = 0; ix < nx; ix++) {
+    for (int iy = 0; iy < ny; iy++) {
+      if (v[ix][iy] > max)
+        max = v[ix][iy];
+      if (v[ix][iy] < min)
+        min = v[ix][iy];
     }
   }
 }
+\r
+bool\r
+ImageFile::convertRealToComplex ()\r
+{\r
+  if (dataType() != Array2dFile::DATA_TYPE_REAL)\r
+    return false;\r
+  \r
+  if (! reallocRealToComplex())\r
+    return false;\r
+  \r
+  ImageFileArray vImag = getImaginaryArray();\r
+  for (unsigned int ix = 0; ix < m_nx; ix++) {\r
+    ImageFileColumn vCol = vImag[ix];\r
+    for (unsigned int iy = 0; iy < m_ny; iy++)\r
+      *vCol++ = 0;\r
+  }\r
+  \r
+  return true;\r
+}\r
+\r
+bool\r
+ImageFile::convertComplexToReal ()\r
+{\r
+  if (dataType() != Array2dFile::DATA_TYPE_COMPLEX)\r
+    return false;\r
+  \r
+  ImageFileArray vReal = getArray();\r
+  ImageFileArray vImag = getImaginaryArray();\r
+  for (unsigned int ix = 0; ix < m_nx; ix++) {\r
+    ImageFileColumn vRealCol = vReal[ix];\r
+    ImageFileColumn vImagCol = vImag[ix];\r
+    for (unsigned int iy = 0; iy < m_ny; iy++) {\r
+      CTSimComplex c (*vRealCol, *vImagCol);\r
+      *vRealCol++ = std::abs (c);\r
+      vImagCol++;\r
+    }\r
+  }\r
+  \r
+  return reallocComplexToReal();\r
+}\r
+\r
+bool\r
+ImageFile::subtractImages (const ImageFile& rRHS, ImageFile& result) const\r
+{\r
+  if (m_nx != rRHS.nx() || m_ny != rRHS.ny() || m_nx != result.nx() || m_ny != result.ny()) {\r
+    sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::subtractImage]");\r
+    return false;\r
+  }\r
+  \r
+  if (isComplex() || rRHS.isComplex() && ! result.isComplex())\r
+    result.convertRealToComplex();\r
+\r
+  ImageFileArrayConst vLHS = getArray();\r
+  ImageFileArrayConst vLHSImag = getImaginaryArray();\r
+  ImageFileArrayConst vRHS = rRHS.getArray();\r
+  ImageFileArrayConst vRHSImag = rRHS.getImaginaryArray();\r
+  ImageFileArray vResult = result.getArray();\r
+  ImageFileArray vResultImag = result.getImaginaryArray();\r
+  \r
+  for (unsigned int ix = 0; ix < m_nx; ix++) {\r
+    for (unsigned int iy = 0; iy < m_ny; iy++) {\r
+      vResult[ix][iy] = vLHS[ix][iy] - vRHS[ix][iy];\r
+      if (result.isComplex()) {\r
+        vResultImag[ix][iy] = 0;\r
+        if (isComplex())\r
+          vResultImag[ix][iy] += vLHSImag[ix][iy];\r
+        if (rRHS.isComplex())\r
+          vResultImag[ix][iy] -= vRHSImag[ix][iy];\r
+      }\r
+    }\r
+  }\r
+    \r
+  return true;\r
+}\r
 
-int
-image_display (const ImageFile& im)
+bool\r
+ImageFile::addImages (const ImageFile& rRHS, ImageFile& result) const\r
+{\r
+  if (m_nx != rRHS.nx() || m_ny != rRHS.ny() || m_nx != result.nx() || m_ny != result.ny()) {\r
+    sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::subtractImage]");\r
+    return false;\r
+  }\r
+  \r
+  if (isComplex() || rRHS.isComplex() && ! result.isComplex())\r
+    result.convertRealToComplex();\r
+\r
+  ImageFileArrayConst vLHS = getArray();\r
+  ImageFileArrayConst vLHSImag = getImaginaryArray();\r
+  ImageFileArrayConst vRHS = rRHS.getArray();\r
+  ImageFileArrayConst vRHSImag = rRHS.getImaginaryArray();\r
+  ImageFileArray vResult = result.getArray();\r
+  ImageFileArray vResultImag = result.getImaginaryArray();\r
+  \r
+  for (unsigned int ix = 0; ix < m_nx; ix++) {\r
+    for (unsigned int iy = 0; iy < m_ny; iy++) {\r
+      vResult[ix][iy] = vLHS[ix][iy] + vRHS[ix][iy];\r
+      if (result.isComplex()) {\r
+        vResultImag[ix][iy] = 0;\r
+        if (isComplex())\r
+          vResultImag[ix][iy] += vLHSImag[ix][iy];\r
+        if (rRHS.isComplex())\r
+          vResultImag[ix][iy] += vRHSImag[ix][iy];\r
+      }\r
+    }\r
+  }\r
+  \r
+  return true;\r
+}\r
+\r
+bool\r
+ImageFile::multiplyImages (const ImageFile& rRHS, ImageFile& result) const\r
+{\r
+  if (m_nx != rRHS.nx() || m_ny != rRHS.ny() || m_nx != result.nx() || m_ny != result.ny()) {\r
+    sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::subtractImage]");\r
+    return false;\r
+  }\r
+  \r
+  if (isComplex() || rRHS.isComplex() && ! result.isComplex())\r
+    result.convertRealToComplex();\r
+\r
+  ImageFileArrayConst vLHS = getArray();\r
+  ImageFileArrayConst vLHSImag = getImaginaryArray();\r
+  ImageFileArrayConst vRHS = rRHS.getArray();\r
+  ImageFileArrayConst vRHSImag = rRHS.getImaginaryArray();\r
+  ImageFileArray vResult = result.getArray();\r
+  ImageFileArray vResultImag = result.getImaginaryArray();\r
+  \r
+  for (unsigned int ix = 0; ix < m_nx; ix++) {\r
+    for (unsigned int iy = 0; iy < m_ny; iy++) {\r
+      if (result.isComplex()) {\r
+        std::complex<double> cLHS (vLHS[ix][iy], 0);\r
+        if (isComplex())\r
+          cLHS.imag (vLHSImag[ix][iy]);\r
+        std::complex<double> cRHS (vRHS[ix][iy], 0);\r
+        if (rRHS.isComplex())\r
+          cRHS.imag (vRHSImag[ix][iy]);\r
+        std::complex<double> cResult = cLHS * cRHS;\r
+        vResult[ix][iy] = cResult.real();\r
+        vResultImag[ix][iy] = cResult.imag();\r
+      } else\r
+        vResult[ix][iy] = vLHS[ix][iy] * vRHS[ix][iy];\r
+    }\r
+  }\r
+  \r
+  \r
+  return true;\r
+}\r
+\r
+bool\r
+ImageFile::divideImages (const ImageFile& rRHS, ImageFile& result) const\r
+{\r
+  if (m_nx != rRHS.nx() || m_ny != rRHS.ny() || m_nx != result.nx() || m_ny != result.ny()) {\r
+    sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::subtractImage]");\r
+    return false;\r
+  }\r
+  \r
+  if (isComplex() || rRHS.isComplex() && ! result.isComplex())\r
+    result.convertRealToComplex();\r
+\r
+  ImageFileArrayConst vLHS = getArray();\r
+  ImageFileArrayConst vLHSImag = getImaginaryArray();\r
+  ImageFileArrayConst vRHS = rRHS.getArray();\r
+  ImageFileArrayConst vRHSImag = rRHS.getImaginaryArray();\r
+  ImageFileArray vResult = result.getArray();\r
+  ImageFileArray vResultImag = result.getImaginaryArray();\r
+  \r
+  for (unsigned int ix = 0; ix < m_nx; ix++) {\r
+    for (unsigned int iy = 0; iy < m_ny; iy++) {\r
+      if (result.isComplex()) {\r
+        std::complex<double> cLHS (vLHS[ix][iy], 0);\r
+        if (isComplex())\r
+          cLHS.imag (vLHSImag[ix][iy]);\r
+        std::complex<double> cRHS (vRHS[ix][iy], 0);\r
+        if (rRHS.isComplex())\r
+          cRHS.imag (vRHSImag[ix][iy]);\r
+        std::complex<double> cResult = cLHS / cRHS;\r
+        vResult[ix][iy] = cResult.real();\r
+        vResultImag[ix][iy] = cResult.imag();\r
+      } else {\r
+        if (vRHS != 0)\r
+          vResult[ix][iy] = vLHS[ix][iy] / vRHS[ix][iy];\r
+        else\r
+          vResult[ix][iy] = 0;\r
+      }\r
+    }\r
+  }\r
+  \r
+  \r
+  return true;\r
+}\r
+\r
+\r
+bool\r
+ImageFile::invertPixelValues (ImageFile& result) const\r
+{\r
+  if (m_nx != result.nx() || m_ny != result.ny()) {\r
+    sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");\r
+    return false;\r
+  }\r
+  \r
+  if (isComplex() && ! result.isComplex())\r
+    result.convertRealToComplex();\r
+\r
+  ImageFileArrayConst vLHS = getArray();\r
+  ImageFileArray vResult = result.getArray();\r
+  \r
+  for (unsigned int ix = 0; ix < m_nx; ix++) {\r
+    ImageFileColumnConst in = vLHS[ix];\r
+    ImageFileColumn out = vResult[ix];\r
+    for (unsigned int iy = 0; iy < m_ny; iy++)\r
+      *out++ = - *in++;\r
+  }\r
+  \r
+  return true;\r
+}\r
+\r
+bool\r
+ImageFile::sqrt (ImageFile& result) const\r
+{\r
+  if (m_nx != result.nx() || m_ny != result.ny()) {\r
+    sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");\r
+    return false;\r
+  }\r
+\r
+  if (isComplex() && ! result.isComplex())\r
+    result.convertRealToComplex();\r
+  \r
+  bool bComplexOutput = result.isComplex();\r
+  ImageFileArrayConst vLHS = getArray();\r
+  if (! bComplexOutput)   // check if should convert to complex output\r
+    for (unsigned int ix = 0; ix < m_nx; ix++)\r
+      for (unsigned int iy = 0; iy < m_ny; iy++)\r
+        if (! bComplexOutput && vLHS[ix][iy] < 0) {\r
+          result.convertRealToComplex();\r
+          bComplexOutput = true;\r
+          break;\r
+        }\r
+\r
+  ImageFileArrayConst vLHSImag = getImaginaryArray();\r
+  ImageFileArray vResult = result.getArray();\r
+  ImageFileArray vResultImag = result.getImaginaryArray();\r
+  \r
+  for (unsigned int ix = 0; ix < m_nx; ix++) {\r
+    for (unsigned int iy = 0; iy < m_ny; iy++) {\r
+      if (result.isComplex()) {\r
+        std::complex<double> cLHS (vLHS[ix][iy], 0);\r
+        if (isComplex())\r
+          cLHS.imag (vLHSImag[ix][iy]);\r
+        std::complex<double> cResult = std::sqrt(cLHS);\r
+        vResult[ix][iy] = cResult.real();\r
+        vResultImag[ix][iy] = cResult.imag();\r
+      } else\r
+        vResult[ix][iy] = ::sqrt (vLHS[ix][iy]);\r
+    }\r
+  }\r
+  \r
+  \r
+  return true;\r
+}\r
+\r
+bool\r
+ImageFile::log (ImageFile& result) const\r
+{\r
+  if (m_nx != result.nx() || m_ny != result.ny()) {\r
+    sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");\r
+    return false;\r
+  }\r
+  \r
+  if (isComplex() && ! result.isComplex())\r
+    result.convertRealToComplex();\r
+\r
+  ImageFileArrayConst vLHS = getArray();\r
+  ImageFileArrayConst vLHSImag = getImaginaryArray();\r
+  ImageFileArray vResult = result.getArray();\r
+  ImageFileArray vResultImag = result.getImaginaryArray();\r
+  \r
+  for (unsigned int ix = 0; ix < m_nx; ix++) {\r
+    for (unsigned int iy = 0; iy < m_ny; iy++) {\r
+      if (result.isComplex()) {\r
+        std::complex<double> cLHS (vLHS[ix][iy], 0);\r
+        if (isComplex())\r
+          cLHS.imag (vLHSImag[ix][iy]);\r
+        std::complex<double> cResult = std::log (cLHS);\r
+        vResult[ix][iy] = cResult.real();\r
+        vResultImag[ix][iy] = cResult.imag();\r
+      } else\r
+        vResult[ix][iy] = ::log (vLHS[ix][iy]);\r
+    }\r
+  }\r
+  \r
+  \r
+  return true;\r
+}\r
+\r
+bool\r
+ImageFile::exp (ImageFile& result) const\r
+{\r
+  if (m_nx != result.nx() || m_ny != result.ny()) {\r
+    sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");\r
+    return false;\r
+  }\r
+    \r
+  if (isComplex() && ! result.isComplex())\r
+    result.convertRealToComplex();\r
+\r
+  ImageFileArrayConst vLHS = getArray();\r
+  ImageFileArrayConst vLHSImag = getImaginaryArray();\r
+  ImageFileArray vResult = result.getArray();\r
+  ImageFileArray vResultImag = result.getImaginaryArray();\r
+  \r
+  for (unsigned int ix = 0; ix < m_nx; ix++) {\r
+    for (unsigned int iy = 0; iy < m_ny; iy++) {\r
+      if (result.isComplex()) {\r
+        std::complex<double> cLHS (vLHS[ix][iy], 0);\r
+        if (isComplex())\r
+          cLHS.imag (vLHSImag[ix][iy]);\r
+        std::complex<double> cResult = std::exp (cLHS);\r
+        vResult[ix][iy] = cResult.real();\r
+        vResultImag[ix][iy] = cResult.imag();\r
+      } else\r
+        vResult[ix][iy] = ::exp (vLHS[ix][iy]);\r
+    }\r
+  }\r
+  \r
+  \r
+  return true;\r
+}\r
+\r
+bool\r
+ImageFile::scaleImage (ImageFile& result) const\r
+{\r
+  unsigned int nx = m_nx;\r
+  unsigned int ny = m_ny;\r
+  unsigned int newNX = result.nx();\r
+  unsigned int newNY = result.ny();\r
+\r
+  double dXScale = static_cast<double>(newNX) / static_cast<double>(nx);\r
+  double dYScale = static_cast<double>(newNY) / static_cast<double>(ny);\r
+\r
+  if (isComplex() && ! result.isComplex())\r
+    result.convertRealToComplex();\r
+\r
+  ImageFileArrayConst vReal = getArray();\r
+  ImageFileArrayConst vImag = getImaginaryArray();\r
+  ImageFileArray vResult = result.getArray();\r
+  ImageFileArray vResultImag = result.getImaginaryArray();\r
+  \r
+  for (unsigned int ix = 0; ix < newNX; ix++) {\r
+    for (unsigned int iy = 0; iy < newNY; iy++) {\r
+      unsigned int scaleNX = static_cast<unsigned int> (ix / dXScale);\r
+      unsigned int scaleNY = static_cast<unsigned int> (iy / dYScale);\r
+      vResult[ix][iy] = vReal[scaleNX][scaleNY];\r
+      if (result.isComplex()) {\r
+        if (isComplex())\r
+          vResultImag[ix][iy] = vImag[scaleNX][scaleNY];\r
+        else\r
+        vResultImag[ix][iy] = 0;\r
+      }\r
+    }\r
+  }\r
+  \r
+  return true;\r
+}\r
+\r
+#ifdef HAVE_FFTW\r
+bool\r
+ImageFile::fft (ImageFile& result) const\r
+{\r
+  if (m_nx != result.nx() || m_ny != result.ny()) {\r
+    sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");\r
+    return false;\r
+  }\r
+\r
+  if (result.dataType() == Array2dFile::DATA_TYPE_REAL) {\r
+    if (! result.convertRealToComplex ())\r
+      return false;\r
+  }\r
+\r
+  fftw_complex* in = new fftw_complex [m_nx * m_ny];\r
+\r
+  ImageFileArrayConst vReal = getArray();\r
+  ImageFileArrayConst vImag = getImaginaryArray();\r
+\r
+  unsigned int ix, iy;\r
+  unsigned int iArray = 0;\r
+  for (ix = 0; ix < m_nx; ix++)\r
+    for (iy = 0; iy < m_ny; iy++) {\r
+      in[iArray].re = vReal[ix][iy];\r
+      if (isComplex())\r
+        in[iArray].im = vImag[ix][iy];\r
+      else\r
+        in[iArray].im = 0;\r
+      iArray++;\r
+    }\r
+\r
+  fftwnd_plan plan = fftw2d_create_plan (m_nx, m_ny, FFTW_FORWARD, FFTW_IN_PLACE);\r
+\r
+  fftwnd_one (plan, in, NULL);\r
+\r
+  ImageFileArray vRealResult = result.getArray();\r
+  ImageFileArray vImagResult = result.getImaginaryArray();\r
+  iArray = 0;\r
+  unsigned int iScale = m_nx * m_ny;\r
+  for (ix = 0; ix < m_nx; ix++)\r
+    for (iy = 0; iy < m_ny; iy++) {\r
+      vRealResult[ix][iy] = in[iArray].re / iScale;\r
+      vImagResult[ix][iy] = in[iArray].im / iScale;\r
+      iArray++;\r
+    }\r
+\r
+  fftwnd_destroy_plan (plan);\r
+  delete in;\r
+\r
+\r
+  Fourier::shuffleFourierToNaturalOrder (result);\r
+\r
+  return true;\r
+}\r
+\r
+\r
+bool\r
+ImageFile::ifft (ImageFile& result) const\r
+{\r
+  if (m_nx != result.nx() || m_ny != result.ny()) {\r
+    sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");\r
+    return false;\r
+  }\r
+\r
+  if (result.dataType() == Array2dFile::DATA_TYPE_REAL) {\r
+    if (! result.convertRealToComplex ())\r
+      return false;\r
+  }\r
+\r
+  ImageFileArrayConst vReal = getArray();\r
+  ImageFileArrayConst vImag = getImaginaryArray();\r
+  ImageFileArray vRealResult = result.getArray();\r
+  ImageFileArray vImagResult = result.getImaginaryArray();\r
+  unsigned int ix, iy;\r
+  for (ix = 0; ix < m_nx; ix++)\r
+    for (iy = 0; iy < m_ny; iy++) {\r
+      vRealResult[ix][iy] = vReal[ix][iy];\r
+      if (isComplex()) \r
+        vImagResult[ix][iy] = vImag[ix][iy];\r
+      else\r
+        vImagResult[ix][iy] = 0;\r
+    }\r
+\r
+  Fourier::shuffleNaturalToFourierOrder (result);\r
+\r
+  fftw_complex* in = new fftw_complex [m_nx * m_ny];\r
+\r
+  unsigned int iArray = 0;\r
+  for (ix = 0; ix < m_nx; ix++)\r
+    for (iy = 0; iy < m_ny; iy++) {\r
+      in[iArray].re = vRealResult[ix][iy];\r
+      in[iArray].im = vImagResult[ix][iy];\r
+      iArray++;\r
+    }\r
+\r
+  fftwnd_plan plan = fftw2d_create_plan (m_nx, m_ny, FFTW_BACKWARD, FFTW_IN_PLACE);\r
+\r
+  fftwnd_one (plan, in, NULL);\r
+\r
+  iArray = 0;\r
+  for (ix = 0; ix < m_nx; ix++)\r
+    for (iy = 0; iy < m_ny; iy++) {\r
+      vRealResult[ix][iy] = in[iArray].re;\r
+      vImagResult[ix][iy] = in[iArray].im;\r
+      iArray++;\r
+    }\r
+\r
+  fftwnd_destroy_plan (plan);\r
+\r
+  delete in;\r
+\r
+  return true;\r
+}\r
+#endif // HAVE_FFTW\r
+\r
+\r
+  \r
+bool\r
+ImageFile::fourier (ImageFile& result) const\r
+{\r
+  if (m_nx != result.nx() || m_ny != result.ny()) {\r
+    sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");\r
+    return false;\r
+  }\r
+  \r
+  if (! result.isComplex())\r
+    if (! result.convertRealToComplex ())\r
+      return false;\r
+  \r
+  ImageFileArrayConst vLHS = getArray();\r
+  ImageFileArrayConst vLHSImag = getImaginaryArray();\r
+  ImageFileArray vRealResult = result.getArray();\r
+  ImageFileArray vImagResult = result.getImaginaryArray();\r
+  \r
+  unsigned int ix, iy;\r
+\r
+  // alloc output matrix\r
+  CTSimComplex** complexOut = new CTSimComplex* [m_nx];\r
+  for (ix = 0; ix < m_nx; ix++)\r
+    complexOut[ix] = new CTSimComplex [m_ny];\r
+  \r
+  // fourier each x column\r
+#if 1\r
+  CTSimComplex* pY = new CTSimComplex [m_ny];\r
+  for (ix = 0; ix < m_nx; ix++) {\r
+    for (iy = 0; iy < m_ny; iy++) {\r
+      pY[iy].real (vLHS[ix][iy]);\r
+      if (isComplex())\r
+        pY[iy].imag (vLHSImag[ix][iy]);\r
+      else\r
+        pY[iy].imag (0);\r
+    } \r
+    ProcessSignal::finiteFourierTransform (pY, complexOut[ix], m_ny,  ProcessSignal::FORWARD);\r
+  }\r
+#else\r
+  double* pY = new double [m_ny];\r
+  for (ix = 0; ix < m_nx; ix++) {\r
+    for (iy = 0; iy < m_ny; iy++) {\r
+      pY[iy] = vLHS[ix][iy];\r
+    } \r
+    ProcessSignal::finiteFourierTransform (pY, complexOut[ix], m_ny,  ProcessSignal::FORWARD);\r
+  }\r
+#endif\r
+  delete [] pY;\r
+  \r
+  // fourier each y row\r
+  CTSimComplex* pX = new CTSimComplex [m_nx];\r
+  CTSimComplex* complexOutRow = new CTSimComplex [m_nx];\r
+  for (iy = 0; iy < m_ny; iy++) {\r
+    for (ix = 0; ix < m_nx; ix++)\r
+      pX[ix] = complexOut[ix][iy];\r
+    ProcessSignal::finiteFourierTransform (pX, complexOutRow, m_nx, ProcessSignal::FORWARD);\r
+    for (ix = 0; ix < m_nx; ix++)\r
+      complexOut[ix][iy] = complexOutRow[ix];\r
+  }\r
+  delete [] pX;\r
+  delete [] complexOutRow;\r
+\r
+  for (ix = 0; ix < m_nx; ix++)\r
+    for (iy = 0; iy < m_ny; iy++) {\r
+      vRealResult[ix][iy] = complexOut[ix][iy].real();\r
+      vImagResult[ix][iy] = complexOut[ix][iy].imag();\r
+    }\r
+    \r
+  Fourier::shuffleFourierToNaturalOrder (result);\r
+\r
+  // delete complexOut matrix\r
+  for (ix = 0; ix < m_nx; ix++)\r
+    delete [] complexOut[ix];\r
+  delete [] complexOut;\r
+    \r
+  return true;\r
+}\r
+\r
+bool\r
+ImageFile::inverseFourier (ImageFile& result) const\r
+{\r
+  if (m_nx != result.nx() || m_ny != result.ny()) {\r
+    sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");\r
+    return false;\r
+  }\r
+  \r
+  if (result.dataType() == Array2dFile::DATA_TYPE_REAL) {\r
+    if (! result.convertRealToComplex ())\r
+      return false;\r
+  }\r
+  \r
+  ImageFileArrayConst vLHSReal = getArray();\r
+  ImageFileArrayConst vLHSImag = getImaginaryArray();\r
+  ImageFileArray vRealResult = result.getArray();\r
+  ImageFileArray vImagResult = result.getImaginaryArray();\r
+  \r
+  unsigned int ix, iy;\r
+  // alloc 2d complex output matrix\r
+  CTSimComplex** complexOut = new CTSimComplex* [m_nx];\r
+  for (ix = 0; ix < m_nx; ix++)\r
+    complexOut[ix] = new CTSimComplex [m_ny];\r
+\r
+  // put input image into result\r
+  for (ix = 0; ix < m_nx; ix++)\r
+    for (iy = 0; iy < m_ny; iy++) {\r
+      vRealResult[ix][iy] = vLHSReal[ix][iy];\r
+      if (isComplex())\r
+        vImagResult[ix][iy] = vLHSImag[ix][iy];\r
+      else\r
+        vImagResult[ix][iy] = 0;\r
+    }\r
+\r
+  Fourier::shuffleNaturalToFourierOrder (result);\r
+\r
+  // ifourier each x column\r
+  CTSimComplex* pCol = new CTSimComplex [m_ny];\r
+  for (ix = 0; ix < m_nx; ix++) {\r
+    for (iy = 0; iy < m_ny; iy++) {\r
+      pCol[iy].real (vRealResult[ix][iy]);\r
+      pCol[iy].imag (vImagResult[ix][iy]);\r
+    }\r
+    ProcessSignal::finiteFourierTransform (pCol, complexOut[ix], m_ny,  ProcessSignal::BACKWARD);\r
+  }\r
+  delete [] pCol;\r
+\r
+  // ifourier each y row\r
+  CTSimComplex* complexInRow = new CTSimComplex [m_nx];\r
+  CTSimComplex* complexOutRow = new CTSimComplex [m_nx];\r
+  for (iy = 0; iy < m_ny; iy++) {\r
+    for (ix = 0; ix < m_nx; ix++)\r
+      complexInRow[ix] = complexOut[ix][iy];\r
+    ProcessSignal::finiteFourierTransform (complexInRow, complexOutRow, m_nx, ProcessSignal::BACKWARD);\r
+    for (ix = 0; ix < m_nx; ix++)\r
+      complexOut[ix][iy] = complexOutRow[ix];\r
+  }\r
+  delete [] complexInRow;\r
+  delete [] complexOutRow;\r
+\r
+  for (ix = 0; ix < m_nx; ix++)\r
+    for (iy = 0; iy < m_ny; iy++) {\r
+      vRealResult[ix][iy] = complexOut[ix][iy].real();\r
+      vImagResult[ix][iy] = complexOut[ix][iy].imag();\r
+    }\r
+    \r
+  // delete complexOut matrix\r
+  for (ix = 0; ix < m_nx; ix++)\r
+    delete [] complexOut[ix];\r
+  delete [] complexOut;\r
+    \r
+  return true;\r
+}\r
+\r
+\r
+bool\r
+ImageFile::magnitude (ImageFile& result) const\r
+{\r
+  if (m_nx != result.nx() || m_ny != result.ny()) {\r
+    sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");\r
+    return false;\r
+  }\r
+  \r
+  ImageFileArray vReal = getArray();\r
+  ImageFileArray vImag = getImaginaryArray();\r
+  ImageFileArray vRealResult = result.getArray();\r
+\r
+  for (unsigned int ix = 0; ix < m_nx; ix++)\r
+    for (unsigned int iy = 0; iy < m_ny; iy++) {\r
+      if (isComplex()) \r
+        vRealResult[ix][iy] = ::sqrt (vReal[ix][iy] * vReal[ix][iy] + vImag[ix][iy] * vImag[ix][iy]);\r
+      else\r
+        vRealResult[ix][iy] = vReal[ix][iy];\r
+    }\r
+\r
+  if (result.isComplex())\r
+    result.convertComplexToReal();\r
+  \r
+    return true;\r
+}\r
+\r
+bool\r
+ImageFile::phase (ImageFile& result) const\r
+{\r
+  if (m_nx != result.nx() || m_ny != result.ny()) {\r
+    sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");\r
+    return false;\r
+  }\r
+  \r
+  ImageFileArray vReal = getArray();\r
+  ImageFileArray vImag = getImaginaryArray();\r
+  ImageFileArray vRealResult = result.getArray();\r
+\r
+  for (unsigned int ix = 0; ix < m_nx; ix++)\r
+    for (unsigned int iy = 0; iy < m_ny; iy++) {\r
+      if (isComplex())\r
+        vRealResult[ix][iy] = ::atan2 (vImag[ix][iy], vReal[ix][iy]);\r
+      else\r
+        vRealResult[ix][iy] = 0;\r
+    }\r
+    \r
+  if (result.isComplex())\r
+    result.convertComplexToReal();\r
+  \r
+  return true;\r
+}\r
+\r
+bool\r
+ImageFile::square (ImageFile& result) const\r
+{\r
+  if (m_nx != result.nx() || m_ny != result.ny()) {\r
+    sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");\r
+    return false;\r
+  }\r
+  \r
+  if (isComplex() && ! result.isComplex())\r
+    result.convertRealToComplex();\r
+\r
+  ImageFileArrayConst vLHS = getArray();\r
+  ImageFileArrayConst vLHSImag = getImaginaryArray();\r
+  ImageFileArray vResult = result.getArray();\r
+  ImageFileArray vResultImag = result.getImaginaryArray();\r
+  \r
+  for (unsigned int ix = 0; ix < m_nx; ix++) {\r
+    for (unsigned int iy = 0; iy < m_ny; iy++) {\r
+      if (result.isComplex()) {\r
+        std::complex<double> cLHS (vLHS[ix][iy], 0);\r
+        if (isComplex())\r
+          cLHS.imag (vLHSImag[ix][iy]);\r
+        std::complex<double> cResult = cLHS * cLHS;\r
+        vResult[ix][iy] = cResult.real();\r
+        vResultImag[ix][iy] = cResult.imag();\r
+      } else\r
+        vResult[ix][iy] = vLHS[ix][iy] * vLHS[ix][iy];\r
+    }\r
+  }\r
+  \r
+  \r
+  return true;\r
+}\r
+\r
+int\r
+ImageFile::convertFormatNameToID (const char* const formatName)\r
+{\r
+  int formatID = FORMAT_INVALID;\r
+\r
+  for (int i = 0; i < s_iFormatCount; i++)\r
+      if (strcasecmp (formatName, s_aszFormatName[i]) == 0) {\r
+         formatID = i;\r
+         break;\r
+      }\r
+\r
+  return (formatID);\r
+}\r
+\r
+const char*\r
+ImageFile::convertFormatIDToName (int formatID)\r
+{\r
+  static const char *formatName = "";\r
+\r
+  if (formatID >= 0 && formatID < s_iFormatCount)\r
+      return (s_aszFormatName[formatID]);\r
+\r
+  return (formatName);\r
+}\r
+\r
+const char*\r
+ImageFile::convertFormatIDToTitle (const int formatID)\r
+{\r
+  static const char *formatTitle = "";\r
+\r
+  if (formatID >= 0 && formatID < s_iFormatCount)\r
+      return (s_aszFormatTitle[formatID]);\r
+\r
+  return (formatTitle);\r
+}\r
+\r
+bool\r
+ImageFile::exportImage (const char* const pszFormat, const char* const pszFilename, int nxcell, int nycell, double densmin, double densmax)\r
+{\r
+  int iFormatID = convertFormatNameToID (pszFormat);\r
+  if (iFormatID == FORMAT_INVALID) {\r
+    sys_error (ERR_SEVERE, "Invalid format %s [ImageFile::exportImage]", pszFormat);\r
+    return false;\r
+  }\r
+\r
+  if (iFormatID == FORMAT_PGM)\r
+    return writeImagePGM (pszFilename, nxcell, nycell, densmin, densmax);\r
+  else if (iFormatID == FORMAT_PGMASCII)\r
+    return writeImagePGMASCII (pszFilename, nxcell, nycell, densmin, densmax);\r
+  else if (iFormatID == FORMAT_PNG)\r
+    return writeImagePNG (pszFilename, 8, nxcell, nycell, densmin, densmax);\r
+  else if (iFormatID == FORMAT_PNG16)\r
+    return writeImagePNG (pszFilename, 16, nxcell, nycell, densmin, densmax);\r
+\r
+  sys_error (ERR_SEVERE, "Invalid format %s [ImageFile::exportImage]", pszFormat);\r
+  return false;\r
+}\r
+\r
+bool
+ImageFile::writeImagePGM (const char* const outfile, int nxcell, int nycell, double densmin, double densmax)
 {
-    ImageFileValue pmin, pmax;
-
-    im.getPixelValueRange (pmin, pmax);
-
-    return (image_display_scale (im, 1, pmin, pmax));
+  FILE *fp;
+  int nx = m_nx;
+  int ny = m_ny;
+  ImageFileArray v = getArray();
+  
+  unsigned char* rowp = new unsigned char [nx * nxcell];
+  
+  if ((fp = fopen (outfile, "wb")) == NULL)
+    return false;
+  
+  fprintf(fp, "P5\n");
+  fprintf(fp, "%d %d\n", nx, ny);
+  fprintf(fp, "255\n");
+  
+  for (int irow = ny - 1; irow >= 0; irow--) {
+    for (int icol = 0; icol < nx; icol++) {
+      int pos = icol * nxcell;
+      double dens = (v[icol][irow] - densmin) / (densmax - densmin);
+      dens = clamp (dens, 0., 1.);
+      for (int p = pos; p < pos + nxcell; p++) {
+        rowp[p] = static_cast<unsigned int> (dens * 255.);
+      }
+    }
+    for (int ir = 0; ir < nycell; ir++) {
+      for (int ic = 0; ic < nx * nxcell; ic++) 
+        fputc( rowp[ic], fp );
+    }
+  }
+  \r
+  delete rowp;
+  fclose(fp);\r
+\r
+  return true;
 }
 
-int image_display_scale (const ImageFile& im, const int scale, const double pmin, const double pmax)
+bool
+ImageFile::writeImagePGMASCII (const char* const outfile, int nxcell, int nycell, double densmin, double densmax)
 {
-    int grayscale[256];
-    int nx = im.nx();
-    int ny = im.ny();
-    ImageFileArray v = im.getArray();
-
-#if HAVE_G2_H
-    int* pens = new int [nx * ny * scale * scale ];
-
-    double view_scale = 255 / (pmax - pmin);
-    int id_X11 = g2_open_X11 (nx * scale, ny * scale);
-
-    for (int i = 0; i < 256; i++) {
-       double cval = i / 255.;
-       grayscale[i] = g2_ink (id_X11, cval, cval, cval);
+  FILE *fp;
+  int nx = m_nx;
+  int ny = m_ny;
+  ImageFileArray v = getArray();
+  
+  unsigned char* rowp = new unsigned char [nx * nxcell];
+  
+  if ((fp = fopen (outfile, "wb")) == NULL)
+    return false;
+  
+  fprintf(fp, "P2\n");
+  fprintf(fp, "%d %d\n", nx, ny);
+  fprintf(fp, "255\n");
+  
+  for (int irow = ny - 1; irow >= 0; irow--) {
+    for (int icol = 0; icol < nx; icol++) {
+      int pos = icol * nxcell;
+      double dens = (v[icol][irow] - densmin) / (densmax - densmin);
+      dens = clamp (dens, 0., 1.);
+      for (int p = pos; p < pos + nxcell; p++) {
+        rowp[p] = static_cast<unsigned int> (dens * 255.);
+      }
     }
-
-    for (int i= 0, iy = ny - 1; iy >= 0; iy--) {
-       for (int ix = 0; ix < nx; ix++) {
-           int cval = (int) ((v[ix][iy] - pmin) * view_scale);
-           if (cval < 0)  
-             cval = 0;
-           else if (cval > 255) 
-             cval = 255;
-           pens[i++] = grayscale[cval];
-       }
+    for (int ir = 0; ir < nycell; ir++) {
+      for (int ic = 0; ic < nx * nxcell; ic++) 
+        fprintf(fp, "%d ", rowp[ic]);
+      fprintf(fp, "\n");
     }
+  }
+  \r
+  delete rowp;
+  fclose(fp);\r
+\r
+  return true;
+}
 
-    g2_image (id_X11, 0., 0., nx, ny, pens);
-
-    delete [] pens;
-    return (id_X11);
 
-#endif
+#ifdef HAVE_PNG
+bool
+ImageFile::writeImagePNG (const char* const outfile, int bitdepth, int nxcell, int nycell, double densmin, double densmax)
+{
+  double max_out_level = (1 << bitdepth) - 1;
+  int nx = m_nx;
+  int ny = m_ny;
+  ImageFileArray v = getArray();
+  
+  unsigned char* rowp = new unsigned char [nx * nxcell * (bitdepth / 8)];
+  
+  FILE *fp = fopen (outfile, "wb");\r
+  if (! fp)
+    return false;
+  
+  png_structp png_ptr = png_create_write_struct (PNG_LIBPNG_VER_STRING, NULL, NULL, NULL);
+  if (! png_ptr)
+    return false;
+  
+  png_infop info_ptr = png_create_info_struct (png_ptr);
+  if (! info_ptr) {
+    png_destroy_write_struct (&png_ptr, (png_infopp) NULL);
+    fclose (fp);
+    return false;
+  }
+  
+  if (setjmp (png_ptr->jmpbuf)) {
+    png_destroy_write_struct (&png_ptr, &info_ptr);
+    fclose (fp);
+    return false;
+  }
+  
+  png_init_io(png_ptr, fp);
+  
+  png_set_IHDR (png_ptr, info_ptr, nx * nxcell, ny * nycell, bitdepth, PNG_COLOR_TYPE_GRAY, PNG_INTERLACE_NONE, PNG_COMPRESSION_TYPE_BASE, PNG_FILTER_TYPE_DEFAULT);
+  
+  png_write_info(png_ptr, info_ptr);
+  for (int irow = ny - 1; irow >= 0; irow--) {
+    png_bytep row_pointer = rowp;
+    
+    for (int icol = 0; icol < nx; icol++) {
+      int pos = icol * nxcell;
+      double dens = (v[icol][irow] - densmin) / (densmax - densmin);
+      dens = clamp (dens, 0., 1.);
+      unsigned int outval = static_cast<unsigned int> (dens * max_out_level);
+      
+      for (int p = pos; p < pos + nxcell; p++) {
+        if (bitdepth == 8)
+          rowp[p] = outval;
+        else {
+          int rowpos = p * 2;
+          rowp[rowpos] = (outval >> 8) & 0xFF;
+          rowp[rowpos+1] = (outval & 0xFF);
+        }
+      }
+    }
+    for (int ir = 0; ir < nycell; ir++)
+      png_write_rows (png_ptr, &row_pointer, 1);
+  }
+  
+  png_write_end (png_ptr, info_ptr);
+  png_destroy_write_struct (&png_ptr, &info_ptr);
+  delete rowp;\r
+  
+  fclose(fp);\r
+\r
+  return true;
 }
+#endif
 
+#ifdef HAVE_GD
+#include "gd.h"
+static const int N_GRAYSCALE=256;
 
-
+bool
+ImageFile::writeImageGIF (const char* const outfile, int nxcell, int nycell, double densmin, double densmax)
+{
+  int gs_indices[N_GRAYSCALE];
+  int nx = m_nx;
+  int ny = m_ny;
+  ImageFileArray v = getArray();
+  
+  unsigned char* rowp = new unsigned char [nx * nxcell];
+  
+  gdImagePtr gif = gdImageCreate(nx * nxcell, ny * nycell);
+  for (int i = 0; i < N_GRAYSCALE; i++)
+    gs_indices[i] = gdImageColorAllocate(gif, i, i, i);
+  
+  int lastrow = ny * nycell - 1;
+  for (int irow = 0; irow < ny; irow++) {
+    int rpos = irow * nycell;
+    for (int ir = rpos; ir < rpos + nycell; ir++) {
+      for (int icol = 0; icol < nx; icol++) {
+        int cpos = icol * nxcell;
+        double dens = (v[icol][irow] - densmin) / (densmax - densmin);
+        dens = clamp(dens, 0., 1.);
+        for (int ic = cpos; ic < cpos + nxcell; ic++) {
+          rowp[ic] = (unsigned int) (dens * (double) (N_GRAYSCALE - 1));
+          gdImageSetPixel(gif, ic, lastrow - ir, gs_indices[rowp[ic]]);
+        }
+      }
+    }
+  }
+  
+  FILE *out;\r
+  if ((out = fopen (outfile,"w")) == NULL) {
+    sys_error(ERR_FATAL, "Error opening output file %s for writing", outfile);
+    return false;
+  }
+  gdImageGif(gif,out);
+  fclose(out);
+  gdImageDestroy(gif);\r
+\r
+  delete rowp;\r
+\r
+  return true;
+}
+#endif