** This is part of the CTSim program
** Copyright (C) 1983-2000 Kevin Rosenberg
**
-** $Id: imagefile.cpp,v 1.31 2001/01/02 08:15:02 kevin Exp $
+** $Id: imagefile.cpp,v 1.36 2001/01/12 16:41:56 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
#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
-
-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
+const int ImageFile::FORMAT_INVALID = -1;
+const int ImageFile::FORMAT_PGM = 0;
+const int ImageFile::FORMAT_PGMASCII = 1;
+#ifdef HAVE_PNG
+const int ImageFile::FORMAT_PNG = 2;
+const int ImageFile::FORMAT_PNG16 = 3;
+#endif
+
+const char* ImageFile::s_aszFormatName[] =
+{
+ {"pgm"},
+ {"pgmascii"},
+#ifdef HAVE_PNG
+ {"png"},
+ {"png16"},
+#endif
+};
+
+const char* ImageFile::s_aszFormatTitle[] =
+{
+ {"PGM"},
+ {"PGM ASCII"},
+ {"PNG"},
+ {"PNG 16-bit"},
+};
+
+const int ImageFile::s_iFormatCount = sizeof(s_aszFormatName) / sizeof(const char*);
+
+
+
+F32Image::F32Image (int nx, int ny, int dataType)
+: Array2dFile (nx, ny, sizeof(kfloat32), Array2dFile::PIXEL_FLOAT32, dataType)
+{
+}
+
+F32Image::F32Image (void)
+: Array2dFile()
+{
+ setPixelFormat (Array2dFile::PIXEL_FLOAT32);
+ setPixelSize (sizeof(kfloat32));
+ setDataType (Array2dFile::DATA_TYPE_REAL);
+}
+
+F64Image::F64Image (int nx, int ny, int dataType)
+: Array2dFile (nx, ny, sizeof(kfloat64), Array2dFile::PIXEL_FLOAT64, dataType)
+{
+}
+
+F64Image::F64Image (void)
+: Array2dFile ()
+{
+ setPixelFormat (PIXEL_FLOAT64);
+ setPixelSize (sizeof(kfloat64));
+ setDataType (Array2dFile::DATA_TYPE_REAL);
+}
+
+void
+ImageFile::getCenterCoordinates (unsigned int& iXCenter, unsigned int& iYCenter)
+{
+ if (isEven (m_nx))
+ iXCenter = m_nx / 2;
+ else
+ iXCenter = (m_nx - 1) / 2;
+
+ if (isEven (m_ny))
+ iYCenter = m_ny / 2;
+ else
+ iYCenter = (m_ny - 1) / 2;
+}
+
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 (unsigned int ix = 0; ix < m_nx; ix++)\r
- for (unsigned 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
+{
+ ImageFileArray v = getArray();
+ SignalFilter filter (filterName, domainName, bw, filt_param);
+
+ unsigned int iXCenter, iYCenter;
+ getCenterCoordinates (iXCenter, iYCenter);
+
+ for (unsigned int ix = 0; ix < m_nx; ix++)
+ for (unsigned int iy = 0; iy < m_ny; iy++) {
+ long lD2 = ((ix - iXCenter) * (ix - iXCenter)) + ((iy - iYCenter) * (iy - iYCenter));
+ double r = ::sqrt (static_cast<double>(lD2)) * dInputScale;
+ v[ix][iy] = filter.response (r) * dOutputScale;
+ }
}
int
{
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
+ statistics (min, max, mean, mode, median, stddev);
+ if (isComplex())
+ os << "Real Component Statistics" << std::endl;
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 << "stddev: " << stddev << std::endl;
+
+ if (isComplex()) {
+ statistics (getImaginaryArray(), min, max, mean, mode, median, stddev);
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
+ 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;
+ }
}
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
+{
+ ImageFileArrayConst v = getArray();
+ statistics (v, min, max, mean, mode, median, stddev);
}
-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::statistics (ImageFileArrayConst v, double& min, double& max, double& mean, double& mode, double& median, double& stddev) const
+{
+ int nx = m_nx;
+ int ny = m_ny;
+
+ if (v == NULL || nx == 0 || ny == 0)
+ return;
+
+ std::vector<double> vecImage;
+ int iVec = 0;
+ vecImage.resize (nx * ny);
+ for (int ix = 0; ix < nx; ix++) {
+ for (int iy = 0; iy < ny; iy++)
+ vecImage[iVec++] = v[ix][iy];
+ }
+
+ vectorNumericStatistics (vecImage, nx * ny, min, max, mean, mode, median, stddev);
+}
+
void
ImageFile::getMinMax (double& min, double& max) const
{
}
}
}
-\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
-
-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
- double dImag = 0;\r
- if (isComplex())\r
- dImag = vLHSImag[ix][iy];\r
- std::complex<double> cLHS (vLHS[ix][iy], dImag);\r
- dImag = 0;\r
- if (rRHS.isComplex())\r
- dImag = vRHSImag[ix][iy];\r
- std::complex<double> cRHS (vRHS[ix][iy], dImag);\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
- double dImag = 0;\r
- if (isComplex())\r
- dImag = vLHSImag[ix][iy];\r
- std::complex<double> cLHS (vLHS[ix][iy], dImag);\r
- dImag = 0;\r
- if (rRHS.isComplex())\r
- dImag = vRHSImag[ix][iy];\r
- std::complex<double> cRHS (vRHS[ix][iy], dImag);\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
- 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
- double dImag = 0;\r
- if (isComplex())\r
- dImag = vLHSImag[ix][iy];\r
- std::complex<double> cLHS (vLHS[ix][iy], dImag);\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
- double dImag = 0;\r
- if (isComplex())\r
- dImag = vLHSImag[ix][iy];\r
- std::complex<double> cLHS (vLHS[ix][iy], dImag);\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
- double dImag = 0;\r
- if (isComplex())\r
- dImag = vLHSImag[ix][iy];\r
- std::complex<double> cLHS (vLHS[ix][iy], dImag);\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
- double dXPos = ix / dXScale;\r
- double dYPos = iy / dYScale;\r
- unsigned int scaleNX = static_cast<unsigned int> (dXPos);\r
- unsigned int scaleNY = static_cast<unsigned int> (dYPos);\r
- double dXFrac = dXPos - scaleNX;\r
- double dYFrac = dYPos - scaleNY;\r
- if (scaleNX >= nx - 1 || scaleNY >= ny - 1) {\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
- } else {\r
- vResult[ix][iy] = vReal[scaleNX][scaleNY] + \r
- dXFrac * (vReal[scaleNX+1][scaleNY] - vReal[scaleNX][scaleNY]) + \r
- dYFrac * (vReal[scaleNX][scaleNY+1] - vReal[scaleNX][scaleNY]);\r
- if (result.isComplex()) {\r
- if (isComplex())\r
- vResultImag[ix][iy] = vImag[scaleNX][scaleNY] + \r
- dXFrac * (vImag[scaleNX+1][scaleNY] - vImag[scaleNX][scaleNY]) + \r
- dYFrac * (vImag[scaleNX][scaleNY+1] - vImag[scaleNX][scaleNY]);\r
- else\r
- vResultImag[ix][iy] = 0;\r
- }\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
- CTSimComplex* pY = new CTSimComplex [m_ny];\r
- for (ix = 0; ix < m_nx; ix++) {\r
- for (iy = 0; iy < m_ny; iy++) {\r
- double dImag = 0;\r
- if (isComplex())\r
- dImag = vLHSImag[ix][iy];\r
- pY[iy] = std::complex<double>(vLHS[ix][iy], dImag);\r
- } \r
- ProcessSignal::finiteFourierTransform (pY, complexOut[ix], m_ny, ProcessSignal::FORWARD);\r
- }\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] = std::complex<double> (vRealResult[ix][iy], 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
- double dImag = 0;\r
- if (isComplex())\r
- dImag = vLHSImag[ix][iy];\r
- std::complex<double> cLHS (vLHS[ix][iy], dImag);\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::convertRealToComplex ()
+{
+ if (dataType() != Array2dFile::DATA_TYPE_REAL)
+ return false;
+
+ if (! reallocRealToComplex())
+ return false;
+
+ ImageFileArray vImag = getImaginaryArray();
+ for (unsigned int ix = 0; ix < m_nx; ix++) {
+ ImageFileColumn vCol = vImag[ix];
+ for (unsigned int iy = 0; iy < m_ny; iy++)
+ *vCol++ = 0;
+ }
+
+ return true;
+}
+
+bool
+ImageFile::convertComplexToReal ()
+{
+ if (dataType() != Array2dFile::DATA_TYPE_COMPLEX)
+ return false;
+
+ ImageFileArray vReal = getArray();
+ ImageFileArray vImag = getImaginaryArray();
+ for (unsigned int ix = 0; ix < m_nx; ix++) {
+ ImageFileColumn vRealCol = vReal[ix];
+ ImageFileColumn vImagCol = vImag[ix];
+ for (unsigned int iy = 0; iy < m_ny; iy++) {
+ CTSimComplex c (*vRealCol, *vImagCol);
+ *vRealCol++ = std::abs (c);
+ vImagCol++;
+ }
+ }
+
+ return reallocComplexToReal();
+}
+
+bool
+ImageFile::subtractImages (const ImageFile& rRHS, ImageFile& result) const
+{
+ if (m_nx != rRHS.nx() || m_ny != rRHS.ny() || m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::subtractImage]");
+ return false;
+ }
+
+ if (isComplex() || rRHS.isComplex() && ! result.isComplex())
+ result.convertRealToComplex();
+
+ ImageFileArrayConst vLHS = getArray();
+ ImageFileArrayConst vLHSImag = getImaginaryArray();
+ ImageFileArrayConst vRHS = rRHS.getArray();
+ ImageFileArrayConst vRHSImag = rRHS.getImaginaryArray();
+ ImageFileArray vResult = result.getArray();
+ ImageFileArray vResultImag = result.getImaginaryArray();
+
+ for (unsigned int ix = 0; ix < m_nx; ix++) {
+ for (unsigned int iy = 0; iy < m_ny; iy++) {
+ vResult[ix][iy] = vLHS[ix][iy] - vRHS[ix][iy];
+ if (result.isComplex()) {
+ vResultImag[ix][iy] = 0;
+ if (isComplex())
+ vResultImag[ix][iy] += vLHSImag[ix][iy];
+ if (rRHS.isComplex())
+ vResultImag[ix][iy] -= vRHSImag[ix][iy];
+ }
+ }
+ }
+
+ return true;
+}
+
+bool
+ImageFile::addImages (const ImageFile& rRHS, ImageFile& result) const
+{
+ if (m_nx != rRHS.nx() || m_ny != rRHS.ny() || m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::subtractImage]");
+ return false;
+ }
+
+ if (isComplex() || rRHS.isComplex() && ! result.isComplex())
+ result.convertRealToComplex();
+
+ ImageFileArrayConst vLHS = getArray();
+ ImageFileArrayConst vLHSImag = getImaginaryArray();
+ ImageFileArrayConst vRHS = rRHS.getArray();
+ ImageFileArrayConst vRHSImag = rRHS.getImaginaryArray();
+ ImageFileArray vResult = result.getArray();
+ ImageFileArray vResultImag = result.getImaginaryArray();
+
+ for (unsigned int ix = 0; ix < m_nx; ix++) {
+ for (unsigned int iy = 0; iy < m_ny; iy++) {
+ vResult[ix][iy] = vLHS[ix][iy] + vRHS[ix][iy];
+ if (result.isComplex()) {
+ vResultImag[ix][iy] = 0;
+ if (isComplex())
+ vResultImag[ix][iy] += vLHSImag[ix][iy];
+ if (rRHS.isComplex())
+ vResultImag[ix][iy] += vRHSImag[ix][iy];
+ }
+ }
+ }
+
+ return true;
+}
+
+bool
+ImageFile::multiplyImages (const ImageFile& rRHS, ImageFile& result) const
+{
+ if (m_nx != rRHS.nx() || m_ny != rRHS.ny() || m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::subtractImage]");
+ return false;
+ }
+
+ if (isComplex() || rRHS.isComplex() && ! result.isComplex())
+ result.convertRealToComplex();
+
+ ImageFileArrayConst vLHS = getArray();
+ ImageFileArrayConst vLHSImag = getImaginaryArray();
+ ImageFileArrayConst vRHS = rRHS.getArray();
+ ImageFileArrayConst vRHSImag = rRHS.getImaginaryArray();
+ ImageFileArray vResult = result.getArray();
+ ImageFileArray vResultImag = result.getImaginaryArray();
+
+ for (unsigned int ix = 0; ix < m_nx; ix++) {
+ for (unsigned int iy = 0; iy < m_ny; iy++) {
+ if (result.isComplex()) {
+ double dImag = 0;
+ if (isComplex())
+ dImag = vLHSImag[ix][iy];
+ std::complex<double> cLHS (vLHS[ix][iy], dImag);
+ dImag = 0;
+ if (rRHS.isComplex())
+ dImag = vRHSImag[ix][iy];
+ std::complex<double> cRHS (vRHS[ix][iy], dImag);
+ std::complex<double> cResult = cLHS * cRHS;
+ vResult[ix][iy] = cResult.real();
+ vResultImag[ix][iy] = cResult.imag();
+ } else
+ vResult[ix][iy] = vLHS[ix][iy] * vRHS[ix][iy];
+ }
+ }
+
+
+ return true;
+}
+
+bool
+ImageFile::divideImages (const ImageFile& rRHS, ImageFile& result) const
+{
+ if (m_nx != rRHS.nx() || m_ny != rRHS.ny() || m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::subtractImage]");
+ return false;
+ }
+
+ if (isComplex() || rRHS.isComplex() && ! result.isComplex())
+ result.convertRealToComplex();
+
+ ImageFileArrayConst vLHS = getArray();
+ ImageFileArrayConst vLHSImag = getImaginaryArray();
+ ImageFileArrayConst vRHS = rRHS.getArray();
+ ImageFileArrayConst vRHSImag = rRHS.getImaginaryArray();
+ ImageFileArray vResult = result.getArray();
+ ImageFileArray vResultImag = result.getImaginaryArray();
+
+ for (unsigned int ix = 0; ix < m_nx; ix++) {
+ for (unsigned int iy = 0; iy < m_ny; iy++) {
+ if (result.isComplex()) {
+ double dImag = 0;
+ if (isComplex())
+ dImag = vLHSImag[ix][iy];
+ std::complex<double> cLHS (vLHS[ix][iy], dImag);
+ dImag = 0;
+ if (rRHS.isComplex())
+ dImag = vRHSImag[ix][iy];
+ std::complex<double> cRHS (vRHS[ix][iy], dImag);
+ std::complex<double> cResult = cLHS / cRHS;
+ vResult[ix][iy] = cResult.real();
+ vResultImag[ix][iy] = cResult.imag();
+ } else {
+ if (vRHS != 0)
+ vResult[ix][iy] = vLHS[ix][iy] / vRHS[ix][iy];
+ else
+ vResult[ix][iy] = 0;
+ }
+ }
+ }
+
+ return true;
+}
+
+
+bool
+ImageFile::invertPixelValues (ImageFile& result) const
+{
+ if (m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");
+ return false;
+ }
+
+ if (isComplex() && ! result.isComplex())
+ result.convertRealToComplex();
+
+ ImageFileArrayConst vLHS = getArray();
+ ImageFileArray vResult = result.getArray();
+
+ for (unsigned int ix = 0; ix < m_nx; ix++) {
+ ImageFileColumnConst in = vLHS[ix];
+ ImageFileColumn out = vResult[ix];
+ for (unsigned int iy = 0; iy < m_ny; iy++)
+ *out++ = - *in++;
+ }
+
+ return true;
+}
+
+bool
+ImageFile::sqrt (ImageFile& result) const
+{
+ if (m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");
+ return false;
+ }
+
+ if (isComplex() && ! result.isComplex())
+ result.convertRealToComplex();
+
+ bool bComplexOutput = result.isComplex();
+ ImageFileArrayConst vLHS = getArray();
+ if (! bComplexOutput) // check if should convert to complex output
+ for (unsigned int ix = 0; ix < m_nx; ix++)
+ for (unsigned int iy = 0; iy < m_ny; iy++)
+ if (! bComplexOutput && vLHS[ix][iy] < 0) {
+ result.convertRealToComplex();
+ bComplexOutput = true;
+ break;
+ }
+
+ ImageFileArrayConst vLHSImag = getImaginaryArray();
+ ImageFileArray vResult = result.getArray();
+ ImageFileArray vResultImag = result.getImaginaryArray();
+
+ for (unsigned int ix = 0; ix < m_nx; ix++) {
+ for (unsigned int iy = 0; iy < m_ny; iy++) {
+ if (result.isComplex()) {
+ double dImag = 0;
+ if (isComplex())
+ dImag = vLHSImag[ix][iy];
+ std::complex<double> cLHS (vLHS[ix][iy], dImag);
+ std::complex<double> cResult = std::sqrt(cLHS);
+ vResult[ix][iy] = cResult.real();
+ vResultImag[ix][iy] = cResult.imag();
+ } else
+ vResult[ix][iy] = ::sqrt (vLHS[ix][iy]);
+ }
+ }
+
+
+ return true;
+}
+
+bool
+ImageFile::log (ImageFile& result) const
+{
+ if (m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");
+ return false;
+ }
+
+ if (isComplex() && ! result.isComplex())
+ result.convertRealToComplex();
+
+ ImageFileArrayConst vLHS = getArray();
+ ImageFileArrayConst vLHSImag = getImaginaryArray();
+ ImageFileArray vResult = result.getArray();
+ ImageFileArray vResultImag = result.getImaginaryArray();
+
+ for (unsigned int ix = 0; ix < m_nx; ix++) {
+ for (unsigned int iy = 0; iy < m_ny; iy++) {
+ if (result.isComplex()) {
+ double dImag = 0;
+ if (isComplex())
+ dImag = vLHSImag[ix][iy];
+ std::complex<double> cLHS (vLHS[ix][iy], dImag);
+ std::complex<double> cResult = std::log (cLHS);
+ vResult[ix][iy] = cResult.real();
+ vResultImag[ix][iy] = cResult.imag();
+ } else
+ vResult[ix][iy] = ::log (vLHS[ix][iy]);
+ }
+ }
+
+
+ return true;
+}
+
+bool
+ImageFile::exp (ImageFile& result) const
+{
+ if (m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");
+ return false;
+ }
+
+ if (isComplex() && ! result.isComplex())
+ result.convertRealToComplex();
+
+ ImageFileArrayConst vLHS = getArray();
+ ImageFileArrayConst vLHSImag = getImaginaryArray();
+ ImageFileArray vResult = result.getArray();
+ ImageFileArray vResultImag = result.getImaginaryArray();
+
+ for (unsigned int ix = 0; ix < m_nx; ix++) {
+ for (unsigned int iy = 0; iy < m_ny; iy++) {
+ if (result.isComplex()) {
+ double dImag = 0;
+ if (isComplex())
+ dImag = vLHSImag[ix][iy];
+ std::complex<double> cLHS (vLHS[ix][iy], dImag);
+ std::complex<double> cResult = std::exp (cLHS);
+ vResult[ix][iy] = cResult.real();
+ vResultImag[ix][iy] = cResult.imag();
+ } else
+ vResult[ix][iy] = ::exp (vLHS[ix][iy]);
+ }
+ }
+
+
+ return true;
+}
+
+bool
+ImageFile::scaleImage (ImageFile& result) const
+{
+ unsigned int nx = m_nx;
+ unsigned int ny = m_ny;
+ unsigned int newNX = result.nx();
+ unsigned int newNY = result.ny();
+
+ double dXScale = static_cast<double>(newNX) / static_cast<double>(nx);
+ double dYScale = static_cast<double>(newNY) / static_cast<double>(ny);
+
+ if (isComplex() && ! result.isComplex())
+ result.convertRealToComplex();
+
+ ImageFileArrayConst vReal = getArray();
+ ImageFileArrayConst vImag = getImaginaryArray();
+ ImageFileArray vResult = result.getArray();
+ ImageFileArray vResultImag = result.getImaginaryArray();
+
+ for (unsigned int ix = 0; ix < newNX; ix++) {
+ for (unsigned int iy = 0; iy < newNY; iy++) {
+ double dXPos = ix / dXScale;
+ double dYPos = iy / dYScale;
+ unsigned int scaleNX = static_cast<unsigned int> (dXPos);
+ unsigned int scaleNY = static_cast<unsigned int> (dYPos);
+ double dXFrac = dXPos - scaleNX;
+ double dYFrac = dYPos - scaleNY;
+ if (scaleNX >= nx - 1 || scaleNY >= ny - 1) {
+ vResult[ix][iy] = vReal[scaleNX][scaleNY];
+ if (result.isComplex()) {
+ if (isComplex())
+ vResultImag[ix][iy] = vImag[scaleNX][scaleNY];
+ else
+ vResultImag[ix][iy] = 0;
+ }
+ } else {
+ vResult[ix][iy] = (1 - dXFrac) * (1 - dYFrac) * vReal[scaleNX][scaleNY] +
+ dXFrac * (1 - dYFrac) * vReal[scaleNX+1][scaleNY] +
+ dYFrac * (1 - dXFrac) * vReal[scaleNX][scaleNY+1] +
+ dXFrac * dYFrac * vReal[scaleNX+1][scaleNY+1];
+ if (result.isComplex()) {
+ if (isComplex())
+ vResultImag[ix][iy] = (1 - dXFrac) * (1 - dYFrac) * vImag[scaleNX][scaleNY] +
+ dXFrac * (1 - dYFrac) * vImag[scaleNX+1][scaleNY] +
+ dYFrac * (1 - dXFrac) * vImag[scaleNX][scaleNY+1] +
+ dXFrac * dYFrac * vImag[scaleNX+1][scaleNY+1];
+ else
+ vResultImag[ix][iy] = 0;
+ }
+ }
+ }
+ }
+
+ return true;
+}
+
+#ifdef HAVE_FFTW
+bool
+ImageFile::fft (ImageFile& result) const
+{
+ if (m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");
+ return false;
+ }
+
+ if (result.dataType() == Array2dFile::DATA_TYPE_REAL) {
+ if (! result.convertRealToComplex ())
+ return false;
+ }
+
+ fftw_complex* in = new fftw_complex [m_nx * m_ny];
+
+ ImageFileArrayConst vReal = getArray();
+ ImageFileArrayConst vImag = getImaginaryArray();
+
+ unsigned int ix, iy;
+ unsigned int iArray = 0;
+ for (ix = 0; ix < m_nx; ix++)
+ for (iy = 0; iy < m_ny; iy++) {
+ in[iArray].re = vReal[ix][iy];
+ if (isComplex())
+ in[iArray].im = vImag[ix][iy];
+ else
+ in[iArray].im = 0;
+ iArray++;
+ }
+
+ fftwnd_plan plan = fftw2d_create_plan (m_nx, m_ny, FFTW_FORWARD, FFTW_IN_PLACE);
+
+ fftwnd_one (plan, in, NULL);
+
+ ImageFileArray vRealResult = result.getArray();
+ ImageFileArray vImagResult = result.getImaginaryArray();
+ iArray = 0;
+ unsigned int iScale = m_nx * m_ny;
+ for (ix = 0; ix < m_nx; ix++)
+ for (iy = 0; iy < m_ny; iy++) {
+ vRealResult[ix][iy] = in[iArray].re / iScale;
+ vImagResult[ix][iy] = in[iArray].im / iScale;
+ iArray++;
+ }
+
+ fftwnd_destroy_plan (plan);
+ delete in;
+
+
+ Fourier::shuffleFourierToNaturalOrder (result);
+
+ return true;
+}
+
+
+bool
+ImageFile::ifft (ImageFile& result) const
+{
+ if (m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");
+ return false;
+ }
+
+ if (result.dataType() == Array2dFile::DATA_TYPE_REAL) {
+ if (! result.convertRealToComplex ())
+ return false;
+ }
+
+ ImageFileArrayConst vReal = getArray();
+ ImageFileArrayConst vImag = getImaginaryArray();
+ ImageFileArray vRealResult = result.getArray();
+ ImageFileArray vImagResult = result.getImaginaryArray();
+ unsigned int ix, iy;
+ for (ix = 0; ix < m_nx; ix++)
+ for (iy = 0; iy < m_ny; iy++) {
+ vRealResult[ix][iy] = vReal[ix][iy];
+ if (isComplex())
+ vImagResult[ix][iy] = vImag[ix][iy];
+ else
+ vImagResult[ix][iy] = 0;
+ }
+
+ Fourier::shuffleNaturalToFourierOrder (result);
+
+ fftw_complex* in = new fftw_complex [m_nx * m_ny];
+
+ unsigned int iArray = 0;
+ for (ix = 0; ix < m_nx; ix++)
+ for (iy = 0; iy < m_ny; iy++) {
+ in[iArray].re = vRealResult[ix][iy];
+ in[iArray].im = vImagResult[ix][iy];
+ iArray++;
+ }
+
+ fftwnd_plan plan = fftw2d_create_plan (m_nx, m_ny, FFTW_BACKWARD, FFTW_IN_PLACE);
+
+ fftwnd_one (plan, in, NULL);
+
+ iArray = 0;
+ for (ix = 0; ix < m_nx; ix++)
+ for (iy = 0; iy < m_ny; iy++) {
+ vRealResult[ix][iy] = in[iArray].re;
+ vImagResult[ix][iy] = in[iArray].im;
+ iArray++;
+ }
+
+ fftwnd_destroy_plan (plan);
+
+ delete in;
+
+ return true;
+}
+
+bool
+ImageFile::fftRows (ImageFile& result) const
+{
+ if (m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::fftRows]");
+ return false;
+ }
+
+ if (result.dataType() == Array2dFile::DATA_TYPE_REAL) {
+ if (! result.convertRealToComplex ())
+ return false;
+ }
+
+ fftw_complex* in = new fftw_complex [m_nx];
+
+ ImageFileArrayConst vReal = getArray();
+ ImageFileArrayConst vImag = getImaginaryArray();
+
+ fftw_plan plan = fftw_create_plan (m_nx, FFTW_FORWARD, FFTW_IN_PLACE);
+ std::complex<double>* pcRow = new std::complex<double> [m_nx];
+
+ unsigned int ix, iy;
+ unsigned int iArray = 0;
+ for (iy = 0; iy < m_ny; iy++) {
+ for (ix = 0; ix < m_nx; ix++) {
+ in[ix].re = vReal[ix][iy];
+ if (isComplex())
+ in[ix].im = vImag[ix][iy];
+ else
+ in[ix].im = 0;
+ }
+
+ fftw_one (plan, in, NULL);
+
+ for (ix = 0; ix < m_nx; ix++)
+ pcRow[ix] = std::complex<double>(in[ix].re, in[ix].im);
+
+ Fourier::shuffleFourierToNaturalOrder (pcRow, m_nx);
+ for (ix = 0; ix < m_nx; ix++) {
+ vReal[ix][iy] = pcRow[ix].real();
+ vImag[ix][iy] = pcRow[ix].imag();
+ }
+ }
+ delete [] pcRow;
+
+ fftw_destroy_plan (plan);
+ delete in;
+
+ return true;
+}
+
+bool
+ImageFile::ifftRows (ImageFile& result) const
+{
+ if (m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::fftRows]");
+ return false;
+ }
+
+ if (result.dataType() == Array2dFile::DATA_TYPE_REAL) {
+ if (! result.convertRealToComplex ())
+ return false;
+ }
+
+ fftw_complex* in = new fftw_complex [m_nx];
+
+ ImageFileArrayConst vReal = getArray();
+ ImageFileArrayConst vImag = getImaginaryArray();
+
+ fftw_plan plan = fftw_create_plan (m_nx, FFTW_BACKWARD, FFTW_IN_PLACE);
+ std::complex<double>* pcRow = new std::complex<double> [m_nx];
+
+ unsigned int ix, iy;
+ unsigned int iArray = 0;
+ for (iy = 0; iy < m_ny; iy++) {
+ for (ix = 0; ix < m_nx; ix++) {
+ double dImag = 0;
+ if (isComplex())
+ dImag = vImag[ix][iy];
+ pcRow[ix] = std::complex<double> (vReal[ix][iy], dImag);
+ }
+
+ Fourier::shuffleNaturalToFourierOrder (pcRow, m_nx);
+
+ for (ix = 0; ix < m_nx; ix++) {
+ in[ix].re = pcRow[ix].real();
+ in[ix].im = pcRow[ix].imag();
+ }
+
+ fftw_one (plan, in, NULL);
+
+ for (ix = 0; ix < m_nx; ix++) {
+ vReal[ix][iy] = in[ix].re;
+ vImag[ix][iy] = in[ix].im;
+ }
+ }
+ delete [] pcRow;
+
+ fftw_destroy_plan (plan);
+ delete in;
+
+ return true;
+}
+
+bool
+ImageFile::fftCols (ImageFile& result) const
+{
+ return false;
+}
+
+bool
+ImageFile::ifftCols (ImageFile& result) const
+{
+ return false;
+}
+
+#endif // HAVE_FFTW
+
+
+
+bool
+ImageFile::fourier (ImageFile& result) const
+{
+ if (m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");
+ return false;
+ }
+
+ if (! result.isComplex())
+ if (! result.convertRealToComplex ())
+ return false;
+
+ ImageFileArrayConst vLHS = getArray();
+ ImageFileArrayConst vLHSImag = getImaginaryArray();
+ ImageFileArray vRealResult = result.getArray();
+ ImageFileArray vImagResult = result.getImaginaryArray();
+
+ unsigned int ix, iy;
+
+ // alloc output matrix
+ CTSimComplex** complexOut = new CTSimComplex* [m_nx];
+ for (ix = 0; ix < m_nx; ix++)
+ complexOut[ix] = new CTSimComplex [m_ny];
+
+ // fourier each x column
+ CTSimComplex* pY = new CTSimComplex [m_ny];
+ for (ix = 0; ix < m_nx; ix++) {
+ for (iy = 0; iy < m_ny; iy++) {
+ double dImag = 0;
+ if (isComplex())
+ dImag = vLHSImag[ix][iy];
+ pY[iy] = std::complex<double>(vLHS[ix][iy], dImag);
+ }
+ ProcessSignal::finiteFourierTransform (pY, complexOut[ix], m_ny, ProcessSignal::FORWARD);
+ }
+ delete [] pY;
+
+ // fourier each y row
+ CTSimComplex* pX = new CTSimComplex [m_nx];
+ CTSimComplex* complexOutRow = new CTSimComplex [m_nx];
+ for (iy = 0; iy < m_ny; iy++) {
+ for (ix = 0; ix < m_nx; ix++)
+ pX[ix] = complexOut[ix][iy];
+ ProcessSignal::finiteFourierTransform (pX, complexOutRow, m_nx, ProcessSignal::FORWARD);
+ for (ix = 0; ix < m_nx; ix++)
+ complexOut[ix][iy] = complexOutRow[ix];
+ }
+ delete [] pX;
+ delete [] complexOutRow;
+
+ for (ix = 0; ix < m_nx; ix++)
+ for (iy = 0; iy < m_ny; iy++) {
+ vRealResult[ix][iy] = complexOut[ix][iy].real();
+ vImagResult[ix][iy] = complexOut[ix][iy].imag();
+ }
+
+ Fourier::shuffleFourierToNaturalOrder (result);
+
+ // delete complexOut matrix
+ for (ix = 0; ix < m_nx; ix++)
+ delete [] complexOut[ix];
+ delete [] complexOut;
+
+ return true;
+}
+
+bool
+ImageFile::inverseFourier (ImageFile& result) const
+{
+ if (m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");
+ return false;
+ }
+
+ if (result.dataType() == Array2dFile::DATA_TYPE_REAL) {
+ if (! result.convertRealToComplex ())
+ return false;
+ }
+
+ ImageFileArrayConst vLHSReal = getArray();
+ ImageFileArrayConst vLHSImag = getImaginaryArray();
+ ImageFileArray vRealResult = result.getArray();
+ ImageFileArray vImagResult = result.getImaginaryArray();
+
+ unsigned int ix, iy;
+ // alloc 2d complex output matrix
+ CTSimComplex** complexOut = new CTSimComplex* [m_nx];
+ for (ix = 0; ix < m_nx; ix++)
+ complexOut[ix] = new CTSimComplex [m_ny];
+
+ // put input image into result
+ for (ix = 0; ix < m_nx; ix++)
+ for (iy = 0; iy < m_ny; iy++) {
+ vRealResult[ix][iy] = vLHSReal[ix][iy];
+ if (isComplex())
+ vImagResult[ix][iy] = vLHSImag[ix][iy];
+ else
+ vImagResult[ix][iy] = 0;
+ }
+
+ Fourier::shuffleNaturalToFourierOrder (result);
+
+ // ifourier each x column
+ CTSimComplex* pCol = new CTSimComplex [m_ny];
+ for (ix = 0; ix < m_nx; ix++) {
+ for (iy = 0; iy < m_ny; iy++) {
+ pCol[iy] = std::complex<double> (vRealResult[ix][iy], vImagResult[ix][iy]);
+ }
+ ProcessSignal::finiteFourierTransform (pCol, complexOut[ix], m_ny, ProcessSignal::BACKWARD);
+ }
+ delete [] pCol;
+
+ // ifourier each y row
+ CTSimComplex* complexInRow = new CTSimComplex [m_nx];
+ CTSimComplex* complexOutRow = new CTSimComplex [m_nx];
+ for (iy = 0; iy < m_ny; iy++) {
+ for (ix = 0; ix < m_nx; ix++)
+ complexInRow[ix] = complexOut[ix][iy];
+ ProcessSignal::finiteFourierTransform (complexInRow, complexOutRow, m_nx, ProcessSignal::BACKWARD);
+ for (ix = 0; ix < m_nx; ix++)
+ complexOut[ix][iy] = complexOutRow[ix];
+ }
+ delete [] complexInRow;
+ delete [] complexOutRow;
+
+ for (ix = 0; ix < m_nx; ix++)
+ for (iy = 0; iy < m_ny; iy++) {
+ vRealResult[ix][iy] = complexOut[ix][iy].real();
+ vImagResult[ix][iy] = complexOut[ix][iy].imag();
+ }
+
+ // delete complexOut matrix
+ for (ix = 0; ix < m_nx; ix++)
+ delete [] complexOut[ix];
+ delete [] complexOut;
+
+ return true;
+}
+
+
+bool
+ImageFile::magnitude (ImageFile& result) const
+{
+ if (m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");
+ return false;
+ }
+
+ ImageFileArray vReal = getArray();
+ ImageFileArray vImag = getImaginaryArray();
+ ImageFileArray vRealResult = result.getArray();
+
+ for (unsigned int ix = 0; ix < m_nx; ix++)
+ for (unsigned int iy = 0; iy < m_ny; iy++) {
+ if (isComplex())
+ vRealResult[ix][iy] = ::sqrt (vReal[ix][iy] * vReal[ix][iy] + vImag[ix][iy] * vImag[ix][iy]);
+ else
+ vRealResult[ix][iy] = vReal[ix][iy];
+ }
+
+ if (result.isComplex())
+ result.convertComplexToReal();
+
+ return true;
+}
+
+bool
+ImageFile::phase (ImageFile& result) const
+{
+ if (m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");
+ return false;
+ }
+
+ ImageFileArray vReal = getArray();
+ ImageFileArray vImag = getImaginaryArray();
+ ImageFileArray vRealResult = result.getArray();
+
+ for (unsigned int ix = 0; ix < m_nx; ix++)
+ for (unsigned int iy = 0; iy < m_ny; iy++) {
+ if (isComplex())
+ vRealResult[ix][iy] = ::atan2 (vImag[ix][iy], vReal[ix][iy]);
+ else
+ vRealResult[ix][iy] = 0;
+ }
+
+ if (result.isComplex())
+ result.convertComplexToReal();
+
+ return true;
+}
+
+bool
+ImageFile::square (ImageFile& result) const
+{
+ if (m_nx != result.nx() || m_ny != result.ny()) {
+ sys_error (ERR_WARNING, "Difference sizes of images [ImageFile::invertPixelValues]");
+ return false;
+ }
+
+ if (isComplex() && ! result.isComplex())
+ result.convertRealToComplex();
+
+ ImageFileArrayConst vLHS = getArray();
+ ImageFileArrayConst vLHSImag = getImaginaryArray();
+ ImageFileArray vResult = result.getArray();
+ ImageFileArray vResultImag = result.getImaginaryArray();
+
+ for (unsigned int ix = 0; ix < m_nx; ix++) {
+ for (unsigned int iy = 0; iy < m_ny; iy++) {
+ if (result.isComplex()) {
+ double dImag = 0;
+ if (isComplex())
+ dImag = vLHSImag[ix][iy];
+ std::complex<double> cLHS (vLHS[ix][iy], dImag);
+ std::complex<double> cResult = cLHS * cLHS;
+ vResult[ix][iy] = cResult.real();
+ vResultImag[ix][iy] = cResult.imag();
+ } else
+ vResult[ix][iy] = vLHS[ix][iy] * vLHS[ix][iy];
+ }
+ }
+
+
+ return true;
+}
+
+int
+ImageFile::convertFormatNameToID (const char* const formatName)
+{
+ int formatID = FORMAT_INVALID;
+
+ for (int i = 0; i < s_iFormatCount; i++)
+ if (strcasecmp (formatName, s_aszFormatName[i]) == 0) {
+ formatID = i;
+ break;
+ }
+
+ return (formatID);
+}
+
+const char*
+ImageFile::convertFormatIDToName (int formatID)
+{
+ static const char *formatName = "";
+
+ if (formatID >= 0 && formatID < s_iFormatCount)
+ return (s_aszFormatName[formatID]);
+
+ return (formatName);
+}
+
+const char*
+ImageFile::convertFormatIDToTitle (const int formatID)
+{
+ static const char *formatTitle = "";
+
+ if (formatID >= 0 && formatID < s_iFormatCount)
+ return (s_aszFormatTitle[formatID]);
+
+ return (formatTitle);
+}
+
+bool
+ImageFile::exportImage (const char* const pszFormat, const char* const pszFilename, int nxcell, int nycell, double densmin, double densmax)
+{
+ int iFormatID = convertFormatNameToID (pszFormat);
+ if (iFormatID == FORMAT_INVALID) {
+ sys_error (ERR_SEVERE, "Invalid format %s [ImageFile::exportImage]", pszFormat);
+ return false;
+ }
+
+ if (iFormatID == FORMAT_PGM)
+ return writeImagePGM (pszFilename, nxcell, nycell, densmin, densmax);
+ else if (iFormatID == FORMAT_PGMASCII)
+ return writeImagePGMASCII (pszFilename, nxcell, nycell, densmin, densmax);
+ else if (iFormatID == FORMAT_PNG)
+ return writeImagePNG (pszFilename, 8, nxcell, nycell, densmin, densmax);
+ else if (iFormatID == FORMAT_PNG16)
+ return writeImagePNG (pszFilename, 16, nxcell, nycell, densmin, densmax);
+
+ sys_error (ERR_SEVERE, "Invalid format %s [ImageFile::exportImage]", pszFormat);
+ return false;
+}
+
bool
ImageFile::writeImagePGM (const char* const outfile, int nxcell, int nycell, double densmin, double densmax)
{
fputc( rowp[ic], fp );
}
}
- \r
+
delete rowp;
- fclose(fp);\r
- \r
+ fclose(fp);
+
return true;
}
fprintf(fp, "\n");
}
}
- \r
+
delete rowp;
- fclose(fp);\r
- \r
+ fclose(fp);
+
return true;
}
unsigned char* rowp = new unsigned char [nx * nxcell * (bitdepth / 8)];
- FILE *fp = fopen (outfile, "wb");\r
+ FILE *fp = fopen (outfile, "wb");
if (! fp)
return false;
rowp[p] = outval;
else {
int rowpos = p * 2;
- rowp[rowpos] = (outval >> 8) & 0xFF;
- rowp[rowpos+1] = (outval & 0xFF);
+ rowp[rowpos+1] = (outval >> 8) & 0xFF;
+ rowp[rowpos] = (outval & 0xFF);
}
}
}
png_write_end (png_ptr, info_ptr);
png_destroy_write_struct (&png_ptr, &info_ptr);
- delete rowp;\r
+ delete rowp;
+
+ fclose(fp);
- fclose(fp);\r
- \r
return true;
}
#endif
}
}
- FILE *out;\r
+ FILE *out;
if ((out = fopen (outfile,"w")) == NULL) {
- sys_error(ERR_FATAL, "Error opening output file %s for writing", outfile);
+ sys_error(ERR_SEVERE, "Error opening output file %s for writing", outfile);
return false;
}
gdImageGif(gif,out);
fclose(out);
- gdImageDestroy(gif);\r
- \r
- delete rowp;\r
- \r
+ gdImageDestroy(gif);
+
+ delete rowp;
+
return true;
}
#endif