LSST Applications  21.0.0+04719a4bac,21.0.0-1-ga51b5d4+f5e6047307,21.0.0-11-g2b59f77+a9c1acf22d,21.0.0-11-ga42c5b2+86977b0b17,21.0.0-12-gf4ce030+76814010d2,21.0.0-13-g1721dae+760e7a6536,21.0.0-13-g3a573fe+768d78a30a,21.0.0-15-g5a7caf0+f21cbc5713,21.0.0-16-g0fb55c1+b60e2d390c,21.0.0-19-g4cded4ca+71a93a33c0,21.0.0-2-g103fe59+bb20972958,21.0.0-2-g45278ab+04719a4bac,21.0.0-2-g5242d73+3ad5d60fb1,21.0.0-2-g7f82c8f+8babb168e8,21.0.0-2-g8f08a60+06509c8b61,21.0.0-2-g8faa9b5+616205b9df,21.0.0-2-ga326454+8babb168e8,21.0.0-2-gde069b7+5e4aea9c2f,21.0.0-2-gecfae73+1d3a86e577,21.0.0-2-gfc62afb+3ad5d60fb1,21.0.0-25-g1d57be3cd+e73869a214,21.0.0-3-g357aad2+ed88757d29,21.0.0-3-g4a4ce7f+3ad5d60fb1,21.0.0-3-g4be5c26+3ad5d60fb1,21.0.0-3-g65f322c+e0b24896a3,21.0.0-3-g7d9da8d+616205b9df,21.0.0-3-ge02ed75+a9c1acf22d,21.0.0-4-g591bb35+a9c1acf22d,21.0.0-4-g65b4814+b60e2d390c,21.0.0-4-gccdca77+0de219a2bc,21.0.0-4-ge8a399c+6c55c39e83,21.0.0-5-gd00fb1e+05fce91b99,21.0.0-6-gc675373+3ad5d60fb1,21.0.0-64-g1122c245+4fb2b8f86e,21.0.0-7-g04766d7+cd19d05db2,21.0.0-7-gdf92d54+04719a4bac,21.0.0-8-g5674e7b+d1bd76f71f,master-gac4afde19b+a9c1acf22d,w.2021.13
LSST Data Management Base Package
ConvolveImage.h
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1 // -*- LSST-C++ -*-
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24 
25 #ifndef LSST_AFW_MATH_CONVOLVEIMAGE_H
26 #define LSST_AFW_MATH_CONVOLVEIMAGE_H
27 /*
28  * Convolve and convolveAtAPoint functions for Image and Kernel
29  *
30  * @todo Consider adding a flag to convolve indicating which specialized version of basicConvolve was used.
31  * This would only be used for unit testing and trace messages suffice (barely), so not a high priority.
32  */
33 #include <limits>
34 #include <sstream>
35 
36 #include "lsst/pex/exceptions.h"
37 #include "lsst/afw/image/Image.h"
39 #include "lsst/afw/math/Kernel.h"
40 
41 namespace lsst {
42 namespace afw {
43 namespace math {
44 
51 public:
52  ConvolutionControl(bool doNormalize = true,
53  bool doCopyEdge = false,
55  int maxInterpolationDistance = 10
57  )
58  : _doNormalize(doNormalize),
59  _doCopyEdge(doCopyEdge),
60  _maxInterpolationDistance(maxInterpolationDistance) {}
61 
62  bool getDoNormalize() const { return _doNormalize; }
63  bool getDoCopyEdge() const { return _doCopyEdge; }
64  int getMaxInterpolationDistance() const { return _maxInterpolationDistance; };
65 
66  void setDoNormalize(bool doNormalize) { _doNormalize = doNormalize; }
67  void setDoCopyEdge(bool doCopyEdge) { _doCopyEdge = doCopyEdge; }
68  void setMaxInterpolationDistance(int maxInterpolationDistance) {
69  _maxInterpolationDistance = maxInterpolationDistance;
70  }
71 
72 private:
73  bool _doNormalize;
74  bool _doCopyEdge;
76  int _maxInterpolationDistance;
78 };
79 
102 template <typename OutImageT, typename InImageT>
103 void scaledPlus(OutImageT& outImage, double c1, InImageT const& inImage1, double c2,
104  InImageT const& inImage2);
105 
106 template <typename OutImageT, typename InImageT>
107 inline typename OutImageT::SinglePixel convolveAtAPoint(
108  typename InImageT::const_xy_locator inImageLocator,
110  int kWidth, int kHeight);
111 
112 template <typename OutImageT, typename InImageT>
113 inline typename OutImageT::SinglePixel convolveAtAPoint(
114  typename InImageT::const_xy_locator inImageLocator,
115  std::vector<lsst::afw::math::Kernel::Pixel> const& kernelColList,
116  std::vector<lsst::afw::math::Kernel::Pixel> const& kernelRowList);
117 
190 template <typename OutImageT, typename InImageT, typename KernelT>
191 void convolve(OutImageT& convolvedImage, InImageT const& inImage, KernelT const& kernel,
192  ConvolutionControl const& convolutionControl = ConvolutionControl());
193 
199 template <typename ImageT>
200 typename ImageT::SinglePixel edgePixel(lsst::afw::image::detail::Image_tag
202 ) {
203  typedef typename ImageT::SinglePixel SinglePixelT;
206  : 0);
207 }
208 
220 template <typename MaskedImageT>
221 typename MaskedImageT::SinglePixel edgePixel(
224 ) {
225  typedef typename MaskedImageT::Image::Pixel ImagePixelT;
226  typedef typename MaskedImageT::Variance::Pixel VariancePixelT;
227 
230  : 0;
231  auto maskPixel = MaskedImageT::Mask::getPlaneBitMask("NO_DATA");
234  : 0;
235  return typename MaskedImageT::SinglePixel(imagePixel, maskPixel, variancePixel);
236 }
237 
238 /*
239  * Define inline functions
240  */
241 
258 template <typename OutImageT, typename InImageT>
259 inline typename OutImageT::SinglePixel convolveAtAPoint(
260  typename InImageT::const_xy_locator inImageLocator,
261  image::Image<Kernel::Pixel>::const_xy_locator kernelLocator, int kWidth, int kHeight) {
262  typename OutImageT::SinglePixel outValue = 0;
263  for (int kRow = 0; kRow != kHeight; ++kRow) {
265  kEnd = kernelLocator + image::detail::difference_type(kWidth, 0);
266  kernelLocator != kEnd; ++inImageLocator.x(), ++kernelLocator.x()) {
267  typename Kernel::Pixel const kVal = kernelLocator[0];
268  if (kVal != 0) {
269  outValue += *inImageLocator * kVal;
270  }
271  }
272 
273  inImageLocator += image::detail::difference_type(-kWidth, 1);
274  kernelLocator += image::detail::difference_type(-kWidth, 1);
275  }
276 
277  return outValue;
278 }
279 
294 template <typename OutImageT, typename InImageT>
295 inline typename OutImageT::SinglePixel convolveAtAPoint(typename InImageT::const_xy_locator inImageLocator,
296  std::vector<Kernel::Pixel> const& kernelXList,
297  std::vector<Kernel::Pixel> const& kernelYList) {
298  typedef typename std::vector<Kernel::Pixel>::const_iterator k_iter;
299 
300  typedef typename OutImageT::SinglePixel OutT;
301  OutT outValue = 0;
302  for (k_iter kernelYIter = kernelYList.begin(), yEnd = kernelYList.end(); kernelYIter != yEnd;
303  ++kernelYIter) {
304  OutT outValueY = 0;
305  for (k_iter kernelXIter = kernelXList.begin(), xEnd = kernelXList.end(); kernelXIter != xEnd;
306  ++kernelXIter, ++inImageLocator.x()) {
307  typename Kernel::Pixel const kValX = *kernelXIter;
308  if (kValX != 0) {
309  outValueY += *inImageLocator * kValX;
310  }
311  }
312 
313  double const kValY = *kernelYIter;
314  if (kValY != 0) {
315  outValue += outValueY * kValY;
316  }
317 
318  inImageLocator += image::detail::difference_type(-kernelXList.size(), 1);
319  }
320 
321  return outValue;
322 }
323 } // namespace math
324 } // namespace afw
325 } // namespace lsst
326 
327 #endif // !defined(LSST_AFW_MATH_CONVOLVEIMAGE_H)
T begin(T... args)
_view_t::xy_locator::const_t const_xy_locator
A const_xy_locator.
Definition: ImageBase.h:123
Parameters to control convolution.
Definition: ConvolveImage.h:50
void setDoCopyEdge(bool doCopyEdge)
Definition: ConvolveImage.h:67
void setDoNormalize(bool doNormalize)
Definition: ConvolveImage.h:66
ConvolutionControl(bool doNormalize=true, bool doCopyEdge=false, int maxInterpolationDistance=10)
Definition: ConvolveImage.h:52
void setMaxInterpolationDistance(int maxInterpolationDistance)
Definition: ConvolveImage.h:68
T end(T... args)
T infinity(T... args)
OutImageT::SinglePixel convolveAtAPoint(typename InImageT::const_xy_locator inImageLocator, typename lsst::afw::image::Image< lsst::afw::math::Kernel::Pixel >::const_xy_locator kernelLocator, int kWidth, int kHeight)
Apply convolution kernel to an image at one point.
void scaledPlus(OutImageT &outImage, double c1, InImageT const &inImage1, double c2, InImageT const &inImage2)
Compute the scaled sum of two images.
void convolve(OutImageT &convolvedImage, InImageT const &inImage, KernelT const &kernel, ConvolutionControl const &convolutionControl=ConvolutionControl())
Convolve an Image or MaskedImage with a Kernel, setting pixels of an existing output image.
ImageT::SinglePixel edgePixel(lsst::afw::image::detail::Image_tag)
Return an off-the-edge pixel appropriate for a given Image type.
float Pixel
Typedefs to be used for pixel values.
Definition: common.h:37
A base class for image defects.
T quiet_NaN(T... args)
T size(T... args)
A traits class for MaskedImage.
Definition: MaskedImage.h:50