// Copyright (C) 1999-2016 // Smithsonian Astrophysical Observatory, Cambridge, MA, USA // For conditions of distribution and use, see copyright notice in "copyright" #include "frscale.h" #include "fitsimage.h" FrScale::FrScale() { colorScaleType_ = LINEARSCALE; clipScope_ = LOCAL; clipMode_ = MINMAX; minmaxMode_ = SCAN; low_ = 1; high_ = 100; min_ = 1; max_ = 100; ulow_ = 1; uhigh_ = 100; expo_ = 1000; zContrast_ = .25; zSample_ = 600; zLine_ = 120; minmaxSample_ = 25; autoCutPer_ = 100; secMode_ = IMGSEC; histequ_ = NULL; histequSize_ = 0; histogramX_ = NULL; histogramY_ = NULL; histogramSize_ = 0; datasec_ = 1; } FrScale::~FrScale() { if (histequ_) delete [] histequ_; if (histogramX_) free(histogramX_); if (histogramY_) free(histogramY_); } FrScale::FrScale(const FrScale& a) { colorScaleType_ = a.colorScaleType_; clipScope_ = a.clipScope_; clipMode_ = a.clipMode_; minmaxMode_ = a.minmaxMode_; low_ = a.low_; high_ = a.high_; min_ = a.min_; max_ = a.max_; ulow_ = a.ulow_; uhigh_ = a.uhigh_; expo_ = a.expo_; zContrast_ = a.zContrast_; zSample_ = a.zSample_; zLine_ = a.zLine_; minmaxSample_ = a.minmaxSample_; autoCutPer_ = a.autoCutPer_; secMode_ = a.secMode_; if (a.histequ_) { histequ_ = new double[a.histequSize_]; memcpy(histequ_,a.histequ_,a.histequSize_*sizeof(double)); } else histequ_ = NULL; histequSize_ = a.histequSize_; if (a.histogramX_) { histogramX_ = (double*)calloc(a.histogramSize_, sizeof(double)); memcpy(histogramX_,a.histogramX_,a.histogramSize_*sizeof(double)); } else histogramX_ = NULL; if (a.histogramY_) { histogramY_ = (double*)calloc(a.histogramSize_, sizeof(double)); memcpy(histogramY_,a.histogramY_,a.histogramSize_*sizeof(double)); } else histogramY_ = NULL; histogramSize_ = a.histogramSize_; } FrScale& FrScale::operator=(const FrScale& a) { colorScaleType_ = a.colorScaleType_; clipScope_ = a.clipScope_; clipMode_ = a.clipMode_; minmaxMode_ = a.minmaxMode_; low_ = a.low_; high_ = a.high_; min_ = a.min_; max_ = a.max_; ulow_ = a.ulow_; uhigh_ = a.uhigh_; expo_ = a.expo_; zContrast_ = a.zContrast_; zSample_ = a.zSample_; zLine_ = a.zLine_; minmaxSample_ = a.minmaxSample_; autoCutPer_ = a.autoCutPer_; secMode_ = a.secMode_; if (histequ_) delete histequ_; histequ_ = NULL; if (a.histequ_) { histequ_ = new double[a.histequSize_]; memcpy(histequ_,a.histequ_,a.histequSize_*sizeof(double)); } histequSize_ = a.histequSize_; if (histogramX_) free(histogramX_); histogramX_ = NULL; if (a.histogramX_) { histogramX_ = (double*)calloc(a.histogramSize_, sizeof(double)); memcpy(histogramX_,a.histogramX_,a.histogramSize_*sizeof(double)); } if (histogramY_) free(histogramY_); histogramY_ = NULL; if (a.histogramY_) { histogramY_ = (double*)calloc(a.histogramSize_, sizeof(double)); memcpy(histogramY_,a.histogramY_,a.histogramSize_*sizeof(double)); } histogramSize_ = a.histogramSize_; return *this; } double* FrScale::histequ(FitsImage* fits) { if (DebugPerf) cerr << "FrScale::histequ()" << endl; // if we don't have any data, bail if (!fits) return NULL; // if we already have it, bail if (histequ_) return histequ_; // create pdf or histogram double* pdf = new double[HISTEQUSIZE]; memset(pdf,0,HISTEQUSIZE*sizeof(double)); switch (clipScope_) { case GLOBAL: { FitsImage* ptr = fits; while (ptr) { FitsImage* sptr = ptr; while (sptr) { sptr->hist(pdf, HISTEQUSIZE, low_, high_, secMode_); sptr = sptr->nextSlice(); } ptr = ptr->nextMosaic(); } } break; case LOCAL: { FitsImage* ptr = fits; while (ptr) { ptr->hist(pdf, HISTEQUSIZE, low_, high_, secMode_); ptr = ptr->nextMosaic(); } } break; } // find a total/average double total, average; { total = 0; for (int ii=0; ii=average && color0) { for (int ii=0; iihist(histogramY_, nn, min_, max_, secMode_); sptr = sptr->nextSlice(); } ptr = ptr->nextMosaic(); } } break; case LOCAL: { FitsImage* ptr = fits; while (ptr) { ptr->hist(histogramY_, nn, min_, max_, secMode_); ptr = ptr->nextMosaic(); } } break; } } void FrScale::clearHistogram() { if (DebugPerf) cerr << "FrScale::clearHistogram" << endl; if (histogramX_) free(histogramX_); histogramX_ = NULL; if (histogramY_) free(histogramY_); histogramY_ = NULL; histogramSize_ = 0; } ostream& operator<<(ostream& s, FrScale& fr) { s << "scope: " << fr.clipScope() << endl; s << "mode: " << fr.clipMode() << endl; s << "low: " << fr.low() << endl; s << "high: " << fr.high() << endl; s << "min: " << fr.min() << endl; s << "max: " << fr.max() << endl; return s; }