// Copyright (C) 1999-2018 // Smithsonian Astrophysical Observatory, Cambridge, MA, USA // For conditions of distribution and use, see copyright notice in "copyright" #include "fitsimage.h" #include "context.h" // Map Point Vector FitsImage::mapFromRef(const Vector& vv, Coord::CoordSystem sys, Coord::SkyFrame sky) { switch (sys) { case Coord::IMAGE: return vv * refToImage; case Coord::PHYSICAL: return vv * refToPhysical; case Coord::AMPLIFIER: return vv * refToAmplifier; case Coord::DETECTOR: return vv * refToDetector; default: if (hasWCS(sys)) return pix2wcs(vv * refToImage, sys, sky); } return Vector(); } VectorStr FitsImage::mapFromRef(const Vector& vv, Coord::CoordSystem sys, Coord::SkyFrame sky, Coord::SkyFormat format) { switch (sys) { case Coord::IMAGE: return VectorStr(vv * refToImage); case Coord::PHYSICAL: return VectorStr(vv * refToPhysical); case Coord::AMPLIFIER: return VectorStr(vv * refToAmplifier); case Coord::DETECTOR: return VectorStr(vv * refToDetector); default: if (hasWCS(sys)) return pix2wcs(vv * refToImage, sys, sky, format); } return VectorStr(); } Vector3d FitsImage::mapFromRef(const Vector3d& vv, Coord::CoordSystem sys, Coord::SkyFrame sky) { switch (sys) { case Coord::IMAGE: return vv * refToImage3d; case Coord::PHYSICAL: return vv * refToPhysical3d; case Coord::AMPLIFIER: return vv * refToAmplifier3d; case Coord::DETECTOR: return vv * refToDetector3d; default: if (hasWCS(sys)) return pix2wcs(vv * refToImage3d, sys, sky); } return Vector3d(); } VectorStr3d FitsImage::mapFromRef(const Vector3d& vv, Coord::CoordSystem sys, Coord::SkyFrame sky, Coord::SkyFormat format) { switch (sys) { case Coord::IMAGE: return VectorStr3d(vv * refToImage3d); case Coord::PHYSICAL: return VectorStr3d(vv * refToPhysical3d); case Coord::AMPLIFIER: return VectorStr3d(vv * refToAmplifier3d); case Coord::DETECTOR: return VectorStr3d(vv * refToDetector3d); default: if (hasWCS(sys)) return pix2wcs(vv * refToImage3d, sys, sky, format); } return VectorStr3d(); } Vector FitsImage::mapToRef(const Vector& vv, Coord::CoordSystem sys, Coord::SkyFrame sky) { switch (sys) { case Coord::IMAGE: return vv * imageToRef; case Coord::PHYSICAL: return vv * physicalToRef; case Coord::AMPLIFIER: return vv * amplifierToRef; case Coord::DETECTOR: return vv * detectorToRef; default: if (hasWCS(sys)) return wcs2pix(vv, sys, sky) * imageToRef; } // special case for parsing regions files maperr =1; return Vector(); } Vector3d FitsImage::mapToRef(const Vector3d& vv, Coord::CoordSystem sys, Coord::SkyFrame sky) { switch (sys) { case Coord::IMAGE: return vv * imageToRef3d; case Coord::PHYSICAL: return vv * imageToPhysical3d; case Coord::AMPLIFIER: return vv * imageToAmplifier3d; case Coord::DETECTOR: return vv * imageToDetector3d; default: if (hasWCS(sys)) return wcs2pix(vv, sys, sky) * imageToRef3d; } return Vector3d(); } void FitsImage::listFromRef(ostream& str, const Vector& vv, Coord::CoordSystem sys, Coord::SkyFrame sky, Coord::SkyFormat format) { switch (sys) { case Coord::IMAGE: case Coord::PHYSICAL: case Coord::DETECTOR: case Coord::AMPLIFIER: str << setprecision(context_->parent_->precLinear_) << mapFromRef(vv, sys); break; default: str << mapFromRef(vv,sys,sky,format); break; } } void FitsImage::listFromRef(ostream& str1, ostream& str2, const Vector& vv, Coord::CoordSystem sys, Coord::SkyFrame sky, Coord::SkyFormat format) { switch (sys) { case Coord::IMAGE: case Coord::PHYSICAL: case Coord::DETECTOR: case Coord::AMPLIFIER: { Vector rr = mapFromRef(vv, sys); str1 << setprecision(context_->parent_->precLinear_) << rr[0]; str2 << setprecision(context_->parent_->precLinear_) << rr[1]; } break; default: { VectorStr rr = mapFromRef(vv,sys,sky,format); str1 << rr[0]; str2 << rr[1]; } } } // Map Length Vector FitsImage::mapLen(const Vector& vv, const Matrix& mx) { // imageToPhysical/Amplifier/Dector have no rotation, only scale/translation // just grap scale return vv*Scale(mx); // remove translation // Vector tt = Vector() * mx; // Matrix sr = mx * Translate(-tt); // remove rotation // Vector rr = Vector(1,0) * sr; // Matrix ss = sr * Rotate(rr.angle()); // all that is left is Scaling // return (vv*ss).abs(); } double FitsImage::mapLenFromRef(double dd, Coord::CoordSystem sys, Coord::DistFormat dist) { Vector rr = mapLenFromRef(Vector(0,dd),sys,dist); return rr[1]; } Vector FitsImage::mapLenFromRef(const Vector& vv, Coord::CoordSystem sys, Coord::DistFormat dist) { switch (sys) { case Coord::IMAGE: return mapLen(vv,refToImage); case Coord::PHYSICAL: return mapLen(vv,refToPhysical); case Coord::AMPLIFIER: return mapLen(vv,refToPhysical * physicalToAmplifier); case Coord::DETECTOR: return mapLen(vv,refToPhysical * physicalToDetector); default: if (hasWCS(sys)) { Vector out = vv*getWCSSize(sys); if (hasWCSCel(sys)) { switch (dist) { case Coord::DEGREE: break; case Coord::ARCMIN: out *= 60; break; case Coord::ARCSEC: out *=60*60; break; } } return out; } } return Vector(); } double FitsImage::mapLenToRef(double dd, Coord::CoordSystem sys, Coord::DistFormat dist) { Vector rr = mapLenToRef(Vector(0,dd), sys, dist); return rr[1]; } Vector FitsImage::mapLenToRef(const Vector& vv, Coord::CoordSystem sys, Coord::DistFormat dist) { switch (sys) { case Coord::IMAGE: return mapLen(vv,imageToRef); case Coord::PHYSICAL: return mapLen(vv,physicalToRef); case Coord::AMPLIFIER: return mapLen(vv,amplifierToPhysical * physicalToRef); case Coord::DETECTOR: return mapLen(vv,detectorToPhysical * physicalToRef); default: if (hasWCS(sys)) { Vector out = vv/getWCSSize(sys); if (hasWCSCel(sys)) { switch (dist) { case Coord::DEGREE: break; case Coord::ARCMIN: out /= 60; break; case Coord::ARCSEC: out /= 60*60; break; } } return out; } } return Vector(); } void FitsImage::listLenFromRef(ostream& str, double dd, Coord::CoordSystem sys, Coord::DistFormat dist) { double out = mapLenFromRef(dd, sys, dist); switch (sys) { case Coord::IMAGE: case Coord::PHYSICAL: case Coord::DETECTOR: case Coord::AMPLIFIER: str << setprecision(context_->parent_->precLenLinear_) << out; break; default: if (hasWCS(sys)) { if (hasWCSCel(sys)) { switch (dist) { case Coord::DEGREE: str << setprecision(context_->parent_->precLenDeg_); break; case Coord::ARCMIN: str << setprecision(context_->parent_->precArcmin_); break; case Coord::ARCSEC: str << setprecision(context_->parent_->precArcsec_); break; } str << fixed << out; str.unsetf(ios_base::floatfield); } else str << setprecision(context_->parent_->precLenLinear_) << out; } else str << "0"; } } void FitsImage::listLenFromRef(ostream& str, const Vector& vv, Coord::CoordSystem sys, Coord::DistFormat dist) { Vector out = mapLenFromRef(vv, sys, dist); switch (sys) { case Coord::IMAGE: case Coord::PHYSICAL: case Coord::DETECTOR: case Coord::AMPLIFIER: str << setprecision(context_->parent_->precLenLinear_) << out; break; default: if (hasWCS(sys)) { if (hasWCSCel(sys)) { switch (dist) { case Coord::DEGREE: str << setprecision(context_->parent_->precLenDeg_); break; case Coord::ARCMIN: str << setprecision(context_->parent_->precArcmin_); break; case Coord::ARCSEC: str << setprecision(context_->parent_->precArcsec_); break; } str << fixed << out; str.unsetf(ios_base::floatfield); } else str << setprecision(context_->parent_->precLenLinear_) << out; } else str << "0 0"; } } void FitsImage::listLenFromRef(ostream& str1, ostream& str2, const Vector& vv, Coord::CoordSystem sys, Coord::DistFormat dist) { Vector out = mapLenFromRef(vv, sys, dist); switch (sys) { case Coord::IMAGE: case Coord::PHYSICAL: case Coord::DETECTOR: case Coord::AMPLIFIER: str1 << setprecision(context_->parent_->precLenLinear_) << out[0]; str2 << setprecision(context_->parent_->precLenLinear_) << out[1]; break; default: if (hasWCS(sys)) { if (hasWCSCel(sys)) { switch (dist) { case Coord::DEGREE: str1 << setprecision(context_->parent_->precLenDeg_); str2 << setprecision(context_->parent_->precLenDeg_); break; case Coord::ARCMIN: str1 << setprecision(context_->parent_->precArcmin_); str2 << setprecision(context_->parent_->precArcmin_); break; case Coord::ARCSEC: str1 << setprecision(context_->parent_->precArcsec_); str2 << setprecision(context_->parent_->precArcsec_); break; } str1 << fixed << out[0]; str2 << fixed << out[1]; str1.unsetf(ios_base::floatfield); str2.unsetf(ios_base::floatfield); } else { str1 << setprecision(context_->parent_->precLenLinear_) << out[0]; str2 << setprecision(context_->parent_->precLenLinear_) << out[1]; } } else { str1 << "0"; str2 << "0"; } } } // Map Distance double FitsImage::mapDistFromRef(const Vector& vv1, const Vector& vv2, Coord::CoordSystem sys, Coord::DistFormat dist) { switch (sys) { case Coord::IMAGE: { Vector v1 = vv1 * refToImage; Vector v2 = vv2 * refToImage; return (v2-v1).length(); } case Coord::PHYSICAL: { Vector v1 = vv1 * refToPhysical; Vector v2 = vv2 * refToPhysical; return (v2-v1).length(); } case Coord::AMPLIFIER: { Vector v1 = vv1 * refToPhysical * physicalToAmplifier; Vector v2 = vv2 * refToPhysical * physicalToAmplifier; return (v2-v1).length(); } case Coord::DETECTOR: { Vector v1 = vv1 * refToPhysical * physicalToDetector; Vector v2 = vv2 * refToPhysical * physicalToDetector; return (v2-v1).length(); } default: if (hasWCS(sys)) { Vector v1 = pix2wcs(vv1 * refToImage, sys, Coord::FK5); Vector v2 = pix2wcs(vv2 * refToImage, sys, Coord::FK5); double rr = getWCSDist(v1,v2,sys); if (hasWCSCel(sys)) { switch (dist) { case Coord::DEGREE: break; case Coord::ARCMIN: rr *= 60; break; case Coord::ARCSEC: rr *= 60*60; break; } } return rr; } } return 0; } void FitsImage::listDistFromRef(ostream& str, const Vector& vv1, const Vector& vv2, Coord::CoordSystem sys, Coord::DistFormat dist) { double out = mapDistFromRef(vv1, vv2, sys, dist); switch (sys) { case Coord::IMAGE: case Coord::PHYSICAL: case Coord::DETECTOR: case Coord::AMPLIFIER: str << setprecision(context_->parent_->precLenLinear_) << out; break; default: if (hasWCS(sys)) { if (hasWCSCel(sys)) { switch (dist) { case Coord::DEGREE: str << setprecision(context_->parent_->precLenDeg_); break; case Coord::ARCMIN: str << setprecision(context_->parent_->precArcmin_); break; case Coord::ARCSEC: str << setprecision(context_->parent_->precArcsec_); break; } str << fixed << out; str.unsetf(ios_base::floatfield); } else str << setprecision(context_->parent_->precLenLinear_) << out; } else str << "0 0"; } }