[3] | 1 | #include <iostream> |
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| 2 | #include <iomanip> |
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| 3 | #include <vector> |
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| 4 | #include <string> |
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| 5 | #include <wcs.h> |
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[69] | 6 | #include <math.h> |
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[3] | 7 | #include <param.hh> |
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[69] | 8 | #include <Utils/utils.hh> |
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[3] | 9 | #include <Detection/detection.hh> |
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| 10 | |
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| 11 | using std::setw; |
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| 12 | using std::setprecision; |
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| 13 | using std::endl; |
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| 14 | |
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| 15 | std::ostream& operator<< ( std::ostream& theStream, Voxel& vox) |
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| 16 | { |
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| 17 | /** |
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| 18 | * << operator for Voxel class |
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| 19 | * A convenient way of printing the coordinate & flux values of a voxel. |
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| 20 | */ |
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| 21 | |
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| 22 | theStream << setw(4) << vox.itsX ; |
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| 23 | theStream << " " << setw(4) << vox.itsY; |
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| 24 | theStream << " " << setw(4) << vox.itsZ; |
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| 25 | theStream << setprecision(4); |
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| 26 | theStream << " " << vox.itsF; |
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| 27 | |
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| 28 | } |
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| 29 | |
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| 30 | |
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| 31 | void Detection::calcParams() |
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| 32 | { |
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| 33 | /** |
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| 34 | * Detection::calcParams() |
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| 35 | * A function that calculates centroid positions, minima & maxima of coordinates, |
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| 36 | * and total & peak fluxes for a detection. |
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| 37 | */ |
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| 38 | |
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[62] | 39 | if(this->pix.size()>0){ |
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| 40 | this->xcentre = 0; |
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| 41 | this->ycentre = 0; |
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| 42 | this->zcentre = 0; |
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| 43 | this->totalFlux = 0; |
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| 44 | this->peakFlux = this->pix[0].itsF; |
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| 45 | this->xmin = 0; |
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| 46 | this->xmax = 0; |
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| 47 | this->ymin = 0; |
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| 48 | this->ymax = 0; |
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| 49 | this->zmin = 0; |
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| 50 | this->zmax = 0; |
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[82] | 51 | for(int ctr=0;ctr<this->pix.size();ctr++){ |
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| 52 | this->xcentre += this->pix[ctr].itsX; |
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| 53 | this->ycentre += this->pix[ctr].itsY; |
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| 54 | this->zcentre += this->pix[ctr].itsZ; |
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| 55 | this->totalFlux += this->pix[ctr].itsF; |
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| 56 | if((ctr==0)||(this->pix[ctr].itsX<this->xmin)) this->xmin = this->pix[ctr].itsX; |
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| 57 | if((ctr==0)||(this->pix[ctr].itsX>this->xmax)) this->xmax = this->pix[ctr].itsX; |
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| 58 | if((ctr==0)||(this->pix[ctr].itsY<this->ymin)) this->ymin = this->pix[ctr].itsY; |
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| 59 | if((ctr==0)||(this->pix[ctr].itsY>this->ymax)) this->ymax = this->pix[ctr].itsY; |
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| 60 | if((ctr==0)||(this->pix[ctr].itsZ<this->zmin)) this->zmin = this->pix[ctr].itsZ; |
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| 61 | if((ctr==0)||(this->pix[ctr].itsZ>this->zmax)) this->zmax = this->pix[ctr].itsZ; |
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[62] | 62 | if(this->negativeSource){ |
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| 63 | // if negative feature, peakFlux is most negative flux |
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[82] | 64 | if((ctr==0)||(this->pix[ctr].itsF < this->peakFlux)){ |
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| 65 | this->peakFlux = this->pix[ctr].itsF; |
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| 66 | this->xpeak = this->pix[ctr].itsX; |
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| 67 | this->ypeak = this->pix[ctr].itsY; |
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| 68 | this->zpeak = this->pix[ctr].itsZ; |
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[62] | 69 | } |
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| 70 | } |
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| 71 | else{ |
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| 72 | // otherwise, it's a regular detection, and peakFlux is most positive flux |
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[82] | 73 | if((ctr==0)||(this->pix[ctr].itsF > this->peakFlux)){ |
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| 74 | this->peakFlux = this->pix[ctr].itsF; |
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| 75 | this->xpeak = this->pix[ctr].itsX; |
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| 76 | this->ypeak = this->pix[ctr].itsY; |
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| 77 | this->zpeak = this->pix[ctr].itsZ; |
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[62] | 78 | } |
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| 79 | } |
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[45] | 80 | } |
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[62] | 81 | this->xcentre /= this->pix.size(); |
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| 82 | this->ycentre /= this->pix.size(); |
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| 83 | this->zcentre /= this->pix.size(); |
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[3] | 84 | } |
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| 85 | } |
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| 86 | |
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[103] | 87 | //void Detection::calcWCSparams(wcsprm *wcs) |
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| 88 | void Detection::calcWCSparams(FitsHeader head) |
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[3] | 89 | { |
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| 90 | /** |
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[103] | 91 | * Detection::calcWCSparams(FitsHeader) |
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[3] | 92 | * Use the input wcs to calculate the position and velocity information for the Detection. |
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| 93 | * Makes no judgement as to whether the WCS is good -- this needs to be done beforehand. |
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| 94 | * Quantities calculated: |
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[22] | 95 | * RA: ra [deg], ra (string), ra width. |
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| 96 | * Dec: dec [deg], dec (string), dec width. |
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| 97 | * Vel: vel [km/s], min & max vel, vel width. |
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| 98 | * Other: coord type for all three axes, nuRest, name (IAU-style, in equatorial or Galactic) |
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| 99 | * Uses getIntegFlux to calculate the integrated flux in (say) [Jy km/s] |
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[3] | 100 | */ |
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| 101 | |
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[103] | 102 | if(head.isWCS()){ |
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[60] | 103 | |
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[103] | 104 | this->calcParams(); // make sure this is up to date. |
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| 105 | |
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| 106 | double *pixcrd = new double[15]; |
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| 107 | double *world = new double[15]; |
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| 108 | /* |
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| 109 | define a five-point array in 3D: |
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[86] | 110 | (x,y,z), (x,y,z1), (x,y,z2), (x1,y1,z), (x2,y2,z) |
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| 111 | [note: x = central point, x1 = minimum x, x2 = maximum x etc.] |
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[103] | 112 | and convert to world coordinates. |
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| 113 | */ |
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| 114 | pixcrd[0] = pixcrd[3] = pixcrd[6] = this->xcentre; |
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| 115 | pixcrd[9] = this->xmin-0.5; |
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| 116 | pixcrd[12] = this->xmax+0.5; |
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| 117 | pixcrd[1] = pixcrd[4] = pixcrd[7] = this->ycentre; |
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| 118 | pixcrd[10] = this->ymin-0.5; |
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| 119 | pixcrd[13] = this->ymax+0.5; |
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| 120 | pixcrd[2] = pixcrd[11] = pixcrd[14] = this->zcentre; |
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| 121 | pixcrd[5] = this->zmin; |
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| 122 | pixcrd[8] = this->zmax; |
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| 123 | int flag = head.pixToWCS(pixcrd, world, 5); |
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| 124 | delete [] pixcrd; |
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[3] | 125 | |
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[103] | 126 | // world now has the WCS coords for the five points -- use this to work out WCS params |
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[22] | 127 | |
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[103] | 128 | this->lngtype = head.getWCS()->lngtyp; |
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| 129 | this->lattype = head.getWCS()->lattyp; |
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| 130 | this->specUnits = head.getSpectralUnits(); |
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| 131 | this->fluxUnits = head.getFluxUnits(); |
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| 132 | // if fluxUnits are eg. Jy/beam, make intFluxUnits = Jy km/s |
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| 133 | this->intFluxUnits = head.getIntFluxUnits(); |
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| 134 | this->ra = world[0]; |
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| 135 | this->dec = world[1]; |
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| 136 | this->raS = decToDMS(this->ra, this->lngtype); |
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| 137 | this->decS = decToDMS(this->dec,this->lattype); |
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| 138 | this->raWidth = angularSeparation(world[9],world[1],world[12],world[1]) * 60.; |
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| 139 | this->decWidth = angularSeparation(world[0],world[10],world[0],world[13]) * 60.; |
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| 140 | this->name = head.getIAUName(this->ra, this->dec); |
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| 141 | this->vel = head.specToVel(world[2]); |
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| 142 | this->velMin = head.specToVel(world[5]); |
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| 143 | this->velMax = head.specToVel(world[8]); |
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| 144 | this->velWidth = fabs(this->velMax - this->velMin); |
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[3] | 145 | |
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[103] | 146 | this->getIntegFlux(head); |
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[3] | 147 | |
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[103] | 148 | this->flagWCS = true; |
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[3] | 149 | |
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[103] | 150 | delete [] world; |
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[3] | 151 | |
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[103] | 152 | } |
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[3] | 153 | } |
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| 154 | |
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[103] | 155 | // float Detection::getIntegFlux(wcsprm *wcs) |
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| 156 | float Detection::getIntegFlux(FitsHeader head) |
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[3] | 157 | { |
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| 158 | /** |
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[103] | 159 | * Detection::getIntegFlux(FitsHeader) |
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[3] | 160 | * Uses the input wcs to calculate the velocity-integrated flux, |
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| 161 | * putting velocity in units of km/s. |
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| 162 | * Integrates over full spatial and velocity range as given by extrema calculated |
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| 163 | * by calcWCSparams. |
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| 164 | * Units are (Jy/beam) . km/s (no correction for the beam is made here...) |
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| 165 | */ |
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| 166 | |
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| 167 | // include one pixel either side in each direction |
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| 168 | int xsize = (this->xmax-this->xmin+3); |
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| 169 | int ysize = (this->ymax-this->ymin+3); |
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| 170 | int zsize = (this->zmax-this->zmin+3); |
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| 171 | vector <bool> isObj(xsize*ysize*zsize,false); |
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| 172 | vector <float> fluxArray(xsize*ysize*zsize,0.); |
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[22] | 173 | // work out which pixels are object pixels |
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[3] | 174 | for(int p=0;p<this->pix.size();p++){ |
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| 175 | int pos = (this->pix[p].getX()-this->xmin+1) + (this->pix[p].getY()-this->ymin+1)*xsize + |
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| 176 | (this->pix[p].getZ()-this->zmin+1)*xsize*ysize; |
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| 177 | fluxArray[pos] = this->pix[p].getF(); |
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| 178 | isObj[pos] = true; |
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| 179 | } |
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[22] | 180 | |
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| 181 | // work out the WCS coords for each pixel |
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[103] | 182 | double *world = new double[xsize*ysize*zsize]; |
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| 183 | double x,y,z; |
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[3] | 184 | for(int i=0;i<xsize*ysize*zsize;i++){ |
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[103] | 185 | x = double( this->xmin -1 + i%xsize ); |
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| 186 | y = double( this->ymin -1 + (i/xsize)%ysize ); |
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| 187 | z = double( this->zmin -1 + i/(xsize*ysize) ); |
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| 188 | world[i] = head.pixToVel(x,y,z); |
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[3] | 189 | } |
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| 190 | |
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| 191 | this->intFlux = 0.; |
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| 192 | for(int pix=0; pix<xsize*ysize; pix++){ // loop over each spatial pixel. |
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| 193 | for(int z=0; z<zsize; z++){ |
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| 194 | int pos = z*xsize*ysize + pix; |
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| 195 | if(isObj[pos]){ // if it's an object pixel... |
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[103] | 196 | float deltaVel; |
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| 197 | if(z==0) deltaVel = (world[pos+xsize*ysize] - world[pos]); |
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| 198 | else if(z==(zsize-1)) deltaVel = (world[pos] - world[pos-xsize*ysize]); |
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| 199 | else deltaVel = (world[pos+xsize*ysize] - world[pos-xsize*ysize]) / 2.; |
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[126] | 200 | this->intFlux += fluxArray[pos] * fabs(deltaVel); |
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[3] | 201 | } |
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| 202 | } |
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| 203 | } |
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[103] | 204 | |
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| 205 | if(this->fluxUnits.substr(this->fluxUnits.size()-5,this->fluxUnits.size())=="/beam") |
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| 206 | this->intFlux /= head.getBeamSize(); |
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| 207 | |
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[3] | 208 | delete [] world; |
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| 209 | } |
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| 210 | |
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| 211 | |
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[82] | 212 | void Detection::addAnObject(Detection &toAdd) |
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| 213 | { |
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[3] | 214 | /** |
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| 215 | * Detection::addAnObject(Detection &) |
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| 216 | * Combines two objects by adding all the pixels of the argument to the instigator. |
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| 217 | * All pixel & flux parameters are recalculated (so that calcParams does not need to be |
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| 218 | * called a second time), but WCS parameters are not. |
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| 219 | */ |
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[82] | 220 | /* */ |
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[3] | 221 | this->xcentre *= this->pix.size(); |
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| 222 | this->ycentre *= this->pix.size(); |
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| 223 | this->zcentre *= this->pix.size(); |
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[82] | 224 | for(int ctr=0;ctr<toAdd.getSize();ctr++){ |
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| 225 | long x = toAdd.getX(ctr); |
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| 226 | long y = toAdd.getY(ctr); |
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| 227 | long z = toAdd.getZ(ctr); |
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| 228 | float f = toAdd.getF(ctr); |
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| 229 | bool isNewPix = true; |
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| 230 | int ctr2 = 0; |
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| 231 | // For each pixel in the new object, test to see if it already appears in the object |
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| 232 | while( isNewPix && (ctr2<this->pix.size()) ){ |
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| 233 | isNewPix = isNewPix && (( this->pix[ctr2].itsX != x ) || |
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| 234 | ( this->pix[ctr2].itsY != y ) || |
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| 235 | ( this->pix[ctr2].itsZ != z ) ); |
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| 236 | ctr2++; |
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| 237 | } |
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| 238 | if(isNewPix){ |
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| 239 | // If the pixel is new, add it to the object and re-calculate the parameters. |
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| 240 | this->pix.push_back(toAdd.getPixel(ctr)); |
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| 241 | this->xcentre += toAdd.getX(ctr); |
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| 242 | this->ycentre += toAdd.getY(ctr); |
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| 243 | this->zcentre += toAdd.getZ(ctr); |
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| 244 | this->totalFlux += toAdd.getF(ctr); |
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| 245 | if(toAdd.getX(ctr)<this->xmin) this->xmin=toAdd.getX(ctr); |
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| 246 | if(toAdd.getX(ctr)>this->xmax) this->xmax=toAdd.getX(ctr); |
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| 247 | if(toAdd.getY(ctr)<this->ymin) this->ymin=toAdd.getY(ctr); |
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| 248 | if(toAdd.getY(ctr)>this->ymax) this->ymax=toAdd.getY(ctr); |
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| 249 | if(toAdd.getZ(ctr)<this->zmin) this->zmin=toAdd.getZ(ctr); |
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| 250 | if(toAdd.getZ(ctr)>this->zmax) this->zmax=toAdd.getZ(ctr); |
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| 251 | if(toAdd.getF(ctr)>this->peakFlux) this->peakFlux=toAdd.getF(ctr); |
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| 252 | } |
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[3] | 253 | } |
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| 254 | this->xcentre /= this->pix.size(); |
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| 255 | this->ycentre /= this->pix.size(); |
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| 256 | this->zcentre /= this->pix.size(); |
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| 257 | |
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| 258 | } |
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[82] | 259 | /* */ |
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[3] | 260 | |
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| 261 | |
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| 262 | void Detection::addOffsets(Param &par) |
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| 263 | { |
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| 264 | this->xSubOffset = par.getXOffset(); |
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| 265 | this->ySubOffset = par.getYOffset(); |
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| 266 | this->zSubOffset = par.getZOffset(); |
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| 267 | } |
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| 268 | |
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| 269 | bool Detection::hasEnoughChannels(int minNumber) |
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| 270 | { |
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| 271 | /** |
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| 272 | * bool hasEnoughChannels(int) |
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| 273 | * A function to determine if the Detection has enough |
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| 274 | * contiguous channels to meet the minimum requirement |
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| 275 | * given as the argument. |
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| 276 | * Needs to have at least one occurence of minNumber consecutive |
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| 277 | * channels present to return true. Otherwise returns false. |
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| 278 | */ |
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| 279 | |
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| 280 | // Original requirement -- based on total span |
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| 281 | // int numChannels = this->getZmax() - this->getZmin() + 1; |
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| 282 | |
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| 283 | // Alternative -- number of distinct channels detected |
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| 284 | // int numChannels = 0; |
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| 285 | // this->SortByZ(); |
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| 286 | // if(this->getSize()>0) numChannels++; |
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| 287 | // for(int i=1;i<this->getSize();i++) |
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| 288 | // if(this->getZ(i)>this->getZ(i-1)) numChannels++; |
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| 289 | // return (numChannels < minNumber); |
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| 290 | |
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| 291 | // Preferred method -- need a set of minNumber consecutive channels present. |
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| 292 | this->SortByZ(); |
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| 293 | int numChannels = 0; |
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| 294 | bool result = false; |
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| 295 | if(this->getSize()>0) numChannels++; |
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| 296 | for(int i=1;i<this->getSize();i++) { |
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| 297 | if( (this->getZ(i) - this->getZ(i-1)) == 1) numChannels++; |
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| 298 | else if( (this->getZ(i) - this->getZ(i-1)) >= 2) numChannels = 1; |
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| 299 | |
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[120] | 300 | if( numChannels >= minNumber) result = true; |
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[3] | 301 | } |
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| 302 | return result; |
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| 303 | |
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| 304 | } |
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| 305 | |
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[16] | 306 | int Detection::getSpatialSize() |
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| 307 | { |
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| 308 | /** |
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| 309 | * int getSpatialSize() |
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| 310 | * A function that returns the number of distinct spatial |
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| 311 | * pixels in a Detection. |
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| 312 | */ |
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| 313 | |
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| 314 | vector<Pixel> spatialPix; |
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| 315 | Pixel newpix; |
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| 316 | bool addThisOne; |
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| 317 | newpix.setXY(this->getX(0),this->getY(0)); |
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| 318 | spatialPix.push_back(newpix); |
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| 319 | for(int i=1;i<this->pix.size();i++){ |
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| 320 | newpix.setXY(this->getX(i),this->getY(i)); |
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| 321 | addThisOne = true; |
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| 322 | for(int j=0;(j<spatialPix.size())&&addThisOne;j++) { |
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| 323 | // do whole list or until addThisOne=false |
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| 324 | addThisOne = ( (newpix.getX()!=spatialPix[j].getX()) || |
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| 325 | (newpix.getY()!=spatialPix[j].getY()) ); |
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| 326 | // ie. if one of X or Y is different, addThisOne is true. |
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| 327 | } |
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| 328 | if(addThisOne) spatialPix.push_back(newpix); |
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| 329 | } |
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| 330 | return spatialPix.size(); |
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| 331 | } |
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| 332 | |
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[3] | 333 | std::ostream& operator<< ( std::ostream& theStream, Detection& obj) |
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| 334 | { |
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| 335 | /** |
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| 336 | * << operator for Detection class |
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| 337 | * A convenient way of printing the coordinate & flux |
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| 338 | * values for each pixel in the Detection |
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[86] | 339 | * --> use as front end to the << operator for Voxels. |
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[3] | 340 | */ |
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| 341 | |
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| 342 | for(int i=0;i<obj.pix.size();i++) theStream << obj.pix[i] << endl; |
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| 343 | theStream<<"---"<<endl; |
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| 344 | } |
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| 345 | |
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| 346 | Detection combineObjects(Detection &first, Detection &second) |
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| 347 | { |
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| 348 | // make the new object |
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| 349 | int *ctr = new int; |
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| 350 | Detection *newObject = new Detection; |
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| 351 | for(*ctr=0;(*ctr)<first.getSize();(*ctr)++){ |
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| 352 | newObject->addPixel(first.getPixel(*ctr)); |
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| 353 | } |
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| 354 | for(*ctr=0;(*ctr)<second.getSize();(*ctr)++){ |
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| 355 | newObject->addPixel(second.getPixel(*ctr)); |
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| 356 | } |
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| 357 | delete ctr; |
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| 358 | newObject->calcParams(); |
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| 359 | return *newObject; |
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| 360 | } |
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| 361 | |
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| 362 | vector <Detection> combineLists(vector <Detection> &first, vector <Detection> &second) |
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| 363 | { |
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| 364 | // make the new object |
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| 365 | vector <Detection> newList(first.size()+second.size()); |
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| 366 | for(int i=0;i<first.size();i++) newList[i] = first[i]; |
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| 367 | for(int i=0;i<second.size();i++) newList[i+first.size()] = second[i]; |
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| 368 | |
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| 369 | return newList; |
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| 370 | } |
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| 371 | |
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