[3] | 1 | #ifndef PARAM_H |
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| 2 | #define PARAM_H |
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| 3 | |
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| 4 | #include <iostream> |
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| 5 | #include <string> |
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| 6 | #include <vector> |
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[103] | 7 | #include <wcs.h> |
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[3] | 8 | |
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| 9 | using std::string; |
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| 10 | using std::vector; |
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| 11 | |
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| 12 | /** |
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| 13 | * Param class. |
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| 14 | * Used for storing parameters used by all functions. |
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| 15 | */ |
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[112] | 16 | |
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| 17 | class FitsHeader; // foreshadow this so that Param knows it exists |
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| 18 | |
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[3] | 19 | class Param |
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| 20 | { |
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| 21 | public: |
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| 22 | Param(); |
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| 23 | virtual ~Param(){}; |
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[137] | 24 | Param& operator= (const Param& p); |
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[112] | 25 | void parseSubsection(); // in param.cc |
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| 26 | void readParams(string paramfile); // in param.cc |
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| 27 | void copyHeaderInfo(FitsHeader &head);// in param.cc |
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| 28 | bool isBlank(float &value); // in param.cc |
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[103] | 29 | bool isInMW(int z){return ( this->flagMW && (z>=this->minMW) && (z<=this->maxMW) );}; |
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[112] | 30 | string outputReconFile(); // in param.cc |
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| 31 | string outputResidFile(); // in param.cc |
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[3] | 32 | friend std::ostream& operator<< ( std::ostream& theStream, Param& par); |
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| 33 | friend class Image; |
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| 34 | |
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| 35 | // |
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| 36 | string getImageFile(){return imageFile;}; |
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| 37 | void setImageFile(string fname){imageFile = fname;}; |
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[106] | 38 | string getFullImageFile(){ |
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| 39 | if(flagSubsection) return imageFile+subsection; |
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| 40 | else return imageFile; |
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| 41 | }; |
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[3] | 42 | bool getFlagSubsection(){return flagSubsection;}; |
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| 43 | void setFlagSubsection(bool flag){flagSubsection=flag;}; |
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| 44 | string getSubsection(){return subsection;}; |
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| 45 | void setSubsection(string range){subsection = range;}; |
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[71] | 46 | bool getFlagReconExists(){return flagReconExists;}; |
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| 47 | void setFlagReconExists(bool flag){flagReconExists=flag;}; |
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| 48 | string getReconFile(){return reconFile;}; |
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| 49 | void setReconFile(string file){reconFile = file;}; |
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| 50 | // |
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[3] | 51 | bool getFlagLog(){return flagLog;}; |
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| 52 | void setFlagLog(bool flag){flagLog=flag;}; |
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| 53 | string getLogFile(){return logFile;}; |
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| 54 | void setLogFile(string fname){logFile = fname;}; |
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| 55 | string getOutFile(){return outFile;}; |
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| 56 | void setOutFile(string fname){outFile = fname;}; |
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| 57 | string getSpectraFile(){return spectraFile;}; |
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| 58 | void setSpectraFile(string fname){spectraFile = fname;}; |
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| 59 | bool getFlagOutputRecon(){return flagOutputRecon;}; |
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| 60 | void setFlagOutputRecon(bool flag){flagOutputRecon=flag;}; |
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| 61 | bool getFlagOutputResid(){return flagOutputResid;}; |
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| 62 | void setFlagOutputResid(bool flag){flagOutputResid=flag;}; |
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| 63 | bool getFlagVOT(){return flagVOT;}; |
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| 64 | void setFlagVOT(bool flag){flagVOT=flag;}; |
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| 65 | string getVOTFile(){return votFile;}; |
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| 66 | void setVOTFile(string fname){votFile = fname;}; |
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[20] | 67 | bool getFlagKarma(){return flagKarma;}; |
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| 68 | void setFlagKarma(bool flag){flagKarma=flag;}; |
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| 69 | string getKarmaFile(){return karmaFile;}; |
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| 70 | void setKarmaFile(string fname){karmaFile = fname;}; |
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[3] | 71 | bool getFlagMaps(){return flagMaps;}; |
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| 72 | void setFlagMaps(bool flag){flagMaps=flag;}; |
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| 73 | string getDetectionMap(){return detectionMap;}; |
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| 74 | void setDetectionMap(string fname){detectionMap = fname;}; |
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| 75 | string getMomentMap(){return momentMap;}; |
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| 76 | void setMomentMap(string fname){momentMap = fname;}; |
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| 77 | // |
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[60] | 78 | bool getFlagNegative(){return flagNegative;}; |
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| 79 | void setFlagNegative(bool flag){flagNegative=flag;}; |
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[3] | 80 | bool getFlagBlankPix(){return flagBlankPix;}; |
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| 81 | void setFlagBlankPix(bool flag){flagBlankPix=flag;}; |
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| 82 | float getBlankPixVal(){return blankPixValue;}; |
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| 83 | void setBlankPixVal(float v){blankPixValue=v;}; |
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| 84 | int getBlankKeyword(){return blankKeyword;}; |
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| 85 | void setBlankKeyword(int v){blankKeyword=v;}; |
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| 86 | float getBscaleKeyword(){return bscaleKeyword;}; |
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| 87 | void setBscaleKeyword(float v){bscaleKeyword=v;}; |
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| 88 | float getBzeroKeyword(){return bzeroKeyword;}; |
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| 89 | void setBzeroKeyword(float v){bzeroKeyword=v;}; |
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[103] | 90 | bool getFlagUsingBlank(){return flagUsingBlank;}; |
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| 91 | void setFlagUsingBlank(bool b){flagUsingBlank=b;}; |
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[3] | 92 | bool getFlagMW(){return flagMW;}; |
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| 93 | bool setFlagMW(bool flag){flagMW=flag;}; |
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| 94 | int getMaxMW(){return maxMW;}; |
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| 95 | void setMaxMW(int m){maxMW=m;}; |
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| 96 | int getMinMW(){return minMW;}; |
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| 97 | void setMinMW(int m){minMW=m;}; |
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| 98 | void setBeamSize(float s){numPixBeam = s;}; |
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| 99 | float getBeamSize(){return numPixBeam;}; |
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| 100 | // |
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| 101 | bool getFlagCubeTrimmed(){return flagTrimmed;}; |
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| 102 | void setFlagCubeTrimmed(bool flag){flagTrimmed = flag;}; |
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| 103 | long getBorderLeft(){return borderLeft;}; |
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| 104 | void setBorderLeft(long b){borderLeft = b;}; |
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| 105 | long getBorderRight(){return borderRight;}; |
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| 106 | void setBorderRight(long b){borderRight = b;}; |
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| 107 | long getBorderBottom(){return borderBottom;}; |
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| 108 | void setBorderBottom(long b){borderBottom = b;}; |
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| 109 | long getBorderTop(){return borderTop;}; |
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| 110 | void setBorderTop(long b){borderTop = b;}; |
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| 111 | // |
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| 112 | long getXOffset(){return xSubOffset;}; |
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| 113 | void setXOffset(long o){xSubOffset = o;}; |
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| 114 | long getYOffset(){return ySubOffset;}; |
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| 115 | void setYOffset(long o){ySubOffset = o;}; |
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| 116 | long getZOffset(){return zSubOffset;}; |
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| 117 | void setZOffset(long o){zSubOffset = o;}; |
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| 118 | // |
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| 119 | int getMinPix(){return minPix;}; |
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| 120 | void setMinPix(int m){minPix=m;}; |
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| 121 | // |
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| 122 | bool getFlagGrowth(){return flagGrowth;}; |
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| 123 | void setFlagGrowth(bool flag){flagGrowth=flag;}; |
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| 124 | float getGrowthCut(){return growthCut;}; |
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| 125 | void setGrowthCut(float c){growthCut=c;}; |
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| 126 | // |
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| 127 | bool getFlagFDR(){return flagFDR;}; |
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| 128 | void setFlagFDR(bool flag){flagFDR=flag;}; |
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| 129 | float getAlpha(){return alphaFDR;}; |
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| 130 | void setAlpha(float a){alphaFDR=a;}; |
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| 131 | // |
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| 132 | bool getFlagBaseline(){return flagBaseline;}; |
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| 133 | void setFlagBaseline(bool flag){flagBaseline = flag;}; |
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| 134 | // |
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| 135 | float getCut(){return snrCut;}; |
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| 136 | void setCut(float c){snrCut=c;}; |
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| 137 | // |
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| 138 | bool getFlagATrous(){return flagATrous;}; |
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| 139 | void setFlagATrous(bool flag){flagATrous=flag;}; |
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[103] | 140 | int getReconDim(){return reconDim;}; |
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| 141 | void setReconDim(int i){reconDim=i;}; |
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[3] | 142 | int getMinScale(){return scaleMin;}; |
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| 143 | void setMinScale(int s){scaleMin=s;}; |
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| 144 | float getAtrousCut(){return snrRecon;}; |
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| 145 | void setAtrousCut(float c){snrRecon=c;}; |
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| 146 | int getFilterCode(){return filterCode;}; |
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| 147 | void setFilterCode(int c){filterCode=c;}; |
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| 148 | string getFilterName(){return filterName;}; |
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| 149 | void setFilterName(string s){filterName=s;}; |
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| 150 | // |
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| 151 | bool getFlagAdjacent(){return flagAdjacent;}; |
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| 152 | void setFlagAdjacent(bool flag){flagAdjacent=flag;}; |
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| 153 | float getThreshS(){return threshSpatial;}; |
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| 154 | void setThreshS(float t){threshSpatial=t;}; |
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| 155 | float getThreshV(){return threshVelocity;}; |
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| 156 | void setThreshV(float t){threshVelocity=t;}; |
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| 157 | int getMinChannels(){return minChannels;}; |
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| 158 | void setMinChannels(int n){minChannels=n;}; |
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| 159 | // |
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[45] | 160 | string getSpectralMethod(){return spectralMethod;}; |
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| 161 | void setSpectralMethod(string s){spectralMethod=s;}; |
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[103] | 162 | string getSpectralUnits(){return spectralUnits;}; |
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| 163 | void setSpectralUnits(string s){spectralUnits=s;}; |
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[3] | 164 | bool drawBorders(){return borders;}; |
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| 165 | void setDrawBorders(bool f){borders=f;}; |
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[142] | 166 | bool drawBlankEdge(){return blankEdge;}; |
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| 167 | void setDrawBlankEdge(bool f){blankEdge=f;}; |
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[3] | 168 | bool isVerbose(){return verbose;}; |
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| 169 | void setVerbosity(bool f){verbose=f;}; |
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| 170 | |
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| 171 | private: |
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| 172 | // Input files |
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| 173 | string imageFile; // The image to be analysed. |
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| 174 | bool flagSubsection; // Whether we just want a subsection of the image |
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[142] | 175 | string subsection; // The subsection requested, taking the form |
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| 176 | // [x1:x2,y1:y2,z1:z2] |
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| 177 | // If you want the full range of one index, use * |
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[71] | 178 | bool flagReconExists; // The reconstructed array is in a FITS file on disk. |
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| 179 | string reconFile; // The FITS file containing the reconstructed array. |
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| 180 | |
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[3] | 181 | // Output files |
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| 182 | bool flagLog; // Should we do the intermediate logging? |
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| 183 | string logFile; // Where the intermediate logging goes. |
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| 184 | string outFile; // Where the final results get put. |
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| 185 | string spectraFile; // Where the spectra are displayed |
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| 186 | bool flagOutputRecon; // Should the reconstructed cube be written? |
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| 187 | bool flagOutputResid; // Should the reconstructed cube be written? |
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| 188 | bool flagVOT; // Should we save results in VOTable format? |
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| 189 | string votFile; // Where the VOTable goes. |
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[20] | 190 | bool flagKarma; // Should we save results in Karma annotation format? |
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| 191 | string karmaFile; // Where the Karma annotation file goes. |
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[142] | 192 | bool flagMaps; // Should we produce detection and moment maps |
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| 193 | // in postscript form? |
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[3] | 194 | string detectionMap; // The name of the detection map (ps file). |
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[17] | 195 | string momentMap; // The name of the 0th moment map (ps file). |
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[3] | 196 | |
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| 197 | // Cube related parameters |
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[120] | 198 | bool flagNegative; // Are we going to search for negative features? |
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| 199 | bool flagBlankPix; // A flag that indicates whether there are pixels |
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| 200 | // defined as BLANK and whether we need to remove |
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| 201 | // & ignore them in processing. |
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[3] | 202 | float blankPixValue; // Pixel value that is considered BLANK. |
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| 203 | int blankKeyword; // The FITS header keyword BLANK. |
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| 204 | float bscaleKeyword; // The FITS header keyword BSCALE. |
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| 205 | float bzeroKeyword; // The FITS header keyword BZERO. |
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[112] | 206 | bool flagUsingBlank; // If true, we are using the blankPixValue keyword, |
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[142] | 207 | // otherwise we use the value in the FITS header. |
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| 208 | bool flagMW; // A flag that indicates whether to ignore the |
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| 209 | // Milky Way channels. |
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[3] | 210 | int maxMW; // Last Galactic velocity plane for HIPASS cubes |
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| 211 | int minMW; // First Galactic velocity plane for HIPASS cubes |
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| 212 | float numPixBeam; // Size (area) of the beam in pixels. |
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| 213 | // Trim-related |
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[142] | 214 | bool flagTrimmed; // Has the cube been trimmed of excess BLANKs |
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| 215 | // around the edge? |
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| 216 | long borderLeft; // The number of BLANK pixels trimmed from the |
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| 217 | // Left of the cube; |
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| 218 | long borderRight; // The number trimmed from the Right of the cube; |
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| 219 | long borderBottom; // The number trimmed from the Bottom of the cube; |
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| 220 | long borderTop; // The number trimmed from the Top of the cube; |
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[3] | 221 | // Subsection offsets |
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| 222 | long xSubOffset; // The offset in the x-direction from the subsection |
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| 223 | long ySubOffset; // The offset in the y-direction from the subsection |
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| 224 | long zSubOffset; // The offset in the z-direction from the subsection |
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| 225 | // Baseline related; |
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[142] | 226 | bool flagBaseline; // Whether to do baseline subtraction before |
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| 227 | // reconstruction and/or searching. |
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[3] | 228 | // Detection-related |
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[142] | 229 | int minPix; // Minimum number of pixels for a detected object |
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| 230 | // to be counted |
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[3] | 231 | // Object growth |
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| 232 | bool flagGrowth; // Are we growing objects once they are found? |
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| 233 | float growthCut; // The SNR that we are growing objects down to. |
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| 234 | // FDR analysis |
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| 235 | bool flagFDR; // Should the FDR method be used? |
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| 236 | float alphaFDR; // Alpha value for FDR detection algorithm |
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| 237 | // Other detection |
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[142] | 238 | float snrCut; // How many sigma above mean is a detection |
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| 239 | // when sigma-clipping |
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[3] | 240 | // A trous reconstruction parameters |
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| 241 | bool flagATrous; // Are we using the a trous reconstruction? |
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[103] | 242 | int reconDim; // How many dimensions to use for the reconstruction? |
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[3] | 243 | int scaleMin; // Min scale used in a trous reconstruction |
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| 244 | float snrRecon; // SNR cutoff used in a trous reconstruction |
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[142] | 245 | // (only wavelet coefficients that survive this |
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| 246 | // threshold are kept) |
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| 247 | int filterCode; // The code number for the filter to be used |
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| 248 | // (saves having to parse names) |
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| 249 | string filterName; // The code number converted into a name, |
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| 250 | // for outputting purposes. |
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[3] | 251 | |
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| 252 | // Volume-merging parameters |
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| 253 | bool flagAdjacent; // Whether to use the adjacent criterion for |
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| 254 | // judging if objects are to be merged. |
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| 255 | float threshSpatial; // Maximum spatial separation between objects |
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| 256 | float threshVelocity; // Maximum channels separation between objects |
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| 257 | int minChannels; // Minimum no. of channels to make an object |
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| 258 | // Input-Output related |
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[142] | 259 | string spectralMethod; // A string indicating choice of spectral plotting |
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| 260 | // method: choices are "peak" (default) or "sum" |
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| 261 | string spectralUnits; // A string indicating what units the spectral |
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| 262 | // axis should be quoted in. |
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[3] | 263 | bool borders; // Whether to draw a border around the individual |
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[142] | 264 | // pixels of a detection in the spectral display |
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| 265 | bool blankEdge; // Whether to draw a border around the BLANK pixel |
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| 266 | // region in the moment maps and cutout images |
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| 267 | bool verbose; // Whether to use maximum verbosity -- use progress |
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| 268 | // indicators in the reconstruction & merging steps. |
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[3] | 269 | |
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| 270 | }; |
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| 271 | |
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[103] | 272 | class FitsHeader |
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| 273 | { |
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| 274 | /** |
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| 275 | * FitsHeader Class |
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| 276 | * |
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| 277 | * Stores information from a FITS header, including WCS information |
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| 278 | * in the form of a wcsprm struct, as well as various keywords. |
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| 279 | */ |
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[3] | 280 | |
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[103] | 281 | public: |
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| 282 | FitsHeader(); |
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| 283 | ~FitsHeader(){}; |
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| 284 | FitsHeader(const FitsHeader& h); |
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| 285 | FitsHeader& operator= (const FitsHeader& h); |
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| 286 | |
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| 287 | wcsprm *getWCS(); // in param.cc |
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| 288 | void setWCS(wcsprm *w); // in param.cc |
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| 289 | bool isWCS(){return wcsIsGood;}; |
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| 290 | int getNWCS(){return nwcs;}; |
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| 291 | void setNWCS(int i){nwcs=i;}; |
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| 292 | string getSpectralUnits(){return spectralUnits;}; |
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| 293 | void setSpectralUnits(string s){spectralUnits=s;}; |
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| 294 | string getFluxUnits(){return fluxUnits;}; |
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| 295 | void setFluxUnits(string s){fluxUnits=s;}; |
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| 296 | string getIntFluxUnits(){return intFluxUnits;}; |
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| 297 | void setIntFluxUnits(string s){intFluxUnits=s;}; |
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| 298 | float getBeamSize(){return beamSize;}; |
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| 299 | void setBeamSize(float f){beamSize=f;}; |
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| 300 | float getBmajKeyword(){return bmajKeyword;}; |
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| 301 | void setBmajKeyword(float f){bmajKeyword=f;}; |
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| 302 | float getBminKeyword(){return bminKeyword;}; |
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| 303 | void setBminKeyword(float f){bminKeyword=f;}; |
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[112] | 304 | int getBlankKeyword(){return blankKeyword;}; |
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| 305 | void setBlankKeyword(int f){blankKeyword=f;}; |
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[103] | 306 | float getBzeroKeyword(){return bzeroKeyword;}; |
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| 307 | void setBzeroKeyword(float f){bzeroKeyword=f;}; |
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| 308 | float getBscaleKeyword(){return bscaleKeyword;}; |
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| 309 | void setBscaleKeyword(float f){bscaleKeyword=f;}; |
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[145] | 310 | float getAvPixScale(){ |
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| 311 | return sqrt( fabs ( (wcs->pc[0]*wcs->cdelt[0])* |
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| 312 | (wcs->pc[wcs->naxis+1]*wcs->cdelt[1]))); |
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| 313 | }; |
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[103] | 314 | |
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| 315 | // front ends to WCS functions |
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| 316 | int wcsToPix(const double *world, double *pix); |
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| 317 | int pixToWCS(const double *pix, double *world); |
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| 318 | int wcsToPix(const double *world, double *pix, const int npts); |
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| 319 | int pixToWCS(const double *pix, double *world, const int npts); |
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| 320 | double pixToVel(double &x, double &y, double &z); |
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| 321 | double *pixToVel(double &x, double &y, double *zarray, int size); |
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| 322 | double specToVel(const double &z); |
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| 323 | double velToSpec(const float &vel); |
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| 324 | string getIAUName(double ra, double dec); |
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| 325 | |
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| 326 | void fixUnits(Param &par); |
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| 327 | |
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| 328 | private: |
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| 329 | wcsprm *wcs; // The WCS parameters for the cube -- a struct from wcslib |
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| 330 | int nwcs; // The number of WCS parameters |
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| 331 | bool wcsIsGood; // A flag indicating whether there is a valid WCS present. |
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| 332 | string spectralUnits; // The units of the spectral dimension |
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| 333 | string fluxUnits; // The units of pixel flux (from header) |
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| 334 | string intFluxUnits; // The units of pixel flux (from header) |
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| 335 | float beamSize; // The calculated beam size in pixels. |
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| 336 | float bmajKeyword; // The FITS header keyword BMAJ. |
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| 337 | float bminKeyword; // The FITS header keyword BMIN. |
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[112] | 338 | int blankKeyword; // The FITS header keyword BLANK. |
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[103] | 339 | float bzeroKeyword; // The FITS header keyword BZERO. |
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| 340 | float bscaleKeyword; // The FITS header keyword BSCALE. |
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| 341 | double scale; // scale parameter for converting spectral coords |
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| 342 | double offset; // offset parameter for converting spectral coords |
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| 343 | double power; // power parameter for converting spectral coords |
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| 344 | }; |
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| 345 | |
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| 346 | string makelower( string s ); |
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| 347 | |
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[3] | 348 | #endif |
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