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1 : #if ! defined (Msvis_AveragingTvi2_H_121211_1236) 2 : #define Msvis_AveragingTvi2_H_121211_1236 3 : 4 : #include <casacore/casa/aips.h> 5 : #include <msvis/MSVis/TransformingVi2.h> 6 : #include <msvis/MSVis/VisibilityIterator2.h> 7 : #include <msvis/MSVis/AveragingVi2Factory.h> 8 : 9 : namespace casa { 10 : 11 : namespace ms { 12 : 13 : class MsRow; 14 : 15 : }; 16 : 17 : namespace vi { 18 : 19 : class AveragingOptions; 20 : 21 : namespace avg { 22 : 23 : class MsRowAvg; 24 : class VbAvg; 25 : 26 : } 27 : 28 : class AveragingTvi2 : public TransformingVi2 { 29 : 30 : public: 31 : 32 : AveragingTvi2 (ViImplementation2 * inputVii, 33 : const AveragingParameters & averagingParameters); 34 : ~AveragingTvi2 (); 35 : 36 : // Report the the ViImplementation type 37 0 : virtual casacore::String ViiType() const { return casacore::String("TimeAve( ")+getVii()->ViiType()+" )"; }; 38 : 39 : ///////////////////////////////////////////////////////////////////////// 40 : // 41 : // Chunk/Subchunk structure in the AveragingTvi2 42 : // 43 : // The averaging interval, in seconds, is specified at construction time. 44 : // The interval (i.e., the size of the chunk in time) is also specified 45 : // at creation time; the interval must be an integer multiple of the 46 : // averaging interval. 47 : // 48 : // The input VI's setting must be compatible with those of the 49 : // AveragingTvi2. This means that the chunk size of the input VI must 50 : // have the same duration as the averaging VI. Although the input VI 51 : // and the averaging VI have the same duration, the averaging VI will 52 : // have fewer subchunks since N input subchunks will be averaged down 53 : // to create a single output subchunk. 54 : // 55 : // The input VI will also define the averaging boundaries by its 56 : // definition of a chunk. For example, if the input VI allows data with 57 : // different scans to be in the same chunk, then they will potentially 58 : // be averaged together. 59 : // 60 : // The input VI must use the data description ID as a sort column so that 61 : // a chunk will only contain data from a single DDID setting. 62 : 63 : void originChunks (casacore::Bool forceRewind = false); 64 : void nextChunk (); 65 : casacore::Bool moreChunks () const; 66 : 67 : void origin (); 68 : void next (); 69 : casacore::Bool more () const; 70 : 71 : void writeFlag (const casacore::Cube<casacore::Bool> & flag); 72 : void writeFlagRow (const casacore::Vector<casacore::Bool> & rowflags); 73 : 74 : virtual void visibilityCorrected(casacore::Cube<casacore::Complex>& vis) const; 75 : virtual void visibilityModel(casacore::Cube<casacore::Complex>& vis) const; 76 : virtual void visibilityObserved(casacore::Cube<casacore::Complex>& vis) const; 77 : virtual void floatData(casacore::Cube<casacore::Float>& fcube) const; 78 : virtual void flag(casacore::Cube<casacore::Bool>& flags) const; 79 : virtual void flagRow(casacore::Vector<casacore::Bool>& rowflags) const; 80 : virtual void weight(casacore::Matrix<casacore::Float>& wtmat) const; 81 : virtual void sigma(casacore::Matrix<casacore::Float>& sigmat) const; 82 : virtual void weightSpectrum (casacore::Cube<casacore::Float> & wtsp) const; 83 : virtual void sigmaSpectrum (casacore::Cube<casacore::Float> & sigsp) const; 84 : virtual casacore::Bool weightSpectrumExists () const; 85 : virtual casacore::Bool sigmaSpectrumExists () const; 86 : virtual void exposure (casacore::Vector<double> & expo) const; 87 : virtual void getRowIds (casacore::Vector<casacore::rownr_t> & rowids) const; 88 : virtual void time (casacore::Vector<double> & t) const; 89 : virtual void timeInterval (casacore::Vector<double> & ti) const; 90 : virtual void timeCentroid (casacore::Vector<double> & t) const; 91 : virtual void antenna1 (casacore::Vector<casacore::Int> & ant1) const; 92 : virtual void antenna2 (casacore::Vector<casacore::Int> & ant2) const; 93 : virtual void uvw (casacore::Matrix<double> & uvwmat) const; 94 : 95 : static casacore::Float weightToSigma (casacore::Float weight); 96 811073064 : static inline casacore::Float sigmaToWeight (casacore::Float sigma) 97 : { 98 811073064 : return sigma > FLT_MIN ? 1.0 / (sigma * sigma) : 0.0; // bad sample 99 : } 100 : 101 : 102 : static casacore::Vector<casacore::Float> average (const casacore::Matrix<casacore::Float> &data, const casacore::Matrix<casacore::Bool> &flags); 103 : static casacore::Matrix<casacore::Float> average (const casacore::Cube<casacore::Float> &data, const casacore::Cube<casacore::Bool> &flags); 104 : 105 : protected: 106 : 107 : void advanceInputVii (); 108 : casacore::Int determineDdidToUse () const; 109 : casacore::Bool inputExceedsTimeDistance (ms::MsRow * rowInput, avg::MsRowAvg * rowAveraged); 110 : casacore::Bool inputExceedsUvwDistance (ms::MsRow * rowInput, avg::MsRowAvg * rowAveraged); 111 : void produceSubchunk (); 112 : void processInputSubchunk (const VisBuffer2 *); 113 : // casacore::Bool reachedAveragingBoundary(); 114 : void captureIterationInfo (const VisBuffer2 * vb2); 115 : bool subchunksReady () const; 116 : void validateInputVi (ViImplementation2 *); 117 : 118 : private: 119 : 120 : const casacore::Double averagingInterval_p; // averaging interval in seconds 121 : AveragingOptions averagingOptions_p; 122 : AveragingParameters averagingParameters_p; 123 : casacore::Int ddidLastUsed_p; // ddId last used to produce a subchunk. 124 : casacore::Bool inputViiAdvanced_p; // true if input VII was advanced but data not used 125 : casacore::Bool more_p; 126 : Subchunk subchunk_p; 127 : casacore::Bool subchunkExists_p; 128 : avg::VbAvg * vbAvg_p; 129 : WeightScaling * weightScaling_p; 130 : // Bookkeeping required by writeFlag() and writeFlagRow() 131 : casacore::Int startBuffer_p; 132 : casacore::Int endBuffer_p; 133 : }; 134 : 135 : } // end namespace vi 136 : 137 : } // end namespace casa 138 : 139 : #endif // ! defined (Msvis_AveragingTvi2_H_121211_1236)