1 | // |
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2 | // C++ Implementation: Scantable |
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3 | // |
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4 | // Description: |
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5 | // |
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6 | // |
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7 | // Author: Malte Marquarding <asap@atnf.csiro.au>, (C) 2005 |
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8 | // |
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9 | // Copyright: See COPYING file that comes with this distribution |
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10 | // |
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11 | // |
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12 | #include <map> |
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13 | #include <sys/time.h> |
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14 | |
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15 | #include <atnf/PKSIO/SrcType.h> |
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16 | |
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17 | #include <casa/aips.h> |
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18 | #include <casa/iomanip.h> |
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19 | #include <casa/iostream.h> |
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20 | #include <casa/OS/File.h> |
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21 | #include <casa/OS/Path.h> |
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22 | #include <casa/Logging/LogIO.h> |
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23 | #include <casa/Arrays/Array.h> |
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24 | #include <casa/Arrays/ArrayAccessor.h> |
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25 | #include <casa/Arrays/ArrayLogical.h> |
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26 | #include <casa/Arrays/ArrayMath.h> |
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27 | #include <casa/Arrays/MaskArrMath.h> |
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28 | #include <casa/Arrays/Slice.h> |
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29 | #include <casa/Arrays/Vector.h> |
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30 | #include <casa/Arrays/VectorSTLIterator.h> |
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31 | #include <casa/BasicMath/Math.h> |
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32 | #include <casa/BasicSL/Constants.h> |
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33 | #include <casa/Containers/RecordField.h> |
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34 | #include <casa/Logging/LogIO.h> |
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35 | #include <casa/Quanta/MVAngle.h> |
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36 | #include <casa/Quanta/MVTime.h> |
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37 | #include <casa/Utilities/GenSort.h> |
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38 | |
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39 | #include <coordinates/Coordinates/CoordinateUtil.h> |
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40 | |
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41 | // needed to avoid error in .tcc |
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42 | #include <measures/Measures/MCDirection.h> |
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43 | // |
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44 | #include <measures/Measures/MDirection.h> |
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45 | #include <measures/Measures/MEpoch.h> |
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46 | #include <measures/Measures/MFrequency.h> |
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47 | #include <measures/Measures/MeasRef.h> |
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48 | #include <measures/Measures/MeasTable.h> |
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49 | #include <measures/TableMeasures/ScalarMeasColumn.h> |
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50 | #include <measures/TableMeasures/TableMeasDesc.h> |
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51 | #include <measures/TableMeasures/TableMeasRefDesc.h> |
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52 | #include <measures/TableMeasures/TableMeasValueDesc.h> |
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53 | |
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54 | #include <tables/Tables/ArrColDesc.h> |
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55 | #include <tables/Tables/ExprNode.h> |
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56 | #include <tables/Tables/ScaColDesc.h> |
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57 | #include <tables/Tables/SetupNewTab.h> |
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58 | #include <tables/Tables/TableCopy.h> |
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59 | #include <tables/Tables/TableDesc.h> |
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60 | #include <tables/Tables/TableIter.h> |
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61 | #include <tables/Tables/TableParse.h> |
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62 | #include <tables/Tables/TableRecord.h> |
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63 | #include <tables/Tables/TableRow.h> |
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64 | #include <tables/Tables/TableVector.h> |
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65 | |
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66 | #include "MathUtils.h" |
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67 | #include "STAttr.h" |
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68 | #include "STBaselineTable.h" |
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69 | #include "STLineFinder.h" |
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70 | #include "STPolCircular.h" |
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71 | #include "STPolLinear.h" |
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72 | #include "STPolStokes.h" |
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73 | #include "STUpgrade.h" |
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74 | #include "STFitter.h" |
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75 | #include "Scantable.h" |
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76 | |
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77 | #define debug 1 |
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78 | |
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79 | using namespace casa; |
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80 | |
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81 | namespace asap { |
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82 | |
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83 | std::map<std::string, STPol::STPolFactory *> Scantable::factories_; |
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84 | |
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85 | void Scantable::initFactories() { |
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86 | if ( factories_.empty() ) { |
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87 | Scantable::factories_["linear"] = &STPolLinear::myFactory; |
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88 | Scantable::factories_["circular"] = &STPolCircular::myFactory; |
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89 | Scantable::factories_["stokes"] = &STPolStokes::myFactory; |
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90 | } |
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91 | } |
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92 | |
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93 | Scantable::Scantable(Table::TableType ttype) : |
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94 | type_(ttype) |
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95 | { |
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96 | initFactories(); |
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97 | setupMainTable(); |
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98 | freqTable_ = STFrequencies(*this); |
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99 | table_.rwKeywordSet().defineTable("FREQUENCIES", freqTable_.table()); |
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100 | weatherTable_ = STWeather(*this); |
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101 | table_.rwKeywordSet().defineTable("WEATHER", weatherTable_.table()); |
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102 | focusTable_ = STFocus(*this); |
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103 | table_.rwKeywordSet().defineTable("FOCUS", focusTable_.table()); |
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104 | tcalTable_ = STTcal(*this); |
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105 | table_.rwKeywordSet().defineTable("TCAL", tcalTable_.table()); |
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106 | moleculeTable_ = STMolecules(*this); |
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107 | table_.rwKeywordSet().defineTable("MOLECULES", moleculeTable_.table()); |
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108 | historyTable_ = STHistory(*this); |
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109 | table_.rwKeywordSet().defineTable("HISTORY", historyTable_.table()); |
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110 | fitTable_ = STFit(*this); |
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111 | table_.rwKeywordSet().defineTable("FIT", fitTable_.table()); |
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112 | table_.tableInfo().setType( "Scantable" ) ; |
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113 | originalTable_ = table_; |
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114 | attach(); |
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115 | } |
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116 | |
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117 | Scantable::Scantable(const std::string& name, Table::TableType ttype) : |
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118 | type_(ttype) |
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119 | { |
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120 | initFactories(); |
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121 | |
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122 | Table tab(name, Table::Update); |
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123 | uInt version = tab.keywordSet().asuInt("VERSION"); |
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124 | if (version != version_) { |
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125 | STUpgrade upgrader(version_); |
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126 | LogIO os( LogOrigin( "Scantable" ) ) ; |
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127 | os << LogIO::WARN |
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128 | << name << " data format version " << version |
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129 | << " is deprecated" << endl |
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130 | << "Running upgrade."<< endl |
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131 | << LogIO::POST ; |
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132 | std::string outname = upgrader.upgrade(name); |
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133 | if ( outname != name ) { |
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134 | os << LogIO::WARN |
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135 | << "Data will be loaded from " << outname << " instead of " |
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136 | << name << LogIO::POST ; |
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137 | tab = Table(outname, Table::Update ) ; |
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138 | } |
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139 | } |
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140 | if ( type_ == Table::Memory ) { |
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141 | table_ = tab.copyToMemoryTable(generateName()); |
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142 | } else { |
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143 | table_ = tab; |
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144 | } |
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145 | table_.tableInfo().setType( "Scantable" ) ; |
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146 | |
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147 | attachSubtables(); |
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148 | originalTable_ = table_; |
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149 | attach(); |
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150 | } |
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151 | /* |
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152 | Scantable::Scantable(const std::string& name, Table::TableType ttype) : |
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153 | type_(ttype) |
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154 | { |
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155 | initFactories(); |
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156 | Table tab(name, Table::Update); |
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157 | uInt version = tab.keywordSet().asuInt("VERSION"); |
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158 | if (version != version_) { |
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159 | throw(AipsError("Unsupported version of ASAP file.")); |
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160 | } |
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161 | if ( type_ == Table::Memory ) { |
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162 | table_ = tab.copyToMemoryTable(generateName()); |
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163 | } else { |
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164 | table_ = tab; |
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165 | } |
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166 | |
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167 | attachSubtables(); |
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168 | originalTable_ = table_; |
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169 | attach(); |
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170 | } |
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171 | */ |
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172 | |
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173 | Scantable::Scantable( const Scantable& other, bool clear ) |
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174 | { |
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175 | // with or without data |
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176 | String newname = String(generateName()); |
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177 | type_ = other.table_.tableType(); |
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178 | if ( other.table_.tableType() == Table::Memory ) { |
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179 | if ( clear ) { |
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180 | table_ = TableCopy::makeEmptyMemoryTable(newname, |
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181 | other.table_, True); |
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182 | } else |
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183 | table_ = other.table_.copyToMemoryTable(newname); |
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184 | } else { |
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185 | other.table_.deepCopy(newname, Table::New, False, |
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186 | other.table_.endianFormat(), |
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187 | Bool(clear)); |
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188 | table_ = Table(newname, Table::Update); |
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189 | table_.markForDelete(); |
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190 | } |
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191 | table_.tableInfo().setType( "Scantable" ) ; |
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192 | /// @todo reindex SCANNO, recompute nbeam, nif, npol |
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193 | if ( clear ) copySubtables(other); |
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194 | attachSubtables(); |
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195 | originalTable_ = table_; |
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196 | attach(); |
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197 | } |
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198 | |
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199 | void Scantable::copySubtables(const Scantable& other) { |
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200 | Table t = table_.rwKeywordSet().asTable("FREQUENCIES"); |
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201 | TableCopy::copyRows(t, other.freqTable_.table()); |
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202 | t = table_.rwKeywordSet().asTable("FOCUS"); |
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203 | TableCopy::copyRows(t, other.focusTable_.table()); |
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204 | t = table_.rwKeywordSet().asTable("WEATHER"); |
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205 | TableCopy::copyRows(t, other.weatherTable_.table()); |
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206 | t = table_.rwKeywordSet().asTable("TCAL"); |
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207 | TableCopy::copyRows(t, other.tcalTable_.table()); |
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208 | t = table_.rwKeywordSet().asTable("MOLECULES"); |
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209 | TableCopy::copyRows(t, other.moleculeTable_.table()); |
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210 | t = table_.rwKeywordSet().asTable("HISTORY"); |
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211 | TableCopy::copyRows(t, other.historyTable_.table()); |
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212 | t = table_.rwKeywordSet().asTable("FIT"); |
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213 | TableCopy::copyRows(t, other.fitTable_.table()); |
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214 | } |
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215 | |
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216 | void Scantable::attachSubtables() |
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217 | { |
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218 | freqTable_ = STFrequencies(table_); |
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219 | focusTable_ = STFocus(table_); |
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220 | weatherTable_ = STWeather(table_); |
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221 | tcalTable_ = STTcal(table_); |
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222 | moleculeTable_ = STMolecules(table_); |
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223 | historyTable_ = STHistory(table_); |
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224 | fitTable_ = STFit(table_); |
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225 | } |
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226 | |
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227 | Scantable::~Scantable() |
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228 | { |
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229 | } |
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230 | |
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231 | void Scantable::setupMainTable() |
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232 | { |
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233 | TableDesc td("", "1", TableDesc::Scratch); |
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234 | td.comment() = "An ASAP Scantable"; |
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235 | td.rwKeywordSet().define("VERSION", uInt(version_)); |
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236 | |
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237 | // n Cycles |
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238 | td.addColumn(ScalarColumnDesc<uInt>("SCANNO")); |
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239 | // new index every nBeam x nIF x nPol |
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240 | td.addColumn(ScalarColumnDesc<uInt>("CYCLENO")); |
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241 | |
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242 | td.addColumn(ScalarColumnDesc<uInt>("BEAMNO")); |
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243 | td.addColumn(ScalarColumnDesc<uInt>("IFNO")); |
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244 | // linear, circular, stokes |
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245 | td.rwKeywordSet().define("POLTYPE", String("linear")); |
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246 | td.addColumn(ScalarColumnDesc<uInt>("POLNO")); |
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247 | |
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248 | td.addColumn(ScalarColumnDesc<uInt>("FREQ_ID")); |
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249 | td.addColumn(ScalarColumnDesc<uInt>("MOLECULE_ID")); |
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250 | |
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251 | ScalarColumnDesc<Int> refbeamnoColumn("REFBEAMNO"); |
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252 | refbeamnoColumn.setDefault(Int(-1)); |
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253 | td.addColumn(refbeamnoColumn); |
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254 | |
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255 | ScalarColumnDesc<uInt> flagrowColumn("FLAGROW"); |
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256 | flagrowColumn.setDefault(uInt(0)); |
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257 | td.addColumn(flagrowColumn); |
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258 | |
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259 | td.addColumn(ScalarColumnDesc<Double>("TIME")); |
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260 | TableMeasRefDesc measRef(MEpoch::UTC); // UTC as default |
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261 | TableMeasValueDesc measVal(td, "TIME"); |
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262 | TableMeasDesc<MEpoch> mepochCol(measVal, measRef); |
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263 | mepochCol.write(td); |
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264 | |
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265 | td.addColumn(ScalarColumnDesc<Double>("INTERVAL")); |
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266 | |
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267 | td.addColumn(ScalarColumnDesc<String>("SRCNAME")); |
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268 | // Type of source (on=0, off=1, other=-1) |
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269 | ScalarColumnDesc<Int> stypeColumn("SRCTYPE"); |
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270 | stypeColumn.setDefault(Int(-1)); |
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271 | td.addColumn(stypeColumn); |
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272 | td.addColumn(ScalarColumnDesc<String>("FIELDNAME")); |
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273 | |
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274 | //The actual Data Vectors |
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275 | td.addColumn(ArrayColumnDesc<Float>("SPECTRA")); |
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276 | td.addColumn(ArrayColumnDesc<uChar>("FLAGTRA")); |
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277 | td.addColumn(ArrayColumnDesc<Float>("TSYS")); |
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278 | |
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279 | td.addColumn(ArrayColumnDesc<Double>("DIRECTION", |
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280 | IPosition(1,2), |
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281 | ColumnDesc::Direct)); |
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282 | TableMeasRefDesc mdirRef(MDirection::J2000); // default |
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283 | TableMeasValueDesc tmvdMDir(td, "DIRECTION"); |
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284 | // the TableMeasDesc gives the column a type |
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285 | TableMeasDesc<MDirection> mdirCol(tmvdMDir, mdirRef); |
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286 | // a uder set table type e.g. GALCTIC, B1950 ... |
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287 | td.rwKeywordSet().define("DIRECTIONREF", String("J2000")); |
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288 | // writing create the measure column |
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289 | mdirCol.write(td); |
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290 | td.addColumn(ScalarColumnDesc<Float>("AZIMUTH")); |
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291 | td.addColumn(ScalarColumnDesc<Float>("ELEVATION")); |
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292 | td.addColumn(ScalarColumnDesc<Float>("OPACITY")); |
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293 | |
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294 | td.addColumn(ScalarColumnDesc<uInt>("TCAL_ID")); |
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295 | ScalarColumnDesc<Int> fitColumn("FIT_ID"); |
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296 | fitColumn.setDefault(Int(-1)); |
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297 | td.addColumn(fitColumn); |
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298 | |
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299 | td.addColumn(ScalarColumnDesc<uInt>("FOCUS_ID")); |
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300 | td.addColumn(ScalarColumnDesc<uInt>("WEATHER_ID")); |
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301 | |
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302 | // columns which just get dragged along, as they aren't used in asap |
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303 | td.addColumn(ScalarColumnDesc<Double>("SRCVELOCITY")); |
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304 | td.addColumn(ArrayColumnDesc<Double>("SRCPROPERMOTION")); |
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305 | td.addColumn(ArrayColumnDesc<Double>("SRCDIRECTION")); |
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306 | td.addColumn(ArrayColumnDesc<Double>("SCANRATE")); |
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307 | |
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308 | td.rwKeywordSet().define("OBSMODE", String("")); |
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309 | |
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310 | // Now create Table SetUp from the description. |
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311 | SetupNewTable aNewTab(generateName(), td, Table::Scratch); |
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312 | table_ = Table(aNewTab, type_, 0); |
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313 | originalTable_ = table_; |
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314 | } |
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315 | |
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316 | void Scantable::attach() |
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317 | { |
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318 | timeCol_.attach(table_, "TIME"); |
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319 | srcnCol_.attach(table_, "SRCNAME"); |
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320 | srctCol_.attach(table_, "SRCTYPE"); |
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321 | specCol_.attach(table_, "SPECTRA"); |
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322 | flagsCol_.attach(table_, "FLAGTRA"); |
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323 | tsysCol_.attach(table_, "TSYS"); |
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324 | cycleCol_.attach(table_,"CYCLENO"); |
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325 | scanCol_.attach(table_, "SCANNO"); |
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326 | beamCol_.attach(table_, "BEAMNO"); |
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327 | ifCol_.attach(table_, "IFNO"); |
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328 | polCol_.attach(table_, "POLNO"); |
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329 | integrCol_.attach(table_, "INTERVAL"); |
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330 | azCol_.attach(table_, "AZIMUTH"); |
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331 | elCol_.attach(table_, "ELEVATION"); |
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332 | dirCol_.attach(table_, "DIRECTION"); |
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333 | fldnCol_.attach(table_, "FIELDNAME"); |
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334 | rbeamCol_.attach(table_, "REFBEAMNO"); |
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335 | |
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336 | mweatheridCol_.attach(table_,"WEATHER_ID"); |
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337 | mfitidCol_.attach(table_,"FIT_ID"); |
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338 | mfreqidCol_.attach(table_, "FREQ_ID"); |
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339 | mtcalidCol_.attach(table_, "TCAL_ID"); |
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340 | mfocusidCol_.attach(table_, "FOCUS_ID"); |
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341 | mmolidCol_.attach(table_, "MOLECULE_ID"); |
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342 | |
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343 | //Add auxiliary column for row-based flagging (CAS-1433 Wataru Kawasaki) |
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344 | attachAuxColumnDef(flagrowCol_, "FLAGROW", 0); |
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345 | |
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346 | } |
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347 | |
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348 | template<class T, class T2> |
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349 | void Scantable::attachAuxColumnDef(ScalarColumn<T>& col, |
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350 | const String& colName, |
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351 | const T2& defValue) |
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352 | { |
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353 | try { |
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354 | col.attach(table_, colName); |
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355 | } catch (TableError& err) { |
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356 | String errMesg = err.getMesg(); |
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357 | if (errMesg == "Table column " + colName + " is unknown") { |
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358 | table_.addColumn(ScalarColumnDesc<T>(colName)); |
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359 | col.attach(table_, colName); |
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360 | col.fillColumn(static_cast<T>(defValue)); |
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361 | } else { |
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362 | throw; |
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363 | } |
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364 | } catch (...) { |
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365 | throw; |
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366 | } |
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367 | } |
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368 | |
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369 | template<class T, class T2> |
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370 | void Scantable::attachAuxColumnDef(ArrayColumn<T>& col, |
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371 | const String& colName, |
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372 | const Array<T2>& defValue) |
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373 | { |
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374 | try { |
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375 | col.attach(table_, colName); |
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376 | } catch (TableError& err) { |
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377 | String errMesg = err.getMesg(); |
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378 | if (errMesg == "Table column " + colName + " is unknown") { |
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379 | table_.addColumn(ArrayColumnDesc<T>(colName)); |
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380 | col.attach(table_, colName); |
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381 | |
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382 | int size = 0; |
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383 | ArrayIterator<T2>& it = defValue.begin(); |
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384 | while (it != defValue.end()) { |
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385 | ++size; |
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386 | ++it; |
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387 | } |
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388 | IPosition ip(1, size); |
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389 | Array<T>& arr(ip); |
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390 | for (int i = 0; i < size; ++i) |
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391 | arr[i] = static_cast<T>(defValue[i]); |
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392 | |
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393 | col.fillColumn(arr); |
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394 | } else { |
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395 | throw; |
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396 | } |
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397 | } catch (...) { |
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398 | throw; |
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399 | } |
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400 | } |
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401 | |
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402 | void Scantable::setHeader(const STHeader& sdh) |
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403 | { |
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404 | table_.rwKeywordSet().define("nIF", sdh.nif); |
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405 | table_.rwKeywordSet().define("nBeam", sdh.nbeam); |
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406 | table_.rwKeywordSet().define("nPol", sdh.npol); |
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407 | table_.rwKeywordSet().define("nChan", sdh.nchan); |
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408 | table_.rwKeywordSet().define("Observer", sdh.observer); |
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409 | table_.rwKeywordSet().define("Project", sdh.project); |
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410 | table_.rwKeywordSet().define("Obstype", sdh.obstype); |
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411 | table_.rwKeywordSet().define("AntennaName", sdh.antennaname); |
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412 | table_.rwKeywordSet().define("AntennaPosition", sdh.antennaposition); |
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413 | table_.rwKeywordSet().define("Equinox", sdh.equinox); |
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414 | table_.rwKeywordSet().define("FreqRefFrame", sdh.freqref); |
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415 | table_.rwKeywordSet().define("FreqRefVal", sdh.reffreq); |
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416 | table_.rwKeywordSet().define("Bandwidth", sdh.bandwidth); |
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417 | table_.rwKeywordSet().define("UTC", sdh.utc); |
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418 | table_.rwKeywordSet().define("FluxUnit", sdh.fluxunit); |
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419 | table_.rwKeywordSet().define("Epoch", sdh.epoch); |
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420 | table_.rwKeywordSet().define("POLTYPE", sdh.poltype); |
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421 | } |
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422 | |
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423 | STHeader Scantable::getHeader() const |
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424 | { |
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425 | STHeader sdh; |
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426 | table_.keywordSet().get("nBeam",sdh.nbeam); |
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427 | table_.keywordSet().get("nIF",sdh.nif); |
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428 | table_.keywordSet().get("nPol",sdh.npol); |
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429 | table_.keywordSet().get("nChan",sdh.nchan); |
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430 | table_.keywordSet().get("Observer", sdh.observer); |
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431 | table_.keywordSet().get("Project", sdh.project); |
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432 | table_.keywordSet().get("Obstype", sdh.obstype); |
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433 | table_.keywordSet().get("AntennaName", sdh.antennaname); |
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434 | table_.keywordSet().get("AntennaPosition", sdh.antennaposition); |
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435 | table_.keywordSet().get("Equinox", sdh.equinox); |
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436 | table_.keywordSet().get("FreqRefFrame", sdh.freqref); |
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437 | table_.keywordSet().get("FreqRefVal", sdh.reffreq); |
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438 | table_.keywordSet().get("Bandwidth", sdh.bandwidth); |
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439 | table_.keywordSet().get("UTC", sdh.utc); |
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440 | table_.keywordSet().get("FluxUnit", sdh.fluxunit); |
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441 | table_.keywordSet().get("Epoch", sdh.epoch); |
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442 | table_.keywordSet().get("POLTYPE", sdh.poltype); |
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443 | return sdh; |
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444 | } |
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445 | |
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446 | void Scantable::setSourceType( int stype ) |
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447 | { |
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448 | if ( stype < 0 || stype > 1 ) |
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449 | throw(AipsError("Illegal sourcetype.")); |
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450 | TableVector<Int> tabvec(table_, "SRCTYPE"); |
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451 | tabvec = Int(stype); |
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452 | } |
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453 | |
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454 | bool Scantable::conformant( const Scantable& other ) |
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455 | { |
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456 | return this->getHeader().conformant(other.getHeader()); |
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457 | } |
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458 | |
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459 | |
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460 | |
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461 | std::string Scantable::formatSec(Double x) const |
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462 | { |
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463 | Double xcop = x; |
---|
464 | MVTime mvt(xcop/24./3600.); // make days |
---|
465 | |
---|
466 | if (x < 59.95) |
---|
467 | return String(" ") + mvt.string(MVTime::TIME_CLEAN_NO_HM, 7)+"s"; |
---|
468 | else if (x < 3599.95) |
---|
469 | return String(" ") + mvt.string(MVTime::TIME_CLEAN_NO_H,7)+" "; |
---|
470 | else { |
---|
471 | ostringstream oss; |
---|
472 | oss << setw(2) << std::right << setprecision(1) << mvt.hour(); |
---|
473 | oss << ":" << mvt.string(MVTime::TIME_CLEAN_NO_H,7) << " "; |
---|
474 | return String(oss); |
---|
475 | } |
---|
476 | }; |
---|
477 | |
---|
478 | std::string Scantable::formatDirection(const MDirection& md) const |
---|
479 | { |
---|
480 | Vector<Double> t = md.getAngle(Unit(String("rad"))).getValue(); |
---|
481 | Int prec = 7; |
---|
482 | |
---|
483 | String ref = md.getRefString(); |
---|
484 | MVAngle mvLon(t[0]); |
---|
485 | String sLon = mvLon.string(MVAngle::TIME,prec); |
---|
486 | uInt tp = md.getRef().getType(); |
---|
487 | if (tp == MDirection::GALACTIC || |
---|
488 | tp == MDirection::SUPERGAL ) { |
---|
489 | sLon = mvLon(0.0).string(MVAngle::ANGLE_CLEAN,prec); |
---|
490 | } |
---|
491 | MVAngle mvLat(t[1]); |
---|
492 | String sLat = mvLat.string(MVAngle::ANGLE+MVAngle::DIG2,prec); |
---|
493 | return ref + String(" ") + sLon + String(" ") + sLat; |
---|
494 | } |
---|
495 | |
---|
496 | |
---|
497 | std::string Scantable::getFluxUnit() const |
---|
498 | { |
---|
499 | return table_.keywordSet().asString("FluxUnit"); |
---|
500 | } |
---|
501 | |
---|
502 | void Scantable::setFluxUnit(const std::string& unit) |
---|
503 | { |
---|
504 | String tmp(unit); |
---|
505 | Unit tU(tmp); |
---|
506 | if (tU==Unit("K") || tU==Unit("Jy")) { |
---|
507 | table_.rwKeywordSet().define(String("FluxUnit"), tmp); |
---|
508 | } else { |
---|
509 | throw AipsError("Illegal unit - must be compatible with Jy or K"); |
---|
510 | } |
---|
511 | } |
---|
512 | |
---|
513 | void Scantable::setInstrument(const std::string& name) |
---|
514 | { |
---|
515 | bool throwIt = true; |
---|
516 | // create an Instrument to see if this is valid |
---|
517 | STAttr::convertInstrument(name, throwIt); |
---|
518 | String nameU(name); |
---|
519 | nameU.upcase(); |
---|
520 | table_.rwKeywordSet().define(String("AntennaName"), nameU); |
---|
521 | } |
---|
522 | |
---|
523 | void Scantable::setFeedType(const std::string& feedtype) |
---|
524 | { |
---|
525 | if ( Scantable::factories_.find(feedtype) == Scantable::factories_.end() ) { |
---|
526 | std::string msg = "Illegal feed type "+ feedtype; |
---|
527 | throw(casa::AipsError(msg)); |
---|
528 | } |
---|
529 | table_.rwKeywordSet().define(String("POLTYPE"), feedtype); |
---|
530 | } |
---|
531 | |
---|
532 | MPosition Scantable::getAntennaPosition() const |
---|
533 | { |
---|
534 | Vector<Double> antpos; |
---|
535 | table_.keywordSet().get("AntennaPosition", antpos); |
---|
536 | MVPosition mvpos(antpos(0),antpos(1),antpos(2)); |
---|
537 | return MPosition(mvpos); |
---|
538 | } |
---|
539 | |
---|
540 | void Scantable::makePersistent(const std::string& filename) |
---|
541 | { |
---|
542 | String inname(filename); |
---|
543 | Path path(inname); |
---|
544 | /// @todo reindex SCANNO, recompute nbeam, nif, npol |
---|
545 | inname = path.expandedName(); |
---|
546 | // 2011/03/04 TN |
---|
547 | // We can comment out this workaround since the essential bug is |
---|
548 | // fixed in casacore (r20889 in google code). |
---|
549 | table_.deepCopy(inname, Table::New); |
---|
550 | // // WORKAROUND !!! for Table bug |
---|
551 | // // Remove when fixed in casacore |
---|
552 | // if ( table_.tableType() == Table::Memory && !selector_.empty() ) { |
---|
553 | // Table tab = table_.copyToMemoryTable(generateName()); |
---|
554 | // tab.deepCopy(inname, Table::New); |
---|
555 | // tab.markForDelete(); |
---|
556 | // |
---|
557 | // } else { |
---|
558 | // table_.deepCopy(inname, Table::New); |
---|
559 | // } |
---|
560 | } |
---|
561 | |
---|
562 | int Scantable::nbeam( int scanno ) const |
---|
563 | { |
---|
564 | if ( scanno < 0 ) { |
---|
565 | Int n; |
---|
566 | table_.keywordSet().get("nBeam",n); |
---|
567 | return int(n); |
---|
568 | } else { |
---|
569 | // take the first POLNO,IFNO,CYCLENO as nbeam shouldn't vary with these |
---|
570 | Table t = table_(table_.col("SCANNO") == scanno); |
---|
571 | ROTableRow row(t); |
---|
572 | const TableRecord& rec = row.get(0); |
---|
573 | Table subt = t( t.col("IFNO") == Int(rec.asuInt("IFNO")) |
---|
574 | && t.col("POLNO") == Int(rec.asuInt("POLNO")) |
---|
575 | && t.col("CYCLENO") == Int(rec.asuInt("CYCLENO")) ); |
---|
576 | ROTableVector<uInt> v(subt, "BEAMNO"); |
---|
577 | return int(v.nelements()); |
---|
578 | } |
---|
579 | return 0; |
---|
580 | } |
---|
581 | |
---|
582 | int Scantable::nif( int scanno ) const |
---|
583 | { |
---|
584 | if ( scanno < 0 ) { |
---|
585 | Int n; |
---|
586 | table_.keywordSet().get("nIF",n); |
---|
587 | return int(n); |
---|
588 | } else { |
---|
589 | // take the first POLNO,BEAMNO,CYCLENO as nbeam shouldn't vary with these |
---|
590 | Table t = table_(table_.col("SCANNO") == scanno); |
---|
591 | ROTableRow row(t); |
---|
592 | const TableRecord& rec = row.get(0); |
---|
593 | Table subt = t( t.col("BEAMNO") == Int(rec.asuInt("BEAMNO")) |
---|
594 | && t.col("POLNO") == Int(rec.asuInt("POLNO")) |
---|
595 | && t.col("CYCLENO") == Int(rec.asuInt("CYCLENO")) ); |
---|
596 | if ( subt.nrow() == 0 ) return 0; |
---|
597 | ROTableVector<uInt> v(subt, "IFNO"); |
---|
598 | return int(v.nelements()); |
---|
599 | } |
---|
600 | return 0; |
---|
601 | } |
---|
602 | |
---|
603 | int Scantable::npol( int scanno ) const |
---|
604 | { |
---|
605 | if ( scanno < 0 ) { |
---|
606 | Int n; |
---|
607 | table_.keywordSet().get("nPol",n); |
---|
608 | return n; |
---|
609 | } else { |
---|
610 | // take the first POLNO,IFNO,CYCLENO as nbeam shouldn't vary with these |
---|
611 | Table t = table_(table_.col("SCANNO") == scanno); |
---|
612 | ROTableRow row(t); |
---|
613 | const TableRecord& rec = row.get(0); |
---|
614 | Table subt = t( t.col("BEAMNO") == Int(rec.asuInt("BEAMNO")) |
---|
615 | && t.col("IFNO") == Int(rec.asuInt("IFNO")) |
---|
616 | && t.col("CYCLENO") == Int(rec.asuInt("CYCLENO")) ); |
---|
617 | if ( subt.nrow() == 0 ) return 0; |
---|
618 | ROTableVector<uInt> v(subt, "POLNO"); |
---|
619 | return int(v.nelements()); |
---|
620 | } |
---|
621 | return 0; |
---|
622 | } |
---|
623 | |
---|
624 | int Scantable::ncycle( int scanno ) const |
---|
625 | { |
---|
626 | if ( scanno < 0 ) { |
---|
627 | Block<String> cols(2); |
---|
628 | cols[0] = "SCANNO"; |
---|
629 | cols[1] = "CYCLENO"; |
---|
630 | TableIterator it(table_, cols); |
---|
631 | int n = 0; |
---|
632 | while ( !it.pastEnd() ) { |
---|
633 | ++n; |
---|
634 | ++it; |
---|
635 | } |
---|
636 | return n; |
---|
637 | } else { |
---|
638 | Table t = table_(table_.col("SCANNO") == scanno); |
---|
639 | ROTableRow row(t); |
---|
640 | const TableRecord& rec = row.get(0); |
---|
641 | Table subt = t( t.col("BEAMNO") == Int(rec.asuInt("BEAMNO")) |
---|
642 | && t.col("POLNO") == Int(rec.asuInt("POLNO")) |
---|
643 | && t.col("IFNO") == Int(rec.asuInt("IFNO")) ); |
---|
644 | if ( subt.nrow() == 0 ) return 0; |
---|
645 | return int(subt.nrow()); |
---|
646 | } |
---|
647 | return 0; |
---|
648 | } |
---|
649 | |
---|
650 | |
---|
651 | int Scantable::nrow( int scanno ) const |
---|
652 | { |
---|
653 | return int(table_.nrow()); |
---|
654 | } |
---|
655 | |
---|
656 | int Scantable::nchan( int ifno ) const |
---|
657 | { |
---|
658 | if ( ifno < 0 ) { |
---|
659 | Int n; |
---|
660 | table_.keywordSet().get("nChan",n); |
---|
661 | return int(n); |
---|
662 | } else { |
---|
663 | // take the first SCANNO,POLNO,BEAMNO,CYCLENO as nbeam shouldn't |
---|
664 | // vary with these |
---|
665 | Table t = table_(table_.col("IFNO") == ifno, 1); |
---|
666 | if ( t.nrow() == 0 ) return 0; |
---|
667 | ROArrayColumn<Float> v(t, "SPECTRA"); |
---|
668 | return v.shape(0)(0); |
---|
669 | } |
---|
670 | return 0; |
---|
671 | } |
---|
672 | |
---|
673 | int Scantable::nscan() const { |
---|
674 | Vector<uInt> scannos(scanCol_.getColumn()); |
---|
675 | uInt nout = genSort( scannos, Sort::Ascending, |
---|
676 | Sort::QuickSort|Sort::NoDuplicates ); |
---|
677 | return int(nout); |
---|
678 | } |
---|
679 | |
---|
680 | int Scantable::getChannels(int whichrow) const |
---|
681 | { |
---|
682 | return specCol_.shape(whichrow)(0); |
---|
683 | } |
---|
684 | |
---|
685 | int Scantable::getBeam(int whichrow) const |
---|
686 | { |
---|
687 | return beamCol_(whichrow); |
---|
688 | } |
---|
689 | |
---|
690 | std::vector<uint> Scantable::getNumbers(const ScalarColumn<uInt>& col) const |
---|
691 | { |
---|
692 | Vector<uInt> nos(col.getColumn()); |
---|
693 | uInt n = genSort( nos, Sort::Ascending, Sort::QuickSort|Sort::NoDuplicates ); |
---|
694 | nos.resize(n, True); |
---|
695 | std::vector<uint> stlout; |
---|
696 | nos.tovector(stlout); |
---|
697 | return stlout; |
---|
698 | } |
---|
699 | |
---|
700 | int Scantable::getIF(int whichrow) const |
---|
701 | { |
---|
702 | return ifCol_(whichrow); |
---|
703 | } |
---|
704 | |
---|
705 | int Scantable::getPol(int whichrow) const |
---|
706 | { |
---|
707 | return polCol_(whichrow); |
---|
708 | } |
---|
709 | |
---|
710 | std::string Scantable::formatTime(const MEpoch& me, bool showdate) const |
---|
711 | { |
---|
712 | return formatTime(me, showdate, 0); |
---|
713 | } |
---|
714 | |
---|
715 | std::string Scantable::formatTime(const MEpoch& me, bool showdate, uInt prec) const |
---|
716 | { |
---|
717 | MVTime mvt(me.getValue()); |
---|
718 | if (showdate) |
---|
719 | //mvt.setFormat(MVTime::YMD); |
---|
720 | mvt.setFormat(MVTime::YMD, prec); |
---|
721 | else |
---|
722 | //mvt.setFormat(MVTime::TIME); |
---|
723 | mvt.setFormat(MVTime::TIME, prec); |
---|
724 | ostringstream oss; |
---|
725 | oss << mvt; |
---|
726 | return String(oss); |
---|
727 | } |
---|
728 | |
---|
729 | void Scantable::calculateAZEL() |
---|
730 | { |
---|
731 | LogIO os( LogOrigin( "Scantable", "calculateAZEL()", WHERE ) ) ; |
---|
732 | MPosition mp = getAntennaPosition(); |
---|
733 | MEpoch::ROScalarColumn timeCol(table_, "TIME"); |
---|
734 | ostringstream oss; |
---|
735 | oss << mp; |
---|
736 | os << "Computed azimuth/elevation using " << endl |
---|
737 | << String(oss) << endl; |
---|
738 | for (Int i=0; i<nrow(); ++i) { |
---|
739 | MEpoch me = timeCol(i); |
---|
740 | MDirection md = getDirection(i); |
---|
741 | os << " Time: " << formatTime(me,False) |
---|
742 | << " Direction: " << formatDirection(md) |
---|
743 | << endl << " => "; |
---|
744 | MeasFrame frame(mp, me); |
---|
745 | Vector<Double> azel = |
---|
746 | MDirection::Convert(md, MDirection::Ref(MDirection::AZEL, |
---|
747 | frame) |
---|
748 | )().getAngle("rad").getValue(); |
---|
749 | azCol_.put(i,Float(azel[0])); |
---|
750 | elCol_.put(i,Float(azel[1])); |
---|
751 | os << "azel: " << azel[0]/C::pi*180.0 << " " |
---|
752 | << azel[1]/C::pi*180.0 << " (deg)" << LogIO::POST; |
---|
753 | } |
---|
754 | } |
---|
755 | |
---|
756 | void Scantable::clip(const Float uthres, const Float dthres, bool clipoutside, bool unflag) |
---|
757 | { |
---|
758 | for (uInt i=0; i<table_.nrow(); ++i) { |
---|
759 | Vector<uChar> flgs = flagsCol_(i); |
---|
760 | srchChannelsToClip(i, uthres, dthres, clipoutside, unflag, flgs); |
---|
761 | flagsCol_.put(i, flgs); |
---|
762 | } |
---|
763 | } |
---|
764 | |
---|
765 | std::vector<bool> Scantable::getClipMask(int whichrow, const Float uthres, const Float dthres, bool clipoutside, bool unflag) |
---|
766 | { |
---|
767 | Vector<uChar> flags; |
---|
768 | flagsCol_.get(uInt(whichrow), flags); |
---|
769 | srchChannelsToClip(uInt(whichrow), uthres, dthres, clipoutside, unflag, flags); |
---|
770 | Vector<Bool> bflag(flags.shape()); |
---|
771 | convertArray(bflag, flags); |
---|
772 | //bflag = !bflag; |
---|
773 | |
---|
774 | std::vector<bool> mask; |
---|
775 | bflag.tovector(mask); |
---|
776 | return mask; |
---|
777 | } |
---|
778 | |
---|
779 | void Scantable::srchChannelsToClip(uInt whichrow, const Float uthres, const Float dthres, bool clipoutside, bool unflag, |
---|
780 | Vector<uChar> flgs) |
---|
781 | { |
---|
782 | Vector<Float> spcs = specCol_(whichrow); |
---|
783 | uInt nchannel = spcs.nelements(); |
---|
784 | if (spcs.nelements() != nchannel) { |
---|
785 | throw(AipsError("Data has incorrect number of channels")); |
---|
786 | } |
---|
787 | uChar userflag = 1 << 7; |
---|
788 | if (unflag) { |
---|
789 | userflag = 0 << 7; |
---|
790 | } |
---|
791 | if (clipoutside) { |
---|
792 | for (uInt j = 0; j < nchannel; ++j) { |
---|
793 | Float spc = spcs(j); |
---|
794 | if ((spc >= uthres) || (spc <= dthres)) { |
---|
795 | flgs(j) = userflag; |
---|
796 | } |
---|
797 | } |
---|
798 | } else { |
---|
799 | for (uInt j = 0; j < nchannel; ++j) { |
---|
800 | Float spc = spcs(j); |
---|
801 | if ((spc < uthres) && (spc > dthres)) { |
---|
802 | flgs(j) = userflag; |
---|
803 | } |
---|
804 | } |
---|
805 | } |
---|
806 | } |
---|
807 | |
---|
808 | |
---|
809 | void Scantable::flag( int whichrow, const std::vector<bool>& msk, bool unflag ) { |
---|
810 | std::vector<bool>::const_iterator it; |
---|
811 | uInt ntrue = 0; |
---|
812 | if (whichrow >= int(table_.nrow()) ) { |
---|
813 | throw(AipsError("Invalid row number")); |
---|
814 | } |
---|
815 | for (it = msk.begin(); it != msk.end(); ++it) { |
---|
816 | if ( *it ) { |
---|
817 | ntrue++; |
---|
818 | } |
---|
819 | } |
---|
820 | //if ( selector_.empty() && (msk.size() == 0 || msk.size() == ntrue) ) |
---|
821 | if ( whichrow == -1 && !unflag && selector_.empty() && (msk.size() == 0 || msk.size() == ntrue) ) |
---|
822 | throw(AipsError("Trying to flag whole scantable.")); |
---|
823 | uChar userflag = 1 << 7; |
---|
824 | if ( unflag ) { |
---|
825 | userflag = 0 << 7; |
---|
826 | } |
---|
827 | if (whichrow > -1 ) { |
---|
828 | applyChanFlag(uInt(whichrow), msk, userflag); |
---|
829 | } else { |
---|
830 | for ( uInt i=0; i<table_.nrow(); ++i) { |
---|
831 | applyChanFlag(i, msk, userflag); |
---|
832 | } |
---|
833 | } |
---|
834 | } |
---|
835 | |
---|
836 | void Scantable::applyChanFlag( uInt whichrow, const std::vector<bool>& msk, uChar flagval ) |
---|
837 | { |
---|
838 | if (whichrow >= table_.nrow() ) { |
---|
839 | throw( casa::indexError<int>( whichrow, "asap::Scantable::applyChanFlag: Invalid row number" ) ); |
---|
840 | } |
---|
841 | Vector<uChar> flgs = flagsCol_(whichrow); |
---|
842 | if ( msk.size() == 0 ) { |
---|
843 | flgs = flagval; |
---|
844 | flagsCol_.put(whichrow, flgs); |
---|
845 | return; |
---|
846 | } |
---|
847 | if ( int(msk.size()) != nchan( getIF(whichrow) ) ) { |
---|
848 | throw(AipsError("Mask has incorrect number of channels.")); |
---|
849 | } |
---|
850 | if ( flgs.nelements() != msk.size() ) { |
---|
851 | throw(AipsError("Mask has incorrect number of channels." |
---|
852 | " Probably varying with IF. Please flag per IF")); |
---|
853 | } |
---|
854 | std::vector<bool>::const_iterator it; |
---|
855 | uInt j = 0; |
---|
856 | for (it = msk.begin(); it != msk.end(); ++it) { |
---|
857 | if ( *it ) { |
---|
858 | flgs(j) = flagval; |
---|
859 | } |
---|
860 | ++j; |
---|
861 | } |
---|
862 | flagsCol_.put(whichrow, flgs); |
---|
863 | } |
---|
864 | |
---|
865 | void Scantable::flagRow(const std::vector<uInt>& rows, bool unflag) |
---|
866 | { |
---|
867 | if (selector_.empty() && (rows.size() == table_.nrow()) && !unflag) |
---|
868 | throw(AipsError("Trying to flag whole scantable.")); |
---|
869 | |
---|
870 | uInt rowflag = (unflag ? 0 : 1); |
---|
871 | std::vector<uInt>::const_iterator it; |
---|
872 | for (it = rows.begin(); it != rows.end(); ++it) |
---|
873 | flagrowCol_.put(*it, rowflag); |
---|
874 | } |
---|
875 | |
---|
876 | std::vector<bool> Scantable::getMask(int whichrow) const |
---|
877 | { |
---|
878 | Vector<uChar> flags; |
---|
879 | flagsCol_.get(uInt(whichrow), flags); |
---|
880 | Vector<Bool> bflag(flags.shape()); |
---|
881 | convertArray(bflag, flags); |
---|
882 | bflag = !bflag; |
---|
883 | std::vector<bool> mask; |
---|
884 | bflag.tovector(mask); |
---|
885 | return mask; |
---|
886 | } |
---|
887 | |
---|
888 | std::vector<float> Scantable::getSpectrum( int whichrow, |
---|
889 | const std::string& poltype ) const |
---|
890 | { |
---|
891 | LogIO os( LogOrigin( "Scantable", "getSpectrum()", WHERE ) ) ; |
---|
892 | |
---|
893 | String ptype = poltype; |
---|
894 | if (poltype == "" ) ptype = getPolType(); |
---|
895 | if ( whichrow < 0 || whichrow >= nrow() ) |
---|
896 | throw(AipsError("Illegal row number.")); |
---|
897 | std::vector<float> out; |
---|
898 | Vector<Float> arr; |
---|
899 | uInt requestedpol = polCol_(whichrow); |
---|
900 | String basetype = getPolType(); |
---|
901 | if ( ptype == basetype ) { |
---|
902 | specCol_.get(whichrow, arr); |
---|
903 | } else { |
---|
904 | CountedPtr<STPol> stpol(STPol::getPolClass(Scantable::factories_, |
---|
905 | basetype)); |
---|
906 | uInt row = uInt(whichrow); |
---|
907 | stpol->setSpectra(getPolMatrix(row)); |
---|
908 | Float fang,fhand; |
---|
909 | fang = focusTable_.getTotalAngle(mfocusidCol_(row)); |
---|
910 | fhand = focusTable_.getFeedHand(mfocusidCol_(row)); |
---|
911 | stpol->setPhaseCorrections(fang, fhand); |
---|
912 | arr = stpol->getSpectrum(requestedpol, ptype); |
---|
913 | } |
---|
914 | if ( arr.nelements() == 0 ) |
---|
915 | |
---|
916 | os << "Not enough polarisations present to do the conversion." |
---|
917 | << LogIO::POST; |
---|
918 | arr.tovector(out); |
---|
919 | return out; |
---|
920 | } |
---|
921 | |
---|
922 | void Scantable::setSpectrum( const std::vector<float>& spec, |
---|
923 | int whichrow ) |
---|
924 | { |
---|
925 | Vector<Float> spectrum(spec); |
---|
926 | Vector<Float> arr; |
---|
927 | specCol_.get(whichrow, arr); |
---|
928 | if ( spectrum.nelements() != arr.nelements() ) |
---|
929 | throw AipsError("The spectrum has incorrect number of channels."); |
---|
930 | specCol_.put(whichrow, spectrum); |
---|
931 | } |
---|
932 | |
---|
933 | |
---|
934 | String Scantable::generateName() |
---|
935 | { |
---|
936 | return (File::newUniqueName("./","temp")).baseName(); |
---|
937 | } |
---|
938 | |
---|
939 | const casa::Table& Scantable::table( ) const |
---|
940 | { |
---|
941 | return table_; |
---|
942 | } |
---|
943 | |
---|
944 | casa::Table& Scantable::table( ) |
---|
945 | { |
---|
946 | return table_; |
---|
947 | } |
---|
948 | |
---|
949 | std::string Scantable::getPolType() const |
---|
950 | { |
---|
951 | return table_.keywordSet().asString("POLTYPE"); |
---|
952 | } |
---|
953 | |
---|
954 | void Scantable::unsetSelection() |
---|
955 | { |
---|
956 | table_ = originalTable_; |
---|
957 | attach(); |
---|
958 | selector_.reset(); |
---|
959 | } |
---|
960 | |
---|
961 | void Scantable::setSelection( const STSelector& selection ) |
---|
962 | { |
---|
963 | Table tab = const_cast<STSelector&>(selection).apply(originalTable_); |
---|
964 | if ( tab.nrow() == 0 ) { |
---|
965 | throw(AipsError("Selection contains no data. Not applying it.")); |
---|
966 | } |
---|
967 | table_ = tab; |
---|
968 | attach(); |
---|
969 | // tab.rwKeywordSet().define("nBeam",(Int)(getBeamNos().size())) ; |
---|
970 | // vector<uint> selectedIFs = getIFNos() ; |
---|
971 | // Int newnIF = selectedIFs.size() ; |
---|
972 | // tab.rwKeywordSet().define("nIF",newnIF) ; |
---|
973 | // if ( newnIF != 0 ) { |
---|
974 | // Int newnChan = 0 ; |
---|
975 | // for ( Int i = 0 ; i < newnIF ; i++ ) { |
---|
976 | // Int nChan = nchan( selectedIFs[i] ) ; |
---|
977 | // if ( newnChan > nChan ) |
---|
978 | // newnChan = nChan ; |
---|
979 | // } |
---|
980 | // tab.rwKeywordSet().define("nChan",newnChan) ; |
---|
981 | // } |
---|
982 | // tab.rwKeywordSet().define("nPol",(Int)(getPolNos().size())) ; |
---|
983 | selector_ = selection; |
---|
984 | } |
---|
985 | |
---|
986 | |
---|
987 | std::string Scantable::headerSummary() |
---|
988 | { |
---|
989 | // Format header info |
---|
990 | // STHeader sdh; |
---|
991 | // sdh = getHeader(); |
---|
992 | // sdh.print(); |
---|
993 | ostringstream oss; |
---|
994 | oss.flags(std::ios_base::left); |
---|
995 | String tmp; |
---|
996 | // Project |
---|
997 | table_.keywordSet().get("Project", tmp); |
---|
998 | oss << setw(15) << "Project:" << tmp << endl; |
---|
999 | // Observation date |
---|
1000 | oss << setw(15) << "Obs Date:" << getTime(-1,true) << endl; |
---|
1001 | // Observer |
---|
1002 | oss << setw(15) << "Observer:" |
---|
1003 | << table_.keywordSet().asString("Observer") << endl; |
---|
1004 | // Antenna Name |
---|
1005 | table_.keywordSet().get("AntennaName", tmp); |
---|
1006 | oss << setw(15) << "Antenna Name:" << tmp << endl; |
---|
1007 | // Obs type |
---|
1008 | table_.keywordSet().get("Obstype", tmp); |
---|
1009 | // Records (nrow) |
---|
1010 | oss << setw(15) << "Data Records:" << table_.nrow() << " rows" << endl; |
---|
1011 | oss << setw(15) << "Obs. Type:" << tmp << endl; |
---|
1012 | // Beams, IFs, Polarizations, and Channels |
---|
1013 | oss << setw(15) << "Beams:" << setw(4) << nbeam() << endl |
---|
1014 | << setw(15) << "IFs:" << setw(4) << nif() << endl |
---|
1015 | << setw(15) << "Polarisations:" << setw(4) << npol() |
---|
1016 | << "(" << getPolType() << ")" << endl |
---|
1017 | << setw(15) << "Channels:" << nchan() << endl; |
---|
1018 | // Flux unit |
---|
1019 | table_.keywordSet().get("FluxUnit", tmp); |
---|
1020 | oss << setw(15) << "Flux Unit:" << tmp << endl; |
---|
1021 | // Abscissa Unit |
---|
1022 | oss << setw(15) << "Abscissa:" << getAbcissaLabel(0) << endl; |
---|
1023 | // Selection |
---|
1024 | oss << selector_.print() << endl; |
---|
1025 | |
---|
1026 | return String(oss); |
---|
1027 | } |
---|
1028 | |
---|
1029 | void Scantable::summary( const std::string& filename ) |
---|
1030 | { |
---|
1031 | ostringstream oss; |
---|
1032 | ofstream ofs; |
---|
1033 | LogIO ols(LogOrigin("Scantable", "summary", WHERE)); |
---|
1034 | |
---|
1035 | if (filename != "") |
---|
1036 | ofs.open( filename.c_str(), ios::out ); |
---|
1037 | |
---|
1038 | oss << endl; |
---|
1039 | oss << asap::SEPERATOR << endl; |
---|
1040 | oss << " Scan Table Summary" << endl; |
---|
1041 | oss << asap::SEPERATOR << endl; |
---|
1042 | |
---|
1043 | // Format header info |
---|
1044 | oss << headerSummary(); |
---|
1045 | oss << endl; |
---|
1046 | |
---|
1047 | if (table_.nrow() <= 0){ |
---|
1048 | oss << asap::SEPERATOR << endl; |
---|
1049 | oss << "The MAIN table is empty: there are no data!!!" << endl; |
---|
1050 | oss << asap::SEPERATOR << endl; |
---|
1051 | |
---|
1052 | ols << String(oss) << LogIO::POST; |
---|
1053 | if (ofs) { |
---|
1054 | ofs << String(oss) << flush; |
---|
1055 | ofs.close(); |
---|
1056 | } |
---|
1057 | return; |
---|
1058 | } |
---|
1059 | |
---|
1060 | |
---|
1061 | |
---|
1062 | // main table |
---|
1063 | String dirtype = "Position (" |
---|
1064 | + getDirectionRefString() |
---|
1065 | + ")"; |
---|
1066 | oss.flags(std::ios_base::left); |
---|
1067 | oss << setw(5) << "Scan" |
---|
1068 | << setw(15) << "Source" |
---|
1069 | << setw(35) << "Time range" |
---|
1070 | << setw(2) << "" << setw(7) << "Int[s]" |
---|
1071 | << setw(7) << "Record" |
---|
1072 | << setw(8) << "SrcType" |
---|
1073 | << setw(8) << "FreqIDs" |
---|
1074 | << setw(7) << "MolIDs" << endl; |
---|
1075 | oss << setw(7)<< "" << setw(6) << "Beam" |
---|
1076 | << setw(23) << dirtype << endl; |
---|
1077 | |
---|
1078 | oss << asap::SEPERATOR << endl; |
---|
1079 | |
---|
1080 | // Flush summary and clear up the string |
---|
1081 | ols << String(oss) << LogIO::POST; |
---|
1082 | if (ofs) ofs << String(oss) << flush; |
---|
1083 | oss.str(""); |
---|
1084 | oss.clear(); |
---|
1085 | |
---|
1086 | |
---|
1087 | // Get Freq_ID map |
---|
1088 | ROScalarColumn<uInt> ftabIds(frequencies().table(), "ID"); |
---|
1089 | Int nfid = ftabIds.nrow(); |
---|
1090 | if (nfid <= 0){ |
---|
1091 | oss << "FREQUENCIES subtable is empty: there are no data!!!" << endl; |
---|
1092 | oss << asap::SEPERATOR << endl; |
---|
1093 | |
---|
1094 | ols << String(oss) << LogIO::POST; |
---|
1095 | if (ofs) { |
---|
1096 | ofs << String(oss) << flush; |
---|
1097 | ofs.close(); |
---|
1098 | } |
---|
1099 | return; |
---|
1100 | } |
---|
1101 | // Storages of overall IFNO, POLNO, and nchan per FREQ_ID |
---|
1102 | // the orders are identical to ID in FREQ subtable |
---|
1103 | Block< Vector<uInt> > ifNos(nfid), polNos(nfid); |
---|
1104 | Vector<Int> fIdchans(nfid,-1); |
---|
1105 | map<uInt, Int> fidMap; // (FREQ_ID, row # in FREQ subtable) pair |
---|
1106 | for (Int i=0; i < nfid; i++){ |
---|
1107 | // fidMap[freqId] returns row number in FREQ subtable |
---|
1108 | fidMap.insert(pair<uInt, Int>(ftabIds(i),i)); |
---|
1109 | ifNos[i] = Vector<uInt>(); |
---|
1110 | polNos[i] = Vector<uInt>(); |
---|
1111 | } |
---|
1112 | |
---|
1113 | TableIterator iter(table_, "SCANNO"); |
---|
1114 | |
---|
1115 | // Vars for keeping track of time, freqids, molIds in a SCANNO |
---|
1116 | Vector<uInt> freqids; |
---|
1117 | Vector<uInt> molids; |
---|
1118 | Vector<uInt> beamids(1,0); |
---|
1119 | Vector<MDirection> beamDirs; |
---|
1120 | Vector<Int> stypeids(1,0); |
---|
1121 | Vector<String> stypestrs; |
---|
1122 | Int nfreq(1); |
---|
1123 | Int nmol(1); |
---|
1124 | uInt nbeam(1); |
---|
1125 | uInt nstype(1); |
---|
1126 | |
---|
1127 | Double btime(0.0), etime(0.0); |
---|
1128 | Double meanIntTim(0.0); |
---|
1129 | |
---|
1130 | uInt currFreqId(0), ftabRow(0); |
---|
1131 | Int iflen(0), pollen(0); |
---|
1132 | |
---|
1133 | while (!iter.pastEnd()) { |
---|
1134 | Table subt = iter.table(); |
---|
1135 | uInt snrow = subt.nrow(); |
---|
1136 | ROTableRow row(subt); |
---|
1137 | const TableRecord& rec = row.get(0); |
---|
1138 | |
---|
1139 | // relevant columns |
---|
1140 | ROScalarColumn<Double> mjdCol(subt,"TIME"); |
---|
1141 | ROScalarColumn<Double> intervalCol(subt,"INTERVAL"); |
---|
1142 | MDirection::ROScalarColumn dirCol(subt,"DIRECTION"); |
---|
1143 | |
---|
1144 | ScalarColumn<uInt> freqIdCol(subt,"FREQ_ID"); |
---|
1145 | ScalarColumn<uInt> molIdCol(subt,"MOLECULE_ID"); |
---|
1146 | ROScalarColumn<uInt> beamCol(subt,"BEAMNO"); |
---|
1147 | ROScalarColumn<Int> stypeCol(subt,"SRCTYPE"); |
---|
1148 | |
---|
1149 | ROScalarColumn<uInt> ifNoCol(subt,"IFNO"); |
---|
1150 | ROScalarColumn<uInt> polNoCol(subt,"POLNO"); |
---|
1151 | |
---|
1152 | |
---|
1153 | // Times |
---|
1154 | meanIntTim = sum(intervalCol.getColumn()) / (double) snrow; |
---|
1155 | minMax(btime, etime, mjdCol.getColumn()); |
---|
1156 | etime += meanIntTim/C::day; |
---|
1157 | |
---|
1158 | // MOLECULE_ID and FREQ_ID |
---|
1159 | molids = getNumbers(molIdCol); |
---|
1160 | molids.shape(nmol); |
---|
1161 | |
---|
1162 | freqids = getNumbers(freqIdCol); |
---|
1163 | freqids.shape(nfreq); |
---|
1164 | |
---|
1165 | // Add first beamid, and srcNames |
---|
1166 | beamids.resize(1,False); |
---|
1167 | beamDirs.resize(1,False); |
---|
1168 | beamids(0)=beamCol(0); |
---|
1169 | beamDirs(0)=dirCol(0); |
---|
1170 | nbeam = 1; |
---|
1171 | |
---|
1172 | stypeids.resize(1,False); |
---|
1173 | stypeids(0)=stypeCol(0); |
---|
1174 | nstype = 1; |
---|
1175 | |
---|
1176 | // Global listings of nchan/IFNO/POLNO per FREQ_ID |
---|
1177 | currFreqId=freqIdCol(0); |
---|
1178 | ftabRow = fidMap[currFreqId]; |
---|
1179 | // Assumes an identical number of channels per FREQ_ID |
---|
1180 | if (fIdchans(ftabRow) < 0 ) { |
---|
1181 | RORecordFieldPtr< Array<Float> > spec(rec, "SPECTRA"); |
---|
1182 | fIdchans(ftabRow)=(*spec).shape()(0); |
---|
1183 | } |
---|
1184 | // Should keep ifNos and polNos form the previous SCANNO |
---|
1185 | if ( !anyEQ(ifNos[ftabRow],ifNoCol(0)) ) { |
---|
1186 | ifNos[ftabRow].shape(iflen); |
---|
1187 | iflen++; |
---|
1188 | ifNos[ftabRow].resize(iflen,True); |
---|
1189 | ifNos[ftabRow](iflen-1) = ifNoCol(0); |
---|
1190 | } |
---|
1191 | if ( !anyEQ(polNos[ftabRow],polNoCol(0)) ) { |
---|
1192 | polNos[ftabRow].shape(pollen); |
---|
1193 | pollen++; |
---|
1194 | polNos[ftabRow].resize(pollen,True); |
---|
1195 | polNos[ftabRow](pollen-1) = polNoCol(0); |
---|
1196 | } |
---|
1197 | |
---|
1198 | for (uInt i=1; i < snrow; i++){ |
---|
1199 | // Need to list BEAMNO and DIRECTION in the same order |
---|
1200 | if ( !anyEQ(beamids,beamCol(i)) ) { |
---|
1201 | nbeam++; |
---|
1202 | beamids.resize(nbeam,True); |
---|
1203 | beamids(nbeam-1)=beamCol(i); |
---|
1204 | beamDirs.resize(nbeam,True); |
---|
1205 | beamDirs(nbeam-1)=dirCol(i); |
---|
1206 | } |
---|
1207 | |
---|
1208 | // SRCTYPE is Int (getNumber takes only uInt) |
---|
1209 | if ( !anyEQ(stypeids,stypeCol(i)) ) { |
---|
1210 | nstype++; |
---|
1211 | stypeids.resize(nstype,True); |
---|
1212 | stypeids(nstype-1)=stypeCol(i); |
---|
1213 | } |
---|
1214 | |
---|
1215 | // Global listings of nchan/IFNO/POLNO per FREQ_ID |
---|
1216 | currFreqId=freqIdCol(i); |
---|
1217 | ftabRow = fidMap[currFreqId]; |
---|
1218 | if (fIdchans(ftabRow) < 0 ) { |
---|
1219 | const TableRecord& rec = row.get(i); |
---|
1220 | RORecordFieldPtr< Array<Float> > spec(rec, "SPECTRA"); |
---|
1221 | fIdchans(ftabRow) = (*spec).shape()(0); |
---|
1222 | } |
---|
1223 | if ( !anyEQ(ifNos[ftabRow],ifNoCol(i)) ) { |
---|
1224 | ifNos[ftabRow].shape(iflen); |
---|
1225 | iflen++; |
---|
1226 | ifNos[ftabRow].resize(iflen,True); |
---|
1227 | ifNos[ftabRow](iflen-1) = ifNoCol(i); |
---|
1228 | } |
---|
1229 | if ( !anyEQ(polNos[ftabRow],polNoCol(i)) ) { |
---|
1230 | polNos[ftabRow].shape(pollen); |
---|
1231 | pollen++; |
---|
1232 | polNos[ftabRow].resize(pollen,True); |
---|
1233 | polNos[ftabRow](pollen-1) = polNoCol(i); |
---|
1234 | } |
---|
1235 | } // end of row iteration |
---|
1236 | |
---|
1237 | stypestrs.resize(nstype,False); |
---|
1238 | for (uInt j=0; j < nstype; j++) |
---|
1239 | stypestrs(j) = SrcType::getName(stypeids(j)); |
---|
1240 | |
---|
1241 | // Format Scan summary |
---|
1242 | oss << setw(4) << std::right << rec.asuInt("SCANNO") |
---|
1243 | << std::left << setw(1) << "" |
---|
1244 | << setw(15) << rec.asString("SRCNAME") |
---|
1245 | << setw(21) << MVTime(btime).string(MVTime::YMD,7) |
---|
1246 | << setw(3) << " - " << MVTime(etime).string(MVTime::TIME,7) |
---|
1247 | << setw(3) << "" << setw(6) << meanIntTim << setw(1) << "" |
---|
1248 | << std::right << setw(5) << snrow << setw(2) << "" |
---|
1249 | << std::left << stypestrs << setw(1) << "" |
---|
1250 | << freqids << setw(1) << "" |
---|
1251 | << molids << endl; |
---|
1252 | // Format Beam summary |
---|
1253 | for (uInt j=0; j < nbeam; j++) { |
---|
1254 | oss << setw(7) << "" << setw(6) << beamids(j) << setw(1) << "" |
---|
1255 | << formatDirection(beamDirs(j)) << endl; |
---|
1256 | } |
---|
1257 | // Flush summary every scan and clear up the string |
---|
1258 | ols << String(oss) << LogIO::POST; |
---|
1259 | if (ofs) ofs << String(oss) << flush; |
---|
1260 | oss.str(""); |
---|
1261 | oss.clear(); |
---|
1262 | |
---|
1263 | ++iter; |
---|
1264 | } // end of scan iteration |
---|
1265 | oss << asap::SEPERATOR << endl; |
---|
1266 | |
---|
1267 | // List FRECUENCIES Table (using STFrequencies.print may be slow) |
---|
1268 | oss << "FREQUENCIES: " << nfreq << endl; |
---|
1269 | oss << std::right << setw(5) << "ID" << setw(2) << "" |
---|
1270 | << std::left << setw(5) << "IFNO" << setw(2) << "" |
---|
1271 | << setw(8) << "Frame" |
---|
1272 | << setw(16) << "RefVal" |
---|
1273 | << setw(7) << "RefPix" |
---|
1274 | << setw(15) << "Increment" |
---|
1275 | << setw(9) << "Channels" |
---|
1276 | << setw(6) << "POLNOs" << endl; |
---|
1277 | Int tmplen; |
---|
1278 | for (Int i=0; i < nfid; i++){ |
---|
1279 | // List row=i of FREQUENCIES subtable |
---|
1280 | ifNos[i].shape(tmplen); |
---|
1281 | if (tmplen >= 1) { |
---|
1282 | oss << std::right << setw(5) << ftabIds(i) << setw(2) << "" |
---|
1283 | << setw(3) << ifNos[i](0) << setw(1) << "" |
---|
1284 | << std::left << setw(46) << frequencies().print(ftabIds(i)) |
---|
1285 | << setw(2) << "" |
---|
1286 | << std::right << setw(8) << fIdchans[i] << setw(2) << "" |
---|
1287 | << std::left << polNos[i]; |
---|
1288 | if (tmplen > 1) { |
---|
1289 | oss << " (" << tmplen << " chains)"; |
---|
1290 | } |
---|
1291 | oss << endl; |
---|
1292 | } |
---|
1293 | |
---|
1294 | } |
---|
1295 | oss << asap::SEPERATOR << endl; |
---|
1296 | |
---|
1297 | // List MOLECULES Table (currently lists all rows) |
---|
1298 | oss << "MOLECULES: " << endl; |
---|
1299 | if (molecules().nrow() <= 0) { |
---|
1300 | oss << " MOLECULES subtable is empty: there are no data" << endl; |
---|
1301 | } else { |
---|
1302 | ROTableRow row(molecules().table()); |
---|
1303 | oss << std::right << setw(5) << "ID" |
---|
1304 | << std::left << setw(3) << "" |
---|
1305 | << setw(18) << "RestFreq" |
---|
1306 | << setw(15) << "Name" << endl; |
---|
1307 | for (Int i=0; i < molecules().nrow(); i++){ |
---|
1308 | const TableRecord& rec=row.get(i); |
---|
1309 | oss << std::right << setw(5) << rec.asuInt("ID") |
---|
1310 | << std::left << setw(3) << "" |
---|
1311 | << rec.asArrayDouble("RESTFREQUENCY") << setw(1) << "" |
---|
1312 | << rec.asArrayString("NAME") << endl; |
---|
1313 | } |
---|
1314 | } |
---|
1315 | oss << asap::SEPERATOR << endl; |
---|
1316 | ols << String(oss) << LogIO::POST; |
---|
1317 | if (ofs) { |
---|
1318 | ofs << String(oss) << flush; |
---|
1319 | ofs.close(); |
---|
1320 | } |
---|
1321 | // return String(oss); |
---|
1322 | } |
---|
1323 | |
---|
1324 | |
---|
1325 | std::string Scantable::oldheaderSummary() |
---|
1326 | { |
---|
1327 | // Format header info |
---|
1328 | // STHeader sdh; |
---|
1329 | // sdh = getHeader(); |
---|
1330 | // sdh.print(); |
---|
1331 | ostringstream oss; |
---|
1332 | oss.flags(std::ios_base::left); |
---|
1333 | oss << setw(15) << "Beams:" << setw(4) << nbeam() << endl |
---|
1334 | << setw(15) << "IFs:" << setw(4) << nif() << endl |
---|
1335 | << setw(15) << "Polarisations:" << setw(4) << npol() |
---|
1336 | << "(" << getPolType() << ")" << endl |
---|
1337 | << setw(15) << "Channels:" << nchan() << endl; |
---|
1338 | String tmp; |
---|
1339 | oss << setw(15) << "Observer:" |
---|
1340 | << table_.keywordSet().asString("Observer") << endl; |
---|
1341 | oss << setw(15) << "Obs Date:" << getTime(-1,true) << endl; |
---|
1342 | table_.keywordSet().get("Project", tmp); |
---|
1343 | oss << setw(15) << "Project:" << tmp << endl; |
---|
1344 | table_.keywordSet().get("Obstype", tmp); |
---|
1345 | oss << setw(15) << "Obs. Type:" << tmp << endl; |
---|
1346 | table_.keywordSet().get("AntennaName", tmp); |
---|
1347 | oss << setw(15) << "Antenna Name:" << tmp << endl; |
---|
1348 | table_.keywordSet().get("FluxUnit", tmp); |
---|
1349 | oss << setw(15) << "Flux Unit:" << tmp << endl; |
---|
1350 | int nid = moleculeTable_.nrow(); |
---|
1351 | Bool firstline = True; |
---|
1352 | oss << setw(15) << "Rest Freqs:"; |
---|
1353 | for (int i=0; i<nid; i++) { |
---|
1354 | Table t = table_(table_.col("MOLECULE_ID") == i, 1); |
---|
1355 | if (t.nrow() > 0) { |
---|
1356 | Vector<Double> vec(moleculeTable_.getRestFrequency(i)); |
---|
1357 | if (vec.nelements() > 0) { |
---|
1358 | if (firstline) { |
---|
1359 | oss << setprecision(10) << vec << " [Hz]" << endl; |
---|
1360 | firstline=False; |
---|
1361 | } |
---|
1362 | else{ |
---|
1363 | oss << setw(15)<<" " << setprecision(10) << vec << " [Hz]" << endl; |
---|
1364 | } |
---|
1365 | } else { |
---|
1366 | oss << "none" << endl; |
---|
1367 | } |
---|
1368 | } |
---|
1369 | } |
---|
1370 | |
---|
1371 | oss << setw(15) << "Abcissa:" << getAbcissaLabel(0) << endl; |
---|
1372 | oss << selector_.print() << endl; |
---|
1373 | return String(oss); |
---|
1374 | } |
---|
1375 | |
---|
1376 | //std::string Scantable::summary( const std::string& filename ) |
---|
1377 | void Scantable::oldsummary( const std::string& filename ) |
---|
1378 | { |
---|
1379 | ostringstream oss; |
---|
1380 | ofstream ofs; |
---|
1381 | LogIO ols(LogOrigin("Scantable", "summary", WHERE)); |
---|
1382 | |
---|
1383 | if (filename != "") |
---|
1384 | ofs.open( filename.c_str(), ios::out ); |
---|
1385 | |
---|
1386 | oss << endl; |
---|
1387 | oss << asap::SEPERATOR << endl; |
---|
1388 | oss << " Scan Table Summary" << endl; |
---|
1389 | oss << asap::SEPERATOR << endl; |
---|
1390 | |
---|
1391 | // Format header info |
---|
1392 | oss << oldheaderSummary(); |
---|
1393 | oss << endl; |
---|
1394 | |
---|
1395 | // main table |
---|
1396 | String dirtype = "Position (" |
---|
1397 | + getDirectionRefString() |
---|
1398 | + ")"; |
---|
1399 | oss.flags(std::ios_base::left); |
---|
1400 | oss << setw(5) << "Scan" << setw(15) << "Source" |
---|
1401 | << setw(10) << "Time" << setw(18) << "Integration" |
---|
1402 | << setw(15) << "Source Type" << endl; |
---|
1403 | oss << setw(5) << "" << setw(5) << "Beam" << setw(3) << "" << dirtype << endl; |
---|
1404 | oss << setw(10) << "" << setw(3) << "IF" << setw(3) << "" |
---|
1405 | << setw(8) << "Frame" << setw(16) |
---|
1406 | << "RefVal" << setw(10) << "RefPix" << setw(12) << "Increment" |
---|
1407 | << setw(7) << "Channels" |
---|
1408 | << endl; |
---|
1409 | oss << asap::SEPERATOR << endl; |
---|
1410 | |
---|
1411 | // Flush summary and clear up the string |
---|
1412 | ols << String(oss) << LogIO::POST; |
---|
1413 | if (ofs) ofs << String(oss) << flush; |
---|
1414 | oss.str(""); |
---|
1415 | oss.clear(); |
---|
1416 | |
---|
1417 | TableIterator iter(table_, "SCANNO"); |
---|
1418 | while (!iter.pastEnd()) { |
---|
1419 | Table subt = iter.table(); |
---|
1420 | ROTableRow row(subt); |
---|
1421 | MEpoch::ROScalarColumn timeCol(subt,"TIME"); |
---|
1422 | const TableRecord& rec = row.get(0); |
---|
1423 | oss << setw(4) << std::right << rec.asuInt("SCANNO") |
---|
1424 | << std::left << setw(1) << "" |
---|
1425 | << setw(15) << rec.asString("SRCNAME") |
---|
1426 | << setw(10) << formatTime(timeCol(0), false); |
---|
1427 | // count the cycles in the scan |
---|
1428 | TableIterator cyciter(subt, "CYCLENO"); |
---|
1429 | int nint = 0; |
---|
1430 | while (!cyciter.pastEnd()) { |
---|
1431 | ++nint; |
---|
1432 | ++cyciter; |
---|
1433 | } |
---|
1434 | oss << setw(3) << std::right << nint << setw(3) << " x " << std::left |
---|
1435 | << setw(11) << formatSec(rec.asFloat("INTERVAL")) << setw(1) << "" |
---|
1436 | << setw(15) << SrcType::getName(rec.asInt("SRCTYPE")) << endl; |
---|
1437 | |
---|
1438 | TableIterator biter(subt, "BEAMNO"); |
---|
1439 | while (!biter.pastEnd()) { |
---|
1440 | Table bsubt = biter.table(); |
---|
1441 | ROTableRow brow(bsubt); |
---|
1442 | const TableRecord& brec = brow.get(0); |
---|
1443 | uInt row0 = bsubt.rowNumbers(table_)[0]; |
---|
1444 | oss << setw(5) << "" << setw(4) << std::right << brec.asuInt("BEAMNO")<< std::left; |
---|
1445 | oss << setw(4) << "" << formatDirection(getDirection(row0)) << endl; |
---|
1446 | TableIterator iiter(bsubt, "IFNO"); |
---|
1447 | while (!iiter.pastEnd()) { |
---|
1448 | Table isubt = iiter.table(); |
---|
1449 | ROTableRow irow(isubt); |
---|
1450 | const TableRecord& irec = irow.get(0); |
---|
1451 | oss << setw(9) << ""; |
---|
1452 | oss << setw(3) << std::right << irec.asuInt("IFNO") << std::left |
---|
1453 | << setw(1) << "" << frequencies().print(irec.asuInt("FREQ_ID")) |
---|
1454 | << setw(3) << "" << nchan(irec.asuInt("IFNO")) |
---|
1455 | << endl; |
---|
1456 | |
---|
1457 | ++iiter; |
---|
1458 | } |
---|
1459 | ++biter; |
---|
1460 | } |
---|
1461 | // Flush summary every scan and clear up the string |
---|
1462 | ols << String(oss) << LogIO::POST; |
---|
1463 | if (ofs) ofs << String(oss) << flush; |
---|
1464 | oss.str(""); |
---|
1465 | oss.clear(); |
---|
1466 | |
---|
1467 | ++iter; |
---|
1468 | } |
---|
1469 | oss << asap::SEPERATOR << endl; |
---|
1470 | ols << String(oss) << LogIO::POST; |
---|
1471 | if (ofs) { |
---|
1472 | ofs << String(oss) << flush; |
---|
1473 | ofs.close(); |
---|
1474 | } |
---|
1475 | // return String(oss); |
---|
1476 | } |
---|
1477 | |
---|
1478 | // std::string Scantable::getTime(int whichrow, bool showdate) const |
---|
1479 | // { |
---|
1480 | // MEpoch::ROScalarColumn timeCol(table_, "TIME"); |
---|
1481 | // MEpoch me; |
---|
1482 | // if (whichrow > -1) { |
---|
1483 | // me = timeCol(uInt(whichrow)); |
---|
1484 | // } else { |
---|
1485 | // Double tm; |
---|
1486 | // table_.keywordSet().get("UTC",tm); |
---|
1487 | // me = MEpoch(MVEpoch(tm)); |
---|
1488 | // } |
---|
1489 | // return formatTime(me, showdate); |
---|
1490 | // } |
---|
1491 | |
---|
1492 | std::string Scantable::getTime(int whichrow, bool showdate, uInt prec) const |
---|
1493 | { |
---|
1494 | MEpoch me; |
---|
1495 | me = getEpoch(whichrow); |
---|
1496 | return formatTime(me, showdate, prec); |
---|
1497 | } |
---|
1498 | |
---|
1499 | MEpoch Scantable::getEpoch(int whichrow) const |
---|
1500 | { |
---|
1501 | if (whichrow > -1) { |
---|
1502 | return timeCol_(uInt(whichrow)); |
---|
1503 | } else { |
---|
1504 | Double tm; |
---|
1505 | table_.keywordSet().get("UTC",tm); |
---|
1506 | return MEpoch(MVEpoch(tm)); |
---|
1507 | } |
---|
1508 | } |
---|
1509 | |
---|
1510 | std::string Scantable::getDirectionString(int whichrow) const |
---|
1511 | { |
---|
1512 | return formatDirection(getDirection(uInt(whichrow))); |
---|
1513 | } |
---|
1514 | |
---|
1515 | |
---|
1516 | SpectralCoordinate Scantable::getSpectralCoordinate(int whichrow) const { |
---|
1517 | const MPosition& mp = getAntennaPosition(); |
---|
1518 | const MDirection& md = getDirection(whichrow); |
---|
1519 | const MEpoch& me = timeCol_(whichrow); |
---|
1520 | //Double rf = moleculeTable_.getRestFrequency(mmolidCol_(whichrow)); |
---|
1521 | Vector<Double> rf = moleculeTable_.getRestFrequency(mmolidCol_(whichrow)); |
---|
1522 | return freqTable_.getSpectralCoordinate(md, mp, me, rf, |
---|
1523 | mfreqidCol_(whichrow)); |
---|
1524 | } |
---|
1525 | |
---|
1526 | std::vector< double > Scantable::getAbcissa( int whichrow ) const |
---|
1527 | { |
---|
1528 | if ( whichrow > int(table_.nrow()) ) throw(AipsError("Illegal row number")); |
---|
1529 | std::vector<double> stlout; |
---|
1530 | int nchan = specCol_(whichrow).nelements(); |
---|
1531 | String us = freqTable_.getUnitString(); |
---|
1532 | if ( us == "" || us == "pixel" || us == "channel" ) { |
---|
1533 | for (int i=0; i<nchan; ++i) { |
---|
1534 | stlout.push_back(double(i)); |
---|
1535 | } |
---|
1536 | return stlout; |
---|
1537 | } |
---|
1538 | SpectralCoordinate spc = getSpectralCoordinate(whichrow); |
---|
1539 | Vector<Double> pixel(nchan); |
---|
1540 | Vector<Double> world; |
---|
1541 | indgen(pixel); |
---|
1542 | if ( Unit(us) == Unit("Hz") ) { |
---|
1543 | for ( int i=0; i < nchan; ++i) { |
---|
1544 | Double world; |
---|
1545 | spc.toWorld(world, pixel[i]); |
---|
1546 | stlout.push_back(double(world)); |
---|
1547 | } |
---|
1548 | } else if ( Unit(us) == Unit("km/s") ) { |
---|
1549 | Vector<Double> world; |
---|
1550 | spc.pixelToVelocity(world, pixel); |
---|
1551 | world.tovector(stlout); |
---|
1552 | } |
---|
1553 | return stlout; |
---|
1554 | } |
---|
1555 | void Scantable::setDirectionRefString( const std::string & refstr ) |
---|
1556 | { |
---|
1557 | MDirection::Types mdt; |
---|
1558 | if (refstr != "" && !MDirection::getType(mdt, refstr)) { |
---|
1559 | throw(AipsError("Illegal Direction frame.")); |
---|
1560 | } |
---|
1561 | if ( refstr == "" ) { |
---|
1562 | String defaultstr = MDirection::showType(dirCol_.getMeasRef().getType()); |
---|
1563 | table_.rwKeywordSet().define("DIRECTIONREF", defaultstr); |
---|
1564 | } else { |
---|
1565 | table_.rwKeywordSet().define("DIRECTIONREF", String(refstr)); |
---|
1566 | } |
---|
1567 | } |
---|
1568 | |
---|
1569 | std::string Scantable::getDirectionRefString( ) const |
---|
1570 | { |
---|
1571 | return table_.keywordSet().asString("DIRECTIONREF"); |
---|
1572 | } |
---|
1573 | |
---|
1574 | MDirection Scantable::getDirection(int whichrow ) const |
---|
1575 | { |
---|
1576 | String usertype = table_.keywordSet().asString("DIRECTIONREF"); |
---|
1577 | String type = MDirection::showType(dirCol_.getMeasRef().getType()); |
---|
1578 | if ( usertype != type ) { |
---|
1579 | MDirection::Types mdt; |
---|
1580 | if (!MDirection::getType(mdt, usertype)) { |
---|
1581 | throw(AipsError("Illegal Direction frame.")); |
---|
1582 | } |
---|
1583 | return dirCol_.convert(uInt(whichrow), mdt); |
---|
1584 | } else { |
---|
1585 | return dirCol_(uInt(whichrow)); |
---|
1586 | } |
---|
1587 | } |
---|
1588 | |
---|
1589 | std::string Scantable::getAbcissaLabel( int whichrow ) const |
---|
1590 | { |
---|
1591 | if ( whichrow > int(table_.nrow()) ) throw(AipsError("Illegal ro number")); |
---|
1592 | const MPosition& mp = getAntennaPosition(); |
---|
1593 | const MDirection& md = getDirection(whichrow); |
---|
1594 | const MEpoch& me = timeCol_(whichrow); |
---|
1595 | //const Double& rf = mmolidCol_(whichrow); |
---|
1596 | const Vector<Double> rf = moleculeTable_.getRestFrequency(mmolidCol_(whichrow)); |
---|
1597 | SpectralCoordinate spc = |
---|
1598 | freqTable_.getSpectralCoordinate(md, mp, me, rf, mfreqidCol_(whichrow)); |
---|
1599 | |
---|
1600 | String s = "Channel"; |
---|
1601 | Unit u = Unit(freqTable_.getUnitString()); |
---|
1602 | if (u == Unit("km/s")) { |
---|
1603 | s = CoordinateUtil::axisLabel(spc, 0, True,True, True); |
---|
1604 | } else if (u == Unit("Hz")) { |
---|
1605 | Vector<String> wau(1);wau = u.getName(); |
---|
1606 | spc.setWorldAxisUnits(wau); |
---|
1607 | s = CoordinateUtil::axisLabel(spc, 0, True, True, False); |
---|
1608 | } |
---|
1609 | return s; |
---|
1610 | |
---|
1611 | } |
---|
1612 | |
---|
1613 | /** |
---|
1614 | void asap::Scantable::setRestFrequencies( double rf, const std::string& name, |
---|
1615 | const std::string& unit ) |
---|
1616 | **/ |
---|
1617 | void Scantable::setRestFrequencies( vector<double> rf, const vector<std::string>& name, |
---|
1618 | const std::string& unit ) |
---|
1619 | |
---|
1620 | { |
---|
1621 | ///@todo lookup in line table to fill in name and formattedname |
---|
1622 | Unit u(unit); |
---|
1623 | //Quantum<Double> urf(rf, u); |
---|
1624 | Quantum<Vector<Double> >urf(rf, u); |
---|
1625 | Vector<String> formattedname(0); |
---|
1626 | //cerr<<"Scantable::setRestFrequnecies="<<urf<<endl; |
---|
1627 | |
---|
1628 | //uInt id = moleculeTable_.addEntry(urf.getValue("Hz"), name, ""); |
---|
1629 | uInt id = moleculeTable_.addEntry(urf.getValue("Hz"), mathutil::toVectorString(name), formattedname); |
---|
1630 | TableVector<uInt> tabvec(table_, "MOLECULE_ID"); |
---|
1631 | tabvec = id; |
---|
1632 | } |
---|
1633 | |
---|
1634 | /** |
---|
1635 | void asap::Scantable::setRestFrequencies( const std::string& name ) |
---|
1636 | { |
---|
1637 | throw(AipsError("setRestFrequencies( const std::string& name ) NYI")); |
---|
1638 | ///@todo implement |
---|
1639 | } |
---|
1640 | **/ |
---|
1641 | |
---|
1642 | void Scantable::setRestFrequencies( const vector<std::string>& name ) |
---|
1643 | { |
---|
1644 | (void) name; // suppress unused warning |
---|
1645 | throw(AipsError("setRestFrequencies( const vector<std::string>& name ) NYI")); |
---|
1646 | ///@todo implement |
---|
1647 | } |
---|
1648 | |
---|
1649 | std::vector< unsigned int > Scantable::rownumbers( ) const |
---|
1650 | { |
---|
1651 | std::vector<unsigned int> stlout; |
---|
1652 | Vector<uInt> vec = table_.rowNumbers(); |
---|
1653 | vec.tovector(stlout); |
---|
1654 | return stlout; |
---|
1655 | } |
---|
1656 | |
---|
1657 | |
---|
1658 | Matrix<Float> Scantable::getPolMatrix( uInt whichrow ) const |
---|
1659 | { |
---|
1660 | ROTableRow row(table_); |
---|
1661 | const TableRecord& rec = row.get(whichrow); |
---|
1662 | Table t = |
---|
1663 | originalTable_( originalTable_.col("SCANNO") == Int(rec.asuInt("SCANNO")) |
---|
1664 | && originalTable_.col("BEAMNO") == Int(rec.asuInt("BEAMNO")) |
---|
1665 | && originalTable_.col("IFNO") == Int(rec.asuInt("IFNO")) |
---|
1666 | && originalTable_.col("CYCLENO") == Int(rec.asuInt("CYCLENO")) ); |
---|
1667 | ROArrayColumn<Float> speccol(t, "SPECTRA"); |
---|
1668 | return speccol.getColumn(); |
---|
1669 | } |
---|
1670 | |
---|
1671 | std::vector< std::string > Scantable::columnNames( ) const |
---|
1672 | { |
---|
1673 | Vector<String> vec = table_.tableDesc().columnNames(); |
---|
1674 | return mathutil::tovectorstring(vec); |
---|
1675 | } |
---|
1676 | |
---|
1677 | MEpoch::Types Scantable::getTimeReference( ) const |
---|
1678 | { |
---|
1679 | return MEpoch::castType(timeCol_.getMeasRef().getType()); |
---|
1680 | } |
---|
1681 | |
---|
1682 | void Scantable::addFit( const STFitEntry& fit, int row ) |
---|
1683 | { |
---|
1684 | //cout << mfitidCol_(uInt(row)) << endl; |
---|
1685 | LogIO os( LogOrigin( "Scantable", "addFit()", WHERE ) ) ; |
---|
1686 | os << mfitidCol_(uInt(row)) << LogIO::POST ; |
---|
1687 | uInt id = fitTable_.addEntry(fit, mfitidCol_(uInt(row))); |
---|
1688 | mfitidCol_.put(uInt(row), id); |
---|
1689 | } |
---|
1690 | |
---|
1691 | void Scantable::shift(int npix) |
---|
1692 | { |
---|
1693 | Vector<uInt> fids(mfreqidCol_.getColumn()); |
---|
1694 | genSort( fids, Sort::Ascending, |
---|
1695 | Sort::QuickSort|Sort::NoDuplicates ); |
---|
1696 | for (uInt i=0; i<fids.nelements(); ++i) { |
---|
1697 | frequencies().shiftRefPix(npix, fids[i]); |
---|
1698 | } |
---|
1699 | } |
---|
1700 | |
---|
1701 | String Scantable::getAntennaName() const |
---|
1702 | { |
---|
1703 | String out; |
---|
1704 | table_.keywordSet().get("AntennaName", out); |
---|
1705 | String::size_type pos1 = out.find("@") ; |
---|
1706 | String::size_type pos2 = out.find("//") ; |
---|
1707 | if ( pos2 != String::npos ) |
---|
1708 | out = out.substr(pos2+2,pos1-pos2-2) ; |
---|
1709 | else if ( pos1 != String::npos ) |
---|
1710 | out = out.substr(0,pos1) ; |
---|
1711 | return out; |
---|
1712 | } |
---|
1713 | |
---|
1714 | int Scantable::checkScanInfo(const std::vector<int>& scanlist) const |
---|
1715 | { |
---|
1716 | String tbpath; |
---|
1717 | int ret = 0; |
---|
1718 | if ( table_.keywordSet().isDefined("GBT_GO") ) { |
---|
1719 | table_.keywordSet().get("GBT_GO", tbpath); |
---|
1720 | Table t(tbpath,Table::Old); |
---|
1721 | // check each scan if other scan of the pair exist |
---|
1722 | int nscan = scanlist.size(); |
---|
1723 | for (int i = 0; i < nscan; i++) { |
---|
1724 | Table subt = t( t.col("SCAN") == scanlist[i]+1 ); |
---|
1725 | if (subt.nrow()==0) { |
---|
1726 | //cerr <<"Scan "<<scanlist[i]<<" cannot be found in the scantable."<<endl; |
---|
1727 | LogIO os( LogOrigin( "Scantable", "checkScanInfo()", WHERE ) ) ; |
---|
1728 | os <<LogIO::WARN<<"Scan "<<scanlist[i]<<" cannot be found in the scantable."<<LogIO::POST; |
---|
1729 | ret = 1; |
---|
1730 | break; |
---|
1731 | } |
---|
1732 | ROTableRow row(subt); |
---|
1733 | const TableRecord& rec = row.get(0); |
---|
1734 | int scan1seqn = rec.asuInt("PROCSEQN"); |
---|
1735 | int laston1 = rec.asuInt("LASTON"); |
---|
1736 | if ( rec.asuInt("PROCSIZE")==2 ) { |
---|
1737 | if ( i < nscan-1 ) { |
---|
1738 | Table subt2 = t( t.col("SCAN") == scanlist[i+1]+1 ); |
---|
1739 | if ( subt2.nrow() == 0) { |
---|
1740 | LogIO os( LogOrigin( "Scantable", "checkScanInfo()", WHERE ) ) ; |
---|
1741 | |
---|
1742 | //cerr<<"Scan "<<scanlist[i+1]<<" cannot be found in the scantable."<<endl; |
---|
1743 | os<<LogIO::WARN<<"Scan "<<scanlist[i+1]<<" cannot be found in the scantable."<<LogIO::POST; |
---|
1744 | ret = 1; |
---|
1745 | break; |
---|
1746 | } |
---|
1747 | ROTableRow row2(subt2); |
---|
1748 | const TableRecord& rec2 = row2.get(0); |
---|
1749 | int scan2seqn = rec2.asuInt("PROCSEQN"); |
---|
1750 | int laston2 = rec2.asuInt("LASTON"); |
---|
1751 | if (scan1seqn == 1 && scan2seqn == 2) { |
---|
1752 | if (laston1 == laston2) { |
---|
1753 | LogIO os( LogOrigin( "Scantable", "checkScanInfo()", WHERE ) ) ; |
---|
1754 | //cerr<<"A valid scan pair ["<<scanlist[i]<<","<<scanlist[i+1]<<"]"<<endl; |
---|
1755 | os<<"A valid scan pair ["<<scanlist[i]<<","<<scanlist[i+1]<<"]"<<LogIO::POST; |
---|
1756 | i +=1; |
---|
1757 | } |
---|
1758 | else { |
---|
1759 | LogIO os( LogOrigin( "Scantable", "checkScanInfo()", WHERE ) ) ; |
---|
1760 | //cerr<<"Incorrect scan pair ["<<scanlist[i]<<","<<scanlist[i+1]<<"]"<<endl; |
---|
1761 | os<<LogIO::WARN<<"Incorrect scan pair ["<<scanlist[i]<<","<<scanlist[i+1]<<"]"<<LogIO::POST; |
---|
1762 | } |
---|
1763 | } |
---|
1764 | else if (scan1seqn==2 && scan2seqn == 1) { |
---|
1765 | if (laston1 == laston2) { |
---|
1766 | LogIO os( LogOrigin( "Scantable", "checkScanInfo()", WHERE ) ) ; |
---|
1767 | //cerr<<"["<<scanlist[i]<<","<<scanlist[i+1]<<"] is a valid scan pair but in incorrect order."<<endl; |
---|
1768 | os<<LogIO::WARN<<"["<<scanlist[i]<<","<<scanlist[i+1]<<"] is a valid scan pair but in incorrect order."<<LogIO::POST; |
---|
1769 | ret = 1; |
---|
1770 | break; |
---|
1771 | } |
---|
1772 | } |
---|
1773 | else { |
---|
1774 | LogIO os( LogOrigin( "Scantable", "checkScanInfo()", WHERE ) ) ; |
---|
1775 | //cerr<<"The other scan for "<<scanlist[i]<<" appears to be missing. Check the input scan numbers."<<endl; |
---|
1776 | os<<LogIO::WARN<<"The other scan for "<<scanlist[i]<<" appears to be missing. Check the input scan numbers."<<LogIO::POST; |
---|
1777 | ret = 1; |
---|
1778 | break; |
---|
1779 | } |
---|
1780 | } |
---|
1781 | } |
---|
1782 | else { |
---|
1783 | LogIO os( LogOrigin( "Scantable", "checkScanInfo()", WHERE ) ) ; |
---|
1784 | //cerr<<"The scan does not appear to be standard obsevation."<<endl; |
---|
1785 | os<<LogIO::WARN<<"The scan does not appear to be standard obsevation."<<LogIO::POST; |
---|
1786 | } |
---|
1787 | //if ( i >= nscan ) break; |
---|
1788 | } |
---|
1789 | } |
---|
1790 | else { |
---|
1791 | LogIO os( LogOrigin( "Scantable", "checkScanInfo()", WHERE ) ) ; |
---|
1792 | //cerr<<"No reference to GBT_GO table."<<endl; |
---|
1793 | os<<LogIO::WARN<<"No reference to GBT_GO table."<<LogIO::POST; |
---|
1794 | ret = 1; |
---|
1795 | } |
---|
1796 | return ret; |
---|
1797 | } |
---|
1798 | |
---|
1799 | std::vector<double> Scantable::getDirectionVector(int whichrow) const |
---|
1800 | { |
---|
1801 | Vector<Double> Dir = dirCol_(whichrow).getAngle("rad").getValue(); |
---|
1802 | std::vector<double> dir; |
---|
1803 | Dir.tovector(dir); |
---|
1804 | return dir; |
---|
1805 | } |
---|
1806 | |
---|
1807 | void asap::Scantable::reshapeSpectrum( int nmin, int nmax ) |
---|
1808 | throw( casa::AipsError ) |
---|
1809 | { |
---|
1810 | // assumed that all rows have same nChan |
---|
1811 | Vector<Float> arr = specCol_( 0 ) ; |
---|
1812 | int nChan = arr.nelements() ; |
---|
1813 | |
---|
1814 | // if nmin < 0 or nmax < 0, nothing to do |
---|
1815 | if ( nmin < 0 ) { |
---|
1816 | throw( casa::indexError<int>( nmin, "asap::Scantable::reshapeSpectrum: Invalid range. Negative index is specified." ) ) ; |
---|
1817 | } |
---|
1818 | if ( nmax < 0 ) { |
---|
1819 | throw( casa::indexError<int>( nmax, "asap::Scantable::reshapeSpectrum: Invalid range. Negative index is specified." ) ) ; |
---|
1820 | } |
---|
1821 | |
---|
1822 | // if nmin > nmax, exchange values |
---|
1823 | if ( nmin > nmax ) { |
---|
1824 | int tmp = nmax ; |
---|
1825 | nmax = nmin ; |
---|
1826 | nmin = tmp ; |
---|
1827 | LogIO os( LogOrigin( "Scantable", "reshapeSpectrum()", WHERE ) ) ; |
---|
1828 | os << "Swap values. Applied range is [" |
---|
1829 | << nmin << ", " << nmax << "]" << LogIO::POST ; |
---|
1830 | } |
---|
1831 | |
---|
1832 | // if nmin exceeds nChan, nothing to do |
---|
1833 | if ( nmin >= nChan ) { |
---|
1834 | throw( casa::indexError<int>( nmin, "asap::Scantable::reshapeSpectrum: Invalid range. Specified minimum exceeds nChan." ) ) ; |
---|
1835 | } |
---|
1836 | |
---|
1837 | // if nmax exceeds nChan, reset nmax to nChan |
---|
1838 | if ( nmax >= nChan-1 ) { |
---|
1839 | if ( nmin == 0 ) { |
---|
1840 | // nothing to do |
---|
1841 | LogIO os( LogOrigin( "Scantable", "reshapeSpectrum()", WHERE ) ) ; |
---|
1842 | os << "Whole range is selected. Nothing to do." << LogIO::POST ; |
---|
1843 | return ; |
---|
1844 | } |
---|
1845 | else { |
---|
1846 | LogIO os( LogOrigin( "Scantable", "reshapeSpectrum()", WHERE ) ) ; |
---|
1847 | os << "Specified maximum exceeds nChan. Applied range is [" |
---|
1848 | << nmin << ", " << nChan-1 << "]." << LogIO::POST ; |
---|
1849 | nmax = nChan - 1 ; |
---|
1850 | } |
---|
1851 | } |
---|
1852 | |
---|
1853 | // reshape specCol_ and flagCol_ |
---|
1854 | for ( int irow = 0 ; irow < nrow() ; irow++ ) { |
---|
1855 | reshapeSpectrum( nmin, nmax, irow ) ; |
---|
1856 | } |
---|
1857 | |
---|
1858 | // update FREQUENCIES subtable |
---|
1859 | Double refpix ; |
---|
1860 | Double refval ; |
---|
1861 | Double increment ; |
---|
1862 | int freqnrow = freqTable_.table().nrow() ; |
---|
1863 | Vector<uInt> oldId( freqnrow ) ; |
---|
1864 | Vector<uInt> newId( freqnrow ) ; |
---|
1865 | for ( int irow = 0 ; irow < freqnrow ; irow++ ) { |
---|
1866 | freqTable_.getEntry( refpix, refval, increment, irow ) ; |
---|
1867 | /*** |
---|
1868 | * need to shift refpix to nmin |
---|
1869 | * note that channel nmin in old index will be channel 0 in new one |
---|
1870 | ***/ |
---|
1871 | refval = refval - ( refpix - nmin ) * increment ; |
---|
1872 | refpix = 0 ; |
---|
1873 | freqTable_.setEntry( refpix, refval, increment, irow ) ; |
---|
1874 | } |
---|
1875 | |
---|
1876 | // update nchan |
---|
1877 | int newsize = nmax - nmin + 1 ; |
---|
1878 | table_.rwKeywordSet().define( "nChan", newsize ) ; |
---|
1879 | |
---|
1880 | // update bandwidth |
---|
1881 | // assumed all spectra in the scantable have same bandwidth |
---|
1882 | table_.rwKeywordSet().define( "Bandwidth", increment * newsize ) ; |
---|
1883 | |
---|
1884 | return ; |
---|
1885 | } |
---|
1886 | |
---|
1887 | void asap::Scantable::reshapeSpectrum( int nmin, int nmax, int irow ) |
---|
1888 | { |
---|
1889 | // reshape specCol_ and flagCol_ |
---|
1890 | Vector<Float> oldspec = specCol_( irow ) ; |
---|
1891 | Vector<uChar> oldflag = flagsCol_( irow ) ; |
---|
1892 | Vector<Float> oldtsys = tsysCol_( irow ) ; |
---|
1893 | uInt newsize = nmax - nmin + 1 ; |
---|
1894 | Slice slice( nmin, newsize, 1 ) ; |
---|
1895 | specCol_.put( irow, oldspec( slice ) ) ; |
---|
1896 | flagsCol_.put( irow, oldflag( slice ) ) ; |
---|
1897 | if ( oldspec.size() == oldtsys.size() ) |
---|
1898 | tsysCol_.put( irow, oldtsys( slice ) ) ; |
---|
1899 | |
---|
1900 | return ; |
---|
1901 | } |
---|
1902 | |
---|
1903 | void asap::Scantable::regridSpecChannel( double dnu, int nChan ) |
---|
1904 | { |
---|
1905 | LogIO os( LogOrigin( "Scantable", "regridChannel()", WHERE ) ) ; |
---|
1906 | os << "Regrid abcissa with spectral resoultion " << dnu << " " << freqTable_.getUnitString() << " with channel number " << ((nChan>0)? String(nChan) : "covering band width")<< LogIO::POST ; |
---|
1907 | int freqnrow = freqTable_.table().nrow() ; |
---|
1908 | Vector<bool> firstTime( freqnrow, true ) ; |
---|
1909 | double oldincr, factor; |
---|
1910 | uInt currId; |
---|
1911 | Double refpix ; |
---|
1912 | Double refval ; |
---|
1913 | Double increment ; |
---|
1914 | for ( int irow = 0 ; irow < nrow() ; irow++ ) { |
---|
1915 | currId = mfreqidCol_(irow); |
---|
1916 | vector<double> abcissa = getAbcissa( irow ) ; |
---|
1917 | if (nChan < 0) { |
---|
1918 | int oldsize = abcissa.size() ; |
---|
1919 | double bw = (abcissa[oldsize-1]-abcissa[0]) + \ |
---|
1920 | 0.5 * (abcissa[1]-abcissa[0] + abcissa[oldsize-1]-abcissa[oldsize-2]) ; |
---|
1921 | nChan = int( ceil( abs(bw/dnu) ) ) ; |
---|
1922 | } |
---|
1923 | // actual regridding |
---|
1924 | regridChannel( nChan, dnu, irow ) ; |
---|
1925 | |
---|
1926 | // update FREQUENCIES subtable |
---|
1927 | if (firstTime[currId]) { |
---|
1928 | oldincr = abcissa[1]-abcissa[0] ; |
---|
1929 | factor = dnu/oldincr ; |
---|
1930 | firstTime[currId] = false ; |
---|
1931 | freqTable_.getEntry( refpix, refval, increment, currId ) ; |
---|
1932 | |
---|
1933 | //refval = refval - ( refpix + 0.5 * (1 - factor) ) * increment ; |
---|
1934 | if (factor > 0 ) { |
---|
1935 | refpix = (refpix + 0.5)/factor - 0.5; |
---|
1936 | } else { |
---|
1937 | refpix = (abcissa.size() - 0.5 - refpix)/abs(factor) - 0.5; |
---|
1938 | } |
---|
1939 | freqTable_.setEntry( refpix, refval, increment*factor, currId ) ; |
---|
1940 | //os << "ID" << currId << ": channel width (Orig) = " << oldincr << " [" << freqTable_.getUnitString() << "], scale factor = " << factor << LogIO::POST ; |
---|
1941 | //os << " frequency increment (Orig) = " << increment << "-> (New) " << increment*factor << LogIO::POST ; |
---|
1942 | } |
---|
1943 | } |
---|
1944 | } |
---|
1945 | |
---|
1946 | void asap::Scantable::regridChannel( int nChan, double dnu ) |
---|
1947 | { |
---|
1948 | LogIO os( LogOrigin( "Scantable", "regridChannel()", WHERE ) ) ; |
---|
1949 | os << "Regrid abcissa with channel number " << nChan << " and spectral resoultion " << dnu << "Hz." << LogIO::POST ; |
---|
1950 | // assumed that all rows have same nChan |
---|
1951 | Vector<Float> arr = specCol_( 0 ) ; |
---|
1952 | int oldsize = arr.nelements() ; |
---|
1953 | |
---|
1954 | // if oldsize == nChan, nothing to do |
---|
1955 | if ( oldsize == nChan ) { |
---|
1956 | os << "Specified channel number is same as current one. Nothing to do." << LogIO::POST ; |
---|
1957 | return ; |
---|
1958 | } |
---|
1959 | |
---|
1960 | // if oldChan < nChan, unphysical operation |
---|
1961 | if ( oldsize < nChan ) { |
---|
1962 | os << "Unphysical operation. Nothing to do." << LogIO::POST ; |
---|
1963 | return ; |
---|
1964 | } |
---|
1965 | |
---|
1966 | // change channel number for specCol_, flagCol_, and tsysCol_ (if necessary) |
---|
1967 | vector<string> coordinfo = getCoordInfo() ; |
---|
1968 | string oldinfo = coordinfo[0] ; |
---|
1969 | coordinfo[0] = "Hz" ; |
---|
1970 | setCoordInfo( coordinfo ) ; |
---|
1971 | for ( int irow = 0 ; irow < nrow() ; irow++ ) { |
---|
1972 | regridChannel( nChan, dnu, irow ) ; |
---|
1973 | } |
---|
1974 | coordinfo[0] = oldinfo ; |
---|
1975 | setCoordInfo( coordinfo ) ; |
---|
1976 | |
---|
1977 | |
---|
1978 | // NOTE: this method does not update metadata such as |
---|
1979 | // FREQUENCIES subtable, nChan, Bandwidth, etc. |
---|
1980 | |
---|
1981 | return ; |
---|
1982 | } |
---|
1983 | |
---|
1984 | void asap::Scantable::regridChannel( int nChan, double dnu, int irow ) |
---|
1985 | { |
---|
1986 | // logging |
---|
1987 | //ofstream ofs( "average.log", std::ios::out | std::ios::app ) ; |
---|
1988 | //ofs << "IFNO = " << getIF( irow ) << " irow = " << irow << endl ; |
---|
1989 | |
---|
1990 | Vector<Float> oldspec = specCol_( irow ) ; |
---|
1991 | Vector<uChar> oldflag = flagsCol_( irow ) ; |
---|
1992 | Vector<Float> oldtsys = tsysCol_( irow ) ; |
---|
1993 | Vector<Float> newspec( nChan, 0 ) ; |
---|
1994 | Vector<uChar> newflag( nChan, true ) ; |
---|
1995 | Vector<Float> newtsys ; |
---|
1996 | bool regridTsys = false ; |
---|
1997 | if (oldtsys.size() == oldspec.size()) { |
---|
1998 | regridTsys = true ; |
---|
1999 | newtsys.resize(nChan,false) ; |
---|
2000 | newtsys = 0 ; |
---|
2001 | } |
---|
2002 | |
---|
2003 | // regrid |
---|
2004 | vector<double> abcissa = getAbcissa( irow ) ; |
---|
2005 | int oldsize = abcissa.size() ; |
---|
2006 | double olddnu = abcissa[1] - abcissa[0] ; |
---|
2007 | //int ichan = 0 ; |
---|
2008 | double wsum = 0.0 ; |
---|
2009 | Vector<double> zi( nChan+1 ) ; |
---|
2010 | Vector<double> yi( oldsize + 1 ) ; |
---|
2011 | yi[0] = abcissa[0] - 0.5 * olddnu ; |
---|
2012 | for ( int ii = 1 ; ii < oldsize ; ii++ ) |
---|
2013 | yi[ii] = 0.5* (abcissa[ii-1] + abcissa[ii]) ; |
---|
2014 | yi[oldsize] = abcissa[oldsize-1] \ |
---|
2015 | + 0.5 * (abcissa[oldsize-1] - abcissa[oldsize-2]) ; |
---|
2016 | //zi[0] = abcissa[0] - 0.5 * olddnu ; |
---|
2017 | zi[0] = ((olddnu*dnu > 0) ? yi[0] : yi[oldsize]) ; |
---|
2018 | for ( int ii = 1 ; ii < nChan ; ii++ ) |
---|
2019 | zi[ii] = zi[0] + dnu * ii ; |
---|
2020 | zi[nChan] = zi[nChan-1] + dnu ; |
---|
2021 | // Access zi and yi in ascending order |
---|
2022 | int izs = ((dnu > 0) ? 0 : nChan ) ; |
---|
2023 | int ize = ((dnu > 0) ? nChan : 0 ) ; |
---|
2024 | int izincr = ((dnu > 0) ? 1 : -1 ) ; |
---|
2025 | int ichan = ((olddnu > 0) ? 0 : oldsize ) ; |
---|
2026 | int iye = ((olddnu > 0) ? oldsize : 0 ) ; |
---|
2027 | int iyincr = ((olddnu > 0) ? 1 : -1 ) ; |
---|
2028 | //for ( int ii = izs ; ii != ize ; ii+=izincr ){ |
---|
2029 | int ii = izs ; |
---|
2030 | while (ii != ize) { |
---|
2031 | // always zl < zr |
---|
2032 | double zl = zi[ii] ; |
---|
2033 | double zr = zi[ii+izincr] ; |
---|
2034 | // Need to access smaller index for the new spec, flag, and tsys. |
---|
2035 | // Values between zi[k] and zi[k+1] should be stored in newspec[k], etc. |
---|
2036 | int i = min(ii, ii+izincr) ; |
---|
2037 | //for ( int jj = ichan ; jj != iye ; jj+=iyincr ) { |
---|
2038 | int jj = ichan ; |
---|
2039 | while (jj != iye) { |
---|
2040 | // always yl < yr |
---|
2041 | double yl = yi[jj] ; |
---|
2042 | double yr = yi[jj+iyincr] ; |
---|
2043 | // Need to access smaller index for the original spec, flag, and tsys. |
---|
2044 | // Values between yi[k] and yi[k+1] are stored in oldspec[k], etc. |
---|
2045 | int j = min(jj, jj+iyincr) ; |
---|
2046 | if ( yr <= zl ) { |
---|
2047 | jj += iyincr ; |
---|
2048 | continue ; |
---|
2049 | } |
---|
2050 | else if ( yl <= zl ) { |
---|
2051 | if ( yr < zr ) { |
---|
2052 | if (!oldflag[j]) { |
---|
2053 | newspec[i] += oldspec[j] * ( yr - zl ) ; |
---|
2054 | if (regridTsys) newtsys[i] += oldtsys[j] * ( yr - zl ) ; |
---|
2055 | wsum += ( yr - zl ) ; |
---|
2056 | } |
---|
2057 | newflag[i] = newflag[i] && oldflag[j] ; |
---|
2058 | } |
---|
2059 | else { |
---|
2060 | if (!oldflag[j]) { |
---|
2061 | newspec[i] += oldspec[j] * abs(dnu) ; |
---|
2062 | if (regridTsys) newtsys[i] += oldtsys[j] * abs(dnu) ; |
---|
2063 | wsum += abs(dnu) ; |
---|
2064 | } |
---|
2065 | newflag[i] = newflag[i] && oldflag[j] ; |
---|
2066 | ichan = jj ; |
---|
2067 | break ; |
---|
2068 | } |
---|
2069 | } |
---|
2070 | else if ( yl < zr ) { |
---|
2071 | if ( yr <= zr ) { |
---|
2072 | if (!oldflag[j]) { |
---|
2073 | newspec[i] += oldspec[j] * ( yr - yl ) ; |
---|
2074 | if (regridTsys) newtsys[i] += oldtsys[j] * ( yr - yl ) ; |
---|
2075 | wsum += ( yr - yl ) ; |
---|
2076 | } |
---|
2077 | newflag[i] = newflag[i] && oldflag[j] ; |
---|
2078 | } |
---|
2079 | else { |
---|
2080 | if (!oldflag[j]) { |
---|
2081 | newspec[i] += oldspec[j] * ( zr - yl ) ; |
---|
2082 | if (regridTsys) newtsys[i] += oldtsys[j] * ( zr - yl ) ; |
---|
2083 | wsum += ( zr - yl ) ; |
---|
2084 | } |
---|
2085 | newflag[i] = newflag[i] && oldflag[j] ; |
---|
2086 | ichan = jj ; |
---|
2087 | break ; |
---|
2088 | } |
---|
2089 | } |
---|
2090 | else { |
---|
2091 | ichan = jj - iyincr ; |
---|
2092 | break ; |
---|
2093 | } |
---|
2094 | jj += iyincr ; |
---|
2095 | } |
---|
2096 | if ( wsum != 0.0 ) { |
---|
2097 | newspec[i] /= wsum ; |
---|
2098 | if (regridTsys) newtsys[i] /= wsum ; |
---|
2099 | } |
---|
2100 | wsum = 0.0 ; |
---|
2101 | ii += izincr ; |
---|
2102 | } |
---|
2103 | // if ( dnu > 0.0 ) { |
---|
2104 | // for ( int ii = 0 ; ii < nChan ; ii++ ) { |
---|
2105 | // double zl = zi[ii] ; |
---|
2106 | // double zr = zi[ii+1] ; |
---|
2107 | // for ( int j = ichan ; j < oldsize ; j++ ) { |
---|
2108 | // double yl = yi[j] ; |
---|
2109 | // double yr = yi[j+1] ; |
---|
2110 | // if ( yl <= zl ) { |
---|
2111 | // if ( yr <= zl ) { |
---|
2112 | // continue ; |
---|
2113 | // } |
---|
2114 | // else if ( yr <= zr ) { |
---|
2115 | // if (!oldflag[j]) { |
---|
2116 | // newspec[ii] += oldspec[j] * ( yr - zl ) ; |
---|
2117 | // if (regridTsys) newtsys[ii] += oldtsys[j] * ( yr - zl ) ; |
---|
2118 | // wsum += ( yr - zl ) ; |
---|
2119 | // } |
---|
2120 | // newflag[ii] = newflag[ii] && oldflag[j] ; |
---|
2121 | // } |
---|
2122 | // else { |
---|
2123 | // if (!oldflag[j]) { |
---|
2124 | // newspec[ii] += oldspec[j] * dnu ; |
---|
2125 | // if (regridTsys) newtsys[ii] += oldtsys[j] * dnu ; |
---|
2126 | // wsum += dnu ; |
---|
2127 | // } |
---|
2128 | // newflag[ii] = newflag[ii] && oldflag[j] ; |
---|
2129 | // ichan = j ; |
---|
2130 | // break ; |
---|
2131 | // } |
---|
2132 | // } |
---|
2133 | // else if ( yl < zr ) { |
---|
2134 | // if ( yr <= zr ) { |
---|
2135 | // if (!oldflag[j]) { |
---|
2136 | // newspec[ii] += oldspec[j] * ( yr - yl ) ; |
---|
2137 | // if (regridTsys) newtsys[ii] += oldtsys[j] * ( yr - yl ) ; |
---|
2138 | // wsum += ( yr - yl ) ; |
---|
2139 | // } |
---|
2140 | // newflag[ii] = newflag[ii] && oldflag[j] ; |
---|
2141 | // } |
---|
2142 | // else { |
---|
2143 | // if (!oldflag[j]) { |
---|
2144 | // newspec[ii] += oldspec[j] * ( zr - yl ) ; |
---|
2145 | // if (regridTsys) newtsys[ii] += oldtsys[j] * ( zr - yl ) ; |
---|
2146 | // wsum += ( zr - yl ) ; |
---|
2147 | // } |
---|
2148 | // newflag[ii] = newflag[ii] && oldflag[j] ; |
---|
2149 | // ichan = j ; |
---|
2150 | // break ; |
---|
2151 | // } |
---|
2152 | // } |
---|
2153 | // else { |
---|
2154 | // ichan = j - 1 ; |
---|
2155 | // break ; |
---|
2156 | // } |
---|
2157 | // } |
---|
2158 | // if ( wsum != 0.0 ) { |
---|
2159 | // newspec[ii] /= wsum ; |
---|
2160 | // if (regridTsys) newtsys[ii] /= wsum ; |
---|
2161 | // } |
---|
2162 | // wsum = 0.0 ; |
---|
2163 | // } |
---|
2164 | // } |
---|
2165 | // else if ( dnu < 0.0 ) { |
---|
2166 | // for ( int ii = 0 ; ii < nChan ; ii++ ) { |
---|
2167 | // double zl = zi[ii] ; |
---|
2168 | // double zr = zi[ii+1] ; |
---|
2169 | // for ( int j = ichan ; j < oldsize ; j++ ) { |
---|
2170 | // double yl = yi[j] ; |
---|
2171 | // double yr = yi[j+1] ; |
---|
2172 | // if ( yl >= zl ) { |
---|
2173 | // if ( yr >= zl ) { |
---|
2174 | // continue ; |
---|
2175 | // } |
---|
2176 | // else if ( yr >= zr ) { |
---|
2177 | // if (!oldflag[j]) { |
---|
2178 | // newspec[ii] += oldspec[j] * abs( yr - zl ) ; |
---|
2179 | // if (regridTsys) newtsys[ii] += oldtsys[j] * abs( yr - zl ) ; |
---|
2180 | // wsum += abs( yr - zl ) ; |
---|
2181 | // } |
---|
2182 | // newflag[ii] = newflag[ii] && oldflag[j] ; |
---|
2183 | // } |
---|
2184 | // else { |
---|
2185 | // if (!oldflag[j]) { |
---|
2186 | // newspec[ii] += oldspec[j] * abs( dnu ) ; |
---|
2187 | // if (regridTsys) newtsys[ii] += oldtsys[j] * abs( dnu ) ; |
---|
2188 | // wsum += abs( dnu ) ; |
---|
2189 | // } |
---|
2190 | // newflag[ii] = newflag[ii] && oldflag[j] ; |
---|
2191 | // ichan = j ; |
---|
2192 | // break ; |
---|
2193 | // } |
---|
2194 | // } |
---|
2195 | // else if ( yl > zr ) { |
---|
2196 | // if ( yr >= zr ) { |
---|
2197 | // if (!oldflag[j]) { |
---|
2198 | // newspec[ii] += oldspec[j] * abs( yr - yl ) ; |
---|
2199 | // if (regridTsys) newtsys[ii] += oldtsys[j] * abs( yr - yl ) ; |
---|
2200 | // wsum += abs( yr - yl ) ; |
---|
2201 | // } |
---|
2202 | // newflag[ii] = newflag[ii] && oldflag[j] ; |
---|
2203 | // } |
---|
2204 | // else { |
---|
2205 | // if (!oldflag[j]) { |
---|
2206 | // newspec[ii] += oldspec[j] * abs( zr - yl ) ; |
---|
2207 | // if (regridTsys) newtsys[ii] += oldtsys[j] * abs( zr - yl ) ; |
---|
2208 | // wsum += abs( zr - yl ) ; |
---|
2209 | // } |
---|
2210 | // newflag[ii] = newflag[ii] && oldflag[j] ; |
---|
2211 | // ichan = j ; |
---|
2212 | // break ; |
---|
2213 | // } |
---|
2214 | // } |
---|
2215 | // else { |
---|
2216 | // ichan = j - 1 ; |
---|
2217 | // break ; |
---|
2218 | // } |
---|
2219 | // } |
---|
2220 | // if ( wsum != 0.0 ) { |
---|
2221 | // newspec[ii] /= wsum ; |
---|
2222 | // if (regridTsys) newtsys[ii] /= wsum ; |
---|
2223 | // } |
---|
2224 | // wsum = 0.0 ; |
---|
2225 | // } |
---|
2226 | // } |
---|
2227 | // // //ofs << "olddnu = " << olddnu << ", dnu = " << dnu << endl ; |
---|
2228 | // // pile += dnu ; |
---|
2229 | // // wedge = olddnu * ( refChan + 1 ) ; |
---|
2230 | // // while ( wedge < pile ) { |
---|
2231 | // // newspec[0] += olddnu * oldspec[refChan] ; |
---|
2232 | // // newflag[0] = newflag[0] || oldflag[refChan] ; |
---|
2233 | // // //ofs << "channel " << refChan << " is included in new channel 0" << endl ; |
---|
2234 | // // refChan++ ; |
---|
2235 | // // wedge += olddnu ; |
---|
2236 | // // wsum += olddnu ; |
---|
2237 | // // //ofs << "newspec[0] = " << newspec[0] << " wsum = " << wsum << endl ; |
---|
2238 | // // } |
---|
2239 | // // frac = ( wedge - pile ) / olddnu ; |
---|
2240 | // // wsum += ( 1.0 - frac ) * olddnu ; |
---|
2241 | // // newspec[0] += ( 1.0 - frac ) * olddnu * oldspec[refChan] ; |
---|
2242 | // // newflag[0] = newflag[0] || oldflag[refChan] ; |
---|
2243 | // // //ofs << "channel " << refChan << " is partly included in new channel 0" << " with fraction of " << ( 1.0 - frac ) << endl ; |
---|
2244 | // // //ofs << "newspec[0] = " << newspec[0] << " wsum = " << wsum << endl ; |
---|
2245 | // // newspec[0] /= wsum ; |
---|
2246 | // // //ofs << "newspec[0] = " << newspec[0] << endl ; |
---|
2247 | // // //ofs << "wedge = " << wedge << ", pile = " << pile << endl ; |
---|
2248 | |
---|
2249 | // // /*** |
---|
2250 | // // * ichan = 1 - nChan-2 |
---|
2251 | // // ***/ |
---|
2252 | // // for ( int ichan = 1 ; ichan < nChan - 1 ; ichan++ ) { |
---|
2253 | // // pile += dnu ; |
---|
2254 | // // newspec[ichan] += frac * olddnu * oldspec[refChan] ; |
---|
2255 | // // newflag[ichan] = newflag[ichan] || oldflag[refChan] ; |
---|
2256 | // // //ofs << "channel " << refChan << " is partly included in new channel " << ichan << " with fraction of " << frac << endl ; |
---|
2257 | // // refChan++ ; |
---|
2258 | // // wedge += olddnu ; |
---|
2259 | // // wsum = frac * olddnu ; |
---|
2260 | // // //ofs << "newspec[" << ichan << "] = " << newspec[ichan] << " wsum = " << wsum << endl ; |
---|
2261 | // // while ( wedge < pile ) { |
---|
2262 | // // newspec[ichan] += olddnu * oldspec[refChan] ; |
---|
2263 | // // newflag[ichan] = newflag[ichan] || oldflag[refChan] ; |
---|
2264 | // // //ofs << "channel " << refChan << " is included in new channel " << ichan << endl ; |
---|
2265 | // // refChan++ ; |
---|
2266 | // // wedge += olddnu ; |
---|
2267 | // // wsum += olddnu ; |
---|
2268 | // // //ofs << "newspec[" << ichan << "] = " << newspec[ichan] << " wsum = " << wsum << endl ; |
---|
2269 | // // } |
---|
2270 | // // frac = ( wedge - pile ) / olddnu ; |
---|
2271 | // // wsum += ( 1.0 - frac ) * olddnu ; |
---|
2272 | // // newspec[ichan] += ( 1.0 - frac ) * olddnu * oldspec[refChan] ; |
---|
2273 | // // newflag[ichan] = newflag[ichan] || oldflag[refChan] ; |
---|
2274 | // // //ofs << "channel " << refChan << " is partly included in new channel " << ichan << " with fraction of " << ( 1.0 - frac ) << endl ; |
---|
2275 | // // //ofs << "wedge = " << wedge << ", pile = " << pile << endl ; |
---|
2276 | // // //ofs << "newspec[" << ichan << "] = " << newspec[ichan] << " wsum = " << wsum << endl ; |
---|
2277 | // // newspec[ichan] /= wsum ; |
---|
2278 | // // //ofs << "newspec[" << ichan << "] = " << newspec[ichan] << endl ; |
---|
2279 | // // } |
---|
2280 | |
---|
2281 | // // /*** |
---|
2282 | // // * ichan = nChan-1 |
---|
2283 | // // ***/ |
---|
2284 | // // // NOTE: Assumed that all spectra have the same bandwidth |
---|
2285 | // // pile += dnu ; |
---|
2286 | // // newspec[nChan-1] += frac * olddnu * oldspec[refChan] ; |
---|
2287 | // // newflag[nChan-1] = newflag[nChan-1] || oldflag[refChan] ; |
---|
2288 | // // //ofs << "channel " << refChan << " is partly included in new channel " << nChan-1 << " with fraction of " << frac << endl ; |
---|
2289 | // // refChan++ ; |
---|
2290 | // // wedge += olddnu ; |
---|
2291 | // // wsum = frac * olddnu ; |
---|
2292 | // // //ofs << "newspec[" << nChan - 1 << "] = " << newspec[nChan-1] << " wsum = " << wsum << endl ; |
---|
2293 | // // for ( int jchan = refChan ; jchan < oldsize ; jchan++ ) { |
---|
2294 | // // newspec[nChan-1] += olddnu * oldspec[jchan] ; |
---|
2295 | // // newflag[nChan-1] = newflag[nChan-1] || oldflag[jchan] ; |
---|
2296 | // // wsum += olddnu ; |
---|
2297 | // // //ofs << "channel " << jchan << " is included in new channel " << nChan-1 << " with fraction of " << frac << endl ; |
---|
2298 | // // //ofs << "newspec[" << nChan - 1 << "] = " << newspec[nChan-1] << " wsum = " << wsum << endl ; |
---|
2299 | // // } |
---|
2300 | // // //ofs << "wedge = " << wedge << ", pile = " << pile << endl ; |
---|
2301 | // // //ofs << "newspec[" << nChan - 1 << "] = " << newspec[nChan-1] << " wsum = " << wsum << endl ; |
---|
2302 | // // newspec[nChan-1] /= wsum ; |
---|
2303 | // // //ofs << "newspec[" << nChan - 1 << "] = " << newspec[nChan-1] << endl ; |
---|
2304 | |
---|
2305 | // // // ofs.close() ; |
---|
2306 | |
---|
2307 | specCol_.put( irow, newspec ) ; |
---|
2308 | flagsCol_.put( irow, newflag ) ; |
---|
2309 | if (regridTsys) tsysCol_.put( irow, newtsys ); |
---|
2310 | |
---|
2311 | return ; |
---|
2312 | } |
---|
2313 | |
---|
2314 | void Scantable::regridChannel( int nChan, double dnu, double fmin, int irow ) |
---|
2315 | { |
---|
2316 | Vector<Float> oldspec = specCol_( irow ) ; |
---|
2317 | Vector<uChar> oldflag = flagsCol_( irow ) ; |
---|
2318 | Vector<Float> oldtsys = tsysCol_( irow ) ; |
---|
2319 | Vector<Float> newspec( nChan, 0 ) ; |
---|
2320 | Vector<uChar> newflag( nChan, true ) ; |
---|
2321 | Vector<Float> newtsys ; |
---|
2322 | bool regridTsys = false ; |
---|
2323 | if (oldtsys.size() == oldspec.size()) { |
---|
2324 | regridTsys = true ; |
---|
2325 | newtsys.resize(nChan,false) ; |
---|
2326 | newtsys = 0 ; |
---|
2327 | } |
---|
2328 | |
---|
2329 | // regrid |
---|
2330 | vector<double> abcissa = getAbcissa( irow ) ; |
---|
2331 | int oldsize = abcissa.size() ; |
---|
2332 | double olddnu = abcissa[1] - abcissa[0] ; |
---|
2333 | //int ichan = 0 ; |
---|
2334 | double wsum = 0.0 ; |
---|
2335 | Vector<double> zi( nChan+1 ) ; |
---|
2336 | Vector<double> yi( oldsize + 1 ) ; |
---|
2337 | Block<uInt> count( nChan, 0 ) ; |
---|
2338 | yi[0] = abcissa[0] - 0.5 * olddnu ; |
---|
2339 | for ( int ii = 1 ; ii < oldsize ; ii++ ) |
---|
2340 | yi[ii] = 0.5* (abcissa[ii-1] + abcissa[ii]) ; |
---|
2341 | yi[oldsize] = abcissa[oldsize-1] \ |
---|
2342 | + 0.5 * (abcissa[oldsize-1] - abcissa[oldsize-2]) ; |
---|
2343 | // cout << "olddnu=" << olddnu << ", dnu=" << dnu << " (diff=" << olddnu-dnu << ")" << endl ; |
---|
2344 | // cout << "yi[0]=" << yi[0] << ", fmin=" << fmin << " (diff=" << yi[0]-fmin << ")" << endl ; |
---|
2345 | // cout << "oldsize=" << oldsize << ", nChan=" << nChan << endl ; |
---|
2346 | |
---|
2347 | // do not regrid if input parameters are almost same as current |
---|
2348 | // spectral setup |
---|
2349 | double dnuDiff = abs( ( dnu - olddnu ) / olddnu ) ; |
---|
2350 | double oldfmin = min( yi[0], yi[oldsize] ) ; |
---|
2351 | double fminDiff = abs( ( fmin - oldfmin ) / oldfmin ) ; |
---|
2352 | double nChanDiff = nChan - oldsize ; |
---|
2353 | double eps = 1.0e-8 ; |
---|
2354 | if ( nChanDiff == 0 && dnuDiff < eps && fminDiff < eps ) |
---|
2355 | return ; |
---|
2356 | |
---|
2357 | //zi[0] = abcissa[0] - 0.5 * olddnu ; |
---|
2358 | //zi[0] = ((olddnu*dnu > 0) ? yi[0] : yi[oldsize]) ; |
---|
2359 | if ( dnu > 0 ) |
---|
2360 | zi[0] = fmin - 0.5 * dnu ; |
---|
2361 | else |
---|
2362 | zi[0] = fmin + nChan * abs(dnu) ; |
---|
2363 | for ( int ii = 1 ; ii < nChan ; ii++ ) |
---|
2364 | zi[ii] = zi[0] + dnu * ii ; |
---|
2365 | zi[nChan] = zi[nChan-1] + dnu ; |
---|
2366 | // Access zi and yi in ascending order |
---|
2367 | int izs = ((dnu > 0) ? 0 : nChan ) ; |
---|
2368 | int ize = ((dnu > 0) ? nChan : 0 ) ; |
---|
2369 | int izincr = ((dnu > 0) ? 1 : -1 ) ; |
---|
2370 | int ichan = ((olddnu > 0) ? 0 : oldsize ) ; |
---|
2371 | int iye = ((olddnu > 0) ? oldsize : 0 ) ; |
---|
2372 | int iyincr = ((olddnu > 0) ? 1 : -1 ) ; |
---|
2373 | //for ( int ii = izs ; ii != ize ; ii+=izincr ){ |
---|
2374 | int ii = izs ; |
---|
2375 | while (ii != ize) { |
---|
2376 | // always zl < zr |
---|
2377 | double zl = zi[ii] ; |
---|
2378 | double zr = zi[ii+izincr] ; |
---|
2379 | // Need to access smaller index for the new spec, flag, and tsys. |
---|
2380 | // Values between zi[k] and zi[k+1] should be stored in newspec[k], etc. |
---|
2381 | int i = min(ii, ii+izincr) ; |
---|
2382 | //for ( int jj = ichan ; jj != iye ; jj+=iyincr ) { |
---|
2383 | int jj = ichan ; |
---|
2384 | while (jj != iye) { |
---|
2385 | // always yl < yr |
---|
2386 | double yl = yi[jj] ; |
---|
2387 | double yr = yi[jj+iyincr] ; |
---|
2388 | // Need to access smaller index for the original spec, flag, and tsys. |
---|
2389 | // Values between yi[k] and yi[k+1] are stored in oldspec[k], etc. |
---|
2390 | int j = min(jj, jj+iyincr) ; |
---|
2391 | if ( yr <= zl ) { |
---|
2392 | jj += iyincr ; |
---|
2393 | continue ; |
---|
2394 | } |
---|
2395 | else if ( yl <= zl ) { |
---|
2396 | if ( yr < zr ) { |
---|
2397 | if (!oldflag[j]) { |
---|
2398 | newspec[i] += oldspec[j] * ( yr - zl ) ; |
---|
2399 | if (regridTsys) newtsys[i] += oldtsys[j] * ( yr - zl ) ; |
---|
2400 | wsum += ( yr - zl ) ; |
---|
2401 | count[i]++ ; |
---|
2402 | } |
---|
2403 | newflag[i] = newflag[i] && oldflag[j] ; |
---|
2404 | } |
---|
2405 | else { |
---|
2406 | if (!oldflag[j]) { |
---|
2407 | newspec[i] += oldspec[j] * abs(dnu) ; |
---|
2408 | if (regridTsys) newtsys[i] += oldtsys[j] * abs(dnu) ; |
---|
2409 | wsum += abs(dnu) ; |
---|
2410 | count[i]++ ; |
---|
2411 | } |
---|
2412 | newflag[i] = newflag[i] && oldflag[j] ; |
---|
2413 | ichan = jj ; |
---|
2414 | break ; |
---|
2415 | } |
---|
2416 | } |
---|
2417 | else if ( yl < zr ) { |
---|
2418 | if ( yr <= zr ) { |
---|
2419 | if (!oldflag[j]) { |
---|
2420 | newspec[i] += oldspec[j] * ( yr - yl ) ; |
---|
2421 | if (regridTsys) newtsys[i] += oldtsys[j] * ( yr - yl ) ; |
---|
2422 | wsum += ( yr - yl ) ; |
---|
2423 | count[i]++ ; |
---|
2424 | } |
---|
2425 | newflag[i] = newflag[i] && oldflag[j] ; |
---|
2426 | } |
---|
2427 | else { |
---|
2428 | if (!oldflag[j]) { |
---|
2429 | newspec[i] += oldspec[j] * ( zr - yl ) ; |
---|
2430 | if (regridTsys) newtsys[i] += oldtsys[j] * ( zr - yl ) ; |
---|
2431 | wsum += ( zr - yl ) ; |
---|
2432 | count[i]++ ; |
---|
2433 | } |
---|
2434 | newflag[i] = newflag[i] && oldflag[j] ; |
---|
2435 | ichan = jj ; |
---|
2436 | break ; |
---|
2437 | } |
---|
2438 | } |
---|
2439 | else { |
---|
2440 | //ichan = jj - iyincr ; |
---|
2441 | break ; |
---|
2442 | } |
---|
2443 | jj += iyincr ; |
---|
2444 | } |
---|
2445 | if ( wsum != 0.0 ) { |
---|
2446 | newspec[i] /= wsum ; |
---|
2447 | if (regridTsys) newtsys[i] /= wsum ; |
---|
2448 | } |
---|
2449 | wsum = 0.0 ; |
---|
2450 | ii += izincr ; |
---|
2451 | } |
---|
2452 | |
---|
2453 | // flag out channels without data |
---|
2454 | // this is tentative since there is no specific definition |
---|
2455 | // on bit flag... |
---|
2456 | uChar noData = 1 << 7 ; |
---|
2457 | for ( Int i = 0 ; i < nChan ; i++ ) { |
---|
2458 | if ( count[i] == 0 ) |
---|
2459 | newflag[i] = noData ; |
---|
2460 | } |
---|
2461 | |
---|
2462 | specCol_.put( irow, newspec ) ; |
---|
2463 | flagsCol_.put( irow, newflag ) ; |
---|
2464 | if (regridTsys) tsysCol_.put( irow, newtsys ); |
---|
2465 | |
---|
2466 | return ; |
---|
2467 | } |
---|
2468 | |
---|
2469 | std::vector<float> Scantable::getWeather(int whichrow) const |
---|
2470 | { |
---|
2471 | std::vector<float> out(5); |
---|
2472 | //Float temperature, pressure, humidity, windspeed, windaz; |
---|
2473 | weatherTable_.getEntry(out[0], out[1], out[2], out[3], out[4], |
---|
2474 | mweatheridCol_(uInt(whichrow))); |
---|
2475 | |
---|
2476 | |
---|
2477 | return out; |
---|
2478 | } |
---|
2479 | |
---|
2480 | bool Scantable::getFlagtraFast(uInt whichrow) |
---|
2481 | { |
---|
2482 | uChar flag; |
---|
2483 | Vector<uChar> flags; |
---|
2484 | flagsCol_.get(whichrow, flags); |
---|
2485 | flag = flags[0]; |
---|
2486 | for (uInt i = 1; i < flags.size(); ++i) { |
---|
2487 | flag &= flags[i]; |
---|
2488 | } |
---|
2489 | return ((flag >> 7) == 1); |
---|
2490 | } |
---|
2491 | |
---|
2492 | std::vector<std::string> Scantable::applyBaselineTable(const std::string& bltable, const std::string& outbltable, const bool outbltableexists, const bool overwrite) |
---|
2493 | { |
---|
2494 | STBaselineTable btin = STBaselineTable(bltable); |
---|
2495 | |
---|
2496 | Vector<Bool> applyCol = btin.getApply(); |
---|
2497 | int nRowBl = applyCol.size(); |
---|
2498 | if (nRowBl != nrow()) { |
---|
2499 | throw(AipsError("Scantable and bltable have different number of rows.")); |
---|
2500 | } |
---|
2501 | |
---|
2502 | std::vector<std::string> res; |
---|
2503 | res.clear(); |
---|
2504 | |
---|
2505 | bool outBaselineTable = ((outbltable != "") && (!outbltableexists || overwrite)); |
---|
2506 | bool bltableidentical = (bltable == outbltable); |
---|
2507 | STBaselineTable btout = STBaselineTable(*this); |
---|
2508 | ROScalarColumn<Double> tcol = ROScalarColumn<Double>(table_, "TIME"); |
---|
2509 | Vector<Double> timeSecCol = tcol.getColumn(); |
---|
2510 | |
---|
2511 | for (int whichrow = 0; whichrow < nRowBl; ++whichrow) { |
---|
2512 | if (applyCol[whichrow]) { |
---|
2513 | std::vector<float> spec = getSpectrum(whichrow); |
---|
2514 | |
---|
2515 | std::vector<bool> mask = btin.getMask(whichrow); //use mask_bltable only |
---|
2516 | |
---|
2517 | STBaselineFunc::FuncName ftype = btin.getFunctionName(whichrow); |
---|
2518 | std::vector<int> fpar = btin.getFuncParam(whichrow); |
---|
2519 | std::vector<float> params; |
---|
2520 | float rms; |
---|
2521 | std::vector<float> resfit = doApplyBaselineTable(spec, mask, ftype, fpar, params, rms); |
---|
2522 | |
---|
2523 | setSpectrum(resfit, whichrow); |
---|
2524 | |
---|
2525 | res.push_back(packFittingResults(whichrow, params, rms)); |
---|
2526 | |
---|
2527 | if (outBaselineTable) { |
---|
2528 | if (outbltableexists) { |
---|
2529 | if (overwrite) { |
---|
2530 | if (bltableidentical) { |
---|
2531 | btin.setresult(uInt(whichrow), Vector<Float>(params), Float(rms)); |
---|
2532 | } else { |
---|
2533 | btout.setresult(uInt(whichrow), Vector<Float>(params), Float(rms)); |
---|
2534 | } |
---|
2535 | } |
---|
2536 | } else { |
---|
2537 | btout.appenddata(getScan(whichrow), getCycle(whichrow), getBeam(whichrow), |
---|
2538 | getIF(whichrow), getPol(whichrow), 0, timeSecCol[whichrow], |
---|
2539 | true, ftype, fpar, std::vector<float>(), |
---|
2540 | getMaskListFromMask(mask), params, rms, spec.size(), |
---|
2541 | 3.0, 0, 0.0, 0, std::vector<int>()); |
---|
2542 | } |
---|
2543 | } |
---|
2544 | } |
---|
2545 | } |
---|
2546 | |
---|
2547 | if (outBaselineTable) { |
---|
2548 | if (bltableidentical) { |
---|
2549 | btin.save(outbltable); |
---|
2550 | } else { |
---|
2551 | btout.save(outbltable); |
---|
2552 | } |
---|
2553 | } |
---|
2554 | |
---|
2555 | return res; |
---|
2556 | } |
---|
2557 | |
---|
2558 | std::vector<std::string> Scantable::subBaseline(const std::vector<std::string>& blInfoList, const std::string& outbltable, const bool outbltableexists, const bool overwrite) |
---|
2559 | { |
---|
2560 | int nRowBl = blInfoList.size(); |
---|
2561 | int nRowSt = nrow(); |
---|
2562 | |
---|
2563 | std::vector<std::string> res; |
---|
2564 | res.clear(); |
---|
2565 | |
---|
2566 | bool outBaselineTable = ((outbltable != "") && (!outbltableexists || overwrite)); |
---|
2567 | if ((outbltable != "") && outbltableexists && !overwrite) { |
---|
2568 | throw(AipsError("Cannot overwrite bltable. Set overwrite=True.")); |
---|
2569 | } |
---|
2570 | |
---|
2571 | STBaselineTable bt = STBaselineTable(*this); |
---|
2572 | ROScalarColumn<Double> tcol = ROScalarColumn<Double>(table_, "TIME"); |
---|
2573 | Vector<Double> timeSecCol = tcol.getColumn(); |
---|
2574 | |
---|
2575 | if (outBaselineTable && !outbltableexists) { |
---|
2576 | for (int i = 0; i < nRowSt; ++i) { |
---|
2577 | bt.appendbasedata(getScan(i), getCycle(i), getBeam(i), getIF(i), getPol(i), |
---|
2578 | 0, timeSecCol[i]); |
---|
2579 | bt.setApply(i, false); |
---|
2580 | } |
---|
2581 | } |
---|
2582 | |
---|
2583 | for (int i = 0; i < nRowBl; ++i) { |
---|
2584 | int irow; |
---|
2585 | STBaselineFunc::FuncName ftype; |
---|
2586 | std::vector<bool> mask; |
---|
2587 | std::vector<int> fpar; |
---|
2588 | float clipth; |
---|
2589 | int clipn; |
---|
2590 | bool uself; |
---|
2591 | float lfth; |
---|
2592 | std::vector<int> lfedge; |
---|
2593 | int lfavg; |
---|
2594 | parseBlInfo(blInfoList[i], irow, ftype, fpar, mask, clipth, clipn, uself, lfth, lfedge, lfavg); |
---|
2595 | |
---|
2596 | if (irow < nRowSt) { |
---|
2597 | std::vector<float> spec = getSpectrum(irow); |
---|
2598 | std::vector<float> params; |
---|
2599 | float rms; |
---|
2600 | std::vector<bool> finalmask; |
---|
2601 | |
---|
2602 | std::vector<float> resfit = doSubtractBaseline(spec, mask, ftype, fpar, params, rms, finalmask, clipth, clipn, uself, irow, lfth, lfedge, lfavg); |
---|
2603 | setSpectrum(resfit, irow); |
---|
2604 | res.push_back(packFittingResults(irow, params, rms)); |
---|
2605 | |
---|
2606 | if (outBaselineTable) { |
---|
2607 | Vector<Int> fparam(fpar.size()); |
---|
2608 | for (uInt j = 0; j < fparam.size(); ++j) { |
---|
2609 | fparam[j] = (Int)fpar[j]; |
---|
2610 | } |
---|
2611 | |
---|
2612 | bt.setdata(uInt(irow), |
---|
2613 | uInt(getScan(irow)), uInt(getCycle(irow)), |
---|
2614 | uInt(getBeam(irow)), uInt(getIF(irow)), uInt(getPol(irow)), |
---|
2615 | uInt(0), timeSecCol[irow], Bool(true), ftype, fparam, |
---|
2616 | Vector<Float>(), getMaskListFromMask(finalmask), Vector<Float>(params), |
---|
2617 | Float(rms), uInt(spec.size()), Float(clipth), uInt(clipn), |
---|
2618 | Float(0.0), uInt(0), Vector<uInt>()); |
---|
2619 | } |
---|
2620 | |
---|
2621 | } |
---|
2622 | } |
---|
2623 | |
---|
2624 | if (outBaselineTable) { |
---|
2625 | bt.save(outbltable); |
---|
2626 | } |
---|
2627 | |
---|
2628 | return res; |
---|
2629 | } |
---|
2630 | |
---|
2631 | std::vector<float> Scantable::doApplyBaselineTable(std::vector<float>& spec, |
---|
2632 | std::vector<bool>& mask, |
---|
2633 | const STBaselineFunc::FuncName ftype, |
---|
2634 | std::vector<int>& fpar, |
---|
2635 | std::vector<float>& params, |
---|
2636 | float&rms) |
---|
2637 | { |
---|
2638 | std::vector<bool> finalmask; |
---|
2639 | std::vector<int> lfedge; |
---|
2640 | return doSubtractBaseline(spec, mask, ftype, fpar, params, rms, finalmask, 0.0, 0, false, 0, 0.0, lfedge, 0); |
---|
2641 | } |
---|
2642 | |
---|
2643 | std::vector<float> Scantable::doSubtractBaseline(std::vector<float>& spec, |
---|
2644 | std::vector<bool>& mask, |
---|
2645 | const STBaselineFunc::FuncName ftype, |
---|
2646 | std::vector<int>& fpar, |
---|
2647 | std::vector<float>& params, |
---|
2648 | float&rms, |
---|
2649 | std::vector<bool>& finalmask, |
---|
2650 | float clipth, |
---|
2651 | int clipn, |
---|
2652 | bool uself, |
---|
2653 | int irow, |
---|
2654 | float lfth, |
---|
2655 | std::vector<int>& lfedge, |
---|
2656 | int lfavg) |
---|
2657 | { |
---|
2658 | if (uself) { |
---|
2659 | STLineFinder lineFinder = STLineFinder(); |
---|
2660 | initLineFinder(lfedge, lfth, lfavg, lineFinder); |
---|
2661 | std::vector<int> currentEdge; |
---|
2662 | mask = getCompositeChanMask(irow, mask, lfedge, currentEdge, lineFinder); |
---|
2663 | } |
---|
2664 | |
---|
2665 | std::vector<float> res; |
---|
2666 | if (ftype == STBaselineFunc::Polynomial) { |
---|
2667 | res = doPolynomialFitting(spec, mask, fpar[0], params, rms, finalmask, clipth, clipn); |
---|
2668 | } else if (ftype == STBaselineFunc::Chebyshev) { |
---|
2669 | res = doChebyshevFitting(spec, mask, fpar[0], params, rms, finalmask, clipth, clipn); |
---|
2670 | } else if (ftype == STBaselineFunc::CSpline) { |
---|
2671 | if (fpar.size() > 1) { // reading from baseline table in which pieceEdges are already calculated and stored. |
---|
2672 | res = doCubicSplineFitting(spec, mask, fpar, params, rms, finalmask, clipth, clipn); |
---|
2673 | } else { // usual cspline fitting by giving nPiece only. fpar will be replaced with pieceEdges. |
---|
2674 | res = doCubicSplineFitting(spec, mask, fpar[0], fpar, params, rms, finalmask, clipth, clipn); |
---|
2675 | } |
---|
2676 | } else if (ftype == STBaselineFunc::Sinusoid) { |
---|
2677 | res = doSinusoidFitting(spec, mask, fpar, params, rms, finalmask, clipth, clipn); |
---|
2678 | } |
---|
2679 | |
---|
2680 | return res; |
---|
2681 | } |
---|
2682 | |
---|
2683 | std::string Scantable::packFittingResults(const int irow, const std::vector<float>& params, const float rms) |
---|
2684 | { |
---|
2685 | // returned value: "irow:params[0],params[1],..,params[n-1]:rms" |
---|
2686 | ostringstream os; |
---|
2687 | os << irow << ':'; |
---|
2688 | for (uInt i = 0; i < params.size(); ++i) { |
---|
2689 | if (i > 0) { |
---|
2690 | os << ','; |
---|
2691 | } |
---|
2692 | os << params[i]; |
---|
2693 | } |
---|
2694 | os << ':' << rms; |
---|
2695 | |
---|
2696 | return os.str(); |
---|
2697 | } |
---|
2698 | |
---|
2699 | void Scantable::parseBlInfo(const std::string& blInfo, int& irow, STBaselineFunc::FuncName& ftype, std::vector<int>& fpar, std::vector<bool>& mask, float& thresClip, int& nIterClip, bool& useLineFinder, float& thresLF, std::vector<int>& edgeLF, int& avgLF) |
---|
2700 | { |
---|
2701 | // The baseline info to be parsed must be column-delimited string like |
---|
2702 | // "0:chebyshev:5:3,5,169,174,485,487" where the elements are |
---|
2703 | // row number, funcType, funcOrder, maskList, clipThreshold, clipNIter, |
---|
2704 | // useLineFinder, lfThreshold, lfEdge and lfChanAvgLimit. |
---|
2705 | |
---|
2706 | std::vector<string> res = splitToStringList(blInfo, ':'); |
---|
2707 | if (res.size() < 4) { |
---|
2708 | throw(AipsError("baseline info has bad format")) ; |
---|
2709 | } |
---|
2710 | |
---|
2711 | string ftype0, fpar0, masklist0, uself0, edge0; |
---|
2712 | std::vector<int> masklist; |
---|
2713 | |
---|
2714 | stringstream ss; |
---|
2715 | ss << res[0]; |
---|
2716 | ss >> irow; |
---|
2717 | ss.clear(); ss.str(""); |
---|
2718 | |
---|
2719 | ss << res[1]; |
---|
2720 | ss >> ftype0; |
---|
2721 | if (ftype0 == "poly") { |
---|
2722 | ftype = STBaselineFunc::Polynomial; |
---|
2723 | } else if (ftype0 == "cspline") { |
---|
2724 | ftype = STBaselineFunc::CSpline; |
---|
2725 | } else if (ftype0 == "sinusoid") { |
---|
2726 | ftype = STBaselineFunc::Sinusoid; |
---|
2727 | } else if (ftype0 == "chebyshev") { |
---|
2728 | ftype = STBaselineFunc::Chebyshev; |
---|
2729 | } else { |
---|
2730 | throw(AipsError("invalid function type.")); |
---|
2731 | } |
---|
2732 | ss.clear(); ss.str(""); |
---|
2733 | |
---|
2734 | ss << res[2]; |
---|
2735 | ss >> fpar0; |
---|
2736 | fpar = splitToIntList(fpar0, ','); |
---|
2737 | ss.clear(); ss.str(""); |
---|
2738 | |
---|
2739 | ss << res[3]; |
---|
2740 | ss >> masklist0; |
---|
2741 | mask = getMaskFromMaskList(nchan(getIF(irow)), splitToIntList(masklist0, ',')); |
---|
2742 | |
---|
2743 | ss << res[4]; |
---|
2744 | ss >> thresClip; |
---|
2745 | ss.clear(); ss.str(""); |
---|
2746 | |
---|
2747 | ss << res[5]; |
---|
2748 | ss >> nIterClip; |
---|
2749 | ss.clear(); ss.str(""); |
---|
2750 | |
---|
2751 | ss << res[6]; |
---|
2752 | ss >> uself0; |
---|
2753 | if (uself0 == "true") { |
---|
2754 | useLineFinder = true; |
---|
2755 | } else { |
---|
2756 | useLineFinder = false; |
---|
2757 | } |
---|
2758 | ss.clear(); ss.str(""); |
---|
2759 | |
---|
2760 | if (useLineFinder) { |
---|
2761 | ss << res[7]; |
---|
2762 | ss >> thresLF; |
---|
2763 | ss.clear(); ss.str(""); |
---|
2764 | |
---|
2765 | ss << res[8]; |
---|
2766 | ss >> edge0; |
---|
2767 | edgeLF = splitToIntList(edge0, ','); |
---|
2768 | ss.clear(); ss.str(""); |
---|
2769 | |
---|
2770 | ss << res[9]; |
---|
2771 | ss >> avgLF; |
---|
2772 | ss.clear(); ss.str(""); |
---|
2773 | } |
---|
2774 | |
---|
2775 | } |
---|
2776 | |
---|
2777 | std::vector<int> Scantable::splitToIntList(const std::string& s, const char delim) |
---|
2778 | { |
---|
2779 | istringstream iss(s); |
---|
2780 | string tmp; |
---|
2781 | int tmpi; |
---|
2782 | std::vector<int> res; |
---|
2783 | stringstream ss; |
---|
2784 | while (getline(iss, tmp, delim)) { |
---|
2785 | ss << tmp; |
---|
2786 | ss >> tmpi; |
---|
2787 | res.push_back(tmpi); |
---|
2788 | ss.clear(); ss.str(""); |
---|
2789 | } |
---|
2790 | |
---|
2791 | return res; |
---|
2792 | } |
---|
2793 | |
---|
2794 | std::vector<string> Scantable::splitToStringList(const std::string& s, const char delim) |
---|
2795 | { |
---|
2796 | istringstream iss(s); |
---|
2797 | std::string tmp; |
---|
2798 | std::vector<string> res; |
---|
2799 | while (getline(iss, tmp, delim)) { |
---|
2800 | res.push_back(tmp); |
---|
2801 | } |
---|
2802 | |
---|
2803 | return res; |
---|
2804 | } |
---|
2805 | |
---|
2806 | std::vector<bool> Scantable::getMaskFromMaskList(const int nchan, const std::vector<int>& masklist) |
---|
2807 | { |
---|
2808 | if (masklist.size() % 2 != 0) { |
---|
2809 | throw(AipsError("masklist must have even number of elements.")); |
---|
2810 | } |
---|
2811 | |
---|
2812 | std::vector<bool> res(nchan); |
---|
2813 | |
---|
2814 | for (int i = 0; i < nchan; ++i) { |
---|
2815 | res[i] = false; |
---|
2816 | } |
---|
2817 | for (uInt j = 0; j < masklist.size(); j += 2) { |
---|
2818 | for (int i = masklist[j]; i <= masklist[j+1]; ++i) { |
---|
2819 | res[i] = true; |
---|
2820 | } |
---|
2821 | } |
---|
2822 | |
---|
2823 | return res; |
---|
2824 | } |
---|
2825 | |
---|
2826 | Vector<uInt> Scantable::getMaskListFromMask(const std::vector<bool>& mask) |
---|
2827 | { |
---|
2828 | std::vector<int> masklist; |
---|
2829 | masklist.clear(); |
---|
2830 | |
---|
2831 | for (uInt i = 0; i < mask.size(); ++i) { |
---|
2832 | if (mask[i]) { |
---|
2833 | if ((i == 0)||(i == mask.size()-1)) { |
---|
2834 | masklist.push_back(i); |
---|
2835 | } else { |
---|
2836 | if ((mask[i])&&(!mask[i-1])) { |
---|
2837 | masklist.push_back(i); |
---|
2838 | } |
---|
2839 | if ((mask[i])&&(!mask[i+1])) { |
---|
2840 | masklist.push_back(i); |
---|
2841 | } |
---|
2842 | } |
---|
2843 | } |
---|
2844 | } |
---|
2845 | |
---|
2846 | Vector<uInt> res(masklist.size()); |
---|
2847 | for (uInt i = 0; i < masklist.size(); ++i) { |
---|
2848 | res[i] = (uInt)masklist[i]; |
---|
2849 | } |
---|
2850 | |
---|
2851 | return res; |
---|
2852 | } |
---|
2853 | |
---|
2854 | void Scantable::initialiseBaselining(const std::string& blfile, |
---|
2855 | ofstream& ofs, |
---|
2856 | const bool outLogger, |
---|
2857 | bool& outTextFile, |
---|
2858 | bool& csvFormat, |
---|
2859 | String& coordInfo, |
---|
2860 | bool& hasSameNchan, |
---|
2861 | const std::string& progressInfo, |
---|
2862 | bool& showProgress, |
---|
2863 | int& minNRow, |
---|
2864 | Vector<Double>& timeSecCol) |
---|
2865 | { |
---|
2866 | csvFormat = false; |
---|
2867 | outTextFile = false; |
---|
2868 | |
---|
2869 | if (blfile != "") { |
---|
2870 | csvFormat = (blfile.substr(0, 1) == "T"); |
---|
2871 | ofs.open(blfile.substr(1).c_str(), ios::out | ios::app); |
---|
2872 | if (ofs) outTextFile = true; |
---|
2873 | } |
---|
2874 | |
---|
2875 | coordInfo = ""; |
---|
2876 | hasSameNchan = true; |
---|
2877 | |
---|
2878 | if (outLogger || outTextFile) { |
---|
2879 | coordInfo = getCoordInfo()[0]; |
---|
2880 | if (coordInfo == "") coordInfo = "channel"; |
---|
2881 | hasSameNchan = hasSameNchanOverIFs(); |
---|
2882 | } |
---|
2883 | |
---|
2884 | parseProgressInfo(progressInfo, showProgress, minNRow); |
---|
2885 | |
---|
2886 | ROScalarColumn<Double> tcol = ROScalarColumn<Double>(table_, "TIME"); |
---|
2887 | timeSecCol = tcol.getColumn(); |
---|
2888 | } |
---|
2889 | |
---|
2890 | void Scantable::finaliseBaselining(const bool outBaselineTable, |
---|
2891 | STBaselineTable* pbt, |
---|
2892 | const string& bltable, |
---|
2893 | const bool outTextFile, |
---|
2894 | ofstream& ofs) |
---|
2895 | { |
---|
2896 | if (outBaselineTable) { |
---|
2897 | pbt->save(bltable); |
---|
2898 | } |
---|
2899 | |
---|
2900 | if (outTextFile) ofs.close(); |
---|
2901 | } |
---|
2902 | |
---|
2903 | void Scantable::initLineFinder(const std::vector<int>& edge, |
---|
2904 | const float threshold, |
---|
2905 | const int chanAvgLimit, |
---|
2906 | STLineFinder& lineFinder) |
---|
2907 | { |
---|
2908 | if ((edge.size() > 2) && (edge.size() < getIFNos().size()*2)) { |
---|
2909 | throw(AipsError("Length of edge element info is less than that of IFs")); |
---|
2910 | } |
---|
2911 | |
---|
2912 | lineFinder.setOptions(threshold, 3, chanAvgLimit); |
---|
2913 | } |
---|
2914 | |
---|
2915 | void Scantable::polyBaseline(const std::vector<bool>& mask, int order, |
---|
2916 | float thresClip, int nIterClip, |
---|
2917 | bool getResidual, |
---|
2918 | const std::string& progressInfo, |
---|
2919 | const bool outLogger, const std::string& blfile, |
---|
2920 | const std::string& bltable) |
---|
2921 | { |
---|
2922 | /**** |
---|
2923 | double TimeStart = mathutil::gettimeofday_sec(); |
---|
2924 | ****/ |
---|
2925 | |
---|
2926 | try { |
---|
2927 | ofstream ofs; |
---|
2928 | String coordInfo; |
---|
2929 | bool hasSameNchan, outTextFile, csvFormat, showProgress; |
---|
2930 | int minNRow; |
---|
2931 | int nRow = nrow(); |
---|
2932 | std::vector<bool> chanMask, finalChanMask; |
---|
2933 | float rms; |
---|
2934 | bool outBaselineTable = (bltable != ""); |
---|
2935 | STBaselineTable bt = STBaselineTable(*this); |
---|
2936 | Vector<Double> timeSecCol; |
---|
2937 | |
---|
2938 | initialiseBaselining(blfile, ofs, outLogger, outTextFile, csvFormat, |
---|
2939 | coordInfo, hasSameNchan, |
---|
2940 | progressInfo, showProgress, minNRow, |
---|
2941 | timeSecCol); |
---|
2942 | |
---|
2943 | std::vector<int> nChanNos; |
---|
2944 | std::vector<std::vector<std::vector<double> > > modelReservoir; |
---|
2945 | modelReservoir = getPolynomialModelReservoir(order, |
---|
2946 | &Scantable::getNormalPolynomial, |
---|
2947 | nChanNos); |
---|
2948 | |
---|
2949 | for (int whichrow = 0; whichrow < nRow; ++whichrow) { |
---|
2950 | std::vector<float> sp = getSpectrum(whichrow); |
---|
2951 | chanMask = getCompositeChanMask(whichrow, mask); |
---|
2952 | |
---|
2953 | std::vector<float> params; |
---|
2954 | int nClipped = 0; |
---|
2955 | std::vector<float> res = doLeastSquareFitting(sp, chanMask, |
---|
2956 | modelReservoir[getIdxOfNchan(sp.size(), nChanNos)], |
---|
2957 | params, rms, finalChanMask, |
---|
2958 | nClipped, thresClip, nIterClip, getResidual); |
---|
2959 | |
---|
2960 | if (outBaselineTable) { |
---|
2961 | bt.appenddata(getScan(whichrow), getCycle(whichrow), getBeam(whichrow), |
---|
2962 | getIF(whichrow), getPol(whichrow), 0, timeSecCol[whichrow], |
---|
2963 | true, STBaselineFunc::Polynomial, order, std::vector<float>(), |
---|
2964 | getMaskListFromMask(finalChanMask), params, rms, sp.size(), |
---|
2965 | thresClip, nIterClip, 0.0, 0, std::vector<int>()); |
---|
2966 | } else { |
---|
2967 | setSpectrum(res, whichrow); |
---|
2968 | } |
---|
2969 | |
---|
2970 | outputFittingResult(outLogger, outTextFile, csvFormat, chanMask, whichrow, |
---|
2971 | coordInfo, hasSameNchan, ofs, "polyBaseline()", |
---|
2972 | params, nClipped); |
---|
2973 | showProgressOnTerminal(whichrow, nRow, showProgress, minNRow); |
---|
2974 | } |
---|
2975 | |
---|
2976 | finaliseBaselining(outBaselineTable, &bt, bltable, outTextFile, ofs); |
---|
2977 | |
---|
2978 | } catch (...) { |
---|
2979 | throw; |
---|
2980 | } |
---|
2981 | |
---|
2982 | /**** |
---|
2983 | double TimeEnd = mathutil::gettimeofday_sec(); |
---|
2984 | double elapse1 = TimeEnd - TimeStart; |
---|
2985 | std::cout << "poly-new : " << elapse1 << " (sec.)" << endl; |
---|
2986 | ****/ |
---|
2987 | } |
---|
2988 | |
---|
2989 | void Scantable::autoPolyBaseline(const std::vector<bool>& mask, int order, |
---|
2990 | float thresClip, int nIterClip, |
---|
2991 | const std::vector<int>& edge, |
---|
2992 | float threshold, int chanAvgLimit, |
---|
2993 | bool getResidual, |
---|
2994 | const std::string& progressInfo, |
---|
2995 | const bool outLogger, const std::string& blfile, |
---|
2996 | const std::string& bltable) |
---|
2997 | { |
---|
2998 | try { |
---|
2999 | ofstream ofs; |
---|
3000 | String coordInfo; |
---|
3001 | bool hasSameNchan, outTextFile, csvFormat, showProgress; |
---|
3002 | int minNRow; |
---|
3003 | int nRow = nrow(); |
---|
3004 | std::vector<bool> chanMask, finalChanMask; |
---|
3005 | float rms; |
---|
3006 | bool outBaselineTable = (bltable != ""); |
---|
3007 | STBaselineTable bt = STBaselineTable(*this); |
---|
3008 | Vector<Double> timeSecCol; |
---|
3009 | STLineFinder lineFinder = STLineFinder(); |
---|
3010 | |
---|
3011 | initialiseBaselining(blfile, ofs, outLogger, outTextFile, csvFormat, |
---|
3012 | coordInfo, hasSameNchan, |
---|
3013 | progressInfo, showProgress, minNRow, |
---|
3014 | timeSecCol); |
---|
3015 | |
---|
3016 | initLineFinder(edge, threshold, chanAvgLimit, lineFinder); |
---|
3017 | |
---|
3018 | std::vector<int> nChanNos; |
---|
3019 | std::vector<std::vector<std::vector<double> > > modelReservoir; |
---|
3020 | modelReservoir = getPolynomialModelReservoir(order, |
---|
3021 | &Scantable::getNormalPolynomial, |
---|
3022 | nChanNos); |
---|
3023 | |
---|
3024 | for (int whichrow = 0; whichrow < nRow; ++whichrow) { |
---|
3025 | std::vector<float> sp = getSpectrum(whichrow); |
---|
3026 | std::vector<int> currentEdge; |
---|
3027 | chanMask = getCompositeChanMask(whichrow, mask, edge, currentEdge, lineFinder); |
---|
3028 | |
---|
3029 | std::vector<float> params; |
---|
3030 | int nClipped = 0; |
---|
3031 | std::vector<float> res = doLeastSquareFitting(sp, chanMask, |
---|
3032 | modelReservoir[getIdxOfNchan(sp.size(), nChanNos)], |
---|
3033 | params, rms, finalChanMask, |
---|
3034 | nClipped, thresClip, nIterClip, getResidual); |
---|
3035 | |
---|
3036 | if (outBaselineTable) { |
---|
3037 | bt.appenddata(getScan(whichrow), getCycle(whichrow), getBeam(whichrow), |
---|
3038 | getIF(whichrow), getPol(whichrow), 0, timeSecCol[whichrow], |
---|
3039 | true, STBaselineFunc::Polynomial, order, std::vector<float>(), |
---|
3040 | getMaskListFromMask(finalChanMask), params, rms, sp.size(), |
---|
3041 | thresClip, nIterClip, threshold, chanAvgLimit, currentEdge); |
---|
3042 | } else { |
---|
3043 | setSpectrum(res, whichrow); |
---|
3044 | } |
---|
3045 | |
---|
3046 | outputFittingResult(outLogger, outTextFile, csvFormat, chanMask, whichrow, |
---|
3047 | coordInfo, hasSameNchan, ofs, "autoPolyBaseline()", |
---|
3048 | params, nClipped); |
---|
3049 | showProgressOnTerminal(whichrow, nRow, showProgress, minNRow); |
---|
3050 | } |
---|
3051 | |
---|
3052 | finaliseBaselining(outBaselineTable, &bt, bltable, outTextFile, ofs); |
---|
3053 | |
---|
3054 | } catch (...) { |
---|
3055 | throw; |
---|
3056 | } |
---|
3057 | } |
---|
3058 | |
---|
3059 | void Scantable::chebyshevBaseline(const std::vector<bool>& mask, int order, |
---|
3060 | float thresClip, int nIterClip, |
---|
3061 | bool getResidual, |
---|
3062 | const std::string& progressInfo, |
---|
3063 | const bool outLogger, const std::string& blfile, |
---|
3064 | const std::string& bltable) |
---|
3065 | { |
---|
3066 | /* |
---|
3067 | double TimeStart = mathutil::gettimeofday_sec(); |
---|
3068 | */ |
---|
3069 | |
---|
3070 | try { |
---|
3071 | ofstream ofs; |
---|
3072 | String coordInfo; |
---|
3073 | bool hasSameNchan, outTextFile, csvFormat, showProgress; |
---|
3074 | int minNRow; |
---|
3075 | int nRow = nrow(); |
---|
3076 | std::vector<bool> chanMask, finalChanMask; |
---|
3077 | float rms; |
---|
3078 | bool outBaselineTable = (bltable != ""); |
---|
3079 | STBaselineTable bt = STBaselineTable(*this); |
---|
3080 | Vector<Double> timeSecCol; |
---|
3081 | |
---|
3082 | initialiseBaselining(blfile, ofs, outLogger, outTextFile, csvFormat, |
---|
3083 | coordInfo, hasSameNchan, |
---|
3084 | progressInfo, showProgress, minNRow, |
---|
3085 | timeSecCol); |
---|
3086 | |
---|
3087 | std::vector<int> nChanNos; |
---|
3088 | std::vector<std::vector<std::vector<double> > > modelReservoir; |
---|
3089 | modelReservoir = getPolynomialModelReservoir(order, |
---|
3090 | &Scantable::getChebyshevPolynomial, |
---|
3091 | nChanNos); |
---|
3092 | |
---|
3093 | for (int whichrow = 0; whichrow < nRow; ++whichrow) { |
---|
3094 | std::vector<float> sp = getSpectrum(whichrow); |
---|
3095 | chanMask = getCompositeChanMask(whichrow, mask); |
---|
3096 | |
---|
3097 | std::vector<float> params; |
---|
3098 | int nClipped = 0; |
---|
3099 | std::vector<float> res = doLeastSquareFitting(sp, chanMask, |
---|
3100 | modelReservoir[getIdxOfNchan(sp.size(), nChanNos)], |
---|
3101 | params, rms, finalChanMask, |
---|
3102 | nClipped, thresClip, nIterClip, getResidual); |
---|
3103 | |
---|
3104 | if (outBaselineTable) { |
---|
3105 | bt.appenddata(getScan(whichrow), getCycle(whichrow), getBeam(whichrow), |
---|
3106 | getIF(whichrow), getPol(whichrow), 0, timeSecCol[whichrow], |
---|
3107 | true, STBaselineFunc::Chebyshev, order, std::vector<float>(), |
---|
3108 | getMaskListFromMask(finalChanMask), params, rms, sp.size(), |
---|
3109 | thresClip, nIterClip, 0.0, 0, std::vector<int>()); |
---|
3110 | } else { |
---|
3111 | setSpectrum(res, whichrow); |
---|
3112 | } |
---|
3113 | |
---|
3114 | outputFittingResult(outLogger, outTextFile, csvFormat, chanMask, whichrow, |
---|
3115 | coordInfo, hasSameNchan, ofs, "chebyshevBaseline()", |
---|
3116 | params, nClipped); |
---|
3117 | showProgressOnTerminal(whichrow, nRow, showProgress, minNRow); |
---|
3118 | } |
---|
3119 | |
---|
3120 | finaliseBaselining(outBaselineTable, &bt, bltable, outTextFile, ofs); |
---|
3121 | |
---|
3122 | } catch (...) { |
---|
3123 | throw; |
---|
3124 | } |
---|
3125 | |
---|
3126 | /* |
---|
3127 | double TimeEnd = mathutil::gettimeofday_sec(); |
---|
3128 | double elapse1 = TimeEnd - TimeStart; |
---|
3129 | std::cout << "cheby : " << elapse1 << " (sec.)" << endl; |
---|
3130 | */ |
---|
3131 | } |
---|
3132 | |
---|
3133 | void Scantable::autoChebyshevBaseline(const std::vector<bool>& mask, int order, |
---|
3134 | float thresClip, int nIterClip, |
---|
3135 | const std::vector<int>& edge, |
---|
3136 | float threshold, int chanAvgLimit, |
---|
3137 | bool getResidual, |
---|
3138 | const std::string& progressInfo, |
---|
3139 | const bool outLogger, const std::string& blfile, |
---|
3140 | const std::string& bltable) |
---|
3141 | { |
---|
3142 | try { |
---|
3143 | ofstream ofs; |
---|
3144 | String coordInfo; |
---|
3145 | bool hasSameNchan, outTextFile, csvFormat, showProgress; |
---|
3146 | int minNRow; |
---|
3147 | int nRow = nrow(); |
---|
3148 | std::vector<bool> chanMask, finalChanMask; |
---|
3149 | float rms; |
---|
3150 | bool outBaselineTable = (bltable != ""); |
---|
3151 | STBaselineTable bt = STBaselineTable(*this); |
---|
3152 | Vector<Double> timeSecCol; |
---|
3153 | STLineFinder lineFinder = STLineFinder(); |
---|
3154 | |
---|
3155 | initialiseBaselining(blfile, ofs, outLogger, outTextFile, csvFormat, |
---|
3156 | coordInfo, hasSameNchan, |
---|
3157 | progressInfo, showProgress, minNRow, |
---|
3158 | timeSecCol); |
---|
3159 | |
---|
3160 | initLineFinder(edge, threshold, chanAvgLimit, lineFinder); |
---|
3161 | |
---|
3162 | std::vector<int> nChanNos; |
---|
3163 | std::vector<std::vector<std::vector<double> > > modelReservoir; |
---|
3164 | modelReservoir = getPolynomialModelReservoir(order, |
---|
3165 | &Scantable::getChebyshevPolynomial, |
---|
3166 | nChanNos); |
---|
3167 | |
---|
3168 | for (int whichrow = 0; whichrow < nRow; ++whichrow) { |
---|
3169 | std::vector<float> sp = getSpectrum(whichrow); |
---|
3170 | std::vector<int> currentEdge; |
---|
3171 | chanMask = getCompositeChanMask(whichrow, mask, edge, currentEdge, lineFinder); |
---|
3172 | |
---|
3173 | std::vector<float> params; |
---|
3174 | int nClipped = 0; |
---|
3175 | std::vector<float> res = doLeastSquareFitting(sp, chanMask, |
---|
3176 | modelReservoir[getIdxOfNchan(sp.size(), nChanNos)], |
---|
3177 | params, rms, finalChanMask, |
---|
3178 | nClipped, thresClip, nIterClip, getResidual); |
---|
3179 | |
---|
3180 | if (outBaselineTable) { |
---|
3181 | bt.appenddata(getScan(whichrow), getCycle(whichrow), getBeam(whichrow), |
---|
3182 | getIF(whichrow), getPol(whichrow), 0, timeSecCol[whichrow], |
---|
3183 | true, STBaselineFunc::Chebyshev, order, std::vector<float>(), |
---|
3184 | getMaskListFromMask(finalChanMask), params, rms, sp.size(), |
---|
3185 | thresClip, nIterClip, threshold, chanAvgLimit, currentEdge); |
---|
3186 | } else { |
---|
3187 | setSpectrum(res, whichrow); |
---|
3188 | } |
---|
3189 | |
---|
3190 | outputFittingResult(outLogger, outTextFile, csvFormat, chanMask, whichrow, |
---|
3191 | coordInfo, hasSameNchan, ofs, "autoChebyshevBaseline()", |
---|
3192 | params, nClipped); |
---|
3193 | showProgressOnTerminal(whichrow, nRow, showProgress, minNRow); |
---|
3194 | } |
---|
3195 | |
---|
3196 | finaliseBaselining(outBaselineTable, &bt, bltable, outTextFile, ofs); |
---|
3197 | |
---|
3198 | } catch (...) { |
---|
3199 | throw; |
---|
3200 | } |
---|
3201 | } |
---|
3202 | |
---|
3203 | double Scantable::calculateModelSelectionCriteria(const std::string& valname, |
---|
3204 | const std::string& blfunc, |
---|
3205 | int order, |
---|
3206 | const std::vector<bool>& inMask, |
---|
3207 | int whichrow, |
---|
3208 | bool useLineFinder, |
---|
3209 | const std::vector<int>& edge, |
---|
3210 | float threshold, |
---|
3211 | int chanAvgLimit) |
---|
3212 | { |
---|
3213 | std::vector<float> sp = getSpectrum(whichrow); |
---|
3214 | std::vector<bool> chanMask; |
---|
3215 | chanMask.clear(); |
---|
3216 | |
---|
3217 | if (useLineFinder) { |
---|
3218 | STLineFinder lineFinder = STLineFinder(); |
---|
3219 | initLineFinder(edge, threshold, chanAvgLimit, lineFinder); |
---|
3220 | std::vector<int> currentEdge; |
---|
3221 | chanMask = getCompositeChanMask(whichrow, inMask, edge, currentEdge, lineFinder); |
---|
3222 | } else { |
---|
3223 | chanMask = getCompositeChanMask(whichrow, inMask); |
---|
3224 | } |
---|
3225 | |
---|
3226 | return doCalculateModelSelectionCriteria(valname, sp, chanMask, blfunc, order); |
---|
3227 | } |
---|
3228 | |
---|
3229 | double Scantable::doCalculateModelSelectionCriteria(const std::string& valname, const std::vector<float>& spec, const std::vector<bool>& mask, const std::string& blfunc, int order) |
---|
3230 | { |
---|
3231 | int nparam; |
---|
3232 | std::vector<float> params; |
---|
3233 | std::vector<bool> finalChanMask; |
---|
3234 | float rms; |
---|
3235 | int nClipped = 0; |
---|
3236 | std::vector<float> res; |
---|
3237 | if (blfunc == "poly") { |
---|
3238 | nparam = order + 1; |
---|
3239 | res = doPolynomialFitting(spec, mask, order, params, rms, finalChanMask, nClipped); |
---|
3240 | } else if (blfunc == "chebyshev") { |
---|
3241 | nparam = order + 1; |
---|
3242 | res = doChebyshevFitting(spec, mask, order, params, rms, finalChanMask, nClipped); |
---|
3243 | } else if (blfunc == "cspline") { |
---|
3244 | std::vector<int> pieceEdges;//(order+1); //order = npiece |
---|
3245 | nparam = order + 3; |
---|
3246 | res = doCubicSplineFitting(spec, mask, order, false, pieceEdges, params, rms, finalChanMask, nClipped); |
---|
3247 | } else if (blfunc == "sinusoid") { |
---|
3248 | std::vector<int> nWaves; |
---|
3249 | nWaves.clear(); |
---|
3250 | for (int i = 0; i <= order; ++i) { |
---|
3251 | nWaves.push_back(i); |
---|
3252 | } |
---|
3253 | nparam = 2*order + 1; // order = nwave |
---|
3254 | res = doSinusoidFitting(spec, mask, nWaves, params, rms, finalChanMask, nClipped); |
---|
3255 | } else { |
---|
3256 | throw(AipsError("blfunc must be poly, chebyshev, cspline or sinusoid.")); |
---|
3257 | } |
---|
3258 | |
---|
3259 | double msq = 0.0; |
---|
3260 | int nusedchan = 0; |
---|
3261 | int nChan = res.size(); |
---|
3262 | for (int i = 0; i < nChan; ++i) { |
---|
3263 | if (mask[i]) { |
---|
3264 | msq += (double)res[i]*(double)res[i]; |
---|
3265 | nusedchan++; |
---|
3266 | } |
---|
3267 | } |
---|
3268 | if (nusedchan == 0) { |
---|
3269 | throw(AipsError("all channels masked.")); |
---|
3270 | } |
---|
3271 | msq /= (double)nusedchan; |
---|
3272 | |
---|
3273 | nparam++; //add 1 for sigma of Gaussian distribution |
---|
3274 | const double PI = 6.0 * asin(0.5); // PI (= 3.141592653...) |
---|
3275 | |
---|
3276 | if (valname.find("aic") == 0) { |
---|
3277 | // Original Akaike Information Criterion (AIC) |
---|
3278 | double aic = nusedchan * (log(2.0 * PI * msq) + 1.0) + 2.0 * nparam; |
---|
3279 | |
---|
3280 | // Corrected AIC by Sugiura(1978) (AICc) |
---|
3281 | if (valname == "aicc") { |
---|
3282 | if (nusedchan - nparam - 1 <= 0) { |
---|
3283 | throw(AipsError("channel size is too small to calculate AICc.")); |
---|
3284 | } |
---|
3285 | aic += 2.0*nparam*(nparam + 1)/(double)(nusedchan - nparam - 1); |
---|
3286 | } |
---|
3287 | |
---|
3288 | return aic; |
---|
3289 | |
---|
3290 | } else if (valname == "bic") { |
---|
3291 | // Bayesian Information Criterion (BIC) |
---|
3292 | double bic = nusedchan * log(msq) + nparam * log((double)nusedchan); |
---|
3293 | return bic; |
---|
3294 | |
---|
3295 | } else if (valname == "gcv") { |
---|
3296 | // Generalised Cross Validation |
---|
3297 | double x = 1.0 - (double)nparam / (double)nusedchan; |
---|
3298 | double gcv = msq / (x * x); |
---|
3299 | return gcv; |
---|
3300 | |
---|
3301 | } else { |
---|
3302 | throw(AipsError("valname must be aic, aicc, bic or gcv.")); |
---|
3303 | } |
---|
3304 | } |
---|
3305 | |
---|
3306 | double Scantable::getNormalPolynomial(int n, double x) { |
---|
3307 | if (n == 0) { |
---|
3308 | return 1.0; |
---|
3309 | } else if (n > 0) { |
---|
3310 | double res = 1.0; |
---|
3311 | for (int i = 0; i < n; ++i) { |
---|
3312 | res *= x; |
---|
3313 | } |
---|
3314 | return res; |
---|
3315 | } else { |
---|
3316 | if (x == 0.0) { |
---|
3317 | throw(AipsError("infinity result: x=0 given for negative power.")); |
---|
3318 | } else { |
---|
3319 | return pow(x, (double)n); |
---|
3320 | } |
---|
3321 | } |
---|
3322 | } |
---|
3323 | |
---|
3324 | double Scantable::getChebyshevPolynomial(int n, double x) { |
---|
3325 | if ((x < -1.0)||(x > 1.0)) { |
---|
3326 | throw(AipsError("out of definition range (-1 <= x <= 1).")); |
---|
3327 | } else if (x == 1.0) { |
---|
3328 | return 1.0; |
---|
3329 | } else if (x == 0.0) { |
---|
3330 | double res; |
---|
3331 | if (n%2 == 0) { |
---|
3332 | if (n%4 == 0) { |
---|
3333 | res = 1.0; |
---|
3334 | } else { |
---|
3335 | res = -1.0; |
---|
3336 | } |
---|
3337 | } else { |
---|
3338 | res = 0.0; |
---|
3339 | } |
---|
3340 | return res; |
---|
3341 | } else if (x == -1.0) { |
---|
3342 | double res = (n%2 == 0 ? 1.0 : -1.0); |
---|
3343 | return res; |
---|
3344 | } else if (n < 0) { |
---|
3345 | throw(AipsError("the order must be zero or positive.")); |
---|
3346 | } else if (n == 0) { |
---|
3347 | return 1.0; |
---|
3348 | } else if (n == 1) { |
---|
3349 | return x; |
---|
3350 | } else { |
---|
3351 | double res = 0.0; |
---|
3352 | for (int m = 0; m <= n/2; ++m) { |
---|
3353 | double c = 1.0; |
---|
3354 | if (m > 0) { |
---|
3355 | for (int i = 1; i <= m; ++i) { |
---|
3356 | c *= (double)(n-2*m+i)/(double)i; |
---|
3357 | } |
---|
3358 | } |
---|
3359 | res += (m%2 == 0 ? 1.0 : -1.0)*(double)n/(double)(n-m)*pow(2.0*x, (double)(n-2*m))/2.0*c; |
---|
3360 | } |
---|
3361 | return res; |
---|
3362 | } |
---|
3363 | } |
---|
3364 | |
---|
3365 | std::vector<float> Scantable::doPolynomialFitting(const std::vector<float>& data, |
---|
3366 | const std::vector<bool>& mask, |
---|
3367 | int order, |
---|
3368 | std::vector<float>& params, |
---|
3369 | float& rms, |
---|
3370 | std::vector<bool>& finalmask, |
---|
3371 | float clipth, |
---|
3372 | int clipn) |
---|
3373 | { |
---|
3374 | int nClipped = 0; |
---|
3375 | return doPolynomialFitting(data, mask, order, params, rms, finalmask, nClipped, clipth, clipn); |
---|
3376 | } |
---|
3377 | |
---|
3378 | std::vector<float> Scantable::doPolynomialFitting(const std::vector<float>& data, |
---|
3379 | const std::vector<bool>& mask, |
---|
3380 | int order, |
---|
3381 | std::vector<float>& params, |
---|
3382 | float& rms, |
---|
3383 | std::vector<bool>& finalMask, |
---|
3384 | int& nClipped, |
---|
3385 | float thresClip, |
---|
3386 | int nIterClip, |
---|
3387 | bool getResidual) |
---|
3388 | { |
---|
3389 | return doLeastSquareFitting(data, mask, |
---|
3390 | getPolynomialModel(order, data.size(), &Scantable::getNormalPolynomial), |
---|
3391 | params, rms, finalMask, |
---|
3392 | nClipped, thresClip, nIterClip, |
---|
3393 | getResidual); |
---|
3394 | } |
---|
3395 | |
---|
3396 | std::vector<float> Scantable::doChebyshevFitting(const std::vector<float>& data, |
---|
3397 | const std::vector<bool>& mask, |
---|
3398 | int order, |
---|
3399 | std::vector<float>& params, |
---|
3400 | float& rms, |
---|
3401 | std::vector<bool>& finalmask, |
---|
3402 | float clipth, |
---|
3403 | int clipn) |
---|
3404 | { |
---|
3405 | int nClipped = 0; |
---|
3406 | return doChebyshevFitting(data, mask, order, params, rms, finalmask, nClipped, clipth, clipn); |
---|
3407 | } |
---|
3408 | |
---|
3409 | std::vector<float> Scantable::doChebyshevFitting(const std::vector<float>& data, |
---|
3410 | const std::vector<bool>& mask, |
---|
3411 | int order, |
---|
3412 | std::vector<float>& params, |
---|
3413 | float& rms, |
---|
3414 | std::vector<bool>& finalMask, |
---|
3415 | int& nClipped, |
---|
3416 | float thresClip, |
---|
3417 | int nIterClip, |
---|
3418 | bool getResidual) |
---|
3419 | { |
---|
3420 | return doLeastSquareFitting(data, mask, |
---|
3421 | getPolynomialModel(order, data.size(), &Scantable::getChebyshevPolynomial), |
---|
3422 | params, rms, finalMask, |
---|
3423 | nClipped, thresClip, nIterClip, |
---|
3424 | getResidual); |
---|
3425 | } |
---|
3426 | |
---|
3427 | std::vector<std::vector<double> > Scantable::getPolynomialModel(int order, int nchan, double (Scantable::*pfunc)(int, double)) |
---|
3428 | { |
---|
3429 | // model : contains model values for computing the least-square matrix. |
---|
3430 | // model.size() is nmodel and model[*].size() is nchan. |
---|
3431 | // Each model element are as follows: |
---|
3432 | // |
---|
3433 | // (for normal polynomials) |
---|
3434 | // model[0] = {1.0, 1.0, 1.0, ..., 1.0}, |
---|
3435 | // model[1] = {0.0, 1.0, 2.0, ..., (nchan-1)} |
---|
3436 | // model[n-1] = ..., |
---|
3437 | // model[n] = {0.0^n, 1.0^n, 2.0^n, ..., (nchan-1)^n} |
---|
3438 | // where (0 <= n <= order) |
---|
3439 | // |
---|
3440 | // (for Chebyshev polynomials) |
---|
3441 | // model[0] = {T0(-1), T0(2/(nchan-1)-1), T0(4/(nchan-1)-1), ..., T0(1)}, |
---|
3442 | // model[n-1] = ..., |
---|
3443 | // model[n] = {Tn(-1), Tn(2/(nchan-1)-1), Tn(4/(nchan-1)-1), ..., Tn(1)} |
---|
3444 | // where (0 <= n <= order), |
---|
3445 | |
---|
3446 | int nmodel = order + 1; |
---|
3447 | std::vector<std::vector<double> > model(nmodel, std::vector<double>(nchan)); |
---|
3448 | |
---|
3449 | double stretch, shift; |
---|
3450 | if (pfunc == &Scantable::getChebyshevPolynomial) { |
---|
3451 | stretch = 2.0/(double)(nchan - 1); |
---|
3452 | shift = -1.0; |
---|
3453 | } else { |
---|
3454 | stretch = 1.0; |
---|
3455 | shift = 0.0; |
---|
3456 | } |
---|
3457 | |
---|
3458 | for (int i = 0; i < nmodel; ++i) { |
---|
3459 | for (int j = 0; j < nchan; ++j) { |
---|
3460 | model[i][j] = (this->*pfunc)(i, stretch*(double)j + shift); |
---|
3461 | } |
---|
3462 | } |
---|
3463 | |
---|
3464 | return model; |
---|
3465 | } |
---|
3466 | |
---|
3467 | std::vector<std::vector<std::vector<double> > > Scantable::getPolynomialModelReservoir(int order, |
---|
3468 | double (Scantable::*pfunc)(int, double), |
---|
3469 | std::vector<int>& nChanNos) |
---|
3470 | { |
---|
3471 | std::vector<std::vector<std::vector<double> > > res; |
---|
3472 | res.clear(); |
---|
3473 | nChanNos.clear(); |
---|
3474 | |
---|
3475 | std::vector<uint> ifNos = getIFNos(); |
---|
3476 | for (uint i = 0; i < ifNos.size(); ++i) { |
---|
3477 | int currNchan = nchan(ifNos[i]); |
---|
3478 | bool hasDifferentNchan = (i == 0); |
---|
3479 | for (uint j = 0; j < i; ++j) { |
---|
3480 | if (currNchan != nchan(ifNos[j])) { |
---|
3481 | hasDifferentNchan = true; |
---|
3482 | break; |
---|
3483 | } |
---|
3484 | } |
---|
3485 | if (hasDifferentNchan) { |
---|
3486 | res.push_back(getPolynomialModel(order, currNchan, pfunc)); |
---|
3487 | nChanNos.push_back(currNchan); |
---|
3488 | } |
---|
3489 | } |
---|
3490 | |
---|
3491 | return res; |
---|
3492 | } |
---|
3493 | |
---|
3494 | std::vector<float> Scantable::doLeastSquareFitting(const std::vector<float>& data, |
---|
3495 | const std::vector<bool>& mask, |
---|
3496 | const std::vector<std::vector<double> >& model, |
---|
3497 | std::vector<float>& params, |
---|
3498 | float& rms, |
---|
3499 | std::vector<bool>& finalMask, |
---|
3500 | int& nClipped, |
---|
3501 | float thresClip, |
---|
3502 | int nIterClip, |
---|
3503 | bool getResidual) |
---|
3504 | { |
---|
3505 | int nDOF = model.size(); |
---|
3506 | int nChan = data.size(); |
---|
3507 | |
---|
3508 | if (nDOF == 0) { |
---|
3509 | throw(AipsError("no model data given")); |
---|
3510 | } |
---|
3511 | if (nChan < 2) { |
---|
3512 | throw(AipsError("data size is too few")); |
---|
3513 | } |
---|
3514 | if (nChan != (int)mask.size()) { |
---|
3515 | throw(AipsError("data and mask sizes are not identical")); |
---|
3516 | } |
---|
3517 | for (int i = 0; i < nDOF; ++i) { |
---|
3518 | if (nChan != (int)model[i].size()) { |
---|
3519 | throw(AipsError("data and model sizes are not identical")); |
---|
3520 | } |
---|
3521 | } |
---|
3522 | |
---|
3523 | params.clear(); |
---|
3524 | params.resize(nDOF); |
---|
3525 | |
---|
3526 | finalMask.clear(); |
---|
3527 | finalMask.resize(nChan); |
---|
3528 | |
---|
3529 | std::vector<int> maskArray(nChan); |
---|
3530 | int j = 0; |
---|
3531 | for (int i = 0; i < nChan; ++i) { |
---|
3532 | maskArray[i] = mask[i] ? 1 : 0; |
---|
3533 | if (mask[i]) { |
---|
3534 | j++; |
---|
3535 | } |
---|
3536 | finalMask[i] = mask[i]; |
---|
3537 | } |
---|
3538 | |
---|
3539 | int initNData = j; |
---|
3540 | int nData = initNData; |
---|
3541 | |
---|
3542 | std::vector<double> z1(nChan), r1(nChan), residual(nChan); |
---|
3543 | for (int i = 0; i < nChan; ++i) { |
---|
3544 | z1[i] = (double)data[i]; |
---|
3545 | r1[i] = 0.0; |
---|
3546 | residual[i] = 0.0; |
---|
3547 | } |
---|
3548 | |
---|
3549 | for (int nClip = 0; nClip < nIterClip+1; ++nClip) { |
---|
3550 | // xMatrix : horizontal concatenation of |
---|
3551 | // the least-sq. matrix (left) and an |
---|
3552 | // identity matrix (right). |
---|
3553 | // the right part is used to calculate the inverse matrix of the left part. |
---|
3554 | double xMatrix[nDOF][2*nDOF]; |
---|
3555 | double zMatrix[nDOF]; |
---|
3556 | for (int i = 0; i < nDOF; ++i) { |
---|
3557 | for (int j = 0; j < 2*nDOF; ++j) { |
---|
3558 | xMatrix[i][j] = 0.0; |
---|
3559 | } |
---|
3560 | xMatrix[i][nDOF+i] = 1.0; |
---|
3561 | zMatrix[i] = 0.0; |
---|
3562 | } |
---|
3563 | |
---|
3564 | int nUseData = 0; |
---|
3565 | for (int k = 0; k < nChan; ++k) { |
---|
3566 | if (maskArray[k] == 0) continue; |
---|
3567 | |
---|
3568 | for (int i = 0; i < nDOF; ++i) { |
---|
3569 | for (int j = i; j < nDOF; ++j) { |
---|
3570 | xMatrix[i][j] += model[i][k] * model[j][k]; |
---|
3571 | } |
---|
3572 | zMatrix[i] += z1[k] * model[i][k]; |
---|
3573 | } |
---|
3574 | |
---|
3575 | nUseData++; |
---|
3576 | } |
---|
3577 | |
---|
3578 | if (nUseData < 1) { |
---|
3579 | throw(AipsError("all channels clipped or masked. can't execute fitting anymore.")); |
---|
3580 | } |
---|
3581 | |
---|
3582 | for (int i = 0; i < nDOF; ++i) { |
---|
3583 | for (int j = 0; j < i; ++j) { |
---|
3584 | xMatrix[i][j] = xMatrix[j][i]; |
---|
3585 | } |
---|
3586 | } |
---|
3587 | |
---|
3588 | std::vector<double> invDiag(nDOF); |
---|
3589 | for (int i = 0; i < nDOF; ++i) { |
---|
3590 | invDiag[i] = 1.0 / xMatrix[i][i]; |
---|
3591 | for (int j = 0; j < nDOF; ++j) { |
---|
3592 | xMatrix[i][j] *= invDiag[i]; |
---|
3593 | } |
---|
3594 | } |
---|
3595 | |
---|
3596 | for (int k = 0; k < nDOF; ++k) { |
---|
3597 | for (int i = 0; i < nDOF; ++i) { |
---|
3598 | if (i != k) { |
---|
3599 | double factor1 = xMatrix[k][k]; |
---|
3600 | double invfactor1 = 1.0 / factor1; |
---|
3601 | double factor2 = xMatrix[i][k]; |
---|
3602 | for (int j = k; j < 2*nDOF; ++j) { |
---|
3603 | xMatrix[i][j] *= factor1; |
---|
3604 | xMatrix[i][j] -= xMatrix[k][j]*factor2; |
---|
3605 | xMatrix[i][j] *= invfactor1; |
---|
3606 | } |
---|
3607 | } |
---|
3608 | } |
---|
3609 | double invXDiag = 1.0 / xMatrix[k][k]; |
---|
3610 | for (int j = k; j < 2*nDOF; ++j) { |
---|
3611 | xMatrix[k][j] *= invXDiag; |
---|
3612 | } |
---|
3613 | } |
---|
3614 | |
---|
3615 | for (int i = 0; i < nDOF; ++i) { |
---|
3616 | for (int j = 0; j < nDOF; ++j) { |
---|
3617 | xMatrix[i][nDOF+j] *= invDiag[j]; |
---|
3618 | } |
---|
3619 | } |
---|
3620 | //compute a vector y in which coefficients of the best-fit |
---|
3621 | //model functions are stored. |
---|
3622 | //in case of polynomials, y consists of (a0,a1,a2,...) |
---|
3623 | //where ai is the coefficient of the term x^i. |
---|
3624 | //in case of sinusoids, y consists of (a0,s1,c1,s2,c2,...) |
---|
3625 | //where a0 is constant term and s* and c* are of sine |
---|
3626 | //and cosine functions, respectively. |
---|
3627 | std::vector<double> y(nDOF); |
---|
3628 | for (int i = 0; i < nDOF; ++i) { |
---|
3629 | y[i] = 0.0; |
---|
3630 | for (int j = 0; j < nDOF; ++j) { |
---|
3631 | y[i] += xMatrix[i][nDOF+j]*zMatrix[j]; |
---|
3632 | } |
---|
3633 | params[i] = (float)y[i]; |
---|
3634 | } |
---|
3635 | |
---|
3636 | for (int i = 0; i < nChan; ++i) { |
---|
3637 | r1[i] = y[0]; |
---|
3638 | for (int j = 1; j < nDOF; ++j) { |
---|
3639 | r1[i] += y[j]*model[j][i]; |
---|
3640 | } |
---|
3641 | residual[i] = z1[i] - r1[i]; |
---|
3642 | } |
---|
3643 | |
---|
3644 | double stdDev = 0.0; |
---|
3645 | for (int i = 0; i < nChan; ++i) { |
---|
3646 | stdDev += residual[i]*residual[i]*(double)maskArray[i]; |
---|
3647 | } |
---|
3648 | stdDev = sqrt(stdDev/(double)nData); |
---|
3649 | rms = (float)stdDev; |
---|
3650 | |
---|
3651 | if ((nClip == nIterClip) || (thresClip <= 0.0)) { |
---|
3652 | break; |
---|
3653 | } else { |
---|
3654 | |
---|
3655 | double thres = stdDev * thresClip; |
---|
3656 | int newNData = 0; |
---|
3657 | for (int i = 0; i < nChan; ++i) { |
---|
3658 | if (abs(residual[i]) >= thres) { |
---|
3659 | maskArray[i] = 0; |
---|
3660 | finalMask[i] = false; |
---|
3661 | } |
---|
3662 | if (maskArray[i] > 0) { |
---|
3663 | newNData++; |
---|
3664 | } |
---|
3665 | } |
---|
3666 | if (newNData == nData) { |
---|
3667 | break; //no more flag to add. iteration stops. |
---|
3668 | } else { |
---|
3669 | nData = newNData; |
---|
3670 | } |
---|
3671 | |
---|
3672 | } |
---|
3673 | } |
---|
3674 | |
---|
3675 | nClipped = initNData - nData; |
---|
3676 | |
---|
3677 | std::vector<float> result(nChan); |
---|
3678 | if (getResidual) { |
---|
3679 | for (int i = 0; i < nChan; ++i) { |
---|
3680 | result[i] = (float)residual[i]; |
---|
3681 | } |
---|
3682 | } else { |
---|
3683 | for (int i = 0; i < nChan; ++i) { |
---|
3684 | result[i] = (float)r1[i]; |
---|
3685 | } |
---|
3686 | } |
---|
3687 | |
---|
3688 | return result; |
---|
3689 | } |
---|
3690 | |
---|
3691 | void Scantable::cubicSplineBaseline(const std::vector<bool>& mask, int nPiece, |
---|
3692 | float thresClip, int nIterClip, |
---|
3693 | bool getResidual, |
---|
3694 | const std::string& progressInfo, |
---|
3695 | const bool outLogger, const std::string& blfile, |
---|
3696 | const std::string& bltable) |
---|
3697 | { |
---|
3698 | /**** |
---|
3699 | double TimeStart = mathutil::gettimeofday_sec(); |
---|
3700 | ****/ |
---|
3701 | |
---|
3702 | try { |
---|
3703 | ofstream ofs; |
---|
3704 | String coordInfo; |
---|
3705 | bool hasSameNchan, outTextFile, csvFormat, showProgress; |
---|
3706 | int minNRow; |
---|
3707 | int nRow = nrow(); |
---|
3708 | std::vector<bool> chanMask, finalChanMask; |
---|
3709 | float rms; |
---|
3710 | bool outBaselineTable = (bltable != ""); |
---|
3711 | STBaselineTable bt = STBaselineTable(*this); |
---|
3712 | Vector<Double> timeSecCol; |
---|
3713 | |
---|
3714 | initialiseBaselining(blfile, ofs, outLogger, outTextFile, csvFormat, |
---|
3715 | coordInfo, hasSameNchan, |
---|
3716 | progressInfo, showProgress, minNRow, |
---|
3717 | timeSecCol); |
---|
3718 | |
---|
3719 | std::vector<int> nChanNos; |
---|
3720 | std::vector<std::vector<std::vector<double> > > modelReservoir; |
---|
3721 | modelReservoir = getPolynomialModelReservoir(3, |
---|
3722 | &Scantable::getNormalPolynomial, |
---|
3723 | nChanNos); |
---|
3724 | |
---|
3725 | for (int whichrow = 0; whichrow < nRow; ++whichrow) { |
---|
3726 | std::vector<float> sp = getSpectrum(whichrow); |
---|
3727 | chanMask = getCompositeChanMask(whichrow, mask); |
---|
3728 | |
---|
3729 | std::vector<int> pieceEdges; |
---|
3730 | std::vector<float> params; |
---|
3731 | int nClipped = 0; |
---|
3732 | std::vector<float> res = doCubicSplineLeastSquareFitting(sp, chanMask, |
---|
3733 | modelReservoir[getIdxOfNchan(sp.size(), nChanNos)], |
---|
3734 | nPiece, false, pieceEdges, params, rms, finalChanMask, |
---|
3735 | nClipped, thresClip, nIterClip, getResidual); |
---|
3736 | |
---|
3737 | if (outBaselineTable) { |
---|
3738 | bt.appenddata(getScan(whichrow), getCycle(whichrow), getBeam(whichrow), |
---|
3739 | getIF(whichrow), getPol(whichrow), 0, timeSecCol[whichrow], |
---|
3740 | true, STBaselineFunc::CSpline, pieceEdges, std::vector<float>(), |
---|
3741 | getMaskListFromMask(finalChanMask), params, rms, sp.size(), |
---|
3742 | thresClip, nIterClip, 0.0, 0, std::vector<int>()); |
---|
3743 | } else { |
---|
3744 | setSpectrum(res, whichrow); |
---|
3745 | } |
---|
3746 | |
---|
3747 | outputFittingResult(outLogger, outTextFile, csvFormat, chanMask, whichrow, |
---|
3748 | coordInfo, hasSameNchan, ofs, "cubicSplineBaseline()", |
---|
3749 | pieceEdges, params, nClipped); |
---|
3750 | showProgressOnTerminal(whichrow, nRow, showProgress, minNRow); |
---|
3751 | } |
---|
3752 | |
---|
3753 | finaliseBaselining(outBaselineTable, &bt, bltable, outTextFile, ofs); |
---|
3754 | |
---|
3755 | } catch (...) { |
---|
3756 | throw; |
---|
3757 | } |
---|
3758 | |
---|
3759 | /**** |
---|
3760 | double TimeEnd = mathutil::gettimeofday_sec(); |
---|
3761 | double elapse1 = TimeEnd - TimeStart; |
---|
3762 | std::cout << "cspline-new : " << elapse1 << " (sec.)" << endl; |
---|
3763 | ****/ |
---|
3764 | } |
---|
3765 | |
---|
3766 | void Scantable::autoCubicSplineBaseline(const std::vector<bool>& mask, int nPiece, |
---|
3767 | float thresClip, int nIterClip, |
---|
3768 | const std::vector<int>& edge, |
---|
3769 | float threshold, int chanAvgLimit, |
---|
3770 | bool getResidual, |
---|
3771 | const std::string& progressInfo, |
---|
3772 | const bool outLogger, const std::string& blfile, |
---|
3773 | const std::string& bltable) |
---|
3774 | { |
---|
3775 | try { |
---|
3776 | ofstream ofs; |
---|
3777 | String coordInfo; |
---|
3778 | bool hasSameNchan, outTextFile, csvFormat, showProgress; |
---|
3779 | int minNRow; |
---|
3780 | int nRow = nrow(); |
---|
3781 | std::vector<bool> chanMask, finalChanMask; |
---|
3782 | float rms; |
---|
3783 | bool outBaselineTable = (bltable != ""); |
---|
3784 | STBaselineTable bt = STBaselineTable(*this); |
---|
3785 | Vector<Double> timeSecCol; |
---|
3786 | STLineFinder lineFinder = STLineFinder(); |
---|
3787 | |
---|
3788 | initialiseBaselining(blfile, ofs, outLogger, outTextFile, csvFormat, |
---|
3789 | coordInfo, hasSameNchan, |
---|
3790 | progressInfo, showProgress, minNRow, |
---|
3791 | timeSecCol); |
---|
3792 | |
---|
3793 | initLineFinder(edge, threshold, chanAvgLimit, lineFinder); |
---|
3794 | |
---|
3795 | std::vector<int> nChanNos; |
---|
3796 | std::vector<std::vector<std::vector<double> > > modelReservoir; |
---|
3797 | modelReservoir = getPolynomialModelReservoir(3, |
---|
3798 | &Scantable::getNormalPolynomial, |
---|
3799 | nChanNos); |
---|
3800 | |
---|
3801 | for (int whichrow = 0; whichrow < nRow; ++whichrow) { |
---|
3802 | std::vector<float> sp = getSpectrum(whichrow); |
---|
3803 | std::vector<int> currentEdge; |
---|
3804 | chanMask = getCompositeChanMask(whichrow, mask, edge, currentEdge, lineFinder); |
---|
3805 | |
---|
3806 | std::vector<int> pieceEdges; |
---|
3807 | std::vector<float> params; |
---|
3808 | int nClipped = 0; |
---|
3809 | std::vector<float> res = doCubicSplineLeastSquareFitting(sp, chanMask, |
---|
3810 | modelReservoir[getIdxOfNchan(sp.size(), nChanNos)], |
---|
3811 | nPiece, false, pieceEdges, params, rms, finalChanMask, |
---|
3812 | nClipped, thresClip, nIterClip, getResidual); |
---|
3813 | |
---|
3814 | if (outBaselineTable) { |
---|
3815 | bt.appenddata(getScan(whichrow), getCycle(whichrow), getBeam(whichrow), |
---|
3816 | getIF(whichrow), getPol(whichrow), 0, timeSecCol[whichrow], |
---|
3817 | true, STBaselineFunc::CSpline, pieceEdges, std::vector<float>(), |
---|
3818 | getMaskListFromMask(finalChanMask), params, rms, sp.size(), |
---|
3819 | thresClip, nIterClip, threshold, chanAvgLimit, currentEdge); |
---|
3820 | } else { |
---|
3821 | setSpectrum(res, whichrow); |
---|
3822 | } |
---|
3823 | |
---|
3824 | outputFittingResult(outLogger, outTextFile, csvFormat, chanMask, whichrow, |
---|
3825 | coordInfo, hasSameNchan, ofs, "autoCubicSplineBaseline()", |
---|
3826 | pieceEdges, params, nClipped); |
---|
3827 | showProgressOnTerminal(whichrow, nRow, showProgress, minNRow); |
---|
3828 | } |
---|
3829 | |
---|
3830 | finaliseBaselining(outBaselineTable, &bt, bltable, outTextFile, ofs); |
---|
3831 | |
---|
3832 | } catch (...) { |
---|
3833 | throw; |
---|
3834 | } |
---|
3835 | } |
---|
3836 | |
---|
3837 | std::vector<float> Scantable::doCubicSplineFitting(const std::vector<float>& data, |
---|
3838 | const std::vector<bool>& mask, |
---|
3839 | std::vector<int>& idxEdge, |
---|
3840 | std::vector<float>& params, |
---|
3841 | float& rms, |
---|
3842 | std::vector<bool>& finalmask, |
---|
3843 | float clipth, |
---|
3844 | int clipn) |
---|
3845 | { |
---|
3846 | int nClipped = 0; |
---|
3847 | return doCubicSplineFitting(data, mask, idxEdge.size()-1, true, idxEdge, params, rms, finalmask, nClipped, clipth, clipn); |
---|
3848 | } |
---|
3849 | |
---|
3850 | std::vector<float> Scantable::doCubicSplineFitting(const std::vector<float>& data, |
---|
3851 | const std::vector<bool>& mask, |
---|
3852 | int nPiece, |
---|
3853 | std::vector<int>& idxEdge, |
---|
3854 | std::vector<float>& params, |
---|
3855 | float& rms, |
---|
3856 | std::vector<bool>& finalmask, |
---|
3857 | float clipth, |
---|
3858 | int clipn) |
---|
3859 | { |
---|
3860 | int nClipped = 0; |
---|
3861 | return doCubicSplineFitting(data, mask, nPiece, false, idxEdge, params, rms, finalmask, nClipped, clipth, clipn); |
---|
3862 | } |
---|
3863 | |
---|
3864 | std::vector<float> Scantable::doCubicSplineFitting(const std::vector<float>& data, |
---|
3865 | const std::vector<bool>& mask, |
---|
3866 | int nPiece, |
---|
3867 | bool useGivenPieceBoundary, |
---|
3868 | std::vector<int>& idxEdge, |
---|
3869 | std::vector<float>& params, |
---|
3870 | float& rms, |
---|
3871 | std::vector<bool>& finalMask, |
---|
3872 | int& nClipped, |
---|
3873 | float thresClip, |
---|
3874 | int nIterClip, |
---|
3875 | bool getResidual) |
---|
3876 | { |
---|
3877 | return doCubicSplineLeastSquareFitting(data, mask, |
---|
3878 | getPolynomialModel(3, data.size(), &Scantable::getNormalPolynomial), |
---|
3879 | nPiece, useGivenPieceBoundary, idxEdge, |
---|
3880 | params, rms, finalMask, |
---|
3881 | nClipped, thresClip, nIterClip, |
---|
3882 | getResidual); |
---|
3883 | } |
---|
3884 | |
---|
3885 | std::vector<float> Scantable::doCubicSplineLeastSquareFitting(const std::vector<float>& data, |
---|
3886 | const std::vector<bool>& mask, |
---|
3887 | const std::vector<std::vector<double> >& model, |
---|
3888 | int nPiece, |
---|
3889 | bool useGivenPieceBoundary, |
---|
3890 | std::vector<int>& idxEdge, |
---|
3891 | std::vector<float>& params, |
---|
3892 | float& rms, |
---|
3893 | std::vector<bool>& finalMask, |
---|
3894 | int& nClipped, |
---|
3895 | float thresClip, |
---|
3896 | int nIterClip, |
---|
3897 | bool getResidual) |
---|
3898 | { |
---|
3899 | int nDOF = nPiece + 3; //number of independent parameters to solve, namely, 4+(nPiece-1). |
---|
3900 | int nModel = model.size(); |
---|
3901 | int nChan = data.size(); |
---|
3902 | |
---|
3903 | if (nModel != 4) { |
---|
3904 | throw(AipsError("model size must be 4.")); |
---|
3905 | } |
---|
3906 | if (nPiece < 1) { |
---|
3907 | throw(AipsError("number of the sections must be one or more")); |
---|
3908 | } |
---|
3909 | if (nChan < 2*nPiece) { |
---|
3910 | throw(AipsError("data size is too few")); |
---|
3911 | } |
---|
3912 | if (nChan != (int)mask.size()) { |
---|
3913 | throw(AipsError("data and mask sizes are not identical")); |
---|
3914 | } |
---|
3915 | for (int i = 0; i < nModel; ++i) { |
---|
3916 | if (nChan != (int)model[i].size()) { |
---|
3917 | throw(AipsError("data and model sizes are not identical")); |
---|
3918 | } |
---|
3919 | } |
---|
3920 | |
---|
3921 | params.clear(); |
---|
3922 | params.resize(nPiece*nModel); |
---|
3923 | |
---|
3924 | finalMask.clear(); |
---|
3925 | finalMask.resize(nChan); |
---|
3926 | |
---|
3927 | std::vector<int> maskArray(nChan); |
---|
3928 | std::vector<int> x(nChan); |
---|
3929 | int j = 0; |
---|
3930 | for (int i = 0; i < nChan; ++i) { |
---|
3931 | maskArray[i] = mask[i] ? 1 : 0; |
---|
3932 | if (mask[i]) { |
---|
3933 | x[j] = i; |
---|
3934 | j++; |
---|
3935 | } |
---|
3936 | finalMask[i] = mask[i]; |
---|
3937 | } |
---|
3938 | |
---|
3939 | int initNData = j; |
---|
3940 | int nData = initNData; |
---|
3941 | |
---|
3942 | if (initNData < nPiece) { |
---|
3943 | throw(AipsError("too few non-flagged channels")); |
---|
3944 | } |
---|
3945 | |
---|
3946 | int nElement = (int)(floor(floor((double)(initNData/nPiece))+0.5)); |
---|
3947 | std::vector<double> invEdge(nPiece-1); |
---|
3948 | |
---|
3949 | if (useGivenPieceBoundary) { |
---|
3950 | if ((int)idxEdge.size() != nPiece+1) { |
---|
3951 | throw(AipsError("pieceEdge.size() must be equal to nPiece+1.")); |
---|
3952 | } |
---|
3953 | } else { |
---|
3954 | idxEdge.clear(); |
---|
3955 | idxEdge.resize(nPiece+1); |
---|
3956 | idxEdge[0] = x[0]; |
---|
3957 | } |
---|
3958 | for (int i = 1; i < nPiece; ++i) { |
---|
3959 | int valX = x[nElement*i]; |
---|
3960 | if (!useGivenPieceBoundary) { |
---|
3961 | idxEdge[i] = valX; |
---|
3962 | } |
---|
3963 | invEdge[i-1] = 1.0/(double)valX; |
---|
3964 | } |
---|
3965 | if (!useGivenPieceBoundary) { |
---|
3966 | idxEdge[nPiece] = x[initNData-1]+1; |
---|
3967 | } |
---|
3968 | |
---|
3969 | std::vector<double> z1(nChan), r1(nChan), residual(nChan); |
---|
3970 | for (int i = 0; i < nChan; ++i) { |
---|
3971 | z1[i] = (double)data[i]; |
---|
3972 | r1[i] = 0.0; |
---|
3973 | residual[i] = 0.0; |
---|
3974 | } |
---|
3975 | |
---|
3976 | for (int nClip = 0; nClip < nIterClip+1; ++nClip) { |
---|
3977 | // xMatrix : horizontal concatenation of |
---|
3978 | // the least-sq. matrix (left) and an |
---|
3979 | // identity matrix (right). |
---|
3980 | // the right part is used to calculate the inverse matrix of the left part. |
---|
3981 | |
---|
3982 | double xMatrix[nDOF][2*nDOF]; |
---|
3983 | double zMatrix[nDOF]; |
---|
3984 | for (int i = 0; i < nDOF; ++i) { |
---|
3985 | for (int j = 0; j < 2*nDOF; ++j) { |
---|
3986 | xMatrix[i][j] = 0.0; |
---|
3987 | } |
---|
3988 | xMatrix[i][nDOF+i] = 1.0; |
---|
3989 | zMatrix[i] = 0.0; |
---|
3990 | } |
---|
3991 | |
---|
3992 | for (int n = 0; n < nPiece; ++n) { |
---|
3993 | int nUseDataInPiece = 0; |
---|
3994 | for (int k = idxEdge[n]; k < idxEdge[n+1]; ++k) { |
---|
3995 | |
---|
3996 | if (maskArray[k] == 0) continue; |
---|
3997 | |
---|
3998 | for (int i = 0; i < nModel; ++i) { |
---|
3999 | for (int j = i; j < nModel; ++j) { |
---|
4000 | xMatrix[i][j] += model[i][k] * model[j][k]; |
---|
4001 | } |
---|
4002 | zMatrix[i] += z1[k] * model[i][k]; |
---|
4003 | } |
---|
4004 | |
---|
4005 | for (int i = 0; i < n; ++i) { |
---|
4006 | double q = 1.0 - model[1][k]*invEdge[i]; |
---|
4007 | q = q*q*q; |
---|
4008 | for (int j = 0; j < nModel; ++j) { |
---|
4009 | xMatrix[j][i+nModel] += q * model[j][k]; |
---|
4010 | } |
---|
4011 | for (int j = 0; j < i; ++j) { |
---|
4012 | double r = 1.0 - model[1][k]*invEdge[j]; |
---|
4013 | r = r*r*r; |
---|
4014 | xMatrix[j+nModel][i+nModel] += r*q; |
---|
4015 | } |
---|
4016 | xMatrix[i+nModel][i+nModel] += q*q; |
---|
4017 | zMatrix[i+nModel] += q*z1[k]; |
---|
4018 | } |
---|
4019 | |
---|
4020 | nUseDataInPiece++; |
---|
4021 | } |
---|
4022 | |
---|
4023 | if (nUseDataInPiece < 1) { |
---|
4024 | std::vector<string> suffixOfPieceNumber(4); |
---|
4025 | suffixOfPieceNumber[0] = "th"; |
---|
4026 | suffixOfPieceNumber[1] = "st"; |
---|
4027 | suffixOfPieceNumber[2] = "nd"; |
---|
4028 | suffixOfPieceNumber[3] = "rd"; |
---|
4029 | int idxNoDataPiece = (n % 10 <= 3) ? n : 0; |
---|
4030 | ostringstream oss; |
---|
4031 | oss << "all channels clipped or masked in " << n << suffixOfPieceNumber[idxNoDataPiece]; |
---|
4032 | oss << " piece of the spectrum. can't execute fitting anymore."; |
---|
4033 | throw(AipsError(String(oss))); |
---|
4034 | } |
---|
4035 | } |
---|
4036 | |
---|
4037 | for (int i = 0; i < nDOF; ++i) { |
---|
4038 | for (int j = 0; j < i; ++j) { |
---|
4039 | xMatrix[i][j] = xMatrix[j][i]; |
---|
4040 | } |
---|
4041 | } |
---|
4042 | |
---|
4043 | std::vector<double> invDiag(nDOF); |
---|
4044 | for (int i = 0; i < nDOF; ++i) { |
---|
4045 | invDiag[i] = 1.0 / xMatrix[i][i]; |
---|
4046 | for (int j = 0; j < nDOF; ++j) { |
---|
4047 | xMatrix[i][j] *= invDiag[i]; |
---|
4048 | } |
---|
4049 | } |
---|
4050 | |
---|
4051 | for (int k = 0; k < nDOF; ++k) { |
---|
4052 | for (int i = 0; i < nDOF; ++i) { |
---|
4053 | if (i != k) { |
---|
4054 | double factor1 = xMatrix[k][k]; |
---|
4055 | double invfactor1 = 1.0 / factor1; |
---|
4056 | double factor2 = xMatrix[i][k]; |
---|
4057 | for (int j = k; j < 2*nDOF; ++j) { |
---|
4058 | xMatrix[i][j] *= factor1; |
---|
4059 | xMatrix[i][j] -= xMatrix[k][j]*factor2; |
---|
4060 | xMatrix[i][j] *= invfactor1; |
---|
4061 | } |
---|
4062 | } |
---|
4063 | } |
---|
4064 | double invXDiag = 1.0 / xMatrix[k][k]; |
---|
4065 | for (int j = k; j < 2*nDOF; ++j) { |
---|
4066 | xMatrix[k][j] *= invXDiag; |
---|
4067 | } |
---|
4068 | } |
---|
4069 | |
---|
4070 | for (int i = 0; i < nDOF; ++i) { |
---|
4071 | for (int j = 0; j < nDOF; ++j) { |
---|
4072 | xMatrix[i][nDOF+j] *= invDiag[j]; |
---|
4073 | } |
---|
4074 | } |
---|
4075 | |
---|
4076 | //compute a vector y which consists of the coefficients of the best-fit spline curves |
---|
4077 | //(a0,a1,a2,a3(,b3,c3,...)), namely, the ones for the leftmost piece and the ones of |
---|
4078 | //cubic terms for the other pieces (in case nPiece>1). |
---|
4079 | std::vector<double> y(nDOF); |
---|
4080 | for (int i = 0; i < nDOF; ++i) { |
---|
4081 | y[i] = 0.0; |
---|
4082 | for (int j = 0; j < nDOF; ++j) { |
---|
4083 | y[i] += xMatrix[i][nDOF+j]*zMatrix[j]; |
---|
4084 | } |
---|
4085 | } |
---|
4086 | |
---|
4087 | std::vector<double> a(nModel); |
---|
4088 | for (int i = 0; i < nModel; ++i) { |
---|
4089 | a[i] = y[i]; |
---|
4090 | } |
---|
4091 | |
---|
4092 | int j = 0; |
---|
4093 | for (int n = 0; n < nPiece; ++n) { |
---|
4094 | for (int i = idxEdge[n]; i < idxEdge[n+1]; ++i) { |
---|
4095 | r1[i] = 0.0; |
---|
4096 | for (int j = 0; j < nModel; ++j) { |
---|
4097 | r1[i] += a[j] * model[j][i]; |
---|
4098 | } |
---|
4099 | } |
---|
4100 | for (int i = 0; i < nModel; ++i) { |
---|
4101 | params[j+i] = a[i]; |
---|
4102 | } |
---|
4103 | j += nModel; |
---|
4104 | |
---|
4105 | if (n == nPiece-1) break; |
---|
4106 | |
---|
4107 | double d = y[n+nModel]; |
---|
4108 | double iE = invEdge[n]; |
---|
4109 | a[0] += d; |
---|
4110 | a[1] -= 3.0 * d * iE; |
---|
4111 | a[2] += 3.0 * d * iE * iE; |
---|
4112 | a[3] -= d * iE * iE * iE; |
---|
4113 | } |
---|
4114 | |
---|
4115 | //subtract constant value for masked regions at the edge of spectrum |
---|
4116 | if (idxEdge[0] > 0) { |
---|
4117 | int n = idxEdge[0]; |
---|
4118 | for (int i = 0; i < idxEdge[0]; ++i) { |
---|
4119 | //--cubic extrapolate-- |
---|
4120 | //r1[i] = params[0] + params[1]*x1[i] + params[2]*x2[i] + params[3]*x3[i]; |
---|
4121 | //--linear extrapolate-- |
---|
4122 | //r1[i] = (r1[n+1] - r1[n])/(x1[n+1] - x1[n])*(x1[i] - x1[n]) + r1[n]; |
---|
4123 | //--constant-- |
---|
4124 | r1[i] = r1[n]; |
---|
4125 | } |
---|
4126 | } |
---|
4127 | |
---|
4128 | if (idxEdge[nPiece] < nChan) { |
---|
4129 | int n = idxEdge[nPiece]-1; |
---|
4130 | for (int i = idxEdge[nPiece]; i < nChan; ++i) { |
---|
4131 | //--cubic extrapolate-- |
---|
4132 | //int m = 4*(nPiece-1); |
---|
4133 | //r1[i] = params[m] + params[m+1]*x1[i] + params[m+2]*x2[i] + params[m+3]*x3[i]; |
---|
4134 | //--linear extrapolate-- |
---|
4135 | //r1[i] = (r1[n-1] - r1[n])/(x1[n-1] - x1[n])*(x1[i] - x1[n]) + r1[n]; |
---|
4136 | //--constant-- |
---|
4137 | r1[i] = r1[n]; |
---|
4138 | } |
---|
4139 | } |
---|
4140 | |
---|
4141 | for (int i = 0; i < nChan; ++i) { |
---|
4142 | residual[i] = z1[i] - r1[i]; |
---|
4143 | } |
---|
4144 | |
---|
4145 | double stdDev = 0.0; |
---|
4146 | for (int i = 0; i < nChan; ++i) { |
---|
4147 | stdDev += residual[i]*residual[i]*(double)maskArray[i]; |
---|
4148 | } |
---|
4149 | stdDev = sqrt(stdDev/(double)nData); |
---|
4150 | rms = (float)stdDev; |
---|
4151 | |
---|
4152 | if ((nClip == nIterClip) || (thresClip <= 0.0)) { |
---|
4153 | break; |
---|
4154 | } else { |
---|
4155 | |
---|
4156 | double thres = stdDev * thresClip; |
---|
4157 | int newNData = 0; |
---|
4158 | for (int i = 0; i < nChan; ++i) { |
---|
4159 | if (abs(residual[i]) >= thres) { |
---|
4160 | maskArray[i] = 0; |
---|
4161 | finalMask[i] = false; |
---|
4162 | } |
---|
4163 | if (maskArray[i] > 0) { |
---|
4164 | newNData++; |
---|
4165 | } |
---|
4166 | } |
---|
4167 | if (newNData == nData) { |
---|
4168 | break; //no more flag to add. iteration stops. |
---|
4169 | } else { |
---|
4170 | nData = newNData; |
---|
4171 | } |
---|
4172 | |
---|
4173 | } |
---|
4174 | } |
---|
4175 | |
---|
4176 | nClipped = initNData - nData; |
---|
4177 | |
---|
4178 | std::vector<float> result(nChan); |
---|
4179 | if (getResidual) { |
---|
4180 | for (int i = 0; i < nChan; ++i) { |
---|
4181 | result[i] = (float)residual[i]; |
---|
4182 | } |
---|
4183 | } else { |
---|
4184 | for (int i = 0; i < nChan; ++i) { |
---|
4185 | result[i] = (float)r1[i]; |
---|
4186 | } |
---|
4187 | } |
---|
4188 | |
---|
4189 | return result; |
---|
4190 | } |
---|
4191 | |
---|
4192 | std::vector<int> Scantable::selectWaveNumbers(const std::vector<int>& addNWaves, |
---|
4193 | const std::vector<int>& rejectNWaves) |
---|
4194 | { |
---|
4195 | std::vector<bool> chanMask; |
---|
4196 | std::string fftMethod; |
---|
4197 | std::string fftThresh; |
---|
4198 | |
---|
4199 | return selectWaveNumbers(0, chanMask, false, fftMethod, fftThresh, addNWaves, rejectNWaves); |
---|
4200 | } |
---|
4201 | |
---|
4202 | std::vector<int> Scantable::selectWaveNumbers(const int whichrow, |
---|
4203 | const std::vector<bool>& chanMask, |
---|
4204 | const bool applyFFT, |
---|
4205 | const std::string& fftMethod, |
---|
4206 | const std::string& fftThresh, |
---|
4207 | const std::vector<int>& addNWaves, |
---|
4208 | const std::vector<int>& rejectNWaves) |
---|
4209 | { |
---|
4210 | std::vector<int> nWaves; |
---|
4211 | nWaves.clear(); |
---|
4212 | |
---|
4213 | if (applyFFT) { |
---|
4214 | string fftThAttr; |
---|
4215 | float fftThSigma; |
---|
4216 | int fftThTop; |
---|
4217 | parseFFTThresholdInfo(fftThresh, fftThAttr, fftThSigma, fftThTop); |
---|
4218 | doSelectWaveNumbers(whichrow, chanMask, fftMethod, fftThSigma, fftThTop, fftThAttr, nWaves); |
---|
4219 | } |
---|
4220 | |
---|
4221 | addAuxWaveNumbers(whichrow, addNWaves, rejectNWaves, nWaves); |
---|
4222 | |
---|
4223 | return nWaves; |
---|
4224 | } |
---|
4225 | |
---|
4226 | int Scantable::getIdxOfNchan(const int nChan, const std::vector<int>& nChanNos) |
---|
4227 | { |
---|
4228 | int idx = -1; |
---|
4229 | for (uint i = 0; i < nChanNos.size(); ++i) { |
---|
4230 | if (nChan == nChanNos[i]) { |
---|
4231 | idx = i; |
---|
4232 | break; |
---|
4233 | } |
---|
4234 | } |
---|
4235 | |
---|
4236 | if (idx < 0) { |
---|
4237 | throw(AipsError("nChan not found in nChhanNos.")); |
---|
4238 | } |
---|
4239 | |
---|
4240 | return idx; |
---|
4241 | } |
---|
4242 | |
---|
4243 | void Scantable::parseFFTInfo(const std::string& fftInfo, bool& applyFFT, std::string& fftMethod, std::string& fftThresh) |
---|
4244 | { |
---|
4245 | istringstream iss(fftInfo); |
---|
4246 | std::string tmp; |
---|
4247 | std::vector<string> res; |
---|
4248 | while (getline(iss, tmp, ',')) { |
---|
4249 | res.push_back(tmp); |
---|
4250 | } |
---|
4251 | if (res.size() < 3) { |
---|
4252 | throw(AipsError("wrong value in 'fftinfo' parameter")) ; |
---|
4253 | } |
---|
4254 | applyFFT = (res[0] == "true"); |
---|
4255 | fftMethod = res[1]; |
---|
4256 | fftThresh = res[2]; |
---|
4257 | } |
---|
4258 | |
---|
4259 | void Scantable::parseFFTThresholdInfo(const std::string& fftThresh, std::string& fftThAttr, float& fftThSigma, int& fftThTop) |
---|
4260 | { |
---|
4261 | uInt idxSigma = fftThresh.find("sigma"); |
---|
4262 | uInt idxTop = fftThresh.find("top"); |
---|
4263 | |
---|
4264 | if (idxSigma == fftThresh.size() - 5) { |
---|
4265 | std::istringstream is(fftThresh.substr(0, fftThresh.size() - 5)); |
---|
4266 | is >> fftThSigma; |
---|
4267 | fftThAttr = "sigma"; |
---|
4268 | } else if (idxTop == 0) { |
---|
4269 | std::istringstream is(fftThresh.substr(3)); |
---|
4270 | is >> fftThTop; |
---|
4271 | fftThAttr = "top"; |
---|
4272 | } else { |
---|
4273 | bool isNumber = true; |
---|
4274 | for (uInt i = 0; i < fftThresh.size()-1; ++i) { |
---|
4275 | char ch = (fftThresh.substr(i, 1).c_str())[0]; |
---|
4276 | if (!(isdigit(ch) || (fftThresh.substr(i, 1) == "."))) { |
---|
4277 | isNumber = false; |
---|
4278 | break; |
---|
4279 | } |
---|
4280 | } |
---|
4281 | if (isNumber) { |
---|
4282 | std::istringstream is(fftThresh); |
---|
4283 | is >> fftThSigma; |
---|
4284 | fftThAttr = "sigma"; |
---|
4285 | } else { |
---|
4286 | throw(AipsError("fftthresh has a wrong value")); |
---|
4287 | } |
---|
4288 | } |
---|
4289 | } |
---|
4290 | |
---|
4291 | void Scantable::doSelectWaveNumbers(const int whichrow, const std::vector<bool>& chanMask, const std::string& fftMethod, const float fftThSigma, const int fftThTop, const std::string& fftThAttr, std::vector<int>& nWaves) |
---|
4292 | { |
---|
4293 | std::vector<float> fspec; |
---|
4294 | if (fftMethod == "fft") { |
---|
4295 | fspec = execFFT(whichrow, chanMask, false, true); |
---|
4296 | //} else if (fftMethod == "lsp") { |
---|
4297 | // fspec = lombScarglePeriodogram(whichrow); |
---|
4298 | } |
---|
4299 | |
---|
4300 | if (fftThAttr == "sigma") { |
---|
4301 | float mean = 0.0; |
---|
4302 | float mean2 = 0.0; |
---|
4303 | for (uInt i = 0; i < fspec.size(); ++i) { |
---|
4304 | mean += fspec[i]; |
---|
4305 | mean2 += fspec[i]*fspec[i]; |
---|
4306 | } |
---|
4307 | mean /= float(fspec.size()); |
---|
4308 | mean2 /= float(fspec.size()); |
---|
4309 | float thres = mean + fftThSigma * float(sqrt(mean2 - mean*mean)); |
---|
4310 | |
---|
4311 | for (uInt i = 0; i < fspec.size(); ++i) { |
---|
4312 | if (fspec[i] >= thres) { |
---|
4313 | nWaves.push_back(i); |
---|
4314 | } |
---|
4315 | } |
---|
4316 | |
---|
4317 | } else if (fftThAttr == "top") { |
---|
4318 | for (int i = 0; i < fftThTop; ++i) { |
---|
4319 | float max = 0.0; |
---|
4320 | int maxIdx = 0; |
---|
4321 | for (uInt j = 0; j < fspec.size(); ++j) { |
---|
4322 | if (fspec[j] > max) { |
---|
4323 | max = fspec[j]; |
---|
4324 | maxIdx = j; |
---|
4325 | } |
---|
4326 | } |
---|
4327 | nWaves.push_back(maxIdx); |
---|
4328 | fspec[maxIdx] = 0.0; |
---|
4329 | } |
---|
4330 | |
---|
4331 | } |
---|
4332 | |
---|
4333 | if (nWaves.size() > 1) { |
---|
4334 | sort(nWaves.begin(), nWaves.end()); |
---|
4335 | } |
---|
4336 | } |
---|
4337 | |
---|
4338 | void Scantable::addAuxWaveNumbers(const int whichrow, const std::vector<int>& addNWaves, const std::vector<int>& rejectNWaves, std::vector<int>& nWaves) |
---|
4339 | { |
---|
4340 | std::vector<int> tempAddNWaves, tempRejectNWaves; |
---|
4341 | tempAddNWaves.clear(); |
---|
4342 | tempRejectNWaves.clear(); |
---|
4343 | |
---|
4344 | for (uInt i = 0; i < addNWaves.size(); ++i) { |
---|
4345 | tempAddNWaves.push_back(addNWaves[i]); |
---|
4346 | } |
---|
4347 | if ((tempAddNWaves.size() == 2) && (tempAddNWaves[1] == -999)) { |
---|
4348 | setWaveNumberListUptoNyquistFreq(whichrow, tempAddNWaves); |
---|
4349 | } |
---|
4350 | |
---|
4351 | for (uInt i = 0; i < rejectNWaves.size(); ++i) { |
---|
4352 | tempRejectNWaves.push_back(rejectNWaves[i]); |
---|
4353 | } |
---|
4354 | if ((tempRejectNWaves.size() == 2) && (tempRejectNWaves[1] == -999)) { |
---|
4355 | setWaveNumberListUptoNyquistFreq(whichrow, tempRejectNWaves); |
---|
4356 | } |
---|
4357 | |
---|
4358 | for (uInt i = 0; i < tempAddNWaves.size(); ++i) { |
---|
4359 | bool found = false; |
---|
4360 | for (uInt j = 0; j < nWaves.size(); ++j) { |
---|
4361 | if (nWaves[j] == tempAddNWaves[i]) { |
---|
4362 | found = true; |
---|
4363 | break; |
---|
4364 | } |
---|
4365 | } |
---|
4366 | if (!found) nWaves.push_back(tempAddNWaves[i]); |
---|
4367 | } |
---|
4368 | |
---|
4369 | for (uInt i = 0; i < tempRejectNWaves.size(); ++i) { |
---|
4370 | for (std::vector<int>::iterator j = nWaves.begin(); j != nWaves.end(); ) { |
---|
4371 | if (*j == tempRejectNWaves[i]) { |
---|
4372 | j = nWaves.erase(j); |
---|
4373 | } else { |
---|
4374 | ++j; |
---|
4375 | } |
---|
4376 | } |
---|
4377 | } |
---|
4378 | |
---|
4379 | if (nWaves.size() > 1) { |
---|
4380 | sort(nWaves.begin(), nWaves.end()); |
---|
4381 | unique(nWaves.begin(), nWaves.end()); |
---|
4382 | } |
---|
4383 | } |
---|
4384 | |
---|
4385 | void Scantable::setWaveNumberListUptoNyquistFreq(const int whichrow, std::vector<int>& nWaves) |
---|
4386 | { |
---|
4387 | int val = nWaves[0]; |
---|
4388 | int nyquistFreq = nchan(getIF(whichrow))/2+1; |
---|
4389 | nWaves.clear(); |
---|
4390 | if (val > nyquistFreq) { // for safety, at least nWaves contains a constant; CAS-3759 |
---|
4391 | nWaves.push_back(0); |
---|
4392 | } |
---|
4393 | while (val <= nyquistFreq) { |
---|
4394 | nWaves.push_back(val); |
---|
4395 | val++; |
---|
4396 | } |
---|
4397 | } |
---|
4398 | |
---|
4399 | void Scantable::sinusoidBaseline(const std::vector<bool>& mask, const std::string& fftInfo, |
---|
4400 | const std::vector<int>& addNWaves, |
---|
4401 | const std::vector<int>& rejectNWaves, |
---|
4402 | float thresClip, int nIterClip, |
---|
4403 | bool getResidual, |
---|
4404 | const std::string& progressInfo, |
---|
4405 | const bool outLogger, const std::string& blfile, |
---|
4406 | const std::string& bltable) |
---|
4407 | { |
---|
4408 | /**** |
---|
4409 | double TimeStart = mathutil::gettimeofday_sec(); |
---|
4410 | ****/ |
---|
4411 | |
---|
4412 | try { |
---|
4413 | ofstream ofs; |
---|
4414 | String coordInfo; |
---|
4415 | bool hasSameNchan, outTextFile, csvFormat, showProgress; |
---|
4416 | int minNRow; |
---|
4417 | int nRow = nrow(); |
---|
4418 | std::vector<bool> chanMask, finalChanMask; |
---|
4419 | float rms; |
---|
4420 | bool outBaselineTable = (bltable != ""); |
---|
4421 | STBaselineTable bt = STBaselineTable(*this); |
---|
4422 | Vector<Double> timeSecCol; |
---|
4423 | |
---|
4424 | initialiseBaselining(blfile, ofs, outLogger, outTextFile, csvFormat, |
---|
4425 | coordInfo, hasSameNchan, |
---|
4426 | progressInfo, showProgress, minNRow, |
---|
4427 | timeSecCol); |
---|
4428 | |
---|
4429 | bool applyFFT; |
---|
4430 | std::string fftMethod, fftThresh; |
---|
4431 | parseFFTInfo(fftInfo, applyFFT, fftMethod, fftThresh); |
---|
4432 | |
---|
4433 | std::vector<int> nWaves; |
---|
4434 | std::vector<int> nChanNos; |
---|
4435 | std::vector<std::vector<std::vector<double> > > modelReservoir; |
---|
4436 | if (!applyFFT) { |
---|
4437 | nWaves = selectWaveNumbers(addNWaves, rejectNWaves); |
---|
4438 | modelReservoir = getSinusoidModelReservoir(nWaves, nChanNos); |
---|
4439 | } |
---|
4440 | |
---|
4441 | for (int whichrow = 0; whichrow < nRow; ++whichrow) { |
---|
4442 | std::vector<float> sp = getSpectrum(whichrow); |
---|
4443 | chanMask = getCompositeChanMask(whichrow, mask); |
---|
4444 | std::vector<std::vector<double> > model; |
---|
4445 | if (applyFFT) { |
---|
4446 | nWaves = selectWaveNumbers(whichrow, chanMask, true, fftMethod, fftThresh, |
---|
4447 | addNWaves, rejectNWaves); |
---|
4448 | model = getSinusoidModel(nWaves, sp.size()); |
---|
4449 | } else { |
---|
4450 | model = modelReservoir[getIdxOfNchan(sp.size(), nChanNos)]; |
---|
4451 | } |
---|
4452 | |
---|
4453 | std::vector<float> params; |
---|
4454 | int nClipped = 0; |
---|
4455 | std::vector<float> res = doLeastSquareFitting(sp, chanMask, model, |
---|
4456 | params, rms, finalChanMask, |
---|
4457 | nClipped, thresClip, nIterClip, getResidual); |
---|
4458 | |
---|
4459 | if (outBaselineTable) { |
---|
4460 | bt.appenddata(getScan(whichrow), getCycle(whichrow), getBeam(whichrow), |
---|
4461 | getIF(whichrow), getPol(whichrow), 0, timeSecCol[whichrow], |
---|
4462 | true, STBaselineFunc::Sinusoid, nWaves, std::vector<float>(), |
---|
4463 | getMaskListFromMask(finalChanMask), params, rms, sp.size(), |
---|
4464 | thresClip, nIterClip, 0.0, 0, std::vector<int>()); |
---|
4465 | } else { |
---|
4466 | setSpectrum(res, whichrow); |
---|
4467 | } |
---|
4468 | |
---|
4469 | outputFittingResult(outLogger, outTextFile, csvFormat, chanMask, whichrow, |
---|
4470 | coordInfo, hasSameNchan, ofs, "sinusoidBaseline()", |
---|
4471 | params, nClipped); |
---|
4472 | showProgressOnTerminal(whichrow, nRow, showProgress, minNRow); |
---|
4473 | } |
---|
4474 | |
---|
4475 | finaliseBaselining(outBaselineTable, &bt, bltable, outTextFile, ofs); |
---|
4476 | |
---|
4477 | } catch (...) { |
---|
4478 | throw; |
---|
4479 | } |
---|
4480 | |
---|
4481 | /**** |
---|
4482 | double TimeEnd = mathutil::gettimeofday_sec(); |
---|
4483 | double elapse1 = TimeEnd - TimeStart; |
---|
4484 | std::cout << "sinusoid-old : " << elapse1 << " (sec.)" << endl; |
---|
4485 | ****/ |
---|
4486 | } |
---|
4487 | |
---|
4488 | void Scantable::autoSinusoidBaseline(const std::vector<bool>& mask, const std::string& fftInfo, |
---|
4489 | const std::vector<int>& addNWaves, |
---|
4490 | const std::vector<int>& rejectNWaves, |
---|
4491 | float thresClip, int nIterClip, |
---|
4492 | const std::vector<int>& edge, |
---|
4493 | float threshold, int chanAvgLimit, |
---|
4494 | bool getResidual, |
---|
4495 | const std::string& progressInfo, |
---|
4496 | const bool outLogger, const std::string& blfile, |
---|
4497 | const std::string& bltable) |
---|
4498 | { |
---|
4499 | try { |
---|
4500 | ofstream ofs; |
---|
4501 | String coordInfo; |
---|
4502 | bool hasSameNchan, outTextFile, csvFormat, showProgress; |
---|
4503 | int minNRow; |
---|
4504 | int nRow = nrow(); |
---|
4505 | std::vector<bool> chanMask, finalChanMask; |
---|
4506 | float rms; |
---|
4507 | bool outBaselineTable = (bltable != ""); |
---|
4508 | STBaselineTable bt = STBaselineTable(*this); |
---|
4509 | Vector<Double> timeSecCol; |
---|
4510 | STLineFinder lineFinder = STLineFinder(); |
---|
4511 | |
---|
4512 | initialiseBaselining(blfile, ofs, outLogger, outTextFile, csvFormat, |
---|
4513 | coordInfo, hasSameNchan, |
---|
4514 | progressInfo, showProgress, minNRow, |
---|
4515 | timeSecCol); |
---|
4516 | |
---|
4517 | initLineFinder(edge, threshold, chanAvgLimit, lineFinder); |
---|
4518 | |
---|
4519 | bool applyFFT; |
---|
4520 | string fftMethod, fftThresh; |
---|
4521 | parseFFTInfo(fftInfo, applyFFT, fftMethod, fftThresh); |
---|
4522 | |
---|
4523 | std::vector<int> nWaves; |
---|
4524 | std::vector<int> nChanNos; |
---|
4525 | std::vector<std::vector<std::vector<double> > > modelReservoir; |
---|
4526 | if (!applyFFT) { |
---|
4527 | nWaves = selectWaveNumbers(addNWaves, rejectNWaves); |
---|
4528 | modelReservoir = getSinusoidModelReservoir(nWaves, nChanNos); |
---|
4529 | } |
---|
4530 | |
---|
4531 | for (int whichrow = 0; whichrow < nRow; ++whichrow) { |
---|
4532 | std::vector<float> sp = getSpectrum(whichrow); |
---|
4533 | std::vector<int> currentEdge; |
---|
4534 | chanMask = getCompositeChanMask(whichrow, mask, edge, currentEdge, lineFinder); |
---|
4535 | std::vector<std::vector<double> > model; |
---|
4536 | if (applyFFT) { |
---|
4537 | nWaves = selectWaveNumbers(whichrow, chanMask, true, fftMethod, fftThresh, |
---|
4538 | addNWaves, rejectNWaves); |
---|
4539 | model = getSinusoidModel(nWaves, sp.size()); |
---|
4540 | } else { |
---|
4541 | model = modelReservoir[getIdxOfNchan(sp.size(), nChanNos)]; |
---|
4542 | } |
---|
4543 | |
---|
4544 | std::vector<float> params; |
---|
4545 | int nClipped = 0; |
---|
4546 | std::vector<float> res = doLeastSquareFitting(sp, chanMask, model, |
---|
4547 | params, rms, finalChanMask, |
---|
4548 | nClipped, thresClip, nIterClip, getResidual); |
---|
4549 | |
---|
4550 | if (outBaselineTable) { |
---|
4551 | bt.appenddata(getScan(whichrow), getCycle(whichrow), getBeam(whichrow), |
---|
4552 | getIF(whichrow), getPol(whichrow), 0, timeSecCol[whichrow], |
---|
4553 | true, STBaselineFunc::Sinusoid, nWaves, std::vector<float>(), |
---|
4554 | getMaskListFromMask(finalChanMask), params, rms, sp.size(), |
---|
4555 | thresClip, nIterClip, threshold, chanAvgLimit, currentEdge); |
---|
4556 | } else { |
---|
4557 | setSpectrum(res, whichrow); |
---|
4558 | } |
---|
4559 | |
---|
4560 | outputFittingResult(outLogger, outTextFile, csvFormat, chanMask, whichrow, |
---|
4561 | coordInfo, hasSameNchan, ofs, "autoSinusoidBaseline()", |
---|
4562 | params, nClipped); |
---|
4563 | showProgressOnTerminal(whichrow, nRow, showProgress, minNRow); |
---|
4564 | } |
---|
4565 | |
---|
4566 | finaliseBaselining(outBaselineTable, &bt, bltable, outTextFile, ofs); |
---|
4567 | |
---|
4568 | } catch (...) { |
---|
4569 | throw; |
---|
4570 | } |
---|
4571 | } |
---|
4572 | |
---|
4573 | std::vector<float> Scantable::doSinusoidFitting(const std::vector<float>& data, |
---|
4574 | const std::vector<bool>& mask, |
---|
4575 | const std::vector<int>& waveNumbers, |
---|
4576 | std::vector<float>& params, |
---|
4577 | float& rms, |
---|
4578 | std::vector<bool>& finalmask, |
---|
4579 | float clipth, |
---|
4580 | int clipn) |
---|
4581 | { |
---|
4582 | int nClipped = 0; |
---|
4583 | return doSinusoidFitting(data, mask, waveNumbers, params, rms, finalmask, nClipped, clipth, clipn); |
---|
4584 | } |
---|
4585 | |
---|
4586 | std::vector<float> Scantable::doSinusoidFitting(const std::vector<float>& data, |
---|
4587 | const std::vector<bool>& mask, |
---|
4588 | const std::vector<int>& waveNumbers, |
---|
4589 | std::vector<float>& params, |
---|
4590 | float& rms, |
---|
4591 | std::vector<bool>& finalMask, |
---|
4592 | int& nClipped, |
---|
4593 | float thresClip, |
---|
4594 | int nIterClip, |
---|
4595 | bool getResidual) |
---|
4596 | { |
---|
4597 | return doLeastSquareFitting(data, mask, |
---|
4598 | getSinusoidModel(waveNumbers, data.size()), |
---|
4599 | params, rms, finalMask, |
---|
4600 | nClipped, thresClip, nIterClip, |
---|
4601 | getResidual); |
---|
4602 | } |
---|
4603 | |
---|
4604 | std::vector<std::vector<std::vector<double> > > Scantable::getSinusoidModelReservoir(const std::vector<int>& waveNumbers, |
---|
4605 | std::vector<int>& nChanNos) |
---|
4606 | { |
---|
4607 | std::vector<std::vector<std::vector<double> > > res; |
---|
4608 | res.clear(); |
---|
4609 | nChanNos.clear(); |
---|
4610 | |
---|
4611 | std::vector<uint> ifNos = getIFNos(); |
---|
4612 | for (uint i = 0; i < ifNos.size(); ++i) { |
---|
4613 | int currNchan = nchan(ifNos[i]); |
---|
4614 | bool hasDifferentNchan = (i == 0); |
---|
4615 | for (uint j = 0; j < i; ++j) { |
---|
4616 | if (currNchan != nchan(ifNos[j])) { |
---|
4617 | hasDifferentNchan = true; |
---|
4618 | break; |
---|
4619 | } |
---|
4620 | } |
---|
4621 | if (hasDifferentNchan) { |
---|
4622 | res.push_back(getSinusoidModel(waveNumbers, currNchan)); |
---|
4623 | nChanNos.push_back(currNchan); |
---|
4624 | } |
---|
4625 | } |
---|
4626 | |
---|
4627 | return res; |
---|
4628 | } |
---|
4629 | |
---|
4630 | std::vector<std::vector<double> > Scantable::getSinusoidModel(const std::vector<int>& waveNumbers, int nchan) |
---|
4631 | { |
---|
4632 | // model : contains elemental values for computing the least-square matrix. |
---|
4633 | // model.size() is nmodel and model[*].size() is nchan. |
---|
4634 | // Each model element are as follows: |
---|
4635 | // model[0] = {1.0, 1.0, 1.0, ..., 1.0}, |
---|
4636 | // model[2n-1] = {sin(nPI/L*x[0]), sin(nPI/L*x[1]), ..., sin(nPI/L*x[nchan])}, |
---|
4637 | // model[2n] = {cos(nPI/L*x[0]), cos(nPI/L*x[1]), ..., cos(nPI/L*x[nchan])}, |
---|
4638 | // where (1 <= n <= nMaxWavesInSW), |
---|
4639 | // or, |
---|
4640 | // model[2n-1] = {sin(wn[n]PI/L*x[0]), sin(wn[n]PI/L*x[1]), ..., sin(wn[n]PI/L*x[nchan])}, |
---|
4641 | // model[2n] = {cos(wn[n]PI/L*x[0]), cos(wn[n]PI/L*x[1]), ..., cos(wn[n]PI/L*x[nchan])}, |
---|
4642 | // where wn[n] denotes waveNumbers[n] (1 <= n <= waveNumbers.size()). |
---|
4643 | |
---|
4644 | std::vector<int> nWaves; // sorted and uniqued array of wave numbers |
---|
4645 | nWaves.reserve(waveNumbers.size()); |
---|
4646 | copy(waveNumbers.begin(), waveNumbers.end(), back_inserter(nWaves)); |
---|
4647 | sort(nWaves.begin(), nWaves.end()); |
---|
4648 | std::vector<int>::iterator end_it = unique(nWaves.begin(), nWaves.end()); |
---|
4649 | nWaves.erase(end_it, nWaves.end()); |
---|
4650 | |
---|
4651 | int minNWaves = nWaves[0]; |
---|
4652 | if (minNWaves < 0) { |
---|
4653 | throw(AipsError("wave number must be positive or zero (i.e. constant)")); |
---|
4654 | } |
---|
4655 | bool hasConstantTerm = (minNWaves == 0); |
---|
4656 | int nmodel = nWaves.size() * 2 - (hasConstantTerm ? 1 : 0); //number of parameters to solve. |
---|
4657 | |
---|
4658 | std::vector<std::vector<double> > model(nmodel, std::vector<double>(nchan)); |
---|
4659 | |
---|
4660 | if (hasConstantTerm) { |
---|
4661 | for (int j = 0; j < nchan; ++j) { |
---|
4662 | model[0][j] = 1.0; |
---|
4663 | } |
---|
4664 | } |
---|
4665 | |
---|
4666 | const double PI = 6.0 * asin(0.5); // PI (= 3.141592653...) |
---|
4667 | double stretch0 = 2.0*PI/(double)(nchan-1); |
---|
4668 | |
---|
4669 | for (uInt i = (hasConstantTerm ? 1 : 0); i < nWaves.size(); ++i) { |
---|
4670 | int sidx = hasConstantTerm ? 2*i-1 : 2*i; |
---|
4671 | int cidx = sidx + 1; |
---|
4672 | double stretch = stretch0*(double)nWaves[i]; |
---|
4673 | |
---|
4674 | for (int j = 0; j < nchan; ++j) { |
---|
4675 | model[sidx][j] = sin(stretch*(double)j); |
---|
4676 | model[cidx][j] = cos(stretch*(double)j); |
---|
4677 | } |
---|
4678 | } |
---|
4679 | |
---|
4680 | return model; |
---|
4681 | } |
---|
4682 | |
---|
4683 | std::vector<bool> Scantable::getCompositeChanMask(int whichrow, |
---|
4684 | const std::vector<bool>& inMask) |
---|
4685 | { |
---|
4686 | std::vector<bool> mask = getMask(whichrow); |
---|
4687 | uInt maskSize = mask.size(); |
---|
4688 | if (inMask.size() != 0) { |
---|
4689 | if (maskSize != inMask.size()) { |
---|
4690 | throw(AipsError("mask sizes are not the same.")); |
---|
4691 | } |
---|
4692 | for (uInt i = 0; i < maskSize; ++i) { |
---|
4693 | mask[i] = mask[i] && inMask[i]; |
---|
4694 | } |
---|
4695 | } |
---|
4696 | |
---|
4697 | return mask; |
---|
4698 | } |
---|
4699 | |
---|
4700 | std::vector<bool> Scantable::getCompositeChanMask(int whichrow, |
---|
4701 | const std::vector<bool>& inMask, |
---|
4702 | const std::vector<int>& edge, |
---|
4703 | std::vector<int>& currEdge, |
---|
4704 | STLineFinder& lineFinder) |
---|
4705 | { |
---|
4706 | std::vector<uint> ifNos = getIFNos(); |
---|
4707 | if ((edge.size() > 2) && (edge.size() < ifNos.size()*2)) { |
---|
4708 | throw(AipsError("Length of edge element info is less than that of IFs")); |
---|
4709 | } |
---|
4710 | |
---|
4711 | uint idx = 0; |
---|
4712 | if (edge.size() > 2) { |
---|
4713 | int ifVal = getIF(whichrow); |
---|
4714 | bool foundIF = false; |
---|
4715 | for (uint i = 0; i < ifNos.size(); ++i) { |
---|
4716 | if (ifVal == (int)ifNos[i]) { |
---|
4717 | idx = 2*i; |
---|
4718 | foundIF = true; |
---|
4719 | break; |
---|
4720 | } |
---|
4721 | } |
---|
4722 | if (!foundIF) { |
---|
4723 | throw(AipsError("bad IF number")); |
---|
4724 | } |
---|
4725 | } |
---|
4726 | |
---|
4727 | currEdge.clear(); |
---|
4728 | currEdge.resize(2); |
---|
4729 | currEdge[0] = edge[idx]; |
---|
4730 | currEdge[1] = edge[idx+1]; |
---|
4731 | |
---|
4732 | lineFinder.setData(getSpectrum(whichrow)); |
---|
4733 | lineFinder.findLines(getCompositeChanMask(whichrow, inMask), currEdge, whichrow); |
---|
4734 | |
---|
4735 | return lineFinder.getMask(); |
---|
4736 | } |
---|
4737 | |
---|
4738 | /* for cspline. will be merged once cspline is available in fitter (2011/3/10 WK) */ |
---|
4739 | void Scantable::outputFittingResult(bool outLogger, |
---|
4740 | bool outTextFile, |
---|
4741 | bool csvFormat, |
---|
4742 | const std::vector<bool>& chanMask, |
---|
4743 | int whichrow, |
---|
4744 | const casa::String& coordInfo, |
---|
4745 | bool hasSameNchan, |
---|
4746 | ofstream& ofs, |
---|
4747 | const casa::String& funcName, |
---|
4748 | const std::vector<int>& edge, |
---|
4749 | const std::vector<float>& params, |
---|
4750 | const int nClipped) |
---|
4751 | { |
---|
4752 | if (outLogger || outTextFile) { |
---|
4753 | float rms = getRms(chanMask, whichrow); |
---|
4754 | String masklist = getMaskRangeList(chanMask, whichrow, coordInfo, hasSameNchan); |
---|
4755 | std::vector<bool> fixed; |
---|
4756 | fixed.clear(); |
---|
4757 | |
---|
4758 | if (outLogger) { |
---|
4759 | LogIO ols(LogOrigin("Scantable", funcName, WHERE)); |
---|
4760 | ols << formatPiecewiseBaselineParams(edge, params, fixed, rms, nClipped, |
---|
4761 | masklist, whichrow, false, csvFormat) << LogIO::POST ; |
---|
4762 | } |
---|
4763 | if (outTextFile) { |
---|
4764 | ofs << formatPiecewiseBaselineParams(edge, params, fixed, rms, nClipped, |
---|
4765 | masklist, whichrow, true, csvFormat) << flush; |
---|
4766 | } |
---|
4767 | } |
---|
4768 | } |
---|
4769 | |
---|
4770 | /* for poly/chebyshev/sinusoid. */ |
---|
4771 | void Scantable::outputFittingResult(bool outLogger, |
---|
4772 | bool outTextFile, |
---|
4773 | bool csvFormat, |
---|
4774 | const std::vector<bool>& chanMask, |
---|
4775 | int whichrow, |
---|
4776 | const casa::String& coordInfo, |
---|
4777 | bool hasSameNchan, |
---|
4778 | ofstream& ofs, |
---|
4779 | const casa::String& funcName, |
---|
4780 | const std::vector<float>& params, |
---|
4781 | const int nClipped) |
---|
4782 | { |
---|
4783 | if (outLogger || outTextFile) { |
---|
4784 | float rms = getRms(chanMask, whichrow); |
---|
4785 | String masklist = getMaskRangeList(chanMask, whichrow, coordInfo, hasSameNchan); |
---|
4786 | std::vector<bool> fixed; |
---|
4787 | fixed.clear(); |
---|
4788 | |
---|
4789 | if (outLogger) { |
---|
4790 | LogIO ols(LogOrigin("Scantable", funcName, WHERE)); |
---|
4791 | ols << formatBaselineParams(params, fixed, rms, nClipped, |
---|
4792 | masklist, whichrow, false, csvFormat) << LogIO::POST ; |
---|
4793 | } |
---|
4794 | if (outTextFile) { |
---|
4795 | ofs << formatBaselineParams(params, fixed, rms, nClipped, |
---|
4796 | masklist, whichrow, true, csvFormat) << flush; |
---|
4797 | } |
---|
4798 | } |
---|
4799 | } |
---|
4800 | |
---|
4801 | void Scantable::parseProgressInfo(const std::string& progressInfo, bool& showProgress, int& minNRow) |
---|
4802 | { |
---|
4803 | int idxDelimiter = progressInfo.find(","); |
---|
4804 | if (idxDelimiter < 0) { |
---|
4805 | throw(AipsError("wrong value in 'showprogress' parameter")) ; |
---|
4806 | } |
---|
4807 | showProgress = (progressInfo.substr(0, idxDelimiter) == "true"); |
---|
4808 | std::istringstream is(progressInfo.substr(idxDelimiter+1)); |
---|
4809 | is >> minNRow; |
---|
4810 | } |
---|
4811 | |
---|
4812 | void Scantable::showProgressOnTerminal(const int nProcessed, const int nTotal, const bool showProgress, const int nTotalThreshold) |
---|
4813 | { |
---|
4814 | if (showProgress && (nTotal >= nTotalThreshold)) { |
---|
4815 | int nInterval = int(floor(double(nTotal)/100.0)); |
---|
4816 | if (nInterval == 0) nInterval++; |
---|
4817 | |
---|
4818 | if (nProcessed % nInterval == 0) { |
---|
4819 | printf("\r"); //go to the head of line |
---|
4820 | printf("\x1b[31m\x1b[1m"); //set red color, highlighted |
---|
4821 | printf("[%3d%%]", (int)(100.0*(double(nProcessed+1))/(double(nTotal))) ); |
---|
4822 | printf("\x1b[39m\x1b[0m"); //set default attributes |
---|
4823 | fflush(NULL); |
---|
4824 | } |
---|
4825 | |
---|
4826 | if (nProcessed == nTotal - 1) { |
---|
4827 | printf("\r\x1b[K"); //clear |
---|
4828 | fflush(NULL); |
---|
4829 | } |
---|
4830 | |
---|
4831 | } |
---|
4832 | } |
---|
4833 | |
---|
4834 | std::vector<float> Scantable::execFFT(const int whichrow, const std::vector<bool>& inMask, bool getRealImag, bool getAmplitudeOnly) |
---|
4835 | { |
---|
4836 | std::vector<bool> mask = getMask(whichrow); |
---|
4837 | |
---|
4838 | if (inMask.size() > 0) { |
---|
4839 | uInt maskSize = mask.size(); |
---|
4840 | if (maskSize != inMask.size()) { |
---|
4841 | throw(AipsError("mask sizes are not the same.")); |
---|
4842 | } |
---|
4843 | for (uInt i = 0; i < maskSize; ++i) { |
---|
4844 | mask[i] = mask[i] && inMask[i]; |
---|
4845 | } |
---|
4846 | } |
---|
4847 | |
---|
4848 | Vector<Float> spec = getSpectrum(whichrow); |
---|
4849 | mathutil::doZeroOrderInterpolation(spec, mask); |
---|
4850 | |
---|
4851 | FFTServer<Float,Complex> ffts; |
---|
4852 | Vector<Complex> fftres; |
---|
4853 | ffts.fft0(fftres, spec); |
---|
4854 | |
---|
4855 | std::vector<float> res; |
---|
4856 | float norm = float(2.0/double(spec.size())); |
---|
4857 | |
---|
4858 | if (getRealImag) { |
---|
4859 | for (uInt i = 0; i < fftres.size(); ++i) { |
---|
4860 | res.push_back(real(fftres[i])*norm); |
---|
4861 | res.push_back(imag(fftres[i])*norm); |
---|
4862 | } |
---|
4863 | } else { |
---|
4864 | for (uInt i = 0; i < fftres.size(); ++i) { |
---|
4865 | res.push_back(abs(fftres[i])*norm); |
---|
4866 | if (!getAmplitudeOnly) res.push_back(arg(fftres[i])); |
---|
4867 | } |
---|
4868 | } |
---|
4869 | |
---|
4870 | return res; |
---|
4871 | } |
---|
4872 | |
---|
4873 | |
---|
4874 | float Scantable::getRms(const std::vector<bool>& mask, int whichrow) |
---|
4875 | { |
---|
4876 | /**** |
---|
4877 | double ms1TimeStart, ms1TimeEnd; |
---|
4878 | double elapse1 = 0.0; |
---|
4879 | ms1TimeStart = mathutil::gettimeofday_sec(); |
---|
4880 | ****/ |
---|
4881 | |
---|
4882 | Vector<Float> spec; |
---|
4883 | specCol_.get(whichrow, spec); |
---|
4884 | |
---|
4885 | /**** |
---|
4886 | ms1TimeEnd = mathutil::gettimeofday_sec(); |
---|
4887 | elapse1 = ms1TimeEnd - ms1TimeStart; |
---|
4888 | std::cout << "rm1 : " << elapse1 << " (sec.)" << endl; |
---|
4889 | ****/ |
---|
4890 | |
---|
4891 | return (float)doGetRms(mask, spec); |
---|
4892 | } |
---|
4893 | |
---|
4894 | double Scantable::doGetRms(const std::vector<bool>& mask, const Vector<Float>& spec) |
---|
4895 | { |
---|
4896 | double mean = 0.0; |
---|
4897 | double smean = 0.0; |
---|
4898 | int n = 0; |
---|
4899 | for (uInt i = 0; i < spec.nelements(); ++i) { |
---|
4900 | if (mask[i]) { |
---|
4901 | double val = (double)spec[i]; |
---|
4902 | mean += val; |
---|
4903 | smean += val*val; |
---|
4904 | n++; |
---|
4905 | } |
---|
4906 | } |
---|
4907 | |
---|
4908 | mean /= (double)n; |
---|
4909 | smean /= (double)n; |
---|
4910 | |
---|
4911 | return sqrt(smean - mean*mean); |
---|
4912 | } |
---|
4913 | |
---|
4914 | std::string Scantable::formatBaselineParamsHeader(int whichrow, const std::string& masklist, bool verbose, bool csvformat) const |
---|
4915 | { |
---|
4916 | if (verbose) { |
---|
4917 | ostringstream oss; |
---|
4918 | |
---|
4919 | if (csvformat) { |
---|
4920 | oss << getScan(whichrow) << ","; |
---|
4921 | oss << getBeam(whichrow) << ","; |
---|
4922 | oss << getIF(whichrow) << ","; |
---|
4923 | oss << getPol(whichrow) << ","; |
---|
4924 | oss << getCycle(whichrow) << ","; |
---|
4925 | String commaReplacedMasklist = masklist; |
---|
4926 | string::size_type pos = 0; |
---|
4927 | while (pos = commaReplacedMasklist.find(","), pos != string::npos) { |
---|
4928 | commaReplacedMasklist.replace(pos, 1, ";"); |
---|
4929 | pos++; |
---|
4930 | } |
---|
4931 | oss << commaReplacedMasklist << ","; |
---|
4932 | } else { |
---|
4933 | oss << " Scan[" << getScan(whichrow) << "]"; |
---|
4934 | oss << " Beam[" << getBeam(whichrow) << "]"; |
---|
4935 | oss << " IF[" << getIF(whichrow) << "]"; |
---|
4936 | oss << " Pol[" << getPol(whichrow) << "]"; |
---|
4937 | oss << " Cycle[" << getCycle(whichrow) << "]: " << endl; |
---|
4938 | oss << "Fitter range = " << masklist << endl; |
---|
4939 | oss << "Baseline parameters" << endl; |
---|
4940 | } |
---|
4941 | oss << flush; |
---|
4942 | |
---|
4943 | return String(oss); |
---|
4944 | } |
---|
4945 | |
---|
4946 | return ""; |
---|
4947 | } |
---|
4948 | |
---|
4949 | std::string Scantable::formatBaselineParamsFooter(float rms, int nClipped, bool verbose, bool csvformat) const |
---|
4950 | { |
---|
4951 | if (verbose) { |
---|
4952 | ostringstream oss; |
---|
4953 | |
---|
4954 | if (csvformat) { |
---|
4955 | oss << rms << ","; |
---|
4956 | if (nClipped >= 0) { |
---|
4957 | oss << nClipped; |
---|
4958 | } |
---|
4959 | } else { |
---|
4960 | oss << "Results of baseline fit" << endl; |
---|
4961 | oss << " rms = " << setprecision(6) << rms << endl; |
---|
4962 | if (nClipped >= 0) { |
---|
4963 | oss << " Number of clipped channels = " << nClipped << endl; |
---|
4964 | } |
---|
4965 | for (int i = 0; i < 60; ++i) { |
---|
4966 | oss << "-"; |
---|
4967 | } |
---|
4968 | } |
---|
4969 | oss << endl; |
---|
4970 | oss << flush; |
---|
4971 | |
---|
4972 | return String(oss); |
---|
4973 | } |
---|
4974 | |
---|
4975 | return ""; |
---|
4976 | } |
---|
4977 | |
---|
4978 | std::string Scantable::formatBaselineParams(const std::vector<float>& params, |
---|
4979 | const std::vector<bool>& fixed, |
---|
4980 | float rms, |
---|
4981 | int nClipped, |
---|
4982 | const std::string& masklist, |
---|
4983 | int whichrow, |
---|
4984 | bool verbose, |
---|
4985 | bool csvformat, |
---|
4986 | int start, int count, |
---|
4987 | bool resetparamid) const |
---|
4988 | { |
---|
4989 | int nParam = (int)(params.size()); |
---|
4990 | |
---|
4991 | if (nParam < 1) { |
---|
4992 | return(" Not fitted"); |
---|
4993 | } else { |
---|
4994 | |
---|
4995 | ostringstream oss; |
---|
4996 | oss << formatBaselineParamsHeader(whichrow, masklist, verbose, csvformat); |
---|
4997 | |
---|
4998 | if (start < 0) start = 0; |
---|
4999 | if (count < 0) count = nParam; |
---|
5000 | int end = start + count; |
---|
5001 | if (end > nParam) end = nParam; |
---|
5002 | int paramidoffset = (resetparamid) ? (-start) : 0; |
---|
5003 | |
---|
5004 | for (int i = start; i < end; ++i) { |
---|
5005 | if (i > start) { |
---|
5006 | oss << ","; |
---|
5007 | } |
---|
5008 | std::string sFix = ((fixed.size() > 0) && (fixed[i]) && verbose) ? "(fixed)" : ""; |
---|
5009 | if (csvformat) { |
---|
5010 | oss << params[i] << sFix; |
---|
5011 | } else { |
---|
5012 | oss << " p" << (i+paramidoffset) << sFix << "= " << right << setw(13) << setprecision(6) << params[i]; |
---|
5013 | } |
---|
5014 | } |
---|
5015 | |
---|
5016 | if (csvformat) { |
---|
5017 | oss << ","; |
---|
5018 | } else { |
---|
5019 | oss << endl; |
---|
5020 | } |
---|
5021 | oss << formatBaselineParamsFooter(rms, nClipped, verbose, csvformat); |
---|
5022 | |
---|
5023 | return String(oss); |
---|
5024 | } |
---|
5025 | |
---|
5026 | } |
---|
5027 | |
---|
5028 | std::string Scantable::formatPiecewiseBaselineParams(const std::vector<int>& ranges, const std::vector<float>& params, const std::vector<bool>& fixed, float rms, int nClipped, const std::string& masklist, int whichrow, bool verbose, bool csvformat) const |
---|
5029 | { |
---|
5030 | int nOutParam = (int)(params.size()); |
---|
5031 | int nPiece = (int)(ranges.size()) - 1; |
---|
5032 | |
---|
5033 | if (nOutParam < 1) { |
---|
5034 | return(" Not fitted"); |
---|
5035 | } else if (nPiece < 0) { |
---|
5036 | return formatBaselineParams(params, fixed, rms, nClipped, masklist, whichrow, verbose, csvformat); |
---|
5037 | } else if (nPiece < 1) { |
---|
5038 | return(" Bad count of the piece edge info"); |
---|
5039 | } else if (nOutParam % nPiece != 0) { |
---|
5040 | return(" Bad count of the output baseline parameters"); |
---|
5041 | } else { |
---|
5042 | |
---|
5043 | int nParam = nOutParam / nPiece; |
---|
5044 | |
---|
5045 | ostringstream oss; |
---|
5046 | oss << formatBaselineParamsHeader(whichrow, masklist, verbose, csvformat); |
---|
5047 | |
---|
5048 | if (csvformat) { |
---|
5049 | for (int i = 0; i < nPiece; ++i) { |
---|
5050 | oss << ranges[i] << "," << (ranges[i+1]-1) << ","; |
---|
5051 | oss << formatBaselineParams(params, fixed, rms, 0, masklist, whichrow, false, csvformat, i*nParam, nParam, true); |
---|
5052 | } |
---|
5053 | } else { |
---|
5054 | stringstream ss; |
---|
5055 | ss << ranges[nPiece] << flush; |
---|
5056 | int wRange = ss.str().size() * 2 + 5; |
---|
5057 | |
---|
5058 | for (int i = 0; i < nPiece; ++i) { |
---|
5059 | ss.str(""); |
---|
5060 | ss << " [" << ranges[i] << "," << (ranges[i+1]-1) << "]"; |
---|
5061 | oss << left << setw(wRange) << ss.str(); |
---|
5062 | oss << formatBaselineParams(params, fixed, rms, 0, masklist, whichrow, false, csvformat, i*nParam, nParam, true); |
---|
5063 | //oss << endl; |
---|
5064 | } |
---|
5065 | } |
---|
5066 | |
---|
5067 | oss << formatBaselineParamsFooter(rms, nClipped, verbose, csvformat); |
---|
5068 | |
---|
5069 | return String(oss); |
---|
5070 | } |
---|
5071 | |
---|
5072 | } |
---|
5073 | |
---|
5074 | bool Scantable::hasSameNchanOverIFs() |
---|
5075 | { |
---|
5076 | int nIF = nif(-1); |
---|
5077 | int nCh; |
---|
5078 | int totalPositiveNChan = 0; |
---|
5079 | int nPositiveNChan = 0; |
---|
5080 | |
---|
5081 | for (int i = 0; i < nIF; ++i) { |
---|
5082 | nCh = nchan(i); |
---|
5083 | if (nCh > 0) { |
---|
5084 | totalPositiveNChan += nCh; |
---|
5085 | nPositiveNChan++; |
---|
5086 | } |
---|
5087 | } |
---|
5088 | |
---|
5089 | return (totalPositiveNChan == (nPositiveNChan * nchan(0))); |
---|
5090 | } |
---|
5091 | |
---|
5092 | std::string Scantable::getMaskRangeList(const std::vector<bool>& mask, int whichrow, const casa::String& coordInfo, bool hasSameNchan, bool verbose) |
---|
5093 | { |
---|
5094 | if (mask.size() <= 0) { |
---|
5095 | throw(AipsError("The mask elements should be > 0")); |
---|
5096 | } |
---|
5097 | int IF = getIF(whichrow); |
---|
5098 | if (mask.size() != (uInt)nchan(IF)) { |
---|
5099 | throw(AipsError("Number of channels in scantable != number of mask elements")); |
---|
5100 | } |
---|
5101 | |
---|
5102 | if (verbose) { |
---|
5103 | LogIO logOs(LogOrigin("Scantable", "getMaskRangeList()", WHERE)); |
---|
5104 | logOs << LogIO::WARN << "The current mask window unit is " << coordInfo; |
---|
5105 | if (!hasSameNchan) { |
---|
5106 | logOs << endl << "This mask is only valid for IF=" << IF; |
---|
5107 | } |
---|
5108 | logOs << LogIO::POST; |
---|
5109 | } |
---|
5110 | |
---|
5111 | std::vector<double> abcissa = getAbcissa(whichrow); |
---|
5112 | std::vector<int> edge = getMaskEdgeIndices(mask); |
---|
5113 | |
---|
5114 | ostringstream oss; |
---|
5115 | oss.setf(ios::fixed); |
---|
5116 | oss << setprecision(1) << "["; |
---|
5117 | for (uInt i = 0; i < edge.size(); i+=2) { |
---|
5118 | if (i > 0) oss << ","; |
---|
5119 | oss << "[" << (float)abcissa[edge[i]] << "," << (float)abcissa[edge[i+1]] << "]"; |
---|
5120 | } |
---|
5121 | oss << "]" << flush; |
---|
5122 | |
---|
5123 | return String(oss); |
---|
5124 | } |
---|
5125 | |
---|
5126 | std::vector<int> Scantable::getMaskEdgeIndices(const std::vector<bool>& mask) |
---|
5127 | { |
---|
5128 | if (mask.size() <= 0) { |
---|
5129 | throw(AipsError("The mask elements should be > 0")); |
---|
5130 | } |
---|
5131 | |
---|
5132 | std::vector<int> out, startIndices, endIndices; |
---|
5133 | int maskSize = mask.size(); |
---|
5134 | |
---|
5135 | startIndices.clear(); |
---|
5136 | endIndices.clear(); |
---|
5137 | |
---|
5138 | if (mask[0]) { |
---|
5139 | startIndices.push_back(0); |
---|
5140 | } |
---|
5141 | for (int i = 1; i < maskSize; ++i) { |
---|
5142 | if ((!mask[i-1]) && mask[i]) { |
---|
5143 | startIndices.push_back(i); |
---|
5144 | } else if (mask[i-1] && (!mask[i])) { |
---|
5145 | endIndices.push_back(i-1); |
---|
5146 | } |
---|
5147 | } |
---|
5148 | if (mask[maskSize-1]) { |
---|
5149 | endIndices.push_back(maskSize-1); |
---|
5150 | } |
---|
5151 | |
---|
5152 | if (startIndices.size() != endIndices.size()) { |
---|
5153 | throw(AipsError("Inconsistent Mask Size: bad data?")); |
---|
5154 | } |
---|
5155 | for (uInt i = 0; i < startIndices.size(); ++i) { |
---|
5156 | if (startIndices[i] > endIndices[i]) { |
---|
5157 | throw(AipsError("Mask start index > mask end index")); |
---|
5158 | } |
---|
5159 | } |
---|
5160 | |
---|
5161 | out.clear(); |
---|
5162 | for (uInt i = 0; i < startIndices.size(); ++i) { |
---|
5163 | out.push_back(startIndices[i]); |
---|
5164 | out.push_back(endIndices[i]); |
---|
5165 | } |
---|
5166 | |
---|
5167 | return out; |
---|
5168 | } |
---|
5169 | |
---|
5170 | vector<float> Scantable::getTsysSpectrum( int whichrow ) const |
---|
5171 | { |
---|
5172 | Vector<Float> tsys( tsysCol_(whichrow) ) ; |
---|
5173 | vector<float> stlTsys ; |
---|
5174 | tsys.tovector( stlTsys ) ; |
---|
5175 | return stlTsys ; |
---|
5176 | } |
---|
5177 | |
---|
5178 | vector<uint> Scantable::getMoleculeIdColumnData() const |
---|
5179 | { |
---|
5180 | Vector<uInt> molIds(mmolidCol_.getColumn()); |
---|
5181 | vector<uint> res; |
---|
5182 | molIds.tovector(res); |
---|
5183 | return res; |
---|
5184 | } |
---|
5185 | |
---|
5186 | void Scantable::setMoleculeIdColumnData(const std::vector<uint>& molids) |
---|
5187 | { |
---|
5188 | Vector<uInt> molIds(molids); |
---|
5189 | Vector<uInt> arr(mmolidCol_.getColumn()); |
---|
5190 | if ( molIds.nelements() != arr.nelements() ) |
---|
5191 | throw AipsError("The input data size must be the number of rows."); |
---|
5192 | mmolidCol_.putColumn(molIds); |
---|
5193 | } |
---|
5194 | |
---|
5195 | |
---|
5196 | } |
---|
5197 | //namespace asap |
---|