[299] | 1 | // ----------------------------------------------------------------------- |
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| 2 | // plots.cc: Functions defining SpectralPlot and ImagePlot classes. |
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| 3 | // ----------------------------------------------------------------------- |
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| 4 | // Copyright (C) 2006, Matthew Whiting, ATNF |
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| 5 | // |
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| 6 | // This program is free software; you can redistribute it and/or modify it |
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| 7 | // under the terms of the GNU General Public License as published by the |
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| 8 | // Free Software Foundation; either version 2 of the License, or (at your |
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| 9 | // option) any later version. |
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| 10 | // |
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| 11 | // Duchamp is distributed in the hope that it will be useful, but WITHOUT |
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| 12 | // ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
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| 13 | // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
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| 14 | // for more details. |
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| 15 | // |
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| 16 | // You should have received a copy of the GNU General Public License |
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| 17 | // along with Duchamp; if not, write to the Free Software Foundation, |
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| 18 | // Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA |
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| 19 | // |
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| 20 | // Correspondence concerning Duchamp may be directed to: |
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| 21 | // Internet email: Matthew.Whiting [at] atnf.csiro.au |
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| 22 | // Postal address: Dr. Matthew Whiting |
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| 23 | // Australia Telescope National Facility, CSIRO |
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| 24 | // PO Box 76 |
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| 25 | // Epping NSW 1710 |
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| 26 | // AUSTRALIA |
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| 27 | // ----------------------------------------------------------------------- |
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[220] | 28 | #include <iostream> |
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| 29 | #include <sstream> |
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| 30 | #include <string> |
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| 31 | #include <math.h> |
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| 32 | #include <cpgplot.h> |
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[393] | 33 | #include <duchamp/param.hh> |
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| 34 | #include <duchamp/duchamp.hh> |
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| 35 | #include <duchamp/Utils/mycpgplot.hh> |
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| 36 | #include <duchamp/Cubes/plots.hh> |
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[220] | 37 | |
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| 38 | using std::stringstream; |
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| 39 | using namespace mycpgplot; |
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| 40 | |
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[378] | 41 | namespace duchamp |
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[220] | 42 | { |
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| 43 | |
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[378] | 44 | namespace Plot |
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| 45 | { |
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[220] | 46 | |
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[378] | 47 | //---------------------------------------------------------- |
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| 48 | // SpectralPlot functions |
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| 49 | //---------------------------------------------------------- |
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[220] | 50 | |
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[378] | 51 | SpectralPlot::SpectralPlot(){ |
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| 52 | this->paperWidth=a4width/inchToCm - 2*psHoffset; |
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| 53 | this->spectraCount=0; |
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| 54 | this->numOnPage = 5; |
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| 55 | } |
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[365] | 56 | |
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[378] | 57 | SpectralPlot::~SpectralPlot(){} |
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[365] | 58 | |
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[378] | 59 | SpectralPlot::SpectralPlot(const SpectralPlot& p) |
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| 60 | { |
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| 61 | operator=(p); |
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| 62 | } |
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[365] | 63 | |
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[378] | 64 | SpectralPlot& SpectralPlot::operator=(const SpectralPlot& p) |
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| 65 | { |
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| 66 | if(this==&p) return *this; |
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| 67 | this->numOnPage = p.numOnPage; |
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| 68 | this->spectraCount = p.spectraCount; |
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| 69 | for(int i=0;i<4;i++) this->mainCoords[i] = p.mainCoords[i]; |
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| 70 | for(int i=0;i<4;i++) this->zoomCoords[i] = p.zoomCoords[i]; |
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| 71 | for(int i=0;i<4;i++) this->mapCoords[i] = p.mapCoords[i]; |
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| 72 | this->paperWidth = p.paperWidth; |
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| 73 | this->paperHeight = p.paperHeight; |
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| 74 | this->identifier = p.identifier; |
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| 75 | return *this; |
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[220] | 76 | } |
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[378] | 77 | |
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| 78 | //---------------------------------------------------------- |
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[528] | 79 | int SpectralPlot::setUpPlot(std::string pgDestination) |
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| 80 | { |
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| 81 | /// @details |
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| 82 | /// Opens the designated pgplot device. Scales the paper so that |
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| 83 | /// it fits on an A4 sheet (using known values of the default |
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| 84 | /// pgplot offsets). |
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| 85 | /// |
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| 86 | /// \param pgDestination The std::string indicating the PGPLOT device to |
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| 87 | /// be written to. |
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| 88 | /// |
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| 89 | /// \return The value returned by mycpgopen. If <= 0, then an error |
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| 90 | /// has occurred. |
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| 91 | |
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[378] | 92 | this->paperHeight = this->paperWidth*M_SQRT2; |
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| 93 | if(this->paperHeight+2*Plot::psVoffset > Plot::a4height){ |
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| 94 | this->paperHeight = Plot::a4height - 2*Plot::psVoffset; |
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| 95 | this->paperWidth = this->paperHeight / M_SQRT2; |
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| 96 | } |
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| 97 | this->identifier = mycpgopen(pgDestination); |
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| 98 | if(this->identifier>0) cpgpap(this->paperWidth, this->paperHeight/this->paperWidth); |
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| 99 | // make paper size to fit on A4. |
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| 100 | return this->identifier; |
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[220] | 101 | } |
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[378] | 102 | //---------------------------------------------------------- |
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[528] | 103 | void SpectralPlot::calcCoords() |
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| 104 | { |
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| 105 | /// @details |
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| 106 | /// Calculates the boundaries for the various boxes, in inches measured |
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| 107 | /// from the lower left corner. |
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| 108 | /// Based on the fact that there are numOnPage spectra shown on each |
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| 109 | /// page, going down the page in increasing number (given by |
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| 110 | /// SpectralPlot::spectraCount). |
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| 111 | |
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[378] | 112 | int posOnPage = (this->numOnPage - |
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| 113 | (this->spectraCount%this->numOnPage)) |
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| 114 | %this->numOnPage; |
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| 115 | this->mainCoords[0] = Plot::spMainX1/inchToCm; |
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| 116 | this->mainCoords[1] = Plot::spMainX2/inchToCm; |
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| 117 | this->zoomCoords[0] = Plot::spZoomX1/inchToCm; |
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| 118 | this->zoomCoords[1] = Plot::spZoomX2/inchToCm; |
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| 119 | this->mainCoords[2] = this->zoomCoords[2] = this->mapCoords[2] = |
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| 120 | posOnPage*paperHeight/float(this->numOnPage) + Plot::spMainY1/inchToCm; |
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| 121 | this->mainCoords[3] = this->zoomCoords[3] = this->mapCoords[3] = |
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| 122 | posOnPage*paperHeight/float(this->numOnPage) + Plot::spMainY2/inchToCm; |
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| 123 | this->mapCoords[0] = Plot::spMapX1/inchToCm; |
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| 124 | this->mapCoords[1] = this->mapCoords[0] + (this->mapCoords[3]-this->mapCoords[2]); |
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| 125 | } |
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| 126 | //---------------------------------------------------------- |
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[528] | 127 | void SpectralPlot::gotoHeader(std::string xlabel) |
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| 128 | { |
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| 129 | /// @details |
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| 130 | /// Calls calcCoords, to calculate correct coordinates for this spectrum. |
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| 131 | /// Defines the region for the header information, making it centred |
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| 132 | /// on the page. |
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| 133 | /// Also writes the velocity (x axis) label, given by the string argument. |
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| 134 | /// \param xlabel Label to go on the velocity/spectral axis. |
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| 135 | |
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[378] | 136 | if(spectraCount%numOnPage==0) cpgpage(); |
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| 137 | spectraCount++; |
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| 138 | this->calcCoords(); |
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| 139 | cpgvsiz(0., this->paperWidth, this->mainCoords[2], this->mainCoords[3]); |
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| 140 | cpgsch(Plot::spLabelSize); |
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| 141 | cpgmtxt("b",Plot::spXlabelOffset,0.5,0.5,xlabel.c_str()); |
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| 142 | } |
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| 143 | //---------------------------------------------------------- |
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[528] | 144 | void SpectralPlot::gotoMainSpectrum(float x1, float x2, float y1, float y2, std::string ylabel) |
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| 145 | { |
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| 146 | /// @details |
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| 147 | /// Defines the region for the main spectrum. |
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| 148 | /// Draws the box, with tick marks, and |
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| 149 | /// writes the flux (y axis) label, given by the string argument. |
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| 150 | /// \param x1 Minimum X-coordinate of box. |
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| 151 | /// \param x2 Maximum X-coordinate of box. |
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| 152 | /// \param y1 Minimum Y-coordinate of box. |
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| 153 | /// \param y2 Maximum Y-coordinate of box. |
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| 154 | /// \param ylabel Label for the flux (Y) axis. |
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| 155 | |
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[378] | 156 | cpgvsiz(this->mainCoords[0],this->mainCoords[1], |
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| 157 | this->mainCoords[2],this->mainCoords[3]); |
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| 158 | cpgsch(Plot::spIndexSize); |
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| 159 | cpgswin(x1,x2,y1,y2); |
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| 160 | cpgbox("1bcnst",0.,0,"bcnst1v",0.,0); |
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| 161 | cpgsch(Plot::spLabelSize); |
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| 162 | cpgmtxt("l",Plot::spYlabelOffset,0.5,0.5,ylabel.c_str()); |
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| 163 | } |
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| 164 | //---------------------------------------------------------- |
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[528] | 165 | void SpectralPlot::gotoZoomSpectrum(float x1, float x2, float y1, float y2) |
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| 166 | { |
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| 167 | /// @details |
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| 168 | /// Defines the region for the zoomed-in part of the spectrum. |
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| 169 | /// Draws the box, with special tick marks on the bottom axis. |
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| 170 | /// \param x1 Minimum X-coordinate of box. |
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| 171 | /// \param x2 Maximum X-coordinate of box. |
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| 172 | /// \param y1 Minimum Y-coordinate of box. |
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| 173 | /// \param y2 Maximum Y-coordinate of box. |
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| 174 | |
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[378] | 175 | cpgvsiz(this->zoomCoords[0],this->zoomCoords[1], |
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| 176 | this->zoomCoords[2],this->zoomCoords[3]); |
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| 177 | cpgsch(Plot::spIndexSize); |
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| 178 | cpgswin(x1,x2,y1,y2); |
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| 179 | cpgbox("bc",0.,0,"bcstn1v",0.,0); |
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| 180 | float lengthL,lengthR,disp,tickpt,step; |
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| 181 | stringstream label; |
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| 182 | for(int i=1;i<10;i++){ |
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| 183 | tickpt = x1+(x2-x1)*float(i)/10.; // spectral coord of the tick |
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| 184 | switch(i) |
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| 185 | { |
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| 186 | case 2: |
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| 187 | case 8: |
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| 188 | lengthL = lengthR = 0.5; |
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| 189 | disp = 0.3 + float(i-2)/6.; // i==2 --> disp=0.3, i==8 --> disp=1.3 |
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| 190 | label.str(""); |
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| 191 | label << tickpt; |
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| 192 | // do a labelled tick mark |
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| 193 | cpgtick(x1,y1,x2,y1,float(i)/10.,lengthL,lengthR, |
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| 194 | disp, 0., label.str().c_str()); |
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| 195 | break; |
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| 196 | default: |
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| 197 | label.str(""); |
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| 198 | lengthL = 0.25; |
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| 199 | lengthR = 0.; |
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| 200 | disp = 0.; // not used in this case, but set it anyway. |
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| 201 | break; |
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| 202 | } |
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| 203 | // first the bottom axis, just the ticks |
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| 204 | if(fabs(tickpt)<(x2-x1)/1.e4) step = 2.*(x2-x1); |
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| 205 | else step = tickpt; |
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| 206 | cpgaxis("", |
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| 207 | tickpt-0.001*(x2-x1), y1, |
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| 208 | tickpt+0.001*(x2-x1), y1, |
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| 209 | tickpt-0.001*(x2-x1), tickpt+0.001*(x2-x1), |
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| 210 | step, -1, lengthL,lengthR, 0.5, disp, 0.); |
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| 211 | //and now the top -- no labels, just tick marks |
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| 212 | cpgtick(x1,y2,x2,y2,float(i)/10.,lengthL,lengthR,0.,0.,""); |
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| 213 | } |
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| 214 | } |
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| 215 | //---------------------------------------------------------- |
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[528] | 216 | void SpectralPlot::gotoMap() |
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| 217 | { |
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[378] | 218 | cpgvsiz(this->mapCoords[0],this->mapCoords[1], |
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| 219 | this->mapCoords[2],this->mapCoords[3]); |
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| 220 | cpgsch(Plot::spIndexSize); |
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| 221 | } |
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| 222 | //---------------------------------------------------------- |
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[528] | 223 | void SpectralPlot::drawVelRange(float v1, float v2) |
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| 224 | { |
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| 225 | /// @details |
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| 226 | /// Draws two vertical lines at the limits of velocity |
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| 227 | /// given by the arguments. |
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| 228 | /// \param v1 Minimum velocity. |
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| 229 | /// \param v2 Maximum velocity. |
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| 230 | |
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[378] | 231 | int ci,ls; |
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| 232 | float dud,min,max; |
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| 233 | cpgqwin(&dud,&dud,&min,&max); |
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| 234 | cpgqci(&ci); |
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| 235 | cpgqls(&ls); |
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| 236 | cpgsci(DUCHAMP_OBJECT_OUTLINE_COLOUR); |
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| 237 | cpgsls(DASHED); |
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| 238 | cpgmove(v1,min); cpgdraw(v1,max); |
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| 239 | cpgmove(v2,min); cpgdraw(v2,max); |
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| 240 | cpgsci(ci); |
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| 241 | cpgsls(ls); |
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| 242 | } |
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| 243 | //---------------------------------------------------------- |
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[528] | 244 | void SpectralPlot::drawMWRange(float v1, float v2) |
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| 245 | { |
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| 246 | /// @details |
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| 247 | /// Draws a box showing the extent of channels masked by the |
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| 248 | /// Milky Way parameters |
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| 249 | /// \param v1 Minimum velocity of the Milky Way range. |
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| 250 | /// \param v2 Maximum velocity of the Milky Way range. |
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| 251 | |
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[378] | 252 | int ci,fs; |
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| 253 | float dud,min,max,height; |
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| 254 | cpgqwin(&dud,&dud,&min,&max); |
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| 255 | height = max-min; |
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| 256 | max += 0.01*height; |
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| 257 | min -= 0.01*height; |
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| 258 | cpgqci(&ci); |
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| 259 | cpgqfs(&fs); |
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| 260 | setDarkGreen(); |
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| 261 | cpgsci(DUCHAMP_MILKY_WAY_COLOUR); |
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| 262 | cpgsfs(HATCHED); |
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| 263 | cpgrect(v1,v2,min,max); |
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| 264 | cpgsfs(OUTLINE); |
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| 265 | cpgrect(v1,v2,min,max); |
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| 266 | cpgsci(ci); |
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| 267 | cpgsfs(fs); |
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| 268 | } |
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| 269 | //---------------------------------------------------------- |
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| 270 | // SpectralPlot functions... |
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| 271 | //---------------------------------------------------------- |
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| 272 | void SpectralPlot::firstHeaderLine(std::string line) |
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| 273 | { |
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| 274 | cpgsch(Plot::spTitleSize); |
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| 275 | cpgmtxt("t",Plot::spTitleOffset1*Plot::spLabelSize/Plot::spTitleSize, |
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| 276 | 0.5,0.5,line.c_str()); |
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| 277 | } |
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| 278 | void SpectralPlot::secondHeaderLine(std::string line) |
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| 279 | { |
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| 280 | cpgsch(Plot::spLabelSize); |
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| 281 | cpgmtxt("t",Plot::spTitleOffset2,0.5,0.5,line.c_str()); |
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| 282 | } |
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| 283 | void SpectralPlot::thirdHeaderLine(std::string line) |
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| 284 | { |
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| 285 | cpgsch(Plot::spLabelSize); |
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| 286 | cpgmtxt("t",Plot::spTitleOffset3,0.5,0.5,line.c_str()); |
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| 287 | } |
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| 288 | void SpectralPlot::fourthHeaderLine(std::string line) |
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| 289 | { |
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| 290 | cpgsch(Plot::spLabelSize); |
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| 291 | cpgmtxt("t",Plot::spTitleOffset4,0.5,0.5,line.c_str()); |
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| 292 | } |
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| 293 | void SpectralPlot::goToPlot(){cpgslct(this->identifier);} |
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[220] | 294 | |
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[378] | 295 | //---------------------------------------------------------- |
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| 296 | //---------------------------------------------------------- |
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| 297 | // ImagePlot functions |
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| 298 | //---------------------------------------------------------- |
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[220] | 299 | |
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[378] | 300 | ImagePlot::ImagePlot(){ |
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| 301 | this->paperWidth = 7.5; |
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| 302 | this->maxPaperHeight = 10.; |
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| 303 | this->marginWidth = 0.8; |
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| 304 | this->wedgeWidth = 0.7; |
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[419] | 305 | } |
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[220] | 306 | |
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[419] | 307 | ImagePlot::~ImagePlot(){} |
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[365] | 308 | |
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[378] | 309 | ImagePlot::ImagePlot(const ImagePlot& p) |
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| 310 | { |
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| 311 | operator=(p); |
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| 312 | } |
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[365] | 313 | |
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[378] | 314 | ImagePlot& ImagePlot::operator=(const ImagePlot& p) |
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| 315 | { |
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| 316 | if(this==&p) return *this; |
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| 317 | this->paperWidth = p.paperWidth; |
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| 318 | this->maxPaperHeight = p.maxPaperHeight; |
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| 319 | this->marginWidth = p.marginWidth; |
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| 320 | this->wedgeWidth = p.wedgeWidth; |
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| 321 | this->imageRatio = p.imageRatio; |
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| 322 | this->aspectRatio = p.aspectRatio; |
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| 323 | this->xdim = p.xdim; |
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| 324 | this->ydim = p.ydim; |
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| 325 | this->identifier = p.identifier; |
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| 326 | return *this; |
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| 327 | } |
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[365] | 328 | |
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[378] | 329 | //---------------------------------------------------------- |
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[220] | 330 | |
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[528] | 331 | int ImagePlot::setUpPlot(std::string pgDestination, float x, float y) |
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| 332 | { |
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| 333 | /// @details |
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| 334 | /// Opens a pgplot device and scales it to the correct shape. |
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| 335 | /// In doing so, the dimensions for the image are set, and the required |
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| 336 | /// aspect ratios of the image and of the plot are calculated. |
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| 337 | /// If the resulting image is going to be tall enough to exceed the |
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| 338 | /// maximum height (given the default width), then scale everything |
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| 339 | /// down by enough to make the height equal to maxPaperHeight. |
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| 340 | /// \param pgDestination The string indicating the PGPLOT device to be |
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| 341 | /// written to. |
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| 342 | /// \param x The length of the X-axis. |
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| 343 | /// \param y The length of the Y-axis. |
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| 344 | /// \return The value returned by mycpgopen: if <= 0, then an error |
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| 345 | /// has occurred. |
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| 346 | |
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[378] | 347 | this->xdim = x; |
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| 348 | this->ydim = y; |
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| 349 | this->imageRatio= this->ydim / this->xdim; |
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| 350 | this->aspectRatio = (this->imageRatio*this->imageWidth() + 2*this->marginWidth) |
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| 351 | / this->paperWidth; |
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| 352 | float correction; |
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| 353 | if((this->imageRatio*this->imageWidth() + 2*this->marginWidth) > |
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| 354 | this->maxPaperHeight){ |
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| 355 | correction = this->maxPaperHeight / |
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| 356 | (this->imageRatio*this->imageWidth()+2*this->marginWidth); |
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| 357 | this->paperWidth *= correction; |
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| 358 | this->marginWidth *= correction; |
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| 359 | this->wedgeWidth *= correction; |
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| 360 | } |
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| 361 | this->identifier = mycpgopen(pgDestination); |
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| 362 | if(this->identifier>0) cpgpap(this->paperWidth, this->aspectRatio); |
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| 363 | return this->identifier; |
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[220] | 364 | } |
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[378] | 365 | //---------------------------------------------------------- |
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| 366 | void ImagePlot::drawMapBox(float x1, float x2, float y1, float y2, |
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[528] | 367 | std::string xlabel, std::string ylabel) |
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| 368 | { |
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| 369 | /// @details |
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| 370 | /// Defines the region that the box containing the map is to go in, |
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| 371 | /// and draws the box with limits given by the arguments. |
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| 372 | /// Also writes labels on both X- and Y-axes. |
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| 373 | /// \param x1 Minimum X-axis value. |
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| 374 | /// \param x2 Maximum X-axis value. |
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| 375 | /// \param y1 Minimum Y-axis value. |
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| 376 | /// \param y2 Maximum Y-axis value. |
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| 377 | /// \param xlabel The label to be put on the X-axis. |
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| 378 | /// \param ylabel The label to be put on the Y-axis. |
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| 379 | |
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[378] | 380 | cpgvsiz(this->marginWidth, this->marginWidth + this->imageWidth(), |
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[485] | 381 | this->marginWidth, this->marginWidth + (this->imageWidth()*this->imageRatio) ); |
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[378] | 382 | cpgslw(2); |
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| 383 | cpgswin(x1,x2,y1,y2); |
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| 384 | cpgbox("bcst",0.,0,"bcst",0.,0); |
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| 385 | cpgslw(1); |
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| 386 | cpgbox("bcnst",0.,0,"bcnst",0.,0); |
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| 387 | cpglab(xlabel.c_str(), ylabel.c_str(), ""); |
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| 388 | } |
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| 389 | //---------------------------------------------------------- |
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[528] | 390 | |
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| 391 | void ImagePlot::makeTitle(std::string title) |
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| 392 | { |
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| 393 | /// @details |
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| 394 | /// Writes the title for the plot, making it centred for the entire |
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| 395 | /// plot and not just the map. |
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| 396 | /// \param title String with title for plot. |
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| 397 | |
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[378] | 398 | cpgvstd(); |
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| 399 | cpgmtxt("t", Plot::imTitleOffset, 0.5, 0.5, title.c_str()); |
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| 400 | } |
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[220] | 401 | |
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[378] | 402 | void ImagePlot::goToPlot(){cpgslct(this->identifier);} |
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[220] | 403 | |
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[378] | 404 | float ImagePlot::imageWidth(){ |
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| 405 | return this->paperWidth - 2*this->marginWidth - this->wedgeWidth; |
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| 406 | } |
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[349] | 407 | |
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[378] | 408 | float ImagePlot::cmToCoord(float cm){ |
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| 409 | /** \param cm Distance to be converted.*/ |
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| 410 | return (cm/Plot::inchToCm) * this->ydim / (this->imageWidth()*this->imageRatio); |
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| 411 | } |
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[367] | 412 | |
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| 413 | |
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[378] | 414 | //---------------------------------------------------------- |
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| 415 | //---------------------------------------------------------- |
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| 416 | // CutoutPlot functions |
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| 417 | //---------------------------------------------------------- |
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| 418 | //---------------------------------------------------------- |
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[367] | 419 | |
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[378] | 420 | CutoutPlot::CutoutPlot(){ |
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| 421 | this->paperWidth=a4width/inchToCm - 2*psHoffset; |
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| 422 | this->sourceCount=0; |
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| 423 | this->numOnPage = 7; |
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| 424 | } |
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[367] | 425 | |
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[378] | 426 | CutoutPlot::~CutoutPlot(){} |
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[367] | 427 | |
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[378] | 428 | CutoutPlot::CutoutPlot(const CutoutPlot& p) |
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| 429 | { |
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| 430 | operator=(p); |
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| 431 | } |
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[367] | 432 | |
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[378] | 433 | CutoutPlot& CutoutPlot::operator=(const CutoutPlot& p) |
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| 434 | { |
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| 435 | if(this==&p) return *this; |
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| 436 | this->numOnPage = p.numOnPage; |
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| 437 | this->sourceCount = p.sourceCount; |
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| 438 | for(int i=0;i<4;i++) this->mainCoords[i] = p.mainCoords[i]; |
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| 439 | for(int i=0;i<4;i++) this->mapCoords[i] = p.mapCoords[i]; |
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| 440 | this->paperWidth = p.paperWidth; |
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| 441 | this->paperHeight = p.paperHeight; |
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| 442 | this->identifier = p.identifier; |
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| 443 | return *this; |
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| 444 | } |
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[367] | 445 | |
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[378] | 446 | //---------------------------------------------------------- |
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[528] | 447 | int CutoutPlot::setUpPlot(std::string pgDestination) |
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| 448 | { |
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| 449 | /// @details |
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| 450 | /// Opens the designated pgplot device. Scales the paper so that |
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| 451 | /// it fits on an A4 sheet (using known values of the default |
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| 452 | /// pgplot offsets). |
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| 453 | /// |
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| 454 | /// \param pgDestination The std::string indicating the PGPLOT device to |
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| 455 | /// be written to. |
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| 456 | /// |
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| 457 | /// \return The value returned by mycpgopen. If <= 0, then an error |
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| 458 | /// has occurred. |
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| 459 | |
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[378] | 460 | this->paperHeight = this->paperWidth*M_SQRT2; |
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| 461 | if(this->paperHeight+2*Plot::psVoffset > Plot::a4height){ |
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| 462 | this->paperHeight = Plot::a4height - 2*Plot::psVoffset; |
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| 463 | this->paperWidth = this->paperHeight / M_SQRT2; |
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| 464 | } |
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| 465 | this->identifier = mycpgopen(pgDestination); |
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| 466 | if(this->identifier>0) cpgpap(this->paperWidth, this->paperHeight/this->paperWidth); |
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| 467 | // make paper size to fit on A4. |
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| 468 | return this->identifier; |
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[367] | 469 | } |
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[378] | 470 | //---------------------------------------------------------- |
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[528] | 471 | void CutoutPlot::calcCoords() |
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| 472 | { |
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| 473 | /// @details |
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| 474 | /// Calculates the boundaries for the various boxes, in inches measured |
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| 475 | /// from the lower left corner. |
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| 476 | /// Based on the fact that there are numOnPage spectra shown on each |
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| 477 | /// page, going down the page in increasing number (given by |
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| 478 | /// CutoutPlot::spectraCount). |
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| 479 | |
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[378] | 480 | int posOnPage = (this->numOnPage - |
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| 481 | (this->sourceCount%this->numOnPage)) |
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| 482 | %this->numOnPage; |
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| 483 | this->mainCoords[0] = Plot::cuMainX1/inchToCm; |
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| 484 | this->mainCoords[1] = Plot::cuMainX2/inchToCm; |
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| 485 | this->mainCoords[2] = this->mapCoords[2] = |
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| 486 | posOnPage*paperHeight/float(this->numOnPage) + Plot::cuMainY1/inchToCm; |
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| 487 | this->mainCoords[3] = this->mapCoords[3] = |
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| 488 | posOnPage*paperHeight/float(this->numOnPage) + Plot::cuMainY2/inchToCm; |
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| 489 | this->mapCoords[0] = Plot::cuMapX1/inchToCm; |
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| 490 | this->mapCoords[1] = this->mapCoords[0] + (this->mapCoords[3]-this->mapCoords[2]); |
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| 491 | } |
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| 492 | //---------------------------------------------------------- |
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[528] | 493 | void CutoutPlot::gotoHeader() |
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| 494 | { |
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| 495 | /// @details |
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| 496 | /// Calls calcCoords, to calculate correct coordinates for this spectrum. |
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| 497 | /// Defines the region for the header information, making it centred |
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| 498 | /// on the page. |
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| 499 | /// Also writes the velocity (x axis) label, given by the string argument. |
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| 500 | /// \param xlabel Label to go on the velocity/spectral axis. |
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| 501 | |
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[378] | 502 | if(sourceCount%numOnPage==0) cpgpage(); |
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| 503 | sourceCount++; |
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| 504 | this->calcCoords(); |
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| 505 | // cpgvsiz(0., this->paperWidth, this->mainCoords[2], this->mainCoords[3]); |
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| 506 | cpgvsiz(this->mainCoords[0], this->mainCoords[1], |
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| 507 | this->mainCoords[2], this->mainCoords[3]); |
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| 508 | cpgsch(Plot::spLabelSize); |
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| 509 | // cpgmtxt("b",Plot::spXlabelOffset,0.5,0.5,xlabel.c_str()); |
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| 510 | cpgswin(0.,1.,0.,1.); |
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| 511 | // cpgbox("bc",0,0,"bc",0,0); |
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| 512 | } |
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| 513 | //---------------------------------------------------------- |
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[367] | 514 | |
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[378] | 515 | void CutoutPlot::gotoMap(){ |
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| 516 | cpgvsiz(this->mapCoords[0],this->mapCoords[1], |
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| 517 | this->mapCoords[2],this->mapCoords[3]); |
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| 518 | cpgsch(Plot::spIndexSize); |
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| 519 | } |
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| 520 | //---------------------------------------------------------- |
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| 521 | // CutoutPlot functions... |
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| 522 | //---------------------------------------------------------- |
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| 523 | void CutoutPlot::firstHeaderLine(std::string line) |
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| 524 | { |
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| 525 | cpgsch(Plot::spTitleSize); |
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| 526 | // cpgmtxt("t",Plot::spTitleOffset1*Plot::spLabelSize/Plot::spTitleSize, |
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| 527 | // 0.5,0.5,line.c_str()); |
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| 528 | cpgptxt(0.5,0.8,0.,0.5,line.c_str()); |
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| 529 | } |
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| 530 | void CutoutPlot::secondHeaderLine(std::string line) |
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| 531 | { |
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| 532 | cpgsch(Plot::spLabelSize); |
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| 533 | // cpgmtxt("t",Plot::spTitleOffset2,0.5,0.5,line.c_str()); |
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| 534 | cpgptxt(0.5,0.6,0.,0.5,line.c_str()); |
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| 535 | } |
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| 536 | void CutoutPlot::thirdHeaderLine(std::string line) |
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| 537 | { |
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| 538 | cpgsch(Plot::spLabelSize); |
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| 539 | // cpgmtxt("t",Plot::spTitleOffset3,0.5,0.5,line.c_str()); |
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| 540 | cpgptxt(0.5,0.4,0.,0.5,line.c_str()); |
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| 541 | } |
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| 542 | void CutoutPlot::fourthHeaderLine(std::string line) |
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| 543 | { |
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| 544 | cpgsch(Plot::spLabelSize); |
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| 545 | // cpgmtxt("t",Plot::spTitleOffset4,0.5,0.5,line.c_str()); |
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| 546 | cpgptxt(0.5,0.2,0.,0.5,line.c_str()); |
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| 547 | } |
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| 548 | void CutoutPlot::goToPlot(){cpgslct(this->identifier);} |
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| 549 | |
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[367] | 550 | } |
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| 551 | |
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[220] | 552 | } |
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