1 | """Copyright (C) 2004 Paul Brossier <piem@altern.org> |
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2 | print aubio.__LICENSE__ for the terms of use |
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3 | """ |
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4 | |
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5 | __LICENSE__ = """\ |
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6 | Copyright (C) 2004 Paul Brossier <piem@altern.org> |
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7 | |
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8 | This program is free software; you can redistribute it and/or modify |
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9 | it under the terms of the GNU General Public License as published by |
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10 | the Free Software Foundation; either version 2 of the License, or |
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11 | (at your option) any later version. |
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12 | |
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13 | This program is distributed in the hope that it will be useful, |
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14 | but WITHOUT ANY WARRANTY; without even the implied warranty of |
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15 | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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16 | GNU General Public License for more details. |
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17 | |
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18 | You should have received a copy of the GNU General Public License |
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19 | along with this program; if not, write to the Free Software |
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20 | Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. |
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21 | """ |
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22 | |
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23 | |
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24 | def audio_to_array(filename): |
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25 | import aubio.aubioclass |
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26 | from numpy import arange |
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27 | hopsize = 2048 |
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28 | filei = aubio.aubioclass.sndfile(filename) |
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29 | framestep = 1/(filei.samplerate()+0.) |
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30 | channels = filei.channels() |
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31 | myvec = aubio.aubioclass.fvec(hopsize,channels) |
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32 | data = [] |
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33 | readsize = hopsize |
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34 | while (readsize==hopsize): |
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35 | readsize = filei.read(hopsize,myvec) |
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36 | #for i in range(channels): |
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37 | i = 0 |
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38 | curpos = 0 |
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39 | while (curpos < readsize): |
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40 | data.append(myvec.get(curpos,i)) |
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41 | curpos+=1 |
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42 | time = arange(len(data))*framestep |
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43 | return time,data |
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44 | |
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45 | def plot_audio(filenames, g, options): |
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46 | todraw = len(filenames) |
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47 | xorig = 0. |
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48 | xratio = 1./todraw |
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49 | g('set multiplot;') |
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50 | while (len(filenames)): |
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51 | time,data = audio_to_array(filenames.pop(0)) |
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52 | if todraw==1: |
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53 | if max(time) < 1.: |
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54 | time = [t*1000. for t in time] |
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55 | g.xlabel('Time (ms)') |
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56 | else: |
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57 | g.xlabel('Time (s)') |
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58 | g.ylabel('Amplitude') |
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59 | curplot = make_audio_plot(time,data) |
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60 | g('set size %f,%f;' % (options.xsize*xratio,options.ysize) ) |
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61 | g('set origin %f,0.;' % (xorig) ) |
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62 | g('set style data lines; \ |
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63 | set yrange [-1.:1.]; \ |
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64 | set xrange [0:%f]' % time[-1]) |
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65 | g.plot(curplot) |
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66 | xorig += options.xsize*xratio |
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67 | g('unset multiplot;') |
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68 | |
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69 | def audio_to_spec(filename,minf = 0, maxf = 0, lowthres = -20., |
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70 | bufsize= 8192, hopsize = 1024): |
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71 | from aubioclass import fvec,cvec,pvoc,sndfile |
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72 | from math import log10 |
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73 | filei = sndfile(filename) |
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74 | srate = float(filei.samplerate()) |
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75 | framestep = hopsize/srate |
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76 | freqstep = srate/bufsize |
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77 | channels = filei.channels() |
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78 | myvec = fvec(hopsize,channels) |
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79 | myfft = cvec(bufsize,channels) |
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80 | pv = pvoc(bufsize,hopsize,channels) |
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81 | data,time,freq = [],[],[] |
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82 | |
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83 | if maxf == 0.: maxf = bufsize/2 |
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84 | else: maxf = int(maxf/freqstep) |
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85 | if minf: minf = int(minf/freqstep) |
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86 | else: minf = 0 |
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87 | |
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88 | for f in range(minf,maxf): |
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89 | freq.append(f*freqstep) |
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90 | readsize = hopsize |
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91 | frameread = 0 |
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92 | while (readsize==hopsize): |
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93 | readsize = filei.read(hopsize,myvec) |
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94 | pv.do(myvec,myfft) |
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95 | frame = [] |
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96 | i = 0 #for i in range(channels): |
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97 | curpos = minf |
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98 | while (curpos < maxf): |
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99 | frame.append(max(lowthres,20.*log10(myfft.get(curpos,i)**2+0.00001))) |
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100 | curpos+=1 |
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101 | time.append(frameread*framestep) |
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102 | data.append(frame) |
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103 | frameread += 1 |
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104 | # crop data if unfinished frames |
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105 | if len(data[-1]) != len(data[0]): |
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106 | data = data[0:-2] |
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107 | time = time[0:-2] |
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108 | # verify size consistency |
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109 | assert len(data) == len(time) |
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110 | assert len(data[0]) == len(freq) |
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111 | return data,time,freq |
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112 | |
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113 | def plot_spec(filename, g, options): |
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114 | import Gnuplot |
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115 | data,time,freq = audio_to_spec(filename, |
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116 | minf=options.minf,maxf=options.maxf, |
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117 | bufsize=options.bufsize,hopsize=options.hopsize) |
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118 | xorig = 0. |
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119 | if max(time) < 1.: |
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120 | time = [t*1000. for t in time] |
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121 | g.xlabel('Time (ms)') |
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122 | else: |
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123 | g.xlabel('Time (s)') |
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124 | if options.xsize < 0.5 and not options.log and max(time) > 1.: |
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125 | freq = [f/1000. for f in freq] |
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126 | options.minf /= 1000. |
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127 | options.maxf /= 1000. |
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128 | g.ylabel('Frequency (kHz)') |
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129 | else: |
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130 | g.ylabel('Frequency (Hz)') |
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131 | g('set pm3d map') |
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132 | g('set palette rgbformulae -25,-24,-32') |
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133 | g('set cbtics 20') |
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134 | #g('set colorbox horizontal') |
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135 | g('set xrange [0.:%f]' % time[-1]) |
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136 | if options.log: |
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137 | g('set log y') |
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138 | g('set yrange [%f:%f]' % (max(10,options.minf),options.maxf)) |
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139 | else: |
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140 | g('set yrange [%f:%f]' % (options.minf,options.maxf)) |
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141 | g.splot(Gnuplot.GridData(data,time,freq, binary=1)) |
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142 | #xorig += 1./todraw |
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143 | |
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144 | def downsample_audio(time,data,maxpoints=10000): |
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145 | """ resample audio data to last only maxpoints """ |
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146 | from numpy import array, resize |
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147 | length = len(time) |
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148 | downsample = length/maxpoints |
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149 | if downsample == 0: downsample = 1 |
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150 | x = resize(array(time),length)[0:-1:downsample] |
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151 | y = resize(array(data),length)[0:-1:downsample] |
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152 | return x,y |
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153 | |
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154 | def make_audio_plot(time,data,maxpoints=10000): |
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155 | """ create gnuplot plot from an audio file """ |
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156 | import Gnuplot, Gnuplot.funcutils |
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157 | x,y = downsample_audio(time,data,maxpoints=maxpoints) |
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158 | return Gnuplot.Data(x,y,with_='lines') |
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159 | |
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160 | def make_audio_envelope(time,data,maxpoints=10000): |
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161 | """ create gnuplot plot from an audio file """ |
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162 | from numpy import array |
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163 | import Gnuplot, Gnuplot.funcutils |
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164 | bufsize = 500 |
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165 | x = [i.mean() for i in resize(array(time), (len(time)/bufsize,bufsize))] |
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166 | y = [i.mean() for i in resize(array(data), (len(time)/bufsize,bufsize))] |
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167 | x,y = downsample_audio(x,y,maxpoints=maxpoints) |
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168 | return Gnuplot.Data(x,y,with_='lines') |
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169 | |
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170 | def gnuplot_addargs(parser): |
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171 | """ add common gnuplot argument to OptParser object """ |
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172 | parser.add_option("-x","--xsize", |
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173 | action="store", dest="xsize", default=1., |
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174 | type='float',help="define xsize for plot") |
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175 | parser.add_option("-y","--ysize", |
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176 | action="store", dest="ysize", default=1., |
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177 | type='float',help="define ysize for plot") |
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178 | parser.add_option("--debug", |
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179 | action="store_true", dest="debug", default=False, |
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180 | help="use gnuplot debug mode") |
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181 | parser.add_option("--persist", |
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182 | action="store_false", dest="persist", default=True, |
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183 | help="do not use gnuplot persistant mode") |
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184 | parser.add_option("--lmargin", |
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185 | action="store", dest="lmargin", default=None, |
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186 | type='int',help="define left margin for plot") |
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187 | parser.add_option("--rmargin", |
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188 | action="store", dest="rmargin", default=None, |
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189 | type='int',help="define right margin for plot") |
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190 | parser.add_option("--bmargin", |
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191 | action="store", dest="bmargin", default=None, |
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192 | type='int',help="define bottom margin for plot") |
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193 | parser.add_option("--tmargin", |
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194 | action="store", dest="tmargin", default=None, |
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195 | type='int',help="define top margin for plot") |
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196 | parser.add_option("-O","--outplot", |
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197 | action="store", dest="outplot", default=None, |
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198 | help="save plot to output.{ps,png}") |
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199 | |
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200 | def gnuplot_create(outplot='',extension='', options=None): |
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201 | import Gnuplot |
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202 | if options: |
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203 | g = Gnuplot.Gnuplot(debug=options.debug, persist=options.persist) |
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204 | else: |
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205 | g = Gnuplot.Gnuplot(persist=1) |
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206 | if not extension or not outplot: return g |
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207 | if extension == 'ps': ext, extension = '.ps' , 'postscript' |
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208 | elif extension == 'eps': ext, extension = '.eps' , 'postscript enhanced' |
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209 | elif extension == 'epsc': ext, extension = '.eps' , 'postscript enhanced color' |
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210 | elif extension == 'png': ext, extension = '.png', 'png' |
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211 | elif extension == 'svg': ext, extension = '.svg', 'svg' |
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212 | else: exit("ERR: unknown plot extension") |
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213 | g('set terminal %s' % extension) |
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214 | if options and options.lmargin: g('set lmargin %i' % options.lmargin) |
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215 | if options and options.rmargin: g('set rmargin %i' % options.rmargin) |
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216 | if options and options.bmargin: g('set bmargin %i' % options.bmargin) |
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217 | if options and options.tmargin: g('set tmargin %i' % options.tmargin) |
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218 | if outplot != "stdout": |
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219 | g('set output \'%s%s\'' % (outplot,ext)) |
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220 | if options: g('set size %f,%f' % (options.xsize, options.ysize)) |
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221 | return g |
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