1 | #!/usr/bin/python -tt
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2 | #
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3 | # Werner Lustermann, Dominik Neise
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4 | # ETH Zurich, TU Dortmund
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5 | #
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6 | # plotter.py
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7 |
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8 | import numpy as np
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9 | import matplotlib.pyplot as plt
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10 | import os.path
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11 | import sys
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12 |
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13 | # this class was formerly called Plotter in the depricated
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14 | # module plotter.py
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15 | class SimplePlotter(object):
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16 | """ simple x-y plot """
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17 | def __init__(self, name, x, style = 'b', xlabel='x', ylabel='y'):
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18 | """ initialize the object """
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19 |
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20 | self.name = name
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21 | self.fig = plt.figure()
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22 | self.line, = plt.plot(x, style)
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23 |
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24 | plt.title(name)
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25 | plt.xlabel(xlabel)
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26 | plt.ylabel(ylabel)
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27 | plt.grid(True)
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28 |
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29 | def __call__(self, ydata):
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30 | """ set ydata of plot """
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31 | plt.figure(self.fig.number)
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32 | plt.ylim( np.min(ydata), np.max(ydata) )
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33 | self.line.set_ydata(ydata)
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34 | plt.draw()
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35 |
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36 | class Plotter(object):
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37 | """ simple x-y plot """
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38 | def __init__(self, name, x=None, style = '.:', xlabel='x', ylabel='y', ion=True, grid=True, fname=None):
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39 | """ initialize the object """
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40 |
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41 | self.name = name
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42 | self.x = x
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43 | self.style = style
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44 | self.xlabel = xlabel
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45 | self.ylabel = ylabel
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46 |
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47 | #not sure if this should go here
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48 | if ion:
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49 | plt.ion()
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50 |
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51 | self.figure = plt.figure()
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52 | self.fig_id = self.figure.number
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53 |
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54 | plt.grid(grid)
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55 | self.grid = grid
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56 | self.fname = fname
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57 |
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58 | def __call__(self, ydata, label=None):
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59 | """ set ydata of plot """
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60 | style = self.style
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61 |
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62 | # make acitve and clear
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63 | plt.figure(self.fig_id)
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64 | plt.cla()
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65 |
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66 | # the following if else stuff is horrible,
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67 | # but I want all those possibilities, .... still working on it.
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68 |
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69 | # check if 1Dim oder 2Dim
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70 | ydata = np.array(ydata)
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71 | if ydata.ndim ==1:
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72 | if self.x==None:
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73 | plt.plot(ydata, self.style, label=label)
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74 | else:
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75 | plt.plot(self.x, ydata, self.style, label=label)
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76 | else:
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77 | for i in range(len(ydata)):
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78 | if self.x==None:
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79 | if label:
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80 | plt.plot(ydata[i], style, label=label[i])
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81 | else:
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82 | plt.plot(ydata[i], style)
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83 | else:
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84 | if label:
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85 | plt.plot(self.x, ydata[i], style, label=label[i])
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86 | else:
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87 | plt.plot(self.x, ydata[i], style)
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88 | plt.title(self.name)
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89 | plt.xlabel(self.xlabel)
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90 | plt.ylabel(self.ylabel)
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91 | if label:
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92 | plt.legend()
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93 |
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94 | if self.fname != None:
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95 | plt.savefig(self.fname)
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96 |
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97 | plt.grid(self.grid)
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98 | plt.draw()
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99 |
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100 |
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101 | class CamPlotter(object):
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102 | """ plotting data color-coded into FACT-camera """
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103 | def __init__(self, name, ion=True, grid=True, fname=None, map_file_path = '../map_dn.txt', vmin=None, vmax=None):
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104 | """ initialize the object """
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105 | path = os.path.abspath(__file__)
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106 | path = os.path.dirname(path)
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107 | map_file_path = os.path.join(path, map_file_path)
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108 | if not os.path.isfile(map_file_path):
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109 | print 'not able to find file:', map_file_path
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110 | sys.exit(-2)
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111 |
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112 | self.name = name
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113 | if ion:
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114 | plt.ion()
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115 |
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116 | chid, y,x,ye,xe,yh,xh,softid,hardid = np.loadtxt(map_file_path ,unpack=True)
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117 |
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118 | self.xe = xe
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119 | self.ye = ye
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120 |
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121 | self.H = (6,0,30./180.*3.1415926)
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122 |
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123 | self.figure = plt.figure(figsize=(6, 6), dpi=80)
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124 | self.fig_id = self.figure.number
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125 |
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126 | self.grid = grid
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127 | self.fname = fname
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128 | self.vmin = vmin
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129 | self.vmax = vmax
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130 |
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131 | def __call__(self, data, mask=None):
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132 | # define some shortcuts
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133 | xe = self.xe
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134 | ye = self.ye
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135 | H = self.H
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136 | name = self.name
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137 | grid = self.grid
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138 | vmin = self.vmin
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139 | vmax = self.vmax
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140 |
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141 | # get the figure, clean it, and set it up nicely.
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142 | # maybe cleaning is not necessary and takes long, but
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143 | # I've got no time to test it at the moment.
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144 | plt.figure(self.fig_id)
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145 | plt.clf()
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146 | self.ax = self.figure.add_subplot(111, aspect='equal')
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147 | self.ax.axis([-22,22,-22,22])
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148 | self.ax.set_title(name)
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149 | self.ax.grid(grid)
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150 |
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151 | # throw data into numpy array for simplicity
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152 | data = np.array(data)
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153 |
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154 | #handle masked case specially
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155 | if mask!= None:
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156 | if len(mask)==0:
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157 | return
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158 |
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159 | elif mask.dtype == bool and data.ndim ==1 and len(mask)==1440:
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160 | length = mask.sum()
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161 | mask = np.where(mask)[0]
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162 | mxe = np.empty( length )
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163 | mye = np.empty( length )
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164 | mdata = np.empty( length )
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165 | for i,chid in enumerate(mask):
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166 | #print i , chid
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167 | mxe[i] = xe[chid]
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168 | mye[i] = ye[chid]
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169 | mdata[i] = data[chid]
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170 | #print 'mxe', mxe, 'len', len(mxe)
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171 | #print 'mye', mye, 'len', len(mye)
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172 | #print 'mxe', mdata, 'len', len(mdata)
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173 |
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174 | self.ax.axis([-22,22,-22,22])
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175 | self.ax.set_title(name)
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176 | self.ax.grid(grid)
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177 | # the next line is a stupid hack
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178 | # I plot invisible pixels, so that the axes show look ok.
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179 | # this must be possible differently, but I don't know how...
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180 | self.ax.scatter(xe,ye,s=25,alpha=0,marker=H)
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181 |
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182 | result = self.ax.scatter(mxe,mye,s=25,alpha=1.,
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183 | c=mdata, marker=H, linewidths=0., vmin=vmin, vmax=vmax)
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184 | self.figure.colorbar( result, shrink=0.8, pad=-0.04 )
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185 | plt.draw()
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186 |
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187 |
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188 | elif mask.dtype == int and data.ndim ==1:
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189 | length = len(mask)
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190 | mxe = np.empty( length )
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191 | mye = np.empty( length )
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192 | mdata = np.empty( length )
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193 | for i,chid in enumerate(mask):
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194 | mxe[i] = xe[chid]
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195 | mye[i] = ye[chid]
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196 | mdata[i] = data[chid]
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197 |
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198 | self.ax.axis([-22,22,-22,22])
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199 | self.ax.set_title(name)
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200 | self.ax.grid(grid)
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201 | # the next line is a stupid hack
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202 | # I plot invisible pixels, so that the axes look ok.
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203 | # this must be possible differently, but I don't know how...
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204 | self.ax.scatter(xe,ye,s=25,alpha=0,marker=H)
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205 |
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206 | result = self.ax.scatter(mxe,mye,s=25,alpha=1.,
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207 | c=mdata, marker=H, linewidths=0., vmin=vmin, vmax=vmax)
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208 | self.figure.colorbar( result, shrink=0.8, pad=-0.04 )
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209 | plt.draw()
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210 |
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211 | else:
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212 | print "there is a mask, but I don't know how to treat it!!!"
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213 | sys.exit(-1)
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214 | else: # i.e. when mask is None
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215 | # handle 1D and 2D case differently
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216 | if data.ndim == 1 and len(data)==1440:
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217 | result = self.ax.scatter(xe,ye,s=25,alpha=1,
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218 | c=data, marker=H, linewidths=0., vmin=vmin, vmax=vmax)
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219 | self.figure.colorbar( result, shrink=0.8, pad=-0.04 )
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220 | plt.draw()
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221 |
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222 | elif data.ndim == 2 and data.shape[0] == 2 and data.shape[1] <=1440:
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223 | # I assume the first row of data, contains the CHIDs
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224 | # and the 2nd row contains the actual data.
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225 | chids = data[0]
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226 | # check if there are double chids in chids
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227 | if len(chids)!=len(set(chids)):
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228 | print 'warning: there are doubled chids in input data',
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229 | print 'you might want to plot something else, but I plot it anyway...'
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230 | print chids
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231 | data = data[1]
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232 | # now I have to mask the xe, and ye vectors accordingly
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233 | mxe = np.empty( len(chids) )
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234 | mye = np.empty( len(chids) )
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235 | for i,chid in enumerate(chids):
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236 | mxe[i] = xe[chid]
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237 | mye[i] = ye[chid]
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238 |
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239 | # check if I did it right
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240 | if len(mxe)!=len(data) or len(mye)!=len(data):
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241 | print 'the masking did not work:'
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242 | print 'len(mxe)', len(mxe)
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243 | print 'len(mye)', len(mye)
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244 | print 'len(data)', len(data)
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245 |
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246 | self.ax.axis([-22,22,-22,22])
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247 | self.ax.set_title(name)
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248 | self.ax.grid(grid)
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249 | # the next line is a stupid hack
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250 | # I plot invisible pixels, so that the axes show look ok.
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251 | # this must be possible differently, but I don't know how...
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252 | self.ax.scatter(xe,ye,s=25,alpha=0,marker=H)
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253 |
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254 | result = self.ax.scatter(mxe,mye,s=25,alpha=1.,
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255 | c=data, marker=H, linewidths=0., vmin=vmin, vmax=vmax)
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256 | self.figure.colorbar( result, shrink=0.8, pad=-0.04 )
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257 | plt.draw()
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258 |
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259 | else:
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260 | print 'CamPlotter call input data has bad format'
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261 | print 'data.ndim', data.ndim
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262 | print 'data.shape', data.shape
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263 | print 'data:----------------------------------'
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264 | print data
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265 |
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266 |
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267 |
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268 |
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269 | class HistPlotter(object):
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270 |
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271 | def __init__(self, name, bins, range, grid=True, ion=True):
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272 | """ initialize the object """
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273 | self.bins = bins
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274 | self.range = range
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275 | self.name = name
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276 | self.figure = plt.figure()
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277 | self.fig_id = self.figure.number
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278 | self.grid = grid
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279 |
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280 | if ion:
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281 | plt.ion()
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282 |
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283 | def __call__(self, ydata, label=None, log=False):
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284 | plt.figure(self.fig_id)
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285 | plt.cla()
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286 |
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287 | bins = self.bins
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288 | range = self.range
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289 | grid = self.grid
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290 |
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291 | ydata = np.array(ydata)
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292 |
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293 | if ydata.ndim > 1:
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294 | ydata = ydata.flatten()
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295 | if label:
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296 | plt.hist(ydata, bins, range, label=label, log=log)
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297 | plt.legend()
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298 | else:
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299 | plt.hist(ydata, bins, range, log=log)
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300 |
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301 | plt.title(self.name)
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302 |
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303 | plt.draw()
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304 |
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305 | def _test_SimplePlotter():
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306 | """ test of maintaining two independant plotter instances """
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307 | plt.ion()
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308 |
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309 | x = np.linspace(0., 10.)
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310 | plot1 = SimplePlotter('plot1', x, 'r')
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311 | print 'plot1.fig.number: ', plot1.fig.number
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312 | plot2 = SimplePlotter('plot2', x, 'g.')
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313 | print 'plot2.fig.number: ', plot2.fig.number
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314 |
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315 | plot1(np.sin(x) * 7.)
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316 | plot2(x*x)
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317 |
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318 | raw_input('next')
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319 |
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320 | plot1(np.cos(x) * 3.)
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321 | plot2(x)
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322 |
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323 | raw_input('next')
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324 |
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325 |
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326 | def _test_Plotter():
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327 | """ test of maintaining two independant plotter instances
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328 | with different examples for init and call
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329 | """
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330 | x = np.linspace(0., 2*np.pi , 100)
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331 | plot1 = Plotter('plot1', x, 'r.:')
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332 | plot2 = Plotter('plot2')
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333 |
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334 | y1 = np.sin(x) * 7
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335 | plot1(y1)
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336 |
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337 | number_of_graphs_in_plot2 = 3
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338 | no = number_of_graphs_in_plot2 # short form
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339 |
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340 | # this is where you do your analysis...
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341 | y2 = np.empty( (no, len(x)) ) # prepare some space
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342 | y2_labels = [] # prepare labels
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343 | for k in range(no):
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344 | y2[k] = np.sin( (k+1)*x )
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345 | y2_labels.append('sin(%d*x)' % (k+1) )
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346 |
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347 | # plot the result of your analysis
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348 | plot2(y2, y2_labels)
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349 | raw_input('next') # do not forget this line, or your graph is lost
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350 |
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351 | plot1(np.cos(x) * 3.)
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352 | plot2.name += ' without labels!!!' # changing titles 'on the fly' is possible
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353 | plot2(y2)
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354 | raw_input('next') # DO NOT forget
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355 |
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356 |
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357 | def _test_CamPlotter():
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358 | """ test of CamPlotter """
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359 |
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360 | c1 = np.array(range(20))
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361 | chids1 = np.empty( len(c1) , dtype=int)
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362 | for i in range(len(chids1)-2):
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363 | chids1[i] = np.random.randint(1440)
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364 | chids1[-1] = 15
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365 | chids1[-2] = 15
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366 |
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367 | c2 = np.linspace(0., 1., num=1440)
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368 | plot1 = CamPlotter('plot1')
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369 | plot2 = CamPlotter('plot2')
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370 |
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371 | plot1( (chids1,c1) )
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372 | plot2(c2)
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373 | raw_input('next')
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374 |
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375 | def _test_HistPlotter():
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376 | """ test of the HistPlotter """
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377 | plt.ion()
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378 |
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379 | data = np.random.randn(1000)
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380 | hp = HistPlotter('test hist plotter',34, (-5,4))
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381 |
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382 | hp(data, 'test-label')
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383 | raw_input('next')
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384 |
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385 | if __name__ == '__main__':
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386 | """ test the class """
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387 | print ' testing SimplePlotter'
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388 | _test_SimplePlotter()
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389 | print ' testing Plotter'
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390 | _test_Plotter()
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391 | print 'testing CamPlotter ... testing what happens if doubled IDs in mask'
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392 | _test_CamPlotter()
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393 | print 'testing basic HistPlotter functionality'
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394 | _test_HistPlotter()
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395 |
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