1 | from __future__ import absolute_import
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2 |
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3 | import collections
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4 | import pp
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5 |
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6 | import beamsgenerator
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7 | import doublefourier
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8 | import fts
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9 | import loadparameters
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10 | import pointingerrors
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11 | import renderer
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12 | import skygenerator
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13 | import uvmapgenerator
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14 |
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15 |
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16 | class Fiins(object):
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17 | """FISICA simulator.
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18 | """
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19 | def __init__(self, sky_spreadsheet='SkySparams.xlsx', sky_sheet='1point'):
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20 | self.sky_spreadsheet = sky_spreadsheet
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21 | self.sky_sheet = sky_sheet
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22 | self.result = collections.OrderedDict()
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23 |
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24 | # start parallel python (pp), find the number of CPUS available
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25 | ppservers = ()
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26 | self.job_server = pp.Server(ppservers=ppservers)
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27 | print 'fiins starting pp with %s workers' % \
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28 | self.job_server.get_ncpus()
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29 |
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30 | def simulate(self):
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31 | # read parameters
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32 | loadparams = loadparameters.LoadParameters(
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33 | sky_spreadsheet=self.sky_spreadsheet,
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34 | sky_sheet=self.sky_sheet)
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35 | obs_specification = loadparams.run()
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36 | self.result['loadparameters'] = obs_specification
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37 |
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38 | # generate UV map
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39 | uvmapgen = uvmapgenerator.UVMapGenerator(parameters=obs_specification)
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40 | self.result['uvmapgenerator'] = uvmapgen.run()
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41 |
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42 | # generate information on the FTS
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43 | ftsd = fts.FTS(parameters=obs_specification)
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44 | self.result['fts'] = ftsd.run()
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45 |
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46 | # generate primary beams
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47 | beamsgen = beamsgenerator.BeamsGenerator(
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48 | previous_results=self.result)
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49 | self.result['beamsgenerator'] = beamsgen.run()
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50 |
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51 | # pointing errors
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52 | pointingerrs = pointingerrors.PointingErrors(
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53 | parameters=obs_specification)
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54 | self.result['pointingerrors'] = pointingerrs.run()
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55 |
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56 | # construct sky
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57 | skygen = skygenerator.SkyGenerator(parameters=obs_specification,
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58 | previous_results=self.result)
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59 | self.result['skygenerator'] = skygen.run()
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60 |
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61 | # calculate interferograms
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62 | doublef = doublefourier.DoubleFourier(parameters=obs_specification,
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63 | previous_results=self.result, job_server=self.job_server)
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64 | self.result['doublefourier'] = doublef.run()
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65 |
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66 | # construct html description of result
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67 | self.render()
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68 |
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69 | def import_result(self):
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70 | print 'does nothing'
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71 |
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72 | def render(self):
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73 | htmlrenderer = renderer.Renderer(result=self.result)
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74 | htmlrenderer.run()
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75 |
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76 | def __repr__(self):
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77 | return 'FISICA simulator'
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78 |
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