def precondition(phosimDir): # Survey information instName = "lsst" filterType = FilterType.REF ra = 20 decl = 30 rotSkyPos = 10 mjd = 59580.0 # Declare the SkySim() skySim = SkySim() # Set the focal plane information folderPath2FocalPlane = os.path.join(phosimDir, "data", instName) skySim.setFolderPath2FocalPlane(folderPath2FocalPlane) # Set the observation information skySim.setObservationMetaData(ra, decl, rotSkyPos, mjd) # Add the interested stars sensorName = "R22_S11" starId = [0, 1] xInpixelInCam = [3200, 400] yInPixelInCam = [3800, 700] starMag = [15, 16] for ii in range(len(starId)): skySim.addStarByChipPos(sensorName, starId[ii], xInpixelInCam[ii], yInPixelInCam[ii], starMag[ii]) # Output the sky information outputFilePath = os.path.join(getModulePath(), "output", "skyLsstFamInfo.txt") skySim.exportSkyToFile(outputFilePath) # Set the Telescope facade class configFilePath = os.path.join(getModulePath(), "configData", "telescopeConfig", "GT.inst") tele = TeleFacade(configFilePath=configFilePath) tele.setSubSysConfigDir(phosimDir=phosimDir) tele.setSurveyParam(filterType=filterType, boresight=(ra, decl), rotAngInDeg=rotSkyPos, mjd=mjd) tele.setInstName(instName) return tele, skySim
def _prepareTeleAndSky(phosimDir): # Survey information filterType = FilterType.REF ra = 20 decl = 30 rotSkyPos = 10 # Set the Telescope facade class tele = TeleFacade() tele.setPhoSimDir(phosimDir) tele.setSurveyParam(filterType=filterType, boresight=(ra, decl), rotAngInDeg=rotSkyPos) tele.setInstName(CamType.LsstFamCam) # Declare the SkySim() skySim = SkySim() # Set the observation information mjd = tele.getCamMjd() skySim.setObservationMetaData(ra, decl, rotSkyPos, mjd) # Add the interested stars sensorName = "R22_S11" starId = [0, 1] xInpixelInCam = [3200, 400] yInPixelInCam = [3800, 700] starMag = [15, 16] for ii in range(len(starId)): skySim.addStarByChipPos(sensorName, starId[ii], xInpixelInCam[ii], yInPixelInCam[ii], starMag[ii]) # Output the sky information outputFilePath = os.path.join(getAoclcOutputPath(), "skyLsstFamInfo.txt") skySim.exportSkyToFile(outputFilePath) return tele, skySim
class TestSkySim(unittest.TestCase): """ Test the SkySim class.""" def setUp(self): # Directory to the focal plane file folderPath2FocalPlane = os.path.join(getModulePath(), "tests", "testData", "testOpdFunc") self.skySim = SkySim() self.skySim.setFolderPath2FocalPlane(folderPath2FocalPlane) def testAddStarByRaDecInDeg(self): self.skySim.addStarByRaDecInDeg(1, 2, 3, 4) self.assertEqual(len(self.skySim.starId), 1) self.skySim.addStarByRaDecInDeg(2, 2.1, 3, 4) self.assertEqual(len(self.skySim.starId), 2) self.assertEqual(self.skySim.starId[0], 1) self.assertEqual(self.skySim.starId[1], 2) # Try to add the same star Id again self.skySim.addStarByRaDecInDeg(2, 2.1, 3, 4) self.assertEqual(len(self.skySim.starId), 2) def testResetSky(self): self.skySim.addStarByRaDecInDeg(1, 2, 3, 4) self.skySim.resetSky() self.assertEqual(len(self.skySim.starId), 0) def testSetStarRaDecInDeg(self): self.skySim.setStarRaDecInDeg(np.array([0]), np.array([1]), np.array([2]), np.array([3])) self.assertEqual(len(self.skySim.starId), 1) def testAddStarByFile(self): self._addStarByFile() self.assertEqual(len(self.skySim.starId), 8) self.assertEqual(self.skySim.ra[2], -1.176) self.assertEqual(self.skySim.decl[2], 1.196) self.assertEqual(self.skySim.mag[2], 17.0) def _addStarByFile(self): skyFile = os.path.join(getModulePath(), "tests", "testData", "sky", "wfsStar.txt") self.skySim.addStarByFile(skyFile) def testExportSkyToFile(self): self._addStarByFile() outputFilePath = os.path.join(getModulePath(), "output", "testSkyOutput.txt") self.skySim.exportSkyToFile(outputFilePath) self.assertTrue(os.path.isfile(outputFilePath)) os.remove(outputFilePath) def testAddStarByChipPos(self): self._setObservationMetaData() # Add the star sensorName = "R22_S11" starId = 0 xInpixelInCam = 2000 yInPixelInCam = 2036 starMag = 17 self.skySim.addStarByChipPos(sensorName, starId, xInpixelInCam, yInPixelInCam, starMag) # Test the result self.assertAlmostEqual(self.skySim.ra[0], 359.99971038) self.assertAlmostEqual(self.skySim.decl[0], 0.0001889) def _setObservationMetaData(self): ra = 0 decl = 0 rotSkyPos = 0 mjd = 59580.0 self.skySim.setObservationMetaData(ra, decl, rotSkyPos, mjd)
def main(phosimDir, numPro): # Settings outputDir = getAoclcOutputPath() outputImgDir = os.path.join(outputDir, "img") os.makedirs(outputImgDir, exist_ok=True) configDir = getConfigDir() cmdSettingFile = os.path.join(configDir, "cmdFile", "starDefault.cmd") instSettingFile = os.path.join(configDir, "instFile", "starSingleExp.inst") # Survey information obsId = 9006000 filterType = FilterType.REF ra = 20 decl = 30 rotSkyPos = 10 # Set the Telescope facade class tele = TeleFacade() tele.setPhoSimDir(phosimDir) tele.setSurveyParam(obsId=obsId, filterType=filterType, boresight=(ra, decl), rotAngInDeg=rotSkyPos) tele.setInstName(CamType.LsstCam) # Write the accumulated DOF file tele.writeAccDofFile(outputDir) # Declare the SkySim() skySim = SkySim() # Set the observation information mjd = tele.getCamMjd() skySim.setObservationMetaData(ra, decl, rotSkyPos, mjd) # Add the interested stars sensorName = [ "R44_S00_C0", "R00_S22_C1", "R44_S00_C1", "R00_S22_C0", "R04_S20_C1", "R40_S02_C0", "R04_S20_C0", "R40_S02_C1" ] xInpixelInCam = [500, 800] yInPixelInCam = [1000, 1300] starMag = [15, 15] starId = 0 for sensor in sensorName: for ii in range(len(starMag)): skySim.addStarByChipPos(sensor, starId, xInpixelInCam[ii], yInPixelInCam[ii], starMag[ii]) starId += 1 # Export sky information outputSkyFilePath = os.path.join(outputDir, "skyWfsInfo.txt") skySim.exportSkyToFile(outputSkyFilePath) # Write the star physical command file cmdFilePath = tele.writeCmdFile(outputDir, cmdSettingFile=cmdSettingFile, cmdFileName="star.cmd") # Write the instance file instFilePath = tele.writeStarInstFile(outputDir, skySim, instSettingFile=instSettingFile, instFileName="star.inst") # Get the argument to run the PhoSim logFilePath = os.path.join(outputImgDir, "phosimStar.log") argString = tele.getPhoSimArgs(instFilePath, extraCommandFile=cmdFilePath, numPro=numPro, outputDir=outputImgDir, e2ADC=0, logFilePath=logFilePath) # Run the PhoSim tele.runPhoSim(argString)
def main(phosimDir): # Settings outputDir = os.path.join(getModulePath(), "output") outputImgDir = os.path.join(outputDir, "img") cmdSettingFile = os.path.join(getModulePath(), "configData", "cmdFile", "starDefault.cmd") instSettingFile = os.path.join(getModulePath(), "configData", "instFile", "starSingleExp.inst") # Survey information obsId = 9006000 instName = "lsst" filterType = FilterType.REF ra = 20 decl = 30 rotSkyPos = 10 mjd = 59580.0 # Declare the SkySim() skySim = SkySim() # Set the focal plane information folderPath2FocalPlane = os.path.join(phosimDir, "data", instName) skySim.setFolderPath2FocalPlane(folderPath2FocalPlane) # Set the observation information skySim.setObservationMetaData(ra, decl, rotSkyPos, mjd) # Add the interested stars sensorName = [ "R44_S00_C0", "R00_S22_C1", "R44_S00_C1", "R00_S22_C0", "R04_S20_C1", "R40_S02_C0", "R04_S20_C0", "R40_S02_C1" ] xInpixelInCam = [500, 800] yInPixelInCam = [1000, 1300] starMag = [15, 15] starId = 0 for sensor in sensorName: for ii in range(len(starMag)): skySim.addStarByChipPos(sensor, starId, xInpixelInCam[ii], yInPixelInCam[ii], starMag[ii]) starId += 1 # Export sky information outputSkyFilePath = os.path.join(getModulePath(), "output", "skyWfsInfo.txt") skySim.exportSkyToFile(outputSkyFilePath) # Set the Telescope facade class configFilePath = os.path.join(getModulePath(), "configData", "telescopeConfig", "GT.inst") tele = TeleFacade(configFilePath=configFilePath) tele.setSubSysConfigDir(phosimDir=phosimDir) tele.setSurveyParam(obsId=obsId, filterType=filterType, boresight=(ra, decl), rotAngInDeg=rotSkyPos, mjd=mjd) tele.setInstName(instName) # Write the accumulated DOF file tele.writeAccDofFile(outputDir) # Write the star physical command file cmdFilePath = tele.writeCmdFile(outputDir, cmdSettingFile=cmdSettingFile, cmdFileName="star.cmd") # Write the instance file instFilePath = tele.writeStarInstFile(outputDir, skySim, instSettingFile=instSettingFile, instFileName="star.inst") # Get the argument to run the PhoSim logFilePath = os.path.join(outputImgDir, "phosimStar.log") argString = tele.getPhoSimArgs(instFilePath, extraCommandFile=cmdFilePath, numPro=8, outputDir=outputImgDir, e2ADC=0, logFilePath=logFilePath) # Run the PhoSim tele.runPhoSim(argString)
class TestSkySim(unittest.TestCase): """ Test the SkySim class.""" def setUp(self): self.skySim = SkySim() def testGetStarId(self): starId = self.skySim.getStarId() self.assertEqual(len(starId), 0) self.assertTrue(isinstance(starId, np.ndarray)) def testGetRaDecInDeg(self): ra, decl = self.skySim.getRaDecInDeg() self.assertEqual(len(ra), 0) self.assertTrue(isinstance(ra, np.ndarray)) self.assertEqual(len(decl), 0) self.assertTrue(isinstance(decl, np.ndarray)) def testGetStarMag(self): mag = self.skySim.getStarMag() self.assertEqual(len(mag), 0) self.assertTrue(isinstance(mag, np.ndarray)) def testAddStarByRaDecInDeg(self): self.skySim.addStarByRaDecInDeg(1, 2, 3, 4) self.assertEqual(len(self.skySim.getStarId()), 1) self.skySim.addStarByRaDecInDeg(2, 2.1, 3, 4) starId = self.skySim.getStarId() self.assertEqual(len(starId), 2) self.assertEqual(starId[0], 1) self.assertEqual(starId[1], 2) # Try to add the same star Id again self.skySim.addStarByRaDecInDeg(2, 2.1, 3, 4) self.assertEqual(len(self.skySim.getStarId()), 2) def testResetSky(self): self.skySim.addStarByRaDecInDeg(1, 2, 3, 4) self.skySim.resetSky() self.assertEqual(len(self.skySim.getStarId()), 0) def testSetStarRaDecInDeg(self): self.skySim.setStarRaDecInDeg(np.array([0]), np.array([1]), np.array([2]), np.array([3])) self.assertEqual(len(self.skySim.getStarId()), 1) def testAddStarByFile(self): self._addStarByFile("wfsStar.txt") self.assertEqual(len(self.skySim.getStarId()), 8) ra, decl = self.skySim.getRaDecInDeg() self.assertEqual(ra[2], -1.176) self.assertEqual(decl[2], 1.196) self.assertEqual(self.skySim.getStarMag()[2], 17.0) def _addStarByFile(self, skyFileName): skyFile = os.path.join(getModulePath(), "tests", "testData", "sky", skyFileName) self.skySim.addStarByFile(skyFile) def testAddStarByFileWithSglStar(self): self._addStarByFile("wfsSglStar.txt") self.assertEqual(len(self.skySim.getStarId()), 1) ra, decl = self.skySim.getRaDecInDeg() self.assertEqual(ra[0], 1.196) self.assertEqual(decl[0], 1.176) self.assertEqual(self.skySim.getStarMag()[0], 17.0) def testExportSkyToFile(self): self._addStarByFile("wfsStar.txt") outputFilePath = os.path.join(getModulePath(), "output", "testSkyOutput.txt") self.skySim.exportSkyToFile(outputFilePath) self.assertTrue(os.path.isfile(outputFilePath)) os.remove(outputFilePath) def testAddStarByChipPos(self): self._setObservationMetaData() # Add the star sensorName = "R22_S11" starId = 0 xInpixelInCam = 2000 yInPixelInCam = 2036 starMag = 17 self.skySim.addStarByChipPos(sensorName, starId, xInpixelInCam, yInPixelInCam, starMag) # Test the result ra, decl = self.skySim.getRaDecInDeg() self.assertAlmostEqual(ra[0], 359.99971038) self.assertAlmostEqual(decl[0], 0.0001889) def _setObservationMetaData(self): ra = 0 decl = 0 rotSkyPos = 0 mjd = 59580.0 self.skySim.setObservationMetaData(ra, decl, rotSkyPos, mjd)