import os, sys import numpy as np import scipy.io import mpi4py.MPI as MPI #sys.path.append("/public/home/weichengliang/lnData/CSST_new_framwork/csstPSF_20201222") import PSFConfig as myConfig import PSFUtil as myUtil def mkdir(path): isExists = os.path.exists(path) if not isExists: os.mkdir(path) ############################################ comm = MPI.COMM_WORLD ThisTask = comm.Get_rank() NTasks = comm.Get_size() npsf = 900 psfPath = '/data/simudata/CSSOSDataProductsSims/data/csstPSFdata/CSSOS_psf_20210108/CSST_psf_ciomp_2p5um_cycle3_ccr90' npsfPerTasks = int(npsf/NTasks) iStart= 0 + npsfPerTasks*ThisTask iEnd = npsfPerTasks + npsfPerTasks*ThisTask if ThisTask == NTasks: iEnd = npsf for iccd in range(1, 31): iccdPath = psfPath + '_proc/ccd{:}'.format(iccd) if ThisTask == 0: mkdir(iccdPath) comm.barrier() for iwave in range(1, 5): iwavePath = iccdPath + '/wave_{:}'.format(iwave) if ThisTask == 0: mkdir(iwavePath) comm.barrier() psfMatPath = iwavePath + '/5_psf_array' if ThisTask == 0: mkdir(psfMatPath) comm.barrier() for ii in range(iStart, iEnd): ipsf = ii+1 if ThisTask ==0: print('iccd-iwave-ipsf: {:4}{:4}{:4}'.format(iccd, iwave, ipsf), end='\r',flush=True) #if iccd != 1 or iwave !=1 or ipsf != 1: # continue ipsfOutput = psfMatPath + '/psf_{:}_centroidWgt.mat'.format(ipsf) psfInfo = myConfig.LoadPSF(iccd, iwave, ipsf, psfPath, InputMaxPixelPos=True) ipsfMat = psfInfo['psfMat'] npix_y, npix_x = ipsfMat.shape #if npsf == 100: # ncut = 160 #if npsf == 900: # ncut = 200 ncut = int(npix_y*0.90) ncut = ncut + ncut%2 #even pixs img, cx, cy = myUtil.centroidWgt(ipsfMat, nt=ncut) dcx = cx - npix_x/2 #pixel coords -> global coords dcy = cy - npix_y/2 #pixel coords -> global coords dcx*= psfInfo['pixsize']*1e-3 #5e-3 #pixels -> mm dcy*= psfInfo['pixsize']*1e-3 #5e-3 #pixels -> mm nn = npix_y dn = int((nn - ncut)/2) imgt = np.zeros([nn, nn], dtype=np.float32) imgt[dn:-dn, dn:-dn] = img scipy.io.savemat(ipsfOutput, {'cx':dcx, 'cy':dcy, 'psf':imgt}) if iccd != 1 or iwave !=1 or ipsf != 1: if ThisTask == 0: print('CHECK::', dcx, dcy, psfInfo['centroid_x'],psfInfo['centroid_y'])