コード例 #1
0
ファイル: readdata.py プロジェクト: kif/dynamix
def get_data(datdir, prefd, sufd, nf1, nf2):
    # read Maxipix, Eiger edf images ####
    t0 = time.time()

    swrite = stdout.write
    sflush = stdout.flush
    print("start reading the files")
    # creating filenames
    filenames = nfiles.filename(datdir + prefd, sufd, nf1, nf2)
    lfilenames = len(filenames)
    # reading first image to get dimenstions of the matrix
    headers = EdfMethods.headeredf(filenames[0])
    dim1 = np.intc(headers['Dim_1'])
    dim2 = np.intc(headers['Dim_2'])
    nx = dim2
    ny = dim1
    data = np.zeros((lfilenames, nx, ny), np.uint16)
    i = 0
    for mfile in filenames:
        data[i, :, :] = EdfMethods.loadedf(mfile)
        i += 1
        swrite(4 * '\x08')
        swrite(str(int(i * 100. / lfilenames)) + '%')
        sflush()
    print("\n")
    print("Reading time %3.3f sec" % (time.time() - t0))
    return data
コード例 #2
0
ファイル: readdata.py プロジェクト: kif/dynamix
def get_delta(datdir, prefd, sufd, nf1, nf2, scan="1"):
    if sufd == ".edf":
        filenames = nfiles.filename(datdir + prefd, sufd, nf1, nf2)
        h = EdfMethods.headeredf(filenames[10])
        delta = float(
            h['motor_pos'].split(" ")[h['motor_mne'].split(" ").index('del')])
    if sufd == ".h5":
        filename = datdir + prefd + sufd
        with h5py.File(filename, mode="r") as h5:
            delta = h5['/' + scan + '.1/instrument/positioners/delta'][()]
    return delta
コード例 #3
0
ファイル: readdata.py プロジェクト: kif/dynamix
def get_ccd_event_datan(datdir,
                        prefd,
                        sufd,
                        nf1,
                        nf2,
                        darkdir,
                        df1,
                        df2,
                        sname,
                        lth,
                        bADU,
                        tADU,
                        mNp,
                        aduph,
                        savdir,
                        mask_file,
                        thr=20,
                        frc=0.15):
    ### read ccd edf images and convert for Pierre's event correlator using numba ####
    t0 = time.time()

    swrite = stdout.write
    sflush = stdout.flush
    print("start reading the files")
    # creating filenames
    filenames = nfiles.filename(datdir + prefd, sufd, nf1, nf2)
    lfilenames = len(filenames)  # -1
    # reading first image to get dimenstions of the matrix
    headers = EdfMethods.headeredf(filenames[0])
    dim1 = np.intc(headers['Dim_1'])
    dim2 = np.intc(headers['Dim_2'])
    nx = dim2
    ny = dim1

    ############reading mask##########
    try:
        mask_data = EdfMethods.loadedf(mask_file)
        print("use mask file " + mask_file)
        ind = np.where(mask_data > 0)
        for_norm = dim1 * dim2 - len(mask_data[ind])
    except:
        mask_data = np.zeros((dim2, dim1), np.uint8)
        print("no mask applied")
        for_norm = dim1 * dim2  # 1024**2
        pass
    print("Numebr of pixels used " + str(for_norm))

    ########reading dark##########
    darkfilenames = nfiles.filename(darkdir + prefd, sufd, df1, df2)
    ndarks = 0
    for dfile in darkfilenames:
        if ndarks == 0:
            darkimg = np.asfarray(EdfMethods.loadedf(dfile), dtype=np.float32)
        else:
            darkimg += np.asfarray(EdfMethods.loadedf(dfile), dtype=np.float32)
        ndarks += 1

    darkimg = darkimg / ndarks

    n_frames = len(filenames)
    ll = nx * ny  # total number of pixels
    lp = int(n_frames * frc)  # total number of frames with events 15%
    mask = np.array(np.ravel(mask_data), np.uint8)
    evs = np.zeros((ll, lp), np.uint8)
    tms = np.zeros((ll, lp), np.uint16)
    cnt = np.ravel(np.zeros((ll, ), np.uint16))
    afr = np.ravel(np.zeros((ll, ), np.uint32))
    tr = 0
    trace = np.zeros((n_frames, ), np.uint32)
    it = 0
    print("Number of frames %d" % n_frames)
    ###########reading and summing files###########
    for i in range(lfilenames):
        swrite(4 * '\x08')
        swrite(str(int(i * 100. / lfilenames)) + '%')
        sflush()
        matr = np.asfarray(EdfMethods.loadedf(filenames[i]), dtype=np.float32)
        try:
            matr[ind] = 0
        except:
            pass
        msumpix, mpix, fr = dropimgood(matr, darkimg, lth, bADU, tADU, mNp,
                                       aduph, nx, ny)  # dropletize CCD frames
        fr = np.ravel(fr)
        evs, tms, cnt, afr, mask, tr = neigercompress(evs, tms, cnt, afr, mask,
                                                      tr, fr, thr, it, ll, lp)
        trace[i] = tr
        it += 1

    if not os.path.exists(savdir):
        answ = input("create a director (y)/n").lower()
        if answ == "n":
            print("exit")
            exit()
        else:
            os.makedirs(savdir)
            print("directory " + savdir + " has been created")
    afr = afr / n_frames
    afr = np.reshape(afr, (nx, ny))
    mask = np.reshape(mask, (nx, ny))
    evs, tms, c = nprepare(np.ravel(evs), np.ravel(tms))
    evs = np.array(evs[:c], np.int8)
    tms = tms[:c]
    print("Reading time %3.3f sec" % (time.time() - t0))
    return evs, tms, cnt, afr, n_frames, mask, trace
コード例 #4
0
ファイル: readdata.py プロジェクト: kif/dynamix
def get_ccd_event_data(datdir, prefd, sufd, nf1, nf2, darkdir, df1, df2, sname,
                       lth, bADU, tADU, mNp, aduph, savdir, mask_file):
    ### read ccd edf images and convert for event correlator ####
    time0 = time.time()

    swrite = stdout.write
    sflush = stdout.flush
    print("start reading the files")
    # creating filenames
    filenames = nfiles.filename(datdir + prefd, sufd, nf1, nf2)
    lfilenames = len(filenames)  # -1
    # reading first image to get dimenstions of the matrix
    headers = EdfMethods.headeredf(filenames[0])
    dim1 = np.intc(headers['Dim_1'])
    dim2 = np.intc(headers['Dim_2'])
    nx = dim2
    ny = dim1

    ############reading mask##########
    try:
        mask_data = EdfMethods.loadedf(mask_file)
        print("use mask file " + mask_file)
        ind = np.where(mask_data > 0)
        for_norm = dim1 * dim2 - len(mask_data[ind])
    except:
        print("no mask applied")
        for_norm = dim1 * dim2  # 1024**2
        pass
    print("Numebr of pixels used " + str(for_norm))

    ########creating image matrix of zeros############
    img = np.zeros((dim2, dim1))

    ########reading dark##########
    darkfilenames = nfiles.filename(darkdir + prefd, sufd, df1, df2)
    ndarks = 0
    for dfile in darkfilenames:
        if ndarks == 0:
            darkimg = np.asfarray(EdfMethods.loadedf(dfile), dtype=np.float32)
        else:
            darkimg += np.asfarray(EdfMethods.loadedf(dfile), dtype=np.float32)
        ndarks += 1

    darkimg = darkimg / ndarks

    pixels = []
    s = []
    data = []
    pread = []
    for i in range(2):
        data.append(Queue(2))
        # pread.append(Process(target=mread_ccd, args=(filenames[i:-1:2],data[i],darkimg,lth,bADU,tADU,mNp,aduph,nx,ny)))
    pread.append(
        Process(target=mread_ccd,
                args=(filenames[:-1:2], data[0], darkimg, lth, bADU, tADU, mNp,
                      aduph, nx, ny)))
    pread.append(
        Process(target=mread_ccd,
                args=(filenames[1::2], data[1], darkimg, lth, bADU, tADU, mNp,
                      aduph, nx, ny)))
    for i in range(2):
        pread[i].start()

    ii = 0
    ###########reading and summing files###########
    for i in range(lfilenames):
        swrite(4 * '\x08')
        swrite(str(int(i * 100. / lfilenames)) + '%')
        sflush()
        fromproc = data[ii].get()
        pixels.append(fromproc[0])
        s.append(fromproc[1])
        img += fromproc[2]
        ii += 1
        if ii == 2:
            ii = 0

    for i in range(2):
        pread[i].join()
        data[i].close()

    dtime = time.time() - time0
    print('reading of %d files took %5.2f sec' % (lfilenames, dtime))

    if not os.path.exists(savdir):
        answ = input("create a director (y)/n")
        if answ == "n":
            print("exit")
            exit()
        else:
            os.makedirs(savdir)
            print("directory " + savdir + " has been created")
    return pixels, s, for_norm, img