From e5274087afc2c4732f3895ff91d7b25e03814969 Mon Sep 17 00:00:00 2001 From: JakHolzer <53743814+JakHolzer@users.noreply.github.com> Date: Thu, 3 Sep 2020 14:05:32 +0200 Subject: [PATCH] Delete load_dat.py --- pyzebra/load_dat.py | 147 -------------------------------------------- 1 file changed, 147 deletions(-) delete mode 100644 pyzebra/load_dat.py diff --git a/pyzebra/load_dat.py b/pyzebra/load_dat.py deleted file mode 100644 index a1c38a5..0000000 --- a/pyzebra/load_dat.py +++ /dev/null @@ -1,147 +0,0 @@ -import re - - -def load_dat(filepath): - - """ - Loads *.dat file - to add more variables to read, extend the elif list - the file must include '#data' and number of points in right place to work properly - - :arg filepath - :returns det_variables - - dictionary of all detector/scan variables and 6 columns of data - omega, counts, monitor 1/2/3, time - """ - try: - variables = 'value' - det_variables = {"variables": variables} - with open(filepath, 'r') as infile: - for line in infile: - if '=' in line: - variable, value = line.split('=') - variable = variable.strip() - if variable == 'instrument': - det_variables["instrument"] = str(value)[:-1].strip() - elif variable == 'title': - det_variables["title"] = str(value)[:-1].strip() - elif variable == 'sample': - det_variables["sample"] = str(value)[:-1] - elif variable == 'user': - det_variables["user"] = str(value)[:-1].strip() - elif variable == 'ProposalID': - det_variables["ProposalID"] = str(value)[:-1].strip() - elif variable == 'original_filename': - det_variables["original_filename"] = str(value)[:-1].strip() - elif variable == 'date': - det_variables["date"] = str(value)[:-1].strip() - elif variable == 'proposal': - det_variables["proposal"] = str(value)[:-1].strip() - elif variable == 'proposal_user': - det_variables["proposal_user"] = str(value)[:-1].strip() - elif variable == 'proposal_title': - det_variables["proposal_title"] = str(value)[:-1].strip() - elif variable == 'proposal_email': - det_variables["proposal_email"] = str(value)[:-1].strip() - elif variable == 'zebra_mode': - det_variables["zebra_mode"] = str(value)[:-1].strip() - # elif variable == 'omega': - # det_variables["omega"] = float(value) - elif variable == '2-theta': - det_variables["2-theta"] = float(value) - elif variable == 'chi': - det_variables["chi"] = float(value) - elif variable == 'phi': - det_variables["phi"] = float(value) - elif variable == 'nu': - det_variables["nu"] = float(value) - elif variable == 'temp': - det_variables["temp"] = float(value) - elif variable == 'mf': - det_variables["mf"] = float(value) - elif variable == 'wavelenght': - det_variables["wavelength"] = float(value) - elif variable == 'ub1j': - det_variables["ub1"] = re.findall(r"[-+]?\d*\.\d+|\d+", str(value)) - elif variable == 'ub2j': - det_variables["ub2"] = re.findall(r"[-+]?\d*\.\d+|\d+", str(value)) - elif variable == 'ub3j': - det_variables["ub3"] = re.findall(r"[-+]?\d*\.\d+|\d+", str(value)) - elif variable == 'a': - det_variables["lattice_par_a"] = float(value) - elif variable == 'b': - det_variables["lattice_par_b"] = float(value) - elif variable == 'c': - det_variables["lattice_par_c"] = float(value) - elif variable == 'alpha': - det_variables["lattice_ang_alpha"] = float(value) - elif variable == 'beta': - det_variables["lattice_ang_beta"] = float(value) - elif variable == 'gamma': - det_variables["lattice_ang_gamma"] = float(value) - elif variable == 'cex1': - det_variables["cex1"] = float(value) - elif variable == 'cex2': - det_variables["cex2"] = float(value) - elif variable == 'mexz': - det_variables["mexz"] = float(value) - elif variable == 'moml': - det_variables["moml"] = float(value) - elif variable == 'mcvl': - det_variables["mcvl"] = float(value) - elif variable == 'momu': - det_variables["momu"] = float(value) - elif variable == 'mcvu': - det_variables["mcvu"] = float(value) - elif variable == 'detectorDistance': - det_variables["detectorDistance"] = str(value) - elif variable == 'snv': - det_variables["snv"] = float(value) - elif variable == 'snh': - det_variables["snh"] = float(value) - elif variable == 'snvm': - det_variables["snvm"] = float(value) - elif variable == 'snhm': - det_variables["snhm"] = float(value) - elif variable == 's1vt': - det_variables["s1vt"] = float(value) - elif variable == 's1vb': - det_variables["s1vb"] = float(value) - elif variable == 's1hr': - det_variables["s1hr"] = float(value) - elif variable == 's1hl': - det_variables["s1hl"] = float(value) - elif variable == 's2vt': - det_variables["s2vt"] = float(value) - elif variable == 's2vb': - det_variables["s1vb"] = float(value) - elif variable == 's2hr': - det_variables["s1hr"] = float(value) - elif variable == 's2hl': - det_variables["s2hl"] = float(value) - elif '#data' in line: - data = infile.readlines() - num_of_points = int(data[1].split()[0]) - omega = [] - counts = [] - monitor1 = [] - monitor2 = [] - monitor3 = [] - time = [] - for position in range(num_of_points): - omega.append(float(data[position + 3].split()[1])) - counts.append(float(data[position + 3].split()[2])) - monitor1.append(float(data[position + 3].split()[3])) - monitor2.append(float(data[position + 3].split()[4])) - monitor3.append(float(data[position + 3].split()[5])) - time.append(float(data[position + 3].split()[6])) - - det_variables["omega"] = omega - det_variables["counts"] = counts - det_variables["Monitor1"] = monitor1 - det_variables["Monitor2"] = monitor2 - det_variables["Monitor3"] = monitor3 - det_variables["time"] = time - - return det_variables - except IOError: - print("File not found or path is incorrect")