pyerrors.input.openQCD
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import os import fnmatch import re import struct import warnings import numpy as np # Thinly-wrapped numpy import matplotlib.pyplot as plt from matplotlib import gridspec from ..obs import Obs from ..fits import fit_lin def read_rwms(path, prefix, version='2.0', names=None, **kwargs): """Read rwms format from given folder structure. Returns a list of length nrw Parameters ---------- path : str path that contains the data files prefix : str all files in path that start with prefix are considered as input files. May be used together postfix to consider only special file endings. Prefix is ignored, if the keyword 'files' is used. version : str version of openQCD, default 2.0 names : list list of names that is assigned to the data according according to the order in the file list. Use careful, if you do not provide file names! r_start : list list which contains the first config to be read for each replicum r_stop : list list which contains the last config to be read for each replicum r_step : int integer that defines a fixed step size between two measurements (in units of configs) If not given, r_step=1 is assumed. postfix : str postfix of the file to read, e.g. '.ms1' for openQCD-files files : list list which contains the filenames to be read. No automatic detection of files performed if given. print_err : bool Print additional information that is useful for debugging. """ known_oqcd_versions = ['1.4', '1.6', '2.0'] if not (version in known_oqcd_versions): raise Exception('Unknown openQCD version defined!') print("Working with openQCD version " + version) if 'postfix' in kwargs: postfix = kwargs.get('postfix') else: postfix = '' ls = [] for (dirpath, dirnames, filenames) in os.walk(path): ls.extend(filenames) break if not ls: raise Exception('Error, directory not found') if 'files' in kwargs: ls = kwargs.get('files') else: for exc in ls: if not fnmatch.fnmatch(exc, prefix + '*' + postfix + '.dat'): ls = list(set(ls) - set([exc])) if len(ls) > 1: ls.sort(key=lambda x: int(re.findall(r'\d+', x[len(prefix):])[0])) replica = len(ls) if 'r_start' in kwargs: r_start = kwargs.get('r_start') if len(r_start) != replica: raise Exception('r_start does not match number of replicas') r_start = [o if o else None for o in r_start] else: r_start = [None] * replica if 'r_stop' in kwargs: r_stop = kwargs.get('r_stop') if len(r_stop) != replica: raise Exception('r_stop does not match number of replicas') else: r_stop = [None] * replica if 'r_step' in kwargs: r_step = kwargs.get('r_step') else: r_step = 1 print('Read reweighting factors from', prefix[:-1], ',', replica, 'replica', end='') if names is None: rep_names = [] for entry in ls: truncated_entry = entry.split('.')[0] idx = truncated_entry.index('r') rep_names.append(truncated_entry[:idx] + '|' + truncated_entry[idx:]) else: rep_names = names print_err = 0 if 'print_err' in kwargs: print_err = 1 print() deltas = [] configlist = [] r_start_index = [] r_stop_index = [] for rep in range(replica): tmp_array = [] with open(path + '/' + ls[rep], 'rb') as fp: t = fp.read(4) # number of reweighting factors if rep == 0: nrw = struct.unpack('i', t)[0] if version == '2.0': nrw = int(nrw / 2) for k in range(nrw): deltas.append([]) else: if ((nrw != struct.unpack('i', t)[0] and (not version == '2.0')) or (nrw != struct.unpack('i', t)[0] / 2 and version == '2.0')): raise Exception('Error: different number of reweighting factors for replicum', rep) for k in range(nrw): tmp_array.append([]) # This block is necessary for openQCD1.6 and openQCD2.0 ms1 files nfct = [] if version in ['1.6', '2.0']: for i in range(nrw): t = fp.read(4) nfct.append(struct.unpack('i', t)[0]) else: for i in range(nrw): nfct.append(1) nsrc = [] for i in range(nrw): t = fp.read(4) nsrc.append(struct.unpack('i', t)[0]) if version == '2.0': if not struct.unpack('i', fp.read(4))[0] == 0: print('something is wrong!') configlist.append([]) while 0 < 1: t = fp.read(4) if len(t) < 4: break config_no = struct.unpack('i', t)[0] configlist[-1].append(config_no) for i in range(nrw): if(version == '2.0'): tmpd = _read_array_openQCD2(fp) tmpd = _read_array_openQCD2(fp) tmp_rw = tmpd['arr'] tmp_nfct = 1.0 for j in range(tmpd['n'][0]): tmp_nfct *= np.mean(np.exp(-np.asarray(tmp_rw[j]))) if print_err: print(config_no, i, j, np.mean(np.exp(-np.asarray(tmp_rw[j]))), np.std(np.exp(-np.asarray(tmp_rw[j])))) print('Sources:', np.exp(-np.asarray(tmp_rw[j]))) print('Partial factor:', tmp_nfct) elif version == '1.6' or version == '1.4': tmp_nfct = 1.0 for j in range(nfct[i]): t = fp.read(8 * nsrc[i]) t = fp.read(8 * nsrc[i]) tmp_rw = struct.unpack('d' * nsrc[i], t) tmp_nfct *= np.mean(np.exp(-np.asarray(tmp_rw))) if print_err: print(config_no, i, j, np.mean(np.exp(-np.asarray(tmp_rw))), np.std(np.exp(-np.asarray(tmp_rw)))) print('Sources:', np.exp(-np.asarray(tmp_rw))) print('Partial factor:', tmp_nfct) tmp_array[i].append(tmp_nfct) diffmeas = configlist[-1][-1] - configlist[-1][-2] configlist[-1] = [item // diffmeas for item in configlist[-1]] if configlist[-1][0] > 1 and diffmeas > 1: warnings.warn('Assume thermalization and that the first measurement belongs to the first config.') offset = configlist[-1][0] - 1 configlist[-1] = [item - offset for item in configlist[-1]] if r_start[rep] is None: r_start_index.append(0) else: try: r_start_index.append(configlist[-1].index(r_start[rep])) except ValueError: raise Exception('Config %d not in file with range [%d, %d]' % ( r_start[rep], configlist[-1][0], configlist[-1][-1])) from None if r_stop[rep] is None: r_stop_index.append(len(configlist[-1]) - 1) else: try: r_stop_index.append(configlist[-1].index(r_stop[rep])) except ValueError: raise Exception('Config %d not in file with range [%d, %d]' % ( r_stop[rep], configlist[-1][0], configlist[-1][-1])) from None for k in range(nrw): deltas[k].append(tmp_array[k][r_start_index[rep]:r_stop_index[rep] + 1][::r_step]) if np.any([len(np.unique(np.diff(cl))) != 1 for cl in configlist]): raise Exception('Irregular spaced data in input file!', [len(np.unique(np.diff(cl))) for cl in configlist]) stepsizes = [list(np.unique(np.diff(cl)))[0] for cl in configlist] if np.any([step != 1 for step in stepsizes]): warnings.warn('Stepsize between configurations is greater than one!' + str(stepsizes), RuntimeWarning) print(',', nrw, 'reweighting factors with', nsrc, 'sources') result = [] idl = [range(configlist[rep][r_start_index[rep]], configlist[rep][r_stop_index[rep]] + 1, r_step) for rep in range(replica)] for t in range(nrw): result.append(Obs(deltas[t], rep_names, idl=idl)) return result def extract_t0(path, prefix, dtr_read, xmin, spatial_extent, fit_range=5, **kwargs): """Extract t0 from given .ms.dat files. Returns t0 as Obs. It is assumed that all boundary effects have sufficiently decayed at x0=xmin. The data around the zero crossing of t^2<E> - 0.3 is fitted with a linear function from which the exact root is extracted. It is assumed that one measurement is performed for each config. If this is not the case, the resulting idl, as well as the handling of r_start, r_stop and r_step is wrong and the user has to correct this in the resulting observable. Parameters ---------- path : str Path to .ms.dat files prefix : str Ensemble prefix dtr_read : int Determines how many trajectories should be skipped when reading the ms.dat files. Corresponds to dtr_cnfg / dtr_ms in the openQCD input file. xmin : int First timeslice where the boundary effects have sufficiently decayed. spatial_extent : int spatial extent of the lattice, required for normalization. fit_range : int Number of data points left and right of the zero crossing to be included in the linear fit. (Default: 5) r_start : list list which contains the first config to be read for each replicum. r_stop : list list which contains the last config to be read for each replicum. r_step : int integer that defines a fixed step size between two measurements (in units of configs) If not given, r_step=1 is assumed. plaquette : bool If true extract the plaquette estimate of t0 instead. names : list list of names that is assigned to the data according according to the order in the file list. Use careful, if you do not provide file names! files : list list which contains the filenames to be read. No automatic detection of files performed if given. plot_fit : bool If true, the fit for the extraction of t0 is shown together with the data. assume_thermalization : bool If True: If the first record divided by the distance between two measurements is larger than 1, it is assumed that this is due to thermalization and the first measurement belongs to the first config (default). If False: The config numbers are assumed to be traj_number // difference """ ls = [] for (dirpath, dirnames, filenames) in os.walk(path): ls.extend(filenames) break if not ls: raise Exception('Error, directory not found') if 'files' in kwargs: ls = kwargs.get('files') else: for exc in ls: if not fnmatch.fnmatch(exc, prefix + '*.ms.dat'): ls = list(set(ls) - set([exc])) if len(ls) > 1: ls.sort(key=lambda x: int(re.findall(r'\d+', x[len(prefix):])[0])) replica = len(ls) if 'r_start' in kwargs: r_start = kwargs.get('r_start') if len(r_start) != replica: raise Exception('r_start does not match number of replicas') r_start = [o if o else None for o in r_start] else: r_start = [None] * replica if 'r_stop' in kwargs: r_stop = kwargs.get('r_stop') if len(r_stop) != replica: raise Exception('r_stop does not match number of replicas') else: r_stop = [None] * replica if 'r_step' in kwargs: r_step = kwargs.get('r_step') else: r_step = 1 print('Extract t0 from', prefix, ',', replica, 'replica') if 'names' in kwargs: rep_names = kwargs.get('names') else: rep_names = [] for entry in ls: truncated_entry = entry.split('.')[0] idx = truncated_entry.index('r') rep_names.append(truncated_entry[:idx] + '|' + truncated_entry[idx:]) Ysum = [] configlist = [] r_start_index = [] r_stop_index = [] for rep in range(replica): with open(path + '/' + ls[rep], 'rb') as fp: t = fp.read(12) header = struct.unpack('iii', t) if rep == 0: dn = header[0] nn = header[1] tmax = header[2] elif dn != header[0] or nn != header[1] or tmax != header[2]: raise Exception('Replica parameters do not match.') t = fp.read(8) if rep == 0: eps = struct.unpack('d', t)[0] print('Step size:', eps, ', Maximal t value:', dn * (nn) * eps) elif eps != struct.unpack('d', t)[0]: raise Exception('Values for eps do not match among replica.') Ysl = [] configlist.append([]) while 0 < 1: t = fp.read(4) if(len(t) < 4): break nc = struct.unpack('i', t)[0] configlist[-1].append(nc) t = fp.read(8 * tmax * (nn + 1)) if kwargs.get('plaquette'): if nc % dtr_read == 0: Ysl.append(struct.unpack('d' * tmax * (nn + 1), t)) t = fp.read(8 * tmax * (nn + 1)) if not kwargs.get('plaquette'): if nc % dtr_read == 0: Ysl.append(struct.unpack('d' * tmax * (nn + 1), t)) t = fp.read(8 * tmax * (nn + 1)) Ysum.append([]) for i, item in enumerate(Ysl): Ysum[-1].append([np.mean(item[current + xmin: current + tmax - xmin]) for current in range(0, len(item), tmax)]) diffmeas = configlist[-1][-1] - configlist[-1][-2] configlist[-1] = [item // diffmeas for item in configlist[-1]] if kwargs.get('assume_thermalization', True) and configlist[-1][0] > 1: warnings.warn('Assume thermalization and that the first measurement belongs to the first config.') offset = configlist[-1][0] - 1 configlist[-1] = [item - offset for item in configlist[-1]] if r_start[rep] is None: r_start_index.append(0) else: try: r_start_index.append(configlist[-1].index(r_start[rep])) except ValueError: raise Exception('Config %d not in file with range [%d, %d]' % ( r_start[rep], configlist[-1][0], configlist[-1][-1])) from None if r_stop[rep] is None: r_stop_index.append(len(configlist[-1]) - 1) else: try: r_stop_index.append(configlist[-1].index(r_stop[rep])) except ValueError: raise Exception('Config %d not in file with range [%d, %d]' % ( r_stop[rep], configlist[-1][0], configlist[-1][-1])) from None if np.any([len(np.unique(np.diff(cl))) != 1 for cl in configlist]): raise Exception('Irregular spaced data in input file!', [len(np.unique(np.diff(cl))) for cl in configlist]) stepsizes = [list(np.unique(np.diff(cl)))[0] for cl in configlist] if np.any([step != 1 for step in stepsizes]): warnings.warn('Stepsize between configurations is greater than one!' + str(stepsizes), RuntimeWarning) idl = [range(configlist[rep][r_start_index[rep]], configlist[rep][r_stop_index[rep]] + 1, r_step) for rep in range(replica)] t2E_dict = {} for n in range(nn + 1): samples = [] for nrep, rep in enumerate(Ysum): samples.append([]) for cnfg in rep: samples[-1].append(cnfg[n]) samples[-1] = samples[-1][r_start_index[nrep]:r_stop_index[nrep] + 1][::r_step] new_obs = Obs(samples, rep_names, idl=idl) t2E_dict[n * dn * eps] = (n * dn * eps) ** 2 * new_obs / (spatial_extent ** 3) - 0.3 zero_crossing = np.argmax(np.array( [o.value for o in t2E_dict.values()]) > 0.0) x = list(t2E_dict.keys())[zero_crossing - fit_range: zero_crossing + fit_range] y = list(t2E_dict.values())[zero_crossing - fit_range: zero_crossing + fit_range] [o.gamma_method() for o in y] fit_result = fit_lin(x, y) if kwargs.get('plot_fit'): plt.figure() gs = gridspec.GridSpec(2, 1, height_ratios=[3, 1], wspace=0.0, hspace=0.0) ax0 = plt.subplot(gs[0]) xmore = list(t2E_dict.keys())[zero_crossing - fit_range - 2: zero_crossing + fit_range + 2] ymore = list(t2E_dict.values())[zero_crossing - fit_range - 2: zero_crossing + fit_range + 2] [o.gamma_method() for o in ymore] ax0.errorbar(xmore, [yi.value for yi in ymore], yerr=[yi.dvalue for yi in ymore], fmt='x') xplot = np.linspace(np.min(x), np.max(x)) yplot = [fit_result[0] + fit_result[1] * xi for xi in xplot] [yi.gamma_method() for yi in yplot] ax0.fill_between(xplot, y1=[yi.value - yi.dvalue for yi in yplot], y2=[yi.value + yi.dvalue for yi in yplot]) retval = (-fit_result[0] / fit_result[1]) retval.gamma_method() ylim = ax0.get_ylim() ax0.fill_betweenx(ylim, x1=retval.value - retval.dvalue, x2=retval.value + retval.dvalue, color='gray', alpha=0.4) ax0.set_ylim(ylim) ax0.set_ylabel(r'$t^2 \langle E(t) \rangle - 0.3 $') xlim = ax0.get_xlim() fit_res = [fit_result[0] + fit_result[1] * xi for xi in x] residuals = (np.asarray([o.value for o in y]) - [o.value for o in fit_res]) / np.asarray([o.dvalue for o in y]) ax1 = plt.subplot(gs[1]) ax1.plot(x, residuals, 'ko', ls='none', markersize=5) ax1.tick_params(direction='out') ax1.tick_params(axis="x", bottom=True, top=True, labelbottom=True) ax1.axhline(y=0.0, ls='--', color='k') ax1.fill_between(xlim, -1.0, 1.0, alpha=0.1, facecolor='k') ax1.set_xlim(xlim) ax1.set_ylabel('Residuals') ax1.set_xlabel(r'$t/a^2$') plt.draw() return -fit_result[0] / fit_result[1] def _parse_array_openQCD2(d, n, size, wa, quadrupel=False): arr = [] if d == 2: for i in range(n[0]): tmp = wa[i * n[1]:(i + 1) * n[1]] if quadrupel: tmp2 = [] for j in range(0, len(tmp), 2): tmp2.append(tmp[j]) arr.append(tmp2) else: arr.append(np.asarray(tmp)) else: raise Exception('Only two-dimensional arrays supported!') return arr def _read_array_openQCD2(fp): t = fp.read(4) d = struct.unpack('i', t)[0] t = fp.read(4 * d) n = struct.unpack('%di' % (d), t) t = fp.read(4) size = struct.unpack('i', t)[0] if size == 4: types = 'i' elif size == 8: types = 'd' elif size == 16: types = 'dd' else: raise Exception("Type for size '" + str(size) + "' not known.") m = n[0] for i in range(1, d): m *= n[i] t = fp.read(m * size) tmp = struct.unpack('%d%s' % (m, types), t) arr = _parse_array_openQCD2(d, n, size, tmp, quadrupel=True) return {'d': d, 'n': n, 'size': size, 'arr': arr} def read_qtop(path, prefix, c, dtr_cnfg=1, version="openQCD", **kwargs): """Read the topologial charge based on openQCD gradient flow measurements. Parameters ---------- path : str path of the measurement files prefix : str prefix of the measurement files, e.g. <prefix>_id0_r0.ms.dat. Ignored if file names are passed explicitly via keyword files. c : double Smearing radius in units of the lattice extent, c = sqrt(8 t0) / L. dtr_cnfg : int (optional) parameter that specifies the number of measurements between two configs. If it is not set, the distance between two measurements in the file is assumed to be the distance between two configurations. steps : int (optional) Distance between two configurations in units of trajectories / cycles. Assumed to be the distance between two measurements * dtr_cnfg if not given version : str Either openQCD or sfqcd, depending on the data. L : int spatial length of the lattice in L/a. HAS to be set if version != sfqcd, since openQCD does not provide this in the header r_start : list list which contains the first config to be read for each replicum. r_stop : list list which contains the last config to be read for each replicum. files : list specify the exact files that need to be read from path, practical if e.g. only one replicum is needed names : list Alternative labeling for replicas/ensembles. Has to have the appropriate length. Zeuthen_flow : bool (optional) If True, the Zeuthen flow is used for Qtop. Only possible for version=='sfqcd' If False, the Wilson flow is used. integer_charge : bool If True, the charge is rounded towards the nearest integer on each config. """ known_versions = ["openQCD", "sfqcd"] if version not in known_versions: raise Exception("Unknown openQCD version.") if "steps" in kwargs: steps = kwargs.get("steps") if version == "sfqcd": if "L" in kwargs: supposed_L = kwargs.get("L") else: supposed_L = None postfix = ".gfms.dat" else: if "L" not in kwargs: raise Exception("This version of openQCD needs you to provide the spatial length of the lattice as parameter 'L'.") else: L = kwargs.get("L") postfix = ".ms.dat" if "files" in kwargs: files = kwargs.get("files") postfix = '' else: found = [] files = [] for (dirpath, dirnames, filenames) in os.walk(path + "/"): found.extend(filenames) break for f in found: if fnmatch.fnmatch(f, prefix + "*" + postfix): files.append(f) if 'r_start' in kwargs: r_start = kwargs.get('r_start') if len(r_start) != len(files): raise Exception('r_start does not match number of replicas') r_start = [o if o else None for o in r_start] else: r_start = [None] * len(files) if 'r_stop' in kwargs: r_stop = kwargs.get('r_stop') if len(r_stop) != len(files): raise Exception('r_stop does not match number of replicas') else: r_stop = [None] * len(files) rep_names = [] zeuthen = kwargs.get('Zeuthen_flow', False) if zeuthen and version not in ['sfqcd']: raise Exception('Zeuthen flow can only be used for version==sfqcd') r_start_index = [] r_stop_index = [] deltas = [] configlist = [] for rep, file in enumerate(files): with open(path + "/" + file, "rb") as fp: Q = [] traj_list = [] if version in ['sfqcd']: if zeuthen: obspos = 0 else: obspos = 8 t = fp.read(12) header = struct.unpack('<iii', t) zthfl = header[0] # Zeuthen flow -> if it's equal to 2 it means that the Zeuthen flow is also 'measured' (apart from the Wilson flow) ncs = header[1] # number of different values for c in t_flow=1/8 c² L² -> measurements done for ncs c's tmax = header[2] # lattice T/a t = fp.read(12) Ls = struct.unpack('<iii', t) if(Ls[0] == Ls[1] and Ls[1] == Ls[2]): L = Ls[0] if not (supposed_L == L) and supposed_L: raise Exception("It seems the length given in the header and by you contradict each other") else: raise Exception("Found more than one spatial length in header!") t = fp.read(16) header2 = struct.unpack('<dd', t) tol = header2[0] cmax = header2[1] # highest value of c used if c > cmax: raise Exception('Flow has been determined between c=0 and c=%lf with tolerance %lf' % (cmax, tol)) if(zthfl == 2): nfl = 2 # number of flows else: nfl = 1 iobs = 8 * nfl # number of flow observables calculated while 0 < 1: t = fp.read(4) if(len(t) < 4): break traj_list.append(struct.unpack('i', t)[0]) # trajectory number when measurement was done for j in range(ncs + 1): for i in range(iobs): t = fp.read(8 * tmax) if (i == obspos): # determines the flow observable -> i=0 <-> Zeuthen flow Q.append(struct.unpack('d' * tmax, t)) else: t = fp.read(12) header = struct.unpack('<iii', t) # step size in integration steps "dnms" dn = header[0] # number of measurements, so "ntot"/dn nn = header[1] # lattice T/a tmax = header[2] t = fp.read(8) eps = struct.unpack('d', t)[0] while 0 < 1: t = fp.read(4) if(len(t) < 4): break traj_list.append(struct.unpack('i', t)[0]) # Wsl t = fp.read(8 * tmax * (nn + 1)) # Ysl t = fp.read(8 * tmax * (nn + 1)) # Qsl, which is asked for in this method t = fp.read(8 * tmax * (nn + 1)) # unpack the array of Qtops, # on each timeslice t=0,...,tmax-1 and the # measurement number in = 0...nn (see README.qcd1) tmpd = struct.unpack('d' * tmax * (nn + 1), t) Q.append(tmpd) if len(np.unique(np.diff(traj_list))) != 1: raise Exception("Irregularities in stepsize found") else: if 'steps' in kwargs: if steps != traj_list[1] - traj_list[0]: raise Exception("steps and the found stepsize are not the same") else: steps = traj_list[1] - traj_list[0] configlist.append([tr // steps // dtr_cnfg for tr in traj_list]) if configlist[-1][0] > 1: offset = configlist[-1][0] - 1 warnings.warn('Assume thermalization and that the first measurement belongs to the first config. Offset = %d configs (%d trajectories / cycles)' % ( offset, offset * steps)) configlist[-1] = [item - offset for item in configlist[-1]] if r_start[rep] is None: r_start_index.append(0) else: try: r_start_index.append(configlist[-1].index(r_start[rep])) except ValueError: raise Exception('Config %d not in file with range [%d, %d]' % ( r_start[rep], configlist[-1][0], configlist[-1][-1])) from None if r_stop[rep] is None: r_stop_index.append(len(configlist[-1]) - 1) else: try: r_stop_index.append(configlist[-1].index(r_stop[rep])) except ValueError: raise Exception('Config %d not in file with range [%d, %d]' % ( r_stop[rep], configlist[-1][0], configlist[-1][-1])) from None if version in ['sfqcd']: cstepsize = cmax / ncs index_aim = round(c / cstepsize) else: t_aim = (c * L) ** 2 / 8 index_aim = round(t_aim / eps / dn) Q_sum = [] for i, item in enumerate(Q): Q_sum.append([sum(item[current:current + tmax]) for current in range(0, len(item), tmax)]) Q_top = [] if version in ['sfqcd']: for i in range(len(Q_sum) // (ncs + 1)): Q_top.append(Q_sum[i * (ncs + 1) + index_aim][0]) else: for i in range(len(Q) // dtr_cnfg): Q_top.append(Q_sum[dtr_cnfg * i][index_aim]) if len(Q_top) != len(traj_list) // dtr_cnfg: raise Exception("qtops and traj_list dont have the same length") if kwargs.get('integer_charge', False): Q_top = [round(q) for q in Q_top] truncated_file = file[:-len(postfix)] if "names" not in kwargs: try: idx = truncated_file.index('r') except Exception: if "names" not in kwargs: raise Exception("Automatic recognition of replicum failed, please enter the key word 'names'.") ens_name = truncated_file[:idx] rep_names.append(ens_name + '|' + truncated_file[idx:]) else: names = kwargs.get("names") rep_names = names deltas.append(Q_top) idl = [range(int(configlist[rep][r_start_index[rep]]), int(configlist[rep][r_stop_index[rep]]) + 1, 1) for rep in range(len(deltas))] deltas = [deltas[nrep][r_start_index[nrep]:r_stop_index[nrep] + 1] for nrep in range(len(deltas))] result = Obs(deltas, rep_names, idl=idl) return result def qtop_projection(qtop, target=0): """Returns the projection to the topological charge sector defined by target. Parameters ---------- path : Obs Topological charge. target : int Specifies the topological sector to be reweighted to (default 0) """ if qtop.reweighted: raise Exception('You can not use a reweighted observable for reweighting!') proj_qtop = [] for n in qtop.deltas: proj_qtop.append(np.array([1 if round(qtop.value + q) == target else 0 for q in qtop.deltas[n]])) reto = Obs(proj_qtop, qtop.names, idl=[qtop.idl[name] for name in qtop.names]) reto.is_merged = qtop.is_merged return reto def read_qtop_sector(path, prefix, c, target=0, **kwargs): """Constructs reweighting factors to a specified topological sector. Parameters ---------- path : str path of the measurement files prefix : str prefix of the measurement files, e.g. <prefix>_id0_r0.ms.dat c : double Smearing radius in units of the lattice extent, c = sqrt(8 t0) / L target : int Specifies the topological sector to be reweighted to (default 0) dtr_cnfg : int (optional) parameter that specifies the number of trajectories between two configs. if it is not set, the distance between two measurements in the file is assumed to be the distance between two configurations. steps : int (optional) Distance between two configurations in units of trajectories / cycles. Assumed to be the distance between two measurements * dtr_cnfg if not given version : str version string of the openQCD (sfqcd) version used to create the ensemble. Default is 2.0. May also be set to sfqcd. L : int spatial length of the lattice in L/a. HAS to be set if version != sfqcd, since openQCD does not provide this in the header r_start : list offset of the first ensemble, making it easier to match later on with other Obs r_stop : list last configurations that need to be read (per replicum) files : list specify the exact files that need to be read from path, practical if e.g. only one replicum is needed names : list Alternative labeling for replicas/ensembles. Has to have the appropriate length Zeuthen_flow : bool (optional) If True, the Zeuthen flow is used for Qtop. Only possible for version=='sfqcd' If False, the Wilson flow is used. """ if not isinstance(target, int): raise Exception("'target' has to be an integer.") kwargs['integer_charge'] = True qtop = read_qtop(path, prefix, c, **kwargs) return qtop_projection(qtop, target=target)
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def read_rwms(path, prefix, version='2.0', names=None, **kwargs): """Read rwms format from given folder structure. Returns a list of length nrw Parameters ---------- path : str path that contains the data files prefix : str all files in path that start with prefix are considered as input files. May be used together postfix to consider only special file endings. Prefix is ignored, if the keyword 'files' is used. version : str version of openQCD, default 2.0 names : list list of names that is assigned to the data according according to the order in the file list. Use careful, if you do not provide file names! r_start : list list which contains the first config to be read for each replicum r_stop : list list which contains the last config to be read for each replicum r_step : int integer that defines a fixed step size between two measurements (in units of configs) If not given, r_step=1 is assumed. postfix : str postfix of the file to read, e.g. '.ms1' for openQCD-files files : list list which contains the filenames to be read. No automatic detection of files performed if given. print_err : bool Print additional information that is useful for debugging. """ known_oqcd_versions = ['1.4', '1.6', '2.0'] if not (version in known_oqcd_versions): raise Exception('Unknown openQCD version defined!') print("Working with openQCD version " + version) if 'postfix' in kwargs: postfix = kwargs.get('postfix') else: postfix = '' ls = [] for (dirpath, dirnames, filenames) in os.walk(path): ls.extend(filenames) break if not ls: raise Exception('Error, directory not found') if 'files' in kwargs: ls = kwargs.get('files') else: for exc in ls: if not fnmatch.fnmatch(exc, prefix + '*' + postfix + '.dat'): ls = list(set(ls) - set([exc])) if len(ls) > 1: ls.sort(key=lambda x: int(re.findall(r'\d+', x[len(prefix):])[0])) replica = len(ls) if 'r_start' in kwargs: r_start = kwargs.get('r_start') if len(r_start) != replica: raise Exception('r_start does not match number of replicas') r_start = [o if o else None for o in r_start] else: r_start = [None] * replica if 'r_stop' in kwargs: r_stop = kwargs.get('r_stop') if len(r_stop) != replica: raise Exception('r_stop does not match number of replicas') else: r_stop = [None] * replica if 'r_step' in kwargs: r_step = kwargs.get('r_step') else: r_step = 1 print('Read reweighting factors from', prefix[:-1], ',', replica, 'replica', end='') if names is None: rep_names = [] for entry in ls: truncated_entry = entry.split('.')[0] idx = truncated_entry.index('r') rep_names.append(truncated_entry[:idx] + '|' + truncated_entry[idx:]) else: rep_names = names print_err = 0 if 'print_err' in kwargs: print_err = 1 print() deltas = [] configlist = [] r_start_index = [] r_stop_index = [] for rep in range(replica): tmp_array = [] with open(path + '/' + ls[rep], 'rb') as fp: t = fp.read(4) # number of reweighting factors if rep == 0: nrw = struct.unpack('i', t)[0] if version == '2.0': nrw = int(nrw / 2) for k in range(nrw): deltas.append([]) else: if ((nrw != struct.unpack('i', t)[0] and (not version == '2.0')) or (nrw != struct.unpack('i', t)[0] / 2 and version == '2.0')): raise Exception('Error: different number of reweighting factors for replicum', rep) for k in range(nrw): tmp_array.append([]) # This block is necessary for openQCD1.6 and openQCD2.0 ms1 files nfct = [] if version in ['1.6', '2.0']: for i in range(nrw): t = fp.read(4) nfct.append(struct.unpack('i', t)[0]) else: for i in range(nrw): nfct.append(1) nsrc = [] for i in range(nrw): t = fp.read(4) nsrc.append(struct.unpack('i', t)[0]) if version == '2.0': if not struct.unpack('i', fp.read(4))[0] == 0: print('something is wrong!') configlist.append([]) while 0 < 1: t = fp.read(4) if len(t) < 4: break config_no = struct.unpack('i', t)[0] configlist[-1].append(config_no) for i in range(nrw): if(version == '2.0'): tmpd = _read_array_openQCD2(fp) tmpd = _read_array_openQCD2(fp) tmp_rw = tmpd['arr'] tmp_nfct = 1.0 for j in range(tmpd['n'][0]): tmp_nfct *= np.mean(np.exp(-np.asarray(tmp_rw[j]))) if print_err: print(config_no, i, j, np.mean(np.exp(-np.asarray(tmp_rw[j]))), np.std(np.exp(-np.asarray(tmp_rw[j])))) print('Sources:', np.exp(-np.asarray(tmp_rw[j]))) print('Partial factor:', tmp_nfct) elif version == '1.6' or version == '1.4': tmp_nfct = 1.0 for j in range(nfct[i]): t = fp.read(8 * nsrc[i]) t = fp.read(8 * nsrc[i]) tmp_rw = struct.unpack('d' * nsrc[i], t) tmp_nfct *= np.mean(np.exp(-np.asarray(tmp_rw))) if print_err: print(config_no, i, j, np.mean(np.exp(-np.asarray(tmp_rw))), np.std(np.exp(-np.asarray(tmp_rw)))) print('Sources:', np.exp(-np.asarray(tmp_rw))) print('Partial factor:', tmp_nfct) tmp_array[i].append(tmp_nfct) diffmeas = configlist[-1][-1] - configlist[-1][-2] configlist[-1] = [item // diffmeas for item in configlist[-1]] if configlist[-1][0] > 1 and diffmeas > 1: warnings.warn('Assume thermalization and that the first measurement belongs to the first config.') offset = configlist[-1][0] - 1 configlist[-1] = [item - offset for item in configlist[-1]] if r_start[rep] is None: r_start_index.append(0) else: try: r_start_index.append(configlist[-1].index(r_start[rep])) except ValueError: raise Exception('Config %d not in file with range [%d, %d]' % ( r_start[rep], configlist[-1][0], configlist[-1][-1])) from None if r_stop[rep] is None: r_stop_index.append(len(configlist[-1]) - 1) else: try: r_stop_index.append(configlist[-1].index(r_stop[rep])) except ValueError: raise Exception('Config %d not in file with range [%d, %d]' % ( r_stop[rep], configlist[-1][0], configlist[-1][-1])) from None for k in range(nrw): deltas[k].append(tmp_array[k][r_start_index[rep]:r_stop_index[rep] + 1][::r_step]) if np.any([len(np.unique(np.diff(cl))) != 1 for cl in configlist]): raise Exception('Irregular spaced data in input file!', [len(np.unique(np.diff(cl))) for cl in configlist]) stepsizes = [list(np.unique(np.diff(cl)))[0] for cl in configlist] if np.any([step != 1 for step in stepsizes]): warnings.warn('Stepsize between configurations is greater than one!' + str(stepsizes), RuntimeWarning) print(',', nrw, 'reweighting factors with', nsrc, 'sources') result = [] idl = [range(configlist[rep][r_start_index[rep]], configlist[rep][r_stop_index[rep]] + 1, r_step) for rep in range(replica)] for t in range(nrw): result.append(Obs(deltas[t], rep_names, idl=idl)) return result
Read rwms format from given folder structure. Returns a list of length nrw
Parameters
- path (str): path that contains the data files
- prefix (str): all files in path that start with prefix are considered as input files. May be used together postfix to consider only special file endings. Prefix is ignored, if the keyword 'files' is used.
- version (str): version of openQCD, default 2.0
- names (list): list of names that is assigned to the data according according to the order in the file list. Use careful, if you do not provide file names!
- r_start (list): list which contains the first config to be read for each replicum
- r_stop (list): list which contains the last config to be read for each replicum
- r_step (int): integer that defines a fixed step size between two measurements (in units of configs) If not given, r_step=1 is assumed.
- postfix (str): postfix of the file to read, e.g. '.ms1' for openQCD-files
- files (list): list which contains the filenames to be read. No automatic detection of files performed if given.
- print_err (bool): Print additional information that is useful for debugging.
View Source
def extract_t0(path, prefix, dtr_read, xmin, spatial_extent, fit_range=5, **kwargs): """Extract t0 from given .ms.dat files. Returns t0 as Obs. It is assumed that all boundary effects have sufficiently decayed at x0=xmin. The data around the zero crossing of t^2<E> - 0.3 is fitted with a linear function from which the exact root is extracted. It is assumed that one measurement is performed for each config. If this is not the case, the resulting idl, as well as the handling of r_start, r_stop and r_step is wrong and the user has to correct this in the resulting observable. Parameters ---------- path : str Path to .ms.dat files prefix : str Ensemble prefix dtr_read : int Determines how many trajectories should be skipped when reading the ms.dat files. Corresponds to dtr_cnfg / dtr_ms in the openQCD input file. xmin : int First timeslice where the boundary effects have sufficiently decayed. spatial_extent : int spatial extent of the lattice, required for normalization. fit_range : int Number of data points left and right of the zero crossing to be included in the linear fit. (Default: 5) r_start : list list which contains the first config to be read for each replicum. r_stop : list list which contains the last config to be read for each replicum. r_step : int integer that defines a fixed step size between two measurements (in units of configs) If not given, r_step=1 is assumed. plaquette : bool If true extract the plaquette estimate of t0 instead. names : list list of names that is assigned to the data according according to the order in the file list. Use careful, if you do not provide file names! files : list list which contains the filenames to be read. No automatic detection of files performed if given. plot_fit : bool If true, the fit for the extraction of t0 is shown together with the data. assume_thermalization : bool If True: If the first record divided by the distance between two measurements is larger than 1, it is assumed that this is due to thermalization and the first measurement belongs to the first config (default). If False: The config numbers are assumed to be traj_number // difference """ ls = [] for (dirpath, dirnames, filenames) in os.walk(path): ls.extend(filenames) break if not ls: raise Exception('Error, directory not found') if 'files' in kwargs: ls = kwargs.get('files') else: for exc in ls: if not fnmatch.fnmatch(exc, prefix + '*.ms.dat'): ls = list(set(ls) - set([exc])) if len(ls) > 1: ls.sort(key=lambda x: int(re.findall(r'\d+', x[len(prefix):])[0])) replica = len(ls) if 'r_start' in kwargs: r_start = kwargs.get('r_start') if len(r_start) != replica: raise Exception('r_start does not match number of replicas') r_start = [o if o else None for o in r_start] else: r_start = [None] * replica if 'r_stop' in kwargs: r_stop = kwargs.get('r_stop') if len(r_stop) != replica: raise Exception('r_stop does not match number of replicas') else: r_stop = [None] * replica if 'r_step' in kwargs: r_step = kwargs.get('r_step') else: r_step = 1 print('Extract t0 from', prefix, ',', replica, 'replica') if 'names' in kwargs: rep_names = kwargs.get('names') else: rep_names = [] for entry in ls: truncated_entry = entry.split('.')[0] idx = truncated_entry.index('r') rep_names.append(truncated_entry[:idx] + '|' + truncated_entry[idx:]) Ysum = [] configlist = [] r_start_index = [] r_stop_index = [] for rep in range(replica): with open(path + '/' + ls[rep], 'rb') as fp: t = fp.read(12) header = struct.unpack('iii', t) if rep == 0: dn = header[0] nn = header[1] tmax = header[2] elif dn != header[0] or nn != header[1] or tmax != header[2]: raise Exception('Replica parameters do not match.') t = fp.read(8) if rep == 0: eps = struct.unpack('d', t)[0] print('Step size:', eps, ', Maximal t value:', dn * (nn) * eps) elif eps != struct.unpack('d', t)[0]: raise Exception('Values for eps do not match among replica.') Ysl = [] configlist.append([]) while 0 < 1: t = fp.read(4) if(len(t) < 4): break nc = struct.unpack('i', t)[0] configlist[-1].append(nc) t = fp.read(8 * tmax * (nn + 1)) if kwargs.get('plaquette'): if nc % dtr_read == 0: Ysl.append(struct.unpack('d' * tmax * (nn + 1), t)) t = fp.read(8 * tmax * (nn + 1)) if not kwargs.get('plaquette'): if nc % dtr_read == 0: Ysl.append(struct.unpack('d' * tmax * (nn + 1), t)) t = fp.read(8 * tmax * (nn + 1)) Ysum.append([]) for i, item in enumerate(Ysl): Ysum[-1].append([np.mean(item[current + xmin: current + tmax - xmin]) for current in range(0, len(item), tmax)]) diffmeas = configlist[-1][-1] - configlist[-1][-2] configlist[-1] = [item // diffmeas for item in configlist[-1]] if kwargs.get('assume_thermalization', True) and configlist[-1][0] > 1: warnings.warn('Assume thermalization and that the first measurement belongs to the first config.') offset = configlist[-1][0] - 1 configlist[-1] = [item - offset for item in configlist[-1]] if r_start[rep] is None: r_start_index.append(0) else: try: r_start_index.append(configlist[-1].index(r_start[rep])) except ValueError: raise Exception('Config %d not in file with range [%d, %d]' % ( r_start[rep], configlist[-1][0], configlist[-1][-1])) from None if r_stop[rep] is None: r_stop_index.append(len(configlist[-1]) - 1) else: try: r_stop_index.append(configlist[-1].index(r_stop[rep])) except ValueError: raise Exception('Config %d not in file with range [%d, %d]' % ( r_stop[rep], configlist[-1][0], configlist[-1][-1])) from None if np.any([len(np.unique(np.diff(cl))) != 1 for cl in configlist]): raise Exception('Irregular spaced data in input file!', [len(np.unique(np.diff(cl))) for cl in configlist]) stepsizes = [list(np.unique(np.diff(cl)))[0] for cl in configlist] if np.any([step != 1 for step in stepsizes]): warnings.warn('Stepsize between configurations is greater than one!' + str(stepsizes), RuntimeWarning) idl = [range(configlist[rep][r_start_index[rep]], configlist[rep][r_stop_index[rep]] + 1, r_step) for rep in range(replica)] t2E_dict = {} for n in range(nn + 1): samples = [] for nrep, rep in enumerate(Ysum): samples.append([]) for cnfg in rep: samples[-1].append(cnfg[n]) samples[-1] = samples[-1][r_start_index[nrep]:r_stop_index[nrep] + 1][::r_step] new_obs = Obs(samples, rep_names, idl=idl) t2E_dict[n * dn * eps] = (n * dn * eps) ** 2 * new_obs / (spatial_extent ** 3) - 0.3 zero_crossing = np.argmax(np.array( [o.value for o in t2E_dict.values()]) > 0.0) x = list(t2E_dict.keys())[zero_crossing - fit_range: zero_crossing + fit_range] y = list(t2E_dict.values())[zero_crossing - fit_range: zero_crossing + fit_range] [o.gamma_method() for o in y] fit_result = fit_lin(x, y) if kwargs.get('plot_fit'): plt.figure() gs = gridspec.GridSpec(2, 1, height_ratios=[3, 1], wspace=0.0, hspace=0.0) ax0 = plt.subplot(gs[0]) xmore = list(t2E_dict.keys())[zero_crossing - fit_range - 2: zero_crossing + fit_range + 2] ymore = list(t2E_dict.values())[zero_crossing - fit_range - 2: zero_crossing + fit_range + 2] [o.gamma_method() for o in ymore] ax0.errorbar(xmore, [yi.value for yi in ymore], yerr=[yi.dvalue for yi in ymore], fmt='x') xplot = np.linspace(np.min(x), np.max(x)) yplot = [fit_result[0] + fit_result[1] * xi for xi in xplot] [yi.gamma_method() for yi in yplot] ax0.fill_between(xplot, y1=[yi.value - yi.dvalue for yi in yplot], y2=[yi.value + yi.dvalue for yi in yplot]) retval = (-fit_result[0] / fit_result[1]) retval.gamma_method() ylim = ax0.get_ylim() ax0.fill_betweenx(ylim, x1=retval.value - retval.dvalue, x2=retval.value + retval.dvalue, color='gray', alpha=0.4) ax0.set_ylim(ylim) ax0.set_ylabel(r'$t^2 \langle E(t) \rangle - 0.3 $') xlim = ax0.get_xlim() fit_res = [fit_result[0] + fit_result[1] * xi for xi in x] residuals = (np.asarray([o.value for o in y]) - [o.value for o in fit_res]) / np.asarray([o.dvalue for o in y]) ax1 = plt.subplot(gs[1]) ax1.plot(x, residuals, 'ko', ls='none', markersize=5) ax1.tick_params(direction='out') ax1.tick_params(axis="x", bottom=True, top=True, labelbottom=True) ax1.axhline(y=0.0, ls='--', color='k') ax1.fill_between(xlim, -1.0, 1.0, alpha=0.1, facecolor='k') ax1.set_xlim(xlim) ax1.set_ylabel('Residuals') ax1.set_xlabel(r'$t/a^2$') plt.draw() return -fit_result[0] / fit_result[1]
Extract t0 from given .ms.dat files. Returns t0 as Obs.
It is assumed that all boundary effects have
sufficiently decayed at x0=xmin.
The data around the zero crossing of t^2
It is assumed that one measurement is performed for each config. If this is not the case, the resulting idl, as well as the handling of r_start, r_stop and r_step is wrong and the user has to correct this in the resulting observable.
Parameters
- path (str): Path to .ms.dat files
- prefix (str): Ensemble prefix
- dtr_read (int): Determines how many trajectories should be skipped when reading the ms.dat files. Corresponds to dtr_cnfg / dtr_ms in the openQCD input file.
- xmin (int): First timeslice where the boundary effects have sufficiently decayed.
- spatial_extent (int): spatial extent of the lattice, required for normalization.
- fit_range (int): Number of data points left and right of the zero crossing to be included in the linear fit. (Default: 5)
- r_start (list): list which contains the first config to be read for each replicum.
- r_stop (list): list which contains the last config to be read for each replicum.
- r_step (int): integer that defines a fixed step size between two measurements (in units of configs) If not given, r_step=1 is assumed.
- plaquette (bool): If true extract the plaquette estimate of t0 instead.
- names (list): list of names that is assigned to the data according according to the order in the file list. Use careful, if you do not provide file names!
- files (list): list which contains the filenames to be read. No automatic detection of files performed if given.
- plot_fit (bool): If true, the fit for the extraction of t0 is shown together with the data.
- assume_thermalization (bool): If True: If the first record divided by the distance between two measurements is larger than 1, it is assumed that this is due to thermalization and the first measurement belongs to the first config (default). If False: The config numbers are assumed to be traj_number // difference
View Source
def read_qtop(path, prefix, c, dtr_cnfg=1, version="openQCD", **kwargs): """Read the topologial charge based on openQCD gradient flow measurements. Parameters ---------- path : str path of the measurement files prefix : str prefix of the measurement files, e.g. <prefix>_id0_r0.ms.dat. Ignored if file names are passed explicitly via keyword files. c : double Smearing radius in units of the lattice extent, c = sqrt(8 t0) / L. dtr_cnfg : int (optional) parameter that specifies the number of measurements between two configs. If it is not set, the distance between two measurements in the file is assumed to be the distance between two configurations. steps : int (optional) Distance between two configurations in units of trajectories / cycles. Assumed to be the distance between two measurements * dtr_cnfg if not given version : str Either openQCD or sfqcd, depending on the data. L : int spatial length of the lattice in L/a. HAS to be set if version != sfqcd, since openQCD does not provide this in the header r_start : list list which contains the first config to be read for each replicum. r_stop : list list which contains the last config to be read for each replicum. files : list specify the exact files that need to be read from path, practical if e.g. only one replicum is needed names : list Alternative labeling for replicas/ensembles. Has to have the appropriate length. Zeuthen_flow : bool (optional) If True, the Zeuthen flow is used for Qtop. Only possible for version=='sfqcd' If False, the Wilson flow is used. integer_charge : bool If True, the charge is rounded towards the nearest integer on each config. """ known_versions = ["openQCD", "sfqcd"] if version not in known_versions: raise Exception("Unknown openQCD version.") if "steps" in kwargs: steps = kwargs.get("steps") if version == "sfqcd": if "L" in kwargs: supposed_L = kwargs.get("L") else: supposed_L = None postfix = ".gfms.dat" else: if "L" not in kwargs: raise Exception("This version of openQCD needs you to provide the spatial length of the lattice as parameter 'L'.") else: L = kwargs.get("L") postfix = ".ms.dat" if "files" in kwargs: files = kwargs.get("files") postfix = '' else: found = [] files = [] for (dirpath, dirnames, filenames) in os.walk(path + "/"): found.extend(filenames) break for f in found: if fnmatch.fnmatch(f, prefix + "*" + postfix): files.append(f) if 'r_start' in kwargs: r_start = kwargs.get('r_start') if len(r_start) != len(files): raise Exception('r_start does not match number of replicas') r_start = [o if o else None for o in r_start] else: r_start = [None] * len(files) if 'r_stop' in kwargs: r_stop = kwargs.get('r_stop') if len(r_stop) != len(files): raise Exception('r_stop does not match number of replicas') else: r_stop = [None] * len(files) rep_names = [] zeuthen = kwargs.get('Zeuthen_flow', False) if zeuthen and version not in ['sfqcd']: raise Exception('Zeuthen flow can only be used for version==sfqcd') r_start_index = [] r_stop_index = [] deltas = [] configlist = [] for rep, file in enumerate(files): with open(path + "/" + file, "rb") as fp: Q = [] traj_list = [] if version in ['sfqcd']: if zeuthen: obspos = 0 else: obspos = 8 t = fp.read(12) header = struct.unpack('<iii', t) zthfl = header[0] # Zeuthen flow -> if it's equal to 2 it means that the Zeuthen flow is also 'measured' (apart from the Wilson flow) ncs = header[1] # number of different values for c in t_flow=1/8 c² L² -> measurements done for ncs c's tmax = header[2] # lattice T/a t = fp.read(12) Ls = struct.unpack('<iii', t) if(Ls[0] == Ls[1] and Ls[1] == Ls[2]): L = Ls[0] if not (supposed_L == L) and supposed_L: raise Exception("It seems the length given in the header and by you contradict each other") else: raise Exception("Found more than one spatial length in header!") t = fp.read(16) header2 = struct.unpack('<dd', t) tol = header2[0] cmax = header2[1] # highest value of c used if c > cmax: raise Exception('Flow has been determined between c=0 and c=%lf with tolerance %lf' % (cmax, tol)) if(zthfl == 2): nfl = 2 # number of flows else: nfl = 1 iobs = 8 * nfl # number of flow observables calculated while 0 < 1: t = fp.read(4) if(len(t) < 4): break traj_list.append(struct.unpack('i', t)[0]) # trajectory number when measurement was done for j in range(ncs + 1): for i in range(iobs): t = fp.read(8 * tmax) if (i == obspos): # determines the flow observable -> i=0 <-> Zeuthen flow Q.append(struct.unpack('d' * tmax, t)) else: t = fp.read(12) header = struct.unpack('<iii', t) # step size in integration steps "dnms" dn = header[0] # number of measurements, so "ntot"/dn nn = header[1] # lattice T/a tmax = header[2] t = fp.read(8) eps = struct.unpack('d', t)[0] while 0 < 1: t = fp.read(4) if(len(t) < 4): break traj_list.append(struct.unpack('i', t)[0]) # Wsl t = fp.read(8 * tmax * (nn + 1)) # Ysl t = fp.read(8 * tmax * (nn + 1)) # Qsl, which is asked for in this method t = fp.read(8 * tmax * (nn + 1)) # unpack the array of Qtops, # on each timeslice t=0,...,tmax-1 and the # measurement number in = 0...nn (see README.qcd1) tmpd = struct.unpack('d' * tmax * (nn + 1), t) Q.append(tmpd) if len(np.unique(np.diff(traj_list))) != 1: raise Exception("Irregularities in stepsize found") else: if 'steps' in kwargs: if steps != traj_list[1] - traj_list[0]: raise Exception("steps and the found stepsize are not the same") else: steps = traj_list[1] - traj_list[0] configlist.append([tr // steps // dtr_cnfg for tr in traj_list]) if configlist[-1][0] > 1: offset = configlist[-1][0] - 1 warnings.warn('Assume thermalization and that the first measurement belongs to the first config. Offset = %d configs (%d trajectories / cycles)' % ( offset, offset * steps)) configlist[-1] = [item - offset for item in configlist[-1]] if r_start[rep] is None: r_start_index.append(0) else: try: r_start_index.append(configlist[-1].index(r_start[rep])) except ValueError: raise Exception('Config %d not in file with range [%d, %d]' % ( r_start[rep], configlist[-1][0], configlist[-1][-1])) from None if r_stop[rep] is None: r_stop_index.append(len(configlist[-1]) - 1) else: try: r_stop_index.append(configlist[-1].index(r_stop[rep])) except ValueError: raise Exception('Config %d not in file with range [%d, %d]' % ( r_stop[rep], configlist[-1][0], configlist[-1][-1])) from None if version in ['sfqcd']: cstepsize = cmax / ncs index_aim = round(c / cstepsize) else: t_aim = (c * L) ** 2 / 8 index_aim = round(t_aim / eps / dn) Q_sum = [] for i, item in enumerate(Q): Q_sum.append([sum(item[current:current + tmax]) for current in range(0, len(item), tmax)]) Q_top = [] if version in ['sfqcd']: for i in range(len(Q_sum) // (ncs + 1)): Q_top.append(Q_sum[i * (ncs + 1) + index_aim][0]) else: for i in range(len(Q) // dtr_cnfg): Q_top.append(Q_sum[dtr_cnfg * i][index_aim]) if len(Q_top) != len(traj_list) // dtr_cnfg: raise Exception("qtops and traj_list dont have the same length") if kwargs.get('integer_charge', False): Q_top = [round(q) for q in Q_top] truncated_file = file[:-len(postfix)] if "names" not in kwargs: try: idx = truncated_file.index('r') except Exception: if "names" not in kwargs: raise Exception("Automatic recognition of replicum failed, please enter the key word 'names'.") ens_name = truncated_file[:idx] rep_names.append(ens_name + '|' + truncated_file[idx:]) else: names = kwargs.get("names") rep_names = names deltas.append(Q_top) idl = [range(int(configlist[rep][r_start_index[rep]]), int(configlist[rep][r_stop_index[rep]]) + 1, 1) for rep in range(len(deltas))] deltas = [deltas[nrep][r_start_index[nrep]:r_stop_index[nrep] + 1] for nrep in range(len(deltas))] result = Obs(deltas, rep_names, idl=idl) return result
Read the topologial charge based on openQCD gradient flow measurements.
Parameters
- path (str): path of the measurement files
- prefix (str):
prefix of the measurement files, e.g.
_id0_r0.ms.dat. Ignored if file names are passed explicitly via keyword files. - c (double): Smearing radius in units of the lattice extent, c = sqrt(8 t0) / L.
- dtr_cnfg (int): (optional) parameter that specifies the number of measurements between two configs. If it is not set, the distance between two measurements in the file is assumed to be the distance between two configurations.
- steps (int): (optional) Distance between two configurations in units of trajectories / cycles. Assumed to be the distance between two measurements * dtr_cnfg if not given
- version (str): Either openQCD or sfqcd, depending on the data.
- L (int): spatial length of the lattice in L/a. HAS to be set if version != sfqcd, since openQCD does not provide this in the header
- r_start (list): list which contains the first config to be read for each replicum.
- r_stop (list): list which contains the last config to be read for each replicum.
- files (list): specify the exact files that need to be read from path, practical if e.g. only one replicum is needed
- names (list): Alternative labeling for replicas/ensembles. Has to have the appropriate length.
- Zeuthen_flow (bool): (optional) If True, the Zeuthen flow is used for Qtop. Only possible for version=='sfqcd' If False, the Wilson flow is used.
- integer_charge (bool): If True, the charge is rounded towards the nearest integer on each config.
View Source
def qtop_projection(qtop, target=0): """Returns the projection to the topological charge sector defined by target. Parameters ---------- path : Obs Topological charge. target : int Specifies the topological sector to be reweighted to (default 0) """ if qtop.reweighted: raise Exception('You can not use a reweighted observable for reweighting!') proj_qtop = [] for n in qtop.deltas: proj_qtop.append(np.array([1 if round(qtop.value + q) == target else 0 for q in qtop.deltas[n]])) reto = Obs(proj_qtop, qtop.names, idl=[qtop.idl[name] for name in qtop.names]) reto.is_merged = qtop.is_merged return reto
Returns the projection to the topological charge sector defined by target.
Parameters
- path (Obs): Topological charge.
- target (int): Specifies the topological sector to be reweighted to (default 0)
View Source
def read_qtop_sector(path, prefix, c, target=0, **kwargs): """Constructs reweighting factors to a specified topological sector. Parameters ---------- path : str path of the measurement files prefix : str prefix of the measurement files, e.g. <prefix>_id0_r0.ms.dat c : double Smearing radius in units of the lattice extent, c = sqrt(8 t0) / L target : int Specifies the topological sector to be reweighted to (default 0) dtr_cnfg : int (optional) parameter that specifies the number of trajectories between two configs. if it is not set, the distance between two measurements in the file is assumed to be the distance between two configurations. steps : int (optional) Distance between two configurations in units of trajectories / cycles. Assumed to be the distance between two measurements * dtr_cnfg if not given version : str version string of the openQCD (sfqcd) version used to create the ensemble. Default is 2.0. May also be set to sfqcd. L : int spatial length of the lattice in L/a. HAS to be set if version != sfqcd, since openQCD does not provide this in the header r_start : list offset of the first ensemble, making it easier to match later on with other Obs r_stop : list last configurations that need to be read (per replicum) files : list specify the exact files that need to be read from path, practical if e.g. only one replicum is needed names : list Alternative labeling for replicas/ensembles. Has to have the appropriate length Zeuthen_flow : bool (optional) If True, the Zeuthen flow is used for Qtop. Only possible for version=='sfqcd' If False, the Wilson flow is used. """ if not isinstance(target, int): raise Exception("'target' has to be an integer.") kwargs['integer_charge'] = True qtop = read_qtop(path, prefix, c, **kwargs) return qtop_projection(qtop, target=target)
Constructs reweighting factors to a specified topological sector.
Parameters
- path (str): path of the measurement files
- prefix (str):
prefix of the measurement files, e.g.
_id0_r0.ms.dat - c (double): Smearing radius in units of the lattice extent, c = sqrt(8 t0) / L
- target (int): Specifies the topological sector to be reweighted to (default 0)
- dtr_cnfg (int): (optional) parameter that specifies the number of trajectories between two configs. if it is not set, the distance between two measurements in the file is assumed to be the distance between two configurations.
- steps (int): (optional) Distance between two configurations in units of trajectories / cycles. Assumed to be the distance between two measurements * dtr_cnfg if not given
- version (str): version string of the openQCD (sfqcd) version used to create the ensemble. Default is 2.0. May also be set to sfqcd.
- L (int): spatial length of the lattice in L/a. HAS to be set if version != sfqcd, since openQCD does not provide this in the header
- r_start (list): offset of the first ensemble, making it easier to match later on with other Obs
- r_stop (list): last configurations that need to be read (per replicum)
- files (list): specify the exact files that need to be read from path, practical if e.g. only one replicum is needed
- names (list): Alternative labeling for replicas/ensembles. Has to have the appropriate length
- Zeuthen_flow (bool): (optional) If True, the Zeuthen flow is used for Qtop. Only possible for version=='sfqcd' If False, the Wilson flow is used.