""" Benchmark utility functions """ import matplotlib as plt import matplotlib.cm as cmx import matplotlib.colors as pltcolors import matplotlib.pyplot as plt import numpy as np import pandas as pd from checkbox_support.parsers.tests.test_modinfo import testMultipleModinfoParser from mpl_toolkits.mplot3d import Axes3D import numpy as np import pandas as pd from copy import deepcopy from pyFTS.common import Util def extract_measure(dataframe,measure,data_columns): if not dataframe.empty: tmp = dataframe[(dataframe.Measure == measure)][data_columns].to_dict(orient="records")[0] ret = [k for k in tmp.values()] return ret else: return None def find_best(dataframe, criteria, ascending): models = dataframe.Model.unique() orders = dataframe.Order.unique() ret = {} for m in models: for o in orders: mod = {} df = dataframe[(dataframe.Model == m) & (dataframe.Order == o)].sort_values(by=criteria, ascending=ascending) if not df.empty: _key = str(m) + str(o) best = df.loc[df.index[0]] mod['Model'] = m mod['Order'] = o mod['Scheme'] = best["Scheme"] mod['Partitions'] = best["Partitions"] ret[_key] = mod return ret def point_dataframe_synthetic_columns(): return ["Model", "Order", "Scheme", "Partitions", "Size", "RMSEAVG", "RMSESTD", "SMAPEAVG", "SMAPESTD", "UAVG", "USTD", "TIMEAVG", "TIMESTD"] def point_dataframe_analytic_columns(experiments): columns = [str(k) for k in np.arange(0, experiments)] columns.insert(0, "Model") columns.insert(1, "Order") columns.insert(2, "Scheme") columns.insert(3, "Partitions") columns.insert(4, "Size") columns.insert(5, "Measure") return columns def save_dataframe_point(experiments, file, objs, rmse, save, synthetic, smape, times, u): """ Create a dataframe to store the benchmark results :param experiments: dictionary with the execution results :param file: :param objs: :param rmse: :param save: :param synthetic: :param smape: :param times: :param u: :return: """ ret = [] if synthetic: for k in sorted(objs.keys()): try: mod = [] mfts = objs[k] mod.append(mfts.shortname) mod.append(mfts.order) if not mfts.benchmark_only: mod.append(mfts.partitioner.name) mod.append(mfts.partitioner.partitions) mod.append(len(mfts)) else: mod.append('-') mod.append('-') mod.append('-') mod.append(np.round(np.nanmean(rmse[k]), 2)) mod.append(np.round(np.nanstd(rmse[k]), 2)) mod.append(np.round(np.nanmean(smape[k]), 2)) mod.append(np.round(np.nanstd(smape[k]), 2)) mod.append(np.round(np.nanmean(u[k]), 2)) mod.append(np.round(np.nanstd(u[k]), 2)) mod.append(np.round(np.nanmean(times[k]), 4)) mod.append(np.round(np.nanstd(times[k]), 4)) ret.append(mod) except Exception as ex: print("Erro ao salvar ", k) print("Exceção ", ex) columns = point_dataframe_synthetic_columns() else: for k in sorted(objs.keys()): try: mfts = objs[k] n = mfts.shortname o = mfts.order if not mfts.benchmark_only: s = mfts.partitioner.name p = mfts.partitioner.partitions l = len(mfts) else: s = '-' p = '-' l = '-' tmp = [n, o, s, p, l, 'RMSE'] tmp.extend(rmse[k]) ret.append(deepcopy(tmp)) tmp = [n, o, s, p, l, 'SMAPE'] tmp.extend(smape[k]) ret.append(deepcopy(tmp)) tmp = [n, o, s, p, l, 'U'] tmp.extend(u[k]) ret.append(deepcopy(tmp)) tmp = [n, o, s, p, l, 'TIME'] tmp.extend(times[k]) ret.append(deepcopy(tmp)) except Exception as ex: print("Erro ao salvar ", k) print("Exceção ", ex) columns = point_dataframe_analytic_columns(experiments) try: dat = pd.DataFrame(ret, columns=columns) if save: dat.to_csv(Util.uniquefilename(file), sep=";", index=False) return dat except Exception as ex: print(ex) print(experiments) print(columns) print(ret) def cast_dataframe_to_synthetic_point(infile, outfile, experiments): columns = point_dataframe_analytic_columns(experiments) dat = pd.read_csv(infile, sep=";", usecols=columns) models = dat.Model.unique() orders = dat.Order.unique() schemes = dat.Scheme.unique() partitions = dat.Partitions.unique() data_columns = analytical_data_columns(experiments) ret = [] for m in models: for o in orders: for s in schemes: for p in partitions: mod = [] df = dat[(dat.Model == m) & (dat.Order == o) & (dat.Scheme == s) & (dat.Partitions == p)] if not df.empty: rmse = extract_measure(df, 'RMSE', data_columns) smape = extract_measure(df, 'SMAPE', data_columns) u = extract_measure(df, 'U', data_columns) times = extract_measure(df, 'TIME', data_columns) mod.append(m) mod.append(o) mod.append(s) mod.append(p) mod.append(extract_measure(df, 'RMSE', ['Size'])[0]) mod.append(np.round(np.nanmean(rmse), 2)) mod.append(np.round(np.nanstd(rmse), 2)) mod.append(np.round(np.nanmean(smape), 2)) mod.append(np.round(np.nanstd(smape), 2)) mod.append(np.round(np.nanmean(u), 2)) mod.append(np.round(np.nanstd(u), 2)) mod.append(np.round(np.nanmean(times), 4)) mod.append(np.round(np.nanstd(times), 4)) ret.append(mod) dat = pd.DataFrame(ret, columns=point_dataframe_synthetic_columns()) dat.to_csv(Util.uniquefilename(outfile), sep=";", index=False) def analytical_data_columns(experiments): data_columns = [str(k) for k in np.arange(0, experiments)] return data_columns def plot_dataframe_point(file_synthetic, file_analytic, experiments, tam): fig, axes = plt.subplots(nrows=4, ncols=1, figsize=tam) axes[0].set_title('RMSE') axes[1].set_title('SMAPE') axes[2].set_title('U Statistic') axes[3].set_title('Execution Time') dat_syn = pd.read_csv(file_synthetic, sep=";", usecols=point_dataframe_synthetic_columns()) bests = find_best(dat_syn, ['UAVG','RMSEAVG','USTD','RMSESTD'], [1,1,1,1]) dat_ana = pd.read_csv(file_analytic, sep=";", usecols=point_dataframe_analytic_columns(experiments)) data_columns = analytical_data_columns(experiments) rmse = [] smape = [] u = [] times = [] labels = [] for b in sorted(bests.keys()): best = bests[b] tmp = dat_ana[(dat_ana.Model == best["Model"]) & (dat_ana.Order == best["Order"]) & (dat_ana.Scheme == best["Scheme"]) & (dat_ana.Partitions == best["Partitions"])] rmse.append( extract_measure(tmp,'RMSE',data_columns) ) smape.append(extract_measure(tmp, 'SMAPE', data_columns)) u.append(extract_measure(tmp, 'U', data_columns)) times.append(extract_measure(tmp, 'TIME', data_columns)) labels.append(best["Model"] + " " + str(best["Order"])) axes[0].boxplot(rmse, labels=labels, showmeans=True) axes[1].boxplot(smape, labels=labels, showmeans=True) axes[2].boxplot(u, labels=labels, showmeans=True) axes[3].boxplot(times, labels=labels, showmeans=True) plt.show() def save_dataframe_interval(coverage, experiments, file, objs, resolution, save, sharpness, synthetic, times): ret = [] if synthetic: for k in sorted(objs.keys()): mod = [] mfts = objs[k] mod.append(mfts.shortname) mod.append(mfts.order) if not mfts.benchmark_only: mod.append(mfts.partitioner.name) mod.append(mfts.partitioner.partitions) l = len(mfts) else: mod.append('-') mod.append('-') l = '-' mod.append(round(np.nanmean(sharpness[k]), 2)) mod.append(round(np.nanstd(sharpness[k]), 2)) mod.append(round(np.nanmean(resolution[k]), 2)) mod.append(round(np.nanstd(resolution[k]), 2)) mod.append(round(np.nanmean(coverage[k]), 2)) mod.append(round(np.nanstd(coverage[k]), 2)) mod.append(round(np.nanmean(times[k]), 2)) mod.append(round(np.nanstd(times[k]), 2)) mod.append(l) ret.append(mod) columns = interval_dataframe_synthetic_columns() else: for k in sorted(objs.keys()): try: mfts = objs[k] n = mfts.shortname o = mfts.order if not mfts.benchmark_only: s = mfts.partitioner.name p = mfts.partitioner.partitions l = len(mfts) else: s = '-' p = '-' l = '-' tmp = [n, o, s, p, l, 'Sharpness'] tmp.extend(sharpness[k]) ret.append(deepcopy(tmp)) tmp = [n, o, s, p, l, 'Resolution'] tmp.extend(resolution[k]) ret.append(deepcopy(tmp)) tmp = [n, o, s, p, l, 'Coverage'] tmp.extend(coverage[k]) ret.append(deepcopy(tmp)) tmp = [n, o, s, p, l, 'TIME'] tmp.extend(times[k]) ret.append(deepcopy(tmp)) except Exception as ex: print("Erro ao salvar ", k) print("Exceção ", ex) columns = interval_dataframe_analytic_columns(experiments) dat = pd.DataFrame(ret, columns=columns) if save: dat.to_csv(Util.uniquefilename(file), sep=";") return dat def interval_dataframe_analytic_columns(experiments): columns = [str(k) for k in np.arange(0, experiments)] columns.insert(0, "Model") columns.insert(1, "Order") columns.insert(2, "Scheme") columns.insert(3, "Partitions") columns.insert(4, "Size") columns.insert(5, "Measure") return columns def interval_dataframe_synthetic_columns(): columns = ["Model", "Order", "Scheme", "Partitions", "SHARPAVG", "SHARPSTD", "RESAVG", "RESSTD", "COVAVG", "COVSTD", "TIMEAVG", "TIMESTD", "SIZE"] return columns def save_dataframe_ahead(experiments, file, objs, crps_interval, crps_distr, times1, times2, save, synthetic): """ Save benchmark results for m-step ahead probabilistic forecasters :param experiments: :param file: :param objs: :param crps_interval: :param crps_distr: :param times1: :param times2: :param save: :param synthetic: :return: """ ret = [] if synthetic: for k in sorted(objs.keys()): try: ret = [] for k in sorted(objs.keys()): try: mod = [] mfts = objs[k] mod.append(mfts.shortname) mod.append(mfts.order) if not mfts.benchmark_only: mod.append(mfts.partitioner.name) mod.append(mfts.partitioner.partitions) l = len(mfts) else: mod.append('-') mod.append('-') l = '-' mod.append(np.round(np.nanmean(crps_interval[k]), 2)) mod.append(np.round(np.nanstd(crps_interval[k]), 2)) mod.append(np.round(np.nanmean(crps_distr[k]), 2)) mod.append(np.round(np.nanstd(crps_distr[k]), 2)) mod.append(l) mod.append(np.round(np.nanmean(times1[k]), 4)) mod.append(np.round(np.nanmean(times2[k]), 4)) ret.append(mod) except Exception as e: print('Erro: %s' % e) except Exception as ex: print("Erro ao salvar ", k) print("Exceção ", ex) columns = ahead_dataframe_synthetic_columns() else: for k in sorted(objs.keys()): try: mfts = objs[k] n = mfts.shortname o = mfts.order if not mfts.benchmark_only: s = mfts.partitioner.name p = mfts.partitioner.partitions l = len(mfts) else: s = '-' p = '-' l = '-' tmp = [n, o, s, p, l, 'CRPS_Interval'] tmp.extend(crps_interval[k]) ret.append(deepcopy(tmp)) tmp = [n, o, s, p, l, 'CRPS_Distribution'] tmp.extend(crps_distr[k]) ret.append(deepcopy(tmp)) tmp = [n, o, s, p, l, 'TIME_Interval'] tmp.extend(times1[k]) ret.append(deepcopy(tmp)) tmp = [n, o, s, p, l, 'TIME_Distribution'] tmp.extend(times2[k]) ret.append(deepcopy(tmp)) except Exception as ex: print("Erro ao salvar ", k) print("Exceção ", ex) columns = ahead_dataframe_analytic_columns(experiments) dat = pd.DataFrame(ret, columns=columns) if save: dat.to_csv(Util.uniquefilename(file), sep=";") return dat def ahead_dataframe_analytic_columns(experiments): columns = [str(k) for k in np.arange(0, experiments)] columns.insert(0, "Model") columns.insert(1, "Order") columns.insert(2, "Scheme") columns.insert(3, "Partitions") columns.insert(4, "Size") columns.insert(5, "Measure") return columns def ahead_dataframe_synthetic_columns(): columns = ["Model", "Order", "Scheme", "Partitions", "CRPS1AVG", "CRPS1STD", "CRPS2AVG", "CRPS2STD", "SIZE", "TIME1AVG", "TIME2AVG"] return columns