示例#1
0
                    min_avgs[env_key] = data['avg'][index]
                    min_stds[env_key] = data['std'][index]

    for env_key in env_keys:
        ps[env_key] = sorted(ps[env_key])
        avgs[env_key] = np.array([avgs[env_key][p] for p in ps[env_key]])
        stds[env_key] = np.array([stds[env_key][p] for p in ps[env_key]])

    os.chdir(cwd)

    return env_keys, ps, avgs, stds, min_avgs, min_stds



if __name__ == '__main__':
    env_keys, ps, avgs, stds, min_avgs, min_stds = load_data('nn')

    colors = [graphs.BLUE, graphs.PINK, graphs.GREEN]
    graphs.output_file('c4_fig4_2_mbratio_perf.html')

    env_displayed = [env_key for env_key in env_keys if env_key[0] == 'kin20_150' and env_key[2] == 10000]

    for color, envd in zip(colors, env_displayed):
        print(avgs[envd])
        y_max = max(avgs[envd] + stds[envd])
        graphs.perf_std_discrete(ps[envd], avgs[envd], stds[envd], std_width=0.0035, color=color,
                                 y_range=[0.0, y_max+0.02], plot_width=1000, plot_height=500, title='{} {}'.format(*envd))
        graphs.hold(True)

    graphs.show()
示例#2
0
            ratios[tick].append(ratios_[i])
            avgs[tick].append(src_data[0]['avg'][index])
            stds[tick].append(src_data[0]['std'][index])
            y_max = max(y_max, max(avgs[tick]) + max(stds[tick]))
        except ValueError:
            pass

os.chdir(cwd)

if __name__ == "__main__":
    print('  '.join('{:6.3f}|{:6.3f}'.format(a, s)
                    for a, s in zip(avgs, stds)))
    graphs.output_file('c3_fig3_8_unreach_perf.html')
    colors = ['#2577B2', '#E84A5F']

    for color, tick in zip(colors, [2000, 10000]):
        graphs.perf_std_discrete(
            ratios[tick],
            avgs[tick],
            stds[tick],
            std_width=0.25,
            color=color,
            alpha=0.75,
            y_range=[0.0, y_max + 0.01],  #y_range=[y_min-0.1, y_max+0.1],
            plot_width=1000,
            plot_height=400,
            title='t={}'.format(tick))
        graphs.hold(True)

    graphs.show()
# for N in Ns:
#     for w in windows:
#         print('N={}, w={} :  {} +- {}'.format(N, w, adapt_avgs[(w, N, 20)], adapt_stds[(w, N, 20)]))
#     print()

if __name__ == '__main__':
    graphs.output_file('c4_figB_4_adaptg_reach_graph.html')
    for res in RESS:
        for N in Ns:
            y_max = max(np.array(avgs[N]) + np.array(stds[N]))

            graphs.perf_std_discrete(ratios[N],
                                     avgs[N],
                                     stds[N],
                                     color='#2577B2',
                                     alpha=0.5,
                                     y_range=[0, y_max * 1.05],
                                     title='adaptg_reach, t={}, res={}'.format(
                                         N, res),
                                     std_width=0.25,
                                     plot_width=1000,
                                     plot_height=300)

            graphs.hold(True)
            graphs.line([0, 100], adapt_avgs[(W, N, res)],
                        adapt_stds[(W, N, res)])
            graphs.hold(False)

    graphs.show()
示例#4
0
# for d in disturbs:
#     for N in Ns:
#         print('N={}:  {} +- {}'.format(N, adapt_avgs[(d, res, N)], adapt_stds[(d, res N)]))

if __name__ == '__main__':
    graphs.output_file('c4_fig4_5_adapt_graph_{}.html'.format(KIND))
    y_ranges = [(0.075, 0.3), (0.0, 0.1), (0.08, 0.14)]

    for i, d in enumerate(disturbs):
        y_range = y_ranges[i]
        for N in Ns:
            for res in RESS:
                graphs.perf_std_discrete(
                    [100 * i * 0.05 for i in range(21)],
                    avgs[('kin20_150', d, N)],
                    stds[('kin20_150', d, N)],
                    std_width=0.25,
                    color='#2577B2',
                    alpha=0.5,
                    y_range=y_range,  #y_range=[y_min-0.1, y_max+0.1],
                    plot_width=1000,
                    plot_height=300,
                    title='d={} t={} res={}'.format(d, N, res))

                graphs.hold(True)
                graphs.line([0, 100], adapt_avgs[(d, res, N)],
                            adapt_stds[(d, res, N)])
                graphs.hold(False)

    graphs.show()
示例#5
0
                    min_avgs[env_key] = data['avg'][index]
                    min_stds[env_key] = data['std'][index]

    for env_key in env_keys:
        ps[env_key] = sorted(ps[env_key])
        avgs[env_key] = np.array([avgs[env_key][p] for p in ps[env_key]])
        stds[env_key] = np.array([stds[env_key][p] for p in ps[env_key]])

    os.chdir(cwd)

    return env_keys, ps, avgs, stds, min_avgs, min_stds



if __name__ == '__main__':
    env_keys, ps, avgs, stds, min_avgs, min_stds = load_data('nn')

    colors = [graphs.BLUE, graphs.PINK, graphs.GREEN]
    graphs.output_file('fixed_graph.html')

    env_displayed = [env_key for env_key in env_keys if env_key[0] == 'kin20_150' and env_key[2] == 5000]

    for color, envd in zip(colors, env_displayed):
        print(avgs[envd])
        y_max = max(avgs[envd] + stds[envd])
        graphs.perf_std_discrete(ps[envd], avgs[envd], stds[envd], std_width=0.0035, color=color,
                                 y_range=[0.0, y_max+0.02], plot_width=1000, plot_height=500, title='{} {}'.format(*envd))
        graphs.hold(True)

    graphs.show()
示例#6
0
    batch = jobfactory.make_jobgroup([exp_cfg])
    os.chdir(os.path.expanduser(exp_cfg.meta.rootpath))

    data = hub.ResultsHub(batch, kind='nn').data()[0]
    window = exp_cfg.exploration.explorer.ex_1.window
    for N in Ns:
        index = data['ticks'].index(N)
        adapt_avgs[(window, N)] = data['avg'][index]
        adapt_stds[(window, N)] = data['std'][index]

os.chdir(cwd)

for N in Ns:
    for w in windows:
        print('N={}, w={} :  {} +- {}'.format(N, w, adapt_avgs[(w, N)], adapt_stds[(w, N)]))
    print()

if __name__ == '__main__':
    graphs.output_file('c4_fig4_9_adapt_reach_graph.html')
    for N in Ns:
        y_max = max(np.array(avgs[N]) + np.array(stds[N]))

        graphs.perf_std_discrete(ratios[N], avgs[N], stds[N], std_width=0.25, alpha=0.5,
                                 y_range=[0, y_max*1.05], title='adaptative reach performance, t = {}'.format(N))

        graphs.hold(True)
        graphs.line([0, 100], adapt_avgs[(W, N)], adapt_stds[(W, N)])
        graphs.hold(False)

    graphs.show()
示例#7
0
        ex_name = exp_cfg.exp.explorer_name

        dims.setdefault(ex_name, [])
        avgs.setdefault(ex_name, [])
        stds.setdefault(ex_name, [])

        dims[ex_name].append(dim)
        avgs[ex_name].append(data['avg'][-1])
        stds[ex_name].append(data['std'][-1])
        y_max = max(y_max, data['avg'][-1] + data['std'][-1])

os.chdir(cwd)
colors = ['#2577B2', '#E84A5F']
graphs.output_file('c3_fig3_3_eval_perf.html')

for color, ex_name in zip(colors, dims.keys()):
    graphs.perf_std_discrete(dims[ex_name],
                             avgs[ex_name],
                             stds[ex_name],
                             std_width=0.25,
                             color=color,
                             title=str(ex_name),
                             x_range=[0.0, 110.0],
                             y_range=[0.0, y_max + 0.1],
                             plot_width=1000,
                             plot_height=300)
    graphs.hold(True)

graphs.show()
示例#8
0
    n_motor  = exp_cfg.exploration.explorer.eras[0]
    env = env_name

    d = exp_cfg.exploration.explorer.ex_1.learner.m_disturb
    try:
        disturb[env].append(d)
        avgs[env][d] = src_data[0]['avg'][-1]
        stds[env][d] = src_data[0]['std'][-1]
    except ValueError:
        pass

env_displayed = ['kin2_150', 'kin7_150', 'kin20_150']

for env_name in env_displayed:
    disturb[env_name] = sorted(disturb[env_name])
    avgs[env_name] = np.array([avgs[env_name][d] for d in disturb[env_name]])
    stds[env_name] = np.array([stds[env_name][d] for d in disturb[env_name]])
    y_max = max(y_max, max(avgs[env_name] + stds[env_name]))

os.chdir(cwd)
colors = ['#2577B2', '#E84A5F']
graphs.output_file('c3_fig3_14_inverse_perf.html')

for env_name in env_displayed:
    x = [math.log(d) for d in disturb[env_name]]
    graphs.perf_std_discrete(x, avgs[env_name], stds[env_name], std_width=0.02,
                            y_range=[0.0, 0.3], title=str(env_name),
                            plot_width=1000, plot_height=300)

graphs.show()
示例#9
0
    for N in Ns:
        index = data['ticks'].index(N)
        adapt_avgs[(d, N)] = data['avg'][index]
        adapt_stds[(d, N)] = data['std'][index]

os.chdir(cwd)


for d in disturbs:
    for N in Ns:
        print('N={}:  {} +- {}'.format(N, adapt_avgs[(d, N)], adapt_stds[(d, N)]))



if __name__ == '__main__':
    graphs.output_file('ddmab_graph.html')
    y_ranges=[(0.075, 0.3), (0.0, 0.1), (0.08, 0.14)]

    for i, d in enumerate(disturbs):
        y_range = y_ranges[i]
        for N in Ns:
            graphs.perf_std_discrete([100*i*0.05 for i in range(21)],
                                     avgs[('kin20_150', d, N)], stds[('kin20_150', d, N)],
                                     std_width=0.25, alpha=0.5, y_range=y_range,
                                     plot_height=300, title='d={} t={}'.format(d, N))
            graphs.hold(True)
            graphs.line([0, 100], adapt_avgs[(d, N)], adapt_stds[(d, N)])
            graphs.hold(False)

    graphs.show()
示例#10
0
        adapt_avgs[(d, N)] = data['avg'][index]
        adapt_stds[(d, N)] = data['std'][index]

os.chdir(cwd)

for d in disturbs:
    for N in Ns:
        print('N={}:  {} +- {}'.format(N, adapt_avgs[(d, N)],
                                       adapt_stds[(d, N)]))

if __name__ == '__main__':
    graphs.output_file('c4_fig4_5_adapt_graph_{}.html'.format(KIND))
    y_ranges = [(0.075, 0.3), (0.0, 0.1), (0.08, 0.14)]

    for i, d in enumerate(disturbs):
        y_range = y_ranges[i]
        for N in Ns:
            graphs.perf_std_discrete([100 * i * 0.05 for i in range(21)],
                                     avgs[('kin20_150', d, N)],
                                     stds[('kin20_150', d, N)],
                                     std_width=0.25,
                                     alpha=0.5,
                                     y_range=y_range,
                                     plot_height=300,
                                     title='d={} t={}'.format(d, N))
            graphs.hold(True)
            graphs.line([0, 100], adapt_avgs[(d, N)], adapt_stds[(d, N)])
            graphs.hold(False)

    graphs.show()