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Update hyperopt.py
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Italo
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@ -32,18 +32,17 @@ from freqtrade.optimize.hyperopt_loss_interface import IHyperOptLoss # noqa: F4
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from freqtrade.optimize.hyperopt_tools import HyperoptTools, hyperopt_serializer
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from freqtrade.optimize.optimize_reports import generate_strategy_stats
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from freqtrade.resolvers.hyperopt_resolver import HyperOptLossResolver
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from skopt.plots import plot_convergence, plot_regret, plot_evaluations, plot_objective
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import matplotlib.pyplot as plt
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import numpy as np
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import random
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from sklearn.base import clone
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# Suppress scikit-learn FutureWarnings from skopt
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with warnings.catch_warnings():
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warnings.filterwarnings("ignore", category=FutureWarning)
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from skopt import Optimizer
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from skopt.space import Dimension
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from sklearn.model_selection import cross_val_score
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from skopt.plots import plot_convergence, plot_regret, plot_evaluations, plot_objective
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progressbar.streams.wrap_stderr()
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progressbar.streams.wrap_stdout()
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@ -483,7 +482,7 @@ class Hyperopt:
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f_val = self.run_optimizer_parallel(parallel, asked, i)
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res = self.opt.tell(asked, [v['loss'] for v in f_val])
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self.plot_optimizer(res, path='user_data/scripts', convergence=False, regret=False, mse=True, objective=True, jobs=jobs)
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self.plot_optimizer(res, path='user_data/scripts', convergence=False, regret=False, r2=True, objective=True, jobs=jobs)
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if res.models and hasattr(res.models[-1], "kernel_"):
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print(f'kernel: {res.models[-1].kernel_}')
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@ -532,41 +531,21 @@ class Hyperopt:
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# a chance to be evaluated.
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print("No epochs evaluated yet, no best result.")
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def plot_mse(self, res, ax, jobs):
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from sklearn.model_selection import cross_val_score
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def plot_r2(self, res, ax, jobs):
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if len(res.x_iters) < 10:
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return
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if not hasattr(self, 'mse_list'):
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self.mse_list = []
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if not hasattr(self, 'r2_list'):
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self.r2_list = []
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# model = clone(res.models[-1])
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# i_subset = random.sample(range(len(res.x_iters)), 100) if len(res.x_iters) > 100 else range(len(res.x_iters))
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r2 = cross_val_score(res.models[-1], X=res.x_iters, y=res.func_vals, scoring='r2', cv=5, n_jobs=jobs).mean()
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print(f'R2: {r2}')
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r2 = r2 if r2 > -5 else -5
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self.r2_list.append(r2)
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# i_train = random.sample(i_subset, round(.8*len(i_subset))) # get 80% random indices
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# x_train = [x for i, x in enumerate(res.x_iters) if i in i_train]
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# y_train = [y for i, y in enumerate(res.func_vals) if i in i_train]
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ax.plot(range(INITIAL_POINTS, INITIAL_POINTS + jobs * len(self.r2_list), jobs), self.r2_list, label='R2', marker=".", markersize=12, lw=2)
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# i_test = [i for i in i_subset if i not in i_train] # get 20% random indices
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# x_test = [x for i, x in enumerate(res.x_iters) if i in i_test]
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# y_test = [y for i, y in enumerate(res.func_vals) if i in i_test]
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# model.fit(res.x_iters, res.func_vals)
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# Perform a cross-validation estimate of the coefficient of determination using
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# the cross_validation module using all CPUs available on the machine
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# K = 5 # folds
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with warnings.catch_warnings():
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warnings.simplefilter("ignore")
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R2 = cross_val_score(res.models[-1], X=res.x_iters, y=res.func_vals, cv=5, n_jobs=jobs).mean()
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print(f'R2: {R2}')
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R2 = R2 if R2 > -5 else -5
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self.mse_list.append(R2)
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# y_pred, sigma = model.predict(np.array(x_test), return_std=True)
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# mse = np.mean((y_test - y_pred) ** 2)
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# self.mse_list.append(mse)
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ax.plot(range(INITIAL_POINTS, INITIAL_POINTS + jobs * len(self.mse_list), jobs), self.mse_list, label='MSE', marker=".", markersize=12, lw=2)
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def plot_optimizer(self, res, path, jobs, convergence=True, regret=True, evaluations=True, objective=True, mse=True):
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def plot_optimizer(self, res, path, jobs, convergence=True, regret=True, evaluations=True, objective=True, r2=True):
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path = Path(path)
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if convergence:
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ax = plot_convergence(res)
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@ -586,11 +565,10 @@ class Hyperopt:
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ax = plot_objective(res, sample_source='result', n_samples=50, n_points=10)
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ax.flatten()[0].figure.savefig(path / 'objective.png')
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if mse and res.models:
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# print('mse')
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if r2 and res.models:
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fig, ax = plt.subplots()
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ax.set_ylabel('MSE')
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ax.set_ylabel('R2')
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ax.set_xlabel('Epoch')
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ax.set_title('MSE')
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ax = self.plot_mse(res, ax, jobs)
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fig.savefig(path / 'mse.png')
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ax.set_title('R2')
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ax = self.plot_r2(res, ax, jobs)
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fig.savefig(path / 'r2.png')
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