def ma_kdj(self): '''对比均线与KDJ绿线,看看能否搞一个新的策略''' show_period = 120 #global lt,wan,qian,bai,shi,ge,zbname,tf logging.info('开始:', time.asctime()) t0 = time.time() series = self.get_series() close = np.cumsum(series).astype(float) fig, axes = plt.subplots(5, 1, sharex=True) #fig.set_tight_layout(True) # 布林线 upperband, middleband, lowerband = ta.BBANDS(close, timeperiod=5, nbdevup=2, nbdevdn=2, matype=0) axes[0].plot(close[-show_period:], 'rd-', markersize = 5) axes[0].plot(upperband[-show_period:], 'y-') axes[0].plot(middleband[-show_period:], 'b-') axes[0].plot(lowerband[-show_period:], 'y-') #策略:金叉死叉 order, earn, ma_fast, ma_slow = strategy.strategy_gold_die(series) axes[1].plot(ma_fast[-show_period:], 'g-') axes[1].plot(ma_slow[-show_period:], 'r-') # 策略:KDJ绿线 order2, earn2, fastk, fastd = strategy.strategy_kdj(series) axes[2].plot(fastk[-show_period:], 'r-') axes[2].plot(fastd[-show_period:], 'g-') # 策略:通道宽度 order, earn, bandwidth, mean = strategy.strategy_bandwidth(series) axes[3].plot(bandwidth[-show_period:], 'r-') axes[3].plot([0,show_period],[mean, mean],'k',alpha=.4) # 策略:正弦变换 order, earn, sine, leadsine = strategy.strategy_ht_sine(series) axes[4].plot(sine[-show_period:], 'r-') axes[4].plot(leadsine[-show_period:], 'g-') title1 = '指标:' + self.wei + '位 ' + self.zbname.get() + ' 同反:' + str(self.tf.get()) axes[0].set_title(title1, fontproperties="SimHei") #axes[1].set_title('金叉死叉', fontproperties="SimHei") #axes[2].set_title('均线', fontproperties="SimHei") #axes[3].set_title('KDJ绿线', fontproperties="SimHei") #axes[4].set_xticks(range(120)) # 120个数据 #axes[4].set_xticklabels(self.get_labels(self.lt.last_period), rotation=35) # 设置x轴标签(13个) #axes[4].xaxis.set_major_locator(MultipleLocator(10)) # 主坐标:间隔10 t = time.time() - t0 logging.info('结束', time.asctime()) logging.info('耗时:{}分{}秒'.format(int(t)//60, int(t)%60)) multi = MultiCursor(fig.canvas, (axes[0], axes[1], axes[2], axes[3], axes[4]), color='b', lw=2) plt.show()
def compare(self): '''比较同一指标下的六个策略''' show_period = 120 #global lt,wan,qian,bai,shi,ge,zbname,tf logging.info('开始:', time.asctime()) t0 = time.time() series = self.get_series() close = np.cumsum(series).astype(float) fig, axes = plt.subplots(7, 1, sharex=True) #ax1, ax2, ax3, ax4 = axes[0], axes[1], axes[2], axes[3] # 布林线 upperband, middleband, lowerband = ta.BBANDS(close, timeperiod=5, nbdevup=2, nbdevdn=2, matype=0) axes[0].plot(close[-show_period:], 'rd-', markersize = 5) axes[0].plot(upperband[-show_period:], 'y-') axes[0].plot(middleband[-show_period:], 'b-') axes[0].plot(lowerband[-show_period:], 'y-') title1 = '指标:' + self.wei + '位 ' + self.zbname.get() + ' 同反:' + str(self.tf.get()) axes[0].set_title(title1, fontproperties="SimHei") stratename = ['金叉死叉','通道宽度','顺势而为','KDJ极限','随机漫步','正弦变换'] '''strategies = { '金叉死叉': strategy_gold_die, '通道宽度': strategy_bandwidth, '顺势而为': strategy_ma, 'KDJ极限': strategy_kdj, '随机漫步': strategy_rnd, '正弦变换': strategy_ht_sine, }''' order1, earn1, ma_fast, ma_slow = strategy.strategy_gold_die(series, is_backtest=True) order2, earn2, bandwidth, mean = strategy.strategy_bandwidth(series, is_backtest=True) order3, earn3, ma = strategy.strategy_ma(series, is_backtest=True) order4, earn4, fastk, fastd = strategy.strategy_kdj(series, is_backtest=True) order5, earn5, rnd = strategy.strategy_rnd(series, is_backtest=True) order6, earn6, sine, leadsine = strategy.strategy_ht_sine(series, is_backtest=True) for ax, order, name, c in zip(axes[1:],[order1, order2, order3, order4, order5, order6], stratename, 'bgbgbg'): ax.plot(order[-show_period:], c+'-') ax.set_ylabel(name, fontproperties="SimHei") ax.set_ylim([0, 243]) t = time.time() - t0 logging.info('结束', time.asctime()) logging.info('耗时:{}分{}秒'.format(int(t)//60, int(t)%60)) multi = MultiCursor(fig.canvas, (axes[0], axes[1], axes[2], axes[3], axes[4], axes[5], axes[6]), color='b', lw=2) plt.show()
def _use_strategy(self, strategy_name, is_backtest): '''12期均线与20期均线交点作为入场信号''' #global lt,wan,qian,bai,shi,ge,zbname,tf,ml_name show_period = 120 w, q, b, s, g = self.wan.get(), self.qian.get(), self.bai.get( ), self.shi.get(), self.ge.get() name, pre_n = self.zbname.get(), self.tf.get() loc = ''.join((w, q, b, s, g)) series = self.get_series(loc, name, pre_n) close = np.cumsum(series).astype(float) if is_backtest: print('开始:', time.asctime()) t0 = time.time() fig, axes = plt.subplots(4, 1, sharex=True) ax1, ax2, ax3, ax4 = axes[0], axes[1], axes[2], axes[3] # 布林线 upperband, middleband, lowerband = ta.BBANDS(close, timeperiod=5, nbdevup=2, nbdevdn=2, matype=0) axes[0].plot(close[-show_period:], 'rd-', markersize=5) axes[0].plot(upperband[-show_period:], 'y-') axes[0].plot(middleband[-show_period:], 'b-') axes[0].plot(lowerband[-show_period:], 'y-') if strategy_name == '金叉死叉': # <===============================> order, earn, ma_fast, ma_slow = strategy.strategy_gold_die( series, is_backtest=True) axes[1].plot(ma_fast[-show_period:], 'g-') axes[1].plot(ma_slow[-show_period:], 'r-') elif strategy_name == '均线差分': order, earn, ma_fast, ma_slow = strategy.strategy_mean_diff( series, is_backtest=True) axes[1].plot(ma_fast[-show_period:], 'g-') axes[1].plot(ma_slow[-show_period:], 'r-') elif strategy_name == '通道宽度': # <===============================> order, earn, bandwidth, mean = strategy.strategy_bandwidth( series, is_backtest=True) axes[1].plot(bandwidth[-show_period:], 'r-') axes[1].plot([0, show_period], [mean, mean], 'k', alpha=.2) elif strategy_name == '顺势而为': # <===============================> order, earn, ma = strategy.strategy_ma(series, is_backtest=True) axes[1].plot(ma[-show_period:], 'r-') elif strategy_name == 'KDJ极限': # <===============================> order, earn, fastk, fastd = strategy.strategy_kdj( series, is_backtest=True) axes[1].plot(fastk[-show_period:], 'r-') axes[1].plot(fastd[-show_period:], 'g-') axes[1].plot([0, show_period], [5, 5], 'k', alpha=.2) axes[1].plot([0, show_period], [95, 95], 'k', alpha=.2) elif strategy_name == 'KDJ绿线': # <===============================> order, earn, fastk, fastd = strategy.strategy_kdj2( series, is_backtest=True) axes[1].plot(fastk[-show_period:], 'r-') axes[1].plot(fastd[-show_period:], 'g-') axes[1].plot([0, show_period], [5, 5], 'k', alpha=.2) axes[1].plot([0, show_period], [95, 95], 'k', alpha=.2) elif strategy_name == '随机漫步': # <===============================> order, earn, rnd = strategy.strategy_rnd(series, is_backtest=True) axes[1].plot(rnd[-show_period:], 'ro-', markersize=2) elif strategy_name == '正弦变换': # <===============================> order, earn, sine, leadsine = strategy.strategy_ht_sine( series, is_backtest=True) axes[1].plot(sine[-show_period:], 'r-') axes[1].plot(leadsine[-show_period:], 'g-') elif strategy_name == '正弦变换2': # <===============================> order, earn, sine, leadsine = strategy.strategy_ht_sine2( series, is_backtest=True) axes[1].plot(sine[-show_period:], 'r-') axes[1].plot(leadsine[-show_period:], 'g-') elif strategy_name == '机器学习': # <===============================> order, earn, ml = strategy.strategy_ml(series, self.ml_name.get(), is_backtest=True) axes[1].plot(ml[-show_period:], 'ro-', markersize=2) elif strategy_name == '三个综合': # <===============================> order, earn, signals = strategy.strategy_three( series, is_backtest=True) axes[1].plot(signals[-show_period:], 'ro-', markersize=2) elif strategy_name == '五个综合': # <===============================> order, earn, signals = strategy.strategy_five(series, is_backtest=True) axes[1].plot(signals[-show_period:], 'ro-', markersize=2) elif strategy_name == '敬请期待': # <===============================> pass axes[2].plot(order[-show_period:], 'r-') #axes[3].plot(np.cumsum(earn[-show_period:])-np.cumsum(order[-show_period:]), 'g-') axes[3].fill_between(np.arange(show_period), 0, np.cumsum(earn[-show_period:]) - np.cumsum(order[-show_period:]), facecolor="#00FF00", alpha=.7) title1 = '指标:' + loc + '位 ' + name + ' 同反:' + str(pre_n) title2 = '策略:' + strategy_name if strategy_name == '机器学习': title2 += '--' + self.ml_name.get() axes[0].set_title(title1, fontproperties="SimHei") axes[1].set_title(title2, fontproperties="SimHei") axes[2].set_title('投注', fontproperties="SimHei") axes[3].set_title('收益', fontproperties="SimHei") axes[3].set_xticks(range(120)) # 120个数据 axes[3].set_xticklabels(self.get_labels(self.lt.last_period), rotation=35) # 设置x轴标签(13个) axes[3].xaxis.set_major_locator(MultipleLocator(10)) # 主坐标:间隔10 t = time.time() - t0 print('结束', time.asctime()) print('耗时:{}分{}秒'.format(int(t) // 60, int(t) % 60)) multi = MultiCursor(fig.canvas, (axes[0], axes[1], axes[2], axes[3]), color='b', lw=2) plt.show() else: if strategy_name == '金叉死叉': # <===============================> signal = strategy.strategy_gold_die(series, is_backtest=False) elif strategy_name == '均线差分': signal = strategy.strategy_mean_diff(series, is_backtest=False) elif strategy_name == '通道宽度': # <===============================> signal = strategy.strategy_bandwidth(series, is_backtest=False) elif strategy_name == '顺势而为': # <===============================> signal = strategy.strategy_ma(series, is_backtest=False) elif strategy_name == 'KDJ极限': # <===============================> signal = strategy.strategy_kdj(series, is_backtest=False) elif strategy_name == 'KDJ绿线': # <===============================> signal = strategy.strategy_kdj2(series, is_backtest=False) elif strategy_name == '随机漫步': # <===============================> signal = strategy.strategy_rnd(series, is_backtest=False) elif strategy_name == '正弦变换': # <===============================> signal = strategy.strategy_ht_sine(series, is_backtest=False) elif strategy_name == '正弦变换2': # <===============================> signal = strategy.strategy_ht_sine2(series, is_backtest=False) elif strategy_name == '机器学习': # <===============================> signal = strategy.strategy_ml(series, self.ml_name.get(), is_backtest=False) elif strategy_name == '三个综合': # <===============================> signal = strategy.strategy_three(series, is_backtest=False) elif strategy_name == '五个综合': # <===============================> signal = strategy.strategy_five(series, is_backtest=False) elif strategy_name == '敬请期待': # <===============================> pass