Update cta_strategy.md
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@ -637,7 +637,7 @@ calculate_statistics函数是基于逐日盯市盈亏情况(DateFrame格式)
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### 回测引擎使用示例
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### 单策略回测示例
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- 导入回测引擎和CTA策略
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- 设置回测相关参数,如:品种、K线周期、回测开始和结束日期、手续费、滑点、合约规模、起始资金
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@ -675,6 +675,89 @@ engine.show_chart()
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### 投资组合回测示例
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投资组合回测是基于单策略回测的,其关键是每个策略都对应着各自的BacktestingEngine对象,下面介绍具体流程:
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- 创建回测函数run_backtesting(),这样每添加一个策略就创建其BacktestingEngine对象。
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```
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from vnpy.app.cta_strategy.backtesting import BacktestingEngine, OptimizationSetting
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from vnpy.app.cta_strategy.strategies.atr_rsi_strategy import AtrRsiStrategy
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from vnpy.app.cta_strategy.strategies.boll_channel_strategy import BollChannelStrategy
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from datetime import datetime
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def run_backtesting(strategy_class, setting, vt_symbol, interval, start, end, rate, slippage, size, pricetick, capital):
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engine = BacktestingEngine()
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engine.set_parameters(
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vt_symbol=vt_symbol,
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interval=interval,
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start=start,
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end=end,
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rate=rate,
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slippage=slippage,
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size=size,
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pricetick=pricetick,
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capital=capital
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)
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engine.add_strategy(strategy_class, setting)
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engine.load_data()
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engine.run_backtesting()
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df = engine.calculate_result()
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return df
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```
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- 分别进行单策略回测,得到各自的DataFrame,(该DataFrame包含交易时间、今仓、昨仓、手续费、滑点、当日净盈亏、累计净盈亏等基本信息,但是不包括最大回撤,夏普比率等统计信息),然后把DataFrame相加并且去除空值后即得到投资组合的DataFrame。
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```
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df1 = run_backtesting(
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strategy_class=AtrRsiStrategy,
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setting={},
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vt_symbol="IF88.CFFEX",
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interval="1m",
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start=datetime(2019, 1, 1),
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end=datetime(2019, 4, 30),
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rate=0.3/10000,
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slippage=0.2,
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size=300,
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pricetick=0.2,
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capital=1_000_000,
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)
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df2 = run_backtesting(
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strategy_class=BollChannelStrategy,
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setting={'fixed_size': 16},
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vt_symbol="RB88.SHFE",
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interval="1m",
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start=datetime(2019, 1, 1),
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end=datetime(2019, 4, 30),
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rate=1/10000,
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slippage=1,
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size=10,
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pricetick=1,
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capital=1_000_000,
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)
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dfp = df1 + df2
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dfp =dfp.dropna()
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```
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- 创建show_portafolio()函数,同样也是创建新的BacktestingEngine对象,对传入的DataFrame计算如夏普比率等统计指标,并且画图。故该函数不仅能显示单策略回测效果,也能展示投资组合回测效果。
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```
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def show_portafolio(df):
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engine = BacktestingEngine()
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engine.calculate_statistics(df)
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engine.show_chart(df)
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show_portafolio(dfp)
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```
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## 参数优化
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参数优化模块主要由3部分构成:
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