Rekey
212f6fedad
- data/service.py: 数据拉取服务,从 TimescaleDB 读取 K 线/Ticker 等行情数据 - indicators/momentum.py: 动量类指标(RSI/MACD/Stochastic 等) - indicators/trend.py: 趋势类指标(EMA/SMA/ADX/SuperTrend 等) - indicators/volatility.py: 波动率指标(Bollinger/ATR/Keltner 等) - indicators/volume.py: 成交量指标(OBV/VWAP/MFI 等)
128 lines
3.0 KiB
Python
128 lines
3.0 KiB
Python
"""
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波动率指标 — 布林带、ATR
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所有函数返回与输入等长的 list[float],不足周期位置填 0.0。
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"""
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import math
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def bollinger(
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data: list[float],
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period: int = 20,
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std: float = 2.0,
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):
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"""布林带 (Bollinger Bands)
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使用流式计算方差,O(n) 复杂度。
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Args:
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data: 价格序列(通常为收盘价)
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period: 中轨 SMA 周期
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std: 标准差倍数
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Returns:
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(upper, mid, lower) 三个等长序列
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"""
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n = len(data)
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upper = [0.0] * n
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mid = [0.0] * n
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lower = [0.0] * n
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if n < period:
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return upper, mid, lower
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# 初始窗口的 sum 和 sum_sq
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window_sum = 0.0
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window_sum_sq = 0.0
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for i in range(period):
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v = data[i]
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window_sum += v
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window_sum_sq += v * v
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# 第一个点
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mean = window_sum / period
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mid[period - 1] = mean
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variance = (window_sum_sq / period) - (mean * mean)
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stdev = math.sqrt(max(variance, 0.0))
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upper[period - 1] = mean + std * stdev
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lower[period - 1] = mean - std * stdev
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# 滑动窗口计算后续点
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for i in range(period, n):
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old_val = data[i - period]
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new_val = data[i]
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window_sum += new_val - old_val
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window_sum_sq += new_val * new_val - old_val * old_val
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mean = window_sum / period
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mid[i] = mean
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variance = (window_sum_sq / period) - (mean * mean)
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stdev = math.sqrt(max(variance, 0.0))
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upper[i] = mean + std * stdev
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lower[i] = mean - std * stdev
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return upper, mid, lower
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def bollinger_upper(data: list[float], period: int = 20, std: float = 2.0) -> list[float]:
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"""布林带上轨"""
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upper, _, _ = bollinger(data, period, std)
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return upper
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def bollinger_mid(data: list[float], period: int = 20) -> list[float]:
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"""布林带中轨"""
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from .trend import sma as _sma
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return _sma(data, period)
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def bollinger_lower(data: list[float], period: int = 20, std: float = 2.0) -> list[float]:
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"""布林带下轨"""
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_, _, lower = bollinger(data, period, std)
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return lower
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def atr(
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high: list[float],
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low: list[float],
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close: list[float],
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period: int = 14,
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) -> list[float]:
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"""平均真实波幅 (ATR)
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使用 Wilder 平滑算法。
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Args:
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high: 最高价序列
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low: 最低价序列
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close: 收盘价序列
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period: 周期
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Returns:
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与输入等长的 ATR 序列,前 period 位置为 0
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"""
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n = len(close)
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result = [0.0] * n
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if n < period + 1:
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return result
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# 计算 True Range
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tr = [0.0] * n
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tr[0] = high[0] - low[0]
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for i in range(1, n):
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tr[i] = max(
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high[i] - low[i],
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abs(high[i] - close[i - 1]),
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abs(low[i] - close[i - 1]),
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)
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# 初始 ATR 为前 period 个 TR 的均值
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result[period] = sum(tr[1:period + 1]) / period
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# Wilder 平滑
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for i in range(period + 1, n):
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result[i] = (result[i - 1] * (period - 1) + tr[i]) / period
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return result
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