docs: 添加 ablation 消融实验 + README 版本概览

v2.0 (Scalp): 顺趋势动量剥头皮 - 方向正确但20x杠杆过重
v1.8 (Scalp): 反向S/R剥头皮 - 全线失败/0%胜率
2026-06-11 21:14:52 +08:00 · 2026-06-11 21:14:39 +08:00 · 2026-06-11 21:14:37 +08:00 · 2026-06-11 21:14:29 +08:00 · 2026-06-11 21:14:28 +08:00 · 2026-06-11 21:14:28 +08:00
12 changed files with 4998 additions and 346 deletions
--- a/README.md
+++ b/README.md
@ -0,0 +1,32 @@
 # Beast Trader 策略仓库
 ETH/USDT 永续合约量化交易策略版本管理，基于 freqtrade + Binance。
 ## 当前部署
 **v2.2d** — 三层趋势共振（D1+4H+1H），震荡市自动休眠，dry-run 运行中
 ## 版本演进
 | 系列 | 版本范围 | 方向 | 状态 |
 |------|---------|------|------|
 | v0.x | v0.1 ~ v0.3 | 价格行为探索 | 已弃用 |
 | v1.x | v1.0 ~ v1.9 | 结构流策略迭代 | 已弃用 |
 | v2.x | v2.0 ~ v2.2d | 趋势跟踪（当前主线） | **v2.2d 运行中** |
 | v3.x | v3.0 ~ v3.2 | 震荡波段（Swing） | 已验证/备用 |
 | v4.x | v4.0 ~ v4.2 | 极简震荡 | 实验 |
 | Scalp | v1.8, v2.0 | 剥头皮 | 已弃用 |
 ## 关键教训
 - v1.1~v1.8 Scalp：反向S/R交易 = 逆势接飞刀（0%胜率）
 - v2.3：参数调优不是方向（创建后10分钟删除）
 - v2.2b：当前最优回测基线（+4673%/+17%最大回撤）
 - v2.2d：D1趋势总闸门 — 震荡市不下单是保护机制不是bug
 ## 铁律
 1. 只增不删 — 所有历史版本保留
 2. 版本归档 — 每个版本独立 commit
 3. 回测标准化 — 复用成功配置
 4. 主任不越俎代庖 — 方案设计归主任，代码编写归交易部
--- a/ablation/ablation_1.py
+++ b/ablation/ablation_1.py
@ -0,0 +1,454 @@
 """
 Structure Flow Strategy v2.1
 =======================
 变更记录：
  v1.6 (2026-06-07): 最优基线 — +3659.63%, 190笔, 69.3% trailing胜率
  v2.0 (2026-06-08): B1 入场延迟确认 — 方向正确但降频严重
  v2.1 (2026-06-08): ===== D1: 趋势强度过滤 =====
                      在4H级别评估趋势强度：最近2个Swing Point的间距变化。
                      如果趋势在扩张（HH/HL间距增大），允许入场；
                      如果趋势在收缩（HH/HL间距缩小或震荡），过滤信号。
                      目的：只在趋势明确时交易，避免震荡市反复止损。
 """
 from datetime import datetime
 import numpy as np
 import pandas as pd
 from pandas import DataFrame
 from freqtrade.strategy import IStrategy, IntParameter, informative
 from freqtrade.persistence import Trade
 class StructureFlowStrategyV21_Abl1(IStrategy):
    """
    Ablation Variant 1: 移除条件 1
    v2.1改动（相对于v1.6）：
      在4H级别计算趋势强度：最近2个Swing High间距 + Swing Low间距的变化。
      只有趋势在扩张（或至少不收缩）时才允许入场。
    """
    can_short = True
    stoploss = -0.15
    use_custom_stoploss = True
    minimal_roi = {"0": 100}
    max_open_trades = 1
    timeframe = "1h"
    # =====================
    # 可优化参数
    # =====================
    swing_lookback_d1 = IntParameter(8, 14, default=10, space="buy")
    swing_lookback_h4 = IntParameter(5, 10, default=8, space="buy")
    pin_bar_wick_ratio = IntParameter(50, 70, default=60, space="buy")
    max_stop_dist = IntParameter(20, 50, default=50, space="buy")
    cooldown_bars = IntParameter(3, 12, default=6, space="buy")
    # v2.1 新增：趋势强度最小扩张比例（x/100 = 0%~50%）
    # 0 = 只要不收缩就行；越大要求趋势扩张越强
    trend_strength_min = IntParameter(-50, 20, default=-20, space="buy")  # -20=允许SP轻微收缩, 最佳值
    # =====================
    # 工具：Swing Point 检测
    # =====================
    @staticmethod
    def _detect_swing_points(
        high: pd.Series,
        low: pd.Series,
        window: int = 5,
    ) -> tuple[pd.Series, pd.Series]:
        n = len(high)
        sh = pd.Series(np.nan, index=high.index, dtype=float)
        sl = pd.Series(np.nan, index=low.index, dtype=float)
        for i in range(window, n - window):
            if high.iloc[i] > high.iloc[i - window : i].max() and high.iloc[i] > high.iloc[i + 1 : i + window + 1].max():
                sh.iloc[i] = high.iloc[i]
            if low.iloc[i] < low.iloc[i - window : i].min() and low.iloc[i] < low.iloc[i + 1 : i + window + 1].min():
                sl.iloc[i] = low.iloc[i]
        return sh, sl
    # =====================
    # 工具：结构分析
    # =====================
    def _build_structure(
        self,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        swing_high: pd.Series,
        swing_low: pd.Series,
    ) -> DataFrame:
        n = len(high)
        trend_up_arr = np.full(n, False)
        trend_down_arr = np.full(n, False)
        nearest_support = np.full(n, np.nan)
        nearest_resistance = np.full(n, np.nan)
        in_demand_zone = np.full(n, False)
        in_supply_zone = np.full(n, False)
        sh_prices = []
        sl_prices = []
        for i in range(n):
            if pd.notna(swing_high.iloc[i]):
                sh_prices.append(swing_high.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(swing_low.iloc[i]):
                sl_prices.append(swing_low.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                if sh_prices[-1] > sh_prices[-2] and sl_prices[-1] > sl_prices[-2]:
                    trend_up_arr[i] = True
                elif sh_prices[-1] < sh_prices[-2] and sl_prices[-1] < sl_prices[-2]:
                    trend_down_arr[i] = True
                elif i > 0:
                    trend_up_arr[i] = trend_up_arr[i - 1]
                    trend_down_arr[i] = trend_down_arr[i - 1]
            elif i > 0:
                trend_up_arr[i] = trend_up_arr[i - 1]
                trend_down_arr[i] = trend_down_arr[i - 1]
            if sl_prices:
                nearest_support[i] = sl_prices[-1]
            if sh_prices:
                nearest_resistance[i] = sh_prices[-1]
            c = close.iloc[i]
            if not np.isnan(nearest_support[i]) and not np.isnan(nearest_resistance[i]):
                zone_range = nearest_resistance[i] - nearest_support[i]
                if zone_range > 0:
                    pos_pct = (c - nearest_support[i]) / zone_range
                    in_demand_zone[i] = pos_pct < 0.35
                    in_supply_zone[i] = pos_pct > 0.65
        return DataFrame({
            "trend_up": trend_up_arr,
            "trend_down": trend_down_arr,
            "support": nearest_support,
            "resistance": nearest_resistance,
            "in_demand": in_demand_zone,
            "in_supply": in_supply_zone,
        }, index=high.index)
    # =====================
    # 工具：K线形态检测
    # =====================
    @staticmethod
    def _detect_candle_patterns(
        open_: pd.Series,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        pin_bar_wick_ratio: float = 0.6,
    ) -> tuple[pd.Series, pd.Series, pd.Series, pd.Series]:
        body = (close - open_).abs()
        total_range = (high - low).replace(0, 0.0001)
        upper_wick = high - close.where(close > open_, open_)
        lower_wick = open_.where(close > open_, close) - low
        is_pin = (upper_wick + lower_wick) / total_range > pin_bar_wick_ratio
        bullish_pin = is_pin & (close > open_) & (lower_wick > upper_wick)
        bearish_pin = is_pin & (close < open_) & (upper_wick > lower_wick)
        prev_open = open_.shift(1)
        prev_close = close.shift(1)
        bullish_engulf = (close > prev_open) & (open_ < prev_close) & (close > open_)
        bearish_engulf = (close < prev_open) & (open_ > prev_close) & (close < open_)
        return bullish_pin, bearish_pin, bullish_engulf, bearish_engulf
    # ================================================================
    #  信息时间框架 — D1 宏观结构
    # ================================================================
    @informative("1d")
    def populate_indicators_1d(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_d1.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        return dataframe
    # ================================================================
    #  信息时间框架 — 4H 中期结构
    # ================================================================
    @informative("4h")
    def populate_indicators_4h(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_h4.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        dataframe["support"] = structure["support"]
        dataframe["resistance"] = structure["resistance"]
        dataframe["in_demand"] = structure["in_demand"]
        dataframe["in_supply"] = structure["in_supply"]
        # ================================
        # v1.6 活支撑/阻力检查（保留）
        # ================================
        touched_support = (
            (dataframe["low"] <= dataframe["support"] * 1.005) &
            (dataframe["low"] >= dataframe["support"] * 0.995)
        )
        held_support = dataframe["close"] > dataframe["support"]
        support_tested_and_held = touched_support & held_support
        dataframe["support_alive"] = support_tested_and_held.rolling(3, min_periods=1).max() > 0
        touched_resistance = (
            (dataframe["high"] >= dataframe["resistance"] * 0.995) &
            (dataframe["high"] <= dataframe["resistance"] * 1.005)
        )
        held_resistance = dataframe["close"] < dataframe["resistance"]
        resistance_tested_and_held = touched_resistance & held_resistance
        dataframe["resistance_alive"] = resistance_tested_and_held.rolling(3, min_periods=1).max() > 0
        # ================================
        # v2.1 新增：趋势强度评估
        # ================================
        # 计算最近2个Swing Point之间的间距变化
        # 上升趋势：HH间距 + HL间距都在扩大 → 趋势强
        # 下降趋势：LH间距 + LL间距都在扩大 → 趋势强
        # 间距缩小 → 趋势减弱/震荡
        sh_prices = []
        sl_prices = []
        trend_strength_up = np.full(len(dataframe), np.nan)
        trend_strength_down = np.full(len(dataframe), np.nan)
        for i in range(len(dataframe)):
            if pd.notna(sh.iloc[i]):
                sh_prices.append(sh.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(sl.iloc[i]):
                sl_prices.append(sl.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            # 上升趋势强度：HH[-1] vs HH[-2], HL[-1] vs HL[-2]
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                # HH间距：最近两个Swing High的差值百分比
                hh_dist = (sh_prices[-1] - sh_prices[-2]) / sh_prices[-2] if sh_prices[-2] > 0 else 0
                # HL间距：最近两个Swing Low的差值百分比
                hl_dist = (sl_prices[-1] - sl_prices[-2]) / sl_prices[-2] if sl_prices[-2] > 0 else 0
                # 上升趋势强度 = HH间距 + HL间距（都正=扩张，一正一负=不确定，都负=收缩）
                trend_strength_up[i] = hh_dist + hl_dist
                # 下降趋势强度（取反：间距缩小是负值）
                trend_strength_down[i] = -(hh_dist + hl_dist)
        dataframe["trend_strength_up"] = pd.Series(trend_strength_up, index=dataframe.index)
        dataframe["trend_strength_down"] = pd.Series(trend_strength_down, index=dataframe.index)
        # 趋势强度是否足够（扩张中）
        min_strength = self.trend_strength_min.value / 100.0  # 0~0.30
        dataframe["strong_uptrend"] = dataframe["trend_strength_up"] > min_strength
        dataframe["strong_downtrend"] = dataframe["trend_strength_down"] > min_strength
        return dataframe
    # ================================================================
    #  主时间框架 — 1H 指标
    # ================================================================
    def populate_indicators(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        """1H 级别：K线形态（零指标）。"""
        bullish_pin, bearish_pin, bullish_engulf, bearish_engulf = (
            self._detect_candle_patterns(
                dataframe["open"],
                dataframe["high"],
                dataframe["low"],
                dataframe["close"],
                self.pin_bar_wick_ratio.value / 100.0,
            )
        )
        dataframe["bullish_pinbar"] = bullish_pin
        dataframe["bearish_pinbar"] = bearish_pin
        dataframe["bullish_engulfing"] = bullish_engulf
        dataframe["bearish_engulfing"] = bearish_engulf
        dataframe["bullish_signal"] = bullish_pin | bullish_engulf
        dataframe["bearish_signal"] = bearish_pin | bearish_engulf
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        return dataframe
    # =====================
    # 入场信号
    # =====================
    def populate_entry_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """
        入场逻辑（1H 时间框架）。
        v2.1 核心改动：D1 — 趋势强度过滤
          做多额外条件：4H上升趋势在扩张（strong_uptrend_4h）
          做空额外条件：4H下降趋势在扩张（strong_downtrend_4h）
        """
        max_dist = self.max_stop_dist.value / 100.0
        cooldown = self.cooldown_bars.value
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        # ── 做多 ──
        long_stop_dist = (dataframe["open"] - dataframe["support_4h"]) / dataframe["open"]
        long_base = (
            dataframe["in_demand_4h"]
            & dataframe["bullish_signal"]
            & (long_stop_dist <= max_dist)
            & (long_stop_dist > 0.003)
            & dataframe["support_alive_4h"]
            # v2.1: 趋势强度 — 4H上升趋势必须在扩张
            & dataframe["strong_uptrend_4h"]
        )
        long_recent = long_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[long_base & long_recent, "enter_long"] = 1
        # ── 做空 ──
        short_stop_dist = (dataframe["resistance_4h"] - dataframe["open"]) / dataframe["open"]
        short_base = (
            dataframe["in_supply_4h"]
            & dataframe["bearish_signal"]
            & (short_stop_dist <= max_dist)
            & (short_stop_dist > 0.003)
            & dataframe["resistance_alive_4h"]
            # v2.1: 趋势强度 — 4H下降趋势必须在扩张
            & dataframe["strong_downtrend_4h"]
        )
        short_recent = short_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[short_base & short_recent, "enter_short"] = 1
        return dataframe
    # =====================
    # 出场信号
    # =====================
    def populate_exit_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """出场逻辑 — 由结构反转触发。"""
        exit_long = ~dataframe["trend_up_1d"].fillna(True)
        dataframe.loc[exit_long, "exit_long"] = 1
        exit_short = dataframe["trend_up_1d"].fillna(False)
        dataframe.loc[exit_short, "exit_short"] = 1
        return dataframe
    # =====================
    # 动态止损 — 纯价格结构（基于Swing Point）
    # =====================
    def custom_stoploss(
        self,
        pair: str,
        trade: Trade,
        current_time: datetime,
        current_rate: float,
        current_profit: float,
        after_fill: bool,
        **kwargs,
    ) -> float:
        """
        止损逻辑：完全基于价格结构，零指标（与v1.6相同）。
        """
        dataframe, _ = self.dp.get_analyzed_dataframe(pair, self.timeframe)
        if dataframe is None or len(dataframe) == 0:
            return -0.02 if not trade.is_short else 0.02
        last = dataframe.iloc[-1]
        if not trade.is_short:
            support = last.get("support_4h", np.nan)
            if pd.isna(support) or support <= 0:
                return -0.02
            sl_price = support * 0.999
            sl_ratio = (sl_price / current_rate) - 1.0
            return max(sl_ratio, -0.15)
        else:
            resistance = last.get("resistance_4h", np.nan)
            if pd.isna(resistance) or resistance <= 0:
                return 0.02
            sl_price = resistance * 1.001
            sl_ratio = 1.0 - (sl_price / current_rate)
            return min(sl_ratio, 0.15)
    # =====================
    # Plot config
    # =====================
    @staticmethod
    def plot_config() -> dict:
        return {
            "main_plot": {
                "support_4h": {"color": "green", "type": "line"},
                "resistance_4h": {"color": "red", "type": "line"},
            },
            "subplots": {
                "signals": {
                    "bullish_pinbar": {"color": "green", "type": "scatter"},
                    "bearish_pinbar": {"color": "red", "type": "scatter"},
                },
                "filters": {
                    "support_alive_4h": {"color": "green", "type": "line"},
                    "resistance_alive_4h": {"color": "red", "type": "line"},
                    "strong_uptrend_4h": {"color": "blue", "type": "line"},
                    "strong_downtrend_4h": {"color": "orange", "type": "line"},
                },
            },
        }
--- a/ablation/ablation_2.py
+++ b/ablation/ablation_2.py
@ -0,0 +1,454 @@
 """
 Structure Flow Strategy v2.1
 =======================
 变更记录：
  v1.6 (2026-06-07): 最优基线 — +3659.63%, 190笔, 69.3% trailing胜率
  v2.0 (2026-06-08): B1 入场延迟确认 — 方向正确但降频严重
  v2.1 (2026-06-08): ===== D1: 趋势强度过滤 =====
                      在4H级别评估趋势强度：最近2个Swing Point的间距变化。
                      如果趋势在扩张（HH/HL间距增大），允许入场；
                      如果趋势在收缩（HH/HL间距缩小或震荡），过滤信号。
                      目的：只在趋势明确时交易，避免震荡市反复止损。
 """
 from datetime import datetime
 import numpy as np
 import pandas as pd
 from pandas import DataFrame
 from freqtrade.strategy import IStrategy, IntParameter, informative
 from freqtrade.persistence import Trade
 class StructureFlowStrategyV21_Abl2(IStrategy):
    """
    Ablation Variant 2: 移除条件 2
    v2.1改动（相对于v1.6）：
      在4H级别计算趋势强度：最近2个Swing High间距 + Swing Low间距的变化。
      只有趋势在扩张（或至少不收缩）时才允许入场。
    """
    can_short = True
    stoploss = -0.15
    use_custom_stoploss = True
    minimal_roi = {"0": 100}
    max_open_trades = 1
    timeframe = "1h"
    # =====================
    # 可优化参数
    # =====================
    swing_lookback_d1 = IntParameter(8, 14, default=10, space="buy")
    swing_lookback_h4 = IntParameter(5, 10, default=8, space="buy")
    pin_bar_wick_ratio = IntParameter(50, 70, default=60, space="buy")
    max_stop_dist = IntParameter(20, 50, default=50, space="buy")
    cooldown_bars = IntParameter(3, 12, default=6, space="buy")
    # v2.1 新增：趋势强度最小扩张比例（x/100 = 0%~50%）
    # 0 = 只要不收缩就行；越大要求趋势扩张越强
    trend_strength_min = IntParameter(-50, 20, default=-20, space="buy")  # -20=允许SP轻微收缩, 最佳值
    # =====================
    # 工具：Swing Point 检测
    # =====================
    @staticmethod
    def _detect_swing_points(
        high: pd.Series,
        low: pd.Series,
        window: int = 5,
    ) -> tuple[pd.Series, pd.Series]:
        n = len(high)
        sh = pd.Series(np.nan, index=high.index, dtype=float)
        sl = pd.Series(np.nan, index=low.index, dtype=float)
        for i in range(window, n - window):
            if high.iloc[i] > high.iloc[i - window : i].max() and high.iloc[i] > high.iloc[i + 1 : i + window + 1].max():
                sh.iloc[i] = high.iloc[i]
            if low.iloc[i] < low.iloc[i - window : i].min() and low.iloc[i] < low.iloc[i + 1 : i + window + 1].min():
                sl.iloc[i] = low.iloc[i]
        return sh, sl
    # =====================
    # 工具：结构分析
    # =====================
    def _build_structure(
        self,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        swing_high: pd.Series,
        swing_low: pd.Series,
    ) -> DataFrame:
        n = len(high)
        trend_up_arr = np.full(n, False)
        trend_down_arr = np.full(n, False)
        nearest_support = np.full(n, np.nan)
        nearest_resistance = np.full(n, np.nan)
        in_demand_zone = np.full(n, False)
        in_supply_zone = np.full(n, False)
        sh_prices = []
        sl_prices = []
        for i in range(n):
            if pd.notna(swing_high.iloc[i]):
                sh_prices.append(swing_high.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(swing_low.iloc[i]):
                sl_prices.append(swing_low.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                if sh_prices[-1] > sh_prices[-2] and sl_prices[-1] > sl_prices[-2]:
                    trend_up_arr[i] = True
                elif sh_prices[-1] < sh_prices[-2] and sl_prices[-1] < sl_prices[-2]:
                    trend_down_arr[i] = True
                elif i > 0:
                    trend_up_arr[i] = trend_up_arr[i - 1]
                    trend_down_arr[i] = trend_down_arr[i - 1]
            elif i > 0:
                trend_up_arr[i] = trend_up_arr[i - 1]
                trend_down_arr[i] = trend_down_arr[i - 1]
            if sl_prices:
                nearest_support[i] = sl_prices[-1]
            if sh_prices:
                nearest_resistance[i] = sh_prices[-1]
            c = close.iloc[i]
            if not np.isnan(nearest_support[i]) and not np.isnan(nearest_resistance[i]):
                zone_range = nearest_resistance[i] - nearest_support[i]
                if zone_range > 0:
                    pos_pct = (c - nearest_support[i]) / zone_range
                    in_demand_zone[i] = pos_pct < 0.35
                    in_supply_zone[i] = pos_pct > 0.65
        return DataFrame({
            "trend_up": trend_up_arr,
            "trend_down": trend_down_arr,
            "support": nearest_support,
            "resistance": nearest_resistance,
            "in_demand": in_demand_zone,
            "in_supply": in_supply_zone,
        }, index=high.index)
    # =====================
    # 工具：K线形态检测
    # =====================
    @staticmethod
    def _detect_candle_patterns(
        open_: pd.Series,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        pin_bar_wick_ratio: float = 0.6,
    ) -> tuple[pd.Series, pd.Series, pd.Series, pd.Series]:
        body = (close - open_).abs()
        total_range = (high - low).replace(0, 0.0001)
        upper_wick = high - close.where(close > open_, open_)
        lower_wick = open_.where(close > open_, close) - low
        is_pin = (upper_wick + lower_wick) / total_range > pin_bar_wick_ratio
        bullish_pin = is_pin & (close > open_) & (lower_wick > upper_wick)
        bearish_pin = is_pin & (close < open_) & (upper_wick > lower_wick)
        prev_open = open_.shift(1)
        prev_close = close.shift(1)
        bullish_engulf = (close > prev_open) & (open_ < prev_close) & (close > open_)
        bearish_engulf = (close < prev_open) & (open_ > prev_close) & (close < open_)
        return bullish_pin, bearish_pin, bullish_engulf, bearish_engulf
    # ================================================================
    #  信息时间框架 — D1 宏观结构
    # ================================================================
    @informative("1d")
    def populate_indicators_1d(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_d1.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        return dataframe
    # ================================================================
    #  信息时间框架 — 4H 中期结构
    # ================================================================
    @informative("4h")
    def populate_indicators_4h(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_h4.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        dataframe["support"] = structure["support"]
        dataframe["resistance"] = structure["resistance"]
        dataframe["in_demand"] = structure["in_demand"]
        dataframe["in_supply"] = structure["in_supply"]
        # ================================
        # v1.6 活支撑/阻力检查（保留）
        # ================================
        touched_support = (
            (dataframe["low"] <= dataframe["support"] * 1.005) &
            (dataframe["low"] >= dataframe["support"] * 0.995)
        )
        held_support = dataframe["close"] > dataframe["support"]
        support_tested_and_held = touched_support & held_support
        dataframe["support_alive"] = support_tested_and_held.rolling(3, min_periods=1).max() > 0
        touched_resistance = (
            (dataframe["high"] >= dataframe["resistance"] * 0.995) &
            (dataframe["high"] <= dataframe["resistance"] * 1.005)
        )
        held_resistance = dataframe["close"] < dataframe["resistance"]
        resistance_tested_and_held = touched_resistance & held_resistance
        dataframe["resistance_alive"] = resistance_tested_and_held.rolling(3, min_periods=1).max() > 0
        # ================================
        # v2.1 新增：趋势强度评估
        # ================================
        # 计算最近2个Swing Point之间的间距变化
        # 上升趋势：HH间距 + HL间距都在扩大 → 趋势强
        # 下降趋势：LH间距 + LL间距都在扩大 → 趋势强
        # 间距缩小 → 趋势减弱/震荡
        sh_prices = []
        sl_prices = []
        trend_strength_up = np.full(len(dataframe), np.nan)
        trend_strength_down = np.full(len(dataframe), np.nan)
        for i in range(len(dataframe)):
            if pd.notna(sh.iloc[i]):
                sh_prices.append(sh.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(sl.iloc[i]):
                sl_prices.append(sl.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            # 上升趋势强度：HH[-1] vs HH[-2], HL[-1] vs HL[-2]
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                # HH间距：最近两个Swing High的差值百分比
                hh_dist = (sh_prices[-1] - sh_prices[-2]) / sh_prices[-2] if sh_prices[-2] > 0 else 0
                # HL间距：最近两个Swing Low的差值百分比
                hl_dist = (sl_prices[-1] - sl_prices[-2]) / sl_prices[-2] if sl_prices[-2] > 0 else 0
                # 上升趋势强度 = HH间距 + HL间距（都正=扩张，一正一负=不确定，都负=收缩）
                trend_strength_up[i] = hh_dist + hl_dist
                # 下降趋势强度（取反：间距缩小是负值）
                trend_strength_down[i] = -(hh_dist + hl_dist)
        dataframe["trend_strength_up"] = pd.Series(trend_strength_up, index=dataframe.index)
        dataframe["trend_strength_down"] = pd.Series(trend_strength_down, index=dataframe.index)
        # 趋势强度是否足够（扩张中）
        min_strength = self.trend_strength_min.value / 100.0  # 0~0.30
        dataframe["strong_uptrend"] = dataframe["trend_strength_up"] > min_strength
        dataframe["strong_downtrend"] = dataframe["trend_strength_down"] > min_strength
        return dataframe
    # ================================================================
    #  主时间框架 — 1H 指标
    # ================================================================
    def populate_indicators(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        """1H 级别：K线形态（零指标）。"""
        bullish_pin, bearish_pin, bullish_engulf, bearish_engulf = (
            self._detect_candle_patterns(
                dataframe["open"],
                dataframe["high"],
                dataframe["low"],
                dataframe["close"],
                self.pin_bar_wick_ratio.value / 100.0,
            )
        )
        dataframe["bullish_pinbar"] = bullish_pin
        dataframe["bearish_pinbar"] = bearish_pin
        dataframe["bullish_engulfing"] = bullish_engulf
        dataframe["bearish_engulfing"] = bearish_engulf
        dataframe["bullish_signal"] = bullish_pin | bullish_engulf
        dataframe["bearish_signal"] = bearish_pin | bearish_engulf
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        return dataframe
    # =====================
    # 入场信号
    # =====================
    def populate_entry_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """
        入场逻辑（1H 时间框架）。
        v2.1 核心改动：D1 — 趋势强度过滤
          做多额外条件：4H上升趋势在扩张（strong_uptrend_4h）
          做空额外条件：4H下降趋势在扩张（strong_downtrend_4h）
        """
        max_dist = self.max_stop_dist.value / 100.0
        cooldown = self.cooldown_bars.value
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        # ── 做多 ──
        long_stop_dist = (dataframe["open"] - dataframe["support_4h"]) / dataframe["open"]
        long_base = (
            dataframe["trend_up_1d"]
            & dataframe["bullish_signal"]
            & (long_stop_dist <= max_dist)
            & (long_stop_dist > 0.003)
            & dataframe["support_alive_4h"]
            # v2.1: 趋势强度 — 4H上升趋势必须在扩张
            & dataframe["strong_uptrend_4h"]
        )
        long_recent = long_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[long_base & long_recent, "enter_long"] = 1
        # ── 做空 ──
        short_stop_dist = (dataframe["resistance_4h"] - dataframe["open"]) / dataframe["open"]
        short_base = (
            dataframe["trend_down_1d"]
            & dataframe["bearish_signal"]
            & (short_stop_dist <= max_dist)
            & (short_stop_dist > 0.003)
            & dataframe["resistance_alive_4h"]
            # v2.1: 趋势强度 — 4H下降趋势必须在扩张
            & dataframe["strong_downtrend_4h"]
        )
        short_recent = short_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[short_base & short_recent, "enter_short"] = 1
        return dataframe
    # =====================
    # 出场信号
    # =====================
    def populate_exit_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """出场逻辑 — 由结构反转触发。"""
        exit_long = ~dataframe["trend_up_1d"].fillna(True)
        dataframe.loc[exit_long, "exit_long"] = 1
        exit_short = dataframe["trend_up_1d"].fillna(False)
        dataframe.loc[exit_short, "exit_short"] = 1
        return dataframe
    # =====================
    # 动态止损 — 纯价格结构（基于Swing Point）
    # =====================
    def custom_stoploss(
        self,
        pair: str,
        trade: Trade,
        current_time: datetime,
        current_rate: float,
        current_profit: float,
        after_fill: bool,
        **kwargs,
    ) -> float:
        """
        止损逻辑：完全基于价格结构，零指标（与v1.6相同）。
        """
        dataframe, _ = self.dp.get_analyzed_dataframe(pair, self.timeframe)
        if dataframe is None or len(dataframe) == 0:
            return -0.02 if not trade.is_short else 0.02
        last = dataframe.iloc[-1]
        if not trade.is_short:
            support = last.get("support_4h", np.nan)
            if pd.isna(support) or support <= 0:
                return -0.02
            sl_price = support * 0.999
            sl_ratio = (sl_price / current_rate) - 1.0
            return max(sl_ratio, -0.15)
        else:
            resistance = last.get("resistance_4h", np.nan)
            if pd.isna(resistance) or resistance <= 0:
                return 0.02
            sl_price = resistance * 1.001
            sl_ratio = 1.0 - (sl_price / current_rate)
            return min(sl_ratio, 0.15)
    # =====================
    # Plot config
    # =====================
    @staticmethod
    def plot_config() -> dict:
        return {
            "main_plot": {
                "support_4h": {"color": "green", "type": "line"},
                "resistance_4h": {"color": "red", "type": "line"},
            },
            "subplots": {
                "signals": {
                    "bullish_pinbar": {"color": "green", "type": "scatter"},
                    "bearish_pinbar": {"color": "red", "type": "scatter"},
                },
                "filters": {
                    "support_alive_4h": {"color": "green", "type": "line"},
                    "resistance_alive_4h": {"color": "red", "type": "line"},
                    "strong_uptrend_4h": {"color": "blue", "type": "line"},
                    "strong_downtrend_4h": {"color": "orange", "type": "line"},
                },
            },
        }
--- a/ablation/ablation_3.py
+++ b/ablation/ablation_3.py
@ -0,0 +1,454 @@
 """
 Structure Flow Strategy v2.1
 =======================
 变更记录：
  v1.6 (2026-06-07): 最优基线 — +3659.63%, 190笔, 69.3% trailing胜率
  v2.0 (2026-06-08): B1 入场延迟确认 — 方向正确但降频严重
  v2.1 (2026-06-08): ===== D1: 趋势强度过滤 =====
                      在4H级别评估趋势强度：最近2个Swing Point的间距变化。
                      如果趋势在扩张（HH/HL间距增大），允许入场；
                      如果趋势在收缩（HH/HL间距缩小或震荡），过滤信号。
                      目的：只在趋势明确时交易，避免震荡市反复止损。
 """
 from datetime import datetime
 import numpy as np
 import pandas as pd
 from pandas import DataFrame
 from freqtrade.strategy import IStrategy, IntParameter, informative
 from freqtrade.persistence import Trade
 class StructureFlowStrategyV21_Abl3(IStrategy):
    """
    Ablation Variant 3: 移除条件 3
    v2.1改动（相对于v1.6）：
      在4H级别计算趋势强度：最近2个Swing High间距 + Swing Low间距的变化。
      只有趋势在扩张（或至少不收缩）时才允许入场。
    """
    can_short = True
    stoploss = -0.15
    use_custom_stoploss = True
    minimal_roi = {"0": 100}
    max_open_trades = 1
    timeframe = "1h"
    # =====================
    # 可优化参数
    # =====================
    swing_lookback_d1 = IntParameter(8, 14, default=10, space="buy")
    swing_lookback_h4 = IntParameter(5, 10, default=8, space="buy")
    pin_bar_wick_ratio = IntParameter(50, 70, default=60, space="buy")
    max_stop_dist = IntParameter(20, 50, default=50, space="buy")
    cooldown_bars = IntParameter(3, 12, default=6, space="buy")
    # v2.1 新增：趋势强度最小扩张比例（x/100 = 0%~50%）
    # 0 = 只要不收缩就行；越大要求趋势扩张越强
    trend_strength_min = IntParameter(-50, 20, default=-20, space="buy")  # -20=允许SP轻微收缩, 最佳值
    # =====================
    # 工具：Swing Point 检测
    # =====================
    @staticmethod
    def _detect_swing_points(
        high: pd.Series,
        low: pd.Series,
        window: int = 5,
    ) -> tuple[pd.Series, pd.Series]:
        n = len(high)
        sh = pd.Series(np.nan, index=high.index, dtype=float)
        sl = pd.Series(np.nan, index=low.index, dtype=float)
        for i in range(window, n - window):
            if high.iloc[i] > high.iloc[i - window : i].max() and high.iloc[i] > high.iloc[i + 1 : i + window + 1].max():
                sh.iloc[i] = high.iloc[i]
            if low.iloc[i] < low.iloc[i - window : i].min() and low.iloc[i] < low.iloc[i + 1 : i + window + 1].min():
                sl.iloc[i] = low.iloc[i]
        return sh, sl
    # =====================
    # 工具：结构分析
    # =====================
    def _build_structure(
        self,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        swing_high: pd.Series,
        swing_low: pd.Series,
    ) -> DataFrame:
        n = len(high)
        trend_up_arr = np.full(n, False)
        trend_down_arr = np.full(n, False)
        nearest_support = np.full(n, np.nan)
        nearest_resistance = np.full(n, np.nan)
        in_demand_zone = np.full(n, False)
        in_supply_zone = np.full(n, False)
        sh_prices = []
        sl_prices = []
        for i in range(n):
            if pd.notna(swing_high.iloc[i]):
                sh_prices.append(swing_high.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(swing_low.iloc[i]):
                sl_prices.append(swing_low.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                if sh_prices[-1] > sh_prices[-2] and sl_prices[-1] > sl_prices[-2]:
                    trend_up_arr[i] = True
                elif sh_prices[-1] < sh_prices[-2] and sl_prices[-1] < sl_prices[-2]:
                    trend_down_arr[i] = True
                elif i > 0:
                    trend_up_arr[i] = trend_up_arr[i - 1]
                    trend_down_arr[i] = trend_down_arr[i - 1]
            elif i > 0:
                trend_up_arr[i] = trend_up_arr[i - 1]
                trend_down_arr[i] = trend_down_arr[i - 1]
            if sl_prices:
                nearest_support[i] = sl_prices[-1]
            if sh_prices:
                nearest_resistance[i] = sh_prices[-1]
            c = close.iloc[i]
            if not np.isnan(nearest_support[i]) and not np.isnan(nearest_resistance[i]):
                zone_range = nearest_resistance[i] - nearest_support[i]
                if zone_range > 0:
                    pos_pct = (c - nearest_support[i]) / zone_range
                    in_demand_zone[i] = pos_pct < 0.35
                    in_supply_zone[i] = pos_pct > 0.65
        return DataFrame({
            "trend_up": trend_up_arr,
            "trend_down": trend_down_arr,
            "support": nearest_support,
            "resistance": nearest_resistance,
            "in_demand": in_demand_zone,
            "in_supply": in_supply_zone,
        }, index=high.index)
    # =====================
    # 工具：K线形态检测
    # =====================
    @staticmethod
    def _detect_candle_patterns(
        open_: pd.Series,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        pin_bar_wick_ratio: float = 0.6,
    ) -> tuple[pd.Series, pd.Series, pd.Series, pd.Series]:
        body = (close - open_).abs()
        total_range = (high - low).replace(0, 0.0001)
        upper_wick = high - close.where(close > open_, open_)
        lower_wick = open_.where(close > open_, close) - low
        is_pin = (upper_wick + lower_wick) / total_range > pin_bar_wick_ratio
        bullish_pin = is_pin & (close > open_) & (lower_wick > upper_wick)
        bearish_pin = is_pin & (close < open_) & (upper_wick > lower_wick)
        prev_open = open_.shift(1)
        prev_close = close.shift(1)
        bullish_engulf = (close > prev_open) & (open_ < prev_close) & (close > open_)
        bearish_engulf = (close < prev_open) & (open_ > prev_close) & (close < open_)
        return bullish_pin, bearish_pin, bullish_engulf, bearish_engulf
    # ================================================================
    #  信息时间框架 — D1 宏观结构
    # ================================================================
    @informative("1d")
    def populate_indicators_1d(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_d1.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        return dataframe
    # ================================================================
    #  信息时间框架 — 4H 中期结构
    # ================================================================
    @informative("4h")
    def populate_indicators_4h(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_h4.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        dataframe["support"] = structure["support"]
        dataframe["resistance"] = structure["resistance"]
        dataframe["in_demand"] = structure["in_demand"]
        dataframe["in_supply"] = structure["in_supply"]
        # ================================
        # v1.6 活支撑/阻力检查（保留）
        # ================================
        touched_support = (
            (dataframe["low"] <= dataframe["support"] * 1.005) &
            (dataframe["low"] >= dataframe["support"] * 0.995)
        )
        held_support = dataframe["close"] > dataframe["support"]
        support_tested_and_held = touched_support & held_support
        dataframe["support_alive"] = support_tested_and_held.rolling(3, min_periods=1).max() > 0
        touched_resistance = (
            (dataframe["high"] >= dataframe["resistance"] * 0.995) &
            (dataframe["high"] <= dataframe["resistance"] * 1.005)
        )
        held_resistance = dataframe["close"] < dataframe["resistance"]
        resistance_tested_and_held = touched_resistance & held_resistance
        dataframe["resistance_alive"] = resistance_tested_and_held.rolling(3, min_periods=1).max() > 0
        # ================================
        # v2.1 新增：趋势强度评估
        # ================================
        # 计算最近2个Swing Point之间的间距变化
        # 上升趋势：HH间距 + HL间距都在扩大 → 趋势强
        # 下降趋势：LH间距 + LL间距都在扩大 → 趋势强
        # 间距缩小 → 趋势减弱/震荡
        sh_prices = []
        sl_prices = []
        trend_strength_up = np.full(len(dataframe), np.nan)
        trend_strength_down = np.full(len(dataframe), np.nan)
        for i in range(len(dataframe)):
            if pd.notna(sh.iloc[i]):
                sh_prices.append(sh.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(sl.iloc[i]):
                sl_prices.append(sl.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            # 上升趋势强度：HH[-1] vs HH[-2], HL[-1] vs HL[-2]
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                # HH间距：最近两个Swing High的差值百分比
                hh_dist = (sh_prices[-1] - sh_prices[-2]) / sh_prices[-2] if sh_prices[-2] > 0 else 0
                # HL间距：最近两个Swing Low的差值百分比
                hl_dist = (sl_prices[-1] - sl_prices[-2]) / sl_prices[-2] if sl_prices[-2] > 0 else 0
                # 上升趋势强度 = HH间距 + HL间距（都正=扩张，一正一负=不确定，都负=收缩）
                trend_strength_up[i] = hh_dist + hl_dist
                # 下降趋势强度（取反：间距缩小是负值）
                trend_strength_down[i] = -(hh_dist + hl_dist)
        dataframe["trend_strength_up"] = pd.Series(trend_strength_up, index=dataframe.index)
        dataframe["trend_strength_down"] = pd.Series(trend_strength_down, index=dataframe.index)
        # 趋势强度是否足够（扩张中）
        min_strength = self.trend_strength_min.value / 100.0  # 0~0.30
        dataframe["strong_uptrend"] = dataframe["trend_strength_up"] > min_strength
        dataframe["strong_downtrend"] = dataframe["trend_strength_down"] > min_strength
        return dataframe
    # ================================================================
    #  主时间框架 — 1H 指标
    # ================================================================
    def populate_indicators(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        """1H 级别：K线形态（零指标）。"""
        bullish_pin, bearish_pin, bullish_engulf, bearish_engulf = (
            self._detect_candle_patterns(
                dataframe["open"],
                dataframe["high"],
                dataframe["low"],
                dataframe["close"],
                self.pin_bar_wick_ratio.value / 100.0,
            )
        )
        dataframe["bullish_pinbar"] = bullish_pin
        dataframe["bearish_pinbar"] = bearish_pin
        dataframe["bullish_engulfing"] = bullish_engulf
        dataframe["bearish_engulfing"] = bearish_engulf
        dataframe["bullish_signal"] = bullish_pin | bullish_engulf
        dataframe["bearish_signal"] = bearish_pin | bearish_engulf
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        return dataframe
    # =====================
    # 入场信号
    # =====================
    def populate_entry_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """
        入场逻辑（1H 时间框架）。
        v2.1 核心改动：D1 — 趋势强度过滤
          做多额外条件：4H上升趋势在扩张（strong_uptrend_4h）
          做空额外条件：4H下降趋势在扩张（strong_downtrend_4h）
        """
        max_dist = self.max_stop_dist.value / 100.0
        cooldown = self.cooldown_bars.value
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        # ── 做多 ──
        long_stop_dist = (dataframe["open"] - dataframe["support_4h"]) / dataframe["open"]
        long_base = (
            dataframe["trend_up_1d"]
            & dataframe["in_demand_4h"]
            & (long_stop_dist <= max_dist)
            & (long_stop_dist > 0.003)
            & dataframe["support_alive_4h"]
            # v2.1: 趋势强度 — 4H上升趋势必须在扩张
            & dataframe["strong_uptrend_4h"]
        )
        long_recent = long_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[long_base & long_recent, "enter_long"] = 1
        # ── 做空 ──
        short_stop_dist = (dataframe["resistance_4h"] - dataframe["open"]) / dataframe["open"]
        short_base = (
            dataframe["trend_down_1d"]
            & dataframe["in_supply_4h"]
            & (short_stop_dist <= max_dist)
            & (short_stop_dist > 0.003)
            & dataframe["resistance_alive_4h"]
            # v2.1: 趋势强度 — 4H下降趋势必须在扩张
            & dataframe["strong_downtrend_4h"]
        )
        short_recent = short_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[short_base & short_recent, "enter_short"] = 1
        return dataframe
    # =====================
    # 出场信号
    # =====================
    def populate_exit_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """出场逻辑 — 由结构反转触发。"""
        exit_long = ~dataframe["trend_up_1d"].fillna(True)
        dataframe.loc[exit_long, "exit_long"] = 1
        exit_short = dataframe["trend_up_1d"].fillna(False)
        dataframe.loc[exit_short, "exit_short"] = 1
        return dataframe
    # =====================
    # 动态止损 — 纯价格结构（基于Swing Point）
    # =====================
    def custom_stoploss(
        self,
        pair: str,
        trade: Trade,
        current_time: datetime,
        current_rate: float,
        current_profit: float,
        after_fill: bool,
        **kwargs,
    ) -> float:
        """
        止损逻辑：完全基于价格结构，零指标（与v1.6相同）。
        """
        dataframe, _ = self.dp.get_analyzed_dataframe(pair, self.timeframe)
        if dataframe is None or len(dataframe) == 0:
            return -0.02 if not trade.is_short else 0.02
        last = dataframe.iloc[-1]
        if not trade.is_short:
            support = last.get("support_4h", np.nan)
            if pd.isna(support) or support <= 0:
                return -0.02
            sl_price = support * 0.999
            sl_ratio = (sl_price / current_rate) - 1.0
            return max(sl_ratio, -0.15)
        else:
            resistance = last.get("resistance_4h", np.nan)
            if pd.isna(resistance) or resistance <= 0:
                return 0.02
            sl_price = resistance * 1.001
            sl_ratio = 1.0 - (sl_price / current_rate)
            return min(sl_ratio, 0.15)
    # =====================
    # Plot config
    # =====================
    @staticmethod
    def plot_config() -> dict:
        return {
            "main_plot": {
                "support_4h": {"color": "green", "type": "line"},
                "resistance_4h": {"color": "red", "type": "line"},
            },
            "subplots": {
                "signals": {
                    "bullish_pinbar": {"color": "green", "type": "scatter"},
                    "bearish_pinbar": {"color": "red", "type": "scatter"},
                },
                "filters": {
                    "support_alive_4h": {"color": "green", "type": "line"},
                    "resistance_alive_4h": {"color": "red", "type": "line"},
                    "strong_uptrend_4h": {"color": "blue", "type": "line"},
                    "strong_downtrend_4h": {"color": "orange", "type": "line"},
                },
            },
        }
--- a/ablation/ablation_4.py
+++ b/ablation/ablation_4.py
@ -0,0 +1,454 @@
 """
 Structure Flow Strategy v2.1
 =======================
 变更记录：
  v1.6 (2026-06-07): 最优基线 — +3659.63%, 190笔, 69.3% trailing胜率
  v2.0 (2026-06-08): B1 入场延迟确认 — 方向正确但降频严重
  v2.1 (2026-06-08): ===== D1: 趋势强度过滤 =====
                      在4H级别评估趋势强度：最近2个Swing Point的间距变化。
                      如果趋势在扩张（HH/HL间距增大），允许入场；
                      如果趋势在收缩（HH/HL间距缩小或震荡），过滤信号。
                      目的：只在趋势明确时交易，避免震荡市反复止损。
 """
 from datetime import datetime
 import numpy as np
 import pandas as pd
 from pandas import DataFrame
 from freqtrade.strategy import IStrategy, IntParameter, informative
 from freqtrade.persistence import Trade
 class StructureFlowStrategyV21_Abl4(IStrategy):
    """
    Ablation Variant 4: 移除条件 4
    v2.1改动（相对于v1.6）：
      在4H级别计算趋势强度：最近2个Swing High间距 + Swing Low间距的变化。
      只有趋势在扩张（或至少不收缩）时才允许入场。
    """
    can_short = True
    stoploss = -0.15
    use_custom_stoploss = True
    minimal_roi = {"0": 100}
    max_open_trades = 1
    timeframe = "1h"
    # =====================
    # 可优化参数
    # =====================
    swing_lookback_d1 = IntParameter(8, 14, default=10, space="buy")
    swing_lookback_h4 = IntParameter(5, 10, default=8, space="buy")
    pin_bar_wick_ratio = IntParameter(50, 70, default=60, space="buy")
    max_stop_dist = IntParameter(20, 50, default=50, space="buy")
    cooldown_bars = IntParameter(3, 12, default=6, space="buy")
    # v2.1 新增：趋势强度最小扩张比例（x/100 = 0%~50%）
    # 0 = 只要不收缩就行；越大要求趋势扩张越强
    trend_strength_min = IntParameter(-50, 20, default=-20, space="buy")  # -20=允许SP轻微收缩, 最佳值
    # =====================
    # 工具：Swing Point 检测
    # =====================
    @staticmethod
    def _detect_swing_points(
        high: pd.Series,
        low: pd.Series,
        window: int = 5,
    ) -> tuple[pd.Series, pd.Series]:
        n = len(high)
        sh = pd.Series(np.nan, index=high.index, dtype=float)
        sl = pd.Series(np.nan, index=low.index, dtype=float)
        for i in range(window, n - window):
            if high.iloc[i] > high.iloc[i - window : i].max() and high.iloc[i] > high.iloc[i + 1 : i + window + 1].max():
                sh.iloc[i] = high.iloc[i]
            if low.iloc[i] < low.iloc[i - window : i].min() and low.iloc[i] < low.iloc[i + 1 : i + window + 1].min():
                sl.iloc[i] = low.iloc[i]
        return sh, sl
    # =====================
    # 工具：结构分析
    # =====================
    def _build_structure(
        self,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        swing_high: pd.Series,
        swing_low: pd.Series,
    ) -> DataFrame:
        n = len(high)
        trend_up_arr = np.full(n, False)
        trend_down_arr = np.full(n, False)
        nearest_support = np.full(n, np.nan)
        nearest_resistance = np.full(n, np.nan)
        in_demand_zone = np.full(n, False)
        in_supply_zone = np.full(n, False)
        sh_prices = []
        sl_prices = []
        for i in range(n):
            if pd.notna(swing_high.iloc[i]):
                sh_prices.append(swing_high.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(swing_low.iloc[i]):
                sl_prices.append(swing_low.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                if sh_prices[-1] > sh_prices[-2] and sl_prices[-1] > sl_prices[-2]:
                    trend_up_arr[i] = True
                elif sh_prices[-1] < sh_prices[-2] and sl_prices[-1] < sl_prices[-2]:
                    trend_down_arr[i] = True
                elif i > 0:
                    trend_up_arr[i] = trend_up_arr[i - 1]
                    trend_down_arr[i] = trend_down_arr[i - 1]
            elif i > 0:
                trend_up_arr[i] = trend_up_arr[i - 1]
                trend_down_arr[i] = trend_down_arr[i - 1]
            if sl_prices:
                nearest_support[i] = sl_prices[-1]
            if sh_prices:
                nearest_resistance[i] = sh_prices[-1]
            c = close.iloc[i]
            if not np.isnan(nearest_support[i]) and not np.isnan(nearest_resistance[i]):
                zone_range = nearest_resistance[i] - nearest_support[i]
                if zone_range > 0:
                    pos_pct = (c - nearest_support[i]) / zone_range
                    in_demand_zone[i] = pos_pct < 0.35
                    in_supply_zone[i] = pos_pct > 0.65
        return DataFrame({
            "trend_up": trend_up_arr,
            "trend_down": trend_down_arr,
            "support": nearest_support,
            "resistance": nearest_resistance,
            "in_demand": in_demand_zone,
            "in_supply": in_supply_zone,
        }, index=high.index)
    # =====================
    # 工具：K线形态检测
    # =====================
    @staticmethod
    def _detect_candle_patterns(
        open_: pd.Series,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        pin_bar_wick_ratio: float = 0.6,
    ) -> tuple[pd.Series, pd.Series, pd.Series, pd.Series]:
        body = (close - open_).abs()
        total_range = (high - low).replace(0, 0.0001)
        upper_wick = high - close.where(close > open_, open_)
        lower_wick = open_.where(close > open_, close) - low
        is_pin = (upper_wick + lower_wick) / total_range > pin_bar_wick_ratio
        bullish_pin = is_pin & (close > open_) & (lower_wick > upper_wick)
        bearish_pin = is_pin & (close < open_) & (upper_wick > lower_wick)
        prev_open = open_.shift(1)
        prev_close = close.shift(1)
        bullish_engulf = (close > prev_open) & (open_ < prev_close) & (close > open_)
        bearish_engulf = (close < prev_open) & (open_ > prev_close) & (close < open_)
        return bullish_pin, bearish_pin, bullish_engulf, bearish_engulf
    # ================================================================
    #  信息时间框架 — D1 宏观结构
    # ================================================================
    @informative("1d")
    def populate_indicators_1d(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_d1.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        return dataframe
    # ================================================================
    #  信息时间框架 — 4H 中期结构
    # ================================================================
    @informative("4h")
    def populate_indicators_4h(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_h4.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        dataframe["support"] = structure["support"]
        dataframe["resistance"] = structure["resistance"]
        dataframe["in_demand"] = structure["in_demand"]
        dataframe["in_supply"] = structure["in_supply"]
        # ================================
        # v1.6 活支撑/阻力检查（保留）
        # ================================
        touched_support = (
            (dataframe["low"] <= dataframe["support"] * 1.005) &
            (dataframe["low"] >= dataframe["support"] * 0.995)
        )
        held_support = dataframe["close"] > dataframe["support"]
        support_tested_and_held = touched_support & held_support
        dataframe["support_alive"] = support_tested_and_held.rolling(3, min_periods=1).max() > 0
        touched_resistance = (
            (dataframe["high"] >= dataframe["resistance"] * 0.995) &
            (dataframe["high"] <= dataframe["resistance"] * 1.005)
        )
        held_resistance = dataframe["close"] < dataframe["resistance"]
        resistance_tested_and_held = touched_resistance & held_resistance
        dataframe["resistance_alive"] = resistance_tested_and_held.rolling(3, min_periods=1).max() > 0
        # ================================
        # v2.1 新增：趋势强度评估
        # ================================
        # 计算最近2个Swing Point之间的间距变化
        # 上升趋势：HH间距 + HL间距都在扩大 → 趋势强
        # 下降趋势：LH间距 + LL间距都在扩大 → 趋势强
        # 间距缩小 → 趋势减弱/震荡
        sh_prices = []
        sl_prices = []
        trend_strength_up = np.full(len(dataframe), np.nan)
        trend_strength_down = np.full(len(dataframe), np.nan)
        for i in range(len(dataframe)):
            if pd.notna(sh.iloc[i]):
                sh_prices.append(sh.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(sl.iloc[i]):
                sl_prices.append(sl.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            # 上升趋势强度：HH[-1] vs HH[-2], HL[-1] vs HL[-2]
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                # HH间距：最近两个Swing High的差值百分比
                hh_dist = (sh_prices[-1] - sh_prices[-2]) / sh_prices[-2] if sh_prices[-2] > 0 else 0
                # HL间距：最近两个Swing Low的差值百分比
                hl_dist = (sl_prices[-1] - sl_prices[-2]) / sl_prices[-2] if sl_prices[-2] > 0 else 0
                # 上升趋势强度 = HH间距 + HL间距（都正=扩张，一正一负=不确定，都负=收缩）
                trend_strength_up[i] = hh_dist + hl_dist
                # 下降趋势强度（取反：间距缩小是负值）
                trend_strength_down[i] = -(hh_dist + hl_dist)
        dataframe["trend_strength_up"] = pd.Series(trend_strength_up, index=dataframe.index)
        dataframe["trend_strength_down"] = pd.Series(trend_strength_down, index=dataframe.index)
        # 趋势强度是否足够（扩张中）
        min_strength = self.trend_strength_min.value / 100.0  # 0~0.30
        dataframe["strong_uptrend"] = dataframe["trend_strength_up"] > min_strength
        dataframe["strong_downtrend"] = dataframe["trend_strength_down"] > min_strength
        return dataframe
    # ================================================================
    #  主时间框架 — 1H 指标
    # ================================================================
    def populate_indicators(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        """1H 级别：K线形态（零指标）。"""
        bullish_pin, bearish_pin, bullish_engulf, bearish_engulf = (
            self._detect_candle_patterns(
                dataframe["open"],
                dataframe["high"],
                dataframe["low"],
                dataframe["close"],
                self.pin_bar_wick_ratio.value / 100.0,
            )
        )
        dataframe["bullish_pinbar"] = bullish_pin
        dataframe["bearish_pinbar"] = bearish_pin
        dataframe["bullish_engulfing"] = bullish_engulf
        dataframe["bearish_engulfing"] = bearish_engulf
        dataframe["bullish_signal"] = bullish_pin | bullish_engulf
        dataframe["bearish_signal"] = bearish_pin | bearish_engulf
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        return dataframe
    # =====================
    # 入场信号
    # =====================
    def populate_entry_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """
        入场逻辑（1H 时间框架）。
        v2.1 核心改动：D1 — 趋势强度过滤
          做多额外条件：4H上升趋势在扩张（strong_uptrend_4h）
          做空额外条件：4H下降趋势在扩张（strong_downtrend_4h）
        """
        max_dist = self.max_stop_dist.value / 100.0
        cooldown = self.cooldown_bars.value
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        # ── 做多 ──
        long_stop_dist = (dataframe["open"] - dataframe["support_4h"]) / dataframe["open"]
        long_base = (
            dataframe["trend_up_1d"]
            & dataframe["in_demand_4h"]
            & dataframe["bullish_signal"]
            & (long_stop_dist > 0.003)
            & dataframe["support_alive_4h"]
            # v2.1: 趋势强度 — 4H上升趋势必须在扩张
            & dataframe["strong_uptrend_4h"]
        )
        long_recent = long_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[long_base & long_recent, "enter_long"] = 1
        # ── 做空 ──
        short_stop_dist = (dataframe["resistance_4h"] - dataframe["open"]) / dataframe["open"]
        short_base = (
            dataframe["trend_down_1d"]
            & dataframe["in_supply_4h"]
            & dataframe["bearish_signal"]
            & (short_stop_dist > 0.003)
            & dataframe["resistance_alive_4h"]
            # v2.1: 趋势强度 — 4H下降趋势必须在扩张
            & dataframe["strong_downtrend_4h"]
        )
        short_recent = short_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[short_base & short_recent, "enter_short"] = 1
        return dataframe
    # =====================
    # 出场信号
    # =====================
    def populate_exit_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """出场逻辑 — 由结构反转触发。"""
        exit_long = ~dataframe["trend_up_1d"].fillna(True)
        dataframe.loc[exit_long, "exit_long"] = 1
        exit_short = dataframe["trend_up_1d"].fillna(False)
        dataframe.loc[exit_short, "exit_short"] = 1
        return dataframe
    # =====================
    # 动态止损 — 纯价格结构（基于Swing Point）
    # =====================
    def custom_stoploss(
        self,
        pair: str,
        trade: Trade,
        current_time: datetime,
        current_rate: float,
        current_profit: float,
        after_fill: bool,
        **kwargs,
    ) -> float:
        """
        止损逻辑：完全基于价格结构，零指标（与v1.6相同）。
        """
        dataframe, _ = self.dp.get_analyzed_dataframe(pair, self.timeframe)
        if dataframe is None or len(dataframe) == 0:
            return -0.02 if not trade.is_short else 0.02
        last = dataframe.iloc[-1]
        if not trade.is_short:
            support = last.get("support_4h", np.nan)
            if pd.isna(support) or support <= 0:
                return -0.02
            sl_price = support * 0.999
            sl_ratio = (sl_price / current_rate) - 1.0
            return max(sl_ratio, -0.15)
        else:
            resistance = last.get("resistance_4h", np.nan)
            if pd.isna(resistance) or resistance <= 0:
                return 0.02
            sl_price = resistance * 1.001
            sl_ratio = 1.0 - (sl_price / current_rate)
            return min(sl_ratio, 0.15)
    # =====================
    # Plot config
    # =====================
    @staticmethod
    def plot_config() -> dict:
        return {
            "main_plot": {
                "support_4h": {"color": "green", "type": "line"},
                "resistance_4h": {"color": "red", "type": "line"},
            },
            "subplots": {
                "signals": {
                    "bullish_pinbar": {"color": "green", "type": "scatter"},
                    "bearish_pinbar": {"color": "red", "type": "scatter"},
                },
                "filters": {
                    "support_alive_4h": {"color": "green", "type": "line"},
                    "resistance_alive_4h": {"color": "red", "type": "line"},
                    "strong_uptrend_4h": {"color": "blue", "type": "line"},
                    "strong_downtrend_4h": {"color": "orange", "type": "line"},
                },
            },
        }
--- a/ablation/ablation_5.py
+++ b/ablation/ablation_5.py
@ -0,0 +1,454 @@
 """
 Structure Flow Strategy v2.1
 =======================
 变更记录：
  v1.6 (2026-06-07): 最优基线 — +3659.63%, 190笔, 69.3% trailing胜率
  v2.0 (2026-06-08): B1 入场延迟确认 — 方向正确但降频严重
  v2.1 (2026-06-08): ===== D1: 趋势强度过滤 =====
                      在4H级别评估趋势强度：最近2个Swing Point的间距变化。
                      如果趋势在扩张（HH/HL间距增大），允许入场；
                      如果趋势在收缩（HH/HL间距缩小或震荡），过滤信号。
                      目的：只在趋势明确时交易，避免震荡市反复止损。
 """
 from datetime import datetime
 import numpy as np
 import pandas as pd
 from pandas import DataFrame
 from freqtrade.strategy import IStrategy, IntParameter, informative
 from freqtrade.persistence import Trade
 class StructureFlowStrategyV21_Abl5(IStrategy):
    """
    Ablation Variant 5: 移除条件 5
    v2.1改动（相对于v1.6）：
      在4H级别计算趋势强度：最近2个Swing High间距 + Swing Low间距的变化。
      只有趋势在扩张（或至少不收缩）时才允许入场。
    """
    can_short = True
    stoploss = -0.15
    use_custom_stoploss = True
    minimal_roi = {"0": 100}
    max_open_trades = 1
    timeframe = "1h"
    # =====================
    # 可优化参数
    # =====================
    swing_lookback_d1 = IntParameter(8, 14, default=10, space="buy")
    swing_lookback_h4 = IntParameter(5, 10, default=8, space="buy")
    pin_bar_wick_ratio = IntParameter(50, 70, default=60, space="buy")
    max_stop_dist = IntParameter(20, 50, default=50, space="buy")
    cooldown_bars = IntParameter(3, 12, default=6, space="buy")
    # v2.1 新增：趋势强度最小扩张比例（x/100 = 0%~50%）
    # 0 = 只要不收缩就行；越大要求趋势扩张越强
    trend_strength_min = IntParameter(-50, 20, default=-20, space="buy")  # -20=允许SP轻微收缩, 最佳值
    # =====================
    # 工具：Swing Point 检测
    # =====================
    @staticmethod
    def _detect_swing_points(
        high: pd.Series,
        low: pd.Series,
        window: int = 5,
    ) -> tuple[pd.Series, pd.Series]:
        n = len(high)
        sh = pd.Series(np.nan, index=high.index, dtype=float)
        sl = pd.Series(np.nan, index=low.index, dtype=float)
        for i in range(window, n - window):
            if high.iloc[i] > high.iloc[i - window : i].max() and high.iloc[i] > high.iloc[i + 1 : i + window + 1].max():
                sh.iloc[i] = high.iloc[i]
            if low.iloc[i] < low.iloc[i - window : i].min() and low.iloc[i] < low.iloc[i + 1 : i + window + 1].min():
                sl.iloc[i] = low.iloc[i]
        return sh, sl
    # =====================
    # 工具：结构分析
    # =====================
    def _build_structure(
        self,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        swing_high: pd.Series,
        swing_low: pd.Series,
    ) -> DataFrame:
        n = len(high)
        trend_up_arr = np.full(n, False)
        trend_down_arr = np.full(n, False)
        nearest_support = np.full(n, np.nan)
        nearest_resistance = np.full(n, np.nan)
        in_demand_zone = np.full(n, False)
        in_supply_zone = np.full(n, False)
        sh_prices = []
        sl_prices = []
        for i in range(n):
            if pd.notna(swing_high.iloc[i]):
                sh_prices.append(swing_high.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(swing_low.iloc[i]):
                sl_prices.append(swing_low.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                if sh_prices[-1] > sh_prices[-2] and sl_prices[-1] > sl_prices[-2]:
                    trend_up_arr[i] = True
                elif sh_prices[-1] < sh_prices[-2] and sl_prices[-1] < sl_prices[-2]:
                    trend_down_arr[i] = True
                elif i > 0:
                    trend_up_arr[i] = trend_up_arr[i - 1]
                    trend_down_arr[i] = trend_down_arr[i - 1]
            elif i > 0:
                trend_up_arr[i] = trend_up_arr[i - 1]
                trend_down_arr[i] = trend_down_arr[i - 1]
            if sl_prices:
                nearest_support[i] = sl_prices[-1]
            if sh_prices:
                nearest_resistance[i] = sh_prices[-1]
            c = close.iloc[i]
            if not np.isnan(nearest_support[i]) and not np.isnan(nearest_resistance[i]):
                zone_range = nearest_resistance[i] - nearest_support[i]
                if zone_range > 0:
                    pos_pct = (c - nearest_support[i]) / zone_range
                    in_demand_zone[i] = pos_pct < 0.35
                    in_supply_zone[i] = pos_pct > 0.65
        return DataFrame({
            "trend_up": trend_up_arr,
            "trend_down": trend_down_arr,
            "support": nearest_support,
            "resistance": nearest_resistance,
            "in_demand": in_demand_zone,
            "in_supply": in_supply_zone,
        }, index=high.index)
    # =====================
    # 工具：K线形态检测
    # =====================
    @staticmethod
    def _detect_candle_patterns(
        open_: pd.Series,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        pin_bar_wick_ratio: float = 0.6,
    ) -> tuple[pd.Series, pd.Series, pd.Series, pd.Series]:
        body = (close - open_).abs()
        total_range = (high - low).replace(0, 0.0001)
        upper_wick = high - close.where(close > open_, open_)
        lower_wick = open_.where(close > open_, close) - low
        is_pin = (upper_wick + lower_wick) / total_range > pin_bar_wick_ratio
        bullish_pin = is_pin & (close > open_) & (lower_wick > upper_wick)
        bearish_pin = is_pin & (close < open_) & (upper_wick > lower_wick)
        prev_open = open_.shift(1)
        prev_close = close.shift(1)
        bullish_engulf = (close > prev_open) & (open_ < prev_close) & (close > open_)
        bearish_engulf = (close < prev_open) & (open_ > prev_close) & (close < open_)
        return bullish_pin, bearish_pin, bullish_engulf, bearish_engulf
    # ================================================================
    #  信息时间框架 — D1 宏观结构
    # ================================================================
    @informative("1d")
    def populate_indicators_1d(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_d1.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        return dataframe
    # ================================================================
    #  信息时间框架 — 4H 中期结构
    # ================================================================
    @informative("4h")
    def populate_indicators_4h(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_h4.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        dataframe["support"] = structure["support"]
        dataframe["resistance"] = structure["resistance"]
        dataframe["in_demand"] = structure["in_demand"]
        dataframe["in_supply"] = structure["in_supply"]
        # ================================
        # v1.6 活支撑/阻力检查（保留）
        # ================================
        touched_support = (
            (dataframe["low"] <= dataframe["support"] * 1.005) &
            (dataframe["low"] >= dataframe["support"] * 0.995)
        )
        held_support = dataframe["close"] > dataframe["support"]
        support_tested_and_held = touched_support & held_support
        dataframe["support_alive"] = support_tested_and_held.rolling(3, min_periods=1).max() > 0
        touched_resistance = (
            (dataframe["high"] >= dataframe["resistance"] * 0.995) &
            (dataframe["high"] <= dataframe["resistance"] * 1.005)
        )
        held_resistance = dataframe["close"] < dataframe["resistance"]
        resistance_tested_and_held = touched_resistance & held_resistance
        dataframe["resistance_alive"] = resistance_tested_and_held.rolling(3, min_periods=1).max() > 0
        # ================================
        # v2.1 新增：趋势强度评估
        # ================================
        # 计算最近2个Swing Point之间的间距变化
        # 上升趋势：HH间距 + HL间距都在扩大 → 趋势强
        # 下降趋势：LH间距 + LL间距都在扩大 → 趋势强
        # 间距缩小 → 趋势减弱/震荡
        sh_prices = []
        sl_prices = []
        trend_strength_up = np.full(len(dataframe), np.nan)
        trend_strength_down = np.full(len(dataframe), np.nan)
        for i in range(len(dataframe)):
            if pd.notna(sh.iloc[i]):
                sh_prices.append(sh.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(sl.iloc[i]):
                sl_prices.append(sl.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            # 上升趋势强度：HH[-1] vs HH[-2], HL[-1] vs HL[-2]
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                # HH间距：最近两个Swing High的差值百分比
                hh_dist = (sh_prices[-1] - sh_prices[-2]) / sh_prices[-2] if sh_prices[-2] > 0 else 0
                # HL间距：最近两个Swing Low的差值百分比
                hl_dist = (sl_prices[-1] - sl_prices[-2]) / sl_prices[-2] if sl_prices[-2] > 0 else 0
                # 上升趋势强度 = HH间距 + HL间距（都正=扩张，一正一负=不确定，都负=收缩）
                trend_strength_up[i] = hh_dist + hl_dist
                # 下降趋势强度（取反：间距缩小是负值）
                trend_strength_down[i] = -(hh_dist + hl_dist)
        dataframe["trend_strength_up"] = pd.Series(trend_strength_up, index=dataframe.index)
        dataframe["trend_strength_down"] = pd.Series(trend_strength_down, index=dataframe.index)
        # 趋势强度是否足够（扩张中）
        min_strength = self.trend_strength_min.value / 100.0  # 0~0.30
        dataframe["strong_uptrend"] = dataframe["trend_strength_up"] > min_strength
        dataframe["strong_downtrend"] = dataframe["trend_strength_down"] > min_strength
        return dataframe
    # ================================================================
    #  主时间框架 — 1H 指标
    # ================================================================
    def populate_indicators(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        """1H 级别：K线形态（零指标）。"""
        bullish_pin, bearish_pin, bullish_engulf, bearish_engulf = (
            self._detect_candle_patterns(
                dataframe["open"],
                dataframe["high"],
                dataframe["low"],
                dataframe["close"],
                self.pin_bar_wick_ratio.value / 100.0,
            )
        )
        dataframe["bullish_pinbar"] = bullish_pin
        dataframe["bearish_pinbar"] = bearish_pin
        dataframe["bullish_engulfing"] = bullish_engulf
        dataframe["bearish_engulfing"] = bearish_engulf
        dataframe["bullish_signal"] = bullish_pin | bullish_engulf
        dataframe["bearish_signal"] = bearish_pin | bearish_engulf
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        return dataframe
    # =====================
    # 入场信号
    # =====================
    def populate_entry_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """
        入场逻辑（1H 时间框架）。
        v2.1 核心改动：D1 — 趋势强度过滤
          做多额外条件：4H上升趋势在扩张（strong_uptrend_4h）
          做空额外条件：4H下降趋势在扩张（strong_downtrend_4h）
        """
        max_dist = self.max_stop_dist.value / 100.0
        cooldown = self.cooldown_bars.value
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        # ── 做多 ──
        long_stop_dist = (dataframe["open"] - dataframe["support_4h"]) / dataframe["open"]
        long_base = (
            dataframe["trend_up_1d"]
            & dataframe["in_demand_4h"]
            & dataframe["bullish_signal"]
            & (long_stop_dist <= max_dist)
            & dataframe["support_alive_4h"]
            # v2.1: 趋势强度 — 4H上升趋势必须在扩张
            & dataframe["strong_uptrend_4h"]
        )
        long_recent = long_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[long_base & long_recent, "enter_long"] = 1
        # ── 做空 ──
        short_stop_dist = (dataframe["resistance_4h"] - dataframe["open"]) / dataframe["open"]
        short_base = (
            dataframe["trend_down_1d"]
            & dataframe["in_supply_4h"]
            & dataframe["bearish_signal"]
            & (short_stop_dist <= max_dist)
            & dataframe["resistance_alive_4h"]
            # v2.1: 趋势强度 — 4H下降趋势必须在扩张
            & dataframe["strong_downtrend_4h"]
        )
        short_recent = short_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[short_base & short_recent, "enter_short"] = 1
        return dataframe
    # =====================
    # 出场信号
    # =====================
    def populate_exit_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """出场逻辑 — 由结构反转触发。"""
        exit_long = ~dataframe["trend_up_1d"].fillna(True)
        dataframe.loc[exit_long, "exit_long"] = 1
        exit_short = dataframe["trend_up_1d"].fillna(False)
        dataframe.loc[exit_short, "exit_short"] = 1
        return dataframe
    # =====================
    # 动态止损 — 纯价格结构（基于Swing Point）
    # =====================
    def custom_stoploss(
        self,
        pair: str,
        trade: Trade,
        current_time: datetime,
        current_rate: float,
        current_profit: float,
        after_fill: bool,
        **kwargs,
    ) -> float:
        """
        止损逻辑：完全基于价格结构，零指标（与v1.6相同）。
        """
        dataframe, _ = self.dp.get_analyzed_dataframe(pair, self.timeframe)
        if dataframe is None or len(dataframe) == 0:
            return -0.02 if not trade.is_short else 0.02
        last = dataframe.iloc[-1]
        if not trade.is_short:
            support = last.get("support_4h", np.nan)
            if pd.isna(support) or support <= 0:
                return -0.02
            sl_price = support * 0.999
            sl_ratio = (sl_price / current_rate) - 1.0
            return max(sl_ratio, -0.15)
        else:
            resistance = last.get("resistance_4h", np.nan)
            if pd.isna(resistance) or resistance <= 0:
                return 0.02
            sl_price = resistance * 1.001
            sl_ratio = 1.0 - (sl_price / current_rate)
            return min(sl_ratio, 0.15)
    # =====================
    # Plot config
    # =====================
    @staticmethod
    def plot_config() -> dict:
        return {
            "main_plot": {
                "support_4h": {"color": "green", "type": "line"},
                "resistance_4h": {"color": "red", "type": "line"},
            },
            "subplots": {
                "signals": {
                    "bullish_pinbar": {"color": "green", "type": "scatter"},
                    "bearish_pinbar": {"color": "red", "type": "scatter"},
                },
                "filters": {
                    "support_alive_4h": {"color": "green", "type": "line"},
                    "resistance_alive_4h": {"color": "red", "type": "line"},
                    "strong_uptrend_4h": {"color": "blue", "type": "line"},
                    "strong_downtrend_4h": {"color": "orange", "type": "line"},
                },
            },
        }
--- a/ablation/ablation_6.py
+++ b/ablation/ablation_6.py
@ -0,0 +1,454 @@
 """
 Structure Flow Strategy v2.1
 =======================
 变更记录：
  v1.6 (2026-06-07): 最优基线 — +3659.63%, 190笔, 69.3% trailing胜率
  v2.0 (2026-06-08): B1 入场延迟确认 — 方向正确但降频严重
  v2.1 (2026-06-08): ===== D1: 趋势强度过滤 =====
                      在4H级别评估趋势强度：最近2个Swing Point的间距变化。
                      如果趋势在扩张（HH/HL间距增大），允许入场；
                      如果趋势在收缩（HH/HL间距缩小或震荡），过滤信号。
                      目的：只在趋势明确时交易，避免震荡市反复止损。
 """
 from datetime import datetime
 import numpy as np
 import pandas as pd
 from pandas import DataFrame
 from freqtrade.strategy import IStrategy, IntParameter, informative
 from freqtrade.persistence import Trade
 class StructureFlowStrategyV21_Abl6(IStrategy):
    """
    Ablation Variant 6: 移除条件 6
    v2.1改动（相对于v1.6）：
      在4H级别计算趋势强度：最近2个Swing High间距 + Swing Low间距的变化。
      只有趋势在扩张（或至少不收缩）时才允许入场。
    """
    can_short = True
    stoploss = -0.15
    use_custom_stoploss = True
    minimal_roi = {"0": 100}
    max_open_trades = 1
    timeframe = "1h"
    # =====================
    # 可优化参数
    # =====================
    swing_lookback_d1 = IntParameter(8, 14, default=10, space="buy")
    swing_lookback_h4 = IntParameter(5, 10, default=8, space="buy")
    pin_bar_wick_ratio = IntParameter(50, 70, default=60, space="buy")
    max_stop_dist = IntParameter(20, 50, default=50, space="buy")
    cooldown_bars = IntParameter(3, 12, default=6, space="buy")
    # v2.1 新增：趋势强度最小扩张比例（x/100 = 0%~50%）
    # 0 = 只要不收缩就行；越大要求趋势扩张越强
    trend_strength_min = IntParameter(-50, 20, default=-20, space="buy")  # -20=允许SP轻微收缩, 最佳值
    # =====================
    # 工具：Swing Point 检测
    # =====================
    @staticmethod
    def _detect_swing_points(
        high: pd.Series,
        low: pd.Series,
        window: int = 5,
    ) -> tuple[pd.Series, pd.Series]:
        n = len(high)
        sh = pd.Series(np.nan, index=high.index, dtype=float)
        sl = pd.Series(np.nan, index=low.index, dtype=float)
        for i in range(window, n - window):
            if high.iloc[i] > high.iloc[i - window : i].max() and high.iloc[i] > high.iloc[i + 1 : i + window + 1].max():
                sh.iloc[i] = high.iloc[i]
            if low.iloc[i] < low.iloc[i - window : i].min() and low.iloc[i] < low.iloc[i + 1 : i + window + 1].min():
                sl.iloc[i] = low.iloc[i]
        return sh, sl
    # =====================
    # 工具：结构分析
    # =====================
    def _build_structure(
        self,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        swing_high: pd.Series,
        swing_low: pd.Series,
    ) -> DataFrame:
        n = len(high)
        trend_up_arr = np.full(n, False)
        trend_down_arr = np.full(n, False)
        nearest_support = np.full(n, np.nan)
        nearest_resistance = np.full(n, np.nan)
        in_demand_zone = np.full(n, False)
        in_supply_zone = np.full(n, False)
        sh_prices = []
        sl_prices = []
        for i in range(n):
            if pd.notna(swing_high.iloc[i]):
                sh_prices.append(swing_high.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(swing_low.iloc[i]):
                sl_prices.append(swing_low.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                if sh_prices[-1] > sh_prices[-2] and sl_prices[-1] > sl_prices[-2]:
                    trend_up_arr[i] = True
                elif sh_prices[-1] < sh_prices[-2] and sl_prices[-1] < sl_prices[-2]:
                    trend_down_arr[i] = True
                elif i > 0:
                    trend_up_arr[i] = trend_up_arr[i - 1]
                    trend_down_arr[i] = trend_down_arr[i - 1]
            elif i > 0:
                trend_up_arr[i] = trend_up_arr[i - 1]
                trend_down_arr[i] = trend_down_arr[i - 1]
            if sl_prices:
                nearest_support[i] = sl_prices[-1]
            if sh_prices:
                nearest_resistance[i] = sh_prices[-1]
            c = close.iloc[i]
            if not np.isnan(nearest_support[i]) and not np.isnan(nearest_resistance[i]):
                zone_range = nearest_resistance[i] - nearest_support[i]
                if zone_range > 0:
                    pos_pct = (c - nearest_support[i]) / zone_range
                    in_demand_zone[i] = pos_pct < 0.35
                    in_supply_zone[i] = pos_pct > 0.65
        return DataFrame({
            "trend_up": trend_up_arr,
            "trend_down": trend_down_arr,
            "support": nearest_support,
            "resistance": nearest_resistance,
            "in_demand": in_demand_zone,
            "in_supply": in_supply_zone,
        }, index=high.index)
    # =====================
    # 工具：K线形态检测
    # =====================
    @staticmethod
    def _detect_candle_patterns(
        open_: pd.Series,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        pin_bar_wick_ratio: float = 0.6,
    ) -> tuple[pd.Series, pd.Series, pd.Series, pd.Series]:
        body = (close - open_).abs()
        total_range = (high - low).replace(0, 0.0001)
        upper_wick = high - close.where(close > open_, open_)
        lower_wick = open_.where(close > open_, close) - low
        is_pin = (upper_wick + lower_wick) / total_range > pin_bar_wick_ratio
        bullish_pin = is_pin & (close > open_) & (lower_wick > upper_wick)
        bearish_pin = is_pin & (close < open_) & (upper_wick > lower_wick)
        prev_open = open_.shift(1)
        prev_close = close.shift(1)
        bullish_engulf = (close > prev_open) & (open_ < prev_close) & (close > open_)
        bearish_engulf = (close < prev_open) & (open_ > prev_close) & (close < open_)
        return bullish_pin, bearish_pin, bullish_engulf, bearish_engulf
    # ================================================================
    #  信息时间框架 — D1 宏观结构
    # ================================================================
    @informative("1d")
    def populate_indicators_1d(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_d1.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        return dataframe
    # ================================================================
    #  信息时间框架 — 4H 中期结构
    # ================================================================
    @informative("4h")
    def populate_indicators_4h(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_h4.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        dataframe["support"] = structure["support"]
        dataframe["resistance"] = structure["resistance"]
        dataframe["in_demand"] = structure["in_demand"]
        dataframe["in_supply"] = structure["in_supply"]
        # ================================
        # v1.6 活支撑/阻力检查（保留）
        # ================================
        touched_support = (
            (dataframe["low"] <= dataframe["support"] * 1.005) &
            (dataframe["low"] >= dataframe["support"] * 0.995)
        )
        held_support = dataframe["close"] > dataframe["support"]
        support_tested_and_held = touched_support & held_support
        dataframe["support_alive"] = support_tested_and_held.rolling(3, min_periods=1).max() > 0
        touched_resistance = (
            (dataframe["high"] >= dataframe["resistance"] * 0.995) &
            (dataframe["high"] <= dataframe["resistance"] * 1.005)
        )
        held_resistance = dataframe["close"] < dataframe["resistance"]
        resistance_tested_and_held = touched_resistance & held_resistance
        dataframe["resistance_alive"] = resistance_tested_and_held.rolling(3, min_periods=1).max() > 0
        # ================================
        # v2.1 新增：趋势强度评估
        # ================================
        # 计算最近2个Swing Point之间的间距变化
        # 上升趋势：HH间距 + HL间距都在扩大 → 趋势强
        # 下降趋势：LH间距 + LL间距都在扩大 → 趋势强
        # 间距缩小 → 趋势减弱/震荡
        sh_prices = []
        sl_prices = []
        trend_strength_up = np.full(len(dataframe), np.nan)
        trend_strength_down = np.full(len(dataframe), np.nan)
        for i in range(len(dataframe)):
            if pd.notna(sh.iloc[i]):
                sh_prices.append(sh.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(sl.iloc[i]):
                sl_prices.append(sl.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            # 上升趋势强度：HH[-1] vs HH[-2], HL[-1] vs HL[-2]
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                # HH间距：最近两个Swing High的差值百分比
                hh_dist = (sh_prices[-1] - sh_prices[-2]) / sh_prices[-2] if sh_prices[-2] > 0 else 0
                # HL间距：最近两个Swing Low的差值百分比
                hl_dist = (sl_prices[-1] - sl_prices[-2]) / sl_prices[-2] if sl_prices[-2] > 0 else 0
                # 上升趋势强度 = HH间距 + HL间距（都正=扩张，一正一负=不确定，都负=收缩）
                trend_strength_up[i] = hh_dist + hl_dist
                # 下降趋势强度（取反：间距缩小是负值）
                trend_strength_down[i] = -(hh_dist + hl_dist)
        dataframe["trend_strength_up"] = pd.Series(trend_strength_up, index=dataframe.index)
        dataframe["trend_strength_down"] = pd.Series(trend_strength_down, index=dataframe.index)
        # 趋势强度是否足够（扩张中）
        min_strength = self.trend_strength_min.value / 100.0  # 0~0.30
        dataframe["strong_uptrend"] = dataframe["trend_strength_up"] > min_strength
        dataframe["strong_downtrend"] = dataframe["trend_strength_down"] > min_strength
        return dataframe
    # ================================================================
    #  主时间框架 — 1H 指标
    # ================================================================
    def populate_indicators(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        """1H 级别：K线形态（零指标）。"""
        bullish_pin, bearish_pin, bullish_engulf, bearish_engulf = (
            self._detect_candle_patterns(
                dataframe["open"],
                dataframe["high"],
                dataframe["low"],
                dataframe["close"],
                self.pin_bar_wick_ratio.value / 100.0,
            )
        )
        dataframe["bullish_pinbar"] = bullish_pin
        dataframe["bearish_pinbar"] = bearish_pin
        dataframe["bullish_engulfing"] = bullish_engulf
        dataframe["bearish_engulfing"] = bearish_engulf
        dataframe["bullish_signal"] = bullish_pin | bullish_engulf
        dataframe["bearish_signal"] = bearish_pin | bearish_engulf
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        return dataframe
    # =====================
    # 入场信号
    # =====================
    def populate_entry_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """
        入场逻辑（1H 时间框架）。
        v2.1 核心改动：D1 — 趋势强度过滤
          做多额外条件：4H上升趋势在扩张（strong_uptrend_4h）
          做空额外条件：4H下降趋势在扩张（strong_downtrend_4h）
        """
        max_dist = self.max_stop_dist.value / 100.0
        cooldown = self.cooldown_bars.value
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        # ── 做多 ──
        long_stop_dist = (dataframe["open"] - dataframe["support_4h"]) / dataframe["open"]
        long_base = (
            dataframe["trend_up_1d"]
            & dataframe["in_demand_4h"]
            & dataframe["bullish_signal"]
            & (long_stop_dist <= max_dist)
            & (long_stop_dist > 0.003)
            # v2.1: 趋势强度 — 4H上升趋势必须在扩张
            & dataframe["strong_uptrend_4h"]
        )
        long_recent = long_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[long_base & long_recent, "enter_long"] = 1
        # ── 做空 ──
        short_stop_dist = (dataframe["resistance_4h"] - dataframe["open"]) / dataframe["open"]
        short_base = (
            dataframe["trend_down_1d"]
            & dataframe["in_supply_4h"]
            & dataframe["bearish_signal"]
            & (short_stop_dist <= max_dist)
            & (short_stop_dist > 0.003)
            # v2.1: 趋势强度 — 4H下降趋势必须在扩张
            & dataframe["strong_downtrend_4h"]
        )
        short_recent = short_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[short_base & short_recent, "enter_short"] = 1
        return dataframe
    # =====================
    # 出场信号
    # =====================
    def populate_exit_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """出场逻辑 — 由结构反转触发。"""
        exit_long = ~dataframe["trend_up_1d"].fillna(True)
        dataframe.loc[exit_long, "exit_long"] = 1
        exit_short = dataframe["trend_up_1d"].fillna(False)
        dataframe.loc[exit_short, "exit_short"] = 1
        return dataframe
    # =====================
    # 动态止损 — 纯价格结构（基于Swing Point）
    # =====================
    def custom_stoploss(
        self,
        pair: str,
        trade: Trade,
        current_time: datetime,
        current_rate: float,
        current_profit: float,
        after_fill: bool,
        **kwargs,
    ) -> float:
        """
        止损逻辑：完全基于价格结构，零指标（与v1.6相同）。
        """
        dataframe, _ = self.dp.get_analyzed_dataframe(pair, self.timeframe)
        if dataframe is None or len(dataframe) == 0:
            return -0.02 if not trade.is_short else 0.02
        last = dataframe.iloc[-1]
        if not trade.is_short:
            support = last.get("support_4h", np.nan)
            if pd.isna(support) or support <= 0:
                return -0.02
            sl_price = support * 0.999
            sl_ratio = (sl_price / current_rate) - 1.0
            return max(sl_ratio, -0.15)
        else:
            resistance = last.get("resistance_4h", np.nan)
            if pd.isna(resistance) or resistance <= 0:
                return 0.02
            sl_price = resistance * 1.001
            sl_ratio = 1.0 - (sl_price / current_rate)
            return min(sl_ratio, 0.15)
    # =====================
    # Plot config
    # =====================
    @staticmethod
    def plot_config() -> dict:
        return {
            "main_plot": {
                "support_4h": {"color": "green", "type": "line"},
                "resistance_4h": {"color": "red", "type": "line"},
            },
            "subplots": {
                "signals": {
                    "bullish_pinbar": {"color": "green", "type": "scatter"},
                    "bearish_pinbar": {"color": "red", "type": "scatter"},
                },
                "filters": {
                    "support_alive_4h": {"color": "green", "type": "line"},
                    "resistance_alive_4h": {"color": "red", "type": "line"},
                    "strong_uptrend_4h": {"color": "blue", "type": "line"},
                    "strong_downtrend_4h": {"color": "orange", "type": "line"},
                },
            },
        }
--- a/ablation/ablation_7.py
+++ b/ablation/ablation_7.py
@ -0,0 +1,454 @@
 """
 Structure Flow Strategy v2.1
 =======================
 变更记录：
  v1.6 (2026-06-07): 最优基线 — +3659.63%, 190笔, 69.3% trailing胜率
  v2.0 (2026-06-08): B1 入场延迟确认 — 方向正确但降频严重
  v2.1 (2026-06-08): ===== D1: 趋势强度过滤 =====
                      在4H级别评估趋势强度：最近2个Swing Point的间距变化。
                      如果趋势在扩张（HH/HL间距增大），允许入场；
                      如果趋势在收缩（HH/HL间距缩小或震荡），过滤信号。
                      目的：只在趋势明确时交易，避免震荡市反复止损。
 """
 from datetime import datetime
 import numpy as np
 import pandas as pd
 from pandas import DataFrame
 from freqtrade.strategy import IStrategy, IntParameter, informative
 from freqtrade.persistence import Trade
 class StructureFlowStrategyV21_Abl7(IStrategy):
    """
    Ablation Variant 7: 移除条件 7
    v2.1改动（相对于v1.6）：
      在4H级别计算趋势强度：最近2个Swing High间距 + Swing Low间距的变化。
      只有趋势在扩张（或至少不收缩）时才允许入场。
    """
    can_short = True
    stoploss = -0.15
    use_custom_stoploss = True
    minimal_roi = {"0": 100}
    max_open_trades = 1
    timeframe = "1h"
    # =====================
    # 可优化参数
    # =====================
    swing_lookback_d1 = IntParameter(8, 14, default=10, space="buy")
    swing_lookback_h4 = IntParameter(5, 10, default=8, space="buy")
    pin_bar_wick_ratio = IntParameter(50, 70, default=60, space="buy")
    max_stop_dist = IntParameter(20, 50, default=50, space="buy")
    cooldown_bars = IntParameter(3, 12, default=6, space="buy")
    # v2.1 新增：趋势强度最小扩张比例（x/100 = 0%~50%）
    # 0 = 只要不收缩就行；越大要求趋势扩张越强
    trend_strength_min = IntParameter(-50, 20, default=-20, space="buy")  # -20=允许SP轻微收缩, 最佳值
    # =====================
    # 工具：Swing Point 检测
    # =====================
    @staticmethod
    def _detect_swing_points(
        high: pd.Series,
        low: pd.Series,
        window: int = 5,
    ) -> tuple[pd.Series, pd.Series]:
        n = len(high)
        sh = pd.Series(np.nan, index=high.index, dtype=float)
        sl = pd.Series(np.nan, index=low.index, dtype=float)
        for i in range(window, n - window):
            if high.iloc[i] > high.iloc[i - window : i].max() and high.iloc[i] > high.iloc[i + 1 : i + window + 1].max():
                sh.iloc[i] = high.iloc[i]
            if low.iloc[i] < low.iloc[i - window : i].min() and low.iloc[i] < low.iloc[i + 1 : i + window + 1].min():
                sl.iloc[i] = low.iloc[i]
        return sh, sl
    # =====================
    # 工具：结构分析
    # =====================
    def _build_structure(
        self,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        swing_high: pd.Series,
        swing_low: pd.Series,
    ) -> DataFrame:
        n = len(high)
        trend_up_arr = np.full(n, False)
        trend_down_arr = np.full(n, False)
        nearest_support = np.full(n, np.nan)
        nearest_resistance = np.full(n, np.nan)
        in_demand_zone = np.full(n, False)
        in_supply_zone = np.full(n, False)
        sh_prices = []
        sl_prices = []
        for i in range(n):
            if pd.notna(swing_high.iloc[i]):
                sh_prices.append(swing_high.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(swing_low.iloc[i]):
                sl_prices.append(swing_low.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                if sh_prices[-1] > sh_prices[-2] and sl_prices[-1] > sl_prices[-2]:
                    trend_up_arr[i] = True
                elif sh_prices[-1] < sh_prices[-2] and sl_prices[-1] < sl_prices[-2]:
                    trend_down_arr[i] = True
                elif i > 0:
                    trend_up_arr[i] = trend_up_arr[i - 1]
                    trend_down_arr[i] = trend_down_arr[i - 1]
            elif i > 0:
                trend_up_arr[i] = trend_up_arr[i - 1]
                trend_down_arr[i] = trend_down_arr[i - 1]
            if sl_prices:
                nearest_support[i] = sl_prices[-1]
            if sh_prices:
                nearest_resistance[i] = sh_prices[-1]
            c = close.iloc[i]
            if not np.isnan(nearest_support[i]) and not np.isnan(nearest_resistance[i]):
                zone_range = nearest_resistance[i] - nearest_support[i]
                if zone_range > 0:
                    pos_pct = (c - nearest_support[i]) / zone_range
                    in_demand_zone[i] = pos_pct < 0.35
                    in_supply_zone[i] = pos_pct > 0.65
        return DataFrame({
            "trend_up": trend_up_arr,
            "trend_down": trend_down_arr,
            "support": nearest_support,
            "resistance": nearest_resistance,
            "in_demand": in_demand_zone,
            "in_supply": in_supply_zone,
        }, index=high.index)
    # =====================
    # 工具：K线形态检测
    # =====================
    @staticmethod
    def _detect_candle_patterns(
        open_: pd.Series,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        pin_bar_wick_ratio: float = 0.6,
    ) -> tuple[pd.Series, pd.Series, pd.Series, pd.Series]:
        body = (close - open_).abs()
        total_range = (high - low).replace(0, 0.0001)
        upper_wick = high - close.where(close > open_, open_)
        lower_wick = open_.where(close > open_, close) - low
        is_pin = (upper_wick + lower_wick) / total_range > pin_bar_wick_ratio
        bullish_pin = is_pin & (close > open_) & (lower_wick > upper_wick)
        bearish_pin = is_pin & (close < open_) & (upper_wick > lower_wick)
        prev_open = open_.shift(1)
        prev_close = close.shift(1)
        bullish_engulf = (close > prev_open) & (open_ < prev_close) & (close > open_)
        bearish_engulf = (close < prev_open) & (open_ > prev_close) & (close < open_)
        return bullish_pin, bearish_pin, bullish_engulf, bearish_engulf
    # ================================================================
    #  信息时间框架 — D1 宏观结构
    # ================================================================
    @informative("1d")
    def populate_indicators_1d(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_d1.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        return dataframe
    # ================================================================
    #  信息时间框架 — 4H 中期结构
    # ================================================================
    @informative("4h")
    def populate_indicators_4h(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_h4.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        dataframe["support"] = structure["support"]
        dataframe["resistance"] = structure["resistance"]
        dataframe["in_demand"] = structure["in_demand"]
        dataframe["in_supply"] = structure["in_supply"]
        # ================================
        # v1.6 活支撑/阻力检查（保留）
        # ================================
        touched_support = (
            (dataframe["low"] <= dataframe["support"] * 1.005) &
            (dataframe["low"] >= dataframe["support"] * 0.995)
        )
        held_support = dataframe["close"] > dataframe["support"]
        support_tested_and_held = touched_support & held_support
        dataframe["support_alive"] = support_tested_and_held.rolling(3, min_periods=1).max() > 0
        touched_resistance = (
            (dataframe["high"] >= dataframe["resistance"] * 0.995) &
            (dataframe["high"] <= dataframe["resistance"] * 1.005)
        )
        held_resistance = dataframe["close"] < dataframe["resistance"]
        resistance_tested_and_held = touched_resistance & held_resistance
        dataframe["resistance_alive"] = resistance_tested_and_held.rolling(3, min_periods=1).max() > 0
        # ================================
        # v2.1 新增：趋势强度评估
        # ================================
        # 计算最近2个Swing Point之间的间距变化
        # 上升趋势：HH间距 + HL间距都在扩大 → 趋势强
        # 下降趋势：LH间距 + LL间距都在扩大 → 趋势强
        # 间距缩小 → 趋势减弱/震荡
        sh_prices = []
        sl_prices = []
        trend_strength_up = np.full(len(dataframe), np.nan)
        trend_strength_down = np.full(len(dataframe), np.nan)
        for i in range(len(dataframe)):
            if pd.notna(sh.iloc[i]):
                sh_prices.append(sh.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(sl.iloc[i]):
                sl_prices.append(sl.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            # 上升趋势强度：HH[-1] vs HH[-2], HL[-1] vs HL[-2]
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                # HH间距：最近两个Swing High的差值百分比
                hh_dist = (sh_prices[-1] - sh_prices[-2]) / sh_prices[-2] if sh_prices[-2] > 0 else 0
                # HL间距：最近两个Swing Low的差值百分比
                hl_dist = (sl_prices[-1] - sl_prices[-2]) / sl_prices[-2] if sl_prices[-2] > 0 else 0
                # 上升趋势强度 = HH间距 + HL间距（都正=扩张，一正一负=不确定，都负=收缩）
                trend_strength_up[i] = hh_dist + hl_dist
                # 下降趋势强度（取反：间距缩小是负值）
                trend_strength_down[i] = -(hh_dist + hl_dist)
        dataframe["trend_strength_up"] = pd.Series(trend_strength_up, index=dataframe.index)
        dataframe["trend_strength_down"] = pd.Series(trend_strength_down, index=dataframe.index)
        # 趋势强度是否足够（扩张中）
        min_strength = self.trend_strength_min.value / 100.0  # 0~0.30
        dataframe["strong_uptrend"] = dataframe["trend_strength_up"] > min_strength
        dataframe["strong_downtrend"] = dataframe["trend_strength_down"] > min_strength
        return dataframe
    # ================================================================
    #  主时间框架 — 1H 指标
    # ================================================================
    def populate_indicators(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        """1H 级别：K线形态（零指标）。"""
        bullish_pin, bearish_pin, bullish_engulf, bearish_engulf = (
            self._detect_candle_patterns(
                dataframe["open"],
                dataframe["high"],
                dataframe["low"],
                dataframe["close"],
                self.pin_bar_wick_ratio.value / 100.0,
            )
        )
        dataframe["bullish_pinbar"] = bullish_pin
        dataframe["bearish_pinbar"] = bearish_pin
        dataframe["bullish_engulfing"] = bullish_engulf
        dataframe["bearish_engulfing"] = bearish_engulf
        dataframe["bullish_signal"] = bullish_pin | bullish_engulf
        dataframe["bearish_signal"] = bearish_pin | bearish_engulf
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        return dataframe
    # =====================
    # 入场信号
    # =====================
    def populate_entry_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """
        入场逻辑（1H 时间框架）。
        v2.1 核心改动：D1 — 趋势强度过滤
          做多额外条件：4H上升趋势在扩张（strong_uptrend_4h）
          做空额外条件：4H下降趋势在扩张（strong_downtrend_4h）
        """
        max_dist = self.max_stop_dist.value / 100.0
        cooldown = self.cooldown_bars.value
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        # ── 做多 ──
        long_stop_dist = (dataframe["open"] - dataframe["support_4h"]) / dataframe["open"]
        long_base = (
            dataframe["trend_up_1d"]
            & dataframe["in_demand_4h"]
            & dataframe["bullish_signal"]
            & (long_stop_dist <= max_dist)
            & (long_stop_dist > 0.003)
            & dataframe["support_alive_4h"]
            # v2.1: 趋势强度 — 4H上升趋势必须在扩张
        )
        long_recent = long_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[long_base & long_recent, "enter_long"] = 1
        # ── 做空 ──
        short_stop_dist = (dataframe["resistance_4h"] - dataframe["open"]) / dataframe["open"]
        short_base = (
            dataframe["trend_down_1d"]
            & dataframe["in_supply_4h"]
            & dataframe["bearish_signal"]
            & (short_stop_dist <= max_dist)
            & (short_stop_dist > 0.003)
            & dataframe["resistance_alive_4h"]
            # v2.1: 趋势强度 — 4H下降趋势必须在扩张
        )
        short_recent = short_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[short_base & short_recent, "enter_short"] = 1
        return dataframe
    # =====================
    # 出场信号
    # =====================
    def populate_exit_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """出场逻辑 — 由结构反转触发。"""
        exit_long = ~dataframe["trend_up_1d"].fillna(True)
        dataframe.loc[exit_long, "exit_long"] = 1
        exit_short = dataframe["trend_up_1d"].fillna(False)
        dataframe.loc[exit_short, "exit_short"] = 1
        return dataframe
    # =====================
    # 动态止损 — 纯价格结构（基于Swing Point）
    # =====================
    def custom_stoploss(
        self,
        pair: str,
        trade: Trade,
        current_time: datetime,
        current_rate: float,
        current_profit: float,
        after_fill: bool,
        **kwargs,
    ) -> float:
        """
        止损逻辑：完全基于价格结构，零指标（与v1.6相同）。
        """
        dataframe, _ = self.dp.get_analyzed_dataframe(pair, self.timeframe)
        if dataframe is None or len(dataframe) == 0:
            return -0.02 if not trade.is_short else 0.02
        last = dataframe.iloc[-1]
        if not trade.is_short:
            support = last.get("support_4h", np.nan)
            if pd.isna(support) or support <= 0:
                return -0.02
            sl_price = support * 0.999
            sl_ratio = (sl_price / current_rate) - 1.0
            return max(sl_ratio, -0.15)
        else:
            resistance = last.get("resistance_4h", np.nan)
            if pd.isna(resistance) or resistance <= 0:
                return 0.02
            sl_price = resistance * 1.001
            sl_ratio = 1.0 - (sl_price / current_rate)
            return min(sl_ratio, 0.15)
    # =====================
    # Plot config
    # =====================
    @staticmethod
    def plot_config() -> dict:
        return {
            "main_plot": {
                "support_4h": {"color": "green", "type": "line"},
                "resistance_4h": {"color": "red", "type": "line"},
            },
            "subplots": {
                "signals": {
                    "bullish_pinbar": {"color": "green", "type": "scatter"},
                    "bearish_pinbar": {"color": "red", "type": "scatter"},
                },
                "filters": {
                    "support_alive_4h": {"color": "green", "type": "line"},
                    "resistance_alive_4h": {"color": "red", "type": "line"},
                    "strong_uptrend_4h": {"color": "blue", "type": "line"},
                    "strong_downtrend_4h": {"color": "orange", "type": "line"},
                },
            },
        }
--- a/ablation/ablation_8.py
+++ b/ablation/ablation_8.py
@ -0,0 +1,456 @@
 """
 Structure Flow Strategy v2.1
 =======================
 变更记录：
  v1.6 (2026-06-07): 最优基线 — +3659.63%, 190笔, 69.3% trailing胜率
  v2.0 (2026-06-08): B1 入场延迟确认 — 方向正确但降频严重
  v2.1 (2026-06-08): ===== D1: 趋势强度过滤 =====
                      在4H级别评估趋势强度：最近2个Swing Point的间距变化。
                      如果趋势在扩张（HH/HL间距增大），允许入场；
                      如果趋势在收缩（HH/HL间距缩小或震荡），过滤信号。
                      目的：只在趋势明确时交易，避免震荡市反复止损。
 """
 from datetime import datetime
 import numpy as np
 import pandas as pd
 from pandas import DataFrame
 from freqtrade.strategy import IStrategy, IntParameter, informative
 from freqtrade.persistence import Trade
 class StructureFlowStrategyV21_Abl8(IStrategy):
    """
    Ablation Variant 8: 移除条件 8
    v2.1改动（相对于v1.6）：
      在4H级别计算趋势强度：最近2个Swing High间距 + Swing Low间距的变化。
      只有趋势在扩张（或至少不收缩）时才允许入场。
    """
    can_short = True
    stoploss = -0.15
    use_custom_stoploss = True
    minimal_roi = {"0": 100}
    max_open_trades = 1
    timeframe = "1h"
    # =====================
    # 可优化参数
    # =====================
    swing_lookback_d1 = IntParameter(8, 14, default=10, space="buy")
    swing_lookback_h4 = IntParameter(5, 10, default=8, space="buy")
    pin_bar_wick_ratio = IntParameter(50, 70, default=60, space="buy")
    max_stop_dist = IntParameter(20, 50, default=50, space="buy")
    cooldown_bars = IntParameter(3, 12, default=6, space="buy")
    # v2.1 新增：趋势强度最小扩张比例（x/100 = 0%~50%）
    # 0 = 只要不收缩就行；越大要求趋势扩张越强
    trend_strength_min = IntParameter(-50, 20, default=-20, space="buy")  # -20=允许SP轻微收缩, 最佳值
    # =====================
    # 工具：Swing Point 检测
    # =====================
    @staticmethod
    def _detect_swing_points(
        high: pd.Series,
        low: pd.Series,
        window: int = 5,
    ) -> tuple[pd.Series, pd.Series]:
        n = len(high)
        sh = pd.Series(np.nan, index=high.index, dtype=float)
        sl = pd.Series(np.nan, index=low.index, dtype=float)
        for i in range(window, n - window):
            if high.iloc[i] > high.iloc[i - window : i].max() and high.iloc[i] > high.iloc[i + 1 : i + window + 1].max():
                sh.iloc[i] = high.iloc[i]
            if low.iloc[i] < low.iloc[i - window : i].min() and low.iloc[i] < low.iloc[i + 1 : i + window + 1].min():
                sl.iloc[i] = low.iloc[i]
        return sh, sl
    # =====================
    # 工具：结构分析
    # =====================
    def _build_structure(
        self,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        swing_high: pd.Series,
        swing_low: pd.Series,
    ) -> DataFrame:
        n = len(high)
        trend_up_arr = np.full(n, False)
        trend_down_arr = np.full(n, False)
        nearest_support = np.full(n, np.nan)
        nearest_resistance = np.full(n, np.nan)
        in_demand_zone = np.full(n, False)
        in_supply_zone = np.full(n, False)
        sh_prices = []
        sl_prices = []
        for i in range(n):
            if pd.notna(swing_high.iloc[i]):
                sh_prices.append(swing_high.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(swing_low.iloc[i]):
                sl_prices.append(swing_low.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                if sh_prices[-1] > sh_prices[-2] and sl_prices[-1] > sl_prices[-2]:
                    trend_up_arr[i] = True
                elif sh_prices[-1] < sh_prices[-2] and sl_prices[-1] < sl_prices[-2]:
                    trend_down_arr[i] = True
                elif i > 0:
                    trend_up_arr[i] = trend_up_arr[i - 1]
                    trend_down_arr[i] = trend_down_arr[i - 1]
            elif i > 0:
                trend_up_arr[i] = trend_up_arr[i - 1]
                trend_down_arr[i] = trend_down_arr[i - 1]
            if sl_prices:
                nearest_support[i] = sl_prices[-1]
            if sh_prices:
                nearest_resistance[i] = sh_prices[-1]
            c = close.iloc[i]
            if not np.isnan(nearest_support[i]) and not np.isnan(nearest_resistance[i]):
                zone_range = nearest_resistance[i] - nearest_support[i]
                if zone_range > 0:
                    pos_pct = (c - nearest_support[i]) / zone_range
                    in_demand_zone[i] = pos_pct < 0.35
                    in_supply_zone[i] = pos_pct > 0.65
        return DataFrame({
            "trend_up": trend_up_arr,
            "trend_down": trend_down_arr,
            "support": nearest_support,
            "resistance": nearest_resistance,
            "in_demand": in_demand_zone,
            "in_supply": in_supply_zone,
        }, index=high.index)
    # =====================
    # 工具：K线形态检测
    # =====================
    @staticmethod
    def _detect_candle_patterns(
        open_: pd.Series,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        pin_bar_wick_ratio: float = 0.6,
    ) -> tuple[pd.Series, pd.Series, pd.Series, pd.Series]:
        body = (close - open_).abs()
        total_range = (high - low).replace(0, 0.0001)
        upper_wick = high - close.where(close > open_, open_)
        lower_wick = open_.where(close > open_, close) - low
        is_pin = (upper_wick + lower_wick) / total_range > pin_bar_wick_ratio
        bullish_pin = is_pin & (close > open_) & (lower_wick > upper_wick)
        bearish_pin = is_pin & (close < open_) & (upper_wick > lower_wick)
        prev_open = open_.shift(1)
        prev_close = close.shift(1)
        bullish_engulf = (close > prev_open) & (open_ < prev_close) & (close > open_)
        bearish_engulf = (close < prev_open) & (open_ > prev_close) & (close < open_)
        return bullish_pin, bearish_pin, bullish_engulf, bearish_engulf
    # ================================================================
    #  信息时间框架 — D1 宏观结构
    # ================================================================
    @informative("1d")
    def populate_indicators_1d(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_d1.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        return dataframe
    # ================================================================
    #  信息时间框架 — 4H 中期结构
    # ================================================================
    @informative("4h")
    def populate_indicators_4h(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_h4.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        dataframe["support"] = structure["support"]
        dataframe["resistance"] = structure["resistance"]
        dataframe["in_demand"] = structure["in_demand"]
        dataframe["in_supply"] = structure["in_supply"]
        # ================================
        # v1.6 活支撑/阻力检查（保留）
        # ================================
        touched_support = (
            (dataframe["low"] <= dataframe["support"] * 1.005) &
            (dataframe["low"] >= dataframe["support"] * 0.995)
        )
        held_support = dataframe["close"] > dataframe["support"]
        support_tested_and_held = touched_support & held_support
        dataframe["support_alive"] = support_tested_and_held.rolling(3, min_periods=1).max() > 0
        touched_resistance = (
            (dataframe["high"] >= dataframe["resistance"] * 0.995) &
            (dataframe["high"] <= dataframe["resistance"] * 1.005)
        )
        held_resistance = dataframe["close"] < dataframe["resistance"]
        resistance_tested_and_held = touched_resistance & held_resistance
        dataframe["resistance_alive"] = resistance_tested_and_held.rolling(3, min_periods=1).max() > 0
        # ================================
        # v2.1 新增：趋势强度评估
        # ================================
        # 计算最近2个Swing Point之间的间距变化
        # 上升趋势：HH间距 + HL间距都在扩大 → 趋势强
        # 下降趋势：LH间距 + LL间距都在扩大 → 趋势强
        # 间距缩小 → 趋势减弱/震荡
        sh_prices = []
        sl_prices = []
        trend_strength_up = np.full(len(dataframe), np.nan)
        trend_strength_down = np.full(len(dataframe), np.nan)
        for i in range(len(dataframe)):
            if pd.notna(sh.iloc[i]):
                sh_prices.append(sh.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(sl.iloc[i]):
                sl_prices.append(sl.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            # 上升趋势强度：HH[-1] vs HH[-2], HL[-1] vs HL[-2]
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                # HH间距：最近两个Swing High的差值百分比
                hh_dist = (sh_prices[-1] - sh_prices[-2]) / sh_prices[-2] if sh_prices[-2] > 0 else 0
                # HL间距：最近两个Swing Low的差值百分比
                hl_dist = (sl_prices[-1] - sl_prices[-2]) / sl_prices[-2] if sl_prices[-2] > 0 else 0
                # 上升趋势强度 = HH间距 + HL间距（都正=扩张，一正一负=不确定，都负=收缩）
                trend_strength_up[i] = hh_dist + hl_dist
                # 下降趋势强度（取反：间距缩小是负值）
                trend_strength_down[i] = -(hh_dist + hl_dist)
        dataframe["trend_strength_up"] = pd.Series(trend_strength_up, index=dataframe.index)
        dataframe["trend_strength_down"] = pd.Series(trend_strength_down, index=dataframe.index)
        # 趋势强度是否足够（扩张中）
        min_strength = self.trend_strength_min.value / 100.0  # 0~0.30
        dataframe["strong_uptrend"] = dataframe["trend_strength_up"] > min_strength
        dataframe["strong_downtrend"] = dataframe["trend_strength_down"] > min_strength
        return dataframe
    # ================================================================
    #  主时间框架 — 1H 指标
    # ================================================================
    def populate_indicators(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        """1H 级别：K线形态（零指标）。"""
        bullish_pin, bearish_pin, bullish_engulf, bearish_engulf = (
            self._detect_candle_patterns(
                dataframe["open"],
                dataframe["high"],
                dataframe["low"],
                dataframe["close"],
                self.pin_bar_wick_ratio.value / 100.0,
            )
        )
        dataframe["bullish_pinbar"] = bullish_pin
        dataframe["bearish_pinbar"] = bearish_pin
        dataframe["bullish_engulfing"] = bullish_engulf
        dataframe["bearish_engulfing"] = bearish_engulf
        dataframe["bullish_signal"] = bullish_pin | bullish_engulf
        dataframe["bearish_signal"] = bearish_pin | bearish_engulf
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        return dataframe
    # =====================
    # 入场信号
    # =====================
    def populate_entry_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """
        入场逻辑（1H 时间框架）。
        v2.1 核心改动：D1 — 趋势强度过滤
          做多额外条件：4H上升趋势在扩张（strong_uptrend_4h）
          做空额外条件：4H下降趋势在扩张（strong_downtrend_4h）
        """
        max_dist = self.max_stop_dist.value / 100.0
        cooldown = self.cooldown_bars.value
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        # ── 做多 ──
        long_stop_dist = (dataframe["open"] - dataframe["support_4h"]) / dataframe["open"]
        long_base = (
            dataframe["trend_up_1d"]
            & dataframe["in_demand_4h"]
            & dataframe["bullish_signal"]
            & (long_stop_dist <= max_dist)
            & (long_stop_dist > 0.003)
            & dataframe["support_alive_4h"]
            # v2.1: 趋势强度 — 4H上升趋势必须在扩张
            & dataframe["strong_uptrend_4h"]
        )
        long_recent = True  # cooldown removed
        dataframe.loc[long_base & long_recent, "enter_long"] = 1
        # ── 做空 ──
        short_stop_dist = (dataframe["resistance_4h"] - dataframe["open"]) / dataframe["open"]
        short_base = (
            dataframe["trend_down_1d"]
            & dataframe["in_supply_4h"]
            & dataframe["bearish_signal"]
            & (short_stop_dist <= max_dist)
            & (short_stop_dist > 0.003)
            & dataframe["resistance_alive_4h"]
            # v2.1: 趋势强度 — 4H下降趋势必须在扩张
            & dataframe["strong_downtrend_4h"]
        )
        short_recent = True  # cooldown removed
        dataframe.loc[short_base & short_recent, "enter_short"] = 1
        return dataframe
    # =====================
    # 出场信号
    # =====================
    def populate_exit_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """出场逻辑 — 由结构反转触发。"""
        exit_long = ~dataframe["trend_up_1d"].fillna(True)
        dataframe.loc[exit_long, "exit_long"] = 1
        exit_short = dataframe["trend_up_1d"].fillna(False)
        dataframe.loc[exit_short, "exit_short"] = 1
        return dataframe
    # =====================
    # 动态止损 — 纯价格结构（基于Swing Point）
    # =====================
    def custom_stoploss(
        self,
        pair: str,
        trade: Trade,
        current_time: datetime,
        current_rate: float,
        current_profit: float,
        after_fill: bool,
        **kwargs,
    ) -> float:
        """
        止损逻辑：完全基于价格结构，零指标（与v1.6相同）。
        """
        dataframe, _ = self.dp.get_analyzed_dataframe(pair, self.timeframe)
        if dataframe is None or len(dataframe) == 0:
            return -0.02 if not trade.is_short else 0.02
        last = dataframe.iloc[-1]
        if not trade.is_short:
            support = last.get("support_4h", np.nan)
            if pd.isna(support) or support <= 0:
                return -0.02
            sl_price = support * 0.999
            sl_ratio = (sl_price / current_rate) - 1.0
            return max(sl_ratio, -0.15)
        else:
            resistance = last.get("resistance_4h", np.nan)
            if pd.isna(resistance) or resistance <= 0:
                return 0.02
            sl_price = resistance * 1.001
            sl_ratio = 1.0 - (sl_price / current_rate)
            return min(sl_ratio, 0.15)
    # =====================
    # Plot config
    # =====================
    @staticmethod
    def plot_config() -> dict:
        return {
            "main_plot": {
                "support_4h": {"color": "green", "type": "line"},
                "resistance_4h": {"color": "red", "type": "line"},
            },
            "subplots": {
                "signals": {
                    "bullish_pinbar": {"color": "green", "type": "scatter"},
                    "bearish_pinbar": {"color": "red", "type": "scatter"},
                },
                "filters": {
                    "support_alive_4h": {"color": "green", "type": "line"},
                    "resistance_alive_4h": {"color": "red", "type": "line"},
                    "strong_uptrend_4h": {"color": "blue", "type": "line"},
                    "strong_downtrend_4h": {"color": "orange", "type": "line"},
                },
            },
        }
--- a/ablation/ablation_all_removed.py
+++ b/ablation/ablation_all_removed.py
@ -0,0 +1,442 @@
 """
 Structure Flow Strategy v2.1
 =======================
 变更记录：
  v1.6 (2026-06-07): 最优基线 — +3659.63%, 190笔, 69.3% trailing胜率
  v2.0 (2026-06-08): B1 入场延迟确认 — 方向正确但降频严重
  v2.1 (2026-06-08): ===== D1: 趋势强度过滤 =====
                      在4H级别评估趋势强度：最近2个Swing Point的间距变化。
                      如果趋势在扩张（HH/HL间距增大），允许入场；
                      如果趋势在收缩（HH/HL间距缩小或震荡），过滤信号。
                      目的：只在趋势明确时交易，避免震荡市反复止损。
 """
 from datetime import datetime
 import numpy as np
 import pandas as pd
 from pandas import DataFrame
 from freqtrade.strategy import IStrategy, IntParameter, informative
 from freqtrade.persistence import Trade
 class StructureFlowStrategyV21_Ablall(IStrategy):
    """
    Ablation Variant all: 移除条件 1,2,3,4,5,6,7,8
    v2.1改动（相对于v1.6）：
      在4H级别计算趋势强度：最近2个Swing High间距 + Swing Low间距的变化。
      只有趋势在扩张（或至少不收缩）时才允许入场。
    """
    can_short = True
    stoploss = -0.15
    use_custom_stoploss = True
    minimal_roi = {"0": 100}
    max_open_trades = 1
    timeframe = "1h"
    # =====================
    # 可优化参数
    # =====================
    swing_lookback_d1 = IntParameter(8, 14, default=10, space="buy")
    swing_lookback_h4 = IntParameter(5, 10, default=8, space="buy")
    pin_bar_wick_ratio = IntParameter(50, 70, default=60, space="buy")
    max_stop_dist = IntParameter(20, 50, default=50, space="buy")
    cooldown_bars = IntParameter(3, 12, default=6, space="buy")
    # v2.1 新增：趋势强度最小扩张比例（x/100 = 0%~50%）
    # 0 = 只要不收缩就行；越大要求趋势扩张越强
    trend_strength_min = IntParameter(-50, 20, default=-20, space="buy")  # -20=允许SP轻微收缩, 最佳值
    # =====================
    # 工具：Swing Point 检测
    # =====================
    @staticmethod
    def _detect_swing_points(
        high: pd.Series,
        low: pd.Series,
        window: int = 5,
    ) -> tuple[pd.Series, pd.Series]:
        n = len(high)
        sh = pd.Series(np.nan, index=high.index, dtype=float)
        sl = pd.Series(np.nan, index=low.index, dtype=float)
        for i in range(window, n - window):
            if high.iloc[i] > high.iloc[i - window : i].max() and high.iloc[i] > high.iloc[i + 1 : i + window + 1].max():
                sh.iloc[i] = high.iloc[i]
            if low.iloc[i] < low.iloc[i - window : i].min() and low.iloc[i] < low.iloc[i + 1 : i + window + 1].min():
                sl.iloc[i] = low.iloc[i]
        return sh, sl
    # =====================
    # 工具：结构分析
    # =====================
    def _build_structure(
        self,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        swing_high: pd.Series,
        swing_low: pd.Series,
    ) -> DataFrame:
        n = len(high)
        trend_up_arr = np.full(n, False)
        trend_down_arr = np.full(n, False)
        nearest_support = np.full(n, np.nan)
        nearest_resistance = np.full(n, np.nan)
        in_demand_zone = np.full(n, False)
        in_supply_zone = np.full(n, False)
        sh_prices = []
        sl_prices = []
        for i in range(n):
            if pd.notna(swing_high.iloc[i]):
                sh_prices.append(swing_high.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(swing_low.iloc[i]):
                sl_prices.append(swing_low.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                if sh_prices[-1] > sh_prices[-2] and sl_prices[-1] > sl_prices[-2]:
                    trend_up_arr[i] = True
                elif sh_prices[-1] < sh_prices[-2] and sl_prices[-1] < sl_prices[-2]:
                    trend_down_arr[i] = True
                elif i > 0:
                    trend_up_arr[i] = trend_up_arr[i - 1]
                    trend_down_arr[i] = trend_down_arr[i - 1]
            elif i > 0:
                trend_up_arr[i] = trend_up_arr[i - 1]
                trend_down_arr[i] = trend_down_arr[i - 1]
            if sl_prices:
                nearest_support[i] = sl_prices[-1]
            if sh_prices:
                nearest_resistance[i] = sh_prices[-1]
            c = close.iloc[i]
            if not np.isnan(nearest_support[i]) and not np.isnan(nearest_resistance[i]):
                zone_range = nearest_resistance[i] - nearest_support[i]
                if zone_range > 0:
                    pos_pct = (c - nearest_support[i]) / zone_range
                    in_demand_zone[i] = pos_pct < 0.35
                    in_supply_zone[i] = pos_pct > 0.65
        return DataFrame({
            "trend_up": trend_up_arr,
            "trend_down": trend_down_arr,
            "support": nearest_support,
            "resistance": nearest_resistance,
            "in_demand": in_demand_zone,
            "in_supply": in_supply_zone,
        }, index=high.index)
    # =====================
    # 工具：K线形态检测
    # =====================
    @staticmethod
    def _detect_candle_patterns(
        open_: pd.Series,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        pin_bar_wick_ratio: float = 0.6,
    ) -> tuple[pd.Series, pd.Series, pd.Series, pd.Series]:
        body = (close - open_).abs()
        total_range = (high - low).replace(0, 0.0001)
        upper_wick = high - close.where(close > open_, open_)
        lower_wick = open_.where(close > open_, close) - low
        is_pin = (upper_wick + lower_wick) / total_range > pin_bar_wick_ratio
        bullish_pin = is_pin & (close > open_) & (lower_wick > upper_wick)
        bearish_pin = is_pin & (close < open_) & (upper_wick > lower_wick)
        prev_open = open_.shift(1)
        prev_close = close.shift(1)
        bullish_engulf = (close > prev_open) & (open_ < prev_close) & (close > open_)
        bearish_engulf = (close < prev_open) & (open_ > prev_close) & (close < open_)
        return bullish_pin, bearish_pin, bullish_engulf, bearish_engulf
    # ================================================================
    #  信息时间框架 — D1 宏观结构
    # ================================================================
    @informative("1d")
    def populate_indicators_1d(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_d1.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        return dataframe
    # ================================================================
    #  信息时间框架 — 4H 中期结构
    # ================================================================
    @informative("4h")
    def populate_indicators_4h(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_h4.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        dataframe["support"] = structure["support"]
        dataframe["resistance"] = structure["resistance"]
        dataframe["in_demand"] = structure["in_demand"]
        dataframe["in_supply"] = structure["in_supply"]
        # ================================
        # v1.6 活支撑/阻力检查（保留）
        # ================================
        touched_support = (
            (dataframe["low"] <= dataframe["support"] * 1.005) &
            (dataframe["low"] >= dataframe["support"] * 0.995)
        )
        held_support = dataframe["close"] > dataframe["support"]
        support_tested_and_held = touched_support & held_support
        dataframe["support_alive"] = support_tested_and_held.rolling(3, min_periods=1).max() > 0
        touched_resistance = (
            (dataframe["high"] >= dataframe["resistance"] * 0.995) &
            (dataframe["high"] <= dataframe["resistance"] * 1.005)
        )
        held_resistance = dataframe["close"] < dataframe["resistance"]
        resistance_tested_and_held = touched_resistance & held_resistance
        dataframe["resistance_alive"] = resistance_tested_and_held.rolling(3, min_periods=1).max() > 0
        # ================================
        # v2.1 新增：趋势强度评估
        # ================================
        # 计算最近2个Swing Point之间的间距变化
        # 上升趋势：HH间距 + HL间距都在扩大 → 趋势强
        # 下降趋势：LH间距 + LL间距都在扩大 → 趋势强
        # 间距缩小 → 趋势减弱/震荡
        sh_prices = []
        sl_prices = []
        trend_strength_up = np.full(len(dataframe), np.nan)
        trend_strength_down = np.full(len(dataframe), np.nan)
        for i in range(len(dataframe)):
            if pd.notna(sh.iloc[i]):
                sh_prices.append(sh.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(sl.iloc[i]):
                sl_prices.append(sl.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            # 上升趋势强度：HH[-1] vs HH[-2], HL[-1] vs HL[-2]
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                # HH间距：最近两个Swing High的差值百分比
                hh_dist = (sh_prices[-1] - sh_prices[-2]) / sh_prices[-2] if sh_prices[-2] > 0 else 0
                # HL间距：最近两个Swing Low的差值百分比
                hl_dist = (sl_prices[-1] - sl_prices[-2]) / sl_prices[-2] if sl_prices[-2] > 0 else 0
                # 上升趋势强度 = HH间距 + HL间距（都正=扩张，一正一负=不确定，都负=收缩）
                trend_strength_up[i] = hh_dist + hl_dist
                # 下降趋势强度（取反：间距缩小是负值）
                trend_strength_down[i] = -(hh_dist + hl_dist)
        dataframe["trend_strength_up"] = pd.Series(trend_strength_up, index=dataframe.index)
        dataframe["trend_strength_down"] = pd.Series(trend_strength_down, index=dataframe.index)
        # 趋势强度是否足够（扩张中）
        min_strength = self.trend_strength_min.value / 100.0  # 0~0.30
        dataframe["strong_uptrend"] = dataframe["trend_strength_up"] > min_strength
        dataframe["strong_downtrend"] = dataframe["trend_strength_down"] > min_strength
        return dataframe
    # ================================================================
    #  主时间框架 — 1H 指标
    # ================================================================
    def populate_indicators(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        """1H 级别：K线形态（零指标）。"""
        bullish_pin, bearish_pin, bullish_engulf, bearish_engulf = (
            self._detect_candle_patterns(
                dataframe["open"],
                dataframe["high"],
                dataframe["low"],
                dataframe["close"],
                self.pin_bar_wick_ratio.value / 100.0,
            )
        )
        dataframe["bullish_pinbar"] = bullish_pin
        dataframe["bearish_pinbar"] = bearish_pin
        dataframe["bullish_engulfing"] = bullish_engulf
        dataframe["bearish_engulfing"] = bearish_engulf
        dataframe["bullish_signal"] = bullish_pin | bullish_engulf
        dataframe["bearish_signal"] = bearish_pin | bearish_engulf
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        return dataframe
    # =====================
    # 入场信号
    # =====================
    def populate_entry_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """
        入场逻辑（1H 时间框架）。
        v2.1 核心改动：D1 — 趋势强度过滤
          做多额外条件：4H上升趋势在扩张（strong_uptrend_4h）
          做空额外条件：4H下降趋势在扩张（strong_downtrend_4h）
        """
        max_dist = self.max_stop_dist.value / 100.0
        cooldown = self.cooldown_bars.value
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        # ── 做多 ──
        long_stop_dist = (dataframe["open"] - dataframe["support_4h"]) / dataframe["open"]
        long_base = (
            # v2.1: 趋势强度 — 4H上升趋势必须在扩张
        )
        long_recent = True  # cooldown removed
        dataframe.loc[long_base & long_recent, "enter_long"] = 1
        # ── 做空 ──
        short_stop_dist = (dataframe["resistance_4h"] - dataframe["open"]) / dataframe["open"]
        short_base = (
            # v2.1: 趋势强度 — 4H下降趋势必须在扩张
        )
        short_recent = True  # cooldown removed
        dataframe.loc[short_base & short_recent, "enter_short"] = 1
        return dataframe
    # =====================
    # 出场信号
    # =====================
    def populate_exit_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """出场逻辑 — 由结构反转触发。"""
        exit_long = ~dataframe["trend_up_1d"].fillna(True)
        dataframe.loc[exit_long, "exit_long"] = 1
        exit_short = dataframe["trend_up_1d"].fillna(False)
        dataframe.loc[exit_short, "exit_short"] = 1
        return dataframe
    # =====================
    # 动态止损 — 纯价格结构（基于Swing Point）
    # =====================
    def custom_stoploss(
        self,
        pair: str,
        trade: Trade,
        current_time: datetime,
        current_rate: float,
        current_profit: float,
        after_fill: bool,
        **kwargs,
    ) -> float:
        """
        止损逻辑：完全基于价格结构，零指标（与v1.6相同）。
        """
        dataframe, _ = self.dp.get_analyzed_dataframe(pair, self.timeframe)
        if dataframe is None or len(dataframe) == 0:
            return -0.02 if not trade.is_short else 0.02
        last = dataframe.iloc[-1]
        if not trade.is_short:
            support = last.get("support_4h", np.nan)
            if pd.isna(support) or support <= 0:
                return -0.02
            sl_price = support * 0.999
            sl_ratio = (sl_price / current_rate) - 1.0
            return max(sl_ratio, -0.15)
        else:
            resistance = last.get("resistance_4h", np.nan)
            if pd.isna(resistance) or resistance <= 0:
                return 0.02
            sl_price = resistance * 1.001
            sl_ratio = 1.0 - (sl_price / current_rate)
            return min(sl_ratio, 0.15)
    # =====================
    # Plot config
    # =====================
    @staticmethod
    def plot_config() -> dict:
        return {
            "main_plot": {
                "support_4h": {"color": "green", "type": "line"},
                "resistance_4h": {"color": "red", "type": "line"},
            },
            "subplots": {
                "signals": {
                    "bullish_pinbar": {"color": "green", "type": "scatter"},
                    "bearish_pinbar": {"color": "red", "type": "scatter"},
                },
                "filters": {
                    "support_alive_4h": {"color": "green", "type": "line"},
                    "resistance_alive_4h": {"color": "red", "type": "line"},
                    "strong_uptrend_4h": {"color": "blue", "type": "line"},
                    "strong_downtrend_4h": {"color": "orange", "type": "line"},
                },
            },
        }
--- a/ablation/v2_1_baseline.py
+++ b/ablation/v2_1_baseline.py
@ -0,0 +1,456 @@
 """
 Structure Flow Strategy v2.1
 =======================
 变更记录：
  v1.6 (2026-06-07): 最优基线 — +3659.63%, 190笔, 69.3% trailing胜率
  v2.0 (2026-06-08): B1 入场延迟确认 — 方向正确但降频严重
  v2.1 (2026-06-08): ===== D1: 趋势强度过滤 =====
                      在4H级别评估趋势强度：最近2个Swing Point的间距变化。
                      如果趋势在扩张（HH/HL间距增大），允许入场；
                      如果趋势在收缩（HH/HL间距缩小或震荡），过滤信号。
                      目的：只在趋势明确时交易，避免震荡市反复止损。
 """
 from datetime import datetime
 import numpy as np
 import pandas as pd
 from pandas import DataFrame
 from freqtrade.strategy import IStrategy, IntParameter, informative
 from freqtrade.persistence import Trade
 class StructureFlowStrategyV21(IStrategy):
    """
    Structure Flow Strategy v2.1 — D1: 趋势强度过滤
    v2.1改动（相对于v1.6）：
      在4H级别计算趋势强度：最近2个Swing High间距 + Swing Low间距的变化。
      只有趋势在扩张（或至少不收缩）时才允许入场。
    """
    can_short = True
    stoploss = -0.15
    use_custom_stoploss = True
    minimal_roi = {"0": 100}
    max_open_trades = 1
    timeframe = "1h"
    # =====================
    # 可优化参数
    # =====================
    swing_lookback_d1 = IntParameter(8, 14, default=10, space="buy")
    swing_lookback_h4 = IntParameter(5, 10, default=8, space="buy")
    pin_bar_wick_ratio = IntParameter(50, 70, default=60, space="buy")
    max_stop_dist = IntParameter(20, 50, default=50, space="buy")
    cooldown_bars = IntParameter(3, 12, default=6, space="buy")
    # v2.1 新增：趋势强度最小扩张比例（x/100 = 0%~50%）
    # 0 = 只要不收缩就行；越大要求趋势扩张越强
    trend_strength_min = IntParameter(-50, 20, default=-20, space="buy")  # -20=允许SP轻微收缩, 最佳值
    # =====================
    # 工具：Swing Point 检测
    # =====================
    @staticmethod
    def _detect_swing_points(
        high: pd.Series,
        low: pd.Series,
        window: int = 5,
    ) -> tuple[pd.Series, pd.Series]:
        n = len(high)
        sh = pd.Series(np.nan, index=high.index, dtype=float)
        sl = pd.Series(np.nan, index=low.index, dtype=float)
        for i in range(window, n - window):
            if high.iloc[i] > high.iloc[i - window : i].max() and high.iloc[i] > high.iloc[i + 1 : i + window + 1].max():
                sh.iloc[i] = high.iloc[i]
            if low.iloc[i] < low.iloc[i - window : i].min() and low.iloc[i] < low.iloc[i + 1 : i + window + 1].min():
                sl.iloc[i] = low.iloc[i]
        return sh, sl
    # =====================
    # 工具：结构分析
    # =====================
    def _build_structure(
        self,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        swing_high: pd.Series,
        swing_low: pd.Series,
    ) -> DataFrame:
        n = len(high)
        trend_up_arr = np.full(n, False)
        trend_down_arr = np.full(n, False)
        nearest_support = np.full(n, np.nan)
        nearest_resistance = np.full(n, np.nan)
        in_demand_zone = np.full(n, False)
        in_supply_zone = np.full(n, False)
        sh_prices = []
        sl_prices = []
        for i in range(n):
            if pd.notna(swing_high.iloc[i]):
                sh_prices.append(swing_high.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(swing_low.iloc[i]):
                sl_prices.append(swing_low.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                if sh_prices[-1] > sh_prices[-2] and sl_prices[-1] > sl_prices[-2]:
                    trend_up_arr[i] = True
                elif sh_prices[-1] < sh_prices[-2] and sl_prices[-1] < sl_prices[-2]:
                    trend_down_arr[i] = True
                elif i > 0:
                    trend_up_arr[i] = trend_up_arr[i - 1]
                    trend_down_arr[i] = trend_down_arr[i - 1]
            elif i > 0:
                trend_up_arr[i] = trend_up_arr[i - 1]
                trend_down_arr[i] = trend_down_arr[i - 1]
            if sl_prices:
                nearest_support[i] = sl_prices[-1]
            if sh_prices:
                nearest_resistance[i] = sh_prices[-1]
            c = close.iloc[i]
            if not np.isnan(nearest_support[i]) and not np.isnan(nearest_resistance[i]):
                zone_range = nearest_resistance[i] - nearest_support[i]
                if zone_range > 0:
                    pos_pct = (c - nearest_support[i]) / zone_range
                    in_demand_zone[i] = pos_pct < 0.35
                    in_supply_zone[i] = pos_pct > 0.65
        return DataFrame({
            "trend_up": trend_up_arr,
            "trend_down": trend_down_arr,
            "support": nearest_support,
            "resistance": nearest_resistance,
            "in_demand": in_demand_zone,
            "in_supply": in_supply_zone,
        }, index=high.index)
    # =====================
    # 工具：K线形态检测
    # =====================
    @staticmethod
    def _detect_candle_patterns(
        open_: pd.Series,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        pin_bar_wick_ratio: float = 0.6,
    ) -> tuple[pd.Series, pd.Series, pd.Series, pd.Series]:
        body = (close - open_).abs()
        total_range = (high - low).replace(0, 0.0001)
        upper_wick = high - close.where(close > open_, open_)
        lower_wick = open_.where(close > open_, close) - low
        is_pin = (upper_wick + lower_wick) / total_range > pin_bar_wick_ratio
        bullish_pin = is_pin & (close > open_) & (lower_wick > upper_wick)
        bearish_pin = is_pin & (close < open_) & (upper_wick > lower_wick)
        prev_open = open_.shift(1)
        prev_close = close.shift(1)
        bullish_engulf = (close > prev_open) & (open_ < prev_close) & (close > open_)
        bearish_engulf = (close < prev_open) & (open_ > prev_close) & (close < open_)
        return bullish_pin, bearish_pin, bullish_engulf, bearish_engulf
    # ================================================================
    #  信息时间框架 — D1 宏观结构
    # ================================================================
    @informative("1d")
    def populate_indicators_1d(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_d1.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        return dataframe
    # ================================================================
    #  信息时间框架 — 4H 中期结构
    # ================================================================
    @informative("4h")
    def populate_indicators_4h(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        sh, sl = self._detect_swing_points(
            dataframe["high"], dataframe["low"],
            self.swing_lookback_h4.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        dataframe["support"] = structure["support"]
        dataframe["resistance"] = structure["resistance"]
        dataframe["in_demand"] = structure["in_demand"]
        dataframe["in_supply"] = structure["in_supply"]
        # ================================
        # v1.6 活支撑/阻力检查（保留）
        # ================================
        touched_support = (
            (dataframe["low"] <= dataframe["support"] * 1.005) &
            (dataframe["low"] >= dataframe["support"] * 0.995)
        )
        held_support = dataframe["close"] > dataframe["support"]
        support_tested_and_held = touched_support & held_support
        dataframe["support_alive"] = support_tested_and_held.rolling(3, min_periods=1).max() > 0
        touched_resistance = (
            (dataframe["high"] >= dataframe["resistance"] * 0.995) &
            (dataframe["high"] <= dataframe["resistance"] * 1.005)
        )
        held_resistance = dataframe["close"] < dataframe["resistance"]
        resistance_tested_and_held = touched_resistance & held_resistance
        dataframe["resistance_alive"] = resistance_tested_and_held.rolling(3, min_periods=1).max() > 0
        # ================================
        # v2.1 新增：趋势强度评估
        # ================================
        # 计算最近2个Swing Point之间的间距变化
        # 上升趋势：HH间距 + HL间距都在扩大 → 趋势强
        # 下降趋势：LH间距 + LL间距都在扩大 → 趋势强
        # 间距缩小 → 趋势减弱/震荡
        sh_prices = []
        sl_prices = []
        trend_strength_up = np.full(len(dataframe), np.nan)
        trend_strength_down = np.full(len(dataframe), np.nan)
        for i in range(len(dataframe)):
            if pd.notna(sh.iloc[i]):
                sh_prices.append(sh.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(sl.iloc[i]):
                sl_prices.append(sl.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            # 上升趋势强度：HH[-1] vs HH[-2], HL[-1] vs HL[-2]
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                # HH间距：最近两个Swing High的差值百分比
                hh_dist = (sh_prices[-1] - sh_prices[-2]) / sh_prices[-2] if sh_prices[-2] > 0 else 0
                # HL间距：最近两个Swing Low的差值百分比
                hl_dist = (sl_prices[-1] - sl_prices[-2]) / sl_prices[-2] if sl_prices[-2] > 0 else 0
                # 上升趋势强度 = HH间距 + HL间距（都正=扩张，一正一负=不确定，都负=收缩）
                trend_strength_up[i] = hh_dist + hl_dist
                # 下降趋势强度（取反：间距缩小是负值）
                trend_strength_down[i] = -(hh_dist + hl_dist)
        dataframe["trend_strength_up"] = pd.Series(trend_strength_up, index=dataframe.index)
        dataframe["trend_strength_down"] = pd.Series(trend_strength_down, index=dataframe.index)
        # 趋势强度是否足够（扩张中）
        min_strength = self.trend_strength_min.value / 100.0  # 0~0.30
        dataframe["strong_uptrend"] = dataframe["trend_strength_up"] > min_strength
        dataframe["strong_downtrend"] = dataframe["trend_strength_down"] > min_strength
        return dataframe
    # ================================================================
    #  主时间框架 — 1H 指标
    # ================================================================
    def populate_indicators(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        """1H 级别：K线形态（零指标）。"""
        bullish_pin, bearish_pin, bullish_engulf, bearish_engulf = (
            self._detect_candle_patterns(
                dataframe["open"],
                dataframe["high"],
                dataframe["low"],
                dataframe["close"],
                self.pin_bar_wick_ratio.value / 100.0,
            )
        )
        dataframe["bullish_pinbar"] = bullish_pin
        dataframe["bearish_pinbar"] = bearish_pin
        dataframe["bullish_engulfing"] = bullish_engulf
        dataframe["bearish_engulfing"] = bearish_engulf
        dataframe["bullish_signal"] = bullish_pin | bullish_engulf
        dataframe["bearish_signal"] = bearish_pin | bearish_engulf
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        return dataframe
    # =====================
    # 入场信号
    # =====================
    def populate_entry_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """
        入场逻辑（1H 时间框架）。
        v2.1 核心改动：D1 — 趋势强度过滤
          做多额外条件：4H上升趋势在扩张（strong_uptrend_4h）
          做空额外条件：4H下降趋势在扩张（strong_downtrend_4h）
        """
        max_dist = self.max_stop_dist.value / 100.0
        cooldown = self.cooldown_bars.value
        # NaN 安全处理
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand_4h", "in_supply_4h",
            "support_alive_4h", "resistance_alive_4h",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
        # ── 做多 ──
        long_stop_dist = (dataframe["open"] - dataframe["support_4h"]) / dataframe["open"]
        long_base = (
            dataframe["trend_up_1d"]
            & dataframe["in_demand_4h"]
            & dataframe["bullish_signal"]
            & (long_stop_dist <= max_dist)
            & (long_stop_dist > 0.003)
            & dataframe["support_alive_4h"]
            # v2.1: 趋势强度 — 4H上升趋势必须在扩张
            & dataframe["strong_uptrend_4h"]
        )
        long_recent = long_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[long_base & long_recent, "enter_long"] = 1
        # ── 做空 ──
        short_stop_dist = (dataframe["resistance_4h"] - dataframe["open"]) / dataframe["open"]
        short_base = (
            dataframe["trend_down_1d"]
            & dataframe["in_supply_4h"]
            & dataframe["bearish_signal"]
            & (short_stop_dist <= max_dist)
            & (short_stop_dist > 0.003)
            & dataframe["resistance_alive_4h"]
            # v2.1: 趋势强度 — 4H下降趋势必须在扩张
            & dataframe["strong_downtrend_4h"]
        )
        short_recent = short_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[short_base & short_recent, "enter_short"] = 1
        return dataframe
    # =====================
    # 出场信号
    # =====================
    def populate_exit_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
        """出场逻辑 — 由结构反转触发。"""
        exit_long = ~dataframe["trend_up_1d"].fillna(True)
        dataframe.loc[exit_long, "exit_long"] = 1
        exit_short = dataframe["trend_up_1d"].fillna(False)
        dataframe.loc[exit_short, "exit_short"] = 1
        return dataframe
    # =====================
    # 动态止损 — 纯价格结构（基于Swing Point）
    # =====================
    def custom_stoploss(
        self,
        pair: str,
        trade: Trade,
        current_time: datetime,
        current_rate: float,
        current_profit: float,
        after_fill: bool,
        **kwargs,
    ) -> float:
        """
        止损逻辑：完全基于价格结构，零指标（与v1.6相同）。
        """
        dataframe, _ = self.dp.get_analyzed_dataframe(pair, self.timeframe)
        if dataframe is None or len(dataframe) == 0:
            return -0.02 if not trade.is_short else 0.02
        last = dataframe.iloc[-1]
        if not trade.is_short:
            support = last.get("support_4h", np.nan)
            if pd.isna(support) or support <= 0:
                return -0.02
            sl_price = support * 0.999
            sl_ratio = (sl_price / current_rate) - 1.0
            return max(sl_ratio, -0.15)
        else:
            resistance = last.get("resistance_4h", np.nan)
            if pd.isna(resistance) or resistance <= 0:
                return 0.02
            sl_price = resistance * 1.001
            sl_ratio = 1.0 - (sl_price / current_rate)
            return min(sl_ratio, 0.15)
    # =====================
    # Plot config
    # =====================
    @staticmethod
    def plot_config() -> dict:
        return {
            "main_plot": {
                "support_4h": {"color": "green", "type": "line"},
                "resistance_4h": {"color": "red", "type": "line"},
            },
            "subplots": {
                "signals": {
                    "bullish_pinbar": {"color": "green", "type": "scatter"},
                    "bearish_pinbar": {"color": "red", "type": "scatter"},
                },
                "filters": {
                    "support_alive_4h": {"color": "green", "type": "line"},
                    "resistance_alive_4h": {"color": "red", "type": "line"},
                    "strong_uptrend_4h": {"color": "blue", "type": "line"},
                    "strong_downtrend_4h": {"color": "orange", "type": "line"},
                },
            },
        }
--- a/strategy.py
+++ b/strategy.py
@ -1,373 +1,270 @@
-"""
+# structure_flow_momentum_scalp.py
-Structure Flow Strategy v2.2b — 1H S/R 实验版
+# 顺趋势剥头皮策略 v2.0
-==============================================
+#
-变更记录：
+# 核心思路：不再在S/R处做反向交易接飞刀，而是顺趋势方向，等回调后入场。
-  v2.2b (2026-06-09): 原版 — 4H级别S/R + 趋势强度
+#
-  v2.2b-1h-sr (2026-06-10): 实验版 — 将S/R从4H改为1H级别，趋势强度仍用4H
+# ┌─────────────────────────────────────────────────────────────┐
 # │  15m趋势方向判断（EMA20 vs EMA50）                           │
 # │         ↓                                                    │
 # │  上升趋势 → 只等5m回调到EMA20/支撑附近 → 止跌信号 → 做多     │
 # │  下降趋势 → 只等5m反弹到EMA20/阻力附近 → 止涨信号 → 做空     │
 # │         ↓                                                    │
 # │  止损：ATR×1.0 | 止盈：ATR×1.5 | 时间止损：60分钟           │
 # └─────────────────────────────────────────────────────────────┘
 #
 # v2.0 (2026-06-10): 初始版本，完全重写
-改动：
+from freqtrade.strategy import IStrategy, IntParameter, DecimalParameter, informative
  support_alive/resistance_alive 从4H级别 → 1H级别
  support/resistance 引用 从4H → 1H
  in_demand/in_supply 从4H → 1H
  趋势强度（strong_uptrend/downtrend）保持在4H
 """
 from datetime import datetime
 import numpy as np
 import pandas as pd
 from pandas import DataFrame
-from freqtrade.strategy import IStrategy, IntParameter, informative
+import pandas as pd
 import numpy as np
 from datetime import datetime
 from freqtrade.persistence import Trade
-class StructureFlowStrategyV22c(IStrategy):
+class StructureFlowMomentumScalp(IStrategy):
    """
    顺趋势剥头皮策略 v2.0
    核心逻辑：
    - 15m EMA趋势方向过滤，只做顺趋势方向的单
    - 5m 回调到EMA20或S/R支撑/阻力区域时，等待K线信号确认后入场
    - 止损 ATR×1.0，止盈 ATR×1.5，时间止损 60 分钟
    - 不做方向猜测，不吃鱼头鱼尾，只吃回调结束那一小段
    """
    # ── 时间框架 ──
    timeframe = "5m"
    # ── 交易参数 ──
    can_short = True
    stoploss = -0.15
    use_custom_stoploss = True
    minimal_roi = {"0": 100}
    max_open_trades = 1
-    timeframe = "1h"
+    stake_amount = "unlimited"
    use_custom_stoploss = True
    use_exit_signal = False  # 出场完全由 custom_stoploss + custom_exit 管理
-    # =====================
+    # ── 合约参数 ──
-    # 可优化参数
+    margin_mode = "cross"
-    # =====================
+    trading_mode = "futures"
-    swing_lookback_d1 = IntParameter(8, 14, default=10, space="buy")
+    # ── 可优化参数 ──
-    swing_lookback_h4 = IntParameter(5, 10, default=8, space="buy")
+    # 趋势检测
-    swing_lookback_1h = IntParameter(3, 7, default=5, space="buy")  # 新增：1H swing参数
+    trend_ema_period = IntParameter(10, 30, default=20, space="buy")
-    pin_bar_wick_ratio = IntParameter(50, 70, default=60, space="buy")
+    # 回调确认幅度
-    max_stop_dist = IntParameter(20, 50, default=50, space="buy")
+    pullback_deviation = DecimalParameter(0.2, 1.0, default=0.5, decimals=1, space="buy")
-    cooldown_bars = IntParameter(3, 12, default=6, space="buy")
+    # 入场冷却期
-    trend_strength_min = IntParameter(-50, 20, default=-20, space="buy")
+    cooldown_bars = IntParameter(2, 8, default=3, space="buy")
    # K线形态灵敏度
    pin_bar_wick_ratio = IntParameter(50, 80, default=60, space="buy")
    # 止损ATR倍数
    atr_mult_stop = DecimalParameter(0.8, 2.0, default=1.0, decimals=1, space="sell")
    # 止盈ATR倍数
    atr_mult_tp = DecimalParameter(1.0, 3.0, default=1.5, decimals=1, space="sell")
-    # =====================
+    # ── 常数 ──
-    # 工具：Swing Point 检测
+    time_stop_minutes = 60  # 最大持仓时间
    # =====================
-    @staticmethod
+    # ── 保护性止损 ──
-    def _detect_swing_points(
+    stoploss = -0.10  # 硬止损 10%
        high: pd.Series,
        low: pd.Series,
        window: int = 5,
    ) -> tuple[pd.Series, pd.Series]:
        n = len(high)
        sh = pd.Series(np.nan, index=high.index, dtype=float)
        sl = pd.Series(np.nan, index=low.index, dtype=float)
        for i in range(window, n - window):
            if high.iloc[i] > high.iloc[i - window : i].max() and high.iloc[i] > high.iloc[i + 1 : i + window + 1].max():
                sh.iloc[i] = high.iloc[i]
            if low.iloc[i] < low.iloc[i - window : i].min() and low.iloc[i] < low.iloc[i + 1 : i + window + 1].min():
                sl.iloc[i] = low.iloc[i]
        return sh, sl
    # =====================
    # 工具：结构分析
    # =====================
    def _build_structure(
        self,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        swing_high: pd.Series,
        swing_low: pd.Series,
    ) -> DataFrame:
        n = len(high)
        trend_up_arr = np.full(n, False)
        trend_down_arr = np.full(n, False)
        nearest_support = np.full(n, np.nan)
        nearest_resistance = np.full(n, np.nan)
        in_demand_zone = np.full(n, False)
        in_supply_zone = np.full(n, False)
        sh_prices = []
        sl_prices = []
        for i in range(n):
            if pd.notna(swing_high.iloc[i]):
                sh_prices.append(swing_high.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(swing_low.iloc[i]):
                sl_prices.append(swing_low.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                if sh_prices[-1] > sh_prices[-2] and sl_prices[-1] > sl_prices[-2]:
                    trend_up_arr[i] = True
                elif sh_prices[-1] < sh_prices[-2] and sl_prices[-1] < sl_prices[-2]:
                    trend_down_arr[i] = True
                elif i > 0:
                    trend_up_arr[i] = trend_up_arr[i - 1]
                    trend_down_arr[i] = trend_down_arr[i - 1]
            elif i > 0:
                trend_up_arr[i] = trend_up_arr[i - 1]
                trend_down_arr[i] = trend_down_arr[i - 1]
            if sl_prices:
                nearest_support[i] = sl_prices[-1]
            if sh_prices:
                nearest_resistance[i] = sh_prices[-1]
            c = close.iloc[i]
            if not np.isnan(nearest_support[i]) and not np.isnan(nearest_resistance[i]):
                zone_range = nearest_resistance[i] - nearest_support[i]
                if zone_range > 0:
                    pos_pct = (c - nearest_support[i]) / zone_range
                    in_demand_zone[i] = pos_pct < 0.35
                    in_supply_zone[i] = pos_pct > 0.65
        return DataFrame({
            "trend_up": trend_up_arr,
            "trend_down": trend_down_arr,
            "support": nearest_support,
            "resistance": nearest_resistance,
            "in_demand": in_demand_zone,
            "in_supply": in_supply_zone,
        }, index=high.index)
    # =====================
    # 工具：K线形态检测
    # =====================
    @staticmethod
    def _detect_candle_patterns(
        open_: pd.Series,
        high: pd.Series,
        low: pd.Series,
        close: pd.Series,
        pin_bar_wick_ratio: float = 0.6,
    ) -> tuple[pd.Series, pd.Series, pd.Series, pd.Series]:
        body = (close - open_).abs()
        total_range = (high - low).replace(0, 0.0001)
        upper_wick = high - close.where(close > open_, open_)
        lower_wick = open_.where(close > open_, close) - low
        is_pin = (upper_wick + lower_wick) / total_range > pin_bar_wick_ratio
        bullish_pin = is_pin & (close > open_) & (lower_wick > upper_wick)
        bearish_pin = is_pin & (close < open_) & (upper_wick > lower_wick)
        prev_open = open_.shift(1)
        prev_close = close.shift(1)
        bullish_engulf = (close > prev_open) & (open_ < prev_close) & (close > open_)
        bearish_engulf = (close < prev_open) & (open_ > prev_close) & (close < open_)
        return bullish_pin, bearish_pin, bullish_engulf, bearish_engulf
    # ================================================================
-    #  信息时间框架 — D1 宏观结构
+    #  杠杆
    # ================================================================
-    @informative("1d")
+    def leverage(
-    def populate_indicators_1d(
+        self, pair: str, current_time: datetime, current_rate: float,
        proposed_leverage: float, max_leverage: float, side: str,
        **kwargs,
    ) -> float:
        """20x 杠杆起步，验证胜率后再上量"""
        return min(20.0, max_leverage)
    # ================================================================
    #  信息时间框架 — 15m 趋势判断 + S/R
    # ================================================================
    @informative("15m")
    def populate_indicators_15m(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
-        sh, sl = self._detect_swing_points(
+        """15m级别：EMA趋势方向 + swing point S/R。"""
            dataframe["high"], dataframe["low"],
            self.swing_lookback_d1.value,
        )
        structure = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh, sl,
        )
        dataframe["trend_up"] = structure["trend_up"]
        dataframe["trend_down"] = structure["trend_down"]
        return dataframe
-    # ================================================================
+        # ── EMA 趋势方向 ──
-    #  信息时间框架 — 4H 趋势强度（原版保留）
+        ema_period = self.trend_ema_period.value
-    # ================================================================
+        dataframe["ema_fast"] = dataframe["close"].ewm(span=ema_period, adjust=False).mean()
        dataframe["ema_slow"] = dataframe["close"].ewm(span=ema_period * 2.5, adjust=False).mean()
-    @informative("4h")
+        dataframe["trend_up"] = dataframe["ema_fast"] > dataframe["ema_slow"]
-    def populate_indicators_4h(
+        dataframe["trend_down"] = dataframe["ema_fast"] < dataframe["ema_slow"]
-        self, dataframe: DataFrame, metadata: dict
+
-    ) -> DataFrame:
+        # ── Swing Point 支撑/阻力 ──
-        sh, sl = self._detect_swing_points(
+        high = dataframe["high"].tolist()
-            dataframe["high"], dataframe["low"],
+        low = dataframe["low"].tolist()
-            self.swing_lookback_h4.value,
+        close = dataframe["close"].tolist()
-        )
+
-        structure = self._build_structure(
+        sh, sl = self._detect_swing_points(high, low, window=5)
-            dataframe["high"], dataframe["low"], dataframe["close"],
+        trend_up_arr, trend_down_arr, support_arr, resistance_arr = self._build_structure(
-            sh, sl,
+            high, low, close, sh, sl,
        )
-        # 趋势强度计算（原版逻辑）
+        dataframe["trend_up_sp"] = trend_up_arr
-        sh_prices = []
+        dataframe["trend_down_sp"] = trend_down_arr
-        sl_prices = []
+        # EMA平滑S/R（避免跳变）
-        trend_strength_up = np.full(len(dataframe), np.nan)
+        dataframe["support"] = self._ema_smooth(support_arr, alpha=0.3)
-        trend_strength_down = np.full(len(dataframe), np.nan)
+        dataframe["resistance"] = self._ema_smooth(resistance_arr, alpha=0.3)
        for i in range(len(dataframe)):
            if pd.notna(sh.iloc[i]):
                sh_prices.append(sh.iloc[i])
                if len(sh_prices) > 4:
                    sh_prices.pop(0)
            if pd.notna(sl.iloc[i]):
                sl_prices.append(sl.iloc[i])
                if len(sl_prices) > 4:
                    sl_prices.pop(0)
            if len(sh_prices) >= 2 and len(sl_prices) >= 2:
                hh_dist = (sh_prices[-1] - sh_prices[-2]) / sh_prices[-2] if sh_prices[-2] > 0 else 0
                hl_dist = (sl_prices[-1] - sl_prices[-2]) / sl_prices[-2] if sl_prices[-2] > 0 else 0
                trend_strength_up[i] = hh_dist + hl_dist
                trend_strength_down[i] = -(hh_dist + hl_dist)
        dataframe["trend_strength_up"] = pd.Series(trend_strength_up, index=dataframe.index)
        dataframe["trend_strength_down"] = pd.Series(trend_strength_down, index=dataframe.index)
        min_strength = self.trend_strength_min.value / 100.0
        dataframe["strong_uptrend"] = dataframe["trend_strength_up"] > min_strength
        dataframe["strong_downtrend"] = dataframe["trend_strength_down"] > min_strength
        return dataframe
    # ================================================================
-    #  主时间框架 — 1H 指标（含 1H S/R + 活支撑/阻力）
+    #  主框架 — 5m 级别指标
    # ================================================================
    def populate_indicators(
        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        """5m级别：ATR + K线形态 + EMA趋势整合。"""
        # ── ATR(14) ──
        high = dataframe["high"]
        low = dataframe["low"]
        close = dataframe["close"]
        prev_close = close.shift(1)
        tr = pd.concat([
            high - low,
            (high - prev_close).abs(),
            (low - prev_close).abs(),
        ], axis=1).max(axis=1)
        dataframe["atr"] = tr.rolling(14).mean()
        atr_mean = dataframe["atr"].mean()
        dataframe["atr"] = dataframe["atr"].fillna(atr_mean)
        # ── K线形态 ──
        bullish_pin, bearish_pin, bullish_engulf, bearish_engulf = (
            self._detect_candle_patterns(
-                dataframe["open"],
+                dataframe["open"], dataframe["high"], dataframe["low"],
-                dataframe["high"],
+                dataframe["close"], self.pin_bar_wick_ratio.value / 100.0,
                dataframe["low"],
                dataframe["close"],
                self.pin_bar_wick_ratio.value / 100.0,
            )
        )
        dataframe["bullish_pinbar"] = bullish_pin
        dataframe["bearish_pinbar"] = bearish_pin
        dataframe["bullish_engulfing"] = bullish_engulf
        dataframe["bearish_engulfing"] = bearish_engulf
        dataframe["bullish_signal"] = bullish_pin | bullish_engulf
        dataframe["bearish_signal"] = bearish_pin | bearish_engulf
-        # ── 1H级别 Swing Point + 结构（替代原4H S/R） ──
+        # ── 5m EMA（用于短期拉回确认） ──
-        sh_1h, sl_1h = self._detect_swing_points(
+        dataframe["ema5"] = close.ewm(span=5, adjust=False).mean()
-            dataframe["high"], dataframe["low"],
+        dataframe["ema8"] = close.ewm(span=8, adjust=False).mean()
            self.swing_lookback_1h.value,
        )
        structure_1h = self._build_structure(
            dataframe["high"], dataframe["low"], dataframe["close"],
            sh_1h, sl_1h,
        )
        dataframe["trend_up_1h"] = structure_1h["trend_up"]
        dataframe["trend_down_1h"] = structure_1h["trend_down"]
        dataframe["support"] = structure_1h["support"]
        dataframe["resistance"] = structure_1h["resistance"]
        dataframe["in_demand"] = structure_1h["in_demand"]
        dataframe["in_supply"] = structure_1h["in_supply"]
-        # ── 1H 活支撑/阻力检查 ──
+        # ── 布尔列NaN填充 ──
-        touched_support = (
+        for col in ["bullish_signal", "bearish_signal"]:
            (dataframe["low"] <= dataframe["support"] * 1.005) &
            (dataframe["low"] >= dataframe["support"] * 0.995)
        )
        held_support = dataframe["close"] > dataframe["support"]
        support_tested_and_held = touched_support & held_support
        dataframe["support_alive"] = support_tested_and_held.rolling(3, min_periods=1).max() > 0
        touched_resistance = (
            (dataframe["high"] >= dataframe["resistance"] * 0.995) &
            (dataframe["high"] <= dataframe["resistance"] * 1.005)
        )
        held_resistance = dataframe["close"] < dataframe["resistance"]
        resistance_tested_and_held = touched_resistance & held_resistance
        dataframe["resistance_alive"] = resistance_tested_and_held.rolling(3, min_periods=1).max() > 0
        # ── NaN 安全处理 ──
        bool_cols = [
            "trend_up_1d", "trend_down_1d",
            "trend_up_4h", "trend_down_4h",
            "in_demand", "in_supply",
            "support_alive", "resistance_alive",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
        for col in bool_cols:
            if col in dataframe.columns:
            dataframe[col] = dataframe[col].fillna(False)
        return dataframe
-    # =====================
+    # ================================================================
-    # 入场信号
+    #  入场逻辑
-    # =====================
+    # ================================================================
-    def populate_entry_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
+    def populate_entry_trend(
-        max_dist = self.max_stop_dist.value / 100.0
+        self, dataframe: DataFrame, metadata: dict
    ) -> DataFrame:
        """
        入场逻辑。
        只做顺趋势回调入场，不做S/R反向交易：
        做多条件：
        1. 15m 上升趋势（EMA_fast > EMA_slow）
        2. 5m 价格回调到15m EMA_fast 或 支撑位附近
        3. 5m K线止跌信号（pinbar/engulfing）
        做空条件（对称）：
        1. 15m 下降趋势
        2. 5m 价格反弹到15m EMA_fast 或 阻力位附近
        3. 5m K线止涨信号
        """
        cooldown = self.cooldown_bars.value
        dev = self.pullback_deviation.value / 100.0  # 0.5% → 0.005
-        bool_cols = [
+        # ── 必要列检查 ──
-            "trend_up_1d", "trend_down_1d",
+        required = [
-            "trend_up_4h", "trend_down_4h",
+            "ema_fast_15m", "trend_up_15m", "trend_down_15m",
-            "in_demand", "in_supply",
+            "support_15m", "resistance_15m",
            "support_alive", "resistance_alive",
            "strong_uptrend_4h", "strong_downtrend_4h",
            "bullish_signal", "bearish_signal",
        ]
-        for col in bool_cols:
+        for col in required:
            if col not in dataframe.columns:
                return dataframe
        # ── 布尔列填充 ──
        for col in [
            "bullish_signal", "bearish_signal",
            "trend_up_15m", "trend_down_15m",
        ]:
            if col in dataframe.columns:
                dataframe[col] = dataframe[col].fillna(False)
-        # ── 做多（使用1H S/R） ──
+        # ═══════════════════════════════════════════════════════════
-        long_stop_dist = (dataframe["open"] - dataframe["support"]) / dataframe["open"]
+        #  做多：上升趋势 + 回调到EMA/支撑 + 止跌信号
        # ═══════════════════════════════════════════════════════════
-        long_base = (
+        # 条件1：15m 上升趋势
-            dataframe["trend_up_1d"]
+        trend_up = dataframe["trend_up_15m"]
-            & dataframe["in_demand"]
+
-            & (long_stop_dist <= max_dist)
+        # 条件2：价格在EMA20或支撑位附近（回调到顺趋势的支撑区）
-            & (long_stop_dist > 0.003)
+        near_ema = (
-            & dataframe["support_alive"]
+            (dataframe["low"] <= dataframe["ema_fast_15m"] * (1.0 + dev * 0.5)) &
-            & dataframe["strong_uptrend_4h"]
+            (dataframe["low"] >= dataframe["ema_fast_15m"] * (1.0 - dev * 2.0))
        )
-
+        near_support = (
-        long_recent = long_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
+            (dataframe["low"] <= dataframe["support_15m"] * (1.0 + dev)) &
-        dataframe.loc[long_base & long_recent, "enter_long"] = 1
+            (dataframe["low"] >= dataframe["support_15m"] * (1.0 - dev))
        # ── 做空（使用1H S/R） ──
        short_stop_dist = (dataframe["resistance"] - dataframe["open"]) / dataframe["open"]
        short_base = (
            dataframe["trend_down_1d"]
            & dataframe["in_supply"]
            & (short_stop_dist <= max_dist)
            & (short_stop_dist > 0.003)
            & dataframe["resistance_alive"]
            & dataframe["strong_downtrend_4h"]
        )
        pullback_long = near_ema | near_support
-        short_recent = short_base.rolling(cooldown, min_periods=1).max().shift(1) == 0
+        # 条件3：K线止跌信号
-        dataframe.loc[short_base & short_recent, "enter_short"] = 1
+        signal_long = dataframe["bullish_signal"]
        # 综合入场
        enter_long = trend_up & pullback_long & signal_long
        long_recent = enter_long.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[enter_long & long_recent, "enter_long"] = 1
        # ═══════════════════════════════════════════════════════════
        #  做空：下降趋势 + 反弹到EMA/阻力 + 止涨信号
        # ═══════════════════════════════════════════════════════════
        # 条件1：15m 下降趋势
        trend_down = dataframe["trend_down_15m"]
        # 条件2：价格在EMA20或阻力位附近（反弹到顺趋势的阻力区）
        near_ema_short = (
            (dataframe["high"] >= dataframe["ema_fast_15m"] * (1.0 - dev * 0.5)) &
            (dataframe["high"] <= dataframe["ema_fast_15m"] * (1.0 + dev * 2.0))
        )
        near_resistance = (
            (dataframe["high"] >= dataframe["resistance_15m"] * (1.0 - dev)) &
            (dataframe["high"] <= dataframe["resistance_15m"] * (1.0 + dev))
        )
        pullback_short = near_ema_short | near_resistance
        # 条件3：K线止涨信号
        signal_short = dataframe["bearish_signal"]
        # 综合入场
        enter_short = trend_down & pullback_short & signal_short
        short_recent = enter_short.rolling(cooldown, min_periods=1).max().shift(1) == 0
        dataframe.loc[enter_short & short_recent, "enter_short"] = 1
        return dataframe
-    # =====================
+    # ================================================================
-    # 出场信号
+    #  exit_trend（freqtrade 2025.11 强制要求，即使 use_exit_signal=False）
-    # =====================
+    # ================================================================
    def populate_exit_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
-        exit_long = ~dataframe["trend_up_1d"].fillna(True)
+        """出场完全由 custom_stoploss + custom_exit 管理。"""
        dataframe.loc[exit_long, "exit_long"] = 1
        exit_short = dataframe["trend_up_1d"].fillna(False)
        dataframe.loc[exit_short, "exit_short"] = 1
        return dataframe
-    # =====================
+    # ================================================================
-    # 动态止损（基于1H S/R）
+    #  出场 — 止损（ATR动态）
-    # =====================
+    # ================================================================
    def custom_stoploss(
        self,
@ -379,49 +276,240 @@ class StructureFlowStrategyV22c(IStrategy):
        after_fill: bool,
        **kwargs,
    ) -> float:
        """
        止损 = 入场价 ± ATR × atr_mult_stop
        - ATR值从入场K线锁定，持仓期间不变
        - 做多：entry_price - (locked_atr × mult)
        - 做空：entry_price + (locked_atr × mult)
        - 配20x杠杆，ATR×1.0 ≈ 对应约 $3.7 止损（当前5m ATR~$3.74）
        """
        dataframe, _ = self.dp.get_analyzed_dataframe(pair, self.timeframe)
        if dataframe is None or len(dataframe) == 0:
            return -0.02 if not trade.is_short else 0.02
-        last = dataframe.iloc[-1]
+        entry_row = self._get_entry_row(dataframe, trade)
        if entry_row is None:
            return -0.02 if not trade.is_short else 0.02
        atr = entry_row.get("atr", np.nan)
        if pd.isna(atr) or atr <= 0:
            return -0.02 if not trade.is_short else 0.02
        mult = self.atr_mult_stop.value
        if not trade.is_short:
-            support = last.get("support", np.nan)
+            sl_price = trade.open_rate - (atr * mult)
-            if pd.isna(support) or support <= 0:
+            sl_ratio = (sl_price / trade.open_rate) - 1.0
-                return -0.02
+            return max(sl_ratio, -self.stoploss)
            sl_price = support * 0.999
            sl_ratio = (sl_price / current_rate) - 1.0
            return max(sl_ratio, -0.15)
        else:
-            resistance = last.get("resistance", np.nan)
+            sl_price = trade.open_rate + (atr * mult)
-            if pd.isna(resistance) or resistance <= 0:
+            sl_ratio = 1.0 - (sl_price / trade.open_rate)
-                return 0.02
+            return min(sl_ratio, self.stoploss)
            sl_price = resistance * 1.001
            sl_ratio = 1.0 - (sl_price / current_rate)
            return min(sl_ratio, 0.15)
-    # =====================
+    # ================================================================
-    # Plot config
+    #  出场 — 止盈（ATR动态）+ 时间止损
-    # =====================
+    # ================================================================
-    @staticmethod
+    def custom_exit(
-    def plot_config() -> dict:
+        self,
-        return {
+        pair: str,
-            "main_plot": {
+        trade: Trade,
-                "support": {"color": "green", "type": "line"},
+        current_time: datetime,
-                "resistance": {"color": "red", "type": "line"},
+        current_rate: float,
-            },
+        current_profit: float,
-            "subplots": {
+        **kwargs,
-                "signals": {
+    ) -> str | None:
-                    "bullish_pinbar": {"color": "green", "type": "scatter"},
+        """
-                    "bearish_pinbar": {"color": "red", "type": "scatter"},
+        出场逻辑：
-                },
+        1. ATR止盈：利润达到入场时锁定的 ATR × atr_mult_tp → 止盈
-                "filters": {
+        2. 时间止损：持仓超过 time_stop_minutes → 强制出场
-                    "support_alive": {"color": "green", "type": "line"},
+        """
-                    "resistance_alive": {"color": "red", "type": "line"},
+        dataframe, _ = self.dp.get_analyzed_dataframe(pair, self.timeframe)
-                    "strong_uptrend_4h": {"color": "blue", "type": "line"},
+        if dataframe is None or len(dataframe) == 0:
-                    "strong_downtrend_4h": {"color": "orange", "type": "line"},
+            return None
                },
            },
        }
        entry_row = self._get_entry_row(dataframe, trade)
        if entry_row is None:
            return None
        atr = entry_row.get("atr", np.nan)
        if pd.isna(atr) or atr <= 0:
            return None
        # 1. ATR 止盈
        tp_mult = self.atr_mult_tp.value
        tp_ratio = (atr * tp_mult) / trade.open_rate
        if current_profit >= tp_ratio:
            return "atr_tp"
        # 2. 时间止损
        elapsed = (current_time - trade.open_date).total_seconds() / 60.0
        if elapsed >= self.time_stop_minutes:
            return "time_stop"
        return None
    # ================================================================
    #  工具函数
    # ================================================================
    def _detect_swing_points(
        self, highs: list, lows: list, window: int = 5
    ):
        """
        Swing High / Swing Low 检测。
        当一根K线的最高价高于其两侧window根K线的最高价时，标记为Swing High。
        Swing Low同理。
        """
        n = len(highs)
        swing_high = [np.nan] * n
        swing_low = [np.nan] * n
        for i in range(window, n - window):
            # Swing High
            is_high = True
            for j in range(i - window, i + window + 1):
                if j == i:
                    continue
                if highs[j] >= highs[i]:
                    is_high = False
                    break
            if is_high:
                swing_high[i] = highs[i]
            # Swing Low
            is_low = True
            for j in range(i - window, i + window + 1):
                if j == i:
                    continue
                if lows[j] <= lows[i]:
                    is_low = False
                    break
            if is_low:
                swing_low[i] = lows[i]
        return swing_high, swing_low
    def _build_structure(
        self, highs: list, lows: list, closes: list,
        swing_high: list, swing_low: list,
    ):
        """构建趋势结构和支撑/阻力位。"""
        n = len(highs)
        trend_up = [False] * n
        trend_down = [False] * n
        support = [np.nan] * n
        resistance = [np.nan] * n
        # 用最近4个swing point的位置判断
        last_sh_idx = -1
        last_sl_idx = -1
        prev_sh = []
        prev_sl = []
        for i in range(n):
            if not np.isnan(swing_high[i]):
                prev_sh.append(swing_high[i])
                last_sh_idx = i
                if len(prev_sh) > 4:
                    prev_sh.pop(0)
            if not np.isnan(swing_low[i]):
                prev_sl.append(swing_low[i])
                last_sl_idx = i
                if len(prev_sl) > 4:
                    prev_sl.pop(0)
            # 趋势判断：最新的HH > 次新的HH = 上升趋势中的higher high
            if len(prev_sh) >= 2 and prev_sh[-1] > prev_sh[-2]:
                trend_up[i] = True
            # 趋势判断：最新的LL < 次新的LL = 下降趋势中的lower low
            if len(prev_sl) >= 2 and prev_sl[-1] < prev_sl[-2]:
                trend_down[i] = True
            # 支撑 = 最近的有效Swing Low（EMA平滑后在调用侧处理）
            if prev_sl:
                support[i] = prev_sl[-1]
            if prev_sh:
                resistance[i] = prev_sh[-1]
        return trend_up, trend_down, support, resistance
    def _ema_smooth(self, values: list, alpha: float = 0.3):
        """对数组做EMA平滑，避免跳变。"""
        result = [np.nan] * len(values)
        ema = None
        for i, v in enumerate(values):
            if pd.isna(v) or v is None:
                if ema is not None:
                    result[i] = ema
                continue
            if ema is None:
                ema = v
            else:
                ema = alpha * v + (1 - alpha) * ema
            result[i] = ema
        return np.array(result)
    def _detect_candle_patterns(
        self, opens, highs, lows, closes, wick_ratio=0.6,
    ):
        """检测K线形态：pinbar（锤子线/射击星）和吞没形态。"""
        n = len(opens)
        bullish_pin = [False] * n
        bearish_pin = [False] * n
        bullish_engulf = [False] * n
        bearish_engulf = [False] * n
        for i in range(n):
            o, h, l, c = opens[i], highs[i], lows[i], closes[i]
            total_range = h - l if h > l else 0.001
            is_bullish = c > o
            is_bearish = c < o
            body = abs(c - o)
            upper_wick = h - max(c, o)
            lower_wick = min(c, o) - l
            # Pinbar：影线 > total_range × wick_ratio
            if is_bullish and lower_wick / total_range > wick_ratio:
                bullish_pin[i] = True
            if is_bearish and upper_wick / total_range > wick_ratio:
                bearish_pin[i] = True
            # 吞没形态
            if i > 0:
                prev_o = opens[i - 1]
                prev_c = closes[i - 1]
                if is_bullish and c > prev_o and o < prev_c:
                    bullish_engulf[i] = True
                if is_bearish and c < prev_o and o > prev_c:
                    bearish_engulf[i] = True
        return (
            pd.Series(bullish_pin),
            pd.Series(bearish_pin),
            pd.Series(bullish_engulf),
            pd.Series(bearish_engulf),
        )
    def _get_entry_row(self, dataframe: DataFrame, trade: Trade):
        """查找入场K线行，兼容live/backtesting两种模式。"""
        if "date" in dataframe.columns:
            entry_mask = pd.to_datetime(dataframe["date"]) <= trade.open_date
            if not entry_mask.any():
                return None
            return dataframe[entry_mask].iloc[-1]
        else:
            try:
                idx = dataframe.index.get_indexer([trade.open_date], method="pad")
                if idx[0] < 0 or idx[0] >= len(dataframe):
                    return None
                return dataframe.iloc[idx[0]]
            except (TypeError, ValueError):
                return None
Author	SHA1	Message	Date
Beast Trader	bd598f0203	docs: 添加 ablation 消融实验 + README 版本概览	2026-06-11 21:14:52 +08:00
Beast Trader	89174352e2	v2.0 (Scalp): 顺趋势动量剥头皮 - 方向正确但20x杠杆过重	2026-06-11 21:14:39 +08:00
Beast Trader	92fdf2c941	v1.8 (Scalp): 反向S/R剥头皮 - 全线失败/0%胜率	2026-06-11 21:14:37 +08:00
Beast Trader	58ec67203f	v4.2 (Swing): 极简版 - 最小化参数 + 纯结构信号	2026-06-11 21:14:29 +08:00
Beast Trader	23ed71649d	v4.1 (Swing): 入场时机优化 + 止损逻辑调整	2026-06-11 21:14:28 +08:00
Beast Trader	13616c1cd2	v4.0 (Swing): 精简架构 - 单一框架震荡识别 + 快速入场	2026-06-11 21:14:28 +08:00
Beast Trader	3da0b17725	v3.2 (Swing): 多TF震荡确认 + 供需区动态评分	2026-06-11 21:14:27 +08:00
Beast Trader	77c3362dd5	v3.1 (Swing): 震荡判定优化 + 2025回测+65.47%/70.4%胜率	2026-06-11 21:14:26 +08:00
Beast Trader	cf0c6d2677	v3.0 (Swing): 纯震荡波段策略 - 4H框架供需区波段交易	2026-06-11 21:14:26 +08:00
Beast Trader	688fe36e3b	v2.2d: 冷却期修复版 - 震荡市自动休眠 + 三层趋势共振保护	2026-06-11 21:14:16 +08:00