Files
qihuo/strategy/strategy_roll_lib.py
T
dekun 6e423eebfb 接入 SimNow 模拟盘与期货下单、策略及品种推荐功能。
新增 vnpy CTP 桥接、以损定仓/固定张数、趋势回调与滚仓策略、按资金推荐品种及交易风控;模拟盘走 SimNow,实盘预留期货公司配置。

Co-authored-by: Cursor <cursoragent@cursor.com>
2026-06-24 10:04:37 +08:00

160 lines
5.4 KiB
Python

"""顺势加仓(滚仓):纯计算,期货版(手数整数、乘数计入盈亏)。"""
from __future__ import annotations
import math
from typing import Any, Optional, Tuple
from strategy.fib_lib import calc_fib_plan
ROLL_MAX_LEGS_LONG = 3
ROLL_MAX_LEGS_SHORT = 3
ROLL_STOP_OFFSET_PCT_DEFAULT = 1.0
FIB_MODES = frozenset({"fib_618", "fib_786"})
def fib_ratio_from_mode(mode: str) -> Optional[float]:
m = (mode or "").strip().lower()
if m in ("fib_618", "618", "0.618"):
return 0.618
if m in ("fib_786", "786", "0.786"):
return 0.786
return None
def fib_limit_entry(direction: str, upper: float, lower: float, mode: str) -> Tuple[Optional[float], Optional[str]]:
ratio = fib_ratio_from_mode(mode)
if ratio is None:
return None, "斐波档位无效"
h, l = float(upper), float(lower)
if h <= l:
return None, "上沿须大于下沿"
direction = (direction or "long").strip().lower()
plan = calc_fib_plan(direction, h, l, ratio)
if not plan:
return None, "无法计算斐波限价"
entry, _sl, _tp = plan
return float(entry), None
def max_roll_legs(direction: str) -> int:
return ROLL_MAX_LEGS_LONG if (direction or "long").strip().lower() == "long" else ROLL_MAX_LEGS_SHORT
def lots_precise(raw: float) -> int:
if raw is None or raw < 1:
return 0
return max(1, int(math.floor(float(raw))))
def unified_stop_from_avg(direction: str, avg: float, offset_pct: float) -> float:
avg_f = float(avg)
pct = float(offset_pct) / 100.0
direction = (direction or "long").strip().lower()
if direction == "short":
return avg_f * (1.0 + pct)
return avg_f * (1.0 - pct)
def avg_entry_after_add(qty_existing: float, entry_existing: float, add_qty: float, add_price: float) -> float:
q1, e1, q2, e2 = float(qty_existing), float(entry_existing), float(add_qty), float(add_price)
total = q1 + q2
return (q1 * e1 + q2 * e2) / total if total > 0 else 0.0
def solve_add_lots_for_total_risk(
direction: str,
qty_existing: float,
entry_existing: float,
add_price: float,
new_stop: float,
risk_budget: float,
mult: int,
) -> Tuple[Optional[int], Optional[str]]:
q1, e1, e2, sl, b = float(qty_existing), float(entry_existing), float(add_price), float(new_stop), float(risk_budget)
m = float(mult)
direction = (direction or "long").strip().lower()
if direction == "short":
denom = (sl - e2) * m
numer = b - q1 * (sl - e1) * m
else:
denom = (e2 - sl) * m
numer = b - q1 * (e1 - sl) * m
if denom <= 0:
return None, "止损与加仓价关系无效"
q2 = numer / denom
lots = lots_precise(q2)
if lots < 1:
return None, "按总风险%无需再加仓或无法再加"
return lots, None
def preview_roll(
*,
direction: str,
symbol: str,
qty_existing: float,
entry_existing: float,
initial_take_profit: float,
add_mode: str,
new_stop_loss: float,
risk_percent: float,
capital_base: float,
mult: int,
add_price: Optional[float] = None,
fib_upper: Optional[float] = None,
fib_lower: Optional[float] = None,
legs_done: int = 0,
) -> Tuple[Optional[dict[str, Any]], Optional[str]]:
direction = (direction or "long").strip().lower()
if legs_done >= max_roll_legs(direction):
return None, f"滚仓已达 {max_roll_legs(direction)} 次上限"
mode = (add_mode or "market").strip().lower()
if mode == "market":
if not add_price or add_price <= 0:
return None, "需要有效参考价"
entry_add = float(add_price)
mode_label = "市价"
elif mode in FIB_MODES:
if fib_upper is None or fib_lower is None:
return None, "斐波须填上沿/下沿"
entry_add, err = fib_limit_entry(direction, float(fib_upper), float(fib_lower), mode)
if err:
return None, err
mode_label = "斐波0.618" if "618" in mode else "斐波0.786"
else:
return None, "加仓方式无效"
sl = float(new_stop_loss)
tp = float(initial_take_profit)
if sl <= 0 or tp <= 0:
return None, "止损/止盈无效"
risk_budget = float(capital_base) * float(risk_percent) / 100.0
q2, err = solve_add_lots_for_total_risk(
direction, qty_existing, entry_existing, entry_add, sl, risk_budget, mult
)
if err:
return None, err
new_qty = qty_existing + q2
new_avg = avg_entry_after_add(qty_existing, entry_existing, q2, entry_add)
m = float(mult)
if direction == "long":
loss_at_sl = (new_avg - sl) * new_qty * m
reward_at_tp = (tp - new_avg) * new_qty * m
else:
loss_at_sl = (sl - new_avg) * new_qty * m
reward_at_tp = (new_avg - tp) * new_qty * m
return {
"symbol": symbol,
"direction": direction,
"add_mode_label": mode_label,
"add_price": round(entry_add, 4),
"new_stop_loss": round(sl, 4),
"initial_take_profit": tp,
"risk_percent": float(risk_percent),
"add_lots": q2,
"qty_after": int(new_qty),
"avg_entry_after": round(new_avg, 4),
"loss_at_sl": round(loss_at_sl, 2),
"reward_at_tp": round(reward_at_tp, 2),
"legs_done": legs_done,
}, None