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https://github.com/microsoft/qlib.git
synced 2026-07-15 08:46:56 +08:00
Applied slight modification to follow PEP 8.
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@@ -42,6 +42,7 @@ class PortfolioOptimizer:
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lamb (float): risk aversion parameter (larger `lamb` means more focus on return)
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lamb (float): risk aversion parameter (larger `lamb` means more focus on return)
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delta (float): turnover rate limit
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delta (float): turnover rate limit
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alpha (float): l2 norm regularizer
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alpha (float): l2 norm regularizer
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scale_alpha (bool): if to scale alpha to match the volatility of the covariance matrix
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tol (float): tolerance for optimization termination
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tol (float): tolerance for optimization termination
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"""
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"""
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assert method in [self.OPT_GMV, self.OPT_MVO, self.OPT_RP, self.OPT_INV], f"method `{method}` is not supported"
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assert method in [self.OPT_GMV, self.OPT_MVO, self.OPT_RP, self.OPT_INV], f"method `{method}` is not supported"
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@@ -57,6 +58,7 @@ class PortfolioOptimizer:
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self.alpha = alpha
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self.alpha = alpha
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self.tol = tol
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self.tol = tol
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self.scale_alpha = scale_alpha
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def __call__(
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def __call__(
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self,
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self,
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@@ -94,7 +96,7 @@ class PortfolioOptimizer:
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w0 = w0.values
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w0 = w0.values
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# scale alpha to match volatility
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# scale alpha to match volatility
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if u is not None:
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if u is not None and self.scale_alpha:
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u = u / u.std()
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u = u / u.std()
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u *= np.mean(np.diag(S)) ** 0.5
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u *= np.mean(np.diag(S)) ** 0.5
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@@ -247,7 +249,10 @@ class PortfolioOptimizer:
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# add l2 regularization
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# add l2 regularization
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wrapped_obj = obj
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wrapped_obj = obj
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if self.alpha > 0:
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if self.alpha > 0:
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wrapped_obj = lambda x: obj(x) + self.alpha * np.sum(np.square(x))
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def opt_obj(x):
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return obj(x) + self.alpha * np.sum(np.square(x))
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wrapped_obj = opt_obj
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# solve
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# solve
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x0 = np.ones(n) / n # init results
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x0 = np.ones(n) / n # init results
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@@ -256,108 +261,3 @@ class PortfolioOptimizer:
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warnings.warn(f"optimization not success ({sol.status})")
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warnings.warn(f"optimization not success ({sol.status})")
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return sol.x
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return sol.x
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class EnhancedIndexingOptimizer:
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"""
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Portfolio Optimizer with Enhanced Indexing
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Note:
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This optimizer always assumes full investment and no-shorting.
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"""
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START_FROM_W0 = 'w0'
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START_FROM_BENCH = 'benchmark'
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DO_NOT_START_FROM = ''
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def __init__(self, lamb: float = 10, delta: float = 0.4, bench_dev: float = 0.01, inds_dev: float = 0.01,
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scale_alpha=True, verbose: bool = False, warm_start: str = '', max_iters: int = 10000):
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"""
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Args:
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lamb (float): risk aversion parameter (larger `lamb` means less focus on return)
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delta (float): turnover rate limit
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bench_dev (float): benchmark deviation limit
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inds_dev (float): industry deviation limit
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verbose (bool): if print detailed information about the solver
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warm_start (str): whether try to warm start (`w0`/`benchmark`/``)
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(https://www.cvxpy.org/tutorial/advanced/index.html#warm-start)
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"""
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assert lamb >= 0, "risk aversion parameter `lamb` should be positive"
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self.lamb = lamb
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assert delta >= 0, "turnover limit `delta` should be positive"
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self.delta = delta
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assert bench_dev >= 0, "benchmark deviation limit `bench_dev` should be positive"
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self.bench_dev = bench_dev
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assert inds_dev >= 0, "industry deviation limit `inds_dev` should be positive"
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self.inds_dev = inds_dev
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assert warm_start in [self.DO_NOT_START_FROM, self.START_FROM_W0,
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self.START_FROM_BENCH], "illegal warm start option"
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self.start_from_w0 = (warm_start == self.START_FROM_W0)
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self.start_from_bench = (warm_start == self.START_FROM_BENCH)
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self.scale_alpha = scale_alpha
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self.verbose = verbose
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self.max_iters = max_iters
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def __call__(self, u: np.ndarray, F: np.ndarray, covB: np.ndarray, varU: np.ndarray, w0: np.ndarray,
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w_bench: np.ndarray, inds_onehot: np.ndarray
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) -> Union[np.ndarray, pd.Series]:
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"""
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Args:
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u (np.ndarray): expected returns (a.k.a., alpha)
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F, covB, varU (np.ndarray): see StructuredCovEstimator
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w0 (np.ndarray): initial weights (for turnover control)
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w_bench (np.ndarray): benchmark weights
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inds_onehot (np.ndarray): industry (onehot)
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Returns:
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np.ndarray or pd.Series: optimized portfolio allocation
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"""
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# scale alpha to match volatility
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if self.scale_alpha:
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u = u / u.std()
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x_variance = np.mean(np.diag(F @ covB @ F.T) + varU)
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u *= x_variance ** 0.5
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w = cp.Variable(len(u)) # num_assets
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v = w @ F # num_factors
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ret = w @ u
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risk = cp.quad_form(v, covB) + cp.sum(cp.multiply(varU, w ** 2))
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obj = cp.Maximize(ret - self.lamb * risk)
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d_bench = w - w_bench
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d_inds = d_bench @ inds_onehot
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cons = [
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w >= 0,
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cp.sum(w) == 1,
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d_bench >= -self.bench_dev,
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d_bench <= self.bench_dev,
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d_inds >= -self.inds_dev,
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d_inds <= self.inds_dev
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]
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if w0 is not None:
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turnover = cp.sum(cp.abs(w - w0))
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cons.append(turnover <= self.delta)
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warm_start = False
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if self.start_from_w0:
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if w0 is None:
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print('Warning: try warm start with w0, but w0 is `None`.')
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else:
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w.value = w0
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warm_start = True
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elif self.start_from_bench:
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w.value = w_bench
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warm_start = True
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prob = cp.Problem(obj, cons)
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prob.solve(solver=cp.SCS, verbose=self.verbose, warm_start=warm_start, max_iters=self.max_iters)
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if prob.status != 'optimal':
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print('Warning: solve failed.', prob.status)
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return np.asarray(w.value)
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