279 lines
12 KiB
Python
279 lines
12 KiB
Python
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from __future__ import annotations
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from typing import ( # noqa: UP035
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Any, Callable, Iterable, TYPE_CHECKING
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)
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import numpy as np
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from scipy.optimize import OptimizeResult
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from ._constraints import old_bound_to_new, Bounds
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from ._direct import direct as _direct # type: ignore
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if TYPE_CHECKING:
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import numpy.typing as npt
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__all__ = ['direct']
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ERROR_MESSAGES = (
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"Number of function evaluations done is larger than maxfun={}",
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"Number of iterations is larger than maxiter={}",
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"u[i] < l[i] for some i",
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"maxfun is too large",
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"Initialization failed",
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"There was an error in the creation of the sample points",
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"An error occurred while the function was sampled",
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"Maximum number of levels has been reached.",
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"Forced stop",
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"Invalid arguments",
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"Out of memory",
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)
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SUCCESS_MESSAGES = (
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("The best function value found is within a relative error={} "
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"of the (known) global optimum f_min"),
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("The volume of the hyperrectangle containing the lowest function value "
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"found is below vol_tol={}"),
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("The side length measure of the hyperrectangle containing the lowest "
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"function value found is below len_tol={}"),
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)
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def direct(
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func: Callable[[npt.ArrayLike, tuple[Any]], float],
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bounds: Iterable | Bounds,
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*,
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args: tuple = (),
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eps: float = 1e-4,
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maxfun: int | None = None,
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maxiter: int = 1000,
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locally_biased: bool = True,
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f_min: float = -np.inf,
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f_min_rtol: float = 1e-4,
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vol_tol: float = 1e-16,
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len_tol: float = 1e-6,
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callback: Callable[[npt.ArrayLike], None] | None = None
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) -> OptimizeResult:
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"""
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Finds the global minimum of a function using the
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DIRECT algorithm.
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Parameters
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----------
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func : callable
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The objective function to be minimized.
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``func(x, *args) -> float``
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where ``x`` is an 1-D array with shape (n,) and ``args`` is a tuple of
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the fixed parameters needed to completely specify the function.
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bounds : sequence or `Bounds`
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Bounds for variables. There are two ways to specify the bounds:
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1. Instance of `Bounds` class.
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2. ``(min, max)`` pairs for each element in ``x``.
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args : tuple, optional
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Any additional fixed parameters needed to
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completely specify the objective function.
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eps : float, optional
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Minimal required difference of the objective function values
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between the current best hyperrectangle and the next potentially
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optimal hyperrectangle to be divided. In consequence, `eps` serves as a
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tradeoff between local and global search: the smaller, the more local
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the search becomes. Default is 1e-4.
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maxfun : int or None, optional
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Approximate upper bound on objective function evaluations.
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If `None`, will be automatically set to ``1000 * N`` where ``N``
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represents the number of dimensions. Will be capped if necessary to
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limit DIRECT's RAM usage to app. 1GiB. This will only occur for very
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high dimensional problems and excessive `max_fun`. Default is `None`.
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maxiter : int, optional
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Maximum number of iterations. Default is 1000.
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locally_biased : bool, optional
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If `True` (default), use the locally biased variant of the
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algorithm known as DIRECT_L. If `False`, use the original unbiased
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DIRECT algorithm. For hard problems with many local minima,
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`False` is recommended.
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f_min : float, optional
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Function value of the global optimum. Set this value only if the
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global optimum is known. Default is ``-np.inf``, so that this
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termination criterion is deactivated.
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f_min_rtol : float, optional
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Terminate the optimization once the relative error between the
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current best minimum `f` and the supplied global minimum `f_min`
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is smaller than `f_min_rtol`. This parameter is only used if
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`f_min` is also set. Must lie between 0 and 1. Default is 1e-4.
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vol_tol : float, optional
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Terminate the optimization once the volume of the hyperrectangle
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containing the lowest function value is smaller than `vol_tol`
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of the complete search space. Must lie between 0 and 1.
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Default is 1e-16.
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len_tol : float, optional
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If `locally_biased=True`, terminate the optimization once half of
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the normalized maximal side length of the hyperrectangle containing
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the lowest function value is smaller than `len_tol`.
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If `locally_biased=False`, terminate the optimization once half of
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the normalized diagonal of the hyperrectangle containing the lowest
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function value is smaller than `len_tol`. Must lie between 0 and 1.
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Default is 1e-6.
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callback : callable, optional
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A callback function with signature ``callback(xk)`` where ``xk``
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represents the best function value found so far.
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Returns
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-------
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res : OptimizeResult
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The optimization result represented as a ``OptimizeResult`` object.
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Important attributes are: ``x`` the solution array, ``success`` a
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Boolean flag indicating if the optimizer exited successfully and
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``message`` which describes the cause of the termination. See
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`OptimizeResult` for a description of other attributes.
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Notes
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-----
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DIviding RECTangles (DIRECT) is a deterministic global
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optimization algorithm capable of minimizing a black box function with
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its variables subject to lower and upper bound constraints by sampling
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potential solutions in the search space [1]_. The algorithm starts by
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normalising the search space to an n-dimensional unit hypercube.
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It samples the function at the center of this hypercube and at 2n
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(n is the number of variables) more points, 2 in each coordinate
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direction. Using these function values, DIRECT then divides the
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domain into hyperrectangles, each having exactly one of the sampling
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points as its center. In each iteration, DIRECT chooses, using the `eps`
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parameter which defaults to 1e-4, some of the existing hyperrectangles
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to be further divided. This division process continues until either the
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maximum number of iterations or maximum function evaluations allowed
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are exceeded, or the hyperrectangle containing the minimal value found
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so far becomes small enough. If `f_min` is specified, the optimization
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will stop once this function value is reached within a relative tolerance.
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The locally biased variant of DIRECT (originally called DIRECT_L) [2]_ is
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used by default. It makes the search more locally biased and more
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efficient for cases with only a few local minima.
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A note about termination criteria: `vol_tol` refers to the volume of the
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hyperrectangle containing the lowest function value found so far. This
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volume decreases exponentially with increasing dimensionality of the
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problem. Therefore `vol_tol` should be decreased to avoid premature
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termination of the algorithm for higher dimensions. This does not hold
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for `len_tol`: it refers either to half of the maximal side length
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(for ``locally_biased=True``) or half of the diagonal of the
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hyperrectangle (for ``locally_biased=False``).
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This code is based on the DIRECT 2.0.4 Fortran code by Gablonsky et al. at
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https://ctk.math.ncsu.edu/SOFTWARE/DIRECTv204.tar.gz .
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This original version was initially converted via f2c and then cleaned up
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and reorganized by Steven G. Johnson, August 2007, for the NLopt project.
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The `direct` function wraps the C implementation.
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.. versionadded:: 1.9.0
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References
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----------
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.. [1] Jones, D.R., Perttunen, C.D. & Stuckman, B.E. Lipschitzian
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optimization without the Lipschitz constant. J Optim Theory Appl
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79, 157-181 (1993).
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.. [2] Gablonsky, J., Kelley, C. A Locally-Biased form of the DIRECT
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Algorithm. Journal of Global Optimization 21, 27-37 (2001).
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Examples
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--------
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The following example is a 2-D problem with four local minima: minimizing
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the Styblinski-Tang function
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(https://en.wikipedia.org/wiki/Test_functions_for_optimization).
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>>> from scipy.optimize import direct, Bounds
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>>> def styblinski_tang(pos):
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... x, y = pos
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... return 0.5 * (x**4 - 16*x**2 + 5*x + y**4 - 16*y**2 + 5*y)
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>>> bounds = Bounds([-4., -4.], [4., 4.])
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>>> result = direct(styblinski_tang, bounds)
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>>> result.x, result.fun, result.nfev
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array([-2.90321597, -2.90321597]), -78.3323279095383, 2011
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The correct global minimum was found but with a huge number of function
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evaluations (2011). Loosening the termination tolerances `vol_tol` and
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`len_tol` can be used to stop DIRECT earlier.
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>>> result = direct(styblinski_tang, bounds, len_tol=1e-3)
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>>> result.x, result.fun, result.nfev
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array([-2.9044353, -2.9044353]), -78.33230330754142, 207
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"""
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# convert bounds to new Bounds class if necessary
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if not isinstance(bounds, Bounds):
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if isinstance(bounds, list) or isinstance(bounds, tuple):
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lb, ub = old_bound_to_new(bounds)
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bounds = Bounds(lb, ub)
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else:
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message = ("bounds must be a sequence or "
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"instance of Bounds class")
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raise ValueError(message)
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lb = np.ascontiguousarray(bounds.lb, dtype=np.float64)
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ub = np.ascontiguousarray(bounds.ub, dtype=np.float64)
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# validate bounds
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# check that lower bounds are smaller than upper bounds
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if not np.all(lb < ub):
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raise ValueError('Bounds are not consistent min < max')
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# check for infs
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if (np.any(np.isinf(lb)) or np.any(np.isinf(ub))):
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raise ValueError("Bounds must not be inf.")
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# validate tolerances
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if (vol_tol < 0 or vol_tol > 1):
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raise ValueError("vol_tol must be between 0 and 1.")
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if (len_tol < 0 or len_tol > 1):
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raise ValueError("len_tol must be between 0 and 1.")
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if (f_min_rtol < 0 or f_min_rtol > 1):
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raise ValueError("f_min_rtol must be between 0 and 1.")
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# validate maxfun and maxiter
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if maxfun is None:
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maxfun = 1000 * lb.shape[0]
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if not isinstance(maxfun, int):
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raise ValueError("maxfun must be of type int.")
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if maxfun < 0:
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raise ValueError("maxfun must be > 0.")
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if not isinstance(maxiter, int):
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raise ValueError("maxiter must be of type int.")
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if maxiter < 0:
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raise ValueError("maxiter must be > 0.")
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# validate boolean parameters
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if not isinstance(locally_biased, bool):
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raise ValueError("locally_biased must be True or False.")
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def _func_wrap(x, args=None):
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x = np.asarray(x)
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if args is None:
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f = func(x)
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else:
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f = func(x, *args)
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# always return a float
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return np.asarray(f).item()
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# TODO: fix disp argument
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x, fun, ret_code, nfev, nit = _direct(
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_func_wrap,
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np.asarray(lb), np.asarray(ub),
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args,
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False, eps, maxfun, maxiter,
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locally_biased,
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f_min, f_min_rtol,
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vol_tol, len_tol, callback
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)
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format_val = (maxfun, maxiter, f_min_rtol, vol_tol, len_tol)
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if ret_code > 2:
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message = SUCCESS_MESSAGES[ret_code - 3].format(
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format_val[ret_code - 1])
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elif 0 < ret_code <= 2:
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message = ERROR_MESSAGES[ret_code - 1].format(format_val[ret_code - 1])
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elif 0 > ret_code > -100:
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message = ERROR_MESSAGES[abs(ret_code) + 1]
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else:
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message = ERROR_MESSAGES[ret_code + 99]
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return OptimizeResult(x=np.asarray(x), fun=fun, status=ret_code,
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success=ret_code > 2, message=message,
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nfev=nfev, nit=nit)
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