257 lines
7.4 KiB
Python
257 lines
7.4 KiB
Python
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"""
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Our own implementation of the Newton algorithm
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Unlike the scipy.optimize version, this version of the Newton conjugate
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gradient solver uses only one function call to retrieve the
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func value, the gradient value and a callable for the Hessian matvec
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product. If the function call is very expensive (e.g. for logistic
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regression with large design matrix), this approach gives very
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significant speedups.
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"""
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# This is a modified file from scipy.optimize
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# Original authors: Travis Oliphant, Eric Jones
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# Modifications by Gael Varoquaux, Mathieu Blondel and Tom Dupre la Tour
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# License: BSD
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import numpy as np
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import warnings
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from scipy.optimize.linesearch import line_search_wolfe2, line_search_wolfe1
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from ..exceptions import ConvergenceWarning
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from . import deprecated
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class _LineSearchError(RuntimeError):
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pass
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def _line_search_wolfe12(f, fprime, xk, pk, gfk, old_fval, old_old_fval,
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**kwargs):
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"""
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Same as line_search_wolfe1, but fall back to line_search_wolfe2 if
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suitable step length is not found, and raise an exception if a
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suitable step length is not found.
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Raises
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------
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_LineSearchError
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If no suitable step size is found
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"""
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ret = line_search_wolfe1(f, fprime, xk, pk, gfk,
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old_fval, old_old_fval,
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**kwargs)
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if ret[0] is None:
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# line search failed: try different one.
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ret = line_search_wolfe2(f, fprime, xk, pk, gfk,
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old_fval, old_old_fval, **kwargs)
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if ret[0] is None:
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raise _LineSearchError()
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return ret
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def _cg(fhess_p, fgrad, maxiter, tol):
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"""
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Solve iteratively the linear system 'fhess_p . xsupi = fgrad'
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with a conjugate gradient descent.
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Parameters
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----------
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fhess_p : callable
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Function that takes the gradient as a parameter and returns the
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matrix product of the Hessian and gradient
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fgrad : ndarray, shape (n_features,) or (n_features + 1,)
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Gradient vector
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maxiter : int
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Number of CG iterations.
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tol : float
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Stopping criterion.
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Returns
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-------
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xsupi : ndarray, shape (n_features,) or (n_features + 1,)
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Estimated solution
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"""
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xsupi = np.zeros(len(fgrad), dtype=fgrad.dtype)
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ri = fgrad
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psupi = -ri
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i = 0
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dri0 = np.dot(ri, ri)
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while i <= maxiter:
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if np.sum(np.abs(ri)) <= tol:
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break
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Ap = fhess_p(psupi)
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# check curvature
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curv = np.dot(psupi, Ap)
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if 0 <= curv <= 3 * np.finfo(np.float64).eps:
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break
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elif curv < 0:
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if i > 0:
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break
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else:
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# fall back to steepest descent direction
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xsupi += dri0 / curv * psupi
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break
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alphai = dri0 / curv
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xsupi += alphai * psupi
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ri = ri + alphai * Ap
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dri1 = np.dot(ri, ri)
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betai = dri1 / dri0
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psupi = -ri + betai * psupi
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i = i + 1
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dri0 = dri1 # update np.dot(ri,ri) for next time.
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return xsupi
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@deprecated("newton_cg is deprecated in version "
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"0.22 and will be removed in version 0.24.")
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def newton_cg(grad_hess, func, grad, x0, args=(), tol=1e-4,
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maxiter=100, maxinner=200, line_search=True, warn=True):
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return _newton_cg(grad_hess, func, grad, x0, args, tol, maxiter,
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maxinner, line_search, warn)
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def _newton_cg(grad_hess, func, grad, x0, args=(), tol=1e-4,
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maxiter=100, maxinner=200, line_search=True, warn=True):
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"""
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Minimization of scalar function of one or more variables using the
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Newton-CG algorithm.
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Parameters
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----------
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grad_hess : callable
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Should return the gradient and a callable returning the matvec product
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of the Hessian.
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func : callable
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Should return the value of the function.
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grad : callable
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Should return the function value and the gradient. This is used
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by the linesearch functions.
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x0 : array of float
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Initial guess.
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args : tuple, optional
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Arguments passed to func_grad_hess, func and grad.
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tol : float
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Stopping criterion. The iteration will stop when
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``max{|g_i | i = 1, ..., n} <= tol``
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where ``g_i`` is the i-th component of the gradient.
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maxiter : int
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Number of Newton iterations.
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maxinner : int
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Number of CG iterations.
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line_search : boolean
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Whether to use a line search or not.
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warn : boolean
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Whether to warn when didn't converge.
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Returns
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-------
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xk : ndarray of float
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Estimated minimum.
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"""
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x0 = np.asarray(x0).flatten()
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xk = x0
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k = 0
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if line_search:
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old_fval = func(x0, *args)
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old_old_fval = None
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# Outer loop: our Newton iteration
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while k < maxiter:
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# Compute a search direction pk by applying the CG method to
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# del2 f(xk) p = - fgrad f(xk) starting from 0.
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fgrad, fhess_p = grad_hess(xk, *args)
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absgrad = np.abs(fgrad)
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if np.max(absgrad) <= tol:
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break
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maggrad = np.sum(absgrad)
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eta = min([0.5, np.sqrt(maggrad)])
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termcond = eta * maggrad
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# Inner loop: solve the Newton update by conjugate gradient, to
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# avoid inverting the Hessian
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xsupi = _cg(fhess_p, fgrad, maxiter=maxinner, tol=termcond)
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alphak = 1.0
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if line_search:
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try:
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alphak, fc, gc, old_fval, old_old_fval, gfkp1 = \
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_line_search_wolfe12(func, grad, xk, xsupi, fgrad,
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old_fval, old_old_fval, args=args)
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except _LineSearchError:
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warnings.warn('Line Search failed')
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break
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xk = xk + alphak * xsupi # upcast if necessary
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k += 1
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if warn and k >= maxiter:
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warnings.warn("newton-cg failed to converge. Increase the "
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"number of iterations.", ConvergenceWarning)
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return xk, k
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def _check_optimize_result(solver, result, max_iter=None,
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extra_warning_msg=None):
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"""Check the OptimizeResult for successful convergence
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Parameters
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----------
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solver: str
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solver name. Currently only `lbfgs` is supported.
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result: OptimizeResult
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result of the scipy.optimize.minimize function
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max_iter: {int, None}
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expected maximum number of iterations
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Returns
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-------
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n_iter: int
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number of iterations
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"""
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# handle both scipy and scikit-learn solver names
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if solver == "lbfgs":
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if result.status != 0:
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warning_msg = (
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"{} failed to converge (status={}):\n{}.\n\n"
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"Increase the number of iterations (max_iter) "
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"or scale the data as shown in:\n"
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" https://scikit-learn.org/stable/modules/"
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"preprocessing.html"
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).format(solver, result.status, result.message.decode("latin1"))
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if extra_warning_msg is not None:
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warning_msg += "\n" + extra_warning_msg
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warnings.warn(warning_msg, ConvergenceWarning, stacklevel=2)
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if max_iter is not None:
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# In scipy <= 1.0.0, nit may exceed maxiter for lbfgs.
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# See https://github.com/scipy/scipy/issues/7854
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n_iter_i = min(result.nit, max_iter)
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else:
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n_iter_i = result.nit
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else:
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raise NotImplementedError
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return n_iter_i
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