📄 have_fcn.m
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function TorF = have_fcn(tag)%HAVE_FCN Test for optional functionality.% TorF = have_fcn(tag) returns 1 if the optional functionality is% available, 0 otherwise.%% Possible values for input tag and their meanings:% bpmpd - bp(), BPMPD interior point solver% constr - constr(), solver from Optimization Toolbox 1.x/2.x% fmincon - fmincon(), solver from Optimization Toolbox 2.x +% linprog - linprog(), LP solver from Optimization Toolbox 2.x +% lp - lp(), LP solver from Optimization Toolbox 1.x/2.x% minopf - minopf(), MINOPF, MINOS-based OPF solver% quadprog - quadprog(), QP solver from Optimization Toolbox 2.x +% qp - qp(), QP solver from Optimization Toolbox 1.x/2.x% smartmarket - runmkt() and friends, for running an auction% sparse_lp - LP solver used by mp_lp can handle sparse matrices% sparse_qp - QP solver used by mp_qp can handle sparse matrices% MATPOWER% $Id: have_fcn.m,v 1.2 2004/09/01 18:18:21 ray Exp $% by Ray Zimmerman, PSERC Cornell% Copyright (c) 2004 by Power System Engineering Research Center (PSERC)% See http://www.pserc.cornell.edu/matpower/ for more info.switch tag case 'bpmpd' TorF = exist(which('bp')) == 3; case 'constr' TorF = exist(which('constr')) == 2 & exist('foptions'); case 'fmincon' TorF = exist(which('fmincon')) == 2; case 'linprog' TorF = exist(which('linprog')) == 2; case 'lp' TorF = exist(which('lp')) == 2; case 'minopf' TorF = exist(which('minopf')) == 3; case 'quadprog' TorF = exist(which('quadprog')) == 2; case 'qp' TorF = exist(which('qp')) == 2; case 'smartmarket' TorF = exist(which('runmkt')) == 2; case 'sparse_lp' TorF = have_fcn('bpmpd') | have_fcn('linprog'); case 'sparse_qp' TorF = have_fcn('bpmpd') | have_fcn('quadprog'); otherwise error(sprintf('have_fcn: unknown functionality %s', tag));endreturn;⌨️ 快捷键说明
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