// Copyright (C) 2017 - IIT Bombay - FOSSEE // // Author: Georgey John // Organization: FOSSEE, IIT Bombay // Email: toolbox@scilab.in // // This file must be used under the terms of the CeCILL. // This source file is licensed as described in the file COPYING, which // you should have received as part of this distribution. The terms // are also available at // http://www.cecill.info/licences/Licence_CeCILL_V2-en.txt // <-- JVM NOT MANDATORY --> // <-- ENGLISH IMPOSED --> // // assert_close -- // Returns 1 if the two real matrices computed and expected are close, // i.e. if the relative distance between computed and expected is lesser than epsilon. // Arguments // computed, expected : the two matrices to compare // epsilon : a small number // function flag = assert_close ( computed, expected, epsilon ) if expected==0.0 then shift = norm(computed-expected); else shift = norm(computed-expected)/norm(expected); end // if shift < epsilon then // flag = 1; // else // flag = 0; // end // if flag <> 1 then pause,end flag = assert_checktrue ( shift < epsilon ); endfunction // // assert_equal -- // Returns 1 if the two real matrices computed and expected are equal. // Arguments // computed, expected : the two matrices to compare // epsilon : a small number // //function flag = assert_equal ( computed , expected ) // if computed==expected then // flag = 1; // else // flag = 0; // end // if flag <> 1 then pause,end //endfunction //Unconstrained optimization function y=f(x) y= 4*x(1)^2 + 5*x(2)^2 + 6*x(1); endfunction x0=[5,5]; intcon = [1,2] //Calling fminunc function [xopt,fopt,exitflag,gradient,hessian]=intfminunc(f,x0,intcon) assert_close ( xopt , [ -1 0 ]' , 0.0005 ); assert_close ( fopt , [ -2 ]' , 0.0005 ); assert_checkequal( double(exitflag) , 0 ); printf("Test Successful");