% LMtestGOP1: Set up and solve the following nonlinear model with LINDO API's
% global optimizer.
%
% minimize f(x) = x*sin(x*pi) + 10
% subject to
% 0 <= x <= 10;
%
% Usage: LMtestGOP1
% Remarks:
% 1) Model is loaded via LSloadInstruct(). See LINDO-API manual for details.
% 2) Calls (optional) LMcbLocal.m callback function if multi-start solver is used.
%
% Copyright (c) 2001-2002
%
% LINDO Systems, Inc. 312.988.7422
% 1415 North Dayton St. info@lindo.com
% Chicago, IL 60622 http://www.lindo.com
%
% Last update Sep 02, 2003 (MKA)
%
lindo;
clc;
help LMtestGOP1;
pause (0.01);
% set verbose
verbose = 1;
% Init model size
nCons = 1; % number of constraints
nVars = 1; % number of variables
nObjs = 1; % number of objectives
nNums = 2; % number of real numbers
iObjsen = 1;
% Init bounds and rhs
csense = ['L'];
vtype = ['C'];
adL = [0];
adU = [10];
adX = [5];
% Init instruction list
anConBeg = [];
anConLen = [];
anObjBeg = [];
anObjLen = [];
anIns =[];
nInsLen=[];
anVarNdx = [];
adNumVal = [10; atan(1)*4];
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% objective: x*sin(x*pi) + 10
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
ikode = 1;
tmpIns = [EP_PUSH_VAR; 0; ...
EP_PUSH_NUM; 1; ...
EP_MULTIPLY; ...
EP_SIN ; ...
EP_PUSH_VAR; 0; ...
EP_MULTIPLY; ...
EP_PUSH_NUM; 0; ...
EP_PLUS];
anIns = [anIns; tmpIns];
anObjBeg = [anObjBeg; ikode];
anObjLen = [anObjLen; length(tmpIns)];
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% constraint 1: x - 15 < = 0
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
ikode = ikode + length(tmpIns);
tmpIns = [EP_PUSH_VAR; 0; ...
EP_PUSH_NUM; 0; ...
EP_MINUS];
anIns = [anIns; tmpIns];
anConBeg = [anConBeg; ikode];
anConLen = [anConLen; length(tmpIns)];
ikode = ikode + length(tmpIns);
% length of instruction list
nInsLen = length(anIns);
if (ikode-1 ~= nInsLen)
fprintf('Error in instruction lists');
end;
anConBeg = anConBeg -1;
anObjBeg = anObjBeg -1;
% Read license key from a license file
[MY_LICENSE_KEY,nErr] = mxlindo('LSloadLicenseString',MY_LICENSE_FILE);
% Create a LINDO environment
[iEnv,nErr]=mxlindo('LScreateEnv',MY_LICENSE_KEY);
if nErr ~= LSERR_NO_ERROR, return; end;
% Declare and create a model
[iModel,nErr]=mxlindo('LScreateModel',iEnv);
if nErr ~= LSERR_NO_ERROR, return; end;
if verbose > 0
fprintf('\n Default Nonlinear Optimizer started... \n\n');
end;
% Set callback function to display local solutions (see LMcbLP.m)
if verbose > 0
fprintf('\n%10s %15s %15s %15s %15s\n','ITER','PRIMAL_OBJ','DUAL_OBJ','PRIMAL_INF','DUAL_INF');
[nErr] = mxlindo('LSsetCallback', iModel, 'LMcbLP', 'Dummy string');
end;
% Set NLP print level to 1
[nErr] = mxlindo('LSsetModelIntParameter', iModel, LS_IPARAM_NLP_PRINTLEVEL, 1);
[nErr] = mxlindo('LSsetModelIntParameter', iModel, LS_IPARAM_NLP_PRELEVEL, 126);
% Set NLP solver
[nErr] = mxlindo('LSsetModelIntParameter', iModel, LS_IPARAM_NLP_SOLVER, LS_NMETHOD_CONOPT);
% Set maximum number of local searches when multistart solver is used
%[nErr] = mxlindo('LSsetModelIntParameter', iModel, LS_IPARAM_NLP_MAXLOCALSEARCH, 1);
% Turn linearization on
[nErr] = mxlindo('LSsetModelIntParameter', iModel, LS_IPARAM_NLP_LINEARZ, 1);
[nErr] = mxlindo('LSloadInstruct',iModel,nCons,nObjs,nVars,nNums,iObjsen,...
csense,vtype,anIns,nInsLen,anVarNdx,adNumVal,adX,anObjBeg,anObjLen,...
anConBeg,anConLen,adL,adU);
%keep the dimension info
[n, nErr] = mxlindo('LSgetInfo',iModel,LS_IINFO_NUM_VARS);
[m, nErr] = mxlindo('LSgetInfo',iModel,LS_IINFO_NUM_CONS);
[LPNz, nErr] = mxlindo('LSgetInfo',iModel,LS_IINFO_NUM_NONZ);
[QCNz, nErr] = mxlindo('LSgetInfo',iModel,LS_IINFO_NUM_QC_NONZ);
[NLPNz, nErr] = mxlindo('LSgetInfo',iModel,LS_IINFO_NUM_NLP_NONZ);
[NLPobjNz, nErr] = mxlindo('LSgetInfo',iModel,LS_IINFO_NUM_NLPOBJ_NONZ);
if nErr ~= LSERR_NO_ERROR, return; end;
% Optimize model
[solStatus,nErr] = mxlindo('LSsolveGOP', iModel);
[solStatus,nErr] = mxlindo('LSgetModelIntParameter',iModel,LS_IPARAM_STATUS);
if (solStatus == LS_STATUS_OPTIMAL)
if verbose > 0
fprintf('\n A (global) optimal solution is found ... \n\n');
end;
% Get solution
[x,nErr]=mxlindo('LSgetPrimalSolution',iModel);
[obj,nErr]=mxlindo('LSgetObjective',iModel);
% Report
fprintf(' Objective = %11.5f\n',obj);
for i=1:n,
fprintf(' x[%d] = %11.5f\n',i,x(i));
end;
else
if verbose > 0
fprintf('\n Optimizer failed.... \n\n');
end;
end;
% Exit LINDO API
[nErr]=mxlindo('LSdeleteEnv',iEnv);
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