Structure updated and intqpipopt files added

1 files changed, 303 insertions, 0 deletions

diff --git a/newstructure/macros/cbcmatrixintlinprog.sci b/newstructure/macros/cbcmatrixintlinprog.sci
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+++ b/newstructure/macros/cbcmatrixintlinprog.sci
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+// Copyright (C) 2016 - IIT Bombay - FOSSEE
+//
+// 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
+// Author: Pranav Deshpande and Akshay Miterani
+// Organization: FOSSEE, IIT Bombay
+// Email: toolbox@scilab.in
+
+function [xopt,fopt,status,output] = cbcmatrixintlinprog (varargin)
+    // Sci file wrapper for the matrix_cbcintlinprog.cpp file
+        
+    // To check the number of input and output argument
+    [lhs , rhs] = argn();
+    
+    // To check the number of argument given by user
+    if ( rhs < 4 | rhs == 5 | rhs == 7 | rhs > 9 ) then
+        errmsg = msprintf(gettext("%s: Unexpected number of input arguments : %d provided while should be in the set [4 6 8 9]"), "cbcintlinprog", rhs);
+        error(errmsg);
+    end
+   
+    c = [];
+    intcon = [];
+    A = [];
+    b = [];
+    Aeq = [];
+    beq = [];
+    lb = [];
+    ub = [];
+    options = list();
+    
+    c = varargin(1)
+    intcon = varargin(2)
+    A = varargin(3)
+    b = varargin(4)
+
+    if(size(c,2) == 0) then
+        errmsg = msprintf(gettext("%s: Cannot determine the number of variables because input objective coefficients is empty"),"cbcintlinprog");
+        error(errmsg);
+    end
+
+   if (size(c,2)~=1) then
+    errmsg = msprintf(gettext("%s: Objective Coefficients should be a column matrix"), "cbcintlinprog");
+    error(errmsg);
+   end
+
+   nbVar = size(c,1);
+
+   if ( rhs<5 ) then
+      Aeq = []
+      beq = []
+   else
+      Aeq = varargin(5);
+      beq = varargin(6);
+   end
+   
+   if ( rhs<7 ) then
+      lb = repmat(-%inf,1,nbVar);
+      ub = repmat(%inf,1,nbVar);
+   else
+      lb = varargin(7);
+      ub = varargin(8);
+   end
+   
+   if (rhs<9|size(varargin(9))==0) then
+      options = list();
+   else
+      options = varargin(9);
+   end
+
+    //Check type of variables
+    Checktype("cbcintlinprog", c, "c", 1, "constant")
+    Checktype("cbcintlinprog", intcon, "intcon", 2, "constant")
+    Checktype("cbcintlinprog", A, "A", 3, "constant")
+    Checktype("cbcintlinprog", b, "b", 4, "constant")
+    Checktype("cbcintlinprog", Aeq, "Aeq", 5, "constant")
+    Checktype("cbcintlinprog", beq, "beq", 6, "constant")
+    Checktype("cbcintlinprog", lb, "lb", 7, "constant")
+    Checktype("cbcintlinprog", ub, "ub", 8, "constant")
+
+    // Check if the user gives empty matrix
+    if (size(lb,2)==0) then
+        lb = repmat(-%inf,nbVar,1);
+    end
+    
+    if (size(intcon,2)==0) then
+        intcon = [];
+    end
+    
+    if (size(ub,2)==0) then
+        ub = repmat(%inf,nbVar,1);
+    end
+
+    // Calculating the size of equality and inequality constraints
+    nbConInEq = size(A,1);
+    nbConEq = size(Aeq,1);
+
+    // Check if the user gives row vector 
+    // and Changing it to a column matrix
+
+    if (size(lb,2)== [nbVar]) then
+        lb = lb';
+    end
+
+    if (size(ub,2)== [nbVar]) then
+        ub = ub';
+    end
+
+    if (size(b,2)== [nbConInEq]) then
+        b = b';
+    end
+
+    if (size(beq,2)== [nbConEq]) then
+        beq = beq';
+    end
+
+    for i=1:size(intcon,2)
+        if(intcon(i)>nbVar) then
+            errmsg = msprintf(gettext("%s: The values inside intcon should be less than the number of variables"), "cbcintlinprog");
+            error(errmsg);
+        end
+
+        if (intcon(i)<0) then
+            errmsg = msprintf(gettext("%s: The values inside intcon should be greater than 0 "), "cbcintlinprog");
+            error(errmsg);
+        end
+
+        if(modulo(intcon(i),1)) then
+            errmsg = msprintf(gettext("%s: The values inside intcon should be an integer "), "cbcintlinprog");
+            error(errmsg);
+        end
+    end
+
+   //Check the size of inequality constraint which should equal to the number of inequality constraints
+    if ( size(A,2) ~= nbVar & size(A,2) ~= 0) then
+        errmsg = msprintf(gettext("%s: The size of inequality constraint is not equal to the number of variables"), "cbcintlinprog");
+        error(errmsg);
+    end
+
+
+   //Check the size of lower bound of inequality constraint which should equal to the number of constraints
+    if ( size(b,1) ~= size(A,1)) then
+        errmsg = msprintf(gettext("%s: The Lower Bound of inequality constraint is not equal to the number of constraint"), "cbcintlinprog");
+        error(errmsg);
+    end
+
+   //Check the size of equality constraint which should equal to the number of inequality constraints
+    if ( size(Aeq,2) ~= nbVar & size(Aeq,2) ~= 0) then
+        errmsg = msprintf(gettext("%s: The size of equality constraint is not equal to the number of variables"), "cbcintlinprog");
+        error(errmsg);
+    end
+
+   //Check the size of upper bound of equality constraint which should equal to the number of constraints
+    if ( size(beq,1) ~= size(Aeq,1)) then
+        errmsg = msprintf(gettext("%s: The equality constraint upper bound is not equal to the number of equality constraint"), "cbcintlinprog");
+        error(errmsg);
+    end
+
+   //Check the size of Lower Bound which should equal to the number of variables
+   if ( size(lb,1) ~= nbVar) then
+      errmsg = msprintf(gettext("%s: The Lower Bound is not equal to the number of variables"), "cbcintlinprog");
+      error(errmsg);
+   end
+
+   //Check the size of Upper Bound which should equal to the number of variables
+   if ( size(ub,1) ~= nbVar) then
+      errmsg = msprintf(gettext("%s: The Upper Bound is not equal to the number of variables"), "cbcintlinprog");
+      error(errmsg);
+   end
+   
+   if (type(options) ~= 15) then
+      errmsg = msprintf(gettext("%s: Options should be a list "), "cbcintlinprog");
+      error(errmsg);
+   end
+   
+
+   if (modulo(size(options),2)) then
+    errmsg = msprintf(gettext("%s: Size of parameters should be even"), "cbcintlinprog");
+    error(errmsg);
+   end
+
+   //Check if the user gives a matrix instead of a vector
+   
+   if (((size(intcon,1)~=1)& (size(intcon,2)~=1))&(size(intcon,2)~=0)) then
+      errmsg = msprintf(gettext("%s: intcon should be a vector"), "cbcintlinprog");
+      error(errmsg); 
+   end
+   
+   if (size(lb,1)~=1)& (size(lb,2)~=1) then
+      errmsg = msprintf(gettext("%s: Lower Bound should be a vector"), "cbcintlinprog");
+      error(errmsg); 
+   end
+   
+   if (size(ub,1)~=1)& (size(ub,2)~=1) then
+      errmsg = msprintf(gettext("%s: Upper Bound should be a vector"), "cbcintlinprog");
+      error(errmsg); 
+   end
+   
+   if (nbConInEq) then
+        if ((size(b,1)~=1)& (size(b,2)~=1)) then
+            errmsg = msprintf(gettext("%s: Constraint Lower Bound should be a vector"), "cbcintlinprog");
+            error(errmsg); 
+        end
+    end
+    
+    if (nbConEq) then
+        if (size(beq,1)~=1)& (size(beq,2)~=1) then
+            errmsg = msprintf(gettext("%s: Constraint Upper Bound should be a vector"), "cbcintlinprog");
+            error(errmsg); 
+        end
+   end
+  
+
+    //Changing the inputs in symphony's format 
+    conMatrix = [A;Aeq]
+    nbCon = size(conMatrix,1);
+    conLB = [repmat(-%inf,size(A,1),1);beq];
+    conUB = [b;beq] ;
+    
+    isInt = repmat(%f,1,nbVar);
+    // Changing intcon into column vector
+    intcon = intcon(:);
+    for i=1:size(intcon,1)
+        isInt(intcon(i)) = %t
+    end
+    
+    objSense = 1.0;
+
+    //Changing into row vector
+    lb = lb';
+    ub = ub';
+    c = c';
+    
+    //Pusing options as required to a double array
+    optval = [];
+    if length(options) == 0 then
+        optval = [0 0 0 0];
+    else
+        optval = [0 0 0 0];
+        for i=1:2:length(options)
+            select options(i)
+                case 'IntegerTolerance' then
+                    optval(1) = options(i+1);
+                case 'MaxNodes' then
+                    optval(2) = options(i+1);
+                case 'MaxTime' then
+                    optval(3) = options(i+1);
+                case 'AllowableGap' then
+                    optval(4) = options(i+1);
+                else
+                    error(999, 'Unknown string argument passed.');
+                end
+        end
+    end
+	
+    [xopt,fopt,status,nodes,nfpoints,L,U,niter] = sci_matrix_intlinprog(nbVar,nbCon,c,intcon,conMatrix,conLB,conUB,lb,ub,objSense,optval);
+
+    //Debugging Prints
+    //disp(c);disp(intcon);disp(conMatrix);disp(conLB);disp(conUB);disp(lb);disp(ub);disp(Aeq);disp(beq);disp(xopt);
+    //disp(L);disp(U);
+    //disp(options);
+    
+    output = struct("relativegap"       , [],..
+                    "absolutegap"       , [],..
+                    "numnodes"          , [],..
+                    "numfeaspoints"     , [],..
+                    "numiterations"		, [],..
+                    "constrviolation"   , [],..
+                    "message"           , '');
+                    
+    output.numnodes=[nodes];
+    output.numfeaspoints=[nfpoints];
+    output.numiterations=[niter];
+    output.relativegap=(U-L)/(abs(U)+1);
+    output.absolutegap=(U-L);
+    output.constrviolation = max([0;norm(Aeq*xopt-beq, 'inf');(lb'-xopt);(xopt-ub');(A*xopt-b)]);
+    
+    select status
+
+    case 0 then
+        output.message="Optimal Solution"
+    case 1 then 
+        output.message="Primal Infeasible"
+    case 2 then 
+        output.message="Solution Limit is reached"
+    case 3 then
+        output.message="Node Limit is reached"
+    case 4 then 
+        output.message="Numerical Difficulties"
+    case 5 then 
+        output.message="Time Limit Reached"
+    case 6 then 
+        output.message="Continuous Solution Unbounded"
+    case 7 then 
+        output.message="Dual Infeasible"
+    else
+        output.message="Invalid status returned. Notify the Toolbox authors"
+        break;
+    end
+
+endfunction