// Copyright (C) 2015 - 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: Keyur Joshi // Organization: FOSSEE, IIT Bombay // Email: toolbox@scilab.in #include "symphony.h" #include "sci_iofunc.hpp" extern sym_environment* global_sym_env; //defined in globals.cpp extern "C" { #include "api_scilab.h" #include "Scierror.h" #include "sciprint.h" #include "BOOL.h" #include #include //error management variables static SciErr sciErr; static int iRet; //data declarations static int *varAddress=NULL,numVars,numConstr,*conMatrixColStart=NULL,*conMatrixRowIndex=NULL,*isIntVarBool=NULL,colIter,rowIter,inputMatrixCols,inputMatrixRows; static double inputDouble,objSense,*objective=NULL,*lowerBounds=NULL,*upperBounds=NULL,*conLower=NULL,*conUpper=NULL,*conRange=NULL,*conRHS=NULL,*conMatrix=NULL; static char *conType=NULL,*isIntVar=NULL; //delete all allocd arrays before exit, and return output argument static void cleanupBeforeExit() { if(conMatrixColStart) delete[] conMatrixColStart; if(conMatrixRowIndex) delete[] conMatrixRowIndex; if(isIntVar) delete[] isIntVar; if(conType) delete[] conType; if(conRange) delete[] conRange; if(conRHS) delete[] conRHS; iRet = createScalarDouble(pvApiCtx, nbInputArgument(pvApiCtx)+1,0); if(iRet) { /* If error, no return variable */ AssignOutputVariable(pvApiCtx, 1) = 0; return; } AssignOutputVariable(pvApiCtx, 1) = nbInputArgument(pvApiCtx)+1; //ReturnArguments(pvApiCtx); } static int checkNumArgs() { CheckInputArgument(pvApiCtx,10,10); CheckOutputArgument(pvApiCtx,1,1); return 1; } //both basic and advanced loader use this code static int commonCodePart1() { //ensure that environment is active if(global_sym_env==NULL) { sciprint("Error: Symphony environment not initialized. Please run 'sym_open()' first.\n"); return 1; } //code to check arguments and get them if(checkNumArgs()==0) return 1; //get input 1: number of variables if(getUIntFromScilab(1,&numVars)) return 1; //get input 2: number of constraints if(getUIntFromScilab(2,&numConstr)) return 1; //allocate and prepare some arrays isIntVar=new char[numVars]; //is the variable constrained to be an integer? conType=new char[numConstr]; //char representing constraint type conRange=new double[numConstr]; //range of each constraint conRHS=new double[numConstr]; //RHS to be given to Symphony return 0; } //both basic and advanced loader use this code static int commonCodePart2() { //get input 3: lower bounds of variables if(getFixedSizeDoubleMatrixFromScilab(3,1,numVars,&lowerBounds)) { cleanupBeforeExit(); return 1; } //get input 4: upper bounds of variables if(getFixedSizeDoubleMatrixFromScilab(4,1,numVars,&upperBounds)) { cleanupBeforeExit(); return 1; } //get input 5: coefficients of variables in objective function to be minimized if(getFixedSizeDoubleMatrixFromScilab(5,1,numVars,&objective)) { cleanupBeforeExit(); return 1; } //get input 6: array that specifies wether a variable is constrained to be an integer sciErr = getVarAddressFromPosition(pvApiCtx, 6, &varAddress); if (sciErr.iErr) { printError(&sciErr, 0); cleanupBeforeExit();return 1; } if ( !isBooleanType(pvApiCtx, varAddress) ) { Scierror(999, "Wrong type for input argument #6: A matrix of booleans is expected.\n"); cleanupBeforeExit();return 1; } sciErr = getMatrixOfBoolean(pvApiCtx, varAddress, &inputMatrixRows, &inputMatrixCols, &isIntVarBool); if (sciErr.iErr) { printError(&sciErr, 0); cleanupBeforeExit();return 1; } if(inputMatrixRows!=1 || inputMatrixCols!=numVars) { Scierror(999, "Wrong type for input argument #6: Incorrectly sized matrix.\n"); cleanupBeforeExit();return 1; } for(colIter=0;colIterconUpper[rowIter]) { Scierror(999, "Error: the lower bound of constraint %d is more than its upper bound.\n",rowIter); cleanupBeforeExit(); return 1; } #ifdef _MSC_VER double INFINITY = sym_get_infinity(); #endif if(conLower[rowIter]==(-INFINITY) && conUpper[rowIter]==INFINITY){ conType[rowIter]='N'; conRange[rowIter]=0; conRHS[rowIter]=0; }else if(conLower[rowIter]==(-INFINITY)){ conType[rowIter]='L'; conRange[rowIter]=0; conRHS[rowIter]=conUpper[rowIter]; }else if(conUpper[rowIter]==INFINITY){ conType[rowIter]='G'; conRange[rowIter]=0; conRHS[rowIter]=conLower[rowIter]; }else if(conUpper[rowIter]==conLower[rowIter]){ conType[rowIter]='E'; conRange[rowIter]=0; conRHS[rowIter]=conLower[rowIter]; }else{ conType[rowIter]='R'; conRange[rowIter]=conUpper[rowIter]-conLower[rowIter]; conRHS[rowIter]=conUpper[rowIter]; } } /* //for debug: show all data sciprint("Vars: %d Constr: %d ObjType: %lf\n",numVars,numConstr,objSense); for(colIter=0;colIter10 vars) int sci_sym_loadProblem(char *fname) { int retVal,nonZeros,*itemsPerRow,*colIndex,matrixIter,newPos,*oldRowIndex,*colStartCopy; double *data; if(commonCodePart1()) return 1; //get input 8: matrix of constraint equation coefficients sciErr = getVarAddressFromPosition(pvApiCtx, 8, &varAddress); if (sciErr.iErr) { printError(&sciErr, 0); cleanupBeforeExit();return 1; } if(!(numConstr == 0)) { if ( (!isSparseType(pvApiCtx,varAddress) || isVarComplex(pvApiCtx,varAddress)) && (numConstr == 0)) { Scierror(999, "Wrong type for input argument #8: A sparse matrix of doubles is expected.\n"); cleanupBeforeExit();return 1; } } sciErr = getSparseMatrix(pvApiCtx,varAddress,&inputMatrixRows,&inputMatrixCols,&nonZeros,&itemsPerRow,&colIndex,&data); if (sciErr.iErr) { printError(&sciErr, 0); cleanupBeforeExit();return 1; } if(inputMatrixRows!=numConstr || inputMatrixCols!=numVars) { Scierror(999, "Wrong type for input argument #8: Incorrectly sized matrix.\n"); cleanupBeforeExit();return 1; } //convert SciLab format sparse matrix into the format required by Symphony conMatrix=new double[nonZeros]; //matrix contents conMatrixColStart=new int[numVars+1]; //where each column of the matrix starts conMatrixRowIndex=new int[nonZeros]; //row number of each element oldRowIndex=new int[nonZeros]; //row number in old matrix colStartCopy=new int[numVars+1]; //temporary copy of conMatrixColStart for(rowIter=matrixIter=0;rowIter