/*
* This file is part of rasdaman community.
*
* Rasdaman community is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Rasdaman community is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with rasdaman community. If not, see .
*
* Copyright 2003, 2004, 2005, 2006, 2007, 2008, 2009 Peter Baumann /
rasdaman GmbH.
*
* For more information please see
* or contact Peter Baumann via .
*/
/*************************************************************
*
* SOURCE: test_sinterval.cc
*
* MODULE: raslib
*
* PURPOSE:
*
* COMMENTS:
*
************************************************************/
#include
#include
#include "raslib/minterval.hh"
#include "raslib/sinterval.hh"
#include "raslib/rminit.hh"
RMINITGLOBALS('C')
int main()
{
cout << endl << endl;
cout << "Minterval Examples" << endl;
cout << "===================" << endl << endl;
cout << "initializing interval [1:2,3:3] : " << endl;
r_Minterval m1 = r_Minterval(2);
m1 << r_Sinterval(1l,2l) << 3;
cout << m1 << endl << endl;
cout << "copy the interval with copy constructor" << endl;
r_Minterval copy( m1 );
cout << copy << endl << endl;
cout << "test for equality: ";
if( copy == m1 )
cout << "OK" << endl << endl;
else
cout << "FAILED" << endl << endl;
cout << "union of [1:4,3:6] and [3:6,1:4] :" << endl;
r_Minterval m2 = r_Minterval(2) << r_Sinterval(1l,4l) << r_Sinterval(3l,6l);
r_Minterval m3 = r_Minterval(2) << r_Sinterval(3l,6l) << r_Sinterval(1l,4l);
try
{
m2 += m3;
}
catch( r_Error& ex1 )
{
cerr << ex1.what() << endl;
}
cout << m2 << endl << endl;
cout << "union of [1:4,3:6] and [3:6,8:9] : " << endl;
r_Minterval m4 = r_Minterval(2) << r_Sinterval(1l,4l) << r_Sinterval(3l,6l);
r_Minterval m5 = r_Minterval(2) << r_Sinterval(3l,6l) << r_Sinterval(8l,9l);
try
{
m4 += m5;
}
catch( r_Error& ex2 )
{
cerr << ex2.what() << endl;
}
cout << m4 << endl << endl;
cout << "closure of [1:4,3:6] and [7:9,1:2] : " << endl;
r_Minterval m6 = r_Minterval(2) << r_Sinterval(1l,4l) << r_Sinterval(3l,6l);
r_Minterval m7 = r_Minterval(2) << r_Sinterval(7l,9l) << r_Sinterval(1l,2l);
try
{
m6.closure_with( m7 );
}
catch( r_Error& ex2 )
{
cerr << ex2.what() << endl;
}
cout << m6 << endl << endl;
cout << "intersection of [7:9,1:2] and [ " << m6[0].low() << ":" << m6[0].high() << "," << m6[1].low() << ":" << m6[1].high() << "]" << endl;
cout << m7.intersects_with( m6 );
cout << endl;
cout << "initializing domain [1:4,*:6,7:*]" << endl;
r_Minterval m8 = r_Minterval(3) << r_Sinterval(1l,4l) << r_Sinterval('*',6l) << r_Sinterval(7l,'*');
char* stringRepresentation = m8.get_string_representation();
cout << "string representation " << stringRepresentation << " should be " << m8 << endl;
r_Minterval m9 = r_Minterval( stringRepresentation );
cout << "recreation of the string delivers " << m9 << endl;
free( stringRepresentation );
return 0;
}