LUMIERA.clone/tests/lib/itertools-test.cpp

/*
  IterTools(Test)  -  building combined and filtering iterators based on the Iterator tools

  Copyright (C)         Lumiera.org
    2009,               Hermann Vosseler <Ichthyostega@web.de>

  This program 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 2 of the
  License, or (at your option) any later version.

  This program 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 this program; if not, write to the Free Software
  Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.

* *****************************************************/



#include "lib/test/run.hpp"
#include "lib/util.hpp"
#include "lib/util-foreach.hpp"

#include "lib/itertools.hpp"

#include <boost/lexical_cast.hpp>
#include <iostream>
#include <cstdlib>
#include <vector>



namespace lib {
namespace test{

  using ::Test;
  using boost::lexical_cast;
  using util::for_each;
  using util::isnil;
  using std::vector;
  using std::cout;
  using std::endl;
  using std::rand;



  namespace { // Test data

    uint NUM_ELMS = 10;

    struct TestSource
      {
        vector<int> data_;

        TestSource(uint num)
          {
            while (num)
              data_.push_back(num--);
          }

        typedef vector<int>::iterator sourceIter;
        typedef RangeIter<sourceIter> iterator;

        iterator begin() { return iterator(data_.begin(),data_.end()); }
        iterator end()   { return iterator();                          }

      };

  } // (END) Test data







  /*******************************************************************************
   *  @test build combined and filtering iterators with the help of lib::IterTool.
   *        Check correct behaviour of the resulting iterators and
   *        verify they fulfil the Lumiera Forward Iterator concept
   *
   * @todo implement more iterator tools.... see Ticket #347
   */
  class IterTools_test : public Test
    {

      typedef TestSource::iterator Iter;


      virtual void
      run (Arg arg)
        {
          if (0 < arg.size()) NUM_ELMS = lexical_cast<uint> (arg[0]);

          TestSource source(NUM_ELMS);

          pullOut (source.begin());
          verifyComparisons (source.begin());


          buildFilterIterator (source.begin());
          Iter ii (source.begin());
          ++++++ii;
          buildFilterIterator (ii);
          verify_filterRepetitions();

          buildTransformingIterator (source.begin());
        }



      template<class IT>
      void
      pullOut (IT const& ii)
        {
          for (IT iter(ii) ; iter; ++iter )
            cout << "::" << *iter;
          cout << endl;
        }



      static bool takeAll (int)   { return true; }
      static bool takeOdd (int i) { return 0 != i % 2; }
      static bool takeEve (int i) { return 0 == i % 2; }

      void
      buildFilterIterator (Iter const& ii)
        {
          pullOut (filterIterator (ii, takeAll));  // note: using the convenient builder function
          pullOut (filterIterator (ii, takeEve));
          pullOut (filterIterator (ii, takeOdd));

          FilterIter<Iter> all (ii, takeAll);
          FilterIter<Iter> odd (ii, takeOdd);
          verifyComparisons (all);
          verifyComparisons (odd);

          while (++all && ++odd)
            CHECK (all != odd);

          while (++all) { }
          CHECK (isnil (odd));
          CHECK (all == odd);
        }


      /** @test verify the helper to filter duplicate elements
       *        emitted by an source iterator. This test creates
       *        a sequence of numbers with random repetitions.
       */
      void
      verify_filterRepetitions ()
        {
          vector<uint> numberz;
          for (uint i=0; i<NUM_ELMS; ++i)
            {
              uint n = 1 + rand() % 100;
              do numberz.push_back(i);
              while (--n);
            }
          CHECK (NUM_ELMS < numberz.size(), "no repetition in test data??");

          typedef vector<uint>::iterator SrcIter;
          typedef RangeIter<SrcIter> SeqIter;
          typedef FilterIter<SeqIter> FilteredSeq;

          SeqIter completeSequence (numberz.begin(), numberz.end());
          FilteredSeq filtered = filterRepetitions (completeSequence);

          uint num=0;
          for (; num<NUM_ELMS && !isnil(filtered);
               ++num,
               ++filtered
              )
            CHECK (num == *filtered);

          CHECK (num == NUM_ELMS && isnil(filtered));
        }



      static ulong addTwo (int i) { return i+2; }
      static int   negate (int i) { return -i; }
      static int   idFunc (int i) { return i; }

      void
      buildTransformingIterator (Iter const& ii)
        {
          pullOut (transformIterator(ii, idFunc));
          pullOut (transformIterator(ii, negate));
          pullOut (transformIterator(ii, addTwo));  // note: changing output type to unsigned

          TransformIter<Iter, int> idi (ii, idFunc);
          TransformIter<Iter, int> neg (ii, negate);
          verifyComparisons (idi);
          verifyComparisons (neg);

          CHECK (idi);
          CHECK (neg);
          for ( ;idi&&neg;
              ++idi,++neg)
            CHECK (idi != neg);

          CHECK (!idi && !neg);
          CHECK (idi == neg);
        }





      /** @test verify equality handling and NIL detection
       *        for the given iterator/wrapper handed in */
      template<class IT>
      void
      verifyComparisons (IT const& ii)
        {
          IT i1(ii);
          IT i2(ii);
          IT iN;
          CHECK ( isnil (iN));
          CHECK (!isnil (i1));
          CHECK (!isnil (i2));

          CHECK (i1 == i2); CHECK (i2 == i1);
          CHECK (i1 != iN); CHECK (iN != i1);
          CHECK (i2 != iN); CHECK (iN != i2);

          ++i1;
          CHECK (i1 != i2);
          CHECK (i1 != iN);

          ++i2;
          CHECK (i1 == i2);
          CHECK (i1 != iN);
          CHECK (i2 != iN);

          while (++i1) { }
          CHECK (isnil(i1));
          CHECK (i1 != i2);
          CHECK (i1 == iN);

          while (++i2) { }
          CHECK (isnil(i2));
          CHECK (i2 == i1);
          CHECK (i2 == iN);
        }


    };

  LAUNCHER (IterTools_test, "unit common");


}} // namespace lib::test