path: root/tests/Sequence_Unit_Tests/unbounded_string_sequence_ut.cpp

/**
 * @file
 *
 * @brief Unit test for unbounded string sequences.
 *
 * $Id$
 *
 * @author Carlos O'Ryan
 */
#include "testing_string_traits.hpp"
#include "tao/String_Traits_T.h"
#include "testing_allocation_traits.hpp"
#include "testing_range_checking.hpp"

#include "tao/Unbounded_Basic_String_Sequence_T.h"
#include "tao/CORBA_String.h"

#include "string_sequence_tester.hpp"

#include "test_macros.h"


using namespace TAO_VERSIONED_NAMESPACE_NAME::TAO;

template<class tested_sequence>
struct Tester
{
  typedef typename tested_sequence::character_type char_type;
  typedef string_sequence_test_helpers<char_type> helper;
  typedef typename tested_sequence::value_type value_type;
  typedef typename tested_sequence::const_value_type const_value_type;

  typedef typename tested_sequence::element_traits tested_element_traits;
  typedef typename tested_sequence::allocation_traits tested_allocation_traits;
  typedef TAO::details::range_checking<value_type,true> range;

  int test_ulong_constructor()
  {
    expected_calls a(tested_allocation_traits::allocbuf_calls);
    expected_calls f(tested_allocation_traits::freebuf_calls);
    expected_calls i(tested_element_traits::default_initializer_calls);
    {
      tested_sequence x(16);

      CHECK_EQUAL(CORBA::ULong(16), x.maximum());
      CHECK_EQUAL(CORBA::ULong(0), x.length());
      CHECK_EQUAL(true, x.release());
    }
    FAIL_RETURN_IF_NOT(a.expect(1), a);
    FAIL_RETURN_IF_NOT(f.expect(1), f);
    // ulong constructor calls allocbuf and thus there must be
    // maximum() default initilized elements.
    FAIL_RETURN_IF_NOT(i.expect(16), i);
    return 0;
  }

  int test_copy_constructor_from_ulong()
  {
    expected_calls a(tested_allocation_traits::allocbuf_calls);
    expected_calls f(tested_allocation_traits::freebuf_calls);
    expected_calls i(tested_element_traits::default_initializer_calls);
    expected_calls r(tested_element_traits::release_calls);
    expected_calls d(tested_element_traits::duplicate_calls);
    {
      tested_sequence x(16);
      FAIL_RETURN_IF_NOT(a.expect(1), a);
      // ulong constructor calls allocbuf and thus there must be
      // maximum() default initilized elements.
      FAIL_RETURN_IF_NOT(i.expect(16), i);

      x.length(8);

      CHECK_EQUAL(CORBA::ULong(16), x.maximum());
      CHECK_EQUAL(CORBA::ULong(8), x.length());
      CHECK_EQUAL(true, x.release());

      // length() doesn't default initialize anything since initialization
      // was done in ulong constructor.
      FAIL_RETURN_IF_NOT(i.expect(0), i);

      tested_sequence y(x);
      FAIL_RETURN_IF_NOT(a.expect(1), a);
      CHECK_EQUAL(CORBA::ULong(16), y.maximum());
      CHECK_EQUAL(CORBA::ULong(8), y.length());
      CHECK_EQUAL(true, y.release());

      FAIL_RETURN_IF_NOT(d.expect(8), d);
      // Copy constructor must duplicate length() elements and default
      // initilize rest maximum()-length().
      FAIL_RETURN_IF_NOT(i.expect(8), d);
    }
    FAIL_RETURN_IF_NOT(f.expect(2), f);
    // There must be 32 elements released since maximum() is 16.
    FAIL_RETURN_IF_NOT(r.expect(32), i);
    return 0;
  }

  int test_set_length_less_than_maximum()
  {
    expected_calls a(tested_allocation_traits::allocbuf_calls);
    expected_calls f(tested_allocation_traits::freebuf_calls);
    expected_calls i(tested_element_traits::default_initializer_calls);
    {
      tested_sequence x(16);

      x.length(8);
      CHECK_EQUAL(CORBA::ULong(16), x.maximum());
      CHECK_EQUAL(CORBA::ULong(8), x.length());
      CHECK_EQUAL(true, x.release());

      // ulong constructor calls allocbuf and thus there must be
      // maximum() default initilized elements.
      FAIL_RETURN_IF_NOT(i.expect(16), i);
    }
    FAIL_RETURN_IF_NOT(a.expect(1), a);
    FAIL_RETURN_IF_NOT(f.expect(1), f);
    return 0;
  }

  int test_set_length_more_than_maximum()
  {
    expected_calls a(tested_allocation_traits::allocbuf_calls);
    expected_calls f(tested_allocation_traits::freebuf_calls);
    expected_calls i(tested_element_traits::default_initializer_calls);
    {
      tested_sequence x(16);
      FAIL_RETURN_IF_NOT(a.expect(1), a);

      x.length(32);
      FAIL_RETURN_IF_NOT(a.expect(1), a);
      FAIL_RETURN_IF_NOT(f.expect(1), f);

      // ulong constructor calls allocbuf and thus there must be
      // maximum() default initilized elements + length() leads to buffer
      // reallocation maximum() gets set to a new value.
      FAIL_RETURN_IF_NOT(i.expect(48), i);

      CHECK_EQUAL(CORBA::ULong(32), x.maximum());
      CHECK_EQUAL(CORBA::ULong(32), x.length());
      CHECK_EQUAL(true, x.release());
    }
    FAIL_RETURN_IF_NOT(f.expect(1), f);
    return 0;
  }

  int test_exception_in_ulong_constructor()
  {
    expected_calls a(tested_allocation_traits::allocbuf_calls);
    expected_calls f(tested_allocation_traits::freebuf_calls);
    {
      tested_allocation_traits::allocbuf_calls.failure_countdown(1);
      CHECK_THROW(tested_sequence x(16), testing_exception);
      FAIL_RETURN_IF_NOT(a.expect(1), a);
    }
    FAIL_RETURN_IF_NOT(f.expect(0), f);
    return 0;
  }

  int test_exception_in_length()
  {
    expected_calls f(tested_allocation_traits::freebuf_calls);
    expected_calls a(tested_allocation_traits::allocbuf_calls);
    expected_calls d(tested_element_traits::duplicate_calls);
    expected_calls r(tested_element_traits::release_calls);
    {
      tested_sequence y; y.length(4);
      for(CORBA::ULong i = 0; i != 4; ++i)
      {
        y[i] = helper::allocate_test_string();
      }

      a.reset();
      d.reset();
      r.reset();
      f.reset();
      tested_allocation_traits::allocbuf_calls.failure_countdown(1);
      CHECK_THROW(y.length(8), testing_exception);
      FAIL_RETURN_IF_NOT(a.expect(1), a);
      FAIL_RETURN_IF_NOT(f.expect(0), f);
      FAIL_RETURN_IF_NOT(d.expect(0), d);
      FAIL_RETURN_IF_NOT(r.expect(0), r);

      CHECK_EQUAL(CORBA::ULong(4), y.length());
      for(CORBA::ULong i = 0; i != 4; ++i)
      {
        FAIL_RETURN_IF_NOT(
            helper::compare_test_string(y[i]),
            "Mismatch in element " << i
            << ", got=" << y[i]);
      }
    }
    FAIL_RETURN_IF_NOT(f.expect(1), f);
    return 0;
  }

  int test_default_initializer_exception_in_length()
  {
    expected_calls f(tested_allocation_traits::freebuf_calls);
    expected_calls a(tested_allocation_traits::allocbuf_calls);
    expected_calls d(tested_element_traits::default_initializer_calls);
    expected_calls r(tested_element_traits::release_calls);
    {
      tested_sequence y; y.length(4);
      for(CORBA::ULong i = 0; i != 4; ++i)
      {
        y[i] = helper::allocate_test_string();
      }

      a.reset();
      d.reset();
      r.reset();
      f.reset();
      tested_element_traits::default_initializer_calls.failure_countdown(3);
      CHECK_THROW(y.length(8), testing_exception);
      FAIL_RETURN_IF_NOT(a.expect(1), a);
      FAIL_RETURN_IF_NOT(f.expect(1), f);
      FAIL_RETURN_IF_NOT(d.expect(3), d);
      FAIL_RETURN_IF_NOT(r.expect(8), r);

      CHECK_EQUAL(CORBA::ULong(4), y.length());
      for(CORBA::ULong i = 0; i != 4; ++i)
      {
        FAIL_RETURN_IF_NOT(
            helper::compare_test_string(y[i]),
            "Mismatch in element " << i
            << ", got=" << y[i]);
      }
    }
    FAIL_RETURN_IF_NOT(f.expect(1), f);
    return 0;
  }

  value_type * alloc_and_init_buffer()
  {
    value_type * buf = tested_sequence::allocbuf(8);
    delete[] buf[0];
    buf[0] = helper::to_string(1);
    delete[] buf[1];
    buf[1] = helper::to_string(4);
    delete[] buf[2];
    buf[2] = helper::to_string(9);
    delete[] buf[3];
    buf[3] = helper::to_string(16);

    return buf;
  }

  int check_values(tested_sequence const & a)
  {
    CHECK(helper::compare(1,  a[0]));
    CHECK(helper::compare(4,  a[1]));
    CHECK(helper::compare(9,  a[2]));
    CHECK(helper::compare(16, a[3]));
    return 0;
  }

  int test_buffer_constructor_default()
  {
    value_type * buffer = alloc_and_init_buffer();
    expected_calls a(tested_allocation_traits::allocbuf_calls);
    expected_calls f(tested_allocation_traits::freebuf_calls);
    expected_calls r(tested_element_traits::release_calls);
    {
      tested_sequence a(8, 4, buffer, false);
      CHECK_EQUAL(CORBA::ULong(8), a.maximum());
      CHECK_EQUAL(CORBA::ULong(4), a.length());
      CHECK_EQUAL(buffer, a.get_buffer());
      CHECK_EQUAL(false, a.release());
      check_values(a);
    }
    FAIL_RETURN_IF_NOT(a.expect(0), a);
    FAIL_RETURN_IF_NOT(f.expect(0), f);
    tested_sequence::freebuf(buffer);
    FAIL_RETURN_IF_NOT(r.expect(8), r);
    return 0;
  }

  int test_buffer_constructor_false()
  {
    value_type * buffer = alloc_and_init_buffer();
    expected_calls a(tested_allocation_traits::allocbuf_calls);
    expected_calls f(tested_allocation_traits::freebuf_calls);
    expected_calls r(tested_element_traits::release_calls);
    {
      tested_sequence a(8, 4, buffer, false);
      CHECK_EQUAL(CORBA::ULong(8), a.maximum());
      CHECK_EQUAL(CORBA::ULong(4), a.length());
      CHECK_EQUAL(buffer, a.get_buffer());
      CHECK_EQUAL(false, a.release());
      check_values(a);
    }
    FAIL_RETURN_IF_NOT(a.expect(0), a);
    FAIL_RETURN_IF_NOT(f.expect(0), f);
    tested_sequence::freebuf(buffer);
    FAIL_RETURN_IF_NOT(r.expect(8), r);
    return 0;
  }

  int test_buffer_constructor_true()
  {
    value_type * buffer = alloc_and_init_buffer();
    expected_calls a(tested_allocation_traits::allocbuf_calls);
    expected_calls f(tested_allocation_traits::freebuf_calls);
    expected_calls r(tested_element_traits::release_calls);
    {
      tested_sequence a(8, 4, buffer, true);
      CHECK_EQUAL(CORBA::ULong(8), a.maximum());
      CHECK_EQUAL(CORBA::ULong(4), a.length());
      CHECK_EQUAL(buffer, a.get_buffer());
      CHECK_EQUAL(true, a.release());
      check_values(a);
    }
    FAIL_RETURN_IF_NOT(a.expect(0), a);
    FAIL_RETURN_IF_NOT(f.expect(1), f);
    FAIL_RETURN_IF_NOT(r.expect(8), r);
    return 0;
  }

  int test_replace_default()
  {
    value_type * buffer = alloc_and_init_buffer();

    expected_calls c(tested_allocation_traits::allocbuf_calls);
    expected_calls f(tested_allocation_traits::freebuf_calls);
    expected_calls r(tested_element_traits::release_calls);
    {
      tested_sequence a;
      a.replace(8, 4, buffer);
      FAIL_RETURN_IF_NOT(c.expect(0), c);
      FAIL_RETURN_IF_NOT(f.expect(0), f);
      FAIL_RETURN_IF_NOT(r.expect(0), 0);

      CHECK_EQUAL(CORBA::ULong(8), a.maximum());
      CHECK_EQUAL(CORBA::ULong(4), a.length());
      CHECK_EQUAL(buffer, a.get_buffer());
      CHECK_EQUAL(false, a.release());
      check_values(a);
    }
    FAIL_RETURN_IF_NOT(c.expect(0), c);
    FAIL_RETURN_IF_NOT(f.expect(0), f);
    tested_sequence::freebuf(buffer);
    FAIL_RETURN_IF_NOT(r.expect(8), r);
    return 0;
  }

  int test_replace_false()
  {
    value_type * buffer = alloc_and_init_buffer();

    expected_calls c(tested_allocation_traits::allocbuf_calls);
    expected_calls f(tested_allocation_traits::freebuf_calls);
    expected_calls r(tested_element_traits::release_calls);
    {
      tested_sequence a;
      a.replace(8, 4, buffer, false);
      FAIL_RETURN_IF_NOT(c.expect(0), c);
      FAIL_RETURN_IF_NOT(f.expect(0), f);
      FAIL_RETURN_IF_NOT(r.expect(0), 0);

      CHECK_EQUAL(CORBA::ULong(8), a.maximum());
      CHECK_EQUAL(CORBA::ULong(4), a.length());
      CHECK_EQUAL(buffer, a.get_buffer());
      CHECK_EQUAL(false, a.release());
      check_values(a);
    }
    FAIL_RETURN_IF_NOT(c.expect(0), c);
    FAIL_RETURN_IF_NOT(f.expect(0), f);
    tested_sequence::freebuf(buffer);
    FAIL_RETURN_IF_NOT(r.expect(8), r);
    return 0;
  }

  int test_replace_true()
  {
    value_type * buffer = alloc_and_init_buffer();

    expected_calls c(tested_allocation_traits::allocbuf_calls);
    expected_calls f(tested_allocation_traits::freebuf_calls);
    expected_calls r(tested_element_traits::release_calls);
    {
      tested_sequence a;
      a.replace(8, 4, buffer, true);
      FAIL_RETURN_IF_NOT(c.expect(0), c);
      FAIL_RETURN_IF_NOT(f.expect(0), f);
      FAIL_RETURN_IF_NOT(r.expect(0), r);

      CHECK_EQUAL(CORBA::ULong(8), a.maximum());
      CHECK_EQUAL(CORBA::ULong(4), a.length());
      CHECK_EQUAL(buffer, a.get_buffer());
      CHECK_EQUAL(true, a.release());
      check_values(a);
    }
    FAIL_RETURN_IF_NOT(c.expect(0), c);
    // Since we've given away the ownership the buffer is deallocated by
    // the sequence.
    FAIL_RETURN_IF_NOT(f.expect(1), f);
    FAIL_RETURN_IF_NOT(r.expect(8), r);
    return 0;
  }

  int test_get_buffer_default()
  {
    value_type * buffer = alloc_and_init_buffer();
    tested_sequence a(8, 4, buffer, true);
    CHECK_EQUAL(a.get_buffer(), buffer);
    return 0;
  }

  int test_get_buffer_false()
  {
    value_type * buffer = alloc_and_init_buffer();
    tested_sequence a(8, 4, buffer, true);
    CHECK_EQUAL(a.get_buffer(), buffer);
    return 0;
  }

  int test_get_buffer_true_with_release_false()
  {
    value_type * buffer = alloc_and_init_buffer();
    tested_sequence a(8, 4, buffer, false);
    CHECK(0 == a.get_buffer(true));
    tested_sequence::freebuf(buffer);
    return 0;
  }

  int test_get_buffer_true_with_release_true()
  {
    value_type * buffer = alloc_and_init_buffer();
    expected_calls c(tested_allocation_traits::allocbuf_calls);
    expected_calls f(tested_allocation_traits::freebuf_calls);
    expected_calls r(tested_element_traits::release_calls);
    {
      tested_sequence a(8, 4, buffer, true);
      CHECK_EQUAL(buffer, a.get_buffer(true));

      tested_sequence const & b = a;
      CHECK_EQUAL(0UL, b.maximum());
      CHECK_EQUAL(0UL, b.length());
      CHECK(0 != b.get_buffer());
      CHECK_EQUAL(true, b.release());

      FAIL_RETURN_IF_NOT(c.expect(1), c);

      CHECK(buffer != b.get_buffer());
    }
    FAIL_RETURN_IF_NOT(c.expect(0), c);
    FAIL_RETURN_IF_NOT(f.expect(1), f);
    tested_sequence::freebuf(buffer);
    FAIL_RETURN_IF_NOT(r.expect(8), r);
    return 0;
  }

  int test_regression_2201()
  {
    value_type * buffer = alloc_and_init_buffer();
    expected_calls a(tested_allocation_traits::allocbuf_calls);
    expected_calls f(tested_allocation_traits::freebuf_calls);
    expected_calls r(tested_element_traits::release_calls);
    {
      tested_sequence x(8, 4, buffer, true);
      CHECK_EQUAL(CORBA::ULong(8), x.maximum());
      CHECK_EQUAL(CORBA::ULong(4), x.length());
      CHECK_EQUAL(buffer, x.get_buffer());
      CHECK_EQUAL(true, x.release());
      check_values(x);
      x.length (3);
      CHECK_EQUAL(CORBA::ULong(3), x.length());
      x.length (4);
      CHECK_EQUAL(CORBA::ULong(4), x.length());
      CHECK(helper::compare_empty(x[3]));
    }
    FAIL_RETURN_IF_NOT(a.expect(0), a);
    FAIL_RETURN_IF_NOT(f.expect(1), f);
    // 1 additional release call happens when we shrink
    // the sequence to length 3.
    FAIL_RETURN_IF_NOT(r.expect(9), r);
    return 0;
  }


  int test_all()
  {
    int status = 0;
    typedef string_sequence_tester<tested_sequence> common;
    common tester;
    status += tester.test_all ();

    status += this->test_ulong_constructor();
    status += this->test_copy_constructor_from_ulong();
    status += this->test_set_length_less_than_maximum();
    status += this->test_set_length_more_than_maximum();
    status += this->test_exception_in_ulong_constructor();
    status += this->test_exception_in_length();
    status += this->test_default_initializer_exception_in_length();
    status += this->test_buffer_constructor_default();
    status += this->test_buffer_constructor_false();
    status += this->test_buffer_constructor_true();
    status += this->test_replace_default();
    status += this->test_replace_false();
    status += this->test_replace_true();
    status += this->test_get_buffer_default();
    status += this->test_get_buffer_false();
    status += this->test_get_buffer_true_with_release_false();
    status += this->test_get_buffer_true_with_release_true();
    status += this->test_regression_2201();
    return status;
  }
  Tester() {}
};

int ACE_TMAIN(int,ACE_TCHAR*[])
{
  int status = 0;
  {
    typedef Tester<unbounded_basic_string_sequence <char> > nTester;
    nTester ntester;
    status += ntester.test_all ();
  }

#if defined(ACE_HAS_WCHAR) && !defined(TAO_LACKS_WCHAR_CXX_STDLIB)
  {
    typedef Tester<unbounded_basic_string_sequence <CORBA::WChar> > wTester;
    wTester wtester;
    status += wtester.test_all ();
  }
#endif

  return status;
}