/* ///////////////////////////////////////////////////////////////////////// * File: stlsoft/util/zero.hpp * * Purpose: ZERO_v template class. * * Created: 29th July 2003 * Updated: 10th August 2009 * * Home: http://stlsoft.org/ * * Copyright (c) 2003-2009, Matthew Wilson and Synesis Software * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * - Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * - Neither the name(s) of Matthew Wilson and Synesis Software nor the names of * any contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * * ////////////////////////////////////////////////////////////////////// */ /** \file stlsoft/util/zero.hpp * * \brief [C++ only] Definition of the stlsoft::ZERO_v class * (\ref group__library__utility "Utility" Library). */ #ifndef STLSOFT_INCL_STLSOFT_UTIL_HPP_ZERO #define STLSOFT_INCL_STLSOFT_UTIL_HPP_ZERO #ifndef STLSOFT_DOCUMENTATION_SKIP_SECTION # define STLSOFT_VER_STLSOFT_UTIL_HPP_ZERO_MAJOR 4 # define STLSOFT_VER_STLSOFT_UTIL_HPP_ZERO_MINOR 1 # define STLSOFT_VER_STLSOFT_UTIL_HPP_ZERO_REVISION 1 # define STLSOFT_VER_STLSOFT_UTIL_HPP_ZERO_EDIT 45 #endif /* !STLSOFT_DOCUMENTATION_SKIP_SECTION */ /* ///////////////////////////////////////////////////////////////////////// * Includes */ #ifndef STLSOFT_INCL_STLSOFT_H_STLSOFT # include #endif /* !STLSOFT_INCL_STLSOFT_H_STLSOFT */ /* ///////////////////////////////////////////////////////////////////////// * Namespace */ #ifndef _STLSOFT_NO_NAMESPACE namespace stlsoft { #endif /* _STLSOFT_NO_NAMESPACE */ /* ///////////////////////////////////////////////////////////////////////// * Classes */ /** \brief Represents a type that can be an active replacement for ZERO * * \ingroup group__library__utility * * This class can act as a replacement for the ZERO macro, by being validly * assigned to or equated with pointer types only, as in * * int i = ZERO; // error * int *p = ZERO; // OK * * if(i == ZERO) {} // error * if(ZERO == i) {} // error * * if(p == ZERO) {} // OK * if(ZERO == p) {} // OK * * * When used via inclusion of the file stlsoft_zerodef.h, the macro ZERO is * redefined as ZERO_v(), such that expressions containing ZERO will be valid * against pointers only. */ struct ZERO_v { // Construction public: /// Default constructor ZERO_v() {} /** \brief Static creation * * \ingroup group__library__utility */ public: static ZERO_v create() { return ZERO_v(); } // Conversion public: /// A zero (of type ss_sint8_t) operator ss_sint8_t () const { return 0; } /// A zero (of type ss_uint8_t) operator ss_uint8_t () const { return 0; } /// A zero (of type ss_sint16_t) operator ss_sint16_t () const { return 0; } /// A zero (of type ss_uint16_t) operator ss_uint16_t () const { return 0; } /// A zero (of type ss_sint32_t) operator ss_sint32_t () const { return 0; } /// A zero (of type ss_uint32_t) operator ss_uint32_t () const { return 0; } #ifdef STLSOFT_CF_64BIT_INT_SUPPORT /// A zero (of type ss_sint64_t) operator ss_sint64_t () const { return 0; } /// A zero (of type ss_uint64_t) operator ss_uint64_t () const { return 0; } #endif /* STLSOFT_CF_64BIT_INT_SUPPORT */ #ifdef STLSOFT_CF_INT_DISTINCT_INT_TYPE /// A zero (of type signed int) operator signed int () const { return 0; } /// A zero (of type unsigned int) operator unsigned int () const { return 0; } #endif /* STLSOFT_CF_INT_DISTINCT_INT_TYPE */ #ifdef STLSOFT_CF_LONG_DISTINCT_INT_TYPE /// A zero (of type signed long) operator signed long () const { return 0; } /// A zero (of type unsigned long) operator unsigned long () const { return 0; } #endif /* STLSOFT_CF_LONG_DISTINCT_INT_TYPE */ /// A zero (of type float) operator float () const { return 0.0f; } /// A zero (of type double) operator double () const { return 0.0; } /// A zero (of type long double) operator long double () const { return 0.0; } // Not to be implemented private: void operator &() const; ZERO_v(ZERO_v const&); ZERO_v const& operator =(ZERO_v const&); }; /** \brief operator == for ZERO_v and integral types * * \ingroup group__library__utility */ inline ss_bool_t operator ==(ZERO_v const& /* lhs */, ss_sint8_t i) { return i == 0; } inline ss_bool_t operator ==(ZERO_v const& /* lhs */, ss_uint8_t i) { return i == 0; } inline ss_bool_t operator ==(ZERO_v const& /* lhs */, ss_sint16_t i) { return i == 0; } inline ss_bool_t operator ==(ZERO_v const& /* lhs */, ss_uint16_t i) { return i == 0; } inline ss_bool_t operator ==(ZERO_v const& /* lhs */, ss_sint32_t i) { return i == 0; } inline ss_bool_t operator ==(ZERO_v const& /* lhs */, ss_uint32_t i) { return i == 0; } #ifdef STLSOFT_CF_64BIT_INT_SUPPORT inline ss_bool_t operator ==(ZERO_v const& /* lhs */, ss_sint64_t const& i) { return i == 0; } inline ss_bool_t operator ==(ZERO_v const& /* lhs */, ss_uint64_t const& i) { return i == 0; } #endif /* STLSOFT_CF_64BIT_INT_SUPPORT */ #ifdef STLSOFT_CF_INT_DISTINCT_INT_TYPE inline ss_bool_t operator ==(ZERO_v const& /* lhs */, signed int i) { return i == 0; } inline ss_bool_t operator ==(ZERO_v const& /* lhs */, unsigned int i) { return i == 0; } #endif /* STLSOFT_CF_INT_DISTINCT_INT_TYPE */ #ifdef STLSOFT_CF_LONG_DISTINCT_INT_TYPE inline ss_bool_t operator ==(ZERO_v const& /* lhs */, signed long i) { return i == 0; } inline ss_bool_t operator ==(ZERO_v const& /* lhs */, unsigned long i) { return i == 0; } #endif /* STLSOFT_CF_LONG_DISTINCT_INT_TYPE */ inline ss_bool_t operator ==(ZERO_v const& /* lhs */, float const& i) { return i == 0; } inline ss_bool_t operator ==(ZERO_v const& /* lhs */, double const& i) { return i == 0; } inline ss_bool_t operator ==(ZERO_v const& /* lhs */, long double const& i) { return i == 0; } /** \brief operator == for an integral type and ZERO_v * * \ingroup group__library__utility */ inline ss_bool_t operator ==(ss_sint8_t i, ZERO_v const& /* lhs */) { return i == 0; } inline ss_bool_t operator ==(ss_uint8_t i, ZERO_v const& /* lhs */) { return i == 0; } inline ss_bool_t operator ==(ss_sint16_t i, ZERO_v const& /* lhs */) { return i == 0; } inline ss_bool_t operator ==(ss_uint16_t i, ZERO_v const& /* lhs */) { return i == 0; } inline ss_bool_t operator ==(ss_sint32_t i, ZERO_v const& /* lhs */) { return i == 0; } inline ss_bool_t operator ==(ss_uint32_t i, ZERO_v const& /* lhs */) { return i == 0; } #ifdef STLSOFT_CF_64BIT_INT_SUPPORT inline ss_bool_t operator ==(ss_sint64_t const& i, ZERO_v const& /* lhs */) { return i == 0; } inline ss_bool_t operator ==(ss_uint64_t const& i, ZERO_v const& /* lhs */) { return i == 0; } #endif /* STLSOFT_CF_64BIT_INT_SUPPORT */ #ifdef STLSOFT_CF_INT_DISTINCT_INT_TYPE inline ss_bool_t operator ==(signed int i, ZERO_v const& /* lhs */) { return i == 0; } inline ss_bool_t operator ==(unsigned int i, ZERO_v const& /* lhs */) { return i == 0; } #endif /* STLSOFT_CF_INT_DISTINCT_INT_TYPE */ #ifdef STLSOFT_CF_LONG_DISTINCT_INT_TYPE inline ss_bool_t operator ==(signed long i, ZERO_v const& /* lhs */) { return i == 0; } inline ss_bool_t operator ==(unsigned long i,ZERO_v const& /* lhs */) { return i == 0; } #endif /* STLSOFT_CF_LONG_DISTINCT_INT_TYPE */ inline ss_bool_t operator ==(float const& i, ZERO_v const& /* lhs */) { return i == 0; } inline ss_bool_t operator ==(double const& i, ZERO_v const& /* lhs */) { return i == 0; } inline ss_bool_t operator ==(long double const& i, ZERO_v const& /* lhs */) { return i == 0; } /** \brief operator != for ZERO_v and an integral type * * \ingroup group__library__utility */ inline ss_bool_t operator !=(ZERO_v const& /* lhs */, ss_sint8_t i) { return i != 0; } inline ss_bool_t operator !=(ZERO_v const& /* lhs */, ss_uint8_t i) { return i != 0; } inline ss_bool_t operator !=(ZERO_v const& /* lhs */, ss_sint16_t i) { return i != 0; } inline ss_bool_t operator !=(ZERO_v const& /* lhs */, ss_uint16_t i) { return i != 0; } inline ss_bool_t operator !=(ZERO_v const& /* lhs */, ss_sint32_t i) { return i != 0; } inline ss_bool_t operator !=(ZERO_v const& /* lhs */, ss_uint32_t i) { return i != 0; } #ifdef STLSOFT_CF_64BIT_INT_SUPPORT inline ss_bool_t operator !=(ZERO_v const& /* lhs */, ss_sint64_t const& i) { return i != 0; } inline ss_bool_t operator !=(ZERO_v const& /* lhs */, ss_uint64_t const& i) { return i != 0; } #endif /* STLSOFT_CF_64BIT_INT_SUPPORT */ #ifdef STLSOFT_CF_INT_DISTINCT_INT_TYPE inline ss_bool_t operator !=(ZERO_v const& /* lhs */, signed int i) { return i != 0; } inline ss_bool_t operator !=(ZERO_v const& /* lhs */, unsigned int i) { return i != 0; } #endif /* STLSOFT_CF_INT_DISTINCT_INT_TYPE */ #ifdef STLSOFT_CF_LONG_DISTINCT_INT_TYPE inline ss_bool_t operator !=(ZERO_v const& /* lhs */, signed long i) { return i != 0; } inline ss_bool_t operator !=(ZERO_v const& /* lhs */, unsigned long i) { return i != 0; } #endif /* STLSOFT_CF_LONG_DISTINCT_INT_TYPE */ inline ss_bool_t operator !=(ZERO_v const& /* lhs */, float const& i) { return i != 0; } inline ss_bool_t operator !=(ZERO_v const& /* lhs */, double const& i) { return i != 0; } inline ss_bool_t operator !=(ZERO_v const& /* lhs */, long double const& i) { return i != 0; } /** \brief operator != for an integral type and ZERO_v * * \ingroup group__library__utility */ inline ss_bool_t operator !=(ss_sint8_t i, ZERO_v const& /* lhs */) { return i != 0; } inline ss_bool_t operator !=(ss_uint8_t i, ZERO_v const& /* lhs */) { return i != 0; } inline ss_bool_t operator !=(ss_sint16_t i, ZERO_v const& /* lhs */) { return i != 0; } inline ss_bool_t operator !=(ss_uint16_t i, ZERO_v const& /* lhs */) { return i != 0; } inline ss_bool_t operator !=(ss_sint32_t i, ZERO_v const& /* lhs */) { return i != 0; } inline ss_bool_t operator !=(ss_uint32_t i, ZERO_v const& /* lhs */) { return i != 0; } #ifdef STLSOFT_CF_64BIT_INT_SUPPORT inline ss_bool_t operator !=(ss_sint64_t const& i, ZERO_v const& /* lhs */) { return i != 0; } inline ss_bool_t operator !=(ss_uint64_t const& i, ZERO_v const& /* lhs */) { return i != 0; } #endif /* STLSOFT_CF_64BIT_INT_SUPPORT */ #ifdef STLSOFT_CF_INT_DISTINCT_INT_TYPE inline ss_bool_t operator !=(signed int i, ZERO_v const& /* lhs */) { return i != 0; } inline ss_bool_t operator !=(unsigned int i, ZERO_v const& /* lhs */) { return i != 0; } #endif /* STLSOFT_CF_INT_DISTINCT_INT_TYPE */ #ifdef STLSOFT_CF_LONG_DISTINCT_INT_TYPE inline ss_bool_t operator !=(signed long i, ZERO_v const& /* lhs */) { return i != 0; } inline ss_bool_t operator !=(unsigned long i,ZERO_v const& /* lhs */) { return i != 0; } #endif /* STLSOFT_CF_LONG_DISTINCT_INT_TYPE */ inline ss_bool_t operator !=(float const& i, ZERO_v const& /* lhs */) { return i != 0; } inline ss_bool_t operator !=(double const& i, ZERO_v const& /* lhs */) { return i != 0; } inline ss_bool_t operator !=(long double const& i, ZERO_v const& /* lhs */) { return i != 0; } //////////////////////////////////////////////////////////////////////////// // Unit-testing #ifdef STLSOFT_UNITTEST # include "./unittest/zero_unittest_.h" #endif /* STLSOFT_UNITTEST */ /* ////////////////////////////////////////////////////////////////////// */ #ifndef _STLSOFT_NO_NAMESPACE } // namespace stlsoft #endif /* _STLSOFT_NO_NAMESPACE */ /* ////////////////////////////////////////////////////////////////////// */ #endif /* !STLSOFT_INCL_STLSOFT_UTIL_HPP_ZERO */ /* ///////////////////////////// end of file //////////////////////////// */