// -*- C++ -*- #if defined (ACE_HAS_INTRINSIC_BYTESWAP) // Take advantage of MSVC++ byte swapping compiler intrinsics (found // in ). # pragma intrinsic (_byteswap_ushort, _byteswap_ulong, _byteswap_uint64) #endif /* ACE_HAS_INTRINSIC_BYTESWAP */ #if defined (ACE_HAS_BSWAP_16) || defined (ACE_HAS_BSWAP_32) || defined (ACE_HAS_BSWAP_64) # include "ace/os_include/os_byteswap.h" #endif ACE_BEGIN_VERSIONED_NAMESPACE_DECL // // The ACE_CDR::swap_X and ACE_CDR::swap_X_array routines are broken // in 5 cases for optimization: // // * MSVC++ 7.1 or better // => Compiler intrinsics // // * AMD64 CPU + gnu g++ // => gcc amd64 inline assembly. // // * x86 Pentium CPU + gnu g++ // (ACE_HAS_PENTIUM && __GNUG__) // => gcc x86 inline assembly. // // * x86 Pentium CPU and (_MSC_VER) or BORLAND C++) // (ACE_HAS_PENTIUM && ( _MSC_VER || __BORLANDC__ ) // => MSC x86 inline assembly. // // * 64 bit architecture // (ACE_SIZEOF_LONG == 8) // => shift/masks using 64bit words. // // * default // (none of the above) // => shift/masks using 32bit words. // // Some things you could find useful to know if you intend to mess // with this optimizations for swaps: // // * MSVC++ don't assume register values are conserved between // statements. So you can clobber any register you want, // whenever you want (well not *anyone* really, see manual). // The MSVC++ optimizer will try to pick different registers // for the C++ statements sorrounding your asm block, and if // it's not possible will use the stack. // // * If you clobber registers with asm statements in gcc, you // better do it in an asm-only function, or save/restore them // before/after in the stack. If not, sorrounding C statements // could end using the same registers and big-badda-bum (been // there, done that...). The big-badda-bum could happen *even // if you specify the clobbered register in your asm's*. // Even better, use gcc asm syntax for detecting the register // asigned to a certain variable so you don't have to clobber any // register directly. // ACE_INLINE void ACE_CDR::swap_2 (const char *orig, char* target) { #if defined (ACE_HAS_INTRINSIC_BYTESWAP) // Take advantage of MSVC++ compiler intrinsic byte swapping // function. *reinterpret_cast (target) = _byteswap_ushort (*reinterpret_cast (orig)); #elif defined (ACE_HAS_BSWAP16) *reinterpret_cast (target) = bswap16 (*reinterpret_cast (orig)); #elif defined (ACE_HAS_BSWAP_16) *reinterpret_cast (target) = bswap_16 (*reinterpret_cast (orig)); #elif defined(ACE_HAS_INTEL_ASSEMBLY) unsigned short a = *reinterpret_cast (orig); asm( "rolw $8, %0" : "=r" (a) : "0" (a) ); *reinterpret_cast (target) = a; #elif defined (ACE_HAS_PENTIUM) \ && (defined(_MSC_VER) || defined(__BORLANDC__)) \ && !defined(ACE_LACKS_INLINE_ASSEMBLY) __asm mov ebx, orig; __asm mov ecx, target; __asm mov ax, [ebx]; __asm rol ax, 8; __asm mov [ecx], ax; #else ACE_UINT16 usrc = * reinterpret_cast (orig); ACE_UINT16* udst = reinterpret_cast (target); *udst = (usrc << 8) | (usrc >> 8); #endif /* ACE_HAS_PENTIUM */ } ACE_INLINE void ACE_CDR::swap_4 (const char* orig, char* target) { #if defined (ACE_HAS_INTRINSIC_BYTESWAP) // Take advantage of MSVC++ compiler intrinsic byte swapping // function. *reinterpret_cast (target) = _byteswap_ulong (*reinterpret_cast (orig)); #elif defined (ACE_HAS_BSWAP32) *reinterpret_cast (target) = bswap32 (*reinterpret_cast (orig)); #elif defined (ACE_HAS_BSWAP_32) *reinterpret_cast (target) = bswap_32 (*reinterpret_cast (orig)); #elif defined(ACE_HAS_INTEL_ASSEMBLY) // We have ACE_HAS_PENTIUM, so we know the sizeof's. unsigned int j = *reinterpret_cast (orig); asm ("bswap %1" : "=r" (j) : "0" (j)); *reinterpret_cast (target) = j; #elif defined(ACE_HAS_PENTIUM) \ && (defined(_MSC_VER) || defined(__BORLANDC__)) \ && !defined(ACE_LACKS_INLINE_ASSEMBLY) __asm mov ebx, orig; __asm mov ecx, target; __asm mov eax, [ebx]; __asm bswap eax; __asm mov [ecx], eax; #else ACE_UINT32 x = * reinterpret_cast (orig); x = (x << 24) | ((x & 0xff00) << 8) | ((x & 0xff0000) >> 8) | (x >> 24); * reinterpret_cast (target) = x; #endif /* ACE_HAS_INTRINSIC_BYTESWAP */ } ACE_INLINE void ACE_CDR::swap_8 (const char* orig, char* target) { #if defined (ACE_HAS_INTRINSIC_BYTESWAP) // Take advantage of MSVC++ compiler intrinsic byte swapping // function. *reinterpret_cast (target) = _byteswap_uint64 (*reinterpret_cast (orig)); #elif defined (ACE_HAS_BSWAP64) *reinterpret_cast (target) = bswap64 (*reinterpret_cast (orig)); #elif defined (ACE_HAS_BSWAP_64) *reinterpret_cast (target) = bswap_64 (*reinterpret_cast (orig)); #elif (defined (__amd64__) || defined (__x86_64__)) && defined(__GNUG__) \ && !defined(ACE_LACKS_INLINE_ASSEMBLY) unsigned long x = * reinterpret_cast (orig); asm ("bswapq %1" : "=r" (x) : "0" (x)); *reinterpret_cast (target) = x; #elif defined(ACE_HAS_PENTIUM) && defined(__GNUG__) \ && !defined(ACE_LACKS_INLINE_ASSEMBLY) unsigned int i =*reinterpret_cast (orig); unsigned int j = *reinterpret_cast (orig + 4); asm ("bswap %1" : "=r" (i) : "0" (i)); asm ("bswap %1" : "=r" (j) : "0" (j)); *reinterpret_cast (target + 4) = i; *reinterpret_cast (target) = j; #elif defined(ACE_HAS_PENTIUM) \ && (defined(_MSC_VER) || defined(__BORLANDC__)) \ && !defined(ACE_LACKS_INLINE_ASSEMBLY) __asm mov ecx, orig; __asm mov edx, target; __asm mov eax, [ecx]; __asm mov ebx, 4[ecx]; __asm bswap eax; __asm bswap ebx; __asm mov 4[edx], eax; __asm mov [edx], ebx; #elif ACE_SIZEOF_LONG == 8 // 64 bit architecture. unsigned long x = * reinterpret_cast (orig); unsigned long x84 = (x & 0x000000ff000000ffUL) << 24; unsigned long x73 = (x & 0x0000ff000000ff00UL) << 8; unsigned long x62 = (x & 0x00ff000000ff0000UL) >> 8; unsigned long x51 = (x & 0xff000000ff000000UL) >> 24; x = (x84 | x73 | x62 | x51); x = (x << 32) | (x >> 32); *reinterpret_cast (target) = x; #else ACE_UINT32 x = * reinterpret_cast (orig); ACE_UINT32 y = * reinterpret_cast (orig + 4); x = (x << 24) | ((x & 0xff00) << 8) | ((x & 0xff0000) >> 8) | (x >> 24); y = (y << 24) | ((y & 0xff00) << 8) | ((y & 0xff0000) >> 8) | (y >> 24); * reinterpret_cast (target) = y; * reinterpret_cast (target + 4) = x; #endif /* ACE_HAS_INTRINSIC_BYTESWAP */ } ACE_INLINE void ACE_CDR::swap_16 (const char* orig, char* target) { swap_8 (orig + 8, target); swap_8 (orig, target + 8); } ACE_INLINE size_t ACE_CDR::first_size (size_t minsize) { if (minsize == 0) return ACE_CDR::DEFAULT_BUFSIZE; size_t newsize = ACE_CDR::DEFAULT_BUFSIZE; while (newsize < minsize) { if (newsize < ACE_CDR::EXP_GROWTH_MAX) { // We grow exponentially at the beginning, this is fast and // reduces the number of allocations. // Quickly multiply by two using a bit shift. This is // guaranteed to work since the variable is an unsigned // integer. newsize <<= 1; } else { // but continuing with exponential growth can result in over // allocations and easily yield an allocation failure. // So we grow linearly when the buffer is too big. newsize += ACE_CDR::LINEAR_GROWTH_CHUNK; } } return newsize; } ACE_INLINE size_t ACE_CDR::next_size (size_t minsize) { size_t newsize = ACE_CDR::first_size (minsize); if (newsize == minsize) { // If necessary increment the size if (newsize < ACE_CDR::EXP_GROWTH_MAX) // Quickly multiply by two using a bit shift. This is // guaranteed to work since the variable is an unsigned // integer. newsize <<= 1; else newsize += ACE_CDR::LINEAR_GROWTH_CHUNK; } return newsize; } ACE_INLINE ACE_CDR::UShort ACE_CDR::Fixed::fixed_digits () const { return this->digits_; } ACE_INLINE ACE_CDR::UShort ACE_CDR::Fixed::fixed_scale () const { return this->scale_; } ACE_INLINE bool ACE_CDR::Fixed::sign () const { return (this->value_[15] & 0xf) == NEGATIVE; } ACE_INLINE ACE_CDR::Octet ACE_CDR::Fixed::digit (int n) const { const Octet x = this->value_[15 - (n + 1) / 2]; return (n % 2) ? x & 0xf : (x >> 4); } ACE_INLINE void ACE_CDR::Fixed::digit (int n, int val) { const int idx = 15 - (n + 1) / 2; this->value_[idx] = (n % 2) ? (this->value_[idx] & 0xf0) | val : ((val << 4) | (this->value_[idx] & 0xf)); } ACE_INLINE ACE_CDR::Fixed::Proxy::Proxy (bool high_nibble, Octet &element) : high_nibble_ (high_nibble), element_ (element) {} ACE_INLINE ACE_CDR::Fixed::Proxy & ACE_CDR::Fixed::Proxy::operator= (Octet val) { this->element_ = this->high_nibble_ ? (val << 4) | (this->element_ & 0xf) : ((this->element_ & 0xf0) | val); return *this; } ACE_INLINE ACE_CDR::Fixed::Proxy & ACE_CDR::Fixed::Proxy::operator+= (int rhs) { const Octet val = static_cast (*this + rhs); return *this = val; } ACE_INLINE ACE_CDR::Fixed::Proxy & ACE_CDR::Fixed::Proxy::operator-= (int rhs) { const Octet val = static_cast (*this - rhs); return *this = val; } ACE_INLINE ACE_CDR::Fixed::Proxy & ACE_CDR::Fixed::Proxy::operator++ () { const Octet val = static_cast (*this) + 1; return *this = val; } ACE_INLINE ACE_CDR::Fixed::Proxy & ACE_CDR::Fixed::Proxy::operator-- () { const Octet val = static_cast(*this) - 1; return *this = val; } ACE_INLINE ACE_CDR::Fixed::Proxy::operator ACE_CDR::Octet () const { return this->high_nibble_ ? this->element_ >> 4 : (this->element_ & 0xf); } ACE_INLINE ACE_CDR::Fixed::IteratorBase::IteratorBase (int digit) : digit_ (digit) {} ACE_INLINE bool ACE_CDR::Fixed::IteratorBase::high_nibble () const { return this->digit_ % 2 == 0; } ACE_INLINE ACE_CDR::Octet & ACE_CDR::Fixed::IteratorBase::storage (Fixed *outer) const { return outer->value_[15 - (this->digit_ + 1) / 2]; } ACE_INLINE ACE_CDR::Octet ACE_CDR::Fixed::IteratorBase::storage (const Fixed *outer) const { return outer->value_[15 - (this->digit_ + 1) / 2]; } ACE_INLINE bool ACE_CDR::Fixed::IteratorBase::compare (const IteratorBase &rhs) const { return this->digit_ == rhs.digit_; } ACE_INLINE ACE_CDR::Fixed::Iterator::Iterator (Fixed *outer, int digit) : IteratorBase (digit), outer_ (outer) {} ACE_INLINE ACE_CDR::Fixed::Proxy ACE_CDR::Fixed::Iterator::operator* () { return Proxy (this->high_nibble (), this->storage (this->outer_)); } ACE_INLINE ACE_CDR::Fixed::Iterator & ACE_CDR::Fixed::Iterator::operator+= (std::ptrdiff_t n) { this->digit_ += static_cast (n); return *this; } ACE_INLINE ACE_CDR::Fixed::Iterator & ACE_CDR::Fixed::Iterator::operator++ () { ++this->digit_; return *this; } ACE_INLINE ACE_CDR::Fixed::Iterator ACE_CDR::Fixed::Iterator::operator++ (int) { const Iterator cpy (*this); ++this->digit_; return cpy; } ACE_INLINE ACE_CDR::Fixed::Iterator & ACE_CDR::Fixed::Iterator::operator-- () { --this->digit_; return *this; } ACE_INLINE ACE_CDR::Fixed::Iterator ACE_CDR::Fixed::Iterator::operator-- (int) { const Iterator cpy (*this); --this->digit_; return cpy; } ACE_INLINE bool ACE_CDR::Fixed::Iterator::operator== (const Iterator &rhs) const { return this->compare (rhs); } ACE_INLINE bool ACE_CDR::Fixed::Iterator::operator!= (const Iterator &rhs) const { return !(*this == rhs); } ACE_INLINE ACE_CDR::Fixed::ConstIterator::ConstIterator (const Fixed *outer, int digit) : IteratorBase (digit), outer_ (outer) {} ACE_INLINE ACE_CDR::Octet ACE_CDR::Fixed::ConstIterator::operator* () { const Octet storage = this->storage (this->outer_); return this->high_nibble () ? storage >> 4 : (storage & 0xf); } ACE_INLINE ACE_CDR::Fixed::ConstIterator & ACE_CDR::Fixed::ConstIterator::operator+= (std::ptrdiff_t n) { this->digit_ += static_cast (n); return *this; } ACE_INLINE ACE_CDR::Fixed::ConstIterator & ACE_CDR::Fixed::ConstIterator::operator++ () { ++this->digit_; return *this; } ACE_INLINE ACE_CDR::Fixed::ConstIterator ACE_CDR::Fixed::ConstIterator::operator++ (int) { const ConstIterator cpy (*this); ++this->digit_; return cpy; } ACE_INLINE ACE_CDR::Fixed::ConstIterator & ACE_CDR::Fixed::ConstIterator::operator-- () { --this->digit_; return *this; } ACE_INLINE ACE_CDR::Fixed::ConstIterator ACE_CDR::Fixed::ConstIterator::operator-- (int) { const ConstIterator cpy (*this); --this->digit_; return cpy; } ACE_INLINE bool ACE_CDR::Fixed::ConstIterator::operator== (const ConstIterator &rhs) const { return this->compare (rhs); } ACE_INLINE bool ACE_CDR::Fixed::ConstIterator::operator!= (const ConstIterator &rhs) const { return !(*this == rhs); } ACE_INLINE ACE_CDR::Fixed::Iterator ACE_CDR::Fixed::begin () { return Iterator (this); } ACE_INLINE ACE_CDR::Fixed::ConstIterator ACE_CDR::Fixed::begin () const { return ConstIterator (this); } ACE_INLINE ACE_CDR::Fixed::ConstIterator ACE_CDR::Fixed::cbegin () const { return ConstIterator (this); } ACE_INLINE ACE_CDR::Fixed::Iterator ACE_CDR::Fixed::end () { return Iterator (this, this->digits_); } ACE_INLINE ACE_CDR::Fixed::ConstIterator ACE_CDR::Fixed::end () const { return ConstIterator (this, this->digits_); } ACE_INLINE ACE_CDR::Fixed::ConstIterator ACE_CDR::Fixed::cend () const { return ConstIterator (this, this->digits_); } ACE_INLINE ACE_CDR::Fixed ACE_CDR::Fixed::operator++ (int) { const Fixed cpy (*this); ++*this; return cpy; } ACE_INLINE ACE_CDR::Fixed ACE_CDR::Fixed::operator-- (int) { const Fixed cpy (*this); --*this; return cpy; } ACE_INLINE ACE_CDR::Fixed ACE_CDR::Fixed::operator+ () const { return *this; } ACE_INLINE ACE_CDR::Fixed ACE_CDR::Fixed::operator- () const { Fixed f = *this; f.value_[15] = (f.value_[15] & 0xf0) | (f.sign () ? POSITIVE : NEGATIVE); return f; } ACE_INLINE void ACE_CDR::Fixed::ltrim () { for (int i = this->digits_ - 1; i >= this->scale_ && i > 0; --i) if (this->digit (i) == 0) --this->digits_; else break; } ACE_INLINE ACE_CDR::Fixed operator+ (const ACE_CDR::Fixed &lhs, const ACE_CDR::Fixed &rhs) { ACE_CDR::Fixed f = lhs; f += rhs; return f; } ACE_INLINE ACE_CDR::Fixed operator- (const ACE_CDR::Fixed &lhs, const ACE_CDR::Fixed &rhs) { ACE_CDR::Fixed f = lhs; f -= rhs; return f; } ACE_INLINE ACE_CDR::Fixed operator* (const ACE_CDR::Fixed &lhs, const ACE_CDR::Fixed &rhs) { ACE_CDR::Fixed f = lhs; f *= rhs; return f; } ACE_INLINE ACE_CDR::Fixed operator/ (const ACE_CDR::Fixed &lhs, const ACE_CDR::Fixed &rhs) { ACE_CDR::Fixed f = lhs; f /= rhs; return f; } ACE_INLINE bool operator< (const ACE_CDR::Fixed &lhs, const ACE_CDR::Fixed &rhs) { return lhs.less (rhs); } ACE_INLINE bool operator> (const ACE_CDR::Fixed &lhs, const ACE_CDR::Fixed &rhs) { return rhs < lhs; } ACE_INLINE bool operator>= (const ACE_CDR::Fixed &lhs, const ACE_CDR::Fixed &rhs) { return !(lhs < rhs); } ACE_INLINE bool operator<= (const ACE_CDR::Fixed &lhs, const ACE_CDR::Fixed &rhs) { return !(rhs < lhs); } ACE_INLINE bool operator== (const ACE_CDR::Fixed &lhs, const ACE_CDR::Fixed &rhs) { return lhs.equal (rhs); } ACE_INLINE bool operator!= (const ACE_CDR::Fixed &lhs, const ACE_CDR::Fixed &rhs) { return !(lhs == rhs); } ACE_END_VERSIONED_NAMESPACE_DECL // ****************************************************************