base/bruno/byteorder.h - vendor/google/platform - Git at Google

 /*
  * libjingle
  * Copyright 2004--2005, Google Inc.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions are met:
  *
  *  1. Redistributions of source code must retain the above copyright notice,
  *     this list of conditions and the following disclaimer.
  *  2. 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.
  *  3. The name of the author may not be used to endorse or promote products
  *     derived from this software without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 AUTHOR 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.
  */

 #ifndef BRUNO_BASE_BYTEORDER_H__
 #define BRUNO_BASE_BYTEORDER_H__

 #ifdef POSIX
 #include <arpa/inet.h>
 #endif

 #ifdef WIN32
 #include <winsock2.h>
 #endif

 #include "basictypes.h"

 namespace bruno_base {

 // Reading and writing of little and big-endian numbers from memory
 // TODO: Add HostEndian #defines (HE)
 // TODO: Consider NetworkEndian as synonym for BigEndian, for clarity in use.
 // TODO: Consider creating optimized versions, such as direct read/writes of
 // integers in host-endian format, when the platform supports it.

 inline void Set8(void* memory, size_t offset, uint8 v) {
   static_cast<uint8*>(memory)[offset] = v;
 }
 inline uint8 Get8(const void* memory, size_t offset) {
   return static_cast<const uint8*>(memory)[offset];
 }

 inline void SetBE16(void* memory, uint16 v) {
   Set8(memory, 0, static_cast<uint8>(v >>  8));
   Set8(memory, 1, static_cast<uint8>(v >>  0));
 }
 inline void SetBE32(void* memory, uint32 v) {
   Set8(memory, 0, static_cast<uint8>(v >> 24));
   Set8(memory, 1, static_cast<uint8>(v >> 16));
   Set8(memory, 2, static_cast<uint8>(v >>  8));
   Set8(memory, 3, static_cast<uint8>(v >>  0));
 }
 inline void SetBE64(void* memory, uint64 v) {
   Set8(memory, 0, static_cast<uint8>(v >> 56));
   Set8(memory, 1, static_cast<uint8>(v >> 48));
   Set8(memory, 2, static_cast<uint8>(v >> 40));
   Set8(memory, 3, static_cast<uint8>(v >> 32));
   Set8(memory, 4, static_cast<uint8>(v >> 24));
   Set8(memory, 5, static_cast<uint8>(v >> 16));
   Set8(memory, 6, static_cast<uint8>(v >>  8));
   Set8(memory, 7, static_cast<uint8>(v >>  0));
 }
 inline uint16 GetBE16(const void* memory) {
   return (static_cast<uint16>(Get8(memory, 0)) << 8)
        | (static_cast<uint16>(Get8(memory, 1)) << 0);
 }
 inline uint32 GetBE32(const void* memory) {
   return (static_cast<uint32>(Get8(memory, 0)) << 24)
        | (static_cast<uint32>(Get8(memory, 1)) << 16)
        | (static_cast<uint32>(Get8(memory, 2)) <<  8)
        | (static_cast<uint32>(Get8(memory, 3)) <<  0);
 }
 inline uint64 GetBE64(const void* memory) {
   return (static_cast<uint64>(Get8(memory, 0)) << 56)
        | (static_cast<uint64>(Get8(memory, 1)) << 48)
        | (static_cast<uint64>(Get8(memory, 2)) << 40)
        | (static_cast<uint64>(Get8(memory, 3)) << 32)
        | (static_cast<uint64>(Get8(memory, 4)) << 24)
        | (static_cast<uint64>(Get8(memory, 5)) << 16)
        | (static_cast<uint64>(Get8(memory, 6)) <<  8)
        | (static_cast<uint64>(Get8(memory, 7)) <<  0);
 }

 inline void SetLE16(void* memory, uint16 v) {
   Set8(memory, 1, static_cast<uint8>(v >>  8));
   Set8(memory, 0, static_cast<uint8>(v >>  0));
 }
 inline void SetLE32(void* memory, uint32 v) {
   Set8(memory, 3, static_cast<uint8>(v >> 24));
   Set8(memory, 2, static_cast<uint8>(v >> 16));
   Set8(memory, 1, static_cast<uint8>(v >>  8));
   Set8(memory, 0, static_cast<uint8>(v >>  0));
 }
 inline void SetLE64(void* memory, uint64 v) {
   Set8(memory, 7, static_cast<uint8>(v >> 56));
   Set8(memory, 6, static_cast<uint8>(v >> 48));
   Set8(memory, 5, static_cast<uint8>(v >> 40));
   Set8(memory, 4, static_cast<uint8>(v >> 32));
   Set8(memory, 3, static_cast<uint8>(v >> 24));
   Set8(memory, 2, static_cast<uint8>(v >> 16));
   Set8(memory, 1, static_cast<uint8>(v >>  8));
   Set8(memory, 0, static_cast<uint8>(v >>  0));
 }
 inline uint16 GetLE16(const void* memory) {
   return (static_cast<uint16>(Get8(memory, 1)) << 8)
        | (static_cast<uint16>(Get8(memory, 0)) << 0);
 }
 inline uint32 GetLE32(const void* memory) {
   return (static_cast<uint32>(Get8(memory, 3)) << 24)
        | (static_cast<uint32>(Get8(memory, 2)) << 16)
        | (static_cast<uint32>(Get8(memory, 1)) <<  8)
        | (static_cast<uint32>(Get8(memory, 0)) <<  0);
 }
 inline uint64 GetLE64(const void* memory) {
   return (static_cast<uint64>(Get8(memory, 7)) << 56)
        | (static_cast<uint64>(Get8(memory, 6)) << 48)
        | (static_cast<uint64>(Get8(memory, 5)) << 40)
        | (static_cast<uint64>(Get8(memory, 4)) << 32)
        | (static_cast<uint64>(Get8(memory, 3)) << 24)
        | (static_cast<uint64>(Get8(memory, 2)) << 16)
        | (static_cast<uint64>(Get8(memory, 1)) <<  8)
        | (static_cast<uint64>(Get8(memory, 0)) <<  0);
 }

 // Check if the current host is big endian.
 inline bool IsHostBigEndian() {
   static const int number = 1;
   return (0 == *reinterpret_cast<const char*>(&number));
 }

 inline uint16 HostToNetwork16(uint16 n) {
   return htons(n);
 }

 inline uint32 HostToNetwork32(uint32 n) {
   return htonl(n);
 }

 inline uint64 HostToNetwork64(uint64 n) {
   // If the host is little endian, GetBE64 converts n to big network endian.
   return IsHostBigEndian() ? n : GetBE64(&n);
 }

 inline uint16 NetworkToHost16(uint16 n) {
   return ntohs(n);
 }

 inline uint32 NetworkToHost32(uint32 n) {
   return ntohl(n);
 }

 inline uint64 NetworkToHost64(uint64 n) {
   // If the host is little endian, GetBE64 converts n to little endian.
   return IsHostBigEndian() ? n : GetBE64(&n);
 }

 }  // namespace bruno_base

 #endif  // BRUNO_BASE_BYTEORDER_H__
	/*
	* libjingle
	* Copyright 2004--2005, Google Inc.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions are met:
	*
	* 1. Redistributions of source code must retain the above copyright notice,
	* this list of conditions and the following disclaimer.
	* 2. 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.
	* 3. The name of the author may not be used to endorse or promote products
	* derived from this software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 AUTHOR 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.
	*/

	#ifndef BRUNO_BASE_BYTEORDER_H__
	#define BRUNO_BASE_BYTEORDER_H__

	#ifdef POSIX
	#include <arpa/inet.h>
	#endif

	#ifdef WIN32
	#include <winsock2.h>
	#endif

	#include "basictypes.h"

	namespace bruno_base {

	// Reading and writing of little and big-endian numbers from memory
	// TODO: Add HostEndian #defines (HE)
	// TODO: Consider NetworkEndian as synonym for BigEndian, for clarity in use.
	// TODO: Consider creating optimized versions, such as direct read/writes of
	// integers in host-endian format, when the platform supports it.

	inline void Set8(void* memory, size_t offset, uint8 v) {
	static_cast<uint8*>(memory)[offset] = v;
	}
	inline uint8 Get8(const void* memory, size_t offset) {
	return static_cast<const uint8*>(memory)[offset];
	}

	inline void SetBE16(void* memory, uint16 v) {
	Set8(memory, 0, static_cast<uint8>(v >> 8));
	Set8(memory, 1, static_cast<uint8>(v >> 0));
	}
	inline void SetBE32(void* memory, uint32 v) {
	Set8(memory, 0, static_cast<uint8>(v >> 24));
	Set8(memory, 1, static_cast<uint8>(v >> 16));
	Set8(memory, 2, static_cast<uint8>(v >> 8));
	Set8(memory, 3, static_cast<uint8>(v >> 0));
	}
	inline void SetBE64(void* memory, uint64 v) {
	Set8(memory, 0, static_cast<uint8>(v >> 56));
	Set8(memory, 1, static_cast<uint8>(v >> 48));
	Set8(memory, 2, static_cast<uint8>(v >> 40));
	Set8(memory, 3, static_cast<uint8>(v >> 32));
	Set8(memory, 4, static_cast<uint8>(v >> 24));
	Set8(memory, 5, static_cast<uint8>(v >> 16));
	Set8(memory, 6, static_cast<uint8>(v >> 8));
	Set8(memory, 7, static_cast<uint8>(v >> 0));
	}
	inline uint16 GetBE16(const void* memory) {
	return (static_cast<uint16>(Get8(memory, 0)) << 8)
	\| (static_cast<uint16>(Get8(memory, 1)) << 0);
	}
	inline uint32 GetBE32(const void* memory) {
	return (static_cast<uint32>(Get8(memory, 0)) << 24)
	\| (static_cast<uint32>(Get8(memory, 1)) << 16)
	\| (static_cast<uint32>(Get8(memory, 2)) << 8)
	\| (static_cast<uint32>(Get8(memory, 3)) << 0);
	}
	inline uint64 GetBE64(const void* memory) {
	return (static_cast<uint64>(Get8(memory, 0)) << 56)
	\| (static_cast<uint64>(Get8(memory, 1)) << 48)
	\| (static_cast<uint64>(Get8(memory, 2)) << 40)
	\| (static_cast<uint64>(Get8(memory, 3)) << 32)
	\| (static_cast<uint64>(Get8(memory, 4)) << 24)
	\| (static_cast<uint64>(Get8(memory, 5)) << 16)
	\| (static_cast<uint64>(Get8(memory, 6)) << 8)
	\| (static_cast<uint64>(Get8(memory, 7)) << 0);
	}

	inline void SetLE16(void* memory, uint16 v) {
	Set8(memory, 1, static_cast<uint8>(v >> 8));
	Set8(memory, 0, static_cast<uint8>(v >> 0));
	}
	inline void SetLE32(void* memory, uint32 v) {
	Set8(memory, 3, static_cast<uint8>(v >> 24));
	Set8(memory, 2, static_cast<uint8>(v >> 16));
	Set8(memory, 1, static_cast<uint8>(v >> 8));
	Set8(memory, 0, static_cast<uint8>(v >> 0));
	}
	inline void SetLE64(void* memory, uint64 v) {
	Set8(memory, 7, static_cast<uint8>(v >> 56));
	Set8(memory, 6, static_cast<uint8>(v >> 48));
	Set8(memory, 5, static_cast<uint8>(v >> 40));
	Set8(memory, 4, static_cast<uint8>(v >> 32));
	Set8(memory, 3, static_cast<uint8>(v >> 24));
	Set8(memory, 2, static_cast<uint8>(v >> 16));
	Set8(memory, 1, static_cast<uint8>(v >> 8));
	Set8(memory, 0, static_cast<uint8>(v >> 0));
	}
	inline uint16 GetLE16(const void* memory) {
	return (static_cast<uint16>(Get8(memory, 1)) << 8)
	\| (static_cast<uint16>(Get8(memory, 0)) << 0);
	}
	inline uint32 GetLE32(const void* memory) {
	return (static_cast<uint32>(Get8(memory, 3)) << 24)
	\| (static_cast<uint32>(Get8(memory, 2)) << 16)
	\| (static_cast<uint32>(Get8(memory, 1)) << 8)
	\| (static_cast<uint32>(Get8(memory, 0)) << 0);
	}
	inline uint64 GetLE64(const void* memory) {
	return (static_cast<uint64>(Get8(memory, 7)) << 56)
	\| (static_cast<uint64>(Get8(memory, 6)) << 48)
	\| (static_cast<uint64>(Get8(memory, 5)) << 40)
	\| (static_cast<uint64>(Get8(memory, 4)) << 32)
	\| (static_cast<uint64>(Get8(memory, 3)) << 24)
	\| (static_cast<uint64>(Get8(memory, 2)) << 16)
	\| (static_cast<uint64>(Get8(memory, 1)) << 8)
	\| (static_cast<uint64>(Get8(memory, 0)) << 0);
	}

	// Check if the current host is big endian.
	inline bool IsHostBigEndian() {
	static const int number = 1;
	return (0 == reinterpret_cast<const char>(&number));
	}

	inline uint16 HostToNetwork16(uint16 n) {
	return htons(n);
	}

	inline uint32 HostToNetwork32(uint32 n) {
	return htonl(n);
	}

	inline uint64 HostToNetwork64(uint64 n) {
	// If the host is little endian, GetBE64 converts n to big network endian.
	return IsHostBigEndian() ? n : GetBE64(&n);
	}

	inline uint16 NetworkToHost16(uint16 n) {
	return ntohs(n);
	}

	inline uint32 NetworkToHost32(uint32 n) {
	return ntohl(n);
	}

	inline uint64 NetworkToHost64(uint64 n) {
	// If the host is little endian, GetBE64 converts n to little endian.
	return IsHostBigEndian() ? n : GetBE64(&n);
	}

	} // namespace bruno_base

	#endif // BRUNO_BASE_BYTEORDER_H__