libsst/ZTestSuite/Test-SST_Endian.cpp

/*
	Test-SST_Endian.cpp
	Author: Patrick Baggett <ptbaggett@762studios.com>
	Created: 4/18/2012

	Purpose: 

	Tests libsst-os byte swapping functions

	License:

	This program is free software. It comes without any warranty, to
	the extent permitted by applicable law. You can redistribute it
	and/or modify it under the terms of the Do What The Fuck You Want
	To Public License, Version 2, as published by Sam Hocevar. See
	http://sam.zoy.org/wtfpl/COPYING for more details.

*/

#include "ZUnitTest.hpp"

#include <SST/SST_Endian.h>

static const char* testHostEndian();
static const char* testBswap16();
static const char* testBswap32();
static const char* testBswap64();
static const char* testHost2BE();
static const char* testHost2LE();
static const char* testBE2Host();
static const char* testLE2Host();

#if SST_COMPILER == SST_COMPILER_MSVC
#pragma warning(push)
#pragma warning(disable:4127)
#endif

//List of unit tests
ZUnitTest SST_EndianUnitTests[] =
{
	{ "SST_Endian: GetHostEndianness()", testHostEndian },
	{ "SST_Endian: ByteSwap16()", testBswap16 },
	{ "SST_Endian: ByteSwap32()", testBswap32 },
	{ "SST_Endian: ByteSwap64()", testBswap64 },
	{ "SST_Endian: HostToBE[16/32/64]()", testHost2BE },
	{ "SST_Endian: HostToLE[16/32/64]()", testHost2LE },
	{ "SST_Endian: BEToHost[16/32/64]()", testBE2Host },
	{ "SST_Endian: LEToHost[16/32/64]()", testLE2Host }
};

DECLARE_ZTESTBLOCK(SST_Endian);

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

static const char* testHostEndian()
{
	#if defined(SST_BYTEORDER_LITTLE_ENDIAN)
	const SST_ByteOrder compileTimeEndianness = SST_LITTLE_ENDIAN;
	#else
	const SST_ByteOrder compileTimeEndianness = SST_BIG_ENDIAN;
	#endif
	
	TASSERT(compileTimeEndianness == SST_OS_GetHostEndianness(), "Compile-time byte-order does not match runtime byte-order");

	return ZTEST_SUCCESS;
}

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

static const char* testBswap16()
{
	const uint16_t v1 = 0xAABB;
	const uint16_t v2 = 0xBBAA;
	
	TASSERT(SST_OS_ByteSwap16(v1) == v2, "ByteSwap16() does not swap properly");


	TASSERT(SST_OS_ByteSwap16(SST_OS_ByteSwap16(v1)) == v1, "ByteSwap16() 2x doesn't return same value");
	
	
	return ZTEST_SUCCESS;
}

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

static const char* testBswap32()
{
	const uint32_t v1 = 0xAABBCCDD;
	const uint32_t v2 = 0xDDCCBBAA;
	
	TASSERT(SST_OS_ByteSwap32(v1) == v2, "ByteSwap32() does not swap properly");


	TASSERT(SST_OS_ByteSwap32(SST_OS_ByteSwap32(v1)) == v1, "ByteSwap32() 2x doesn't return same value");
	
	
	return ZTEST_SUCCESS;
}

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

static const char* testBswap64()
{
	const uint64_t v1 = 0xAABBCCDD00112233ull;
	const uint64_t v2 = 0x33221100DDCCBBAAull;
	
	TASSERT(SST_OS_ByteSwap64(v1) == v2, "ByteSwap64() does not swap properly");


	TASSERT(SST_OS_ByteSwap64(SST_OS_ByteSwap64(v1)) == v1, "ByteSwap64() 2x doesn't return same value");
	
	
	return ZTEST_SUCCESS;
}

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

static const char* testHost2BE()
{
	const uint16_t a1 = 0xAABB;
	const uint32_t b1 = 0xAABBCCDD;
	const uint64_t c1 = 0xAABBCCDD00112233ull;
	
	#if defined(SST_BYTEORDER_LITTLE_ENDIAN)
	const uint16_t a2 = 0xBBAA;
	const uint32_t b2 = 0xDDCCBBAA;
	const uint64_t c2 = 0x33221100DDCCBBAAull;
	#else
	const uint16_t a2 = a1;
	const uint32_t b2 = b1;
	const uint64_t c2 = c1;
	#endif

	TASSERT(SST_OS_HostToBE16(a1) == a2, "HostToBE16() incorrect");
	TASSERT(SST_OS_HostToBE32(b1) == b2, "HostToBE32() incorrect");
	TASSERT(SST_OS_HostToBE64(c1) == c2, "HostToBE64() incorrect");
	
	return ZTEST_SUCCESS;
}

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

static const char* testHost2LE()
{
	const uint16_t a1 = 0xAABB;
	const uint32_t b1 = 0xAABBCCDD;
	const uint64_t c1 = 0xAABBCCDD00112233ull;
	
	#if defined(SST_BYTEORDER_LITTLE_ENDIAN)
	const uint16_t a2 = a1;
	const uint32_t b2 = b1;
	const uint64_t c2 = c1;
	#else
	const uint16_t a2 = 0xBBAA;
	const uint32_t b2 = 0xDDCCBBAA;
	const uint64_t c2 = 0x33221100DDCCBBAAull;
	#endif


	TASSERT(SST_OS_HostToLE16(a1) == a2, "HostToLE16() incorrect");
	TASSERT(SST_OS_HostToLE32(b1) == b2, "HostToLE32() incorrect");
	TASSERT(SST_OS_HostToLE64(c1) == c2, "HostToLE64() incorrect");

	return ZTEST_SUCCESS;
}

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

static const char* testBE2Host()
{
	const uint16_t a1 = 0xAABB;
	const uint32_t b1 = 0xAABBCCDD;
	const uint64_t c1 = 0xAABBCCDD00112233ull;
	
	#if defined(SST_BYTEORDER_LITTLE_ENDIAN)
	const uint16_t a2 = 0xBBAA;
	const uint32_t b2 = 0xDDCCBBAA;
	const uint64_t c2 = 0x33221100DDCCBBAAull;
	#else
	const uint16_t a2 = a1;
	const uint32_t b2 = b1;
	const uint64_t c2 = c1;
	#endif

	TASSERT(SST_OS_BEToHost16(a1) == a2, "BEToHost16() incorrect");
	TASSERT(SST_OS_BEToHost32(b1) == b2, "BEToHost32() incorrect");
	TASSERT(SST_OS_BEToHost64(c1) == c2, "BEToHost64() incorrect");
	
	return ZTEST_SUCCESS;
}

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

static const char* testLE2Host()
{
	const uint16_t a1 = 0xAABB;
	const uint32_t b1 = 0xAABBCCDD;
	const uint64_t c1 = 0xAABBCCDD00112233ull;
	
	#if defined(SST_BYTEORDER_LITTLE_ENDIAN)
	const uint16_t a2 = a1;
	const uint32_t b2 = b1;
	const uint64_t c2 = c1;
	#else
	const uint16_t a2 = 0xBBAA;
	const uint32_t b2 = 0xDDCCBBAA;
	const uint64_t c2 = 0x33221100DDCCBBAAull;
	#endif

	TASSERT(SST_OS_LEToHost16(a1) == a2, "LEToHost16() incorrect");
	TASSERT(SST_OS_LEToHost32(b1) == b2, "LEToHost32() incorrect");
	TASSERT(SST_OS_LEToHost64(c1) == c2, "LEToHost64() incorrect");
	
	return ZTEST_SUCCESS;
}

#if SST_COMPILER == SST_COMPILER_MSVC
#pragma warning(pop)
#endif