/*

Simple DirectMedia Layer

This software is provided 'as-is', without any express or implied

warranty. In no event will the authors be held liable for any damages

arising from the use of this software.

Permission is granted to anyone to use this software for any purpose,

including commercial applications, and to alter it and redistribute it

freely, subject to the following restrictions:

1. The origin of this software must not be misrepresented; you must not

claim that you wrote the original software. If you use this software

in a product, an acknowledgment in the product documentation would be

appreciated but is not required.

2. Altered source versions must be plainly marked as such, and must not be

misrepresented as being the original software.

3. This notice may not be removed or altered from any source distribution.

*/

#ifdef TEST_MAIN

#include "SDL_config.h"

#else

#include "../SDL_internal.h"

#endif

#if defined(__WIN32__)

#include "../core/windows/SDL_windows.h"

#endif

/* CPU feature detection for SDL */

#include "SDL_cpuinfo.h"

#ifdef HAVE_SYSCONF

#include <unistd.h>

#endif

#ifdef HAVE_SYSCTLBYNAME

#include <sys/types.h>

#include <sys/sysctl.h>

#endif

#if defined(__MACOSX__) && (defined(__ppc__) || defined(__ppc64__))

#include <sys/sysctl.h> /* For AltiVec check */

#elif defined(__OpenBSD__) && defined(__powerpc__)

#include <sys/param.h>

#include <sys/sysctl.h> /* For AltiVec check */

#include <machine/cpu.h>

#elif SDL_ALTIVEC_BLITTERS && HAVE_SETJMP

#include <signal.h>

#include <setjmp.h>

#endif

/*#include <asm/hwcap.h>*/

#ifndef AT_HWCAP

#define AT_HWCAP 16

#endif

#ifndef HWCAP_NEON

#define HWCAP_NEON (1 << 12)

#endif

#if defined HAVE_GETAUXVAL

#include <sys/auxv.h>

#else

#include <fcntl.h>

#endif

#endif

#define CPU_HAS_RDTSC 0x00000001

#define CPU_HAS_ALTIVEC 0x00000002

#define CPU_HAS_MMX 0x00000004

#define CPU_HAS_3DNOW 0x00000008

#define CPU_HAS_SSE 0x00000010

#define CPU_HAS_SSE2 0x00000020

#define CPU_HAS_SSE3 0x00000040

#define CPU_HAS_SSE41 0x00000100

#define CPU_HAS_SSE42 0x00000200

#define CPU_HAS_AVX 0x00000400

#define CPU_HAS_AVX2 0x00000800

#if SDL_ALTIVEC_BLITTERS && HAVE_SETJMP && !__MACOSX__ && !__OpenBSD__

/* This is the brute force way of detecting instruction sets...

the idea is borrowed from the libmpeg2 library - thanks!

*/

static jmp_buf jmpbuf;

static void

illegal_instruction(int sig)

{

longjmp(jmpbuf, 1);

}

#endif /* HAVE_SETJMP */

static int

CPU_haveCPUID(void)

{

int has_CPUID = 0;

/* *INDENT-OFF* */

#ifndef SDL_CPUINFO_DISABLED

#if defined(__GNUC__) && defined(i386)

__asm__ (

" pushfl # Get original EFLAGS \n"

" popl %%eax \n"

" movl %%eax,%%ecx \n"

" xorl $0x200000,%%eax # Flip ID bit in EFLAGS \n"

" pushl %%eax # Save new EFLAGS value on stack \n"

" popfl # Replace current EFLAGS value \n"

" pushfl # Get new EFLAGS \n"

" popl %%eax # Store new EFLAGS in EAX \n"

" xorl %%ecx,%%eax # Can not toggle ID bit, \n"

" jz 1f # Processor=80486 \n"

" movl $1,%0 # We have CPUID support \n"

"1: \n"

: "=m" (has_CPUID)

:

: "%eax", "%ecx"

);

#elif defined(__GNUC__) && defined(__x86_64__)

/* Technically, if this is being compiled under __x86_64__ then it has

CPUid by definition. But it's nice to be able to prove it. :) */

__asm__ (

" pushfq # Get original EFLAGS \n"

" popq %%rax \n"

" movq %%rax,%%rcx \n"

" xorl $0x200000,%%eax # Flip ID bit in EFLAGS \n"

" pushq %%rax # Save new EFLAGS value on stack \n"

" popfq # Replace current EFLAGS value \n"

" pushfq # Get new EFLAGS \n"

" popq %%rax # Store new EFLAGS in EAX \n"

" xorl %%ecx,%%eax # Can not toggle ID bit, \n"

" jz 1f # Processor=80486 \n"

" movl $1,%0 # We have CPUID support \n"

"1: \n"

: "=m" (has_CPUID)

:

: "%rax", "%rcx"

);

#elif (defined(_MSC_VER) && defined(_M_IX86)) || defined(__WATCOMC__)

__asm {

pushfd ; Get original EFLAGS

pop eax

mov ecx, eax

xor eax, 200000h ; Flip ID bit in EFLAGS

push eax ; Save new EFLAGS value on stack

popfd ; Replace current EFLAGS value

pushfd ; Get new EFLAGS

pop eax ; Store new EFLAGS in EAX

xor eax, ecx ; Can not toggle ID bit,

jz done ; Processor=80486

mov has_CPUID,1 ; We have CPUID support

done:

}

#elif defined(_MSC_VER) && defined(_M_X64)

has_CPUID = 1;

#elif defined(__sun) && defined(__i386)

__asm (

" pushfl \n"

" popl %eax \n"

" movl %eax,%ecx \n"

" xorl $0x200000,%eax \n"

" pushl %eax \n"

" popfl \n"

" pushfl \n"

" popl %eax \n"

" xorl %ecx,%eax \n"

" jz 1f \n"

" movl $1,-8(%ebp) \n"

"1: \n"

);

#elif defined(__sun) && defined(__amd64)

__asm (

" pushfq \n"

" popq %rax \n"

" movq %rax,%rcx \n"

" xorl $0x200000,%eax \n"

" pushq %rax \n"

" popfq \n"

" pushfq \n"

" popq %rax \n"

" xorl %ecx,%eax \n"

" jz 1f \n"

" movl $1,-8(%rbp) \n"

"1: \n"

);

#endif

#endif

/* *INDENT-ON* */

return has_CPUID;

}

#if defined(__GNUC__) && defined(i386)

#define cpuid(func, a, b, c, d) \

__asm__ __volatile__ ( \

" pushl %%ebx \n" \

" xorl %%ecx,%%ecx \n" \

" cpuid \n" \

" movl %%ebx, %%esi \n" \

" popl %%ebx \n" : \

"=a" (a), "=S" (b), "=c" (c), "=d" (d) : "a" (func))

#elif defined(__GNUC__) && defined(__x86_64__)

#define cpuid(func, a, b, c, d) \

__asm__ __volatile__ ( \

" pushq %%rbx \n" \

" xorq %%rcx,%%rcx \n" \

" cpuid \n" \

" movq %%rbx, %%rsi \n" \

" popq %%rbx \n" : \

"=a" (a), "=S" (b), "=c" (c), "=d" (d) : "a" (func))

#elif (defined(_MSC_VER) && defined(_M_IX86)) || defined(__WATCOMC__)

#define cpuid(func, a, b, c, d) \

__asm { \

__asm mov eax, func \

__asm xor ecx, ecx \

__asm cpuid \

__asm mov a, eax \

__asm mov b, ebx \

__asm mov c, ecx \

__asm mov d, edx \

}

#elif defined(_MSC_VER) && defined(_M_X64)

#define cpuid(func, a, b, c, d) \

{ \

int CPUInfo[4]; \

__cpuid(CPUInfo, func); \

a = CPUInfo[0]; \

b = CPUInfo[1]; \

c = CPUInfo[2]; \

d = CPUInfo[3]; \

}

#else

#define cpuid(func, a, b, c, d) \

a = b = c = d = 0

#endif

static int CPU_CPUIDFeatures[4];

static int CPU_CPUIDMaxFunction = 0;

static SDL_bool CPU_OSSavesYMM = SDL_FALSE;

static void

CPU_calcCPUIDFeatures(void)

static SDL_bool checked = SDL_FALSE;

if (!checked) {

checked = SDL_TRUE;

if (CPU_haveCPUID()) {

int a, b, c, d;

cpuid(0, a, b, c, d);

CPU_CPUIDMaxFunction = a;

if (CPU_CPUIDMaxFunction >= 1) {

cpuid(1, a, b, c, d);

CPU_CPUIDFeatures[0] = a;

CPU_CPUIDFeatures[1] = b;

CPU_CPUIDFeatures[2] = c;

CPU_CPUIDFeatures[3] = d;

/* Check to make sure we can call xgetbv */

if (c & 0x08000000) {

/* Call xgetbv to see if YMM register state is saved */

__asm

{

xor ecx, ecx

_asm _emit 0x0f _asm _emit 0x01 _asm _emit 0xd0

mov a, eax

}

CPU_OSSavesYMM = ((a & 6) == 6) ? SDL_TRUE : SDL_FALSE;

}

}

}

}

}

static int

CPU_haveAltiVec(void)

{

volatile int altivec = 0;

#ifndef SDL_CPUINFO_DISABLED

#if (defined(__MACOSX__) && (defined(__ppc__) || defined(__ppc64__))) || (defined(__OpenBSD__) && defined(__powerpc__))

#ifdef __OpenBSD__

int selectors[2] = { CTL_MACHDEP, CPU_ALTIVEC };

#else

int selectors[2] = { CTL_HW, HW_VECTORUNIT };

#endif

int hasVectorUnit = 0;

size_t length = sizeof(hasVectorUnit);

int error = sysctl(selectors, 2, &hasVectorUnit, &length, NULL, 0);

if (0 == error)

altivec = (hasVectorUnit != 0);

#elif SDL_ALTIVEC_BLITTERS && HAVE_SETJMP

void (*handler) (int sig);

handler = signal(SIGILL, illegal_instruction);

if (setjmp(jmpbuf) == 0) {

asm volatile ("mtspr 256, %0\n\t" "vand %%v0, %%v0, %%v0"::"r" (-1));

altivec = 1;

}

signal(SIGILL, handler);

#endif

#endif

return altivec;

}

{

int neon = 0;

int kv[2];

const int fd = open("/proc/self/auxv", O_RDONLY);

if (fd != -1) {

while (read(fd, kv, sizeof (kv)) == sizeof (kv)) {

if (kv[0] == AT_HWCAP) {

neon = ((kv[1] & HWCAP_NEON) == HWCAP_NEON);

break;

}

}

return neon;

}

#endif

static int

CPU_haveNEON(void)

{

/* The way you detect NEON is a privileged instruction on ARM, so you have

query the OS kernel in a platform-specific way. :/ */

return 1; /* ARMv8 always has non-optional NEON support. */

#elif defined(__APPLE__) && (__ARM_ARCH >= 7)

/* (note that sysctlbyname("hw.optional.neon") doesn't work!) */

return 1; /* all Apple ARMv7 chips and later have NEON. */

#elif (defined(__WINDOWS__) || defined(__WINRT__)) && defined(_M_ARM)

/* All WinRT ARM devices are required to support NEON, but just in case. */

#else

#warning SDL_HasNEON is not implemented for this ARM platform. Write me.

#endif

}

static int

CPU_have3DNow(void)

{

int a, b, c, d;

cpuid(0x80000000, a, b, c, d);

if (a >= 0x80000001) {

cpuid(0x80000001, a, b, c, d);

return (d & 0x80000000);

}

}

return 0;

}

#define CPU_haveRDTSC() (CPU_CPUIDFeatures[3] & 0x00000010)

#define CPU_haveMMX() (CPU_CPUIDFeatures[3] & 0x00800000)

#define CPU_haveSSE() (CPU_CPUIDFeatures[3] & 0x02000000)

#define CPU_haveSSE2() (CPU_CPUIDFeatures[3] & 0x04000000)

#define CPU_haveSSE3() (CPU_CPUIDFeatures[2] & 0x00000001)

#define CPU_haveSSE41() (CPU_CPUIDFeatures[2] & 0x00080000)

#define CPU_haveSSE42() (CPU_CPUIDFeatures[2] & 0x00100000)

#define CPU_haveAVX() (CPU_OSSavesYMM && (CPU_CPUIDFeatures[2] & 0x10000000))

static int

CPU_haveAVX2(void)

{

cpuid(7, a, b, c, d);

return (b & 0x00000020);

}

return 0;

}

static int SDL_CPUCount = 0;

int

SDL_GetCPUCount(void)

{

if (!SDL_CPUCount) {

#ifndef SDL_CPUINFO_DISABLED

#if defined(HAVE_SYSCONF) && defined(_SC_NPROCESSORS_ONLN)

if (SDL_CPUCount <= 0) {

SDL_CPUCount = (int)sysconf(_SC_NPROCESSORS_ONLN);

}

#endif

#ifdef HAVE_SYSCTLBYNAME

if (SDL_CPUCount <= 0) {

size_t size = sizeof(SDL_CPUCount);

sysctlbyname("hw.ncpu", &SDL_CPUCount, &size, NULL, 0);

}

#endif

#ifdef __WIN32__

if (SDL_CPUCount <= 0) {

SYSTEM_INFO info;

GetSystemInfo(&info);

SDL_CPUCount = info.dwNumberOfProcessors;

}

#endif

#endif

/* There has to be at least 1, right? :) */

if (SDL_CPUCount <= 0) {

SDL_CPUCount = 1;

}

}

return SDL_CPUCount;

}

/* Oh, such a sweet sweet trick, just not very useful. :) */

static const char *

SDL_GetCPUType(void)

{

static char SDL_CPUType[13];

if (!SDL_CPUType[0]) {

int i = 0;

CPU_calcCPUIDFeatures();

if (CPU_CPUIDMaxFunction > 0) { /* do we have CPUID at all? */

int a, b, c, d;

cpuid(0x00000000, a, b, c, d);

(void) a;

SDL_CPUType[i++] = (char)(b & 0xff); b >>= 8;

SDL_CPUType[i++] = (char)(b & 0xff); b >>= 8;

SDL_CPUType[i++] = (char)(b & 0xff); b >>= 8;

SDL_CPUType[i++] = (char)(b & 0xff);

SDL_CPUType[i++] = (char)(d & 0xff); d >>= 8;

SDL_CPUType[i++] = (char)(d & 0xff); d >>= 8;

SDL_CPUType[i++] = (char)(d & 0xff); d >>= 8;

SDL_CPUType[i++] = (char)(d & 0xff);

SDL_CPUType[i++] = (char)(c & 0xff); c >>= 8;

SDL_CPUType[i++] = (char)(c & 0xff); c >>= 8;

SDL_CPUType[i++] = (char)(c & 0xff); c >>= 8;

SDL_CPUType[i++] = (char)(c & 0xff);

}

if (!SDL_CPUType[0]) {

SDL_strlcpy(SDL_CPUType, "Unknown", sizeof(SDL_CPUType));

}

}

return SDL_CPUType;

}

#ifdef TEST_MAIN /* !!! FIXME: only used for test at the moment. */

static const char *

SDL_GetCPUName(void)

{

static char SDL_CPUName[48];

if (!SDL_CPUName[0]) {

int i = 0;

int a, b, c, d;

CPU_calcCPUIDFeatures();

if (CPU_CPUIDMaxFunction > 0) { /* do we have CPUID at all? */

cpuid(0x80000000, a, b, c, d);

if (a >= 0x80000004) {

cpuid(0x80000002, a, b, c, d);

SDL_CPUName[i++] = (char)(a & 0xff); a >>= 8;

SDL_CPUName[i++] = (char)(a & 0xff); a >>= 8;

SDL_CPUName[i++] = (char)(a & 0xff); a >>= 8;

SDL_CPUName[i++] = (char)(a & 0xff); a >>= 8;

SDL_CPUName[i++] = (char)(b & 0xff); b >>= 8;

SDL_CPUName[i++] = (char)(b & 0xff); b >>= 8;

SDL_CPUName[i++] = (char)(b & 0xff); b >>= 8;

SDL_CPUName[i++] = (char)(b & 0xff); b >>= 8;

SDL_CPUName[i++] = (char)(c & 0xff); c >>= 8;

SDL_CPUName[i++] = (char)(c & 0xff); c >>= 8;

SDL_CPUName[i++] = (char)(c & 0xff); c >>= 8;

SDL_CPUName[i++] = (char)(c & 0xff); c >>= 8;

SDL_CPUName[i++] = (char)(d & 0xff); d >>= 8;

SDL_CPUName[i++] = (char)(d & 0xff); d >>= 8;

SDL_CPUName[i++] = (char)(d & 0xff); d >>= 8;

SDL_CPUName[i++] = (char)(d & 0xff); d >>= 8;

cpuid(0x80000003, a, b, c, d);

SDL_CPUName[i++] = (char)(a & 0xff); a >>= 8;

SDL_CPUName[i++] = (char)(a & 0xff); a >>= 8;

SDL_CPUName[i++] = (char)(a & 0xff); a >>= 8;

SDL_CPUName[i++] = (char)(a & 0xff); a >>= 8;

SDL_CPUName[i++] = (char)(b & 0xff); b >>= 8;

SDL_CPUName[i++] = (char)(b & 0xff); b >>= 8;

SDL_CPUName[i++] = (char)(b & 0xff); b >>= 8;

SDL_CPUName[i++] = (char)(b & 0xff); b >>= 8;

SDL_CPUName[i++] = (char)(c & 0xff); c >>= 8;

SDL_CPUName[i++] = (char)(c & 0xff); c >>= 8;

SDL_CPUName[i++] = (char)(c & 0xff); c >>= 8;

SDL_CPUName[i++] = (char)(c & 0xff); c >>= 8;

SDL_CPUName[i++] = (char)(d & 0xff); d >>= 8;

SDL_CPUName[i++] = (char)(d & 0xff); d >>= 8;

SDL_CPUName[i++] = (char)(d & 0xff); d >>= 8;

SDL_CPUName[i++] = (char)(d & 0xff); d >>= 8;

cpuid(0x80000004, a, b, c, d);

SDL_CPUName[i++] = (char)(a & 0xff); a >>= 8;

SDL_CPUName[i++] = (char)(a & 0xff); a >>= 8;

SDL_CPUName[i++] = (char)(a & 0xff); a >>= 8;

SDL_CPUName[i++] = (char)(a & 0xff); a >>= 8;

SDL_CPUName[i++] = (char)(b & 0xff); b >>= 8;

SDL_CPUName[i++] = (char)(b & 0xff); b >>= 8;

SDL_CPUName[i++] = (char)(b & 0xff); b >>= 8;

SDL_CPUName[i++] = (char)(b & 0xff); b >>= 8;

SDL_CPUName[i++] = (char)(c & 0xff); c >>= 8;

SDL_CPUName[i++] = (char)(c & 0xff); c >>= 8;

SDL_CPUName[i++] = (char)(c & 0xff); c >>= 8;

SDL_CPUName[i++] = (char)(c & 0xff); c >>= 8;

SDL_CPUName[i++] = (char)(d & 0xff); d >>= 8;

SDL_CPUName[i++] = (char)(d & 0xff); d >>= 8;

SDL_CPUName[i++] = (char)(d & 0xff); d >>= 8;

SDL_CPUName[i++] = (char)(d & 0xff); d >>= 8;

}

}

if (!SDL_CPUName[0]) {

SDL_strlcpy(SDL_CPUName, "Unknown", sizeof(SDL_CPUName));

}

}

return SDL_CPUName;

}

#endif

int

SDL_GetCPUCacheLineSize(void)

{

const char *cpuType = SDL_GetCPUType();

int a, b, c, d;

(void) a; (void) b; (void) c; (void) d;

if (SDL_strcmp(cpuType, "GenuineIntel") == 0) {

cpuid(0x00000001, a, b, c, d);

return (((b >> 8) & 0xff) * 8);

} else if (SDL_strcmp(cpuType, "AuthenticAMD") == 0) {

cpuid(0x80000005, a, b, c, d);

return (c & 0xff);

} else {

/* Just make a guess here... */

return SDL_CACHELINE_SIZE;

}

}

static Uint32 SDL_CPUFeatures = 0xFFFFFFFF;

static Uint32

SDL_GetCPUFeatures(void)

{

if (SDL_CPUFeatures == 0xFFFFFFFF) {

SDL_CPUFeatures = 0;

if (CPU_haveRDTSC()) {

SDL_CPUFeatures |= CPU_HAS_RDTSC;

}

if (CPU_haveAltiVec()) {

SDL_CPUFeatures |= CPU_HAS_ALTIVEC;

}

if (CPU_haveMMX()) {

SDL_CPUFeatures |= CPU_HAS_MMX;

}

if (CPU_have3DNow()) {

SDL_CPUFeatures |= CPU_HAS_3DNOW;

}

if (CPU_haveSSE()) {

SDL_CPUFeatures |= CPU_HAS_SSE;

}

if (CPU_haveSSE2()) {

SDL_CPUFeatures |= CPU_HAS_SSE2;

}

if (CPU_haveSSE3()) {

SDL_CPUFeatures |= CPU_HAS_SSE3;

}

if (CPU_haveSSE41()) {

SDL_CPUFeatures |= CPU_HAS_SSE41;

}

if (CPU_haveSSE42()) {

SDL_CPUFeatures |= CPU_HAS_SSE42;

}

if (CPU_haveAVX()) {

SDL_CPUFeatures |= CPU_HAS_AVX;

}

if (CPU_haveAVX2()) {

SDL_CPUFeatures |= CPU_HAS_AVX2;

}

if (CPU_haveNEON()) {

SDL_CPUFeatures |= CPU_HAS_NEON;

}

}

return SDL_CPUFeatures;

}

#define CPU_FEATURE_AVAILABLE(f) ((SDL_GetCPUFeatures() & f) ? SDL_TRUE : SDL_FALSE)

SDL_bool SDL_HasRDTSC(void)

}

SDL_bool

SDL_HasAltiVec(void)

{

}

SDL_bool

SDL_HasMMX(void)

{

}

SDL_bool

SDL_Has3DNow(void)

{

}

SDL_bool

SDL_HasSSE(void)

{

}

SDL_bool

SDL_HasSSE2(void)

{

}

SDL_bool

SDL_HasSSE3(void)

{

}

SDL_bool

SDL_HasSSE41(void)

{

}

SDL_bool

SDL_HasSSE42(void)

{

}

SDL_bool

SDL_HasAVX(void)

{

}

SDL_bool

SDL_HasAVX2(void)

{

}

SDL_bool

SDL_HasNEON(void)

{

return CPU_FEATURE_AVAILABLE(CPU_HAS_NEON);

}

static int SDL_SystemRAM = 0;

int

SDL_GetSystemRAM(void)

{

if (!SDL_SystemRAM) {

#ifndef SDL_CPUINFO_DISABLED

#if defined(HAVE_SYSCONF) && defined(_SC_PHYS_PAGES) && defined(_SC_PAGESIZE)

if (SDL_SystemRAM <= 0) {

SDL_SystemRAM = (int)((Sint64)sysconf(_SC_PHYS_PAGES) * sysconf(_SC_PAGESIZE) / (1024*1024));

}

#endif

#ifdef HAVE_SYSCTLBYNAME

if (SDL_SystemRAM <= 0) {

#ifdef HW_REALMEM

int mib[2] = {CTL_HW, HW_REALMEM};

#else

/* might only report up to 2 GiB */

int mib[2] = {CTL_HW, HW_PHYSMEM};

#endif /* HW_REALMEM */

#else

int mib[2] = {CTL_HW, HW_MEMSIZE};

#endif /* __FreeBSD__ || __FreeBSD_kernel__ */

Uint64 memsize = 0;

size_t len = sizeof(memsize);

if (sysctl(mib, 2, &memsize, &len, NULL, 0) == 0) {

SDL_SystemRAM = (int)(memsize / (1024*1024));

}

}

#endif

#ifdef __WIN32__

if (SDL_SystemRAM <= 0) {

MEMORYSTATUSEX stat;

stat.dwLength = sizeof(stat);

if (GlobalMemoryStatusEx(&stat)) {

SDL_SystemRAM = (int)(stat.ullTotalPhys / (1024 * 1024));

}

}

#endif

#endif

}

return SDL_SystemRAM;

}

#ifdef TEST_MAIN

#include <stdio.h>

int

main()

{

printf("CPU count: %d\n", SDL_GetCPUCount());

printf("CPU type: %s\n", SDL_GetCPUType());

printf("CPU name: %s\n", SDL_GetCPUName());

printf("CacheLine size: %d\n", SDL_GetCPUCacheLineSize());

printf("RDTSC: %d\n", SDL_HasRDTSC());

printf("Altivec: %d\n", SDL_HasAltiVec());

printf("MMX: %d\n", SDL_HasMMX());

printf("3DNow: %d\n", SDL_Has3DNow());

printf("SSE: %d\n", SDL_HasSSE());

printf("SSE2: %d\n", SDL_HasSSE2());

printf("SSE3: %d\n", SDL_HasSSE3());

printf("SSE4.1: %d\n", SDL_HasSSE41());

printf("SSE4.2: %d\n", SDL_HasSSE42());

printf("AVX: %d\n", SDL_HasAVX());

printf("AVX2: %d\n", SDL_HasAVX2());

printf("RAM: %d MB\n", SDL_GetSystemRAM());

return 0;

}

#endif /* TEST_MAIN */

/* vi: set ts=4 sw=4 expandtab: */