//========= Copyright Valve Corporation, All rights reserved. ============// // // Purpose: win32 dependant ASM code for CPU capability detection // // $Workfile: $ // $NoKeywords: $ //=============================================================================// #if defined( _X360 ) || defined( WIN64 ) bool CheckMMXTechnology(void) { return false; } bool CheckSSETechnology(void) { return false; } bool CheckSSE2Technology(void) { return false; } bool Check3DNowTechnology(void) { return false; } #elif defined( _WIN32 ) && !defined( _X360 ) #pragma optimize( "", off ) #pragma warning( disable: 4800 ) //'int' : forcing value to bool 'true' or 'false' (performance warning) // stuff from windows.h #ifndef EXCEPTION_EXECUTE_HANDLER #define EXCEPTION_EXECUTE_HANDLER 1 #endif bool CheckMMXTechnology(void) { int retval = true; unsigned int RegEDX = 0; #ifdef CPUID _asm pushad; #endif __try { _asm { #ifdef CPUID xor edx, edx // Clue the compiler that EDX is about to be used. #endif mov eax, 1 // set up CPUID to return processor version and features // 0 = vendor string, 1 = version info, 2 = cache info CPUID // code bytes = 0fh, 0a2h mov RegEDX, edx // features returned in edx } } __except(EXCEPTION_EXECUTE_HANDLER) { retval = false; } // If CPUID not supported, then certainly no MMX extensions. if (retval) { if (RegEDX & 0x800000) // bit 23 is set for MMX technology { __try { // try executing the MMX instruction "emms" _asm EMMS } __except(EXCEPTION_EXECUTE_HANDLER) { retval = false; } } else retval = false; // processor supports CPUID but does not support MMX technology // if retval == 0 here, it means the processor has MMX technology but // floating-point emulation is on; so MMX technology is unavailable } #ifdef CPUID _asm popad; #endif return retval; } bool CheckSSETechnology(void) { int retval = true; unsigned int RegEDX = 0; #ifdef CPUID _asm pushad; #endif // Do we have support for the CPUID function? __try { _asm { #ifdef CPUID xor edx, edx // Clue the compiler that EDX is about to be used. #endif mov eax, 1 // set up CPUID to return processor version and features // 0 = vendor string, 1 = version info, 2 = cache info CPUID // code bytes = 0fh, 0a2h mov RegEDX, edx // features returned in edx } } __except(EXCEPTION_EXECUTE_HANDLER) { retval = false; } // If CPUID not supported, then certainly no SSE extensions. if (retval) { // Do we have support for SSE in this processor? if ( RegEDX & 0x2000000L ) // bit 25 is set for SSE technology { // Make sure that SSE is supported by executing an inline SSE instruction // BUGBUG, FIXME - Visual C Version 6.0 does not support SSE inline code YET (No macros from Intel either) // Fix this if VC7 supports inline SSE instructinons like "xorps" as shown below. #if 1 __try { _asm { // Attempt execution of a SSE instruction to make sure OS supports SSE FPU context switches xorps xmm0, xmm0 // This will work on Win2k+ (Including masking SSE FPU exception to "normalized" values) // This will work on Win98+ (But no "masking" of FPU exceptions provided) } } __except(EXCEPTION_EXECUTE_HANDLER) #endif { retval = false; } } else retval = false; } #ifdef CPUID _asm popad; #endif return retval; } bool CheckSSE2Technology(void) { int retval = true; unsigned int RegEDX = 0; #ifdef CPUID _asm pushad; #endif // Do we have support for the CPUID function? __try { _asm { #ifdef CPUID xor edx, edx // Clue the compiler that EDX is about to be used. #endif mov eax, 1 // set up CPUID to return processor version and features // 0 = vendor string, 1 = version info, 2 = cache info CPUID // code bytes = 0fh, 0a2h mov RegEDX, edx // features returned in edx } } __except(EXCEPTION_EXECUTE_HANDLER) { retval = false; } // If CPUID not supported, then certainly no SSE extensions. if (retval) { // Do we have support for SSE in this processor? if ( RegEDX & 0x04000000 ) // bit 26 is set for SSE2 technology { // Make sure that SSE is supported by executing an inline SSE instruction __try { _asm { // Attempt execution of a SSE2 instruction to make sure OS supports SSE FPU context switches xorpd xmm0, xmm0 } } __except(EXCEPTION_EXECUTE_HANDLER) { retval = false; } } else retval = false; } #ifdef CPUID _asm popad; #endif return retval; } bool Check3DNowTechnology(void) { int retval = true; unsigned int RegEAX = 0; #ifdef CPUID _asm pushad; #endif // First see if we can execute CPUID at all __try { _asm { #ifdef CPUID // xor edx, edx // Clue the compiler that EDX is about to be used. #endif mov eax, 0x80000000 // setup CPUID to return whether AMD >0x80000000 function are supported. // 0x80000000 = Highest 0x80000000+ function, 0x80000001 = 3DNow support CPUID // code bytes = 0fh, 0a2h mov RegEAX, eax // result returned in eax } } __except(EXCEPTION_EXECUTE_HANDLER) { retval = false; } // If CPUID not supported, then there is definitely no 3DNow support if (retval) { // Are there any "higher" AMD CPUID functions? if (RegEAX > 0x80000000L ) { __try { _asm { mov eax, 0x80000001 // setup to test for CPU features CPUID // code bytes = 0fh, 0a2h shr edx, 31 // If bit 31 is set, we have 3DNow support! mov retval, edx // Save the return value for end of function } } __except(EXCEPTION_EXECUTE_HANDLER) { retval = false; } } else { // processor supports CPUID but does not support AMD CPUID functions retval = false; } } #ifdef CPUID _asm popad; #endif return retval; } #pragma optimize( "", on ) #endif // _WIN32