view test/testplatform.c @ 4106:12bb6311fd5d SDL-1.2

Hans de Goede fixed bug #495 When running boswars: http://www.boswars.org/ on a machine with intel integrathed graphics it crashes when it tries to play the initial theora splashscreen video: X Error of failed request: BadAlloc (insufficient resources for operation) Major opcode of failed request: 140 (XVideo) Minor opcode of failed request: 19 () Serial number of failed request: 25 Current serial number in output stream: 26 boswars: xcb_xlib.c:41: xcb_xlib_lock: Assertion `!c->xlib.lock' failed. Aborted I recognized this problem from a few years back, when I encountered it while working on the Xv blitter for xmame. The problem is that for some reason creation the Xvport and XvImage succeeds, and failure (lack of resources / hw capability?) is only indicated during the first XvPut[Shm]Image. I've written a patch for SDL using the work around for this I developed for xmame (and which is still used successfully in xmame after many years of usage). I'll admit it isn't very pretty, but after investigating several possibilities this was the best option, any other fixes would need changes to the SDL api and abi.
author Sam Lantinga <slouken@libsdl.org>
date Sat, 29 Dec 2007 02:23:48 +0000
parents 6d2e1961661a
children 7a4c511c980a
line wrap: on
line source


#include <stdio.h>

#include "SDL.h"
#include "SDL_endian.h"
#include "SDL_cpuinfo.h"

/*
 * Watcom C flags these as Warning 201: "Unreachable code" if you just
 *  compare them directly, so we push it through a function to keep the
 *  compiler quiet.  --ryan.
 */
static int badsize(size_t sizeoftype, size_t hardcodetype)
{
    return sizeoftype != hardcodetype;
}

int TestTypes(SDL_bool verbose)
{
	int error = 0;

	if ( badsize(sizeof(Uint8), 1) ) {
		if ( verbose )
			printf("sizeof(Uint8) != 1, instead = %ul\n",
								sizeof(Uint8));
		++error;
	}
	if ( badsize(sizeof(Uint16), 2) ) {
		if ( verbose )
			printf("sizeof(Uint16) != 2, instead = %ul\n",
								sizeof(Uint16));
		++error;
	}
	if ( badsize(sizeof(Uint32), 4) ) {
		if ( verbose )
			printf("sizeof(Uint32) != 4, instead = %ul\n",
								sizeof(Uint32));
		++error;
	}
#ifdef SDL_HAS_64BIT_TYPE
	if ( badsize(sizeof(Uint64), 8) ) {
		if ( verbose )
			printf("sizeof(Uint64) != 8, instead = %ul\n",
								sizeof(Uint64));
		++error;
	}
#else
	if ( verbose ) {
		printf("WARNING: No 64-bit datatype on this platform\n");
	}
#endif
	if ( verbose && !error )
		printf("All data types are the expected size.\n");

	return( error ? 1 : 0 );
}

int TestEndian(SDL_bool verbose)
{
	int error = 0;
	Uint16 value = 0x1234;
	int real_byteorder;
	Uint16 value16 = 0xCDAB;
	Uint16 swapped16 = 0xABCD;
	Uint32 value32 = 0xEFBEADDE;
	Uint32 swapped32 = 0xDEADBEEF;
#ifdef SDL_HAS_64BIT_TYPE
	Uint64 value64, swapped64;
	value64 = 0xEFBEADDE;
	value64 <<= 32;
	value64 |= 0xCDAB3412;
	swapped64 = 0x1234ABCD;
	swapped64 <<= 32;
	swapped64 |= 0xDEADBEEF;
#endif

	if ( verbose ) {
		printf("Detected a %s endian machine.\n",
			(SDL_BYTEORDER == SDL_LIL_ENDIAN) ? "little" : "big");
	}
	if ( (*((char *)&value) >> 4) == 0x1 ) {
		real_byteorder = SDL_BIG_ENDIAN;
	} else {
		real_byteorder = SDL_LIL_ENDIAN;
	}
	if ( real_byteorder != SDL_BYTEORDER ) {
		if ( verbose ) {
			printf("Actually a %s endian machine!\n",
				(real_byteorder == SDL_LIL_ENDIAN) ? "little" : "big");
		}
		++error;
	}
	if ( verbose ) {
		printf("Value 16 = 0x%X, swapped = 0x%X\n", value16, SDL_Swap16(value16));
	}
	if ( SDL_Swap16(value16) != swapped16 ) {
		if ( verbose ) {
			printf("16 bit value swapped incorrectly!\n");
		}
		++error;
	}
	if ( verbose ) {
		printf("Value 32 = 0x%X, swapped = 0x%X\n", value32, SDL_Swap32(value32));
	}
	if ( SDL_Swap32(value32) != swapped32 ) {
		if ( verbose ) {
			printf("32 bit value swapped incorrectly!\n");
		}
		++error;
	}
#ifdef SDL_HAS_64BIT_TYPE
	if ( verbose ) {
#ifdef _MSC_VER
		printf("Value 64 = 0x%I64X, swapped = 0x%I64X\n", value64, SDL_Swap64(value64));
#else
		printf("Value 64 = 0x%llX, swapped = 0x%llX\n", value64, SDL_Swap64(value64));
#endif
	}
	if ( SDL_Swap64(value64) != swapped64 ) {
		if ( verbose ) {
			printf("64 bit value swapped incorrectly!\n");
		}
		++error;
	}
#endif
	return( error ? 1 : 0 );
}


int TestCPUInfo(SDL_bool verbose)
{
	if ( verbose ) {
		printf("RDTSC %s\n", SDL_HasRDTSC() ? "detected" : "not detected");
		printf("MMX %s\n", SDL_HasMMX() ? "detected" : "not detected");
		printf("MMX Ext %s\n", SDL_HasMMXExt() ? "detected" : "not detected");
		printf("3DNow %s\n", SDL_Has3DNow() ? "detected" : "not detected");
		printf("3DNow Ext %s\n", SDL_Has3DNowExt() ? "detected" : "not detected");
		printf("SSE %s\n", SDL_HasSSE() ? "detected" : "not detected");
		printf("SSE2 %s\n", SDL_HasSSE2() ? "detected" : "not detected");
		printf("AltiVec %s\n", SDL_HasAltiVec() ? "detected" : "not detected");
	}
	return(0);
}

int main(int argc, char *argv[])
{
	SDL_bool verbose = SDL_TRUE;
	int status = 0;

	if ( argv[1] && (SDL_strcmp(argv[1], "-q") == 0) ) {
		verbose = SDL_FALSE;
	}
	if ( verbose ) {
		printf("This system is running %s\n",
#if __AIX__
			"AIX"
#elif __BEOS__
			"BeOS"
#elif __BSDI__
			"BSDI"
#elif __DREAMCAST__
			"Dreamcast"
#elif __FREEBSD__
			"FreeBSD"
#elif __HPUX__
			"HP-UX"
#elif __IRIX__
			"Irix"
#elif __LINUX__
			"Linux"
#elif __MINT__
			"Atari MiNT"
#elif __MACOS__
			"MacOS Classic"
#elif __MACOSX__
			"Mac OS X"
#elif __NETBSD__
			"NetBSD"
#elif __OPENBSD__
			"OpenBSD"
#elif __OS2__
			"OS/2"
#elif __OSF__
			"OSF/1"
#elif __QNXNTO__
			"QNX Neutrino"
#elif __RISCOS__
			"RISC OS"
#elif __SOLARIS__
			"Solaris"
#elif __WIN32__
#ifdef _WIN32_WCE
			"Windows CE"
#else
			"Windows"
#endif
#else
			"an unknown operating system! (see SDL_platform.h)"
#endif
		);
	}

	status += TestTypes(verbose);
	status += TestEndian(verbose);
	status += TestCPUInfo(verbose);
	return status;
}