Mercurial > sdl-ios-xcode
view test/testplatform.c @ 4391:07b330419439 SDL-1.2
Fixed bug #849 some more:
Tim Angus 2009-11-26 14:41:04 PST
Fix to the cursor not being responsive when the app doesn't have
SDL_APPINPUTFOCUS
The problems with the directx driver are similar to the ones I introduced in
the windib driver with r4478. Basically if the application did not have focus,
the mouse position is not updated. It's not really that the mouse cursor was
invisible, it's that it is stuck underneath another window where you can't see
it. This behaviour predates my r4478 changes and is the reason I unwittingly
broke the windib driver as I had been replicating the way the directx driver
deals with focus. Prior to r4478 the directx driver could not be used in
windowed mode, so the broken focusing would not have actually been observable.
Anyway, the attached patch makes the directx driver behaves like the windib
driver in terms of focus.
Time for 1.2.15? ;)
I've added an additional change of moving the calls to WIN_GrabInput that are
made on WM_ACTIVATE messages so that they only occur when the state is
SDL_APPINPUTFOCUS. When a fullscreen application is minimised using alt-tab, it
still receives WM_ACTIVATE messages when other applications are selected. If
WIN_GrabInput is called when the SDL application doesn't have input focus, bad
things happen; it shouldn't be being called at all.
I've also added a line to make sure that SDL_APPMOUSEFOCUS state is dropped
when the application is minimised following an alt-tab.
| author | Sam Lantinga <slouken@libsdl.org> |
|---|---|
| date | Fri, 11 Dec 2009 15:24:53 +0000 |
| parents | d83830711a5b |
| children |
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#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 __HAIKU__ /* Haiku must appear here before BeOS, since it also defines __BEOS__ */ "Haiku" #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; }