Mercurial > sdl-ios-xcode
view src/stdlib/SDL_stdlib.c @ 1348:40d0975c1769
Date: Mon, 6 Feb 2006 11:41:04 -0500
From: "mystml@adinet.com.uy"
Subject: [SDL] ALT-F4 using DirectX
My game isn't getting SDL_QUIT when I press ALT-F4 using the DirectX
driver; it does get SDL_QUIT when I press the red X in the window.
I tracked this down to DX5_HandleMessage() in SDL_dx5events.c;
WM_SYSKEYDOWN is being trapped and ignored which causes Windows not to post
a WM_CLOSE, hence no SDL_QUIT is being generated.
The relevant code is this :
/* The keyboard is handled via DirectInput */
case WM_SYSKEYUP:
case WM_SYSKEYDOWN:
case WM_KEYUP:
case WM_KEYDOWN: {
/* Ignore windows keyboard messages */;
}
return(0);
If I comment the WM_SYSKEYDOWN case, it falls through DefWindowProc() and
ALT-F4 starts working again.
I'm not sure about the best way to fix this. One option is handling ALT-F4
as a particular case somehow, but doesn't sound good. Another option would
be to handle WM_SYSKEYDOWN separately and breaking instead of returning 0,
so processing falls through and goes to DefWindowProc which does The Right
Thing (TM). This seems to be the minimal change that makes ALT-F4 work and
normal keyboard input continues to work.
Does this sound reasonable? Am I overlooking anything? Do I submit a patch?
--Gabriel
author | Sam Lantinga <slouken@libsdl.org> |
---|---|
date | Wed, 08 Feb 2006 17:19:43 +0000 |
parents | 1b5fbaf1d2c6 |
children | 22f39393668a |
line wrap: on
line source
/* SDL - Simple DirectMedia Layer Copyright (C) 1997-2006 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA Sam Lantinga slouken@libsdl.org */ /* This file contains portable stdlib functions for SDL */ #include "SDL_stdlib.h" #ifndef HAVE_LIBC /* These are some C runtime intrinsics that need to be defined */ #if defined(_MSC_VER) /* Float to long */ void __declspec(naked) _ftol() { __asm { push ebp mov ebp,esp sub esp,20h and esp,0FFFFFFF0h fld st(0) fst dword ptr [esp+18h] fistp qword ptr [esp+10h] fild qword ptr [esp+10h] mov edx,dword ptr [esp+18h] mov eax,dword ptr [esp+10h] test eax,eax je integer_QnaN_or_zero arg_is_not_integer_QnaN: fsubp st(1),st test edx,edx jns positive fstp dword ptr [esp] mov ecx,dword ptr [esp] xor ecx,80000000h add ecx,7FFFFFFFh adc eax,0 mov edx,dword ptr [esp+14h] adc edx,0 jmp localexit positive: fstp dword ptr [esp] mov ecx,dword ptr [esp] add ecx,7FFFFFFFh sbb eax,0 mov edx,dword ptr [esp+14h] sbb edx,0 jmp localexit integer_QnaN_or_zero: mov edx,dword ptr [esp+14h] test edx,7FFFFFFFh jne arg_is_not_integer_QnaN fstp dword ptr [esp+18h] fstp dword ptr [esp+18h] localexit: leave ret } } void __declspec(naked) _ftol2_sse() { _ftol(); } /* 64-bit math operators for 32-bit systems */ void __declspec(naked) _allmul() { __asm { push ebp mov ebp,esp push edi push esi push ebx sub esp,0Ch mov eax,dword ptr [ebp+10h] mov edi,dword ptr [ebp+8] mov ebx,eax mov esi,eax sar esi,1Fh mov eax,dword ptr [ebp+8] mul ebx imul edi,esi mov ecx,edx mov dword ptr [ebp-18h],eax mov edx,dword ptr [ebp+0Ch] add ecx,edi imul ebx,edx mov eax,dword ptr [ebp-18h] lea ebx,[ebx+ecx] mov dword ptr [ebp-14h],ebx mov edx,dword ptr [ebp-14h] add esp,0Ch pop ebx pop esi pop edi pop ebp ret } } void __declspec(naked) _alldiv() { __asm { push edi push esi push ebx xor edi,edi mov eax,dword ptr [esp+14h] or eax,eax jge L1 inc edi mov edx,dword ptr [esp+10h] neg eax neg edx sbb eax,0 mov dword ptr [esp+14h],eax mov dword ptr [esp+10h],edx L1: mov eax,dword ptr [esp+1Ch] or eax,eax jge L2 inc edi mov edx,dword ptr [esp+18h] neg eax neg edx sbb eax,0 mov dword ptr [esp+1Ch],eax mov dword ptr [esp+18h],edx L2: or eax,eax jne L3 mov ecx,dword ptr [esp+18h] mov eax,dword ptr [esp+14h] xor edx,edx div ecx mov ebx,eax mov eax,dword ptr [esp+10h] div ecx mov edx,ebx jmp L4 L3: mov ebx,eax mov ecx,dword ptr [esp+18h] mov edx,dword ptr [esp+14h] mov eax,dword ptr [esp+10h] L5: shr ebx,1 rcr ecx,1 shr edx,1 rcr eax,1 or ebx,ebx jne L5 div ecx mov esi,eax mul dword ptr [esp+1Ch] mov ecx,eax mov eax,dword ptr [esp+18h] mul esi add edx,ecx jb L6 cmp edx,dword ptr [esp+14h] ja L6 jb L7 cmp eax,dword ptr [esp+10h] jbe L7 L6: dec esi L7: xor edx,edx mov eax,esi L4: dec edi jne L8 neg edx neg eax sbb edx,0 L8: pop ebx pop esi pop edi ret 10h } } void __declspec(naked) _aulldiv() { __asm { push ebx push esi mov eax,dword ptr [esp+18h] or eax,eax jne L1 mov ecx,dword ptr [esp+14h] mov eax,dword ptr [esp+10h] xor edx,edx div ecx mov ebx,eax mov eax,dword ptr [esp+0Ch] div ecx mov edx,ebx jmp L2 L1: mov ecx,eax mov ebx,dword ptr [esp+14h] mov edx,dword ptr [esp+10h] mov eax,dword ptr [esp+0Ch] L3: shr ecx,1 rcr ebx,1 shr edx,1 rcr eax,1 or ecx,ecx jne L3 div ebx mov esi,eax mul dword ptr [esp+18h] mov ecx,eax mov eax,dword ptr [esp+14h] mul esi add edx,ecx jb L4 cmp edx,dword ptr [esp+10h] ja L4 jb L5 cmp eax,dword ptr [esp+0Ch] jbe L5 L4: dec esi L5: xor edx,edx mov eax,esi L2: pop esi pop ebx ret 10h } } void __declspec(naked) _allrem() { __asm { push ebx push edi xor edi,edi mov eax,dword ptr [esp+10h] or eax,eax jge L1 inc edi mov edx,dword ptr [esp+0Ch] neg eax neg edx sbb eax,0 mov dword ptr [esp+10h],eax mov dword ptr [esp+0Ch],edx L1: mov eax,dword ptr [esp+18h] or eax,eax jge L2 mov edx,dword ptr [esp+14h] neg eax neg edx sbb eax,0 mov dword ptr [esp+18h],eax mov dword ptr [esp+14h],edx L2: or eax,eax jne L3 mov ecx,dword ptr [esp+14h] mov eax,dword ptr [esp+10h] xor edx,edx div ecx mov eax,dword ptr [esp+0Ch] div ecx mov eax,edx xor edx,edx dec edi jns L4 jmp L8 L3: mov ebx,eax mov ecx,dword ptr [esp+14h] mov edx,dword ptr [esp+10h] mov eax,dword ptr [esp+0Ch] L5: shr ebx,1 rcr ecx,1 shr edx,1 rcr eax,1 or ebx,ebx jne L5 div ecx mov ecx,eax mul dword ptr [esp+18h] xchg eax,ecx mul dword ptr [esp+14h] add edx,ecx jb L6 cmp edx,dword ptr [esp+10h] ja L6 jb L7 cmp eax,dword ptr [esp+0Ch] jbe L7 L6: sub eax,dword ptr [esp+14h] sbb edx,dword ptr [esp+18h] L7: sub eax,dword ptr [esp+0Ch] sbb edx,dword ptr [esp+10h] dec edi jns L8 L4: neg edx neg eax sbb edx,0 L8: pop edi pop ebx ret 10h } } void __declspec(naked) _aullrem() { __asm { push ebx mov eax,dword ptr [esp+14h] or eax,eax jne L1 mov ecx,dword ptr [esp+10h] mov eax,dword ptr [esp+0Ch] xor edx,edx div ecx mov eax,dword ptr [esp+8] div ecx mov eax,edx xor edx,edx jmp L2 L1: mov ecx,eax mov ebx,dword ptr [esp+10h] mov edx,dword ptr [esp+0Ch] mov eax,dword ptr [esp+8] L3: shr ecx,1 rcr ebx,1 shr edx,1 rcr eax,1 or ecx,ecx jne L3 div ebx mov ecx,eax mul dword ptr [esp+14h] xchg eax,ecx mul dword ptr [esp+10h] add edx,ecx jb L4 cmp edx,dword ptr [esp+0Ch] ja L4 jb L5 cmp eax,dword ptr [esp+8] jbe L5 L4: sub eax,dword ptr [esp+10h] sbb edx,dword ptr [esp+14h] L5: sub eax,dword ptr [esp+8] sbb edx,dword ptr [esp+0Ch] neg edx neg eax sbb edx,0 L2: pop ebx ret 10h } } void __declspec(naked) _alldvrm() { __asm { push edi push esi push ebp xor edi,edi xor ebp,ebp mov eax,dword ptr [esp+14h] or eax,eax jge L1 inc edi inc ebp mov edx,dword ptr [esp+10h] neg eax neg edx sbb eax,0 mov dword ptr [esp+14h],eax mov dword ptr [esp+10h],edx L1: mov eax,dword ptr [esp+1Ch] or eax,eax jge L2 inc edi mov edx,dword ptr [esp+18h] neg eax neg edx sbb eax,0 mov dword ptr [esp+1Ch],eax mov dword ptr [esp+18h],edx L2: or eax,eax jne L3 mov ecx,dword ptr [esp+18h] mov eax,dword ptr [esp+14h] xor edx,edx div ecx mov ebx,eax mov eax,dword ptr [esp+10h] div ecx mov esi,eax mov eax,ebx mul dword ptr [esp+18h] mov ecx,eax mov eax,esi mul dword ptr [esp+18h] add edx,ecx jmp L4 L3: mov ebx,eax mov ecx,dword ptr [esp+18h] mov edx,dword ptr [esp+14h] mov eax,dword ptr [esp+10h] L5: shr ebx,1 rcr ecx,1 shr edx,1 rcr eax,1 or ebx,ebx jne L5 div ecx mov esi,eax mul dword ptr [esp+1Ch] mov ecx,eax mov eax,dword ptr [esp+18h] mul esi add edx,ecx jb L6 cmp edx,dword ptr [esp+14h] ja L6 jb L7 cmp eax,dword ptr [esp+10h] jbe L7 L6: dec esi sub eax,dword ptr [esp+18h] sbb edx,dword ptr [esp+1Ch] L7: xor ebx,ebx L4: sub eax,dword ptr [esp+10h] sbb edx,dword ptr [esp+14h] dec ebp jns L9 neg edx neg eax sbb edx,0 L9: mov ecx,edx mov edx,ebx mov ebx,ecx mov ecx,eax mov eax,esi dec edi jne L8 neg edx neg eax sbb edx,0 L8: pop ebp pop esi pop edi ret 10h } } void __declspec(naked) _aulldvrm() { __asm { push esi mov eax,dword ptr [esp+14h] or eax,eax jne L1 mov ecx,dword ptr [esp+10h] mov eax,dword ptr [esp+0Ch] xor edx,edx div ecx mov ebx,eax mov eax,dword ptr [esp+8] div ecx mov esi,eax mov eax,ebx mul dword ptr [esp+10h] mov ecx,eax mov eax,esi mul dword ptr [esp+10h] add edx,ecx jmp L2 L1: mov ecx,eax mov ebx,dword ptr [esp+10h] mov edx,dword ptr [esp+0Ch] mov eax,dword ptr [esp+8] L3: shr ecx,1 rcr ebx,1 shr edx,1 rcr eax,1 or ecx,ecx jne L3 div ebx mov esi,eax mul dword ptr [esp+14h] mov ecx,eax mov eax,dword ptr [esp+10h] mul esi add edx,ecx jb L4 cmp edx,dword ptr [esp+0Ch] ja L4 jb L5 cmp eax,dword ptr [esp+8] jbe L5 L4: dec esi sub eax,dword ptr [esp+10h] sbb edx,dword ptr [esp+14h] L5: xor ebx,ebx L2: sub eax,dword ptr [esp+8] sbb edx,dword ptr [esp+0Ch] neg edx neg eax sbb edx,0 mov ecx,edx mov edx,ebx mov ebx,ecx mov ecx,eax mov eax,esi pop esi ret 10h } } void __declspec(naked) _allshl() { __asm { cmp cl,40h jae RETZERO cmp cl,20h jae MORE32 shld edx,eax,cl shl eax,cl ret MORE32: mov edx,eax xor eax,eax and cl,1Fh shl edx,cl ret RETZERO: xor eax,eax xor edx,edx ret } } void __declspec(naked) _aullshr() { __asm { cmp cl,40h jae RETZERO cmp cl,20h jae MORE32 shrd eax,edx,cl shr edx,cl ret MORE32: mov eax,edx xor edx,edx and cl,1Fh shr eax,cl ret RETZERO: xor eax,eax xor edx,edx ret } } #endif /* MSC_VER */ #endif /* !HAVE_LIBC */