Mercurial > sdl-ios-xcode
view src/video/xbios/SDL_xbios.c @ 4384:6800e2560310 SDL-1.2
Fixed bugs #882 and 865, re-opening bug #634
Ronald Lamprecht to SDL
Hi,
Sam Lantinga wrote:
The problem with that fix is that it breaks IME events again. Maybe
we can handle keyboard events differently to prevent this issue?
Spending an hour reading MSDN, analysing SDL and another hour testing the reality on XP I am really wondering how patch r4990 could have ever worked in any situation. It's main effect is to break the unicode translation and causing spurious activation events!
Why does TranslateMessage(&msg) nothing useful? Simply because it does not affect "msg" at all! All keyboard events are dispatched without the slightest change (see MSDN). TranslateMessage() just appends additional WM_CHAR, WM_DEADCHAR, WM_SYSCHAR, WM_SYSDEADCHAR event messages to the queue. But I could not find any SDL event handling routine that catches these events and transforms them to proper SDL keyevents while eliminating the corresponding WM_KEYDOWN, etc. events. Thus any IME input like the '@' generated by "Alt + 6(Numpad) + 4(Numpad)" is simply lost.
But the situation is even worse! Up to r4990 the TranslateKey()/ToUnicode() calls did evaluate dead keys and did deliver proper key events for subsequent key strokes like '´' + 'e' resulting in 'é'. ToUnicode() needs proper key state informations to be able to handle these substitutions. But unfortunatly TranslateMessage() needs the same state information and eats it up while generating the WM_CHAR messages :-( Thus the current 1.2.14 breakes the partial IME support of previous releases, too.
The key state race condition between ToUnicode() and TranslateMessage() requires to avoid any ToUnicode() usage for receiving proper WM_CHAR, etc. messages generated by TranslateMessage(). (Yes - the '@' and 'é' appear as WM_CHAR messages when unicode is switched off).
The spurious SDL activation events are *not* caused by additional WM_ACTIVATE Windows messages! Besides DIB_HandleMessage() SDL_PrivateAppActive() is called by another source which I am not yet aware of - any hints?
Thus I do strongly recommend the deletion of the TranslateMessage(&msg) call as a quick fix.
A proper support of unicode and IME requires a clean SDL keyboard input concept first. Which SDL keyboards events should be transmitted to the app when the user presses '´' + 'e' ? Within the current unicode handling the first key stroke is hidden. Even though ToUnicode() delivers the proper key SDL does ignore it in TranslateKey(). Just the composed key event is transmitted to the app. That is what you expect for text input, but the app can no longer use keys like '^' as a key button because it will never receive a key event for it!
With a given concept it seems to be necessary to regenerate SDL key events out of the WM_CHAR, etc. events and to drop all related direct WM_KEYDOWN, etc. events while the remaining basic WM_KEYDOWN, etc. events would still have to result in SDL key events.
Anyway the source of the spurious WM_ACTIVATE should be located to avoid future trouble.
Greets,
Ronald
| author | Sam Lantinga <slouken@libsdl.org> |
|---|---|
| date | Tue, 17 Nov 2009 04:59:13 +0000 |
| parents | 7b27a7fc4fdf |
| children |
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/* SDL - Simple DirectMedia Layer Copyright (C) 1997-2009 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 */ #include "SDL_config.h" /* * Xbios SDL video driver * * Patrice Mandin */ #include <sys/stat.h> #include <unistd.h> /* Mint includes */ #include <mint/cookie.h> #include <mint/osbind.h> #include <mint/falcon.h> #include "SDL_video.h" #include "SDL_mouse.h" #include "../SDL_sysvideo.h" #include "../SDL_pixels_c.h" #include "../../events/SDL_events_c.h" #include "../ataricommon/SDL_ataric2p_s.h" #include "../ataricommon/SDL_atarievents_c.h" #include "../ataricommon/SDL_atarimxalloc_c.h" #include "../ataricommon/SDL_atarigl_c.h" #include "SDL_xbios.h" #include "SDL_xbios_blowup.h" #include "SDL_xbios_centscreen.h" #include "SDL_xbios_sb3.h" #include "SDL_xbios_tveille.h" #include "SDL_xbios_milan.h" #define XBIOS_VID_DRIVER_NAME "xbios" #ifndef C_fVDI #define C_fVDI 0x66564449L #endif /* Debug print info */ #if 0 #define DEBUG_PRINT(what) \ { \ printf what; \ } #define DEBUG_VIDEO_XBIOS 1 #else #define DEBUG_PRINT(what) #undef DEBUG_VIDEO_XBIOS #endif /* Initialization/Query functions */ static int XBIOS_VideoInit(_THIS, SDL_PixelFormat *vformat); static SDL_Rect **XBIOS_ListModes(_THIS, SDL_PixelFormat *format, Uint32 flags); static SDL_Surface *XBIOS_SetVideoMode(_THIS, SDL_Surface *current, int width, int height, int bpp, Uint32 flags); static int XBIOS_SetColors(_THIS, int firstcolor, int ncolors, SDL_Color *colors); static void XBIOS_VideoQuit(_THIS); /* Hardware surface functions */ static int XBIOS_AllocHWSurface(_THIS, SDL_Surface *surface); static int XBIOS_LockHWSurface(_THIS, SDL_Surface *surface); static int XBIOS_FlipHWSurface(_THIS, SDL_Surface *surface); static void XBIOS_UnlockHWSurface(_THIS, SDL_Surface *surface); static void XBIOS_FreeHWSurface(_THIS, SDL_Surface *surface); static void XBIOS_UpdateRects(_THIS, int numrects, SDL_Rect *rects); #if SDL_VIDEO_OPENGL /* OpenGL functions */ static void XBIOS_GL_SwapBuffers(_THIS); #endif /* To setup palette */ static unsigned short TT_palette[256]; static unsigned long F30_palette[256]; /* Default list of video modes */ static const xbiosmode_t stmodes[1]={ {ST_LOW>>8,320,200,4, XBIOSMODE_C2P} }; static const xbiosmode_t ttmodes[2]={ {TT_LOW,320,480,8, XBIOSMODE_C2P}, {TT_LOW,320,240,8, XBIOSMODE_C2P|XBIOSMODE_DOUBLELINE} }; static const xbiosmode_t falconrgbmodes[16]={ {BPS16|COL80|OVERSCAN|VERTFLAG,768,480,16,0}, {BPS16|COL80|OVERSCAN,768,240,16,0}, {BPS16|COL80|VERTFLAG,640,400,16,0}, {BPS16|COL80,640,200,16,0}, {BPS16|OVERSCAN|VERTFLAG,384,480,16,0}, {BPS16|OVERSCAN,384,240,16,0}, {BPS16|VERTFLAG,320,400,16,0}, {BPS16,320,200,16,0}, {BPS8|COL80|OVERSCAN|VERTFLAG,768,480,8,XBIOSMODE_C2P}, {BPS8|COL80|OVERSCAN,768,240,8,XBIOSMODE_C2P}, {BPS8|COL80|VERTFLAG,640,400,8,XBIOSMODE_C2P}, {BPS8|COL80,640,200,8,XBIOSMODE_C2P}, {BPS8|OVERSCAN|VERTFLAG,384,480,8,XBIOSMODE_C2P}, {BPS8|OVERSCAN,384,240,8,XBIOSMODE_C2P}, {BPS8|VERTFLAG,320,400,8,XBIOSMODE_C2P}, {BPS8,320,200,8,XBIOSMODE_C2P} }; static const xbiosmode_t falconvgamodes[6]={ {BPS16,320,480,16,0}, {BPS16|VERTFLAG,320,240,16,0}, {BPS8|COL80,640,480,8,XBIOSMODE_C2P}, {BPS8|COL80|VERTFLAG,640,240,8,XBIOSMODE_C2P}, {BPS8,320,480,8,XBIOSMODE_C2P}, {BPS8|VERTFLAG,320,240,8,XBIOSMODE_C2P} }; /* Xbios driver bootstrap functions */ static int XBIOS_Available(void) { unsigned long cookie_vdo, cookie_mil, cookie_hade, cookie_scpn; unsigned long cookie_fvdi; const char *envr = SDL_getenv("SDL_VIDEODRIVER"); /* Milan/Hades Atari clones do not have an Atari video chip */ if ( /*(Getcookie(C__MIL, &cookie_mil) == C_FOUND) ||*/ (Getcookie(C_hade, &cookie_hade) == C_FOUND) ) { return 0; } /* fVDI means graphic card, so no Xbios with it */ if (Getcookie(C_fVDI, &cookie_fvdi) == C_FOUND) { if (!envr) { return 0; } if (SDL_strcmp(envr, XBIOS_VID_DRIVER_NAME)!=0) { return 0; } /* Except if we force Xbios usage, through env var */ } /* Cookie _VDO present ? if not, assume ST machine */ if (Getcookie(C__VDO, &cookie_vdo) != C_FOUND) { cookie_vdo = VDO_ST << 16; } /* Test if we have a monochrome monitor plugged in */ switch( cookie_vdo >>16) { case VDO_ST: case VDO_STE: if ( Getrez() == (ST_HIGH>>8) ) return 0; break; case VDO_TT: if ( (EgetShift() & ES_MODE) == TT_HIGH) return 0; break; case VDO_F30: if ( VgetMonitor() == MONITOR_MONO) return 0; if (Getcookie(C_SCPN, &cookie_scpn) == C_FOUND) { if (!SDL_XBIOS_SB3Usable((scpn_cookie_t *)cookie_scpn)) { return 0; } } break; case VDO_MILAN: break; default: return 0; } return 1; } static void XBIOS_DeleteDevice(SDL_VideoDevice *device) { SDL_free(device->hidden); SDL_free(device); } static SDL_VideoDevice *XBIOS_CreateDevice(int devindex) { SDL_VideoDevice *device; /* Initialize all variables that we clean on shutdown */ device = (SDL_VideoDevice *)SDL_malloc(sizeof(SDL_VideoDevice)); if ( device ) { SDL_memset(device, 0, (sizeof *device)); device->hidden = (struct SDL_PrivateVideoData *) SDL_malloc((sizeof *device->hidden)); device->gl_data = (struct SDL_PrivateGLData *) SDL_malloc((sizeof *device->gl_data)); } if ( (device == NULL) || (device->hidden == NULL) ) { SDL_OutOfMemory(); if ( device ) { SDL_free(device); } return(0); } SDL_memset(device->hidden, 0, (sizeof *device->hidden)); SDL_memset(device->gl_data, 0, sizeof(*device->gl_data)); /* Video functions */ device->VideoInit = XBIOS_VideoInit; device->ListModes = XBIOS_ListModes; device->SetVideoMode = XBIOS_SetVideoMode; device->SetColors = XBIOS_SetColors; device->UpdateRects = NULL; device->VideoQuit = XBIOS_VideoQuit; device->AllocHWSurface = XBIOS_AllocHWSurface; device->LockHWSurface = XBIOS_LockHWSurface; device->UnlockHWSurface = XBIOS_UnlockHWSurface; device->FlipHWSurface = XBIOS_FlipHWSurface; device->FreeHWSurface = XBIOS_FreeHWSurface; #if SDL_VIDEO_OPENGL /* OpenGL functions */ device->GL_LoadLibrary = SDL_AtariGL_LoadLibrary; device->GL_GetProcAddress = SDL_AtariGL_GetProcAddress; device->GL_GetAttribute = SDL_AtariGL_GetAttribute; device->GL_MakeCurrent = SDL_AtariGL_MakeCurrent; device->GL_SwapBuffers = XBIOS_GL_SwapBuffers; #endif /* Events */ device->InitOSKeymap = Atari_InitOSKeymap; device->PumpEvents = Atari_PumpEvents; device->free = XBIOS_DeleteDevice; return device; } VideoBootStrap XBIOS_bootstrap = { XBIOS_VID_DRIVER_NAME, "Atari Xbios driver", XBIOS_Available, XBIOS_CreateDevice }; void SDL_XBIOS_AddMode(_THIS, int actually_add, const xbiosmode_t *modeinfo) { int i = 0; switch(modeinfo->depth) { case 15: case 16: i = 1; break; case 24: i = 2; break; case 32: i = 3; break; } if ( actually_add ) { SDL_Rect saved_rect[2]; xbiosmode_t saved_mode[2]; int b, j; /* Add the mode, sorted largest to smallest */ b = 0; j = 0; while ( (SDL_modelist[i][j]->w > modeinfo->width) || (SDL_modelist[i][j]->h > modeinfo->height) ) { ++j; } /* Skip modes that are already in our list */ if ( (SDL_modelist[i][j]->w == modeinfo->width) && (SDL_modelist[i][j]->h == modeinfo->height) ) { return; } /* Insert the new mode */ saved_rect[b] = *SDL_modelist[i][j]; SDL_memcpy(&saved_mode[b], SDL_xbiosmode[i][j], sizeof(xbiosmode_t)); SDL_modelist[i][j]->w = modeinfo->width; SDL_modelist[i][j]->h = modeinfo->height; SDL_memcpy(SDL_xbiosmode[i][j], modeinfo, sizeof(xbiosmode_t)); /* Everybody scoot down! */ if ( saved_rect[b].w && saved_rect[b].h ) { for ( ++j; SDL_modelist[i][j]->w; ++j ) { saved_rect[!b] = *SDL_modelist[i][j]; memcpy(&saved_mode[!b], SDL_xbiosmode[i][j], sizeof(xbiosmode_t)); *SDL_modelist[i][j] = saved_rect[b]; SDL_memcpy(SDL_xbiosmode[i][j], &saved_mode[b], sizeof(xbiosmode_t)); b = !b; } *SDL_modelist[i][j] = saved_rect[b]; SDL_memcpy(SDL_xbiosmode[i][j], &saved_mode[b], sizeof(xbiosmode_t)); } } else { ++SDL_nummodes[i]; } } static void XBIOS_ListSTModes(_THIS, int actually_add) { SDL_XBIOS_AddMode(this, actually_add, &stmodes[0]); } static void XBIOS_ListTTModes(_THIS, int actually_add) { int i; for (i=0; i<2; i++) { SDL_XBIOS_AddMode(this, actually_add, &ttmodes[i]); } } static void XBIOS_ListFalconRgbModes(_THIS, int actually_add) { int i; for (i=0; i<16; i++) { xbiosmode_t modeinfo; SDL_memcpy(&modeinfo, &falconrgbmodes[i], sizeof(xbiosmode_t)); modeinfo.number &= ~(VGA|PAL); modeinfo.number |= XBIOS_oldvmode & (VGA|PAL); SDL_XBIOS_AddMode(this, actually_add, &modeinfo); } } static void XBIOS_ListFalconVgaModes(_THIS, int actually_add) { int i; for (i=0; i<6; i++) { xbiosmode_t modeinfo; SDL_memcpy(&modeinfo, &falconvgamodes[i], sizeof(xbiosmode_t)); modeinfo.number &= ~(VGA|PAL); modeinfo.number |= XBIOS_oldvmode & (VGA|PAL); SDL_XBIOS_AddMode(this, actually_add, &modeinfo); } } static int XBIOS_VideoInit(_THIS, SDL_PixelFormat *vformat) { int i,j8,j16; xbiosmode_t *current_mode; unsigned long cookie_blow, cookie_scpn, cookie_cnts; /* Initialize all variables that we clean on shutdown */ for ( i=0; i<NUM_MODELISTS; ++i ) { SDL_nummodes[i] = 0; SDL_modelist[i] = NULL; SDL_xbiosmode[i] = NULL; } /* Cookie _VDO present ? if not, assume ST machine */ if (Getcookie(C__VDO, &XBIOS_cvdo) != C_FOUND) { XBIOS_cvdo = VDO_ST << 16; } /* Allocate memory for old palette */ XBIOS_oldpalette = (void *)SDL_malloc(256*sizeof(long)); if ( !XBIOS_oldpalette ) { SDL_SetError("Unable to allocate memory for old palette\n"); return(-1); } /* Initialize video mode list */ /* and save current screen status (palette, screen address, video mode) */ XBIOS_centscreen = SDL_FALSE; XBIOS_oldvbase = Physbase(); /* Determine the current screen size */ this->info.current_w = 0; this->info.current_h = 0; /* Determine the screen depth (use default 8-bit depth) */ vformat->BitsPerPixel = 8; /* First allocate room for needed video modes */ switch (XBIOS_cvdo >>16) { case VDO_ST: case VDO_STE: { short *oldpalette; XBIOS_oldvmode=Getrez(); switch(XBIOS_oldvmode << 8) { case ST_LOW: XBIOS_oldnumcol=16; break; case ST_MED: XBIOS_oldnumcol=4; break; case ST_HIGH: XBIOS_oldnumcol=2; break; } oldpalette= (short *) XBIOS_oldpalette; for (i=0;i<XBIOS_oldnumcol;i++) { *oldpalette++=Setcolor(i,-1); } XBIOS_ListSTModes(this, 0); } break; case VDO_TT: XBIOS_oldvmode=EgetShift(); switch(XBIOS_oldvmode & ES_MODE) { case TT_LOW: XBIOS_oldnumcol=256; break; case ST_LOW: case TT_MED: XBIOS_oldnumcol=16; break; case ST_MED: XBIOS_oldnumcol=4; break; case ST_HIGH: case TT_HIGH: XBIOS_oldnumcol=2; break; } if (XBIOS_oldnumcol) { EgetPalette(0, XBIOS_oldnumcol, XBIOS_oldpalette); } XBIOS_ListTTModes(this, 0); break; case VDO_F30: XBIOS_oldvmode=VsetMode(-1); XBIOS_oldnumcol= 1<< (1 << (XBIOS_oldvmode & NUMCOLS)); if (XBIOS_oldnumcol > 256) { XBIOS_oldnumcol = 0; } if (XBIOS_oldnumcol) { VgetRGB(0, XBIOS_oldnumcol, XBIOS_oldpalette); } vformat->BitsPerPixel = 16; /* ScreenBlaster 3 ? */ if (Getcookie(C_SCPN, &cookie_scpn) == C_FOUND) { SDL_XBIOS_ListSB3Modes(this, 0, (scpn_cookie_t *)cookie_scpn); } else /* Centscreen ? */ if (Getcookie(C_CNTS, &cookie_cnts) == C_FOUND) { XBIOS_oldvmode = SDL_XBIOS_ListCentscreenModes(this, 0); XBIOS_centscreen = SDL_TRUE; } else /* Standard, with or without Blowup */ { switch (VgetMonitor()) { case MONITOR_RGB: case MONITOR_TV: XBIOS_ListFalconRgbModes(this, 0); break; case MONITOR_VGA: XBIOS_ListFalconVgaModes(this, 0); break; } if (Getcookie(C_BLOW, &cookie_blow) == C_FOUND) { SDL_XBIOS_ListBlowupModes(this, 0, (blow_cookie_t *)cookie_blow); } } break; case VDO_MILAN: { SCREENINFO si; /* Read infos about current mode */ VsetScreen(-1, &XBIOS_oldvmode, MI_MAGIC, CMD_GETMODE); si.size = sizeof(SCREENINFO); si.devID = XBIOS_oldvmode; si.scrFlags = 0; VsetScreen(-1, &si, MI_MAGIC, CMD_GETINFO); this->info.current_w = si.scrWidth; this->info.current_h = si.scrHeight; XBIOS_oldnumcol = 0; if (si.scrFlags & SCRINFO_OK) { if (si.scrPlanes <= 8) { XBIOS_oldnumcol = 1<<si.scrPlanes; } } if (XBIOS_oldnumcol) { VgetRGB(0, XBIOS_oldnumcol, XBIOS_oldpalette); } SDL_XBIOS_ListMilanModes(this, 0); } break; } for ( i=0; i<NUM_MODELISTS; ++i ) { int j; SDL_xbiosmode[i] = (xbiosmode_t **) SDL_malloc((SDL_nummodes[i]+1)*sizeof(xbiosmode_t *)); if ( SDL_xbiosmode[i] == NULL ) { SDL_OutOfMemory(); return(-1); } for ( j=0; j<SDL_nummodes[i]; ++j ) { SDL_xbiosmode[i][j]=(xbiosmode_t *)SDL_malloc(sizeof(xbiosmode_t)); if ( SDL_xbiosmode[i][j] == NULL ) { SDL_OutOfMemory(); return(-1); } SDL_memset(SDL_xbiosmode[i][j], 0, sizeof(xbiosmode_t)); } SDL_xbiosmode[i][j] = NULL; SDL_modelist[i] = (SDL_Rect **) SDL_malloc((SDL_nummodes[i]+1)*sizeof(SDL_Rect *)); if ( SDL_modelist[i] == NULL ) { SDL_OutOfMemory(); return(-1); } for ( j=0; j<SDL_nummodes[i]; ++j ) { SDL_modelist[i][j]=(SDL_Rect *)SDL_malloc(sizeof(SDL_Rect)); if ( SDL_modelist[i][j] == NULL ) { SDL_OutOfMemory(); return(-1); } SDL_memset(SDL_modelist[i][j], 0, sizeof(SDL_Rect)); } SDL_modelist[i][j] = NULL; } /* Now fill the mode list */ switch (XBIOS_cvdo >>16) { case VDO_ST: case VDO_STE: XBIOS_ListSTModes(this, 1); break; case VDO_TT: XBIOS_ListTTModes(this, 1); break; case VDO_F30: /* ScreenBlaster 3 ? */ if (Getcookie(C_SCPN, &cookie_scpn) == C_FOUND) { SDL_XBIOS_ListSB3Modes(this, 1, (scpn_cookie_t *)cookie_scpn); } else /* Centscreen ? */ if (Getcookie(C_CNTS, &cookie_cnts) == C_FOUND) { XBIOS_oldvmode = SDL_XBIOS_ListCentscreenModes(this, 1); XBIOS_centscreen = SDL_TRUE; } else /* Standard, with or without Blowup */ { switch (VgetMonitor()) { case MONITOR_RGB: case MONITOR_TV: XBIOS_ListFalconRgbModes(this, 1); break; case MONITOR_VGA: XBIOS_ListFalconVgaModes(this, 1); break; } if (Getcookie(C_BLOW, &cookie_blow) == C_FOUND) { SDL_XBIOS_ListBlowupModes(this, 1, (blow_cookie_t *)cookie_blow); } } break; case VDO_MILAN: SDL_XBIOS_ListMilanModes(this, 1); break; } XBIOS_screens[0]=NULL; XBIOS_screens[1]=NULL; XBIOS_shadowscreen=NULL; /* Update hardware info */ this->info.hw_available = 1; this->info.video_mem = (Uint32) Atari_SysMalloc(-1L, MX_STRAM); /* Init chunky to planar routine */ SDL_Atari_C2pConvert = SDL_Atari_C2pConvert8; #if SDL_VIDEO_OPENGL SDL_AtariGL_InitPointers(this); #endif /* Disable screensavers */ if (SDL_XBIOS_TveillePresent(this)) { SDL_XBIOS_TveilleDisable(this); } /* We're done! */ return(0); } static SDL_Rect **XBIOS_ListModes(_THIS, SDL_PixelFormat *format, Uint32 flags) { return(SDL_modelist[((format->BitsPerPixel+7)/8)-1]); } static void XBIOS_FreeBuffers(_THIS) { int i; for (i=0;i<2;i++) { if (XBIOS_screensmem[i]!=NULL) { if ((XBIOS_cvdo>>16) == VDO_MILAN) { if (i==1) { VsetScreen(-1, -1, MI_MAGIC, CMD_FREEPAGE); } } else { Mfree(XBIOS_screensmem[i]); } XBIOS_screensmem[i]=NULL; } } if (XBIOS_shadowscreen!=NULL) { Mfree(XBIOS_shadowscreen); XBIOS_shadowscreen=NULL; } } static SDL_Surface *XBIOS_SetVideoMode(_THIS, SDL_Surface *current, int width, int height, int bpp, Uint32 flags) { int mode, new_depth; int i, num_buffers; xbiosmode_t *new_video_mode; Uint32 new_screen_size; Uint32 modeflags; /* Free current buffers */ XBIOS_FreeBuffers(this); /* Try to set the requested linear video mode */ bpp = (bpp+7)/8-1; for ( mode=0; SDL_modelist[bpp][mode]; ++mode ) { if ( (SDL_modelist[bpp][mode]->w == width) && (SDL_modelist[bpp][mode]->h == height) ) { break; } } if ( SDL_modelist[bpp][mode] == NULL ) { SDL_SetError("Couldn't find requested mode in list"); return(NULL); } new_video_mode = SDL_xbiosmode[bpp][mode]; modeflags = SDL_FULLSCREEN | SDL_PREALLOC; /* Allocate needed buffers: simple/double buffer and shadow surface */ new_depth = new_video_mode->depth; if (new_depth == 4) { SDL_Atari_C2pConvert = SDL_Atari_C2pConvert4; new_depth=8; modeflags |= SDL_SWSURFACE|SDL_HWPALETTE; } else if (new_depth == 8) { SDL_Atari_C2pConvert = SDL_Atari_C2pConvert8; modeflags |= SDL_SWSURFACE|SDL_HWPALETTE; } else { modeflags |= SDL_HWSURFACE; } new_screen_size = width * height * ((new_depth)>>3); new_screen_size += 256; /* To align on a 256 byte adress */ if (new_video_mode->flags & XBIOSMODE_C2P) { XBIOS_shadowscreen = Atari_SysMalloc(new_screen_size, MX_PREFTTRAM); if (XBIOS_shadowscreen == NULL) { SDL_SetError("Can not allocate %d KB for shadow buffer", new_screen_size>>10); return (NULL); } SDL_memset(XBIOS_shadowscreen, 0, new_screen_size); } /* Output buffer needs to be twice in size for the software double-line mode */ if (new_video_mode->flags & XBIOSMODE_DOUBLELINE) { new_screen_size <<= 1; } /* Double buffer ? */ num_buffers = 1; #if SDL_VIDEO_OPENGL if (flags & SDL_OPENGL) { if (this->gl_config.double_buffer) { flags |= SDL_DOUBLEBUF; } } #endif if ((flags & SDL_DOUBLEBUF) && ((XBIOS_cvdo>>16) != VDO_MILAN)) { num_buffers = 2; modeflags |= SDL_DOUBLEBUF; } /* Allocate buffers */ for (i=0; i<num_buffers; i++) { if ((XBIOS_cvdo>>16) == VDO_MILAN) { if (i==0) { XBIOS_screensmem[i] = XBIOS_oldvbase; } else { VsetScreen(-1, &XBIOS_screensmem[i], MI_MAGIC, CMD_ALLOCPAGE); } } else { XBIOS_screensmem[i] = Atari_SysMalloc(new_screen_size, MX_STRAM); } if (XBIOS_screensmem[i]==NULL) { XBIOS_FreeBuffers(this); SDL_SetError("Can not allocate %d KB for buffer %d", new_screen_size>>10, i); return (NULL); } SDL_memset(XBIOS_screensmem[i], 0, new_screen_size); XBIOS_screens[i]=(void *) (( (long) XBIOS_screensmem[i]+256) & 0xFFFFFF00UL); } /* Allocate the new pixel format for the screen */ if ( ! SDL_ReallocFormat(current, new_depth, 0, 0, 0, 0) ) { XBIOS_FreeBuffers(this); SDL_SetError("Couldn't allocate new pixel format for requested mode"); return(NULL); } XBIOS_current = new_video_mode; current->w = width; current->h = height; current->pitch = (width * new_depth)>>3; /* this is for C2P conversion */ XBIOS_pitch = (new_video_mode->width * new_video_mode->depth)>>3; if (new_video_mode->flags & XBIOSMODE_C2P) current->pixels = XBIOS_shadowscreen; else current->pixels = XBIOS_screens[0]; XBIOS_fbnum = 0; #if SDL_VIDEO_OPENGL if (flags & SDL_OPENGL) { if (!SDL_AtariGL_Init(this, current)) { XBIOS_FreeBuffers(this); SDL_SetError("Can not create OpenGL context"); return NULL; } modeflags |= SDL_OPENGL; } #endif current->flags = modeflags; #ifndef DEBUG_VIDEO_XBIOS /* Now set the video mode */ if ((XBIOS_cvdo>>16) == VDO_MILAN) { VsetScreen(-1, XBIOS_screens[0], MI_MAGIC, CMD_SETADR); } else { Setscreen(-1,XBIOS_screens[0],-1); } switch(XBIOS_cvdo >> 16) { case VDO_ST: Setscreen(-1,-1,new_video_mode->number); /* Reset palette */ for (i=0;i<16;i++) { TT_palette[i]= ((i>>1)<<8) | (((i*8)/17)<<4) | (i>>1); } Setpalette(TT_palette); break; case VDO_STE: Setscreen(-1,-1,new_video_mode->number); /* Reset palette */ for (i=0;i<16;i++) { int c; c=((i&1)<<3)|((i>>1)&7); TT_palette[i]=(c<<8)|(c<<4)|c; } Setpalette(TT_palette); break; case VDO_TT: EsetShift(new_video_mode->number); break; case VDO_F30: if (XBIOS_centscreen) { SDL_XBIOS_CentscreenSetmode(this, width, height, new_depth); } else { VsetMode(new_video_mode->number); } /* Set hardware palette to black in True Colour */ if (new_depth > 8) { SDL_memset(F30_palette, 0, sizeof(F30_palette)); VsetRGB(0,256,F30_palette); } break; case VDO_MILAN: VsetScreen(-1, new_video_mode->number, MI_MAGIC, CMD_SETMODE); /* Set hardware palette to black in True Colour */ if (new_depth > 8) { SDL_memset(F30_palette, 0, sizeof(F30_palette)); VsetRGB(0,256,F30_palette); } break; } Vsync(); #endif this->UpdateRects = XBIOS_UpdateRects; return (current); } /* We don't actually allow hardware surfaces other than the main one */ static int XBIOS_AllocHWSurface(_THIS, SDL_Surface *surface) { return(-1); } static void XBIOS_FreeHWSurface(_THIS, SDL_Surface *surface) { return; } static int XBIOS_LockHWSurface(_THIS, SDL_Surface *surface) { return(0); } static void XBIOS_UnlockHWSurface(_THIS, SDL_Surface *surface) { return; } static void XBIOS_UpdateRects(_THIS, int numrects, SDL_Rect *rects) { SDL_Surface *surface; surface = this->screen; if (XBIOS_current->flags & XBIOSMODE_C2P) { int i; int doubleline = (XBIOS_current->flags & XBIOSMODE_DOUBLELINE ? 1 : 0); for (i=0;i<numrects;i++) { void *source,*destination; int x1,x2; x1 = rects[i].x & ~15; x2 = rects[i].x+rects[i].w; if (x2 & 15) { x2 = (x2 | 15) +1; } source = surface->pixels; source += surface->pitch * rects[i].y; source += x1; destination = XBIOS_screens[XBIOS_fbnum]; destination += XBIOS_pitch * rects[i].y; destination += x1; /* Convert chunky to planar screen */ SDL_Atari_C2pConvert( source, destination, x2-x1, rects[i].h, doubleline, surface->pitch, XBIOS_pitch ); } } #ifndef DEBUG_VIDEO_XBIOS if ((XBIOS_cvdo>>16) == VDO_MILAN) { VsetScreen(-1, XBIOS_screens[XBIOS_fbnum], MI_MAGIC, CMD_SETADR); } else { Setscreen(-1,XBIOS_screens[XBIOS_fbnum],-1); } Vsync(); #endif if ((surface->flags & SDL_DOUBLEBUF) == SDL_DOUBLEBUF) { XBIOS_fbnum ^= 1; if ((XBIOS_current->flags & XBIOSMODE_C2P) == 0) { surface->pixels=XBIOS_screens[XBIOS_fbnum]; } } } static int XBIOS_FlipHWSurface(_THIS, SDL_Surface *surface) { if (XBIOS_current->flags & XBIOSMODE_C2P) { void *destscr; int destx; int doubleline = (XBIOS_current->flags & XBIOSMODE_DOUBLELINE ? 1 : 0); /* Center on destination screen */ destscr = XBIOS_screens[XBIOS_fbnum]; destscr += XBIOS_pitch * ((XBIOS_current->height - surface->h) >> 1); destx = (XBIOS_current->width - surface->w) >> 1; destx &= ~15; destscr += destx; /* Convert chunky to planar screen */ SDL_Atari_C2pConvert( surface->pixels, destscr, surface->w, surface->h, doubleline, surface->pitch, XBIOS_pitch ); } #ifndef DEBUG_VIDEO_XBIOS if ((XBIOS_cvdo>>16) == VDO_MILAN) { VsetScreen(-1, XBIOS_screens[XBIOS_fbnum], MI_MAGIC, CMD_SETADR); } else { Setscreen(-1,XBIOS_screens[XBIOS_fbnum],-1); } Vsync(); #endif if ((surface->flags & SDL_DOUBLEBUF) == SDL_DOUBLEBUF) { XBIOS_fbnum ^= 1; if ((XBIOS_current->flags & XBIOSMODE_C2P) == 0) { surface->pixels=XBIOS_screens[XBIOS_fbnum]; } } return(0); } static int XBIOS_SetColors(_THIS, int firstcolor, int ncolors, SDL_Color *colors) { #ifndef DEBUG_VIDEO_XBIOS int i; int r,v,b; switch( XBIOS_cvdo >> 16) { case VDO_ST: case VDO_STE: for (i=0;i<ncolors;i++) { r = colors[i].r; v = colors[i].g; b = colors[i].b; TT_palette[firstcolor+i]=((r*30)+(v*59)+(b*11))/100; } SDL_Atari_C2pConvert4_pal(TT_palette); /* convert the lighting */ break; case VDO_TT: for(i = 0; i < ncolors; i++) { r = colors[i].r; v = colors[i].g; b = colors[i].b; TT_palette[i]=((r>>4)<<8)|((v>>4)<<4)|(b>>4); } EsetPalette(firstcolor,ncolors,TT_palette); break; case VDO_F30: case VDO_MILAN: for(i = 0; i < ncolors; i++) { r = colors[i].r; v = colors[i].g; b = colors[i].b; F30_palette[i]=(r<<16)|(v<<8)|b; } VsetRGB(firstcolor,ncolors,F30_palette); break; } #endif return(1); } /* Note: If we are terminated, this could be called in the middle of another SDL video routine -- notably UpdateRects. */ static void XBIOS_VideoQuit(_THIS) { int i,j; Atari_ShutdownEvents(); /* Restore video mode and palette */ #ifndef DEBUG_VIDEO_XBIOS switch(XBIOS_cvdo >> 16) { case VDO_ST: case VDO_STE: Setscreen(-1,XBIOS_oldvbase,XBIOS_oldvmode); if (XBIOS_oldnumcol) { Setpalette(XBIOS_oldpalette); } break; case VDO_TT: Setscreen(-1,XBIOS_oldvbase,-1); EsetShift(XBIOS_oldvmode); if (XBIOS_oldnumcol) { EsetPalette(0, XBIOS_oldnumcol, XBIOS_oldpalette); } break; case VDO_F30: Setscreen(-1, XBIOS_oldvbase, -1); if (XBIOS_centscreen) { SDL_XBIOS_CentscreenRestore(this, XBIOS_oldvmode); } else { VsetMode(XBIOS_oldvmode); } if (XBIOS_oldnumcol) { VsetRGB(0, XBIOS_oldnumcol, XBIOS_oldpalette); } break; case VDO_MILAN: VsetScreen(-1, &XBIOS_oldvbase, MI_MAGIC, CMD_SETADR); VsetScreen(-1, &XBIOS_oldvmode, MI_MAGIC, CMD_SETMODE); if (XBIOS_oldnumcol) { VsetRGB(0, XBIOS_oldnumcol, XBIOS_oldpalette); } break; } Vsync(); #endif #if SDL_VIDEO_OPENGL if (gl_active) { SDL_AtariGL_Quit(this, SDL_TRUE); } #endif if (XBIOS_oldpalette) { SDL_free(XBIOS_oldpalette); XBIOS_oldpalette=NULL; } XBIOS_FreeBuffers(this); /* Free mode list */ for ( i=0; i<NUM_MODELISTS; ++i ) { if ( SDL_modelist[i] != NULL ) { for ( j=0; SDL_modelist[i][j]; ++j ) SDL_free(SDL_modelist[i][j]); SDL_free(SDL_modelist[i]); SDL_modelist[i] = NULL; } if ( SDL_xbiosmode[i] != NULL ) { for ( j=0; SDL_xbiosmode[i][j]; ++j ) SDL_free(SDL_xbiosmode[i][j]); SDL_free(SDL_xbiosmode[i]); SDL_xbiosmode[i] = NULL; } } this->screen->pixels = NULL; /* Restore screensavers */ if (SDL_XBIOS_TveillePresent(this)) { SDL_XBIOS_TveilleRestore(this); } } #if SDL_VIDEO_OPENGL static void XBIOS_GL_SwapBuffers(_THIS) { SDL_AtariGL_SwapBuffers(this); XBIOS_FlipHWSurface(this, this->screen); SDL_AtariGL_MakeCurrent(this); } #endif