Mercurial > sdl-ios-xcode
view src/video/SDL_pixels.c @ 563:04dcaf3da918
Massive Quartz input enhancements from Darrell Walisser. His email:
Enclosed is a patch that addresses the following:
--Various minor cleanups.
Removed dead/obsolete code, made some style cleanups
--Mouse Events
Now keep track of what button(s) were pressed so we know when to send
the mouse up event. This fixes the case where the mouse is dragged
outside of the game window and released (in which case we want to send
the mouse up event even though the mouse is outside the game window).
--Input Grabbing
Here is my take on the grabbing situation, which is the basis for the
new implementation.
There are 3 grab states, ungrabbed (UG), visible (VG), and invisible
(IG). Both VG and IG keep the mouse constrained to the window and
produce relative motion events. In VG the cursor is visible (duh), in
IG it is not. In VG, absolute motion events also work.
There are 6 actions that can affect grabbing:
1. Set Fullscreen/Window (F/W). In fullscreen, a visible grab should do
nothing. However, a fullscreen visible grab can be treated just like a
windowed visible grab, which is what I have done to help simplify
things.
2. Cursor hide/show (H/S). If the cursor is hidden when grabbing, the
grab is an invisible grab. If the cursor is visible, the grab should
just constrain the mouse to the window.
3. Input grab/ungrab(G/U). If grabbed, the cursor should be confined to
the window as should the keyboard input. On Mac OS X, the keyboard
input is implicitly grabbed by confining the cursor, except for
command-tab which can switch away from the application. Should the
window come to the foreground if the application is deactivated and
grab input is called? This isn't necessary in this implementation
because the grab state will be asserted upon activation.
Using my notation, these are all the cases that need to be handled
(state + action = new state).
UG+U = UG
UG+G = VG or IG, if cursor is visible or not
UG+H = UG
UG+S = UG
VG+U = UG
VG+G = VG
VG+H = IG
VG+S = VG
IG+U = UG
IG+G = IG
IG+H = IG
IG+S = VG
The cases that result in the same state can be ignored in the code,
which cuts it down to just 5 cases.
Another issue is what happens when the app loses/gains input focus from
deactivate/activate or iconify/deiconify. I think that if input focus
is ever lost (outside of SDL's control), the grab state should be
suspended and the cursor should become visible and active again. When
regained, the cursor should reappear in its original location and/or
grab state. This way, when reactivating the cursor is still in the same
position as before so apps shouldn't get confused when the next motion
event comes in. This is what I've done in this patch.
| author | Ryan C. Gordon <icculus@icculus.org> |
|---|---|
| date | Fri, 27 Dec 2002 20:52:41 +0000 |
| parents | f6ffac90895c |
| children | e561e8752d33 |
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/* SDL - Simple DirectMedia Layer Copyright (C) 1997, 1998, 1999, 2000, 2001, 2002 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 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 Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA Sam Lantinga slouken@libsdl.org */ #ifdef SAVE_RCSID static char rcsid = "@(#) $Id$"; #endif /* General (mostly internal) pixel/color manipulation routines for SDL */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include "SDL_error.h" #include "SDL_endian.h" #include "SDL_video.h" #include "SDL_sysvideo.h" #include "SDL_blit.h" #include "SDL_pixels_c.h" #include "SDL_RLEaccel_c.h" /* Helper functions */ /* * Allocate a pixel format structure and fill it according to the given info. */ SDL_PixelFormat *SDL_AllocFormat(int bpp, Uint32 Rmask, Uint32 Gmask, Uint32 Bmask, Uint32 Amask) { SDL_PixelFormat *format; Uint32 mask; /* Allocate an empty pixel format structure */ format = malloc(sizeof(*format)); if ( format == NULL ) { SDL_OutOfMemory(); return(NULL); } memset(format, 0, sizeof(*format)); format->alpha = SDL_ALPHA_OPAQUE; /* Set up the format */ format->BitsPerPixel = bpp; format->BytesPerPixel = (bpp+7)/8; switch (bpp) { case 1: /* Create the 2 color black-white palette */ format->palette = (SDL_Palette *)malloc( sizeof(SDL_Palette)); if ( format->palette == NULL ) { SDL_FreeFormat(format); SDL_OutOfMemory(); return(NULL); } (format->palette)->ncolors = 2; (format->palette)->colors = (SDL_Color *)malloc( (format->palette)->ncolors*sizeof(SDL_Color)); if ( (format->palette)->colors == NULL ) { SDL_FreeFormat(format); SDL_OutOfMemory(); return(NULL); } format->palette->colors[0].r = 0xFF; format->palette->colors[0].g = 0xFF; format->palette->colors[0].b = 0xFF; format->palette->colors[1].r = 0x00; format->palette->colors[1].g = 0x00; format->palette->colors[1].b = 0x00; format->Rloss = 8; format->Gloss = 8; format->Bloss = 8; format->Aloss = 8; format->Rshift = 0; format->Gshift = 0; format->Bshift = 0; format->Ashift = 0; format->Rmask = 0; format->Gmask = 0; format->Bmask = 0; format->Amask = 0; break; case 4: /* Create the 16 color VGA palette */ format->palette = (SDL_Palette *)malloc( sizeof(SDL_Palette)); if ( format->palette == NULL ) { SDL_FreeFormat(format); SDL_OutOfMemory(); return(NULL); } (format->palette)->ncolors = 16; (format->palette)->colors = (SDL_Color *)malloc( (format->palette)->ncolors*sizeof(SDL_Color)); if ( (format->palette)->colors == NULL ) { SDL_FreeFormat(format); SDL_OutOfMemory(); return(NULL); } /* Punt for now, will this ever be used? */ memset((format->palette)->colors, 0, (format->palette)->ncolors*sizeof(SDL_Color)); /* Palettized formats have no mask info */ format->Rloss = 8; format->Gloss = 8; format->Bloss = 8; format->Aloss = 8; format->Rshift = 0; format->Gshift = 0; format->Bshift = 0; format->Ashift = 0; format->Rmask = 0; format->Gmask = 0; format->Bmask = 0; format->Amask = 0; break; case 8: /* Create an empty 256 color palette */ format->palette = (SDL_Palette *)malloc( sizeof(SDL_Palette)); if ( format->palette == NULL ) { SDL_FreeFormat(format); SDL_OutOfMemory(); return(NULL); } (format->palette)->ncolors = 256; (format->palette)->colors = (SDL_Color *)malloc( (format->palette)->ncolors*sizeof(SDL_Color)); if ( (format->palette)->colors == NULL ) { SDL_FreeFormat(format); SDL_OutOfMemory(); return(NULL); } memset((format->palette)->colors, 0, (format->palette)->ncolors*sizeof(SDL_Color)); /* Palettized formats have no mask info */ format->Rloss = 8; format->Gloss = 8; format->Bloss = 8; format->Aloss = 8; format->Rshift = 0; format->Gshift = 0; format->Bshift = 0; format->Ashift = 0; format->Rmask = 0; format->Gmask = 0; format->Bmask = 0; format->Amask = 0; break; default: /* No palette, just packed pixel info */ format->palette = NULL; format->Rshift = 0; format->Rloss = 8; if ( Rmask ) { for ( mask = Rmask; !(mask&0x01); mask >>= 1 ) ++format->Rshift; for ( ; (mask&0x01); mask >>= 1 ) --format->Rloss; } format->Gshift = 0; format->Gloss = 8; if ( Gmask ) { for ( mask = Gmask; !(mask&0x01); mask >>= 1 ) ++format->Gshift; for ( ; (mask&0x01); mask >>= 1 ) --format->Gloss; } format->Bshift = 0; format->Bloss = 8; if ( Bmask ) { for ( mask = Bmask; !(mask&0x01); mask >>= 1 ) ++format->Bshift; for ( ; (mask&0x01); mask >>= 1 ) --format->Bloss; } format->Ashift = 0; format->Aloss = 8; if ( Amask ) { for ( mask = Amask; !(mask&0x01); mask >>= 1 ) ++format->Ashift; for ( ; (mask&0x01); mask >>= 1 ) --format->Aloss; } format->Rmask = Rmask; format->Gmask = Gmask; format->Bmask = Bmask; format->Amask = Amask; break; } /* Calculate some standard bitmasks, if necessary * Note: This could conflict with an alpha mask, if given. */ if ( (bpp > 8) && !format->Rmask && !format->Gmask && !format->Bmask ) { /* R-G-B */ if ( bpp > 24 ) bpp = 24; format->Rloss = 8-(bpp/3); format->Gloss = 8-(bpp/3)-(bpp%3); format->Bloss = 8-(bpp/3); format->Rshift = ((bpp/3)+(bpp%3))+(bpp/3); format->Gshift = (bpp/3); format->Bshift = 0; format->Rmask = ((0xFF>>format->Rloss)<<format->Rshift); format->Gmask = ((0xFF>>format->Gloss)<<format->Gshift); format->Bmask = ((0xFF>>format->Bloss)<<format->Bshift); } return(format); } SDL_PixelFormat *SDL_ReallocFormat(SDL_Surface *surface, int bpp, Uint32 Rmask, Uint32 Gmask, Uint32 Bmask, Uint32 Amask) { if ( surface->format ) { SDL_FreeFormat(surface->format); SDL_FormatChanged(surface); } surface->format = SDL_AllocFormat(bpp, Rmask, Gmask, Bmask, Amask); return surface->format; } /* * Change any previous mappings from/to the new surface format */ void SDL_FormatChanged(SDL_Surface *surface) { surface->format_version++; SDL_InvalidateMap(surface->map); } /* * Free a previously allocated format structure */ void SDL_FreeFormat(SDL_PixelFormat *format) { if ( format ) { if ( format->palette ) { if ( format->palette->colors ) { free(format->palette->colors); } free(format->palette); } free(format); } } /* * Calculate an 8-bit (3 red, 3 green, 2 blue) dithered palette of colors */ void SDL_DitherColors(SDL_Color *colors, int bpp) { int i; if(bpp != 8) return; /* only 8bpp supported right now */ for(i = 0; i < 256; i++) { int r, g, b; /* map each bit field to the full [0, 255] interval, so 0 is mapped to (0, 0, 0) and 255 to (255, 255, 255) */ r = i & 0xe0; r |= r >> 3 | r >> 6; colors[i].r = r; g = (i << 3) & 0xe0; g |= g >> 3 | g >> 6; colors[i].g = g; b = i & 0x3; b |= b << 2; b |= b << 4; colors[i].b = b; } } /* * Calculate the pad-aligned scanline width of a surface */ Uint16 SDL_CalculatePitch(SDL_Surface *surface) { Uint16 pitch; /* Surface should be 4-byte aligned for speed */ pitch = surface->w*surface->format->BytesPerPixel; switch (surface->format->BitsPerPixel) { case 1: pitch = (pitch+7)/8; break; case 4: pitch = (pitch+1)/2; break; default: break; } pitch = (pitch + 3) & ~3; /* 4-byte aligning */ return(pitch); } /* * Match an RGB value to a particular palette index */ Uint8 SDL_FindColor(SDL_Palette *pal, Uint8 r, Uint8 g, Uint8 b) { /* Do colorspace distance matching */ unsigned int smallest; unsigned int distance; int rd, gd, bd; int i; Uint8 pixel=0; smallest = ~0; for ( i=0; i<pal->ncolors; ++i ) { rd = pal->colors[i].r - r; gd = pal->colors[i].g - g; bd = pal->colors[i].b - b; distance = (rd*rd)+(gd*gd)+(bd*bd); if ( distance < smallest ) { pixel = i; if ( distance == 0 ) { /* Perfect match! */ break; } smallest = distance; } } return(pixel); } /* Find the opaque pixel value corresponding to an RGB triple */ Uint32 SDL_MapRGB(SDL_PixelFormat *format, Uint8 r, Uint8 g, Uint8 b) { if ( format->palette == NULL ) { return (r >> format->Rloss) << format->Rshift | (g >> format->Gloss) << format->Gshift | (b >> format->Bloss) << format->Bshift | format->Amask; } else { return SDL_FindColor(format->palette, r, g, b); } } /* Find the pixel value corresponding to an RGBA quadruple */ Uint32 SDL_MapRGBA(SDL_PixelFormat *format, Uint8 r, Uint8 g, Uint8 b, Uint8 a) { if ( format->palette == NULL ) { return (r >> format->Rloss) << format->Rshift | (g >> format->Gloss) << format->Gshift | (b >> format->Bloss) << format->Bshift | ((a >> format->Aloss) << format->Ashift & format->Amask); } else { return SDL_FindColor(format->palette, r, g, b); } } void SDL_GetRGBA(Uint32 pixel, SDL_PixelFormat *fmt, Uint8 *r, Uint8 *g, Uint8 *b, Uint8 *a) { if ( fmt->palette == NULL ) { /* * This makes sure that the result is mapped to the * interval [0..255], and the maximum value for each * component is 255. This is important to make sure * that white is indeed reported as (255, 255, 255), * and that opaque alpha is 255. * This only works for RGB bit fields at least 4 bit * wide, which is almost always the case. */ unsigned rv, gv, bv, av; rv = (pixel & fmt->Rmask) >> fmt->Rshift; *r = (rv << fmt->Rloss) + (rv >> (8 - fmt->Rloss)); gv = (pixel & fmt->Gmask) >> fmt->Gshift; *g = (gv << fmt->Gloss) + (gv >> (8 - fmt->Gloss)); bv = (pixel & fmt->Bmask) >> fmt->Bshift; *b = (bv << fmt->Bloss) + (bv >> (8 - fmt->Bloss)); if(fmt->Amask) { av = (pixel & fmt->Amask) >> fmt->Ashift; *a = (av << fmt->Aloss) + (av >> (8 - fmt->Aloss)); } else *a = SDL_ALPHA_OPAQUE; } else { *r = fmt->palette->colors[pixel].r; *g = fmt->palette->colors[pixel].g; *b = fmt->palette->colors[pixel].b; *a = SDL_ALPHA_OPAQUE; } } void SDL_GetRGB(Uint32 pixel, SDL_PixelFormat *fmt, Uint8 *r,Uint8 *g,Uint8 *b) { if ( fmt->palette == NULL ) { /* the note for SDL_GetRGBA above applies here too */ unsigned rv, gv, bv; rv = (pixel & fmt->Rmask) >> fmt->Rshift; *r = (rv << fmt->Rloss) + (rv >> (8 - fmt->Rloss)); gv = (pixel & fmt->Gmask) >> fmt->Gshift; *g = (gv << fmt->Gloss) + (gv >> (8 - fmt->Gloss)); bv = (pixel & fmt->Bmask) >> fmt->Bshift; *b = (bv << fmt->Bloss) + (bv >> (8 - fmt->Bloss)); } else { *r = fmt->palette->colors[pixel].r; *g = fmt->palette->colors[pixel].g; *b = fmt->palette->colors[pixel].b; } } /* Apply gamma to a set of colors - this is easy. :) */ void SDL_ApplyGamma(Uint16 *gamma, SDL_Color *colors, SDL_Color *output, int ncolors) { int i; for ( i=0; i<ncolors; ++i ) { output[i].r = gamma[0*256 + colors[i].r] >> 8; output[i].g = gamma[1*256 + colors[i].g] >> 8; output[i].b = gamma[2*256 + colors[i].b] >> 8; } } /* Map from Palette to Palette */ static Uint8 *Map1to1(SDL_Palette *src, SDL_Palette *dst, int *identical) { Uint8 *map; int i; if ( identical ) { if ( src->ncolors <= dst->ncolors ) { /* If an identical palette, no need to map */ if ( memcmp(src->colors, dst->colors, src->ncolors* sizeof(SDL_Color)) == 0 ) { *identical = 1; return(NULL); } } *identical = 0; } map = (Uint8 *)malloc(src->ncolors); if ( map == NULL ) { SDL_OutOfMemory(); return(NULL); } for ( i=0; i<src->ncolors; ++i ) { map[i] = SDL_FindColor(dst, src->colors[i].r, src->colors[i].g, src->colors[i].b); } return(map); } /* Map from Palette to BitField */ static Uint8 *Map1toN(SDL_Palette *src, SDL_PixelFormat *dst) { Uint8 *map; int i; int bpp; unsigned alpha; bpp = ((dst->BytesPerPixel == 3) ? 4 : dst->BytesPerPixel); map = (Uint8 *)malloc(src->ncolors*bpp); if ( map == NULL ) { SDL_OutOfMemory(); return(NULL); } alpha = dst->Amask ? SDL_ALPHA_OPAQUE : 0; /* We memory copy to the pixel map so the endianness is preserved */ for ( i=0; i<src->ncolors; ++i ) { ASSEMBLE_RGBA(&map[i*bpp], dst->BytesPerPixel, dst, src->colors[i].r, src->colors[i].g, src->colors[i].b, alpha); } return(map); } /* Map from BitField to Dithered-Palette to Palette */ static Uint8 *MapNto1(SDL_PixelFormat *src, SDL_Palette *dst, int *identical) { /* Generate a 256 color dither palette */ SDL_Palette dithered; SDL_Color colors[256]; dithered.ncolors = 256; SDL_DitherColors(colors, 8); dithered.colors = colors; return(Map1to1(&dithered, dst, identical)); } SDL_BlitMap *SDL_AllocBlitMap(void) { SDL_BlitMap *map; /* Allocate the empty map */ map = (SDL_BlitMap *)malloc(sizeof(*map)); if ( map == NULL ) { SDL_OutOfMemory(); return(NULL); } memset(map, 0, sizeof(*map)); /* Allocate the software blit data */ map->sw_data = (struct private_swaccel *)malloc(sizeof(*map->sw_data)); if ( map->sw_data == NULL ) { SDL_FreeBlitMap(map); SDL_OutOfMemory(); return(NULL); } memset(map->sw_data, 0, sizeof(*map->sw_data)); /* It's ready to go */ return(map); } void SDL_InvalidateMap(SDL_BlitMap *map) { if ( ! map ) { return; } map->dst = NULL; map->format_version = (unsigned int)-1; if ( map->table ) { free(map->table); map->table = NULL; } } int SDL_MapSurface (SDL_Surface *src, SDL_Surface *dst) { SDL_PixelFormat *srcfmt; SDL_PixelFormat *dstfmt; SDL_BlitMap *map; /* Clear out any previous mapping */ map = src->map; if ( (src->flags & SDL_RLEACCEL) == SDL_RLEACCEL ) { SDL_UnRLESurface(src, 1); } SDL_InvalidateMap(map); /* Figure out what kind of mapping we're doing */ map->identity = 0; srcfmt = src->format; dstfmt = dst->format; switch (srcfmt->BytesPerPixel) { case 1: switch (dstfmt->BytesPerPixel) { case 1: /* Palette --> Palette */ /* If both SDL_HWSURFACE, assume have same palette */ if ( ((src->flags & SDL_HWSURFACE) == SDL_HWSURFACE) && ((dst->flags & SDL_HWSURFACE) == SDL_HWSURFACE) ) { map->identity = 1; } else { map->table = Map1to1(srcfmt->palette, dstfmt->palette, &map->identity); } if ( ! map->identity ) { if ( map->table == NULL ) { return(-1); } } if (srcfmt->BitsPerPixel!=dstfmt->BitsPerPixel) map->identity = 0; break; default: /* Palette --> BitField */ map->table = Map1toN(srcfmt->palette, dstfmt); if ( map->table == NULL ) { return(-1); } break; } break; default: switch (dstfmt->BytesPerPixel) { case 1: /* BitField --> Palette */ map->table = MapNto1(srcfmt, dstfmt->palette, &map->identity); if ( ! map->identity ) { if ( map->table == NULL ) { return(-1); } } map->identity = 0; /* Don't optimize to copy */ break; default: /* BitField --> BitField */ if ( FORMAT_EQUAL(srcfmt, dstfmt) ) map->identity = 1; break; } break; } map->dst = dst; map->format_version = dst->format_version; /* Choose your blitters wisely */ return(SDL_CalculateBlit(src)); } void SDL_FreeBlitMap(SDL_BlitMap *map) { if ( map ) { SDL_InvalidateMap(map); if ( map->sw_data != NULL ) { free(map->sw_data); } free(map); } }