SRB2/src/f_wipe.c
toasterbabe d669a4e84a Introducing pMasterPalette.
Used instead of pLocalPalette when attempting to determine objective truths, such as "the colours of this gif without color profile modification" and "what indicies should this colormap remap to".

Also, made f_wipe.c's paldiv only get calculated once.
2017-04-30 22:18:06 +01:00

380 lines
9.6 KiB
C

// SONIC ROBO BLAST 2
//-----------------------------------------------------------------------------
// Copyright (C) 1993-1996 by id Software, Inc.
// Copyright (C) 1998-2000 by DooM Legacy Team.
// Copyright (C) 2013-2016 by Matthew "Inuyasha" Walsh.
// Copyright (C) 1999-2016 by Sonic Team Junior.
//
// This program is free software distributed under the
// terms of the GNU General Public License, version 2.
// See the 'LICENSE' file for more details.
//-----------------------------------------------------------------------------
/// \file f_wipe.c
/// \brief SRB2 2.1 custom fade mask "wipe" behavior.
#include "f_finale.h"
#include "i_video.h"
#include "v_video.h"
#include "r_draw.h" // transtable
#include "p_pspr.h" // tr_transxxx
#include "w_wad.h"
#include "z_zone.h"
#include "i_system.h"
#include "m_menu.h"
#include "console.h"
#include "d_main.h"
#include "m_misc.h" // movie mode
#ifdef HWRENDER
#include "hardware/hw_main.h"
#endif
#if NUMSCREENS < 5
#define NOWIPE // do not enable wipe image post processing for ARM, SH and MIPS CPUs
#endif
typedef struct fademask_s {
UINT8* mask;
UINT16 width, height;
size_t size;
fixed_t xscale, yscale;
} fademask_t;
UINT8 wipedefs[NUMWIPEDEFS] = {
99, // wipe_credits_intermediate (0)
0, // wipe_level_toblack
UINT8_MAX, // wipe_intermission_toblack
UINT8_MAX, // wipe_continuing_toblack
0, // wipe_titlescreen_toblack
0, // wipe_timeattack_toblack
99, // wipe_credits_toblack
0, // wipe_evaluation_toblack
0, // wipe_gameend_toblack
99, // wipe_intro_toblack (hardcoded)
99, // wipe_cutscene_toblack (hardcoded)
0, // wipe_specinter_toblack
0, // wipe_multinter_toblack
0, // wipe_speclevel_towhite
0, // wipe_level_final
0, // wipe_intermission_final
0, // wipe_continuing_final
0, // wipe_titlescreen_final
0, // wipe_timeattack_final
99, // wipe_credits_final
0, // wipe_evaluation_final
0, // wipe_gameend_final
99, // wipe_intro_final (hardcoded)
99, // wipe_cutscene_final (hardcoded)
0, // wipe_specinter_final
0 // wipe_multinter_final
};
//--------------------------------------------------------------------------
// SCREEN WIPE PACKAGE
//--------------------------------------------------------------------------
boolean WipeInAction = false;
INT32 lastwipetic = 0;
#ifndef NOWIPE
static UINT8 *wipe_scr_start; //screen 3
static UINT8 *wipe_scr_end; //screen 4
static UINT8 *wipe_scr; //screen 0 (main drawing)
static fixed_t paldiv = 0;
/** Create fademask_t from lump
*
* \param lump Lump name to get data from
* \return fademask_t for lump
*/
static fademask_t *F_GetFadeMask(UINT8 masknum, UINT8 scrnnum) {
static char lumpname[9] = "FADEmmss";
static fademask_t fm = {NULL,0,0,0,0,0};
lumpnum_t lumpnum;
UINT8 *lump, *mask;
size_t lsize;
RGBA_t *pcolor;
if (masknum > 99 || scrnnum > 99)
goto freemask;
sprintf(&lumpname[4], "%.2hu%.2hu", (UINT16)masknum, (UINT16)scrnnum);
lumpnum = W_CheckNumForName(lumpname);
if (lumpnum == LUMPERROR)
goto freemask;
lump = W_CacheLumpNum(lumpnum, PU_CACHE);
lsize = W_LumpLength(lumpnum);
switch (lsize)
{
case 256000: // 640x400
fm.width = 640;
fm.height = 400;
break;
case 64000: // 320x200
fm.width = 320;
fm.height = 200;
break;
case 16000: // 160x100
fm.width = 160;
fm.height = 100;
break;
case 4000: // 80x50 (minimum)
fm.width = 80;
fm.height = 50;
break;
default: // bad lump
CONS_Alert(CONS_WARNING, "Fade mask lump %s of incorrect size, ignored\n", lumpname);
case 0: // end marker (not bad!, but still need clearing)
goto freemask;
}
if (lsize != fm.size)
fm.mask = Z_Realloc(fm.mask, lsize, PU_STATIC, NULL);
fm.size = lsize;
mask = fm.mask;
while (lsize--)
{
// Determine pixel to use from fademask
pcolor = &pMasterPalette[*lump++];
*mask++ = FixedDiv((pcolor->s.red+1)<<FRACBITS, paldiv)>>FRACBITS;
}
fm.xscale = FixedDiv(vid.width<<FRACBITS, fm.width<<FRACBITS);
fm.yscale = FixedDiv(vid.height<<FRACBITS, fm.height<<FRACBITS);
return &fm;
// Landing point for freeing data -- do this instead of just returning NULL
// this ensures the fade data isn't remaining in memory, unused
// (could be up to 256,000 bytes if it's a HQ fade!)
freemask:
if (fm.mask)
{
Z_Free(fm.mask);
fm.mask = NULL;
fm.size = 0;
}
return NULL;
}
/** Wipe ticker
*
* \param fademask pixels to change
*/
static void F_DoWipe(fademask_t *fademask)
{
// Software mask wipe -- optimized; though it might not look like it!
// Okay, to save you wondering *how* this is more optimized than the simpler
// version that came before it...
// ---
// The previous code did two FixedMul calls for every single pixel on the
// screen, of which there are hundreds of thousands -- if not millions -- of.
// This worked fine for smaller screen sizes, but with excessively large
// (1920x1200) screens that meant 4 million+ calls out to FixedMul, and that
// would take /just/ long enough that fades would start to noticably lag.
// ---
// This code iterates over the fade mask's pixels instead of the screen's,
// and deals with drawing over each rectangular area before it moves on to
// the next pixel in the fade mask. As a result, it's more complex (and might
// look a little messy; sorry!) but it simultaneously runs at twice the speed.
// In addition, we precalculate all the X and Y positions that we need to draw
// from and to, so it uses a little extra memory, but again, helps it run faster.
{
// wipe screen, start, end
UINT8 *w = wipe_scr;
const UINT8 *s = wipe_scr_start;
const UINT8 *e = wipe_scr_end;
// first pixel for each screen
UINT8 *w_base = w;
const UINT8 *s_base = s;
const UINT8 *e_base = e;
// mask data, end
UINT8 *transtbl;
const UINT8 *mask = fademask->mask;
const UINT8 *maskend = mask + fademask->size;
// rectangle draw hints
UINT32 draw_linestart, draw_rowstart;
UINT32 draw_lineend, draw_rowend;
UINT32 draw_linestogo, draw_rowstogo;
// rectangle coordinates, etc.
UINT16* scrxpos = (UINT16*)malloc((fademask->width + 1) * sizeof(UINT16));
UINT16* scrypos = (UINT16*)malloc((fademask->height + 1) * sizeof(UINT16));
UINT16 maskx, masky;
UINT32 relativepos;
// ---
// Screw it, we do the fixed point math ourselves up front.
scrxpos[0] = 0;
for (relativepos = 0, maskx = 1; maskx < fademask->width; ++maskx)
scrxpos[maskx] = (relativepos += fademask->xscale)>>FRACBITS;
scrxpos[fademask->width] = vid.width;
scrypos[0] = 0;
for (relativepos = 0, masky = 1; masky < fademask->height; ++masky)
scrypos[masky] = (relativepos += fademask->yscale)>>FRACBITS;
scrypos[fademask->height] = vid.height;
// ---
maskx = masky = 0;
do
{
draw_rowstart = scrxpos[maskx];
draw_rowend = scrxpos[maskx + 1];
draw_linestart = scrypos[masky];
draw_lineend = scrypos[masky + 1];
relativepos = (draw_linestart * vid.width) + draw_rowstart;
draw_linestogo = draw_lineend - draw_linestart;
if (*mask == 0)
{
// shortcut - memcpy source to work
while (draw_linestogo--)
{
M_Memcpy(w_base+relativepos, s_base+relativepos, draw_rowend-draw_rowstart);
relativepos += vid.width;
}
}
else if (*mask == 10)
{
// shortcut - memcpy target to work
while (draw_linestogo--)
{
M_Memcpy(w_base+relativepos, e_base+relativepos, draw_rowend-draw_rowstart);
relativepos += vid.width;
}
}
else
{
// pointer to transtable that this mask would use
transtbl = transtables + ((9 - *mask)<<FF_TRANSSHIFT);
// DRAWING LOOP
while (draw_linestogo--)
{
w = w_base + relativepos;
s = s_base + relativepos;
e = e_base + relativepos;
draw_rowstogo = draw_rowend - draw_rowstart;
while (draw_rowstogo--)
*w++ = transtbl[ ( *e++ << 8 ) + *s++ ];
relativepos += vid.width;
}
// END DRAWING LOOP
}
if (++maskx >= fademask->width)
++masky, maskx = 0;
} while (++mask < maskend);
free(scrxpos);
free(scrypos);
}
}
#endif
/** Save the "before" screen of a wipe.
*/
void F_WipeStartScreen(void)
{
#ifndef NOWIPE
#ifdef HWRENDER
if(rendermode != render_soft)
{
HWR_StartScreenWipe();
return;
}
#endif
wipe_scr_start = screens[3];
I_ReadScreen(wipe_scr_start);
#endif
}
/** Save the "after" screen of a wipe.
*/
void F_WipeEndScreen(void)
{
#ifndef NOWIPE
#ifdef HWRENDER
if(rendermode != render_soft)
{
HWR_EndScreenWipe();
return;
}
#endif
wipe_scr_end = screens[4];
I_ReadScreen(wipe_scr_end);
V_DrawBlock(0, 0, 0, vid.width, vid.height, wipe_scr_start);
#endif
}
/** After setting up the screens you want to wipe,
* calling this will do a 'typical' wipe.
*/
void F_RunWipe(UINT8 wipetype, boolean drawMenu)
{
#ifdef NOWIPE
(void)wipetype;
(void)drawMenu;
#else
tic_t nowtime;
UINT8 wipeframe = 0;
fademask_t *fmask;
if (!paldiv)
paldiv = FixedDiv(257<<FRACBITS, 11<<FRACBITS);
// Init the wipe
WipeInAction = true;
wipe_scr = screens[0];
// lastwipetic should either be 0 or the tic we last wiped
// on for fade-to-black
for (;;)
{
// get fademask first so we can tell if it exists or not
fmask = F_GetFadeMask(wipetype, wipeframe++);
if (!fmask)
break;
// wait loop
while (!((nowtime = I_GetTime()) - lastwipetic))
I_Sleep();
lastwipetic = nowtime;
#ifdef HWRENDER
if (rendermode == render_opengl)
HWR_DoWipe(wipetype, wipeframe-1); // send in the wipe type and wipeframe because we need to cache the graphic
else
#endif
F_DoWipe(fmask);
I_OsPolling();
I_UpdateNoBlit();
if (drawMenu)
M_Drawer(); // menu is drawn even on top of wipes
I_FinishUpdate(); // page flip or blit buffer
if (moviemode)
M_SaveFrame();
}
WipeInAction = false;
#endif
}