/* Emacs style mode select -*- C++ -*- *----------------------------------------------------------------------------- * * * PrBoom a Doom port merged with LxDoom and LSDLDoom * based on BOOM, a modified and improved DOOM engine * Copyright (C) 1999 by * id Software, Chi Hoang, Lee Killough, Jim Flynn, Rand Phares, Ty Halderman * Copyright (C) 1999-2000 by * Jess Haas, Nicolas Kalkhof, Colin Phipps, Florian Schulze * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA * 02111-1307, USA. * * DESCRIPTION: * The actual span/column drawing functions. * Here find the main potential for optimization, * e.g. inline assembly, different algorithms. * *-----------------------------------------------------------------------------*/ #include "doomstat.h" #include "w_wad.h" #include "r_main.h" #include "v_video.h" #include "st_stuff.h" #include "g_game.h" #include "am_map.h" //#include "lprintf.h" #include "rockmacros.h" // // All drawing to the view buffer is accomplished in this file. // The other refresh files only know about ccordinates, // not the architecture of the frame buffer. // Conveniently, the frame buffer is a linear one, // and we need only the base address, // and the total size == width*height*depth/8., // //byte* viewimage; int viewwidth; int scaledviewwidth; int viewheight; int viewwindowx; int viewwindowy; byte *topleft IBSS_ATTR; // Color tables for different players, // translate a limited part to another // (color ramps used for suit colors). // // CPhipps - made const*'s const byte *tranmap IBSS_ATTR; // translucency filter maps 256x256 // phares const byte *main_tranmap IBSS_ATTR; // killough 4/11/98 // // R_DrawColumn // Source is the top of the column to scale. // lighttable_t *dc_colormap IBSS_ATTR; int dc_x IBSS_ATTR; int dc_yl IBSS_ATTR; int dc_yh IBSS_ATTR; fixed_t dc_iscale IBSS_ATTR; fixed_t dc_texturemid IBSS_ATTR; int dc_texheight IBSS_ATTR; // killough const byte *dc_source IBSS_ATTR; // first pixel in a column (possibly virtual) // // A column is a vertical slice/span from a wall texture that, // given the DOOM style restrictions on the view orientation, // will always have constant z depth. // Thus a special case loop for very fast rendering can // be used. It has also been used with Wolfenstein 3D. // void R_DrawColumn (void) { int count; register byte *dest; // killough register fixed_t frac; // killough // leban 1/17/99: // removed the + 1 here, adjusted the if test, and added an increment // later. this helps a compiler pipeline a bit better. the x86 // assembler also does this. count = dc_yh - dc_yl; // Zero length, column does not exceed a pixel. if (count < 0) return; #ifdef RANGECHECK if ((unsigned)dc_x >= SCREENWIDTH || dc_yl < 0 || dc_yh >= SCREENHEIGHT) I_Error ("R_DrawColumn: %d to %d at %d", dc_yl, dc_yh, dc_x); #endif count++; // Framebuffer destination address. dest = topleft + dc_yl*SCREENWIDTH + dc_x; // Determine scaling, // which is the only mapping to be done. #define fracstep dc_iscale frac = dc_texturemid + (dc_yl-centery)*fracstep; // Inner loop that does the actual texture mapping, // e.g. a DDA-lile scaling. // This is as fast as it gets. (Yeah, right!!! -- killough) // // killough 2/1/98: more performance tuning if (dc_texheight == 128) { while(count--) { *dest = dc_colormap[dc_source[(frac>>FRACBITS)&127]]; frac += fracstep; dest += SCREENWIDTH; } } else if (dc_texheight == 0) { /* cph - another special case */ while (count--) { *dest = dc_colormap[dc_source[frac>>FRACBITS]]; frac += fracstep; dest += SCREENWIDTH; } } else { register unsigned heightmask = dc_texheight-1; // CPhipps - specify type if (! (dc_texheight & heightmask) ) // power of 2 -- killough { while (count>0) // texture height is a power of 2 -- killough { *dest = dc_colormap[dc_source[(frac>>FRACBITS) & heightmask]]; dest += SCREENWIDTH; frac += fracstep; count--; } } else { heightmask++; heightmask <<= FRACBITS; if (frac < 0) while ((frac += heightmask) < 0) ; else while (frac >= (int)heightmask) frac -= heightmask; while(count>0) { // Re-map color indices from wall texture column // using a lighting/special effects LUT. // heightmask is the Tutti-Frutti fix -- killough *dest = dc_colormap[dc_source[frac>>FRACBITS]]; dest += SCREENWIDTH; if ((frac += fracstep) >= (int)heightmask) frac -= heightmask; count--; } } } } #undef fracstep // Here is the version of R_DrawColumn that deals with translucent // phares // textures and sprites. It's identical to R_DrawColumn except // | // for the spot where the color index is stuffed into *dest. At // V // that point, the existing color index and the new color index // are mapped through the TRANMAP lump filters to get a new color // index whose RGB values are the average of the existing and new // colors. // // Since we're concerned about performance, the 'translucent or // opaque' decision is made outside this routine, not down where the // actual code differences are. void R_DrawTLColumn (void) { int count; register byte *dest; // killough register fixed_t frac; // killough count = dc_yh - dc_yl + 1; // Zero length, column does not exceed a pixel. if (count <= 0) return; #ifdef RANGECHECK if ((unsigned)dc_x >= (unsigned)SCREENWIDTH || dc_yl < 0 || dc_yh >= SCREENHEIGHT) I_Error("R_DrawTLColumn: %i to %i at %i", dc_yl, dc_yh, dc_x); #endif // Framebuffer destination address. dest = topleft + dc_yl*SCREENWIDTH + dc_x; // Determine scaling, // which is the only mapping to be done. #define fracstep dc_iscale frac = dc_texturemid + (dc_yl-centery)*fracstep; // Inner loop that does the actual texture mapping, // e.g. a DDA-lile scaling. // This is as fast as it gets. (Yeah, right!!! -- killough) // // killough 2/1/98, 2/21/98: more performance tuning { register const byte *source = dc_source; register const lighttable_t *colormap = dc_colormap; register unsigned heightmask = dc_texheight-1; // CPhipps - specify type if (dc_texheight & heightmask) // not a power of 2 -- killough { heightmask++; heightmask <<= FRACBITS; if (frac < 0) while ((frac += heightmask) < 0) ; else while (frac >= (int)heightmask) frac -= heightmask; do { // Re-map color indices from wall texture column // using a lighting/special effects LUT. // heightmask is the Tutti-Frutti fix -- killough *dest = tranmap[(*dest<<8)+colormap[source[frac>>FRACBITS]]]; // phares dest += SCREENWIDTH; if ((frac += fracstep) >= (int)heightmask) frac -= heightmask; } while (--count); } else { while ((count-=2)>=0) // texture height is a power of 2 -- killough { *dest = tranmap[(*dest<<8)+colormap[source[(frac>>FRACBITS) & heightmask]]]; // phares dest += SCREENWIDTH; frac += fracstep; *dest = tranmap[(*dest<<8)+colormap[source[(frac>>FRACBITS) & heightmask]]]; // phares dest += SCREENWIDTH; frac += fracstep; } if (count & 1) *dest = tranmap[(*dest<<8)+colormap[source[(frac>>FRACBITS) & heightmask]]]; // phares } } } #undef fracstep // // Spectre/Invisibility. // #define FUZZTABLE 50 // proff 08/17/98: Changed for high-res //#define FUZZOFF (SCREENWIDTH) #define FUZZOFF 1 static const int fuzzoffset_org[FUZZTABLE] ICONST_ATTR = { FUZZOFF,-FUZZOFF,FUZZOFF,-FUZZOFF,FUZZOFF,FUZZOFF,-FUZZOFF, FUZZOFF,FUZZOFF,-FUZZOFF,FUZZOFF,FUZZOFF,FUZZOFF,-FUZZOFF, FUZZOFF,FUZZOFF,FUZZOFF,-FUZZOFF,-FUZZOFF,-FUZZOFF,-FUZZOFF, FUZZOFF,-FUZZOFF,-FUZZOFF,FUZZOFF,FUZZOFF,FUZZOFF,FUZZOFF,-FUZZOFF, FUZZOFF,-FUZZOFF,FUZZOFF,FUZZOFF,-FUZZOFF,-FUZZOFF,FUZZOFF, FUZZOFF,-FUZZOFF,-FUZZOFF,-FUZZOFF,-FUZZOFF,FUZZOFF,FUZZOFF, FUZZOFF,FUZZOFF,-FUZZOFF,FUZZOFF,FUZZOFF,-FUZZOFF,FUZZOFF } ; static int fuzzoffset[FUZZTABLE] IBSS_ATTR; static int fuzzpos IBSS_ATTR = 0; // // Framebuffer postprocessing. // Creates a fuzzy image by copying pixels // from adjacent ones to left and right. // Used with an all black colormap, this // could create the SHADOW effect, // i.e. spectres and invisible players. // void R_DrawFuzzColumn(void) { int count; byte *dest; fixed_t frac; fixed_t fracstep; // Adjust borders. Low... if (!dc_yl) dc_yl = 1; // .. and high. if (dc_yh == viewheight-1) dc_yh = viewheight - 2; count = dc_yh - dc_yl; // Zero length. if (count < 0) return; #ifdef RANGECHECK if ((unsigned) dc_x >= (unsigned)SCREENWIDTH || dc_yl < 0 || (unsigned)dc_yh >= (unsigned)SCREENHEIGHT) I_Error("R_DrawFuzzColumn: %i to %i at %i", dc_yl, dc_yh, dc_x); #endif // Keep till detailshift bug in blocky mode fixed, // or blocky mode removed. // Does not work with blocky mode. dest = topleft + dc_yl*SCREENWIDTH + dc_x; // Looks familiar. fracstep = dc_iscale; frac = dc_texturemid + (dc_yl-centery)*fracstep; // Looks like an attempt at dithering, // using the colormap #6 (of 0-31, a bit brighter than average). do { // Lookup framebuffer, and retrieve // a pixel that is either one column // left or right of the current one. // Add index from colormap to index. // killough 3/20/98: use fullcolormap instead of colormaps *dest = fullcolormap[6*256+dest[fuzzoffset[fuzzpos]]]; // Some varying invisibility effects can be gotten by playing // phares // with this logic. For example, try // phares // // phares // *dest = fullcolormap[0*256+dest[FUZZOFF]]; // phares // Clamp table lookup index. if (++fuzzpos == FUZZTABLE) fuzzpos = 0; dest += SCREENWIDTH; frac += fracstep; } while (count--); } // // R_DrawTranslatedColumn // Used to draw player sprites // with the green colorramp mapped to others. // Could be used with different translation // tables, e.g. the lighter colored version // of the BaronOfHell, the HellKnight, uses // identical sprites, kinda brightened up. // byte *dc_translation, *translationtables; void R_DrawTranslatedColumn (void) { int count; byte *dest; fixed_t frac; fixed_t fracstep; count = dc_yh - dc_yl; if (count < 0) return; #ifdef RANGECHECK if ((unsigned)dc_x >= (unsigned)SCREENWIDTH || dc_yl < 0 || (unsigned)dc_yh >= (unsigned)SCREENHEIGHT) I_Error("R_DrawColumn: %i to %i at %i", dc_yl, dc_yh, dc_x); #endif // FIXME. As above. dest = topleft + dc_yl*SCREENWIDTH + dc_x; // Looks familiar. fracstep = dc_iscale; frac = dc_texturemid + (dc_yl-centery)*fracstep; // Here we do an additional index re-mapping. do { // Translation tables are used // to map certain colorramps to other ones, // used with PLAY sprites. // Thus the "green" ramp of the player 0 sprite // is mapped to gray, red, black/indigo. *dest = dc_colormap[dc_translation[dc_source[frac>>FRACBITS]]]; dest += SCREENWIDTH; frac += fracstep; } while (count--); } // // R_InitTranslationTables // Creates the translation tables to map // the green color ramp to gray, brown, red. // Assumes a given structure of the PLAYPAL. // Could be read from a lump instead. // byte playernumtotrans[MAXPLAYERS]; extern lighttable_t *(*c_zlight)[LIGHTLEVELS][MAXLIGHTZ]; void R_InitTranslationTables (void) { int i, j; #define MAXTRANS 3 byte transtocolour[MAXTRANS]; // killough 5/2/98: // Remove dependency of colormaps aligned on 256-byte boundary if (translationtables == NULL) // CPhipps - allow multiple calls translationtables = Z_Malloc(256*MAXTRANS, PU_STATIC, 0); for (i=0; i= 0x70 && i<= 0x7f) { // CPhipps - configurable player colours translationtables[i] = colormaps[0][((i&0xf)<<9) + transtocolour[0]]; translationtables[i+256] = colormaps[0][((i&0xf)<<9) + transtocolour[1]]; translationtables[i+512] = colormaps[0][((i&0xf)<<9) + transtocolour[2]]; } else // Keep all other colors as is. translationtables[i]=translationtables[i+256]=translationtables[i+512]=i; } // // R_DrawSpan // With DOOM style restrictions on view orientation, // the floors and ceilings consist of horizontal slices // or spans with constant z depth. // However, rotation around the world z axis is possible, // thus this mapping, while simpler and faster than // perspective correct texture mapping, has to traverse // the texture at an angle in all but a few cases. // In consequence, flats are not stored by column (like walls), // and the inner loop has to step in texture space u and v. // int ds_y IBSS_ATTR; int ds_x1 IBSS_ATTR; int ds_x2 IBSS_ATTR; lighttable_t *ds_colormap IBSS_ATTR; fixed_t ds_xfrac IBSS_ATTR; fixed_t ds_yfrac IBSS_ATTR; fixed_t ds_xstep IBSS_ATTR; fixed_t ds_ystep IBSS_ATTR; // start of a 64*64 tile image byte *ds_source IBSS_ATTR; void R_DrawSpan (void) { #if defined(CPU_COLDFIRE) && !defined(SIMULATOR) // only slightly faster asm volatile ( "tst %[count] \n" "beq endspanloop \n" "clr.l %%d4 \n" "spanloop: \n" "move.l %[xfrac], %%d1 \n" "move.l %[yfrac], %%d2 \n" "lsr.l #8,%%d1 \n" "lsr.l #8,%%d2 \n" "lsr.l #8,%%d1 \n" "lsr.l #2,%%d2 \n" "and.l #63,%%d1 \n" "and.l #4032,%%d2 \n" "or.l %%d2, %%d1 \n" "move.b (%[source], %%d1), %%d4 \n" "add.l %[ds_xstep], %[xfrac] \n" "add.l %[ds_ystep], %[yfrac] \n" "move.b (%[colormap],%%d4.l), (%[dest])+ \n" "subq.l #1, %[count] \n" "bne spanloop \n" "endspanloop: \n" : /* outputs */ : /* inputs */ [count] "d" (ds_x2-ds_x1+1), [xfrac] "d" (ds_xfrac), [yfrac] "d" (ds_yfrac), [source] "a" (ds_source), [colormap] "a" (ds_colormap), [dest] "a" (topleft+ds_y*SCREENWIDTH +ds_x1), [ds_xstep] "d" (ds_xstep), [ds_ystep] "d" (ds_ystep) : /* clobbers */ "d1", "d2", "d4" ); #else register unsigned count = ds_x2 - ds_x1 + 1,xfrac = ds_xfrac,yfrac = ds_yfrac; register byte *source = ds_source; register byte *colormap = ds_colormap; register byte *dest = topleft + ds_y*SCREENWIDTH + ds_x1; while (count) { register unsigned xtemp = xfrac >> 16; register unsigned ytemp = yfrac >> 10; register unsigned spot; ytemp &= 4032; xtemp &= 63; spot = xtemp | ytemp; xfrac += ds_xstep; yfrac += ds_ystep; *dest++ = colormap[source[spot]]; count--; } #endif } // // R_InitBuffer // Creats lookup tables that avoid // multiplies and other hazzles // for getting the framebuffer address // of a pixel to draw. // void R_InitBuffer(int width, int height) { int i=0; // Handle resize, // e.g. smaller view windows // with border and/or status bar. viewwindowx = (SCREENWIDTH-width) >> 1; // Same with base row offset. viewwindowy = width==SCREENWIDTH ? 0 : (SCREENHEIGHT-(ST_SCALED_HEIGHT-1)-height)>>1; topleft = d_screens[0] + viewwindowy*SCREENWIDTH + viewwindowx; // Preclaculate all row offsets. // CPhipps - merge viewwindowx into here for (i=0; i= ( SCREENHEIGHT - ST_SCALED_HEIGHT )) return; // if high-res, don't go any further! top = ((SCREENHEIGHT-ST_SCALED_HEIGHT)-viewheight)/2; side = (SCREENWIDTH-scaledviewwidth)/2; // copy top and one line of left side R_VideoErase (0, top*SCREENWIDTH+side); // copy one line of right side and bottom ofs = (viewheight+top)*SCREENWIDTH-side; R_VideoErase (ofs, top*SCREENWIDTH+side); // copy sides using wraparound ofs = top*SCREENWIDTH + SCREENWIDTH-side; side <<= 1; for (i=1 ; i