ref: e029357a195263d878999872a558ff40b02c469b
dir: /src/rt_scale.c/
/* Copyright (C) 1994-1995 Apogee Software, Ltd. 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. */ #include "rt_def.h" #include "watcom.h" #include <stdio.h> #include <string.h> #include "modexlib.h" #include "rt_util.h" #include "rt_draw.h" #include "rt_scale.h" #include "_rt_scal.h" #include "rt_sc_a.h" #include "engine.h" #include "w_wad.h" #include "z_zone.h" #include "lumpy.h" #include "rt_main.h" #include "rt_ted.h" #include "rt_vid.h" #include "rt_view.h" #include "rt_playr.h" //MED #include "memcheck.h" /* ============================================================================= GLOBALS ============================================================================= */ // Draw Column vars int dc_texturemid; int dc_iscale; int dc_invscale; int sprtopoffset; int dc_yl; int dc_yh; //byte * dc_firstsource; byte * dc_source; int centeryclipped; int transparentlevel=0; /* ========================== = = SetPlayerLightLevel = ========================== */ void SetPlayerLightLevel (void) { int i; int lv; int intercept; int height; whereami=23; if (MISCVARS->GASON==1) { shadingtable=greenmap+(MISCVARS->gasindex<<8); return; } if (fulllight || fog) { shadingtable=colormap+(1<<12); return; } height=PLAYERHEIGHT; if (player->angle < FINEANGLES/8 || player->angle > 7*FINEANGLES/8) intercept=(player->x>>11)&0x1c; else if (player->angle < 3*FINEANGLES/8) intercept=(player->y>>11)&0x1c; else if (player->angle < 5*FINEANGLES/8) intercept=(player->x>>11)&0x1c; else intercept=(player->y>>11)&0x1c; if (lightsource) { lv=(((LightSourceAt(player->x>>16,player->y>>16)>>intercept)&0xf)>>1); i=maxshade-(height>>normalshade)-lv; if (i<minshade) i=minshade; shadingtable=colormap+(i<<8); } else { i=maxshade-(height>>normalshade); if (i<minshade) i=minshade; shadingtable=colormap+(i<<8); } } /* ========================== = = SetLightLevel = ========================== */ void SetLightLevel (int height) { int i; whereami=24; if (MISCVARS->GASON==1) { shadingtable=greenmap+(MISCVARS->gasindex<<8); return; } if (fulllight) { shadingtable=colormap+(1<<12); return; } if (fog) { i=((height*200/iGLOBAL_SCREENHEIGHT)>>normalshade)+minshade; if (i>maxshade) i=maxshade; shadingtable=colormap+(i<<8); } else { i=maxshade-(height>>normalshade); if (i<minshade) i=minshade; shadingtable=colormap+(i<<8); } } /* ========================== = = ScaleTransparentPost = ========================== */ void ScaleTransparentPost (byte * src, byte * buf, int level) { int offset; int length; int topscreen; int bottomscreen; byte * oldlevel; byte * seelevel; whereami=25; seelevel=colormap+(((level+64)>>2)<<8); oldlevel=shadingtable; offset=*(src++); for (; offset!=255;) { length=*(src++); topscreen = sprtopoffset + (dc_invscale*offset); bottomscreen = topscreen + (dc_invscale*length); dc_yl = (topscreen+SFRACUNIT)>>SFRACBITS; dc_yh = ((bottomscreen-1)>>SFRACBITS); if (dc_yh >= viewheight) dc_yh = viewheight-1; if (dc_yl < 0) dc_yl = 0; if ((*src)==254) { shadingtable=seelevel; if (dc_yl <= dc_yh) R_TransColumn (buf); src++; offset=*(src++); shadingtable=oldlevel; } else { if (dc_yl <= dc_yh) { dc_source=src-offset; R_DrawColumn (buf); } src+=length; offset=*(src++); } } whereami=-2; } void ScaleMaskedPost (byte * src, byte * buf) { int offset; int length; int topscreen; int bottomscreen; whereami=26; offset=*(src++); for (; offset!=255;) { length=*(src++); topscreen = sprtopoffset + (dc_invscale*offset); bottomscreen = topscreen + (dc_invscale*length); dc_yl = (topscreen+SFRACUNIT)>>SFRACBITS; dc_yh = ((bottomscreen-1)>>SFRACBITS); if (dc_yh >= viewheight) dc_yh = viewheight-1; if (dc_yl < 0) dc_yl = 0; if (dc_yl <= dc_yh) { dc_source=src-offset; R_DrawColumn (buf); } src+=length; offset=*(src++); } } void ScaleClippedPost (byte * src, byte * buf) { int offset; int length; int topscreen; int bottomscreen; whereami=27; offset=*(src++); for (; offset!=255;) { length=*(src++); topscreen = sprtopoffset + (dc_invscale*offset); bottomscreen = topscreen + (dc_invscale*length); dc_yl = (topscreen+SFRACUNIT-1)>>SFRACBITS; dc_yh = ((bottomscreen-1)>>SFRACBITS); if (dc_yh >= viewheight) dc_yh = viewheight-1; if (dc_yl < 0) dc_yl = 0; if (dc_yl <= dc_yh) { dc_source=src-offset; R_DrawClippedColumn (buf); } src+=length; offset=*(src++); } } void ScaleSolidMaskedPost (int color, byte * src, byte * buf) { int offset; int length; int topscreen; int bottomscreen; whereami=28; offset=*(src++); for (; offset!=255;) { length=*(src++); topscreen = sprtopoffset + (dc_invscale*offset); bottomscreen = topscreen + (dc_invscale*length); dc_yl = (topscreen+SFRACUNIT)>>SFRACBITS; dc_yh = ((bottomscreen-1)>>SFRACBITS); if (dc_yh >= viewheight) dc_yh = viewheight-1; if (dc_yl < 0) dc_yl = 0; if (dc_yl <= dc_yh) { dc_source=src-offset; R_DrawSolidColumn (color, buf); } src+=length; offset=*(src++); } } void ScaleTransparentClippedPost (byte * src, byte * buf, int level) { int offset; int length; int topscreen; int bottomscreen; byte * oldlevel; byte * seelevel; whereami=29; seelevel=colormap+(((level+64)>>2)<<8); oldlevel=shadingtable; offset=*(src++); for (; offset!=255;) { length=*(src++); topscreen = sprtopoffset + (dc_invscale*offset); bottomscreen = topscreen + (dc_invscale*length); dc_yl = (topscreen+SFRACUNIT)>>SFRACBITS; dc_yh = ((bottomscreen-1)>>SFRACBITS); if (dc_yh >= viewheight) dc_yh = viewheight-1; if (dc_yl < 0) dc_yl = 0; if ((*src)==254) { shadingtable=seelevel; if (dc_yl <= dc_yh) R_TransColumn (buf); src++; offset=*(src++); shadingtable=oldlevel; } else { if (dc_yl <= dc_yh) { dc_source=src-offset; R_DrawClippedColumn (buf); } src+=length; offset=*(src++); } } } void ScaleMaskedWidePost (byte * src, byte * buf, int x, int width) { buf += x; while (width--) { ScaleMaskedPost(src,buf); buf++; } } void ScaleClippedWidePost (byte * src, byte * buf, int x, int width) { buf += x; while (width--) { ScaleClippedPost(src,buf); buf++; } } /* ======================= = = ScaleShape = ======================= */ void ScaleShape (visobj_t * sprite) { byte *shape; int frac; patch_t *p; int x1,x2; int tx; int size; whereami=32; shape=W_CacheLumpNum(sprite->shapenum,PU_CACHE, Cvt_patch_t, 1); p=(patch_t *)shape; size=p->origsize>>7; // sprite->viewheight<<=1; dc_invscale=sprite->viewheight<<((10-HEIGHTFRACTION)-size); tx=-p->leftoffset; sprite->viewx=(sprite->viewx<<SFRACBITS)-(sprite->viewheight<<(SFRACBITS-HEIGHTFRACTION-1))+(SFRACUNIT>>1); // // calculate edges of the shape // x1 = (sprite->viewx+(tx*dc_invscale))>>SFRACBITS; if (x1 >= viewwidth) { return; // off the right side } tx+=p->width; x2 = ((sprite->viewx+(tx*dc_invscale)) >>SFRACBITS) - 1 ; if (x2 < 0) { return; // off the left side } // dc_iscale=(1<<(16+6+HEIGHTFRACTION+size))/sprite->viewheight; dc_iscale=0xffffffffu/(unsigned)dc_invscale; dc_texturemid=(((sprite->h1<<size) + p->topoffset)<<SFRACBITS);//+(SFRACUNIT>>1); sprtopoffset=centeryfrac - FixedMul(dc_texturemid,dc_invscale); shadingtable=sprite->colormap; if (x1<0) { frac=dc_iscale*(-x1); x1=0; } else frac=0; x2 = x2 >= viewwidth ? viewwidth-1 : x2; if (sprite->viewheight>((1<<(HEIGHTFRACTION+6))<<size)) { int texturecolumn; int lastcolumn; int startx; int width; width=1; startx=0; lastcolumn=-1; for (; x1<=x2 ; x1++, frac += dc_iscale) { if (posts[x1].wallheight>sprite->viewheight) { if (lastcolumn>=0) { ScaleMaskedWidePost(((p->collumnofs[lastcolumn])+shape),(byte *)bufferofs,startx,width); width=1; lastcolumn=-1; } continue; } texturecolumn = frac>>SFRACBITS; if ((texturecolumn==lastcolumn)&&(width<9)) { width++; continue; } else { if (lastcolumn>=0) { ScaleMaskedWidePost(((p->collumnofs[lastcolumn])+shape),(byte *)bufferofs,startx,width); width=1; startx=x1; lastcolumn=texturecolumn; } else { startx=x1; lastcolumn=texturecolumn; } } } if (lastcolumn!=-1) ScaleMaskedWidePost(((p->collumnofs[lastcolumn])+shape),(byte *)bufferofs,startx,width); } else { byte * b; int startfrac; int startx; startx=x1; startfrac=frac; if (doublestep>1) { { frac=startfrac; for (x1=startx; x1<=x2; x1+=2, frac += (dc_iscale<<1)) { if ( (posts[x1].wallheight>sprite->viewheight) && (posts[x1+1].wallheight>sprite->viewheight) ) continue; if (x1==viewwidth-1) ScaleMaskedWidePost(((p->collumnofs[frac>>SFRACBITS])+shape),(byte *)bufferofs,x1,1); else ScaleMaskedWidePost(((p->collumnofs[frac>>SFRACBITS])+shape),(byte *)bufferofs,x1,2); } } } else { { frac=startfrac; b=(byte *)bufferofs+startx; for (x1=startx; x1<=x2; x1++, frac += dc_iscale,b++) { if (posts[x1].wallheight>sprite->viewheight) continue; ScaleMaskedPost(((p->collumnofs[frac>>SFRACBITS])+shape),b); } } } } } /* ======================= = = ScaleTranparentShape = ======================= */ void ScaleTransparentShape (visobj_t * sprite) { byte *shape; int frac; transpatch_t *p; int x1,x2; int tx; int size; byte * b; int startfrac; int startx; whereami=33; shape=W_CacheLumpNum(sprite->shapenum,PU_CACHE, Cvt_transpatch_t, 1); p=(transpatch_t *)shape; size=p->origsize>>7; dc_invscale=sprite->viewheight<<((10-HEIGHTFRACTION)-size); tx=-p->leftoffset; sprite->viewx=(sprite->viewx<<SFRACBITS)-(sprite->viewheight<<(SFRACBITS-HEIGHTFRACTION-1)); // // calculate edges of the shape // x1 = (sprite->viewx+(tx*dc_invscale))>>SFRACBITS; if (x1 >= viewwidth) { return; // off the right side } tx+=p->width; x2 = ((sprite->viewx+(tx*dc_invscale)) >>SFRACBITS) - 1 ; if (x2 < 0) { return; // off the left side } // dc_iscale=(1<<(16+6+HEIGHTFRACTION+size))/sprite->viewheight; dc_iscale=0xffffffffu/(unsigned)dc_invscale; dc_texturemid=(((sprite->h1<<size)+p->topoffset)<<SFRACBITS);//+(SFRACUNIT>>1); sprtopoffset=centeryfrac - FixedMul(dc_texturemid,dc_invscale); shadingtable=sprite->colormap; if (x1<0) { frac=dc_iscale*(-x1); x1=0; } else frac=0; x2 = x2 >= viewwidth ? viewwidth-1 : x2; startx=x1; startfrac=frac; { frac=startfrac; b=(byte *)bufferofs+startx; for (x1=startx; x1<=x2; x1++, frac += dc_iscale,b++) { if (posts[x1].wallheight>sprite->viewheight) continue; ScaleTransparentPost(((p->collumnofs[frac>>SFRACBITS])+shape),b,sprite->h2); } } } /* ======================= = = ScaleSolidShape = ======================= */ void ScaleSolidShape (visobj_t * sprite) { byte *shape; int frac; patch_t *p; int x1,x2; int tx; int size; byte * b; int startfrac; int startx; whereami=34; shape=W_CacheLumpNum(sprite->shapenum,PU_CACHE, Cvt_patch_t, 1); p=(patch_t *)shape; size=p->origsize>>7; dc_invscale=sprite->viewheight<<((10-HEIGHTFRACTION)-size); tx=-p->leftoffset; sprite->viewx=(sprite->viewx<<SFRACBITS)-(sprite->viewheight<<(SFRACBITS-HEIGHTFRACTION-1))+(SFRACUNIT>>1); // // calculate edges of the shape // x1 = (sprite->viewx+(tx*dc_invscale))>>SFRACBITS; if (x1 >= viewwidth) { return; // off the right side } tx+=p->width; x2 = ((sprite->viewx+(tx*dc_invscale)) >>SFRACBITS) - 1 ; if (x2 < 0) { return; // off the left side } // dc_iscale=(1<<(16+6+HEIGHTFRACTION+size))/sprite->viewheight; dc_iscale=0xffffffffu/(unsigned)dc_invscale; dc_texturemid=(((sprite->h1<<size)+p->topoffset)<<SFRACBITS);//+(SFRACUNIT>>1); sprtopoffset=centeryfrac - FixedMul(dc_texturemid,dc_invscale); shadingtable=sprite->colormap; if (x1<0) { frac=dc_iscale*(-x1); x1=0; } else frac=0; x2 = x2 >= viewwidth ? viewwidth-1 : x2; startx=x1; startfrac=frac; { frac=startfrac; b=(byte *)bufferofs+startx; for (x1=startx; x1<=x2; x1++, frac += dc_iscale,b++) { if (posts[x1].wallheight>sprite->viewheight) continue; ScaleSolidMaskedPost(sprite->h2,((p->collumnofs[frac>>SFRACBITS])+shape),b); } } } /* ======================= = = ScaleWeapon = ======================= */ void ScaleWeapon (int xoff, int y, int shapenum) { byte *shape; int frac; int h; patch_t *p; int x1,x2; int tx; int xcent; byte * b; int startfrac; int startx; whereami=35; SetPlayerLightLevel(); shape=W_CacheLumpNum(shapenum,PU_CACHE, Cvt_patch_t, 1); p=(patch_t *)shape; h=((p->origsize*weaponscale)>>17); centeryclipped=(viewheight-h)+FixedMul(y,weaponscale); xcent=centerx+FixedMul(xoff,weaponscale); dc_invscale=(h<<17)/p->origsize; tx=-p->leftoffset; xcent=(xcent<<SFRACBITS)-(h<<SFRACBITS); // // calculate edges of the shape // x1 = (xcent+(tx*dc_invscale))>>SFRACBITS; if (x1 >= viewwidth) return; // off the right side tx+=p->width; x2 = ((xcent+(tx*dc_invscale)) >>SFRACBITS) - 1 ; if (x2 < 0) return; // off the left side dc_iscale=0xffffffffu/(unsigned)dc_invscale; dc_texturemid=(((p->origsize>>1)+p->topoffset)<<SFRACBITS)+(SFRACUNIT>>2); sprtopoffset=(centeryclipped<<16) - FixedMul(dc_texturemid,dc_invscale); // // store information in a vissprite // if (x1<0) { frac=dc_iscale*(-x1); x1=0; } else frac=0; x2 = x2 >= viewwidth ? viewwidth-1 : x2; startx=x1; startfrac=frac; { frac=startfrac; b=(byte *)bufferofs+startx; for (x1=startx; x1<=x2 ; x1++, frac += dc_iscale,b++) ScaleClippedPost(((p->collumnofs[frac>>SFRACBITS])+shape),b); } } /* ======================= = = DrawUnScaledSprite = ======================= */ void DrawUnScaledSprite (int x, int y, int shapenum, int shade) { byte *shape; int frac; patch_t *p; int x1,x2; int tx; int xcent; byte * b; int startfrac; int startx; whereami=36; shadingtable=colormap+(shade<<8); centeryclipped=y; xcent=x; shape=W_CacheLumpNum(shapenum,PU_CACHE, Cvt_patch_t, 1); p=(patch_t *)shape; dc_invscale=0x10000; tx=-p->leftoffset; xcent-=p->origsize>>1; // // calculate edges of the shape // x1 = xcent+tx; if (x1 >= viewwidth) return; // off the right side tx+=p->width; x2 = xcent+tx - 1; if (x2 < 0) return; // off the left side dc_iscale=0x10000; dc_texturemid=(((p->height>>1)+p->topoffset)<<SFRACBITS);//+(SFRACUNIT>>1); sprtopoffset=(centeryclipped<<16) - dc_texturemid; // // store information in a vissprite // if (x1<0) { frac=dc_iscale*(-x1); x1=0; } else frac = 0; x2 = x2 >= viewwidth ? viewwidth-1 : x2; startx=x1; startfrac=frac; { frac=startfrac; b=(byte *)bufferofs+startx; for (x1=startx; x1<=x2 ; x1++, frac += dc_iscale,b++) ScaleClippedPost(((p->collumnofs[frac>>SFRACBITS])+shape),b); } } /* ======================= = = DrawScreenSprite = ======================= */ void DrawScreenSprite (int x, int y, int shapenum) { whereami=37; ScaleWeapon (x-160, y-200, shapenum); } /* ======================= = = DrawPositionedScaledSprite = ======================= */ void DrawPositionedScaledSprite (int x, int y, int shapenum, int height, int type) { byte *shape; int frac; patch_t *p; transpatch_t *tp; int x1,x2; int tx; int xcent; byte * b; int startfrac; int startx; int size; whereami=38; shadingtable=colormap+(1<<12); centeryclipped=y; xcent=x; shape=W_CacheLumpNum(shapenum,PU_CACHE, Cvt_patch_t, 1); // was transpatch, fixed p=(patch_t *)shape; tp=(transpatch_t *)shape; size=p->origsize>>7; dc_invscale=height<<(10-size); tx=-p->leftoffset; xcent=(xcent<<SFRACBITS)-(height<<(SFRACBITS-1)); // // calculate edges of the shape // x1 = (xcent+(tx*dc_invscale))>>SFRACBITS; if (x1 >= viewwidth) return; // off the right side tx+=p->width; x2 = ((xcent+(tx*dc_invscale)) >>SFRACBITS) - 1 ; if (x2 < 0) return; // off the left side dc_iscale=0xffffffffu/(unsigned)dc_invscale; // dc_iscale=(1<<(16+6+size))/height; dc_texturemid=(((32<<size)+p->topoffset)<<SFRACBITS)+(SFRACUNIT>>1); sprtopoffset=(centeryclipped<<16) - FixedMul(dc_texturemid,dc_invscale); // // store information in a vissprite // if (x1<0) { frac=dc_iscale*(-x1); x1=0; } else frac=0; x2 = x2 >= viewwidth ? viewwidth-1 : x2; startx=x1; startfrac=frac; { frac=startfrac; b=(byte *)bufferofs+startx; for (x1=startx; x1<=x2 ; x1++, frac += dc_iscale,b++) if (type==0) ScaleClippedPost(((p->collumnofs[frac>>SFRACBITS])+shape),b); else ScaleTransparentClippedPost(((tp->collumnofs[frac>>SFRACBITS])+shape),b,transparentlevel); } } /* ================= = = DrawScreenSizedSprite = ================= */ extern int G_gmasklump; void DrawScreenSizedSprite (int lump) { //draws gasmask among other things zxcv byte *shape,*src; int frac; patch_t *p; int x1,x2; int tx; // int plane; byte * b; int startfrac; int offset; int length; int topscreen; int bottomscreen; byte *cnt,*Ycnt; // SetTextMode ( ); whereami=39; shadingtable=colormap+(1<<12); shape=W_CacheLumpNum(lump,PU_CACHE, Cvt_patch_t, 1); p=(patch_t *)shape; dc_invscale=(viewwidth<<16)/p->origsize; tx=-p->leftoffset; centeryclipped=viewheight>>1; //centeryclipped=(viewheight>>1)+43; // // calculate edges of the shape // x1 = (tx*dc_invscale)>>SFRACBITS; if (x1 >= viewwidth) { return; // off the right side } tx+=p->width; x2 = ((tx*dc_invscale) >>SFRACBITS) - 1 ; if (x2 < 0) { return; // off the left side } dc_iscale=0xffffffffu/(unsigned)dc_invscale; dc_texturemid=(((p->origsize>>1) + p->topoffset)<<SFRACBITS)+(SFRACUNIT>>1); sprtopoffset=(centeryclipped<<16) - FixedMul(dc_texturemid,dc_invscale); x2 = (viewwidth-1); startfrac=0; { frac=startfrac; b=(byte *)bufferofs; ///////////// BNA PATCH ////////////////////////////////////////////////////////// //gmasklump=W_GetNumForName("p_gmask"); //=783 //perhaps I should have painted the mask in a seperate buffer //and streched it and copyet it back, but that would demand //a new buffer (size=800x600) and slowed the game down so ? // if its the gasmask, paint black patches at hires if ((lump == G_gmasklump)&&(iGLOBAL_SCREENWIDTH>320)) { src = ((p->collumnofs[frac>>SFRACBITS])+shape); offset=*(src++); length=*(src++); topscreen = sprtopoffset + (dc_invscale*offset); bottomscreen = topscreen + (dc_invscale*length); dc_yl = (topscreen+SFRACUNIT-1)>>SFRACBITS;//=41 viewheight=584 dc_yh = ((bottomscreen-1)>>SFRACBITS);//=540 viewwidth =800 //paint upper black patch in gasmask for (cnt=b; cnt<b+viewwidth; cnt++) { for (Ycnt=cnt; Ycnt<cnt+(dc_yl*iGLOBAL_SCREENWIDTH); Ycnt+=iGLOBAL_SCREENWIDTH) { *Ycnt = 36; } } //paint lower black patch in gasmask for (cnt=b+(dc_yh*iGLOBAL_SCREENWIDTH); cnt<b+(dc_yh*iGLOBAL_SCREENWIDTH)+viewwidth; cnt++) { for (Ycnt=cnt; Ycnt<b+(viewheight*iGLOBAL_SCREENWIDTH); Ycnt+=iGLOBAL_SCREENWIDTH) { *Ycnt = 36; } } } /////////////////////////////////////////////////////////////////////////////////// for (x1=0; x1<=x2; x1++, frac += dc_iscale,b++) { ScaleClippedPost(((p->collumnofs[frac>>SFRACBITS])+shape),b); } } } //****************************************************************************** // // DrawNormalPost // //****************************************************************************** void DrawNormalPost (byte * src, byte * buf) { int offset; int length; int s; whereami=40; while (1) { offset=*(src++); if (offset==0xff) return; else { length=*(src++); for (s=0; s<length; s++) { // Spaced out a little for tracking a bug. Should be equivalent. byte *saddr = src+s; byte *daddr = buf + ylookup[offset + s]; byte val = *saddr; *daddr = val; // *(buf+ylookup[offset+s])=*(src+s); } src+=length; } } } //****************************************************************************** // // DrawNormalSprite // //****************************************************************************** void DrawNormalSprite (int x, int y, int shapenum) { byte *buffer; int cnt; byte *shape; patch_t *p; byte * b; int startx; whereami=41; shape = W_CacheLumpNum (shapenum, PU_CACHE, Cvt_patch_t, 1); p = (patch_t *)shape; if (((x-p->leftoffset)<0) || ((x-p->leftoffset+p->width)>iGLOBAL_SCREENWIDTH)) Error ("DrawNormalSprite: x is out of range x=%d\n",x-p->leftoffset+p->width); if (((y-p->topoffset)<0) || ((y-p->topoffset+p->height)>iGLOBAL_SCREENHEIGHT)) Error ("DrawNormalSprite: y is out of range y=%d\n",y-p->topoffset+p->height); startx=x-p->leftoffset; buffer = (byte*)bufferofs+ylookup[y-p->topoffset]; { b=buffer+startx; for (cnt = 0; cnt < p->width; cnt++,b++) DrawNormalPost ((byte *)(p->collumnofs[cnt]+shape), b); } } void R_DrawColumn (byte * buf) { // This is *NOT* 100% correct - DDOI int count; int frac, fracstep; byte *dest; count = dc_yh - dc_yl + 1; if (count < 0) return; dest = buf + ylookup[dc_yl]; fracstep = dc_iscale; frac = dc_texturemid + (dc_yl-centery)*fracstep; while (count--) { //*dest = test++; *dest = shadingtable[dc_source[(frac>>SFRACBITS)]]; dest += iGLOBAL_SCREENWIDTH; frac += fracstep; } } void R_TransColumn (byte * buf) { int count; byte *dest; count = dc_yh - dc_yl + 1; if (count < 0) return; dest = buf + ylookup[dc_yl]; while (count--) { *dest = shadingtable[*dest]; dest += iGLOBAL_SCREENWIDTH; } } void R_DrawWallColumn (byte * buf) { // This is *NOT* 100% correct - DDOI int count; int frac, fracstep; byte *dest; count = dc_yh - dc_yl; if (count < 0) return; dest = buf + ylookup[dc_yl]; fracstep = dc_iscale; frac = dc_texturemid + (dc_yl-centery)*fracstep; frac <<= 10; fracstep <<= 10; while (count--) { //*dest = 6; *dest = shadingtable[dc_source[(((unsigned)frac)>>26)]]; dest += iGLOBAL_SCREENWIDTH; frac += fracstep; } } void R_DrawClippedColumn (byte * buf) { // This is *NOT* 100% correct - DDOI zxcv int count; int frac, fracstep; byte *dest; // byte *b;int y; count = dc_yh - dc_yl + 1; if (count < 0) return; dest = buf + ylookup[dc_yl]; fracstep = dc_iscale; frac = dc_texturemid + (dc_yl-centeryclipped)*fracstep; while (count--) { *dest = shadingtable[dc_source[(((unsigned)frac)>>SFRACBITS)]]; dest += iGLOBAL_SCREENWIDTH; frac += fracstep; } } void R_DrawSolidColumn (int color, byte * buf) { int count; byte *dest; count = dc_yh - dc_yl + 1; if (count < 0) return; dest = buf + ylookup[dc_yl]; while (count--) { *dest = (byte)color; dest += iGLOBAL_SCREENWIDTH; } }