shithub: duke3d

ref: a20cc2d81463696a759b130f2d68f0d2f641075b
dir: /Engine/src/engine.c/

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/*
 * "Build Engine & Tools" Copyright (c) 1993-1997 Ken Silverman
 * Ken Silverman's official web site: "http://www.advsys.net/ken"
 * See the included license file "BUILDLIC.TXT" for license info.
 * This file has been modified from Ken Silverman's original release
 */

/* SUPERBUILD define is in engine.h ... */

#define ENGINE

#include <string.h>



#include <math.h>
#include <stdio.h>
#include <stdlib.h>
#include <fcntl.h>
#include <sys/types.h>
#include <sys/stat.h>
#include "platform.h"

#if !PLATFORM_MACOSX
#include <malloc.h>
#endif

#include "build.h"

#include "engine.h"
#include "tiles.h"

int32_t stereowidth = 23040, stereopixelwidth = 28, ostereopixelwidth = -1;
int32_t stereomode = 0, visualpage, activepage, whiteband, blackband;
uint8_t  oa1, o3c2, ortca, ortcb, overtbits, laststereoint;

#include "display.h"

#define MAXCLIPNUM 512
#define MAXPERMS 512
#define MAXTILEFILES 256
#define MAXYSAVES ((MAXXDIM*MAXSPRITES)>>7)
#define MAXNODESPERLINE 42   /* Warning: This depends on MAXYSAVES & MAXYDIM! */
#define MAXWALLSB 2048
#define MAXCLIPDIST 1024

/* used to be static. --ryan. */
uint8_t  moustat = 0;

int32_t transarea = 0, beforedrawrooms = 1;

/* used to be static. --ryan. */
int32_t oxdimen = -1, oviewingrange = -1, oxyaspect = -1;

/* used to be static. --ryan. */
int32_t curbrightness = 0;

/* Textured Map variables */
static uint8_t  globalpolytype;
static short *dotp1[MAXYDIM], *dotp2[MAXYDIM];

static char  tempbuf[MAXWALLS];

int32_t ebpbak, espbak;
intptr_t slopalookup[16384];

/*
 * !!! used to be static. If we ever put the original setgamemode() back, this
 * !!! can be made static again.  --ryan.
 */
uint8_t  permanentlock = 255;
int32_t  mapversion;

uint8_t  picsiz[MAXTILES], tilefilenum[MAXTILES];
int32_t lastageclock;
int32_t tilefileoffs[MAXTILES];

int32_t artsize = 0, cachesize = 0;

static short radarang[1280], radarang2[MAXXDIM+1];
static uint16_t sqrtable[4096], shlookup[4096+256];
uint8_t  pow2char[8] = {1,2,4,8,16,32,64,-128};
int32_t pow2long[32] =
{
    1L,2L,4L,8L,
    16L,32L,64L,128L,
    256L,512L,1024L,2048L,
    4096L,8192L,16384L,32768L,
    65536L,131072L,262144L,524288L,
    1048576L,2097152L,4194304L,8388608L,
    16777216L,33554432L,67108864L,134217728L,
    268435456L,536870912L,1073741824L,2147483647L,
};
int32_t reciptable[2048], fpuasm;

char  kensmessage[128];

uint8_t  britable[16][64];
uint8_t  textfont[1024], smalltextfont[1024];









enum vector_index_e {VEC_X=0,VEC_Y=1};
enum screenSpaceCoo_index_e {VEC_COL=0,VEC_DIST=1};
typedef int32_t vector_t[2];
typedef int32_t coo2D_t[2];
// This is the structure emitted for each wall that is potentially visible.
// A stack of those is populated when the sectors are scanned.
typedef struct pvWall_s{
    vector_t cameraSpaceCoo[2]; //Camera space coordinates of the wall endpoints. Access with vector_index_e.
    int16_t sectorId;        //The index of the sector this wall belongs to in the map database.
    int16_t worldWallId;     //The index of the wall in the map database.
    coo2D_t screenSpaceCoo[2]; //Screen space coordinate of the wall endpoints. Access with screenSpaceCoo_index_e.
} pvWall_t;

// Potentially Visible walls are stored in this stack.
pvWall_t pvWalls[MAXWALLSB];




//xb1 and xb2 seems to be storing the column of the wall endpoint
//yb1 and yb2 store the Y distance from the camera.

//static int32_t xb1[MAXWALLSB], yb1[MAXWALLSB], xb2[MAXWALLSB], yb2[MAXWALLSB];

/*
//rx1,rx2,ry1,ry2 stores the cameraspace wall endpoints coordinates.
static int32_t rx1[MAXWALLSB], ry1[MAXWALLSB], rx2[MAXWALLSB], ry2[MAXWALLSB];
static short thesector[MAXWALLSB], thewall[MAXWALLSB];
*/

// bunchWallsList contains the list of walls in a bunch.
static short bunchWallsList[MAXWALLSB];

static short bunchfirst[MAXWALLSB], bunchlast[MAXWALLSB];







static short smost[MAXYSAVES], smostcnt;
static short smoststart[MAXWALLSB];
static uint8_t  smostwalltype[MAXWALLSB];
static int32_t smostwall[MAXWALLSB], smostwallcnt = -1L;

static short maskwall[MAXWALLSB], maskwallcnt;
static int32_t spritesx[MAXSPRITESONSCREEN];
static int32_t spritesy[MAXSPRITESONSCREEN+1];
static int32_t spritesz[MAXSPRITESONSCREEN];
static spritetype *tspriteptr[MAXSPRITESONSCREEN];

//FCS: (up-most pixel on column x that can still be drawn to)
short umost[MAXXDIM+1];

//FCS: (down-most pixel +1 on column x that can still be drawn to)
short dmost[MAXXDIM+1];

int16_t bakumost[MAXXDIM+1], bakdmost[MAXXDIM+1];
short uplc[MAXXDIM+1], dplc[MAXXDIM+1];
static int16_t uwall[MAXXDIM+1], dwall[MAXXDIM+1];
static int32_t swplc[MAXXDIM+1], lplc[MAXXDIM+1];
static int32_t swall[MAXXDIM+1], lwall[MAXXDIM+4];
int32_t xdimen = -1, xdimenrecip, halfxdimen, xdimenscale, xdimscale;
int32_t wx1, wy1, wx2, wy2, ydimen;
int32_t viewoffset;

static int32_t rxi[8], ryi[8], rzi[8], rxi2[8], ryi2[8], rzi2[8];
static int32_t xsi[8], ysi[8];

/* used to be static. --ryan. */
int32_t *horizlookup=0, *horizlookup2=0, horizycent;

int32_t globalposx, globalposy, globalposz, globalhoriz;
int16_t globalang, globalcursectnum;
int32_t globalpal, cosglobalang, singlobalang;
int32_t cosviewingrangeglobalang, sinviewingrangeglobalang;
uint8_t  *globalpalwritten;
int32_t globaluclip, globaldclip, globvis = 0;
int32_t globalvisibility, globalhisibility, globalpisibility, globalcisibility;
uint8_t  globparaceilclip, globparaflorclip;

int32_t xyaspect, viewingrangerecip;

int32_t asm1, asm4;
intptr_t asm2, asm3;


int32_t vplce[4], vince[4];
intptr_t bufplce[4];

uint8_t*  palookupoffse[4];

uint8_t  globalxshift, globalyshift;
int32_t globalxpanning, globalypanning, globalshade;
int16_t globalpicnum, globalshiftval;
int32_t globalzd, globalyscale, globalorientation;
uint8_t* globalbufplc;
int32_t globalx1, globaly1, globalx2, globaly2, globalx3, globaly3, globalzx;
int32_t globalx, globaly, globalz;

//FCS:
// Those two variables are using during portal flooding:
// sectorBorder is the stack and sectorbordercnt is the stack counter.
// There is no really point to have this on the heap. That would have been better on the stack.

//static short sectorborder[256], sectorbordercnt;
//FCS: Moved this on the stack

static uint8_t  tablesloaded = 0;
int32_t pageoffset, ydim16, qsetmode = 0;
int32_t startposx, startposy, startposz;
int16_t startang, startsectnum;
int16_t pointhighlight, linehighlight, highlightcnt;
static int32_t lastx[MAXYDIM];
uint8_t  paletteloaded = 0;

#define FASTPALGRIDSIZ 8
static int32_t rdist[129], gdist[129], bdist[129];
static uint8_t  colhere[((FASTPALGRIDSIZ+2)*(FASTPALGRIDSIZ+2)*(FASTPALGRIDSIZ+2))>>3];
static uint8_t  colhead[(FASTPALGRIDSIZ+2)*(FASTPALGRIDSIZ+2)*(FASTPALGRIDSIZ+2)];
static int32_t colnext[256];
static uint8_t  coldist[8] = {0,1,2,3,4,3,2,1};
static int32_t colscan[27];

static int16_t clipnum, hitwalls[4];
int32_t hitscangoalx = (1<<29)-1, hitscangoaly = (1<<29)-1;

typedef struct {
    int32_t x1, y1, x2, y2;
} linetype;
static linetype clipit[MAXCLIPNUM];
static short clipsectorlist[MAXCLIPNUM], clipsectnum;
static short clipobjectval[MAXCLIPNUM];

typedef struct
{
    int32_t sx, sy, z;
    short a, picnum;
    int8_t dashade;
    uint8_t  dapalnum, dastat, pagesleft;
    int32_t cx1, cy1, cx2, cy2;
} permfifotype;
static permfifotype permfifo[MAXPERMS];
static int32_t permhead = 0, permtail = 0;

//FCS: Num walls to potentially render.
short numscans ;

short numbunches;

//FCS: Number of colums to draw. ALWAYS set to the screen dimension width.
short numhits;

short editstatus = 0;
short searchit;
int32_t searchx = -1, searchy;                     /* search input  */
short searchsector, searchwall, searchstat;     /* search output */

int32_t numtilefiles, artfil = -1, artfilnum, artfilplc;

static uint8_t  inpreparemirror = 0;
static int32_t mirrorsx1, mirrorsy1, mirrorsx2, mirrorsy2;

int32_t totalclocklock;

uint16_t mapCRC;

#include "draw.h"

static inline int32_t nsqrtasm(uint32_t  param)
{
    uint16_t *shlookup_a = (uint16_t*)shlookup;
    uint16_t *sqrtable_a = (uint16_t*)sqrtable;
    uint16_t cx;

    if (param & 0xff000000)
        cx = shlookup_a[(param>>24)+4096];
    else
        cx = shlookup_a[param>>12];

    param = param >> (cx&0xff);
    param = ((param&0xffff0000)|sqrtable_a[param]);
    param = param >> ((cx&0xff00)>>8);

    return param;
}

static inline int32_t krecipasm(int32_t i)
{
    // tanguyf: fix strict aliasing rules.
    union
    {
        float f;
        int32_t i;
    } value;

    // Ken did this
 //   float f = (float)i;
 //   i = *(int32_t *)&f;

    value.f = (float)i;
    i = value.i;
    return((reciptable[(i >> 12) & 2047] >> (((i - 0x3f800000) >> 23) & 31)) ^ (i >> 31));
}

static inline int32_t getclipmask(int32_t a, int32_t b, int32_t c, int32_t d)
{   // Ken did this
    d = ((a<0)*8) + ((b<0)*4) + ((c<0)*2) + (d<0);
    return(((d<<4)^0xf0)|d);
}

//
// krecip
//
int32_t krecip(int32_t num)
{
    return(krecipasm(num));
}

uint16_t _swap16(uint16_t D)
{
    return((D<<8)|(D>>8));
}

unsigned int _swap32(unsigned int D)
{
    return((D<<24)|((D<<8)&0x00FF0000)|((D>>8)&0x0000FF00)|(D>>24));
}

/*
 FCS:
 Scan through sectors using portals (a portal is wall with a nextsector attribute >= 0).
 Flood is prevented if a portal does not face the POV.
 */
static void scansector (short sectnum)
{
    walltype *wal, *wal2;
    spritetype *spr;
    int32_t xs, ys, x1, y1, x2, y2, xp1, yp1, xp2=0, yp2=0, tempint;
    short z, zz, startwall, endwall, numscansbefore, scanfirst, bunchfrst;
    short nextsectnum;
    
    //The stack storing sectors to visit.
    short sectorsToVisit[256], numSectorsToVisit;
    
    
    if (sectnum < 0)
        return;

    if (automapping)
        show2dsector[sectnum>>3] |= pow2char[sectnum&7];

    sectorsToVisit[0] = sectnum;
    numSectorsToVisit = 1;
    do
    {
        sectnum = sectorsToVisit[--numSectorsToVisit];

        //Add every script in the current sector as potentially visible.
        for(z=headspritesect[sectnum]; z>=0; z=nextspritesect[z])
        {
            spr = &sprite[z];
            if ((((spr->cstat&0x8000) == 0) || (showinvisibility)) &&
                    (spr->xrepeat > 0) && (spr->yrepeat > 0) &&
                    (spritesortcnt < MAXSPRITESONSCREEN))
            {
                xs = spr->x-globalposx;
                ys = spr->y-globalposy;
                if ((spr->cstat&48) || (xs*cosglobalang+ys*singlobalang > 0))
                {
                    copybufbyte(spr,&tsprite[spritesortcnt],sizeof(spritetype));
                    tsprite[spritesortcnt++].owner = z;
                }
            }
        }

        //Mark the current sector bit as "visited" in the bitvector
        visitedSectors[sectnum>>3] |= pow2char[sectnum&7];

        bunchfrst = numbunches;
        numscansbefore = numscans;

        startwall = sector[sectnum].wallptr;
        endwall = startwall + sector[sectnum].wallnum;
        scanfirst = numscans;
        for(z=startwall,wal=&wall[z]; z<endwall; z++,wal++)
        {
            nextsectnum = wal->nextsector;

            wal2 = &wall[wal->point2];

            // In camera space the center is the player.
            // Tranform the 2 Wall endpoints (x,y) from worldspace to camera space.
            // After that we have two vectors starting from the camera and going to the endpoints (x1,y1) and (x2,y2).
            x1 = wal->x-globalposx;
            y1 = wal->y-globalposy;

            x2 = wal2->x-globalposx;
            y2 = wal2->y-globalposy;

            // If this is a portal...
            if ((nextsectnum >= 0) && ((wal->cstat&32) == 0))
                //If this portal has not been visited yet.
                if ((visitedSectors[nextsectnum>>3]&pow2char[nextsectnum&7]) == 0)
                {
                    //Cross product -> Z component
                    tempint = x1*y2-x2*y1;

                    // Using cross product, determine if the portal is facing us or not.
                    // If it is: Add it to the stack and bump the stack counter.
                    // This line is equivalent to tempint < 0x40000
                    if (((uint32_t)tempint+262144) < 524288) // ??? What is this test ?? How acute the angle is ?
                    {
                        //(x2-x1)*(x2-x1)+(y2-y1)*(y2-y1) is the squared length of the wall
                        // ??? What is this test ?? How acute the angle is ?
                        if (mulscale5(tempint,tempint) <= (x2-x1)*(x2-x1)+(y2-y1)*(y2-y1))
                            sectorsToVisit[numSectorsToVisit++] = nextsectnum;
                    }
                }

            // Rotate the wall endpoints vectors according to the player orientation.
            // This is a regular rotation matrix using [29.3] fixed point.
            if ((z == startwall) || (wall[z-1].point2 != z))
            {
                //If this is the first endpoint of the bunch, rotate: This is a standard cos sin 2D rotation matrix projection
                xp1 = dmulscale6(y1,cosglobalang,-x1,singlobalang);
                yp1 = dmulscale6(x1,cosviewingrangeglobalang,y1,sinviewingrangeglobalang);
            }
            else
            {
                //If this is NOT the first endpoint, Save the coordinate for next loop.
                xp1 = xp2;
                yp1 = yp2;
            }

            // Rotate: This is a standard cos sin 2D rotation matrix projection
            xp2 = dmulscale6(y2,cosglobalang,-x2,singlobalang);
            yp2 = dmulscale6(x2,cosviewingrangeglobalang,y2,sinviewingrangeglobalang);



            // Equivalent of a near plane clipping ?
            if ((yp1 < 256) && (yp2 < 256)) goto skipitaddwall;

            /* If wall's NOT facing you */
            if (dmulscale32(xp1,yp2,-xp2,yp1) >= 0) goto skipitaddwall;

            // The wall is still not eligible for rendition: Let's do some more Frustrum culling !!
            if (xp1 >= -yp1){
                
                if ((xp1 > yp1) || (yp1 == 0))
                    goto skipitaddwall;

                //Project the point onto screen and see in which column it belongs.
                pvWalls[numscans].screenSpaceCoo[0][VEC_COL] = halfxdimen + scale(xp1,halfxdimen,yp1);
                if (xp1 >= 0)
                    pvWalls[numscans].screenSpaceCoo[0][VEC_COL]++;   /* Fix for SIGNED divide */

                if (pvWalls[numscans].screenSpaceCoo[0][VEC_COL] >= xdimen)
                    pvWalls[numscans].screenSpaceCoo[0][VEC_COL] = xdimen-1;

                pvWalls[numscans].screenSpaceCoo[0][VEC_DIST] = yp1;
            }
            else{
                
                if (xp2 < -yp2)
                    goto skipitaddwall;

                pvWalls[numscans].screenSpaceCoo[0][VEC_COL] = 0;
                tempint = yp1-yp2+xp1-xp2;
                
                if (tempint == 0)
                    goto skipitaddwall;
                
                pvWalls[numscans].screenSpaceCoo[0][VEC_DIST] = yp1 + scale(yp2-yp1,xp1+yp1,tempint);
            }
            
            if (pvWalls[numscans].screenSpaceCoo[0][VEC_DIST] < 256)
                goto skipitaddwall;

            if (xp2 <= yp2){
                
                if ((xp2 < -yp2) || (yp2 == 0)) goto skipitaddwall;
                pvWalls[numscans].screenSpaceCoo[1][VEC_COL] = halfxdimen + scale(xp2,halfxdimen,yp2) - 1;
                if (xp2 >= 0) pvWalls[numscans].screenSpaceCoo[1][VEC_COL]++;   /* Fix for SIGNED divide */
                if (pvWalls[numscans].screenSpaceCoo[1][VEC_COL] >= xdimen) pvWalls[numscans].screenSpaceCoo[1][VEC_COL] = xdimen-1;
                pvWalls[numscans].screenSpaceCoo[1][VEC_DIST] = yp2;
            }
            else{
                
                if (xp1 > yp1) goto skipitaddwall;
                pvWalls[numscans].screenSpaceCoo[1][VEC_COL] = xdimen-1;
                tempint = xp2-xp1+yp1-yp2;
                if (tempint == 0) goto skipitaddwall;
                pvWalls[numscans].screenSpaceCoo[1][VEC_DIST] = yp1 + scale(yp2-yp1,yp1-xp1,tempint);
            }
            if ((pvWalls[numscans].screenSpaceCoo[1][VEC_DIST] < 256) || (pvWalls[numscans].screenSpaceCoo[0][VEC_COL] > pvWalls[numscans].screenSpaceCoo[1][VEC_COL])) goto skipitaddwall;

            // Made it all the way!
            // Time to add this wall information to the stack of wall potentially visible.
            pvWalls[numscans].sectorId = sectnum;
            pvWalls[numscans].worldWallId = z;

            //Save the camera space wall endpoints coordinate (camera origin at player location + rotated according to player orientation).
            pvWalls[numscans].cameraSpaceCoo[0][VEC_X] = xp1;
            pvWalls[numscans].cameraSpaceCoo[0][VEC_Y] = yp1;
            pvWalls[numscans].cameraSpaceCoo[1][VEC_X] = xp2;
            pvWalls[numscans].cameraSpaceCoo[1][VEC_Y] = yp2;
            

            bunchWallsList[numscans] = numscans+1;
            numscans++;
            
skipitaddwall:

            if ((wall[z].point2 < z) && (scanfirst < numscans))
            {
                bunchWallsList[numscans-1] = scanfirst;
                scanfirst = numscans;
            }
        }

        //FCS: TODO rename this p2[] to bunchList[] or something like that. This name is an abomination
        //     DONE, p2 is now called "bunchWallsList".
        
        //Break down the list of walls for this sector into bunchs. Since a bunch is a
        // continuously visible list of wall: A sector can generate many bunches.
        for(z=numscansbefore; z<numscans; z++)
        {
            if ((wall[pvWalls[z].worldWallId].point2 !=
                 pvWalls[bunchWallsList[z]].worldWallId) || (pvWalls[z].screenSpaceCoo[1][VEC_COL] >= pvWalls[bunchWallsList[z]].screenSpaceCoo[0][VEC_COL]))
            {
                // Create an entry in the bunch list
                bunchfirst[numbunches++] = bunchWallsList[z];
                
                //Mark the end of the bunch wall list.
                bunchWallsList[z] = -1;
            }
        }

        //For each bunch, find the last wall and cache it in bunchlast.
        for(z=bunchfrst; z<numbunches; z++)
        {
            for(zz=bunchfirst[z]; bunchWallsList[zz]>=0; zz=bunchWallsList[zz]);
            bunchlast[z] = zz;
        }

    } while (numSectorsToVisit > 0);
    // do this until the stack of sectors to visit if empty.
}

/*
 FCS:
    
 Goal : ????
 param 1: Z is the wallID in the list of potentially visible walls.
 param 2: Only used to lookup the xrepeat attribute of the wall.
 
*/
static void prepwall(int32_t z, walltype *wal)
{
    int32_t i, l=0, ol=0, splc, sinc, x, topinc, top, botinc, bot, walxrepeat;
    vector_t* wallCoo = pvWalls[z].cameraSpaceCoo;
    
    walxrepeat = (wal->xrepeat<<3);

    /* lwall calculation */
    i = pvWalls[z].screenSpaceCoo[0][VEC_COL]-halfxdimen;
    
    //Let's use some of the camera space wall coordinate now.
    topinc = -(wallCoo[0][VEC_Y]>>2);
    botinc = ((wallCoo[1][VEC_Y]-wallCoo[0][VEC_Y])>>8);
    
    top = mulscale5(wallCoo[0][VEC_X],xdimen)+mulscale2(topinc,i);
    bot = mulscale11(wallCoo[0][VEC_X]-wallCoo[1][VEC_X],xdimen)+mulscale2(botinc,i);

    splc = mulscale19(wallCoo[0][VEC_Y],xdimscale);
    sinc = mulscale16(wallCoo[1][VEC_Y]-wallCoo[0][VEC_Y],xdimscale);

    //X screenspce column of point Z.
    x = pvWalls[z].screenSpaceCoo[0][VEC_COL];
    
    if (bot != 0)
    {
        l = divscale12(top,bot);
        swall[x] = mulscale21(l,sinc)+splc;
        l *= walxrepeat;
        lwall[x] = (l>>18);
    }
    
    //If the wall is less than 4 column wide.
    while (x+4 <= pvWalls[z].screenSpaceCoo[1][VEC_COL])
    {
        top += topinc;
        bot += botinc;
        if (bot != 0)
        {
            ol = l;
            l = divscale12(top,bot);
            swall[x+4] = mulscale21(l,sinc)+splc;
            l *= walxrepeat;
            lwall[x+4] = (l>>18);
        }
        i = ((ol+l)>>1);
        lwall[x+2] = (i>>18);
        lwall[x+1] = ((ol+i)>>19);
        lwall[x+3] = ((l+i)>>19);
        swall[x+2] = ((swall[x]+swall[x+4])>>1);
        swall[x+1] = ((swall[x]+swall[x+2])>>1);
        swall[x+3] = ((swall[x+4]+swall[x+2])>>1);
        x += 4;
    }
    
    //If the wall is less than 2 columns wide.
    if (x+2 <= pvWalls[z].screenSpaceCoo[1][VEC_COL])
    {
        top += (topinc>>1);
        bot += (botinc>>1);
        if (bot != 0)
        {
            ol = l;
            l = divscale12(top,bot);
            swall[x+2] = mulscale21(l,sinc)+splc;
            l *= walxrepeat;
            lwall[x+2] = (l>>18);
        }
        lwall[x+1] = ((l+ol)>>19);
        swall[x+1] = ((swall[x]+swall[x+2])>>1);
        x += 2;
    }
    
    //The wall is 1 column wide.
    if (x+1 <= pvWalls[z].screenSpaceCoo[1][VEC_COL])
    {
        bot += (botinc>>2);
        if (bot != 0)
        {
            l = divscale12(top+(topinc>>2),bot);
            swall[x+1] = mulscale21(l,sinc)+splc;
            lwall[x+1] = mulscale18(l,walxrepeat);
        }
    }

    if (lwall[pvWalls[z].screenSpaceCoo[0][VEC_COL]] < 0)
        lwall[pvWalls[z].screenSpaceCoo[0][VEC_COL]] = 0;
    
    if ((lwall[pvWalls[z].screenSpaceCoo[1][VEC_COL]] >= walxrepeat) && (walxrepeat))
        lwall[pvWalls[z].screenSpaceCoo[1][VEC_COL]] = walxrepeat-1;
    
    if (wal->cstat&8)
    {
        walxrepeat--;
        for(x=pvWalls[z].screenSpaceCoo[0][VEC_COL]; x<=pvWalls[z].screenSpaceCoo[1][VEC_COL]; x++)
            lwall[x] = walxrepeat-lwall[x];
    }
}


static int32_t getpalookup(int32_t davis, int32_t dashade)
{
    return(min(max(dashade+(davis>>8),0),numpalookups-1));
}


static void hline (int32_t xr, int32_t yp)
{
    int32_t xl, r, s;

    xl = lastx[yp];
    
    if (xl > xr)
        return;
    
    r = horizlookup2[yp-globalhoriz+horizycent];
    asm1 = globalx1*r;
    asm2 = globaly2*r;
    s = (getpalookup(mulscale16(r,globvis),globalshade)<<8);

    hlineasm4(xr-xl,s,globalx2*r+globalypanning,globaly1*r+globalxpanning,ylookup[yp]+xr+frameoffset);
}


static void slowhline (int32_t xr, int32_t yp)
{
    int32_t xl, r;

    xl = lastx[yp];
    if (xl > xr) return;
    r = horizlookup2[yp-globalhoriz+horizycent];
    asm1 = globalx1*r;
    asm2 = globaly2*r;

    asm3 = (int32_t)globalpalwritten + (getpalookup(mulscale16(r,globvis),globalshade)<<8);
    if (!(globalorientation&256))
    {
        mhline(globalbufplc,globaly1*r+globalxpanning-asm1*(xr-xl),(xr-xl)<<16,0L,
               globalx2*r+globalypanning-asm2*(xr-xl),ylookup[yp]+xl+frameoffset);
        return;
    }
    thline(globalbufplc,globaly1*r+globalxpanning-asm1*(xr-xl),(xr-xl)<<16,0L,globalx2*r+globalypanning-asm2*(xr-xl),ylookup[yp]+xl+frameoffset);
    transarea += (xr-xl);
}





/* renders non-parallaxed ceilings. --ryan. */
static void ceilscan (int32_t x1, int32_t x2, int32_t sectnum)
{
    int32_t i, j, ox, oy, x, y1, y2, twall, bwall;
    sectortype *sec;

    sec = &sector[sectnum];
    
    if (palookup[sec->ceilingpal] != globalpalwritten)
        globalpalwritten = palookup[sec->ceilingpal];

    
    globalzd = sec->ceilingz-globalposz;
    
    
    if (globalzd > 0)
        return;
    
    
    globalpicnum = sec->ceilingpicnum;
    
    if ((uint32_t)globalpicnum >= (uint32_t)MAXTILES)
        globalpicnum = 0;
    
    setgotpic(globalpicnum);
    
    //Check the tile dimension are valid.
    if ((tiles[globalpicnum].dim.width <= 0) ||
        (tiles[globalpicnum].dim.height <= 0))
        return;
    
    if (tiles[globalpicnum].animFlags&192)
        globalpicnum += animateoffs(globalpicnum);

    TILE_MakeAvailable(globalpicnum);
    
    globalbufplc = tiles[globalpicnum].data;

    globalshade = (int32_t)sec->ceilingshade;
    globvis = globalcisibility;
    if (sec->visibility != 0)
        globvis = mulscale4(globvis,(int32_t)((uint8_t )(sec->visibility+16)));
    
    globalorientation = (int32_t)sec->ceilingstat;


    if ((globalorientation&64) == 0){
        globalx1 = singlobalang;
        globalx2 = singlobalang;
        globaly1 = cosglobalang;
        globaly2 = cosglobalang;
        globalxpanning = (globalposx<<20);
        globalypanning = -(globalposy<<20);
    }
    else{
        j = sec->wallptr;
        ox = wall[wall[j].point2].x - wall[j].x;
        oy = wall[wall[j].point2].y - wall[j].y;
        i = nsqrtasm(ox*ox+oy*oy);
        
        if (i == 0)
            i = 1024;
        else
            i = 1048576/i;
        
        globalx1 = mulscale10(dmulscale10(ox,singlobalang,-oy,cosglobalang),i);
        globaly1 = mulscale10(dmulscale10(ox,cosglobalang,oy,singlobalang),i);
        globalx2 = -globalx1;
        globaly2 = -globaly1;

        ox = ((wall[j].x-globalposx)<<6);
        oy = ((wall[j].y-globalposy)<<6);
        i = dmulscale14(oy,cosglobalang,-ox,singlobalang);
        j = dmulscale14(ox,cosglobalang,oy,singlobalang);
        ox = i;
        oy = j;
        globalxpanning = globalx1*ox - globaly1*oy;
        globalypanning = globaly2*ox + globalx2*oy;
    }
    
    globalx2 = mulscale16(globalx2,viewingrangerecip);
    globaly1 = mulscale16(globaly1,viewingrangerecip);
    globalxshift = (8-(picsiz[globalpicnum]&15));
    globalyshift = (8-(picsiz[globalpicnum]>>4));
    if (globalorientation&8) {
        globalxshift++;
        globalyshift++;
    }

    if ((globalorientation&0x4) > 0){
        i = globalxpanning;
        globalxpanning = globalypanning;
        globalypanning = i;
        i = globalx2;
        globalx2 = -globaly1;
        globaly1 = -i;
        i = globalx1;
        globalx1 = globaly2;
        globaly2 = i;
    }
    if ((globalorientation&0x10) > 0){
        globalx1 = -globalx1;
        globaly1 = -globaly1;
        globalxpanning = -globalxpanning;
    }
    if ((globalorientation&0x20) > 0){
        globalx2 = -globalx2;
        globaly2 = -globaly2;
        globalypanning = -globalypanning;
    }
    
    globalx1 <<= globalxshift;
    globaly1 <<= globalxshift;
    globalx2 <<= globalyshift;
    globaly2 <<= globalyshift;
    globalxpanning <<= globalxshift;
    globalypanning <<= globalyshift;
    globalxpanning += (((int32_t)sec->ceilingxpanning)<<24);
    globalypanning += (((int32_t)sec->ceilingypanning)<<24);
    globaly1 = (-globalx1-globaly1)*halfxdimen;
    globalx2 = (globalx2-globaly2)*halfxdimen;

    sethlinesizes(picsiz[globalpicnum]&15,picsiz[globalpicnum]>>4,globalbufplc);

    globalx2 += globaly2*(x1-1);
    globaly1 += globalx1*(x1-1);
    globalx1 = mulscale16(globalx1,globalzd);
    globalx2 = mulscale16(globalx2,globalzd);
    globaly1 = mulscale16(globaly1,globalzd);
    globaly2 = mulscale16(globaly2,globalzd);
    globvis = klabs(mulscale10(globvis,globalzd));

    if (!(globalorientation&0x180))
    {
        y1 = umost[x1];
        y2 = y1;
        for(x=x1; x<=x2; x++)
        {
            twall = umost[x]-1;
            bwall = min(uplc[x],dmost[x]);
            if (twall < bwall-1)
            {
                if (twall >= y2)
                {
                    while (y1 < y2-1) hline(x-1,++y1);
                    y1 = twall;
                }
                else
                {
                    while (y1 < twall)
                        hline(x-1,++y1);
                    while (y1 > twall)
                        lastx[y1--] = x;
                }
                while (y2 > bwall)
                    hline(x-1,--y2);
                while (y2 < bwall)
                    lastx[y2++] = x;
            }
            else
            {
                while (y1 < y2-1)
                    hline(x-1,++y1);
                if (x == x2) {
                    globalx2 += globaly2;
                    globaly1 += globalx1;
                    break;
                }
                y1 = umost[x+1];
                y2 = y1;
            }
            globalx2 += globaly2;
            globaly1 += globalx1;
        }
        while (y1 < y2-1) hline(x2,++y1);
        faketimerhandler();
        return;
    }

    switch(globalorientation&0x180)
    {
    case 128:
        msethlineshift(picsiz[globalpicnum]&15,picsiz[globalpicnum]>>4);
        break;
    case 256:
		settrans(TRANS_NORMAL);
        tsethlineshift(picsiz[globalpicnum]&15,picsiz[globalpicnum]>>4);
        break;
    case 384:
        settrans(TRANS_REVERSE);
        tsethlineshift(picsiz[globalpicnum]&15,picsiz[globalpicnum]>>4);
        break;
    }

    y1 = umost[x1];
    y2 = y1;
    for(x=x1; x<=x2; x++)
    {
        twall = umost[x]-1;
        bwall = min(uplc[x],dmost[x]);
        if (twall < bwall-1)
        {
            if (twall >= y2)
            {
                while (y1 < y2-1) slowhline(x-1,++y1);
                y1 = twall;
            }
            else
            {
                while (y1 < twall) slowhline(x-1,++y1);
                while (y1 > twall) lastx[y1--] = x;
            }
            while (y2 > bwall) slowhline(x-1,--y2);
            while (y2 < bwall) lastx[y2++] = x;
        }
        else
        {
            while (y1 < y2-1) slowhline(x-1,++y1);
            if (x == x2) {
                globalx2 += globaly2;
                globaly1 += globalx1;
                break;
            }
            y1 = umost[x+1];
            y2 = y1;
        }
        globalx2 += globaly2;
        globaly1 += globalx1;
    }
    while (y1 < y2-1) slowhline(x2,++y1);
    faketimerhandler();
}


/* renders non-parallaxed floors. --ryan. */
static void florscan (int32_t x1, int32_t x2, int32_t sectnum)
{
    int32_t i, j, ox, oy, x, y1, y2, twall, bwall;
    sectortype *sec;

    //Retrieve the sector object
    sec = &sector[sectnum];
    
    //Retrieve the floor palette.
    if (palookup[sec->floorpal] != globalpalwritten)
        globalpalwritten = palookup[sec->floorpal];

    globalzd = globalposz-sec->floorz;
    
    //We are UNDER the floor: Do NOT render anything.
    if (globalzd > 0)
        return;
    
    //Retrive the floor texture.
    globalpicnum = sec->floorpicnum;
    if ((uint32_t)globalpicnum >= (uint32_t)MAXTILES)
        globalpicnum = 0;
    
    //Lock the floor texture
    setgotpic(globalpicnum);
    
    
    //This tile has unvalid dimensions ( negative)
    if ((tiles[globalpicnum].dim.width <= 0) ||
        (tiles[globalpicnum].dim.height <= 0))
        return;
    
    //If this is an animated texture: Animate it.
    if (tiles[globalpicnum].animFlags&192)
        globalpicnum += animateoffs(globalpicnum);

    //If the texture is not in RAM: Load it !!
    TILE_MakeAvailable(globalpicnum);
    
    //Check where is the texture in RAM
    globalbufplc = tiles[globalpicnum].data;

    //Retrieve the shade of the sector (illumination level).
    globalshade = (int32_t)sec->floorshade;
    
    globvis = globalcisibility;
    if (sec->visibility != 0)
        globvis = mulscale4(globvis,(int32_t)((uint8_t)(sec->visibility+16)));
    
    
    globalorientation = (int32_t)sec->floorstat;


    if ((globalorientation&64) == 0)
    {
        globalx1 = singlobalang;
        globalx2 = singlobalang;
        globaly1 = cosglobalang;
        globaly2 = cosglobalang;
        globalxpanning = (globalposx<<20);
        globalypanning = -(globalposy<<20);
    }
    else
    {
        j = sec->wallptr;
        ox = wall[wall[j].point2].x - wall[j].x;
        oy = wall[wall[j].point2].y - wall[j].y;
        i = nsqrtasm(ox*ox+oy*oy);
        if (i == 0)
            i = 1024;
        else
            i = 1048576/i;
        globalx1 = mulscale10(dmulscale10(ox,singlobalang,-oy,cosglobalang),i);
        globaly1 = mulscale10(dmulscale10(ox,cosglobalang,oy,singlobalang),i);
        globalx2 = -globalx1;
        globaly2 = -globaly1;

        ox = ((wall[j].x-globalposx)<<6);
        oy = ((wall[j].y-globalposy)<<6);
        i = dmulscale14(oy,cosglobalang,-ox,singlobalang);
        j = dmulscale14(ox,cosglobalang,oy,singlobalang);
        ox = i;
        oy = j;
        globalxpanning = globalx1*ox - globaly1*oy;
        globalypanning = globaly2*ox + globalx2*oy;
    }
    
    
    globalx2 = mulscale16(globalx2,viewingrangerecip);
    globaly1 = mulscale16(globaly1,viewingrangerecip);
    globalxshift = (8-(picsiz[globalpicnum]&15));
    globalyshift = (8-(picsiz[globalpicnum]>>4));
    if (globalorientation&8) {
        globalxshift++;
        globalyshift++;
    }

    if ((globalorientation&0x4) > 0)
    {
        i = globalxpanning;
        globalxpanning = globalypanning;
        globalypanning = i;
        i = globalx2;
        globalx2 = -globaly1;
        globaly1 = -i;
        i = globalx1;
        globalx1 = globaly2;
        globaly2 = i;
    }
    
    
    if ((globalorientation&0x10) > 0){
        globalx1 = -globalx1;
        globaly1 = -globaly1;
        globalxpanning = -globalxpanning;
    }
    
    if ((globalorientation&0x20) > 0){
        globalx2 = -globalx2;
        globaly2 = -globaly2;
        globalypanning = -globalypanning;
    }
    
    
    globalx1 <<= globalxshift;
    globaly1 <<= globalxshift;
    globalx2 <<= globalyshift;
    globaly2 <<= globalyshift;
    globalxpanning <<= globalxshift;
    globalypanning <<= globalyshift;
    globalxpanning += (((int32_t)sec->floorxpanning)<<24);
    globalypanning += (((int32_t)sec->floorypanning)<<24);
    globaly1 = (-globalx1-globaly1)*halfxdimen;
    globalx2 = (globalx2-globaly2)*halfxdimen;

    //Setup the drawing routine paramters
    sethlinesizes(picsiz[globalpicnum]&15,picsiz[globalpicnum]>>4,globalbufplc);

    globalx2 += globaly2*(x1-1);
    globaly1 += globalx1*(x1-1);
    globalx1 = mulscale16(globalx1,globalzd);
    globalx2 = mulscale16(globalx2,globalzd);
    globaly1 = mulscale16(globaly1,globalzd);
    globaly2 = mulscale16(globaly2,globalzd);
    globvis = klabs(mulscale10(globvis,globalzd));

    if (!(globalorientation&0x180))
    {
        y1 = max(dplc[x1],umost[x1]);
        y2 = y1;
        for(x=x1; x<=x2; x++)
        {
            twall = max(dplc[x],umost[x])-1;
            bwall = dmost[x];
            if (twall < bwall-1)
            {
                if (twall >= y2)
                {
                    while (y1 < y2-1)
                        hline(x-1,++y1);
                    y1 = twall;
                }
                else
                {
                    while (y1 < twall)
                        hline(x-1,++y1);
                    while (y1 > twall)
                        lastx[y1--] = x;
                }
                while (y2 > bwall)
                    hline(x-1,--y2);
                while (y2 < bwall)
                    lastx[y2++] = x;
            }
            else
            {
                while (y1 < y2-1) hline(x-1,++y1);
                if (x == x2) {
                    globalx2 += globaly2;
                    globaly1 += globalx1;
                    break;
                }
                y1 = max(dplc[x+1],umost[x+1]);
                y2 = y1;
            }
            globalx2 += globaly2;
            globaly1 += globalx1;
        }
        while (y1 < y2-1)
            hline(x2,++y1);
        
        faketimerhandler();
        return;
    }

    switch(globalorientation&0x180)
    {
    case 128:
        msethlineshift(picsiz[globalpicnum]&15,picsiz[globalpicnum]>>4);
        break;
    case 256:
        settrans(TRANS_NORMAL);
        tsethlineshift(picsiz[globalpicnum]&15,picsiz[globalpicnum]>>4);
        break;
    case 384:
        settrans(TRANS_REVERSE);
        tsethlineshift(picsiz[globalpicnum]&15,picsiz[globalpicnum]>>4);
        break;
    }

    y1 = max(dplc[x1],umost[x1]);
    y2 = y1;
    for(x=x1; x<=x2; x++)
    {
        twall = max(dplc[x],umost[x])-1;
        bwall = dmost[x];
        if (twall < bwall-1)
        {
            if (twall >= y2)
            {
                while (y1 < y2-1) slowhline(x-1,++y1);
                y1 = twall;
            }
            else
            {
                while (y1 < twall)
                    slowhline(x-1,++y1);
                while (y1 > twall)
                    lastx[y1--] = x;
            }
            while (y2 > bwall)
                slowhline(x-1,--y2);
            while (y2 < bwall)
                lastx[y2++] = x;
        }
        else
        {
            while (y1 < y2-1)
                slowhline(x-1,++y1);
            if (x == x2) {
                globalx2 += globaly2;
                globaly1 += globalx1;
                break;
            }
            y1 = max(dplc[x+1],umost[x+1]);
            y2 = y1;
        }
        globalx2 += globaly2;
        globaly1 += globalx1;
    }
    while (y1 < y2-1)
        slowhline(x2,++y1);
    
    faketimerhandler();
}


/*
 * renders walls and parallaxed skies/floors. Look at parascan() for the
 *  higher level of parallaxing.
 *
 *    x1 == offset of leftmost pixel of wall. 0 is left of surface.
 *    x2 == offset of rightmost pixel of wall. 0 is left of surface.
 *
 *  apparently, walls are always vertical; there are sloping functions
 *   (!!!) er...elsewhere. Only the sides need be vertical, as the top and
 *   bottom of the polygon will need to be angled as the camera perspective
 *   shifts (user spins in a circle, etc.)
 *
 *  uwal is an array of the upper most pixels, and dwal are the lower most.
 *   This must be a list, as the top and bottom of the polygon are not
 *   necessarily horizontal lines.
 *
 *   So, the screen coordinate of the top left of a wall is specified by
 *   uwal[x1], the bottom left by dwal[x1], the top right by uwal[x2], and
 *   the bottom right by dwal[x2]. Every physical point on the edge of the
 *   wall in between is specified by traversing those arrays, one pixel per
 *   element.
 *
 *  --ryan.
 */
static void wallscan(int32_t x1, int32_t x2,
                     int16_t *uwal, int16_t *dwal,
                     int32_t *swal, int32_t *lwal)
{
    int32_t x, xnice, ynice;
    intptr_t i;
    uint8_t* fpalookup;
    int32_t y1ve[4], y2ve[4], u4, d4, z, tileWidth, tsizy;
    uint8_t  bad;

    tileWidth = tiles[globalpicnum].dim.width;
    tsizy = tiles[globalpicnum].dim.height;
    
    setgotpic(globalpicnum);
    
    if ((tileWidth <= 0) || (tsizy <= 0))
        return;
    
    if ((uwal[x1] > ydimen) && (uwal[x2] > ydimen))
        return;
    
    if ((dwal[x1] < 0) && (dwal[x2] < 0))
        return;

    TILE_MakeAvailable(globalpicnum);

    xnice = (pow2long[picsiz[globalpicnum]&15] == tileWidth);
    if (xnice)
        tileWidth--;
    
    ynice = (pow2long[picsiz[globalpicnum]>>4] == tsizy);
    if (ynice)
        tsizy = (picsiz[globalpicnum]>>4);

    fpalookup = palookup[globalpal];

    setupvlineasm(globalshiftval);

    //Starting on the left column of the wall, check the occlusion arrays.
    x = x1;
    while ((umost[x] > dmost[x]) && (x <= x2))
        x++;

    for(; (x<=x2)&&((x+frameoffset-(uint8_t*)NULL)&3); x++)
    {
        y1ve[0] = max(uwal[x],umost[x]);
        y2ve[0] = min(dwal[x],dmost[x]);
        if (y2ve[0] <= y1ve[0])
            continue;

        palookupoffse[0] = fpalookup+(getpalookup((int32_t)mulscale16(swal[x],globvis),globalshade)<<8);

        bufplce[0] = lwal[x] + globalxpanning;
        
        if (bufplce[0] >= tileWidth)
        {
            if (xnice == 0)
                bufplce[0] %= tileWidth;
            else
                bufplce[0] &= tileWidth;
        }

        if (ynice == 0)
            bufplce[0] *= tsizy;
        else
            bufplce[0] <<= tsizy;

        vince[0] = swal[x]*globalyscale;
        vplce[0] = globalzd + vince[0]*(y1ve[0]-globalhoriz+1);

        vlineasm1(vince[0],palookupoffse[0],y2ve[0]-y1ve[0]-1,vplce[0],bufplce[0]+tiles[globalpicnum].data,x+frameoffset+ylookup[y1ve[0]]);
    }
    
    for(; x<=x2-3; x+=4)
    {
        bad = 0;
        for(z=3; z>=0; z--)
        {
            y1ve[z] = max(uwal[x+z],umost[x+z]);
            y2ve[z] = min(dwal[x+z],dmost[x+z])-1;

            if (y2ve[z] < y1ve[z])
            {
                bad += pow2char[z];
                continue;
            }

            i = lwal[x+z] + globalxpanning;
            if (i >= tileWidth) {
                if (xnice == 0) i %= tileWidth;
                else i &= tileWidth;
            }
            if (ynice == 0)
                i *= tsizy;
            else
                i <<= tsizy;
            bufplce[z] = (intptr_t) tiles[globalpicnum].data+i;

            vince[z] = swal[x+z]*globalyscale;
            vplce[z] = globalzd + vince[z]*(y1ve[z]-globalhoriz+1);
        }

        if (bad == 15)
            continue;

        palookupoffse[0] = fpalookup+(getpalookup((int32_t)mulscale16(swal[x],globvis),globalshade)<<8);
        palookupoffse[3] = fpalookup+(getpalookup((int32_t)mulscale16(swal[x+3],globvis),globalshade)<<8);

        if ((palookupoffse[0] == palookupoffse[3]) && ((bad&0x9) == 0))
        {
            palookupoffse[1] = palookupoffse[0];
            palookupoffse[2] = palookupoffse[0];
        }
        else
        {
            palookupoffse[1] = fpalookup+(getpalookup((int32_t)mulscale16(swal[x+1],globvis),globalshade)<<8);
            palookupoffse[2] = fpalookup+(getpalookup((int32_t)mulscale16(swal[x+2],globvis),globalshade)<<8);
        }

        u4 = max(max(y1ve[0],y1ve[1]),max(y1ve[2],y1ve[3]));
        d4 = min(min(y2ve[0],y2ve[1]),min(y2ve[2],y2ve[3]));

        if ((bad != 0) || (u4 >= d4))
        {
            if (!(bad&1))
                prevlineasm1(vince[0],palookupoffse[0],y2ve[0]-y1ve[0],vplce[0],(uint8_t*) bufplce[0],ylookup[y1ve[0]]+x+frameoffset+0);
            if (!(bad&2))
                prevlineasm1(vince[1],palookupoffse[1],y2ve[1]-y1ve[1],vplce[1],(uint8_t*) bufplce[1],ylookup[y1ve[1]]+x+frameoffset+1);
            if (!(bad&4))
                prevlineasm1(vince[2],palookupoffse[2],y2ve[2]-y1ve[2],vplce[2],(uint8_t*) bufplce[2],ylookup[y1ve[2]]+x+frameoffset+2);
            if (!(bad&8))
                prevlineasm1(vince[3],palookupoffse[3],y2ve[3]-y1ve[3],vplce[3],(uint8_t*) bufplce[3],ylookup[y1ve[3]]+x+frameoffset+3);
            continue;
        }

        if (u4 > y1ve[0])
            vplce[0] =prevlineasm1(vince[0],palookupoffse[0],u4-y1ve[0]-1,vplce[0],(uint8_t*) bufplce[0],ylookup[y1ve[0]]+x+frameoffset+0);
        if (u4 > y1ve[1])
            vplce[1] = prevlineasm1(vince[1],palookupoffse[1],u4-y1ve[1]-1,vplce[1],(uint8_t*) bufplce[1],ylookup[y1ve[1]]+x+frameoffset+1);
        if (u4 > y1ve[2])
            vplce[2] = prevlineasm1(vince[2],palookupoffse[2],u4-y1ve[2]-1,vplce[2],(uint8_t*) bufplce[2],ylookup[y1ve[2]]+x+frameoffset+2);
        if (u4 > y1ve[3])
            vplce[3] = prevlineasm1(vince[3],palookupoffse[3],u4-y1ve[3]-1,vplce[3],(uint8_t*) bufplce[3],ylookup[y1ve[3]]+x+frameoffset+3);

        if (d4 >= u4) 
            vlineasm4(d4-u4+1,ylookup[u4]+x+frameoffset);

        i = x+frameoffset+ylookup[d4+1];
        
        if (y2ve[0] > d4)
            prevlineasm1(vince[0],palookupoffse[0],y2ve[0]-d4-1,vplce[0],(uint8_t*) bufplce[0],(uint8_t*) i+0);
        if (y2ve[1] > d4)
            prevlineasm1(vince[1],palookupoffse[1],y2ve[1]-d4-1,vplce[1],(uint8_t*) bufplce[1],(uint8_t*) i+1);
        if (y2ve[2] > d4)
            prevlineasm1(vince[2],palookupoffse[2],y2ve[2]-d4-1,vplce[2],(uint8_t*) bufplce[2],(uint8_t*) i+2);
        if (y2ve[3] > d4)
            prevlineasm1(vince[3],palookupoffse[3],y2ve[3]-d4-1,vplce[3],(uint8_t*) bufplce[3],(uint8_t*) i+3);
    }
    for(; x<=x2; x++)
    {
        y1ve[0] = max(uwal[x],umost[x]);
        y2ve[0] = min(dwal[x],dmost[x]);
        if (y2ve[0] <= y1ve[0])
            continue;

        palookupoffse[0] = fpalookup+(getpalookup((int32_t)mulscale16(swal[x],globvis),globalshade)<<8);

        bufplce[0] = lwal[x] + globalxpanning;
        if (bufplce[0] >= tileWidth) {
            if (xnice == 0)
                bufplce[0] %= tileWidth;
            else
                bufplce[0] &= tileWidth;
        }
        
        if (ynice == 0) bufplce[0]
            *= tsizy;
        else
            bufplce[0] <<= tsizy;

        vince[0] = swal[x]*globalyscale;
        vplce[0] = globalzd + vince[0]*(y1ve[0]-globalhoriz+1);

        vlineasm1(vince[0],palookupoffse[0],y2ve[0]-y1ve[0]-1,vplce[0],bufplce[0]+tiles[globalpicnum].data,x+frameoffset+ylookup[y1ve[0]]);
    }
    faketimerhandler();
}


/* this renders masking sprites. See wallscan(). --ryan. */
static void maskwallscan(int32_t x1, int32_t x2,
                         short *uwal, short *dwal,
                         int32_t *swal, int32_t *lwal)
{
    int32_t x, startx, xnice, ynice;
    intptr_t i;
    uint8_t* fpalookup;
    int32_t y1ve[4], y2ve[4], u4, d4, dax, z, tileWidth, tileHeight;
    uint8_t*  p;
    uint8_t  bad;

    tileWidth = tiles[globalpicnum].dim.width;
    tileHeight = tiles[globalpicnum].dim.height;
    setgotpic(globalpicnum);
    
    if ((tileWidth <= 0) || (tileHeight <= 0))
        return;
    if ((uwal[x1] > ydimen) && (uwal[x2] > ydimen))
        return;
    if ((dwal[x1] < 0) && (dwal[x2] < 0))
        return;

    TILE_MakeAvailable(globalpicnum);

    startx = x1;

    xnice = (pow2long[picsiz[globalpicnum]&15] == tileWidth);
    if (xnice)
        tileWidth = (tileWidth-1);
    
    ynice = (pow2long[picsiz[globalpicnum]>>4] == tileHeight);
    if (ynice)
        tileHeight = (picsiz[globalpicnum]>>4);

    fpalookup = palookup[globalpal];

    setupmvlineasm(globalshiftval);

    x = startx;
    while ((startumost[x+windowx1] > startdmost[x+windowx1]) && (x <= x2)) x++;

    p = x+frameoffset;

    for(; (x<=x2)&&((p-(uint8_t*)NULL)&3); x++,p++)
    {
        y1ve[0] = max(uwal[x],startumost[x+windowx1]-windowy1);
        y2ve[0] = min(dwal[x],startdmost[x+windowx1]-windowy1);
        if (y2ve[0] <= y1ve[0]) continue;

        palookupoffse[0] = fpalookup+(getpalookup((int32_t)mulscale16(swal[x],globvis),globalshade)<<8);

        bufplce[0] = lwal[x] + globalxpanning;
        if (bufplce[0] >= tileWidth) {
            if (xnice == 0) bufplce[0] %= tileWidth;
            else bufplce[0] &= tileWidth;
        }
        if (ynice == 0)
            bufplce[0] *= tileHeight;
        else
            bufplce[0] <<= tileHeight;

        vince[0] = swal[x]*globalyscale;
        vplce[0] = globalzd + vince[0]*(y1ve[0]-globalhoriz+1);

        mvlineasm1(vince[0],palookupoffse[0],y2ve[0]-y1ve[0]-1,vplce[0],bufplce[0]+tiles[globalpicnum].data,p+ylookup[y1ve[0]]);
    }
    for(; x<=x2-3; x+=4,p+=4)
    {
        bad = 0;
        for(z=3,dax=x+3; z>=0; z--,dax--)
        {
            y1ve[z] = max(uwal[dax],startumost[dax+windowx1]-windowy1);
            y2ve[z] = min(dwal[dax],startdmost[dax+windowx1]-windowy1)-1;
            if (y2ve[z] < y1ve[z]) {
                bad += pow2char[z];
                continue;
            }

            i = lwal[dax] + globalxpanning;
            if (i >= tileWidth) {
                if (xnice == 0) i %= tileWidth;
                else i &= tileWidth;
            }
            
            if (ynice == 0)
                i *= tileHeight;
            else
                i <<= tileHeight;
            
            bufplce[z] = tiles[globalpicnum].data+i;

            vince[z] = swal[dax]*globalyscale;
            vplce[z] = globalzd + vince[z]*(y1ve[z]-globalhoriz+1);
        }
        if (bad == 15) continue;

        palookupoffse[0] = fpalookup+(getpalookup((int32_t)mulscale16(swal[x],globvis),globalshade)<<8);
        palookupoffse[3] = fpalookup+(getpalookup((int32_t)mulscale16(swal[x+3],globvis),globalshade)<<8);

        if ((palookupoffse[0] == palookupoffse[3]) && ((bad&0x9) == 0))
        {
            palookupoffse[1] = palookupoffse[0];
            palookupoffse[2] = palookupoffse[0];
        }
        else
        {
            palookupoffse[1] = fpalookup+(getpalookup((int32_t)mulscale16(swal[x+1],globvis),globalshade)<<8);
            palookupoffse[2] = fpalookup+(getpalookup((int32_t)mulscale16(swal[x+2],globvis),globalshade)<<8);
        }

        u4 = max(max(y1ve[0],y1ve[1]),max(y1ve[2],y1ve[3]));
        d4 = min(min(y2ve[0],y2ve[1]),min(y2ve[2],y2ve[3]));

        if ((bad > 0) || (u4 >= d4))
        {
            if (!(bad&1)) mvlineasm1(vince[0],palookupoffse[0],y2ve[0]-y1ve[0],vplce[0],bufplce[0],ylookup[y1ve[0]]+p+0);
            if (!(bad&2)) mvlineasm1(vince[1],palookupoffse[1],y2ve[1]-y1ve[1],vplce[1],bufplce[1],ylookup[y1ve[1]]+p+1);
            if (!(bad&4)) mvlineasm1(vince[2],palookupoffse[2],y2ve[2]-y1ve[2],vplce[2],bufplce[2],ylookup[y1ve[2]]+p+2);
            if (!(bad&8)) mvlineasm1(vince[3],palookupoffse[3],y2ve[3]-y1ve[3],vplce[3],bufplce[3],ylookup[y1ve[3]]+p+3);
            continue;
        }

        if (u4 > y1ve[0]) vplce[0] = mvlineasm1(vince[0],palookupoffse[0],u4-y1ve[0]-1,vplce[0],bufplce[0],ylookup[y1ve[0]]+p+0);
        if (u4 > y1ve[1]) vplce[1] = mvlineasm1(vince[1],palookupoffse[1],u4-y1ve[1]-1,vplce[1],bufplce[1],ylookup[y1ve[1]]+p+1);
        if (u4 > y1ve[2]) vplce[2] = mvlineasm1(vince[2],palookupoffse[2],u4-y1ve[2]-1,vplce[2],bufplce[2],ylookup[y1ve[2]]+p+2);
        if (u4 > y1ve[3]) vplce[3] = mvlineasm1(vince[3],palookupoffse[3],u4-y1ve[3]-1,vplce[3],bufplce[3],ylookup[y1ve[3]]+p+3);

        if (d4 >= u4) mvlineasm4(d4-u4+1,ylookup[u4]+p);

        i = p+ylookup[d4+1];
        if (y2ve[0] > d4) mvlineasm1(vince[0],palookupoffse[0],y2ve[0]-d4-1,vplce[0],bufplce[0],i+0);
        if (y2ve[1] > d4) mvlineasm1(vince[1],palookupoffse[1],y2ve[1]-d4-1,vplce[1],bufplce[1],i+1);
        if (y2ve[2] > d4) mvlineasm1(vince[2],palookupoffse[2],y2ve[2]-d4-1,vplce[2],bufplce[2],i+2);
        if (y2ve[3] > d4) mvlineasm1(vince[3],palookupoffse[3],y2ve[3]-d4-1,vplce[3],bufplce[3],i+3);
    }
    for(; x<=x2; x++,p++)
    {
        y1ve[0] = max(uwal[x],startumost[x+windowx1]-windowy1);
        y2ve[0] = min(dwal[x],startdmost[x+windowx1]-windowy1);
        if (y2ve[0] <= y1ve[0]) continue;

        palookupoffse[0] = fpalookup+(getpalookup((int32_t)mulscale16(swal[x],globvis),globalshade)<<8);

        bufplce[0] = lwal[x] + globalxpanning;
        if (bufplce[0] >= tileWidth) {
            if (xnice == 0) bufplce[0] %= tileWidth;
            else bufplce[0] &= tileWidth;
        }
        if (ynice == 0)
            bufplce[0] *= tileHeight;
        else
            bufplce[0] <<= tileHeight;

        vince[0] = swal[x]*globalyscale;
        vplce[0] = globalzd + vince[0]*(y1ve[0]-globalhoriz+1);

        mvlineasm1(vince[0],palookupoffse[0],y2ve[0]-y1ve[0]-1,vplce[0],bufplce[0]+tiles[globalpicnum].data,p+ylookup[y1ve[0]]);
    }
    faketimerhandler();
}

/* renders parallaxed skies/floors  --ryan. */
static void parascan(int32_t dax1, int32_t dax2, int32_t sectnum,uint8_t  dastat, int32_t bunch)
{
    sectortype *sec;
    int32_t j, k, l, m, n, x, z, wallnum, nextsectnum, globalhorizbak;
    short *topptr, *botptr;

    sectnum = pvWalls[bunchfirst[bunch]].sectorId;
    sec = &sector[sectnum];

    globalhorizbak = globalhoriz;
    if (parallaxyscale != 65536)
        globalhoriz = mulscale16(globalhoriz-(ydimen>>1),parallaxyscale) + (ydimen>>1);
    globvis = globalpisibility;
    /* globalorientation = 0L; */
    if (sec->visibility != 0) globvis = mulscale4(globvis,(int32_t)((uint8_t )(sec->visibility+16)));

    if (dastat == 0)
    {
        globalpal = sec->ceilingpal;
        globalpicnum = sec->ceilingpicnum;
        globalshade = (int32_t)sec->ceilingshade;
        globalxpanning = (int32_t)sec->ceilingxpanning;
        globalypanning = (int32_t)sec->ceilingypanning;
        topptr = umost;
        botptr = uplc;
    }
    else
    {
        globalpal = sec->floorpal;
        globalpicnum = sec->floorpicnum;
        globalshade = (int32_t)sec->floorshade;
        globalxpanning = (int32_t)sec->floorxpanning;
        globalypanning = (int32_t)sec->floorypanning;
        topptr = dplc;
        botptr = dmost;
    }

    if ((uint32_t)globalpicnum >= (uint32_t)MAXTILES) globalpicnum = 0;
    
    if (tiles[globalpicnum].animFlags&192) 
        globalpicnum += animateoffs(globalpicnum);
    
    globalshiftval = (picsiz[globalpicnum]>>4);
    
    if (pow2long[globalshiftval] != tiles[globalpicnum].dim.height)
        globalshiftval++;
    globalshiftval = 32-globalshiftval;
    globalzd = (((tiles[globalpicnum].dim.height>>1)+parallaxyoffs)<<globalshiftval)+(globalypanning<<24);
    globalyscale = (8<<(globalshiftval-19));
    /*if (globalorientation&256) globalyscale = -globalyscale, globalzd = -globalzd;*/

    k = 11 - (picsiz[globalpicnum]&15) - pskybits;
    x = -1;

    for(z=bunchfirst[bunch]; z>=0; z=bunchWallsList[z])
    {
        wallnum = pvWalls[z].worldWallId;
        nextsectnum = wall[wallnum].nextsector;

        if (dastat == 0) j = sector[nextsectnum].ceilingstat;
        else j = sector[nextsectnum].floorstat;

        if ((nextsectnum < 0) || (wall[wallnum].cstat&32) || ((j&1) == 0))
        {
            if (x == -1) x = pvWalls[z].screenSpaceCoo[0][VEC_COL];

            if (parallaxtype == 0)
            {
                n = mulscale16(xdimenrecip,viewingrange);
                for(j=pvWalls[z].screenSpaceCoo[0][VEC_COL]; j<=pvWalls[z].screenSpaceCoo[1][VEC_COL]; j++)
                    lplc[j] = (((mulscale23(j-halfxdimen,n)+globalang)&2047)>>k);
            }
            else
            {
                for(j=pvWalls[z].screenSpaceCoo[0][VEC_COL]; j<=pvWalls[z].screenSpaceCoo[1][VEC_COL]; j++)
                    lplc[j] = ((((int32_t)radarang2[j]+globalang)&2047)>>k);
            }
            if (parallaxtype == 2)
            {
                n = mulscale16(xdimscale,viewingrange);
                for(j=pvWalls[z].screenSpaceCoo[0][VEC_COL]; j<=pvWalls[z].screenSpaceCoo[1][VEC_COL]; j++)
                    swplc[j] = mulscale14(sintable[((int32_t)radarang2[j]+512)&2047],n);
            }
            else
                clearbuf(&swplc[pvWalls[z].screenSpaceCoo[0][VEC_COL]],pvWalls[z].screenSpaceCoo[1][VEC_COL]-pvWalls[z].screenSpaceCoo[0][VEC_COL]+1,mulscale16(xdimscale,viewingrange));
        }
        else if (x >= 0)
        {
            l = globalpicnum;
            m = (picsiz[globalpicnum]&15);
            globalpicnum = l+pskyoff[lplc[x]>>m];

            if (((lplc[x]^lplc[pvWalls[z].screenSpaceCoo[0][VEC_COL]-1])>>m) == 0)
                wallscan(x,pvWalls[z].screenSpaceCoo[0][VEC_COL]-1,topptr,botptr,swplc,lplc);
            else
            {
                j = x;
                while (x < pvWalls[z].screenSpaceCoo[0][VEC_COL])
                {
                    n = l+pskyoff[lplc[x]>>m];
                    if (n != globalpicnum)
                    {
                        wallscan(j,x-1,topptr,botptr,swplc,lplc);
                        j = x;
                        globalpicnum = n;
                    }
                    x++;
                }
                if (j < x)
                    wallscan(j,x-1,topptr,botptr,swplc,lplc);
            }

            globalpicnum = l;
            x = -1;
        }
    }

    if (x >= 0)
    {
        l = globalpicnum;
        m = (picsiz[globalpicnum]&15);
        globalpicnum = l+pskyoff[lplc[x]>>m];

        if (((lplc[x]^lplc[pvWalls[bunchlast[bunch]].screenSpaceCoo[1][VEC_COL]])>>m) == 0)
            wallscan(x,pvWalls[bunchlast[bunch]].screenSpaceCoo[1][VEC_COL],topptr,botptr,swplc,lplc);
        else
        {
            j = x;
            while (x <= pvWalls[bunchlast[bunch]].screenSpaceCoo[1][VEC_COL])
            {
                n = l+pskyoff[lplc[x]>>m];
                if (n != globalpicnum)
                {
                    wallscan(j,x-1,topptr,botptr,swplc,lplc);
                    j = x;
                    globalpicnum = n;
                }
                x++;
            }
            if (j <= x)
                wallscan(j,x,topptr,botptr,swplc,lplc);
        }
        globalpicnum = l;
    }
    globalhoriz = globalhorizbak;
}


#define BITSOFPRECISION 3  /* Don't forget to change this in A.ASM also! */
static void grouscan (int32_t dax1, int32_t dax2, int32_t sectnum, uint8_t  dastat)
{
    int32_t i, l, x, y, dx, dy, wx, wy, y1, y2, daz;
    int32_t daslope, dasqr;
    intptr_t j, shoffs, shinc, m1, m2, *mptr1, *mptr2, *nptr1, *nptr2;
    walltype *wal;
    sectortype *sec;

    sec = &sector[sectnum];

    if (dastat == 0)
    {
        if (globalposz <= getceilzofslope((short) sectnum,globalposx,globalposy))
            return;  /* Back-face culling */
        globalorientation = sec->ceilingstat;
        globalpicnum = sec->ceilingpicnum;
        globalshade = sec->ceilingshade;
        globalpal = sec->ceilingpal;
        daslope = sec->ceilingheinum;
        daz = sec->ceilingz;
    }
    else
    {
        if (globalposz >= getflorzofslope((short) sectnum,globalposx,globalposy))
            return;  /* Back-face culling */
        globalorientation = sec->floorstat;
        globalpicnum = sec->floorpicnum;
        globalshade = sec->floorshade;
        globalpal = sec->floorpal;
        daslope = sec->floorheinum;
        daz = sec->floorz;
    }

    if ((tiles[globalpicnum].animFlags&192) != 0)
        globalpicnum += animateoffs(globalpicnum);
    
    setgotpic(globalpicnum);
    
    if ((tiles[globalpicnum].dim.width <= 0) ||
        (tiles[globalpicnum].dim.height <= 0))
        return;
    
    TILE_MakeAvailable(globalpicnum);

    wal = &wall[sec->wallptr];
    wx = wall[wal->point2].x - wal->x;
    wy = wall[wal->point2].y - wal->y;
    dasqr = krecipasm(nsqrtasm(wx*wx+wy*wy));
    i = mulscale21(daslope,dasqr);
    wx *= i;
    wy *= i;

    globalx = -mulscale19(singlobalang,xdimenrecip);
    globaly = mulscale19(cosglobalang,xdimenrecip);
    globalx1 = (globalposx<<8);
    globaly1 = -(globalposy<<8);
    i = (dax1-halfxdimen)*xdimenrecip;
    globalx2 = mulscale16(cosglobalang<<4,viewingrangerecip) - mulscale27(singlobalang,i);
    globaly2 = mulscale16(singlobalang<<4,viewingrangerecip) + mulscale27(cosglobalang,i);
    globalzd = (xdimscale<<9);
    globalzx = -dmulscale17(wx,globaly2,-wy,globalx2) + mulscale10(1-globalhoriz,globalzd);
    globalz = -dmulscale25(wx,globaly,-wy,globalx);

    if (globalorientation&64)  /* Relative alignment */
    {
        dx = mulscale14(wall[wal->point2].x-wal->x,dasqr);
        dy = mulscale14(wall[wal->point2].y-wal->y,dasqr);

        i = nsqrtasm(daslope*daslope+16777216);

        x = globalx;
        y = globaly;
        globalx = dmulscale16(x,dx,y,dy);
        globaly = mulscale12(dmulscale16(-y,dx,x,dy),i);

        x = ((wal->x-globalposx)<<8);
        y = ((wal->y-globalposy)<<8);
        globalx1 = dmulscale16(-x,dx,-y,dy);
        globaly1 = mulscale12(dmulscale16(-y,dx,x,dy),i);

        x = globalx2;
        y = globaly2;
        globalx2 = dmulscale16(x,dx,y,dy);
        globaly2 = mulscale12(dmulscale16(-y,dx,x,dy),i);
    }
    if (globalorientation&0x4)
    {
        i = globalx;
        globalx = -globaly;
        globaly = -i;
        i = globalx1;
        globalx1 = globaly1;
        globaly1 = i;
        i = globalx2;
        globalx2 = -globaly2;
        globaly2 = -i;
    }
    if (globalorientation&0x10) {
        globalx1 = -globalx1, globalx2 = -globalx2, globalx = -globalx;
    }
    if (globalorientation&0x20) {
        globaly1 = -globaly1, globaly2 = -globaly2, globaly = -globaly;
    }

    daz = dmulscale9(wx,globalposy-wal->y,-wy,globalposx-wal->x) + ((daz-globalposz)<<8);
    globalx2 = mulscale20(globalx2,daz);
    globalx = mulscale28(globalx,daz);
    globaly2 = mulscale20(globaly2,-daz);
    globaly = mulscale28(globaly,-daz);

    i = 8-(picsiz[globalpicnum]&15);
    j = 8-(picsiz[globalpicnum]>>4);
    if (globalorientation&8) {
        i++;
        j++;
    }
    globalx1 <<= (i+12);
    globalx2 <<= i;
    globalx <<= i;
    globaly1 <<= (j+12);
    globaly2 <<= j;
    globaly <<= j;

    if (dastat == 0)
    {
        globalx1 += (((int32_t)sec->ceilingxpanning)<<24);
        globaly1 += (((int32_t)sec->ceilingypanning)<<24);
    }
    else
    {
        globalx1 += (((int32_t)sec->floorxpanning)<<24);
        globaly1 += (((int32_t)sec->floorypanning)<<24);
    }

    asm1 = -(globalzd>>(16-BITSOFPRECISION));

    globvis = globalvisibility;
    if (sec->visibility != 0) globvis = mulscale4(globvis,(int32_t)((uint8_t )(sec->visibility+16)));
    globvis = mulscale13(globvis,daz);
    globvis = mulscale16(globvis,xdimscale);
    j = (intptr_t) palookup[globalpal];

    setupslopevlin(((int32_t)(picsiz[globalpicnum]&15))+(((int32_t)(picsiz[globalpicnum]>>4))<<8),tiles[globalpicnum].data,-ylookup[1]);

    l = (globalzd>>16);

    shinc = mulscale16(globalz,xdimenscale);
    if (shinc > 0)
        shoffs = (4<<15);
    else
        shoffs = ((16380-ydimen)<<15);	// JBF: was 2044     16380
    if (dastat == 0) y1 = umost[dax1];
    else y1 = max(umost[dax1],dplc[dax1]);
    m1 = mulscale16(y1,globalzd) + (globalzx>>6);
    /* Avoid visibility overflow by crossing horizon */
    if (globalzd > 0) m1 += (globalzd>>16);
    else m1 -= (globalzd>>16);
    m2 = m1+l;
    mptr1 = (intptr_t *)&slopalookup[y1+(shoffs>>15)];
    mptr2 = mptr1+1;

    for(x=dax1; x<=dax2; x++)
    {
        if (dastat == 0) {
            y1 = umost[x];
            y2 = min(dmost[x],uplc[x])-1;
        }
        else {
            y1 = max(umost[x],dplc[x]);
            y2 = dmost[x]-1;
        }
        if (y1 <= y2)
        {
            nptr1 = (intptr_t *)&slopalookup[y1+(shoffs>>15)];
            nptr2 = (intptr_t *)&slopalookup[y2+(shoffs>>15)];
            while (nptr1 <= mptr1)
            {
                *mptr1-- = j + (getpalookup((int32_t)mulscale24(krecipasm(m1),globvis),globalshade)<<8);
                m1 -= l;
            }
            while (nptr2 >= mptr2)
            {
                *mptr2++ = j + (getpalookup((int32_t)mulscale24(krecipasm(m2),globvis),globalshade)<<8);
                m2 += l;
            }

            globalx3 = (globalx2>>10);
            globaly3 = (globaly2>>10);
            asm3 = mulscale16(y2,globalzd) + (globalzx>>6);
            slopevlin(ylookup[y2]+x+frameoffset,krecipasm(asm3>>3),slopalookup,y2+(shoffs>>15),y2-y1+1,globalx1,globaly1);

            if ((x&15) == 0) faketimerhandler();
        }
        globalx2 += globalx;
        globaly2 += globaly;
        globalzx += globalz;
        shoffs += shinc;
    }
}


static int owallmost(short *mostbuf, int32_t w, int32_t z)
{
    int32_t bad, inty, xcross, y, yinc;
    int32_t s1, s2, s3, s4, ix1, ix2, iy1, iy2, t;

    z <<= 7;
    s1 = mulscale20(globaluclip,pvWalls[w].screenSpaceCoo[0][VEC_DIST]);
    s2 = mulscale20(globaluclip,pvWalls[w].screenSpaceCoo[1][VEC_DIST]);
    s3 = mulscale20(globaldclip,pvWalls[w].screenSpaceCoo[0][VEC_DIST]);
    s4 = mulscale20(globaldclip,pvWalls[w].screenSpaceCoo[1][VEC_DIST]);
    bad = (z<s1)+((z<s2)<<1)+((z>s3)<<2)+((z>s4)<<3);

    ix1 = pvWalls[w].screenSpaceCoo[0][VEC_COL];
    iy1 = pvWalls[w].screenSpaceCoo[0][VEC_DIST];
    ix2 = pvWalls[w].screenSpaceCoo[1][VEC_COL];
    iy2 = pvWalls[w].screenSpaceCoo[1][VEC_DIST];

    if ((bad&3) == 3)
    {
        clearbufbyte(&mostbuf[ix1],(ix2-ix1+1)*sizeof(mostbuf[0]),0L);
        return(bad);
    }

    if ((bad&12) == 12)
    {
        clearbufbyte(&mostbuf[ix1],(ix2-ix1+1)*sizeof(mostbuf[0]),ydimen+(ydimen<<16));
        return(bad);
    }

    if (bad&3)
    {
        t = divscale30(z-s1,s2-s1);
        inty = pvWalls[w].screenSpaceCoo[0][VEC_DIST] + mulscale30(pvWalls[w].screenSpaceCoo[1][VEC_DIST]-pvWalls[w].screenSpaceCoo[0][VEC_DIST],t);
        xcross = pvWalls[w].screenSpaceCoo[0][VEC_COL] + scale(mulscale30(pvWalls[w].screenSpaceCoo[1][VEC_DIST],t),pvWalls[w].screenSpaceCoo[1][VEC_COL]-pvWalls[w].screenSpaceCoo[0][VEC_COL],inty);

        if ((bad&3) == 2)
        {
            if (pvWalls[w].screenSpaceCoo[0][VEC_COL] <= xcross) {
                iy2 = inty;
                ix2 = xcross;
            }
            clearbufbyte(&mostbuf[xcross+1],(pvWalls[w].screenSpaceCoo[1][VEC_COL]-xcross)*sizeof(mostbuf[0]),0L);
        }
        else
        {
            if (xcross <= pvWalls[w].screenSpaceCoo[1][VEC_COL]) {
                iy1 = inty;
                ix1 = xcross;
            }
            clearbufbyte(&mostbuf[pvWalls[w].screenSpaceCoo[0][VEC_COL]],(xcross-pvWalls[w].screenSpaceCoo[0][VEC_COL]+1)*sizeof(mostbuf[0]),0L);
        }
    }

    if (bad&12)
    {
        t = divscale30(z-s3,s4-s3);
        inty = pvWalls[w].screenSpaceCoo[0][VEC_DIST] + mulscale30(pvWalls[w].screenSpaceCoo[1][VEC_DIST]-pvWalls[w].screenSpaceCoo[0][VEC_DIST],t);
        xcross = pvWalls[w].screenSpaceCoo[0][VEC_COL] + scale(mulscale30(pvWalls[w].screenSpaceCoo[1][VEC_DIST],t),pvWalls[w].screenSpaceCoo[1][VEC_COL]-pvWalls[w].screenSpaceCoo[0][VEC_COL],inty);

        if ((bad&12) == 8)
        {
            if (pvWalls[w].screenSpaceCoo[0][VEC_COL] <= xcross) {
                iy2 = inty;
                ix2 = xcross;
            }
            clearbufbyte(&mostbuf[xcross+1],(pvWalls[w].screenSpaceCoo[1][VEC_COL]-xcross)*sizeof(mostbuf[0]),ydimen+(ydimen<<16));
        }
        else
        {
            if (xcross <= pvWalls[w].screenSpaceCoo[1][VEC_COL]) {
                iy1 = inty;
                ix1 = xcross;
            }
            clearbufbyte(&mostbuf[pvWalls[w].screenSpaceCoo[0][VEC_COL]],(xcross-pvWalls[w].screenSpaceCoo[0][VEC_COL]+1)*sizeof(mostbuf[0]),ydimen+(ydimen<<16));
        }
    }

    y = (scale(z,xdimenscale,iy1)<<4);
    yinc = ((scale(z,xdimenscale,iy2)<<4)-y) / (ix2-ix1+1);
    qinterpolatedown16short((int32_t *)&mostbuf[ix1],ix2-ix1+1,y+(globalhoriz<<16),yinc);

    if (mostbuf[ix1] < 0) mostbuf[ix1] = 0;
    if (mostbuf[ix1] > ydimen) mostbuf[ix1] = ydimen;
    if (mostbuf[ix2] < 0) mostbuf[ix2] = 0;
    if (mostbuf[ix2] > ydimen) mostbuf[ix2] = ydimen;

    return(bad);
}


static int wallmost(short *mostbuf, int32_t w, int32_t sectnum, uint8_t  dastat)
{
    int32_t bad, i, j, t, y, z, inty, intz, xcross, yinc, fw;
    int32_t x1, y1, z1, x2, y2, z2, xv, yv, dx, dy, dasqr, oz1, oz2;
    int32_t s1, s2, s3, s4, ix1, ix2, iy1, iy2;

    if (dastat == 0){
        z = sector[sectnum].ceilingz-globalposz;
        if ((sector[sectnum].ceilingstat&2) == 0)
            return(owallmost(mostbuf,w,z));
    }
    else{
        z = sector[sectnum].floorz-globalposz;
        if ((sector[sectnum].floorstat&2) == 0)
            return(owallmost(mostbuf,w,z));
    }

    i = pvWalls[w].worldWallId;
    if (i == sector[sectnum].wallptr)
        return(owallmost(mostbuf,w,z));

    x1 = wall[i].x;
    x2 = wall[wall[i].point2].x-x1;
    y1 = wall[i].y;
    y2 = wall[wall[i].point2].y-y1;

    fw = sector[sectnum].wallptr;
    i = wall[fw].point2;
    dx = wall[i].x-wall[fw].x;
    dy = wall[i].y-wall[fw].y;
    dasqr = krecipasm(nsqrtasm(dx*dx+dy*dy));

    if (pvWalls[w].screenSpaceCoo[0][VEC_COL] == 0){
        xv = cosglobalang+sinviewingrangeglobalang;
        yv = singlobalang-cosviewingrangeglobalang;
    }
    else{
        xv = x1-globalposx;
        yv = y1-globalposy;
    }
    i = xv*(y1-globalposy)-yv*(x1-globalposx);
    j = yv*x2-xv*y2;
    
    if (klabs(j) > klabs(i>>3))
        i = divscale28(i,j);
    
    if (dastat == 0){
        t = mulscale15(sector[sectnum].ceilingheinum,dasqr);
        z1 = sector[sectnum].ceilingz;
    }
    else{
        t = mulscale15(sector[sectnum].floorheinum,dasqr);
        z1 = sector[sectnum].floorz;
    }
    
    z1 = dmulscale24(dx*t,mulscale20(y2,i)+((y1-wall[fw].y)<<8),-dy*t,mulscale20(x2,i)+((x1-wall[fw].x)<<8))+((z1-globalposz)<<7);


    if (pvWalls[w].screenSpaceCoo[1][VEC_COL] == xdimen-1){
        xv = cosglobalang-sinviewingrangeglobalang;
        yv = singlobalang+cosviewingrangeglobalang;
    }
    else{
        xv = (x2+x1)-globalposx;
        yv = (y2+y1)-globalposy;
    }
    
    i = xv*(y1-globalposy)-yv*(x1-globalposx);
    j = yv*x2-xv*y2;
    
    if (klabs(j) > klabs(i>>3))
        i = divscale28(i,j);
    
    if (dastat == 0){
        t = mulscale15(sector[sectnum].ceilingheinum,dasqr);
        z2 = sector[sectnum].ceilingz;
    }
    else{
        t = mulscale15(sector[sectnum].floorheinum,dasqr);
        z2 = sector[sectnum].floorz;
    }
    
    z2 = dmulscale24(dx*t,mulscale20(y2,i)+((y1-wall[fw].y)<<8),-dy*t,mulscale20(x2,i)+((x1-wall[fw].x)<<8))+((z2-globalposz)<<7);


    s1 = mulscale20(globaluclip,pvWalls[w].screenSpaceCoo[0][VEC_DIST]);
    s2 = mulscale20(globaluclip,pvWalls[w].screenSpaceCoo[1][VEC_DIST]);
    s3 = mulscale20(globaldclip,pvWalls[w].screenSpaceCoo[0][VEC_DIST]);
    s4 = mulscale20(globaldclip,pvWalls[w].screenSpaceCoo[1][VEC_DIST]);
    bad = (z1<s1)+((z2<s2)<<1)+((z1>s3)<<2)+((z2>s4)<<3);

    ix1 = pvWalls[w].screenSpaceCoo[0][VEC_COL];
    ix2 = pvWalls[w].screenSpaceCoo[1][VEC_COL];
    iy1 = pvWalls[w].screenSpaceCoo[0][VEC_DIST];
    iy2 = pvWalls[w].screenSpaceCoo[1][VEC_DIST];
    oz1 = z1;
    oz2 = z2;

    if ((bad&3) == 3){
        clearbufbyte(&mostbuf[ix1],(ix2-ix1+1)*sizeof(mostbuf[0]),0L);
        return(bad);
    }

    if ((bad&12) == 12){
        clearbufbyte(&mostbuf[ix1],(ix2-ix1+1)*sizeof(mostbuf[0]),ydimen+(ydimen<<16));
        return(bad);
    }

    if (bad&3){
        /* inty = intz / (globaluclip>>16) */
        t = divscale30(oz1-s1,s2-s1+oz1-oz2);
        inty = pvWalls[w].screenSpaceCoo[0][VEC_DIST] + mulscale30(pvWalls[w].screenSpaceCoo[1][VEC_DIST]-pvWalls[w].screenSpaceCoo[0][VEC_DIST],t);
        intz = oz1 + mulscale30(oz2-oz1,t);
        xcross = pvWalls[w].screenSpaceCoo[0][VEC_COL] + scale(mulscale30(pvWalls[w].screenSpaceCoo[1][VEC_DIST],t),pvWalls[w].screenSpaceCoo[1][VEC_COL]-pvWalls[w].screenSpaceCoo[0][VEC_COL],inty);

        if ((bad&3) == 2){
            if (pvWalls[w].screenSpaceCoo[0][VEC_COL] <= xcross){
                z2 = intz;
                iy2 = inty;
                ix2 = xcross;
            }
            clearbufbyte(&mostbuf[xcross+1],(pvWalls[w].screenSpaceCoo[1][VEC_COL]-xcross)*sizeof(mostbuf[0]),0L);
        }
        else{
            if (xcross <= pvWalls[w].screenSpaceCoo[1][VEC_COL]) {
                z1 = intz;
                iy1 = inty;
                ix1 = xcross;
            }
            clearbufbyte(&mostbuf[pvWalls[w].screenSpaceCoo[0][VEC_COL]],(xcross-pvWalls[w].screenSpaceCoo[0][VEC_COL]+1)*sizeof(mostbuf[0]),0L);
        }
    }

    if (bad&12){
        /* inty = intz / (globaldclip>>16) */
        t = divscale30(oz1-s3,s4-s3+oz1-oz2);
        inty = pvWalls[w].screenSpaceCoo[0][VEC_DIST] + mulscale30(pvWalls[w].screenSpaceCoo[1][VEC_DIST]-pvWalls[w].screenSpaceCoo[0][VEC_DIST],t);
        intz = oz1 + mulscale30(oz2-oz1,t);
        xcross = pvWalls[w].screenSpaceCoo[0][VEC_COL] + scale(mulscale30(pvWalls[w].screenSpaceCoo[1][VEC_DIST],t),pvWalls[w].screenSpaceCoo[1][VEC_COL]-pvWalls[w].screenSpaceCoo[0][VEC_COL],inty);

        if ((bad&12) == 8){
            if (pvWalls[w].screenSpaceCoo[0][VEC_COL] <= xcross) {
                z2 = intz;
                iy2 = inty;
                ix2 = xcross;
            }
            clearbufbyte(&mostbuf[xcross+1],(pvWalls[w].screenSpaceCoo[1][VEC_COL]-xcross)*sizeof(mostbuf[0]),ydimen+(ydimen<<16));
        }
        else{
            if (xcross <= pvWalls[w].screenSpaceCoo[1][VEC_COL]) {
                z1 = intz;
                iy1 = inty;
                ix1 = xcross;
            }
            clearbufbyte(&mostbuf[pvWalls[w].screenSpaceCoo[0][VEC_COL]],(xcross-pvWalls[w].screenSpaceCoo[0][VEC_COL]+1)*sizeof(mostbuf[0]),ydimen+(ydimen<<16));
        }
    }

    y = (scale(z1,xdimenscale,iy1)<<4);
    yinc = ((scale(z2,xdimenscale,iy2)<<4)-y) / (ix2-ix1+1);
    qinterpolatedown16short((int32_t *)&mostbuf[ix1],ix2-ix1+1,y+(globalhoriz<<16),yinc);

    if (mostbuf[ix1] < 0)
        mostbuf[ix1] = 0;
    if (mostbuf[ix1] > ydimen)
        mostbuf[ix1] = ydimen;
    if (mostbuf[ix2] < 0)
        mostbuf[ix2] = 0;
    if (mostbuf[ix2] > ydimen)
        mostbuf[ix2] = ydimen;

    return(bad);
}


static void drawalls(int32_t bunch)
{
    sectortype *sec, *nextsec;
    walltype *wal;
    int32_t i, x, x1, x2, cz[5], fz[5];
    int32_t z, wallnum, sectnum, nextsectnum;
    int32_t startsmostwallcnt, startsmostcnt, gotswall;
    uint8_t  andwstat1, andwstat2;

    z = bunchfirst[bunch];
    sectnum = pvWalls[z].sectorId;
    sec = &sector[sectnum];

    andwstat1 = 0xff;
    andwstat2 = 0xff;
    for(; z>=0; z=bunchWallsList[z]){ /* uplc/dplc calculation */
    
        andwstat1 &= wallmost(uplc,z,sectnum,(uint8_t )0);
        andwstat2 &= wallmost(dplc,z,sectnum,(uint8_t )1);
    }

	/* draw ceilings */
    if ((andwstat1&3) != 3){
        if ((sec->ceilingstat&3) == 2)
            grouscan(pvWalls[bunchfirst[bunch]].screenSpaceCoo[0][VEC_COL],pvWalls[bunchlast[bunch]].screenSpaceCoo[1][VEC_COL],sectnum,0);
        else if ((sec->ceilingstat&1) == 0)
            ceilscan(pvWalls[bunchfirst[bunch]].screenSpaceCoo[0][VEC_COL],pvWalls[bunchlast[bunch]].screenSpaceCoo[1][VEC_COL],sectnum);
        else
            parascan(pvWalls[bunchfirst[bunch]].screenSpaceCoo[0][VEC_COL],pvWalls[bunchlast[bunch]].screenSpaceCoo[1][VEC_COL],sectnum,0,bunch);
    }

	/* draw floors */
    if ((andwstat2&12) != 12){
        if ((sec->floorstat&3) == 2)
            grouscan(pvWalls[bunchfirst[bunch]].screenSpaceCoo[0][VEC_COL],pvWalls[bunchlast[bunch]].screenSpaceCoo[1][VEC_COL],sectnum,1);
        else if ((sec->floorstat&1) == 0)
            florscan(pvWalls[bunchfirst[bunch]].screenSpaceCoo[0][VEC_COL],pvWalls[bunchlast[bunch]].screenSpaceCoo[1][VEC_COL],sectnum);
        else
            parascan(pvWalls[bunchfirst[bunch]].screenSpaceCoo[0][VEC_COL],pvWalls[bunchlast[bunch]].screenSpaceCoo[1][VEC_COL],sectnum,1,bunch);
    }

    /* DRAW WALLS SECTION! */
    for(z=bunchfirst[bunch]; z>=0; z=bunchWallsList[z]){
        
        x1 = pvWalls[z].screenSpaceCoo[0][VEC_COL];
        x2 = pvWalls[z].screenSpaceCoo[1][VEC_COL];
        if (umost[x2] >= dmost[x2])
        {

            for(x=x1; x<x2; x++)
                if (umost[x] < dmost[x]) 
					break;

            if (x >= x2)
            {
                smostwall[smostwallcnt] = z;
                smostwalltype[smostwallcnt] = 0;
                smostwallcnt++;
                continue;
            }
        }

        wallnum = pvWalls[z].worldWallId;
        wal = &wall[wallnum];
        nextsectnum = wal->nextsector;
        nextsec = &sector[nextsectnum];

        gotswall = 0;

        startsmostwallcnt = smostwallcnt;
        startsmostcnt = smostcnt;

        if ((searchit == 2) && (searchx >= x1) && (searchx <= x2))
        {
            if (searchy <= uplc[searchx]){ /* ceiling */
                searchsector = sectnum;
                searchwall = wallnum;
                searchstat = 1;
                searchit = 1;
            }
            else if (searchy >= dplc[searchx]){ /* floor */
                searchsector = sectnum;
                searchwall = wallnum;
                searchstat = 2;
                searchit = 1;
            }
        }

        if (nextsectnum >= 0){
            getzsofslope((short)sectnum,wal->x,wal->y,&cz[0],&fz[0]);
            getzsofslope((short)sectnum,wall[wal->point2].x,wall[wal->point2].y,&cz[1],&fz[1]);
            getzsofslope((short)nextsectnum,wal->x,wal->y,&cz[2],&fz[2]);
            getzsofslope((short)nextsectnum,wall[wal->point2].x,wall[wal->point2].y,&cz[3],&fz[3]);
            getzsofslope((short)nextsectnum,globalposx,globalposy,&cz[4],&fz[4]);

            if ((wal->cstat&48) == 16)
                maskwall[maskwallcnt++] = z;

            if (((sec->ceilingstat&1) == 0) || ((nextsec->ceilingstat&1) == 0)){
                if ((cz[2] <= cz[0]) && (cz[3] <= cz[1])){
                    if (globparaceilclip)
                        for(x=x1; x<=x2; x++)
                            if (uplc[x] > umost[x])
                                if (umost[x] <= dmost[x]){
                                    umost[x] = uplc[x];
                                    if (umost[x] > dmost[x]) numhits--;
                                }
                }
                else{
                    wallmost(dwall,z,nextsectnum,(uint8_t )0);
                    if ((cz[2] > fz[0]) || (cz[3] > fz[1]))
                        for(i=x1; i<=x2; i++) if (dwall[i] > dplc[i]) dwall[i] = dplc[i];

                    if ((searchit == 2) && (searchx >= x1) && (searchx <= x2))
                        if (searchy <= dwall[searchx]) /* wall */{
                            searchsector = sectnum;
                            searchwall = wallnum;
                            searchstat = 0;
                            searchit = 1;
                        }

                    globalorientation = (int32_t)wal->cstat;
                    globalpicnum = wal->picnum;
                    if ((uint32_t)globalpicnum >= (uint32_t)MAXTILES) globalpicnum = 0;
                    globalxpanning = (int32_t)wal->xpanning;
                    globalypanning = (int32_t)wal->ypanning;
                    globalshiftval = (picsiz[globalpicnum]>>4);
                    if (pow2long[globalshiftval] != tiles[globalpicnum].dim.height) globalshiftval++;
                    globalshiftval = 32-globalshiftval;
                    
                    //Animated
                    if (tiles[globalpicnum].animFlags&192)
                        globalpicnum += animateoffs(globalpicnum);
                    
                    globalshade = (int32_t)wal->shade;
                    globvis = globalvisibility;
                    if (sec->visibility != 0) globvis = mulscale4(globvis,(int32_t)((uint8_t )(sec->visibility+16)));
                    globalpal = (int32_t)wal->pal;
                    globalyscale = (wal->yrepeat<<(globalshiftval-19));
                    if ((globalorientation&4) == 0)
                        globalzd = (((globalposz-nextsec->ceilingz)*globalyscale)<<8);
                    else
                        globalzd = (((globalposz-sec->ceilingz)*globalyscale)<<8);
                    globalzd += (globalypanning<<24);
                    if (globalorientation&256) globalyscale = -globalyscale, globalzd = -globalzd;

                    if (gotswall == 0) {
                        gotswall = 1;
                        prepwall(z,wal);
                    }
                    wallscan(x1,x2,uplc,dwall,swall,lwall);

                    if ((cz[2] >= cz[0]) && (cz[3] >= cz[1])){
                        for(x=x1; x<=x2; x++)
                            if (dwall[x] > umost[x])
                                if (umost[x] <= dmost[x]){
                                    umost[x] = dwall[x];
                                    if (umost[x] > dmost[x]) numhits--;
                                }
                    }
                    else
                    {
                        for(x=x1; x<=x2; x++)
                            if (umost[x] <= dmost[x]){
                                i = max(uplc[x],dwall[x]);
                                if (i > umost[x]){
                                    umost[x] = i;
                                    if (umost[x] > dmost[x]) numhits--;
                                }
                            }
                    }
                }
                if ((cz[2] < cz[0]) || (cz[3] < cz[1]) || (globalposz < cz[4])){
                    i = x2-x1+1;
                    if (smostcnt+i < MAXYSAVES){
                        smoststart[smostwallcnt] = smostcnt;
                        smostwall[smostwallcnt] = z;
                        smostwalltype[smostwallcnt] = 1;   /* 1 for umost */
                        smostwallcnt++;
                        copybufbyte((int32_t *)&umost[x1],(int32_t *)&smost[smostcnt],i*sizeof(smost[0]));
                        smostcnt += i;
                    }
                }
            }
            if (((sec->floorstat&1) == 0) || ((nextsec->floorstat&1) == 0)){
                if ((fz[2] >= fz[0]) && (fz[3] >= fz[1])){
                    if (globparaflorclip)
                        for(x=x1; x<=x2; x++)
                            if (dplc[x] < dmost[x])
                                if (umost[x] <= dmost[x]){
                                    dmost[x] = dplc[x];
                                    if (umost[x] > dmost[x]) numhits--;
                                }
                }
                else{
                    wallmost(uwall,z,nextsectnum,(uint8_t )1);
                    if ((fz[2] < cz[0]) || (fz[3] < cz[1]))
                        for(i=x1; i<=x2; i++) if (uwall[i] < uplc[i]) uwall[i] = uplc[i];

                    if ((searchit == 2) && (searchx >= x1) && (searchx <= x2))
                        if (searchy >= uwall[searchx]) /* wall */{
                            searchsector = sectnum;
                            searchwall = wallnum;
                            if ((wal->cstat&2) > 0) searchwall = wal->nextwall;
                            searchstat = 0;
                            searchit = 1;
                        }

                    if ((wal->cstat&2) > 0){
                        wallnum = wal->nextwall;
                        wal = &wall[wallnum];
                        globalorientation = (int32_t)wal->cstat;
                        globalpicnum = wal->picnum;
                        if ((uint32_t)globalpicnum >= (uint32_t)MAXTILES) globalpicnum = 0;
                        globalxpanning = (int32_t)wal->xpanning;
                        globalypanning = (int32_t)wal->ypanning;
                        
                        if (tiles[globalpicnum].animFlags&192) 
                            globalpicnum += animateoffs(globalpicnum);
                        
                        globalshade = (int32_t)wal->shade;
                        globalpal = (int32_t)wal->pal;
                        wallnum = pvWalls[z].worldWallId;
                        wal = &wall[wallnum];
                    }
                    else{
                        globalorientation = (int32_t)wal->cstat;
                        globalpicnum = wal->picnum;
                        
                        if ((uint32_t)globalpicnum >= (uint32_t)MAXTILES) 
                            globalpicnum = 0;
                        
                        globalxpanning = (int32_t)wal->xpanning;
                        globalypanning = (int32_t)wal->ypanning;
                        
                        if (tiles[globalpicnum].animFlags&192) 
                            globalpicnum += animateoffs(globalpicnum);
                        globalshade = (int32_t)wal->shade;
                        globalpal = (int32_t)wal->pal;
                    }
                    globvis = globalvisibility;
                    if (sec->visibility != 0)
                        globvis = mulscale4(globvis,(int32_t)((uint8_t )(sec->visibility+16)));
                    globalshiftval = (picsiz[globalpicnum]>>4);
                    
                    if (pow2long[globalshiftval] != tiles[globalpicnum].dim.height)
                        globalshiftval++;
                    
                    globalshiftval = 32-globalshiftval;
                    globalyscale = (wal->yrepeat<<(globalshiftval-19));
                    
                    if ((globalorientation&4) == 0)
                        globalzd = (((globalposz-nextsec->floorz)*globalyscale)<<8);
                    else
                        globalzd = (((globalposz-sec->ceilingz)*globalyscale)<<8);
                    
                    globalzd += (globalypanning<<24);
                    if (globalorientation&256) globalyscale = -globalyscale, globalzd = -globalzd;

                    if (gotswall == 0) {
                        gotswall = 1;
                        prepwall(z,wal);
                    }
                    wallscan(x1,x2,uwall,dplc,swall,lwall);

                    if ((fz[2] <= fz[0]) && (fz[3] <= fz[1]))
                    {
                        for(x=x1; x<=x2; x++)
                            if (uwall[x] < dmost[x])
                                if (umost[x] <= dmost[x]){
                                    dmost[x] = uwall[x];
                                    if (umost[x] > dmost[x]) numhits--;
                                }
                    }
                    else
                    {
                        for(x=x1; x<=x2; x++)
                            if (umost[x] <= dmost[x]){
                                i = min(dplc[x],uwall[x]);
                                if (i < dmost[x])
                                {
                                    dmost[x] = i;
                                    if (umost[x] > dmost[x]) numhits--;
                                }
                            }
                    }
                }
                if ((fz[2] > fz[0]) || (fz[3] > fz[1]) || (globalposz > fz[4])){
                    i = x2-x1+1;
                    if (smostcnt+i < MAXYSAVES){
                        smoststart[smostwallcnt] = smostcnt;
                        smostwall[smostwallcnt] = z;
                        smostwalltype[smostwallcnt] = 2;   /* 2 for dmost */
                        smostwallcnt++;
                        copybufbyte((int32_t *)&dmost[x1],(int32_t *)&smost[smostcnt],i*sizeof(smost[0]));
                        smostcnt += i;
                    }
                }
            }
            if (numhits < 0) return;
            if ((!(wal->cstat&32)) && ((visitedSectors[nextsectnum>>3]&pow2char[nextsectnum&7]) == 0)){
                if (umost[x2] < dmost[x2])
                    scansector((short) nextsectnum);
                else
                {
                    for(x=x1; x<x2; x++)
                        if (umost[x] < dmost[x]){
                            scansector((short) nextsectnum);
                            break;
                        }

                    /*
                     * If can't see sector beyond, then cancel smost array and just
                     *  store wall!
                     */
                    if (x == x2){
                        smostwallcnt = startsmostwallcnt;
                        smostcnt = startsmostcnt;
                        smostwall[smostwallcnt] = z;
                        smostwalltype[smostwallcnt] = 0;
                        smostwallcnt++;
                    }
                }
            }
        }
        if ((nextsectnum < 0) || (wal->cstat&32))   /* White/1-way wall */
        {
            globalorientation = (int32_t)wal->cstat;
            if (nextsectnum < 0)
                globalpicnum = wal->picnum;
            else
                globalpicnum = wal->overpicnum;
            
            if ((uint32_t)globalpicnum >= (uint32_t)MAXTILES)
                globalpicnum = 0;
            
            globalxpanning = (int32_t)wal->xpanning;
            globalypanning = (int32_t)wal->ypanning;
            
            if (tiles[globalpicnum].animFlags&192)
                globalpicnum += animateoffs(globalpicnum);
            
            globalshade = (int32_t)wal->shade;
            globvis = globalvisibility;
            if (sec->visibility != 0)
                globvis = mulscale4(globvis,(int32_t)((uint8_t )(sec->visibility+16)));
            
            globalpal = (int32_t)wal->pal;
            globalshiftval = (picsiz[globalpicnum]>>4);
            if (pow2long[globalshiftval] != tiles[globalpicnum].dim.height)
                globalshiftval++;
            
            globalshiftval = 32-globalshiftval;
            globalyscale = (wal->yrepeat<<(globalshiftval-19));
            if (nextsectnum >= 0)
            {
                if ((globalorientation&4) == 0)
                    globalzd = globalposz-nextsec->ceilingz;
                else
                    globalzd = globalposz-sec->ceilingz;
            }
            else
            {
                if ((globalorientation&4) == 0)
                    globalzd = globalposz-sec->ceilingz;
                else
                    globalzd = globalposz-sec->floorz;
            }
            globalzd = ((globalzd*globalyscale)<<8) + (globalypanning<<24);
            
            if (globalorientation&256){
                globalyscale = -globalyscale;
                globalzd = -globalzd;
            }

            if (gotswall == 0) {
                gotswall = 1;
                prepwall(z,wal);
            }
            
            wallscan(x1,x2,uplc,dplc,swall,lwall);

            for(x=x1; x<=x2; x++)
                if (umost[x] <= dmost[x])
                {
                    umost[x] = 1;
                    dmost[x] = 0;
                    numhits--;
                }
            smostwall[smostwallcnt] = z;
            smostwalltype[smostwallcnt] = 0;
            smostwallcnt++;

            if ((searchit == 2) && (searchx >= x1) && (searchx <= x2)){
                searchit = 1;
                searchsector = sectnum;
                searchwall = wallnum;
                if (nextsectnum < 0) searchstat = 0;
                else searchstat = 4;
            }
        }
    }
}


static void dosetaspect(void)
{
    int32_t i, j, k, x, xinc;

    if (xyaspect != oxyaspect){
        oxyaspect = xyaspect;
        j = xyaspect*320;
        horizlookup2[horizycent-1] = divscale26(131072,j);
        for(i=ydim*4-1; i>=0; i--)
            if (i != (horizycent-1)){
                horizlookup[i] = divscale28(1,i-(horizycent-1));
                horizlookup2[i] = divscale14(klabs(horizlookup[i]),j);
            }
    }
    
    
    if ((xdimen != oxdimen) || (viewingrange != oviewingrange)){
        oxdimen = xdimen;
        oviewingrange = viewingrange;
        xinc = mulscale32(viewingrange*320,xdimenrecip);
        x = (640<<16)-mulscale1(xinc,xdimen);
        for(i=0; i<xdimen; i++){
            j = (x&65535);
            k = (x>>16);
            x += xinc;
            if (j != 0) j = mulscale16((int32_t)radarang[k+1]-(int32_t)radarang[k],j);
            radarang2[i] = (short)(((int32_t)radarang[k]+j)>>6);
        }
    }
}


/*
  FCS: Geez one more horrible algorithm to decipher :| :/ :( cry smiley..... 
  Algorithm:

  1.
  Take wall 1 vector [point1,point2] and using two cross products determine if the two endpoints of wall 2 are on the same side of Wall 1 plan.
  If they are then we can determine according to globalposx and globalposy if  wall2 is before or after wall1's plan.
  
  2. Do the same thing again but this time with wall2's plan. Try to find if wall1 is in front of behind wall2's plan.

  Key concept: If a cross-product is equal to 0 this mean they are parallel.

  Return: pvWallID1 in the potentially visible wall list is in front of pvWallID2 (in the same potentially visible list)
*/
int wallfront(int32_t pvWallID1, int32_t pvWallID2)
{
    walltype *wal;
    int32_t x11, y11, x21, y21, x12, y12, x22, y22, dx, dy, t1, t2;

	//It seems we are going to work in Worldspace coordinates.
    wal = &wall[pvWalls[pvWallID1].worldWallId];
    x11 = wal->x;
    y11 = wal->y;
    wal = &wall[wal->point2];
    x21 = wal->x;
    y21 = wal->y;
    wal = &wall[pvWalls[pvWallID2].worldWallId];
    x12 = wal->x;
    y12 = wal->y;
    wal = &wall[wal->point2];
    x22 = wal->x;
    y22 = wal->y;


	//This is part 1

	//Wall 1's vector
    dx = x21-x11;
    dy = y21-y11;

	//This is a cross-product between Wall 1 vector and the [Wall 1 Point 1-> Wall 2 Point 1] vector 
    t1 = dmulscale2(x12-x11,dy,-dx,y12-y11); /* p1(l2) vs. l1 */
	//This is a cross-product between Wall 1 vector and the [Wall 1 Point 1-> Wall 2 Point 2] vector 
    t2 = dmulscale2(x22-x11,dy,-dx,y22-y11); /* p2(l2) vs. l1 */

	//If the vectors a parallel, then the cross-product is zero.
    if (t1 == 0) {
		//wall2's point1 is on wall1's plan.
        t1 = t2;
        if (t1 == 0) // Those two walls are on the same plan.
		{
			//Wall 2's point 2 is on wall1's plan.
			return(-1);
		}
    }
    if (t2 == 0) 
		t2 = t1;

	
	//This XOR just determine if the cross-product have the same sign and hence if both points are on the same side of wall 1 plan.
	//Test if both points of wall2 are on the same side of wall 1 (in front or behind).
    if ((t1^t2) >= 0)
    {
		//cross-product have the same sign: Both points of wall2 are on the same side of wall1 : An answer is possible !!

		//Now is time to take into account the camera position and determine which of wall1 or wall2 is seen first.
        t2 = dmulscale2(globalposx-x11,dy,-dx,globalposy-y11); /* pos vs. l1 */

		//Test the cross product sign difference.
		//If (t2^t1) >= 0 then  both cross product had different sign so wall1 is in front of wall2
		//otherwise wall2 is in front of wall1
        return((t2^t1) >= 0);
    }


	//This is part 2
	//Do it again but this time will wall2's plan.

	//Wall 2's vector
    dx = x22-x12;
    dy = y22-y12;

    t1 = dmulscale2(x11-x12,dy,-dx,y11-y12); /* p1(l1) vs. l2 */
    t2 = dmulscale2(x21-x12,dy,-dx,y21-y12); /* p2(l1) vs. l2 */
    if (t1 == 0) {
        t1 = t2;
        if (t1 == 0) 
			return(-1);
    }
    if (t2 == 0) 
		t2 = t1;
    if ((t1^t2) >= 0)
    {
        t2 = dmulscale2(globalposx-x12,dy,-dx,globalposy-y12); /* pos vs. l2 */
        return((t2^t1) < 0);
    }

	//FCS: No wall is in front of the other's plan: This means they are crossing.
    return(-2);
}


//Return 1 if bunch firstBunchID is in from of bunch secondBunchID.
static int bunchfront(int32_t firstBunchID, int32_t secondBunchID)
{
    int32_t x1b1, x2b1, x1b2, x2b2;

    
    x1b1 = pvWalls[bunchfirst[firstBunchID]].screenSpaceCoo[0][VEC_COL];
    x2b2 = pvWalls[bunchlast[secondBunchID]].screenSpaceCoo[1][VEC_COL]+1; 
    if (x1b1 >= x2b2)
	{
		//Bunch 1 left side is completely on the right of bunch2's right in screenspace: They do not overlap.
        return(-1);
	}

    
    x1b2 = pvWalls[bunchfirst[secondBunchID]].screenSpaceCoo[0][VEC_COL];
    x2b1 = pvWalls[bunchlast[firstBunchID]].screenSpaceCoo[1][VEC_COL]+1;
    if (x1b2 >= x2b1) 
	{
		//Bunch 2 left side is completely on the right of bunch 1 right side: They do not overlap.
		return(-1);
	}


    if (x1b1 >= x1b2)
    {
		//Get the last wall in the bunch2.
		int lastWallID;
        for(lastWallID=bunchfirst[secondBunchID]; 
			pvWalls[lastWallID].screenSpaceCoo[1][VEC_COL]<x1b1; 
			lastWallID=bunchWallsList[lastWallID]);

        return(wallfront(bunchfirst[firstBunchID],lastWallID));
    }
	else
	{
		//Get the last wall in the bunch.
		int lastWallID;
		for(lastWallID=bunchfirst[firstBunchID]; 
			pvWalls[lastWallID].screenSpaceCoo[1][VEC_COL]<x1b2; 
			lastWallID=bunchWallsList[lastWallID]);

		return(wallfront(lastWallID,bunchfirst[secondBunchID]));
	}
}

//#include "keyboard.h"
//void WriteLastPaletteToFile(void);
//void WriteTranslucToFile(void);
/*  
      FCS: Draw every walls in Front to Back Order.
*/
void drawrooms(int32_t daposx, int32_t daposy, int32_t daposz,short daang, int32_t dahoriz, short dacursectnum)
{
    int32_t i, j, z, closest;
	//Ceiling and Floor height at the player position.
	int32_t cz, fz;
    short *shortptr1, *shortptr2;

	// When visualizing the rendering process, part of the screen
	// are not updated: In order to avoid the "ghost effect", we
	// clear the framebuffer to black.
	if (CLEAR_FRAMEBUFFER)
		clear2dscreen();
    
    
    //CODE EXPLORATION
    /*
    if( KB_KeyDown[0x39]){ // 0x39 = SPACE
        //CODE EXPLORATION
        WriteLastPaletteToFile();
        WriteTranslucToFile();
    }        
    */

	//pixelsAllowed = pixelRenderable;
#if RENDER_LIMIT_PIXELS
	pixelsAllowed = 100000000;
#endif
	//printf("%d\n",pixelsAllowed);

    beforedrawrooms = 0;

    // FCS: What was the point of having those values as parameters of this function....if it is to overwrite the
    // values with the gloval variables ?!?!?
    globalposx = daposx;
    globalposy = daposy;
    globalposz = daposz;
    globalang = (daang&2047); //FCS: Mask and keep only 11 bits of angle value.

    globalhoriz = mulscale16(dahoriz-100,xdimenscale)+(ydimen>>1);
    globaluclip = (0-globalhoriz)*xdimscale;
    globaldclip = (ydimen-globalhoriz)*xdimscale;

    i = mulscale16(xdimenscale,viewingrangerecip);
    globalpisibility = mulscale16(parallaxvisibility,i);
    globalvisibility = mulscale16(visibility,i);
    globalhisibility = mulscale16(globalvisibility,xyaspect);
    globalcisibility = mulscale8(globalhisibility,320);

    globalcursectnum = dacursectnum;
    totalclocklock = totalclock;

    cosglobalang = sintable[(globalang+512)&2047];
    singlobalang = sintable[globalang&2047];
    cosviewingrangeglobalang = mulscale16(cosglobalang,viewingrange);
    sinviewingrangeglobalang = mulscale16(singlobalang,viewingrange);

    if (stereomode != 0)
    {
        if (stereopixelwidth != ostereopixelwidth)
        {
            ostereopixelwidth = stereopixelwidth;
            xdimen = (windowx2-windowx1+1)+(stereopixelwidth<<1);
            halfxdimen = (xdimen>>1);
            xdimenrecip = divscale32(1L,xdimen);
            setaspect((int32_t)divscale16(xdimen,windowx2-windowx1+1),yxaspect);
        }

        if ((!(activepage&1)) ^ inpreparemirror)
        {
            for(i=windowx1; i<windowx1+(stereopixelwidth<<1); i++) {
                startumost[i] = 1, startdmost[i] = 0;
            }
            for(; i<windowx2+1+(stereopixelwidth<<1); i++) {
                startumost[i] = windowy1, startdmost[i] = windowy2+1;
            }
            viewoffset = windowy1*bytesperline+windowx1-(stereopixelwidth<<1);
            i = stereowidth;
        }
        else
        {
            for(i=windowx1; i<windowx2+1; i++) {
                startumost[i] = windowy1, startdmost[i] = windowy2+1;
            }
            for(; i<windowx2+1+(stereopixelwidth<<1); i++) {
                startumost[i] = 1, startdmost[i] = 0;
            }
            viewoffset = windowy1*bytesperline+windowx1;
            i = -stereowidth;
        }
        globalposx += mulscale24(singlobalang,i);
        globalposy -= mulscale24(cosglobalang,i);
       
    }

    if ((xyaspect != oxyaspect) || (xdimen != oxdimen) || (viewingrange != oviewingrange))
        dosetaspect();

    frameoffset = frameplace+viewoffset;

	//Clear the bit vector that keep track of what sector has been flooded in.
    clearbufbyte(visitedSectors,(int32_t)((numsectors+7)>>3),0L);

	//Clear the occlusion array.
    shortptr1 = (short *)&startumost[windowx1];
    shortptr2 = (short *)&startdmost[windowx1];
    i = xdimen-1;
    do
    {
        umost[i] = shortptr1[i]-windowy1;
        dmost[i] = shortptr2[i]-windowy1;
        i--;
    } while (i != 0);
    umost[0] = shortptr1[0]-windowy1;
    dmost[0] = shortptr2[0]-windowy1;

	//NumHits is the number of column to draw.
    numhits = xdimen;
	//Num walls to potentially render.
    numscans = 0;

    numbunches = 0;
    maskwallcnt = 0;
    smostwallcnt = 0;
    smostcnt = 0;
    spritesortcnt = 0;

    if (globalcursectnum >= MAXSECTORS)
        globalcursectnum -= MAXSECTORS;
    else
    {
		// Even if the player leaves the map, the engine will keep on rendering from the last visited sector.
		// Save it.
        i = globalcursectnum;
        updatesector(globalposx,globalposy,&globalcursectnum);
		//Seem the player has left the map since updatesector cannot locate him -> Restore to the last known sector.
        if (globalcursectnum < 0) 
			globalcursectnum = i;
    }

    globparaceilclip = 1;
    globparaflorclip = 1;

	//Update the ceiling and floor Z coordinate for the player's 2D position.
    getzsofslope(globalcursectnum,globalposx,globalposy,&cz,&fz);

    if (globalposz < cz) globparaceilclip = 0;
    if (globalposz > fz) globparaflorclip = 0;

	//Build the list of potentially visible wall in to "bunches".
    scansector(globalcursectnum);

    if (inpreparemirror)
    {
        inpreparemirror = 0;
        mirrorsx1 = xdimen-1;
        mirrorsx2 = 0;
        for(i=numscans-1; i>=0; i--)
        {
            if (wall[pvWalls[i].worldWallId].nextsector < 0) continue;
            if (pvWalls[i].screenSpaceCoo[0][VEC_COL] < mirrorsx1) mirrorsx1 = pvWalls[i].screenSpaceCoo[0][VEC_COL];
            if (pvWalls[i].screenSpaceCoo[1][VEC_COL] > mirrorsx2) mirrorsx2 = pvWalls[i].screenSpaceCoo[1][VEC_COL];
        }

        if (stereomode)
        {
            mirrorsx1 += (stereopixelwidth<<1);
            mirrorsx2 += (stereopixelwidth<<1);
        }

        for(i=0; i<mirrorsx1; i++)
            if (umost[i] <= dmost[i])
            {
                umost[i] = 1;
                dmost[i] = 0;
                numhits--;
            }
        for(i=mirrorsx2+1; i<xdimen; i++)
            if (umost[i] <= dmost[i])
            {
                umost[i] = 1;
                dmost[i] = 0;
                numhits--;
            }

        drawalls(0L);
        numbunches--;
        bunchfirst[0] = bunchfirst[numbunches];
        bunchlast[0] = bunchlast[numbunches];

        mirrorsy1 = min(umost[mirrorsx1],umost[mirrorsx2]);
        mirrorsy2 = max(dmost[mirrorsx1],dmost[mirrorsx2]);
    }

    // scansector has generated the bunches, it is now time to see which ones to render.
    // numhits is the number of column of pixels to draw: (if the screen is 320x200 then numhits starts at 200).
    // Due to rounding error, not all columns may be drawn so an additional stop condition is here:
    // When every bunches have been tested for rendition.
    while ((numbunches > 0) && (numhits > 0))
    {
        // tempbuf is used to mark which bunches have been elected as "closest".
        // if tempbug[x] == 1 then it should be skipped.
        clearbuf(&tempbuf[0],(int32_t)((numbunches+3)>>2),0L);

		/* Almost works, but not quite :( */
		closest = 0; 
        tempbuf[closest] = 1;       
        for(i=1; i<numbunches; i++)
        {
            if ((j = bunchfront(i,closest)) < 0) 
				continue;
            tempbuf[i] = 1;
            if (j == 0){
				tempbuf[closest] = 1;
				closest = i;
			}
        }
        
		/* Double-check */
        for(i=0; i<numbunches; i++) 
        {
            if (tempbuf[i]) 
				continue;
            if ((j = bunchfront(i,closest)) < 0) 
				continue;
            tempbuf[i] = 1;
            if (j == 0){
				tempbuf[closest] = 1;
				closest = i, i = 0;
			}
        }

        //Draw every solid walls with ceiling/floor in the bunch "closest"
        drawalls(closest);

        if (automapping)
        {
            for(z=bunchfirst[closest]; z>=0; z=bunchWallsList[z])
                show2dwall[pvWalls[z].worldWallId>>3] |=
                pow2char  [pvWalls[z].worldWallId&7];
        }

        //Since we just rendered a bunch, lower the current stack element so we can treat the next item
        numbunches--;
        //...and move the bunch at the top of the stack so we won't iterate on it again...
        bunchfirst[closest] = bunchfirst[numbunches];
        bunchlast[closest] = bunchlast[numbunches];
    }
}


static int spritewallfront (spritetype *s, int32_t w)
{
    walltype *wal;
    int32_t x1, y1;

    wal = &wall[w];
    x1 = wal->x;
    y1 = wal->y;
    wal = &wall[wal->point2];
    return (dmulscale32(wal->x-x1,s->y-y1,-(s->x-x1),wal->y-y1) >= 0);
}


static void transmaskvline(int32_t x)
{
    int32_t vplc, vinc, i;
	uint8_t* palookupoffs;
    uint8_t* bufplc;
    uint8_t* p;
    short y1v, y2v;

    if ((x < 0) || (x >= xdimen)) return;

    y1v = max(uwall[x],startumost[x+windowx1]-windowy1);
    y2v = min(dwall[x],startdmost[x+windowx1]-windowy1);
    y2v--;
    if (y2v < y1v) return;

    palookupoffs = palookup[globalpal] + (getpalookup((int32_t)mulscale16(swall[x],globvis),globalshade)<<8);

    vinc = swall[x]*globalyscale;
    vplc = globalzd + vinc*(y1v-globalhoriz+1);

    i = lwall[x]+globalxpanning;
    
    if (i >= tiles[globalpicnum].dim.width)
        i %= tiles[globalpicnum].dim.width;
    
    bufplc = tiles[globalpicnum].data+i*tiles[globalpicnum].dim.height;

    p = ylookup[y1v]+x+frameoffset;

    tvlineasm1(vinc,palookupoffs,y2v-y1v,vplc,bufplc,p);

    transarea += y2v-y1v;
}

static void transmaskvline2 (int32_t x)
{
    int32_t y1, y2, x2;
    intptr_t i;
    short y1ve[2], y2ve[2];

    if ((x < 0) || (x >= xdimen)) return;
    if (x == xdimen-1) {
        transmaskvline(x);
        return;
    }

    x2 = x+1;

    y1ve[0] = max(uwall[x],startumost[x+windowx1]-windowy1);
    y2ve[0] = min(dwall[x],startdmost[x+windowx1]-windowy1)-1;
    if (y2ve[0] < y1ve[0]) {
        transmaskvline(x2);
        return;
    }
    y1ve[1] = max(uwall[x2],startumost[x2+windowx1]-windowy1);
    y2ve[1] = min(dwall[x2],startdmost[x2+windowx1]-windowy1)-1;
    if (y2ve[1] < y1ve[1]) {
        transmaskvline(x);
        return;
    }

    palookupoffse[0] = palookup[globalpal] + (getpalookup((int32_t)mulscale16(swall[x],globvis),globalshade)<<8);
    palookupoffse[1] = palookup[globalpal] + (getpalookup((int32_t)mulscale16(swall[x2],globvis),globalshade)<<8);

    setuptvlineasm2(globalshiftval,palookupoffse[0],palookupoffse[1]);

    vince[0] = swall[x]*globalyscale;
    vince[1] = swall[x2]*globalyscale;
    vplce[0] = globalzd + vince[0]*(y1ve[0]-globalhoriz+1);
    vplce[1] = globalzd + vince[1]*(y1ve[1]-globalhoriz+1);

    i = lwall[x] + globalxpanning;
    if (i >= tiles[globalpicnum].dim.width)
        i %= tiles[globalpicnum].dim.width;
    bufplce[0] = tiles[globalpicnum].data+i*tiles[globalpicnum].dim.height;

    i = lwall[x2] + globalxpanning;
    if (i >= tiles[globalpicnum].dim.width)
        i %= tiles[globalpicnum].dim.width;
    bufplce[1] = tiles[globalpicnum].data+i*tiles[globalpicnum].dim.height;

    
    y1 = max(y1ve[0],y1ve[1]);
    y2 = min(y2ve[0],y2ve[1]);

    i = x+frameoffset;

    if (y1ve[0] != y1ve[1])
    {
        if (y1ve[0] < y1)
            vplce[0] = tvlineasm1(vince[0],palookupoffse[0],y1-y1ve[0]-1,vplce[0],bufplce[0],ylookup[y1ve[0]]+i);
        else
            vplce[1] = tvlineasm1(vince[1],palookupoffse[1],y1-y1ve[1]-1,vplce[1],bufplce[1],ylookup[y1ve[1]]+i+1);
    }

    if (y2 > y1)
    {
        asm1 = vince[1];
        asm2 = ylookup[y2]+i+1;
        tvlineasm2(vplce[1],vince[0],bufplce[0],bufplce[1],vplce[0],ylookup[y1]+i);
        transarea += ((y2-y1)<<1);
    }
    else
    {
        asm1 = vplce[0];
        asm2 = vplce[1];
    }

    if (y2ve[0] > y2ve[1])
        tvlineasm1(vince[0],palookupoffse[0],y2ve[0]-y2-1,asm1,bufplce[0],ylookup[y2+1]+i);
    else if (y2ve[0] < y2ve[1])
        tvlineasm1(vince[1],palookupoffse[1],y2ve[1]-y2-1,asm2,bufplce[1],ylookup[y2+1]+i+1);

    faketimerhandler();
}

static void transmaskwallscan(int32_t x1, int32_t x2)
{
    int32_t x;

    setgotpic(globalpicnum);
    
    //Tile dimensions are invalid
    if ((tiles[globalpicnum].dim.width <= 0) ||
        (tiles[globalpicnum].dim.height <= 0))
        return;

    TILE_MakeAvailable(globalpicnum);

    x = x1;
    while ((startumost[x+windowx1] > startdmost[x+windowx1]) && (x <= x2)) x++;
    if ((x <= x2) && (x&1)) transmaskvline(x), x++;
    while (x < x2) transmaskvline2(x), x += 2;
    while (x <= x2) transmaskvline(x), x++;
    faketimerhandler();
}

int loadboard(char  *filename, int32_t *daposx, int32_t *daposy,
              int32_t *daposz, short *daang, short *dacursectnum)
{
    int x;
    short fil, i, numsprites;
    sectortype *sect;
    spritetype *s;
    walltype *w;

    x = 0;

    // FIX_00058: Save/load game crash in both single and multiplayer
    // We have to reset those arrays since the same
    // arrays are used as temporary space in the
    // compilecons() function like "label = (uint8_t  *)&sprite[0];"
    // to save memory space I guess.
    // Not reseting the array will leave dumps fooling
    // the function saveplayer(), eg at if(actorscrptr[PN] == 0)
    // where PN is sprite[i].picnum was beyong actorscrptr[] size)
    memset(sprite, 0, sizeof(sprite));
    memset(sector, 0, sizeof(sector));
    memset(wall, 0, sizeof(wall));

    if ((fil = kopen4load(filename, 0)) == -1)
    {
        mapversion = 7L;
        return(-1);
    }

    kread32(fil,&mapversion);
    if (mapversion != 7L) return(-1);

    initspritelists();

    clearbuf(&show2dsector[0],(int32_t)((MAXSECTORS+3)>>5),0L);
    clearbuf(&show2dsprite[0],(int32_t)((MAXSPRITES+3)>>5),0L);
    clearbuf(&show2dwall[0],(int32_t)((MAXWALLS+3)>>5),0L);

    kread32(fil,daposx);
    kread32(fil,daposy);
    kread32(fil,daposz);
    kread16(fil,daang);
    kread16(fil,dacursectnum);
    kread16(fil,&numsectors);

    for (x = 0, sect = &sector[0]; x < numsectors; x++, sect++)
    {
        kread16(fil,&sect->wallptr);
        kread16(fil,&sect->wallnum);
        kread32(fil,&sect->ceilingz);
        kread32(fil,&sect->floorz);
        kread16(fil,&sect->ceilingstat);
        kread16(fil,&sect->floorstat);
        kread16(fil,&sect->ceilingpicnum);
        kread16(fil,&sect->ceilingheinum);
        kread8(fil,(uint8_t *)&sect->ceilingshade);
        kread8(fil,(uint8_t *)&sect->ceilingpal);
        kread8(fil,(uint8_t *)&sect->ceilingxpanning);
        kread8(fil,(uint8_t *)&sect->ceilingypanning);
        kread16(fil,&sect->floorpicnum);
        kread16(fil,&sect->floorheinum);
        kread8(fil,(uint8_t *)&sect->floorshade);
        kread8(fil,(uint8_t *)&sect->floorpal);
        kread8(fil,(uint8_t *)&sect->floorxpanning);
        kread8(fil,(uint8_t *)&sect->floorypanning);
        kread8(fil,(uint8_t *)&sect->visibility);
        kread8(fil,(uint8_t *)&sect->filler);
        kread16(fil,&sect->lotag);
        kread16(fil,&sect->hitag);
        kread16(fil,&sect->extra);
    }

    kread16(fil,&numwalls);
    for (x = 0, w = &wall[0]; x < numwalls; x++, w++)
    {
        kread32(fil,&w->x);
        kread32(fil,&w->y);
        kread16(fil,&w->point2);
        kread16(fil,&w->nextwall);
        kread16(fil,&w->nextsector);
        kread16(fil,&w->cstat);
        kread16(fil,&w->picnum);
        kread16(fil,&w->overpicnum);
        kread8(fil,(uint8_t *)&w->shade);
        kread8(fil,&w->pal);
        kread8(fil,&w->xrepeat);
        kread8(fil,&w->yrepeat);
        kread8(fil,&w->xpanning);
        kread8(fil,&w->ypanning);
        kread16(fil,&w->lotag);
        kread16(fil,&w->hitag);
        kread16(fil,&w->extra);
    }

    kread16(fil,&numsprites);
    for (x = 0, s = &sprite[0]; x < numsprites; x++, s++)
    {
        kread32(fil,&s->x);
        kread32(fil,&s->y);
        kread32(fil,&s->z);
        kread16(fil,&s->cstat);
        kread16(fil,&s->picnum);
        kread8(fil,(uint8_t *)&s->shade);
        kread8(fil,(uint8_t *)&s->pal);
        kread8(fil,(uint8_t *)&s->clipdist);
        kread8(fil,(uint8_t *)&s->filler);
        kread8(fil,(uint8_t *)&s->xrepeat);
        kread8(fil,(uint8_t *)&s->yrepeat);
        kread8(fil,(uint8_t *)&s->xoffset);
        kread8(fil,(uint8_t *)&s->yoffset);
        kread16(fil,&s->sectnum);
        kread16(fil,&s->statnum);
        kread16(fil,&s->ang);
        kread16(fil,&s->owner);
        kread16(fil,&s->xvel);
        kread16(fil,&s->yvel);
        kread16(fil,&s->zvel);
        kread16(fil,&s->lotag);
        kread16(fil,&s->hitag);
        kread16(fil,&s->extra);
    }


    for(i=0; i<numsprites; i++)
        insertsprite(sprite[i].sectnum,sprite[i].statnum);

    /* Must be after loading sectors, etc! */
    updatesector(*daposx,*daposy,dacursectnum);

    kclose(fil);

    // FIX_00009: Show map CRC and GRP file version of each player in case of Out Of Synch

    mapCRC = crc16((uint8_t *)sector, numsectors*sizeof(sectortype));
    mapCRC += crc16((uint8_t *)wall, numwalls*sizeof(walltype));
    mapCRC += crc16((uint8_t *)sprite, numsprites*sizeof(spritetype));

    return(0);
}


static void write32(int f, int32_t val)
{
    val = BUILDSWAP_INTEL32(val);
    write(f, &val, 4);
}

static void write16(int f, short val)
{
    val = BUILDSWAP_INTEL16(val);
    write(f, &val, 2);
}

static void write8(int f, uint8_t  val)
{
    write(f, &val, 1);
}


int saveboard(char  *filename, int32_t *daposx, int32_t *daposy,
              int32_t *daposz, short *daang, short *dacursectnum)
{
    int fil;
    int x;
    short i, j, numsprites;
    int permissions = 0;
    walltype *w;
    sectortype *sect;

#ifdef WIN32
    permissions = S_IWRITE;
#else
    permissions = S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH;
#endif

    if ((fil = open(filename,
                    O_BINARY|O_TRUNC|O_CREAT|O_WRONLY,
                    permissions)) == -1)
    {
        return(-1);
    }

    write32(fil,mapversion);

    write32(fil,*daposx);
    write32(fil,*daposy);
    write32(fil,*daposz);
    write16(fil,*daang);
    write16(fil,*dacursectnum);

    write16(fil,numsectors);
    for (x = 0, sect = &sector[0]; x < numsectors; x++, sect++)
    {
        write16(fil,sect->wallptr);
        write16(fil,sect->wallnum);
        write32(fil,sect->ceilingz);
        write32(fil,sect->floorz);
        write16(fil,sect->ceilingstat);
        write16(fil,sect->floorstat);
        write16(fil,sect->ceilingpicnum);
        write16(fil,sect->ceilingheinum);
        write8(fil,sect->ceilingshade);
        write8(fil,sect->ceilingpal);
        write8(fil,sect->ceilingxpanning);
        write8(fil,sect->ceilingypanning);
        write16(fil,sect->floorpicnum);
        write16(fil,sect->floorheinum);
        write8(fil,sect->floorshade);
        write8(fil,sect->floorpal);
        write8(fil,sect->floorxpanning);
        write8(fil,sect->floorypanning);
        write8(fil,sect->visibility);
        write8(fil,sect->filler);
        write16(fil,sect->lotag);
        write16(fil,sect->hitag);
        write16(fil,sect->extra);
    }

    write16(fil,numwalls);
    for (x = 0, w = &wall[0]; x < numwalls; x++, w++)
    {
        write32(fil,w->x);
        write32(fil,w->y);
        write16(fil,w->point2);
        write16(fil,w->nextwall);
        write16(fil,w->nextsector);
        write16(fil,w->cstat);
        write16(fil,w->picnum);
        write16(fil,w->overpicnum);
        write8(fil,w->shade);
        write8(fil,w->pal);
        write8(fil,w->xrepeat);
        write8(fil,w->yrepeat);
        write8(fil,w->xpanning);
        write8(fil,w->ypanning);
        write16(fil,w->lotag);
        write16(fil,w->hitag);
        write16(fil,w->extra);
    }

    numsprites = 0;
    for(j=0; j<MAXSTATUS; j++)
    {
        i = headspritestat[j];
        while (i != -1)
        {
            numsprites++;
            i = nextspritestat[i];
        }
    }
    write16(fil,numsprites);

    for(j=0; j<MAXSTATUS; j++)
    {
        i = headspritestat[j];
        while (i != -1)
        {
            spritetype *s = &sprite[i];
            write32(fil,s->x);
            write32(fil,s->y);
            write32(fil,s->z);
            write16(fil,s->cstat);
            write16(fil,s->picnum);
            write8(fil,s->shade);
            write8(fil,s->pal);
            write8(fil,s->clipdist);
            write8(fil,s->filler);
            write8(fil,s->xrepeat);
            write8(fil,s->yrepeat);
            write8(fil,s->xoffset);
            write8(fil,s->yoffset);
            write16(fil,s->sectnum);
            write16(fil,s->statnum);
            write16(fil,s->ang);
            write16(fil,s->owner);
            write16(fil,s->xvel);
            write16(fil,s->yvel);
            write16(fil,s->zvel);
            write16(fil,s->lotag);
            write16(fil,s->hitag);
            write16(fil,s->extra);

            i = nextspritestat[i];
        }
    }

    close(fil);
    return(0);
}


static void initksqrt(void)
{
    int32_t i, j, k;

    j = 1;
    k = 0;
    for(i=0; i<4096; i++)
    {
        if (i >= j) {
            j <<= 2;
            k++;
        }
        sqrtable[i] = (uint16_t)(msqrtasm((i<<18)+131072)<<1);
        shlookup[i] = (k<<1)+((10-k)<<8);
        if (i < 256) shlookup[i+4096] = ((k+6)<<1)+((10-(k+6))<<8);
    }
}


static void loadtables(void)
{
    int32_t i, fil;

    if (tablesloaded == 0)
    {
        initksqrt();

        for(i=0; i<2048; i++) reciptable[i] = divscale30(2048L,i+2048);

        if ((fil = TCkopen4load("tables.dat",0)) != -1)
        {
            for (i = 0; i < 2048; i++)
                kread16(fil,&sintable[i]);

            for (i = 0; i < 640; i++)
                kread16(fil,&radarang[i]);

            for(i=0; i<640; i++) radarang[1279-i] = -radarang[i];
            kread(fil,textfont,1024);
            kread(fil,smalltextfont,1024);
            kread(fil,britable,1024);
            kclose(fil);
        }
        tablesloaded = 1;
    }
}


static void initfastcolorlookup(int32_t rscale, int32_t gscale, int32_t bscale)
{
    int32_t i, j, x, y, z;
    uint8_t  *pal1;

    j = 0;
    for(i=64; i>=0; i--)
    {
        /*j = (i-64)*(i-64);*/
        rdist[i] = rdist[128-i] = j*rscale;
        gdist[i] = gdist[128-i] = j*gscale;
        bdist[i] = bdist[128-i] = j*bscale;
        j += 129-(i<<1);
    }

    clearbufbyte(colhere, sizeof(colhere), 0L);
    clearbufbyte(colhead, sizeof(colhead), 0L);

    pal1 = &palette[768-3];
    for(i=255; i>=0; i--,pal1-=3)
    {
        j = (pal1[0]>>3)*FASTPALGRIDSIZ*FASTPALGRIDSIZ+(pal1[1]>>3)*FASTPALGRIDSIZ+(pal1[2]>>3)+FASTPALGRIDSIZ*FASTPALGRIDSIZ+FASTPALGRIDSIZ+1;
        if (colhere[j>>3]&pow2char[j&7]) colnext[i] = colhead[j];
        else colnext[i] = -1;
        colhead[j] = i;
        colhere[j>>3] |= pow2char[j&7];
    }

    i = 0;
    for(x=-FASTPALGRIDSIZ*FASTPALGRIDSIZ; x<=FASTPALGRIDSIZ*FASTPALGRIDSIZ; x+=FASTPALGRIDSIZ*FASTPALGRIDSIZ)
        for(y=-FASTPALGRIDSIZ; y<=FASTPALGRIDSIZ; y+=FASTPALGRIDSIZ)
            for(z=-1; z<=1; z++)
                colscan[i++] = x+y+z;
    i = colscan[13];
    colscan[13] = colscan[26];
    colscan[26] = i;
}

extern uint8_t lastPalette[768];
static void loadpalette(void)
{
    int32_t k, fil;
    

    if (paletteloaded != 0)
        return;
    
    if ((fil = TCkopen4load("palette.dat",0)) == -1)
        return;

    kread(fil,palette,768);
    
    //CODE EXPLORATION
    //WritePaletteToFile(palette,"palette.tga",16, 16);
    memcpy(lastPalette, palette, 768);
    
    
    kread16(fil,&numpalookups);
    
    //CODE EXPLORATION
    //printf("Num palettes lookup: %d.\n",numpalookups);
    
    if ((palookup[0] = (uint8_t  *)malloc(numpalookups<<8)) == NULL)
        allocache(&palookup[0],numpalookups<<8,&permanentlock);
    
    //Transluctent pallete is 65KB.
    if ((transluc = (uint8_t  *)malloc(65536)) == NULL)
        allocache(&transluc,65536,&permanentlock);

    globalpalwritten = palookup[0];
    globalpal = 0;
    

   

    kread(fil,palookup[globalpal],numpalookups<<8);


    /*kread(fil,transluc,65536);*/
    for (k = 0; k < (65536 / 4); k++)
        kread32(fil, ((int32_t *) transluc) + k);


    
    kclose(fil);

    initfastcolorlookup(30L,59L,11L);

    paletteloaded = 1;

}



int setgamemode(int32_t daxdim, int32_t daydim)
{
    strcpy(kensmessage,"!!!! BUILD engine&tools programmed by Ken Silverman of E.G. RI.  (c) Copyright 1995 Ken Silverman.  Summary:  BUILD = Ken. !!!!");
   
    return(_setgamemode(daxdim, daydim));
}


void initengine(void)
{
    int32_t i;

    loadtables();

    xyaspect = -1;

    pskyoff[0] = 0;
    pskybits = 0;

    parallaxtype = 2;
    parallaxyoffs = 0L;
    parallaxyscale = 65536;
    showinvisibility = 0;

    paletteloaded = 0;

    searchit = 0;
    searchstat = -1;

    for(i=0; i<MAXPALOOKUPS; i++)
        palookup[i] = NULL;

    for(i=0 ; i < MAXTILES ; i++)
        tiles[i].data = NULL;

    clearbuf(&show2dsector[0],(int32_t)((MAXSECTORS+3)>>5),0L);
    clearbuf(&show2dsprite[0],(int32_t)((MAXSPRITES+3)>>5),0L);
    clearbuf(&show2dwall[0],(int32_t)((MAXWALLS+3)>>5),0L);
    automapping = 0;

    validmodecnt = 0;

    pointhighlight = -1;
    linehighlight = -1;
    highlightcnt = 0;

    totalclock = 0;
    visibility = 512;
    parallaxvisibility = 512;

    loadpalette();
}


void uninitengine(void)
{
    if (transluc != NULL) {
        free(transluc);
        transluc = NULL;
    }
    if (pic != NULL) {
        free(pic);
        pic = NULL;
    }
    if (artfil != -1) kclose(artfil);
    _uninitengine(); /* video driver specific. */
}


/* Assume npoints=4 with polygon on &rx1,&ry1 */
//FCS This is horrible to read: I hate you.
static int clippoly4(int32_t cx1, int32_t cy1, int32_t cx2, int32_t cy2)
{
    int32_t n, nn, z, zz, x, x1, x2, y, y1, y2, t;
    
    nn = 0;
    z = 0;
    do
    {
        zz = ((z+1)&3);
        
        
        x1 = pvWalls[z] .cameraSpaceCoo[0][VEC_X];
        x2 = pvWalls[zz].cameraSpaceCoo[0][VEC_X]-x1;

        if ((cx1 <= x1) && (x1 <= cx2)){
            pvWalls[nn] .cameraSpaceCoo[1][VEC_X] = x1;
            pvWalls[nn] .cameraSpaceCoo[1][VEC_Y] = pvWalls[z] .cameraSpaceCoo[0][VEC_Y];
            nn++;
        }
        
        if (x2 <= 0)
            x = cx2;
        else
            x = cx1;
        
        t = x-x1;
        
        if (((t-x2)^t) < 0){
            pvWalls[nn] .cameraSpaceCoo[1][VEC_X] = x;
            pvWalls[nn] .cameraSpaceCoo[1][VEC_Y] = pvWalls[z].cameraSpaceCoo[0][VEC_Y] +
            scale(t,pvWalls[zz].cameraSpaceCoo[0][VEC_Y]-pvWalls[z].cameraSpaceCoo[0][VEC_Y],x2);
            nn++;
        }
        
        if (x2 <= 0)
            x = cx1;
        else
            x = cx2;
        
        t = x-x1;
        
        if (((t-x2)^t) < 0){
            pvWalls[nn] .cameraSpaceCoo[1][VEC_X] = x;
            pvWalls[nn] .cameraSpaceCoo[1][VEC_Y] = pvWalls[z] .cameraSpaceCoo[0][VEC_Y]+
            scale(t,pvWalls[zz].cameraSpaceCoo[0][VEC_Y]-pvWalls[z].cameraSpaceCoo[0][VEC_Y],x2);
            nn++;
        }
        z = zz;
    } while (z != 0);
    if (nn < 3) return(0);

    n = 0;
    z = 0;
    do
    {
        zz = z+1;
        if (zz == nn)
            zz = 0;
        
        y1 = pvWalls[z] .cameraSpaceCoo[1][VEC_Y];
        y2 = pvWalls[zz].cameraSpaceCoo[1][VEC_Y]-y1;

        if ((cy1 <= y1) && (y1 <= cy2)){
            pvWalls[n] .cameraSpaceCoo[0][VEC_Y] = y1;
            pvWalls[n] .cameraSpaceCoo[0][VEC_X] = pvWalls[z] .cameraSpaceCoo[1][VEC_X];
            n++;
        }
        if (y2 <= 0) y = cy2;
        else y = cy1;
        t = y-y1;
        if (((t-y2)^t) < 0){
            pvWalls[n] .cameraSpaceCoo[0][VEC_Y] = y;
            pvWalls[n] .cameraSpaceCoo[0][VEC_X] =
            pvWalls[z] .cameraSpaceCoo[1][VEC_X]+scale(t,
                                                       pvWalls[zz].cameraSpaceCoo[1][VEC_X]-
                                                       pvWalls[z] .cameraSpaceCoo[1][VEC_X],y2);
            n++;
        }
        
        if (y2 <= 0) y = cy1;
        else y = cy2;
        t = y-y1;
        if (((t-y2)^t) < 0){
            pvWalls[n] .cameraSpaceCoo[0][VEC_Y] = y;
            pvWalls[n] .cameraSpaceCoo[0][VEC_X] =
            pvWalls[z] .cameraSpaceCoo[1][VEC_X]+scale(t,
                                                       pvWalls[zz].cameraSpaceCoo[1][VEC_X]-
                                                       pvWalls[z ].cameraSpaceCoo[1][VEC_X],y2);
            n++;
        }
        z = zz;
    } while (z != 0);
    return(n);
}



static void dorotatesprite (int32_t sx, int32_t sy, int32_t z, short a, short picnum,
                            int8_t dashade, uint8_t  dapalnum, uint8_t  dastat, int32_t cx1,
                            int32_t cy1, int32_t cx2, int32_t cy2)
{
    int32_t cosang, sinang, v, nextv, dax1, dax2, oy, bx, by, ny1, ny2;
    int32_t i, x, y, x1, y1, x2, y2, gx1, gy1;
    uint8_t* bufplc;
    uint8_t* palookupoffs;
    uint8_t* p;
    int32_t xoff, yoff, npoints, yplc, yinc, lx, rx, xx, xend;
    int32_t xv, yv, xv2, yv2, obuffermode=0, qlinemode=0, y1ve[4], y2ve[4], u4, d4;
    uint8_t  bad;

    short tileWidht, tileHeight;
    
    tileWidht = tiles[picnum].dim.width;
    tileHeight = tiles[picnum].dim.height;
    
    if (dastat&16) {
        xoff = 0;
        yoff = 0;
    }
    else{
        xoff = (int32_t)((int8_t )((tiles[picnum].animFlags>>8)&255))+(tileWidht>>1);
        yoff = (int32_t)((int8_t )((tiles[picnum].animFlags>>16)&255))+(tileHeight>>1);
    }

    if (dastat&4)
        yoff = tileHeight-yoff;

    cosang = sintable[(a+512)&2047];
    sinang = sintable[a&2047];

    if ((dastat&2) != 0)  /* Auto window size scaling */
    {
        if ((dastat&8) == 0)
        {
            x = xdimenscale;   /* = scale(xdimen,yxaspect,320); */
            if (stereomode) x = scale(windowx2-windowx1+1,yxaspect,320);
            sx = ((cx1+cx2+2)<<15)+scale(sx-(320<<15),xdimen,320);
            sy = ((cy1+cy2+2)<<15)+mulscale16(sy-(200<<15),x);
        }
        else
        {
            /*
             * If not clipping to startmosts, & auto-scaling on, as a
             *  hard-coded bonus, scale to full screen instead
             */
            x = scale(xdim,yxaspect,320);
            sx = (xdim<<15)+32768+scale(sx-(320<<15),xdim,320);
            sy = (ydim<<15)+32768+mulscale16(sy-(200<<15),x);
        }
        z = mulscale16(z,x);
    }

    xv = mulscale14(cosang,z);
    yv = mulscale14(sinang,z);
    if (((dastat&2) != 0) || ((dastat&8) == 0)) /* Don't aspect unscaled perms */
    {
        xv2 = mulscale16(xv,xyaspect);
        yv2 = mulscale16(yv,xyaspect);
    }
    else
    {
        xv2 = xv;
        yv2 = yv;
    }

    
    //Taking care of the Y coordinates.
    pvWalls[0].cameraSpaceCoo[0][VEC_Y] = sy - (yv*xoff + xv*yoff);
    pvWalls[1].cameraSpaceCoo[0][VEC_Y] = pvWalls[0].cameraSpaceCoo[0][VEC_Y] + yv * tileWidht;
    pvWalls[3].cameraSpaceCoo[0][VEC_Y] = pvWalls[0].cameraSpaceCoo[0][VEC_Y] + xv * tileHeight;
    
    pvWalls[2].cameraSpaceCoo[0][VEC_Y] = pvWalls[1].cameraSpaceCoo[0][VEC_Y] +
                                          pvWalls[3].cameraSpaceCoo[0][VEC_Y] -
                                          pvWalls[0].cameraSpaceCoo[0][VEC_Y] ;
    
    i = (cy1<<16);
    
    if ((pvWalls[0].cameraSpaceCoo[0][VEC_Y]<i) &&
        (pvWalls[1].cameraSpaceCoo[0][VEC_Y]<i) &&
        (pvWalls[2].cameraSpaceCoo[0][VEC_Y]<i) &&
        (pvWalls[3].cameraSpaceCoo[0][VEC_Y]<i))
        return;
    
    i = (cy2<<16);
    
    if ((pvWalls[0].cameraSpaceCoo[0][VEC_Y]>i) &&
        (pvWalls[1].cameraSpaceCoo[0][VEC_Y]>i) &&
        (pvWalls[2].cameraSpaceCoo[0][VEC_Y]>i) &&
        (pvWalls[3].cameraSpaceCoo[0][VEC_Y]>i))
        return;

    
    
    //Taking care of the X coordinates.
    pvWalls[0].cameraSpaceCoo[0][VEC_X] = sx - (xv2*xoff - yv2*yoff);
    pvWalls[1].cameraSpaceCoo[0][VEC_X] = pvWalls[0].cameraSpaceCoo[0][VEC_X] + xv2 * tileWidht;
    pvWalls[3].cameraSpaceCoo[0][VEC_X] = pvWalls[0].cameraSpaceCoo[0][VEC_X] - yv2 * tileHeight;
    pvWalls[2].cameraSpaceCoo[0][VEC_X] = pvWalls[1].cameraSpaceCoo[0][VEC_X] +
                                          pvWalls[3].cameraSpaceCoo[0][VEC_X] -
                                          pvWalls[0].cameraSpaceCoo[0][VEC_X] ;
    
    i = (cx1<<16);
    if ((pvWalls[0].cameraSpaceCoo[0][VEC_X]<i) &&
        (pvWalls[1].cameraSpaceCoo[0][VEC_X]<i) &&
        (pvWalls[2].cameraSpaceCoo[0][VEC_X]<i) &&
        (pvWalls[3].cameraSpaceCoo[0][VEC_X]<i))
        return;
    
    i = (cx2<<16);
    if ((pvWalls[0].cameraSpaceCoo[0][VEC_X]>i) &&
        (pvWalls[1].cameraSpaceCoo[0][VEC_X]>i) &&
        (pvWalls[2].cameraSpaceCoo[0][VEC_X]>i) &&
        (pvWalls[3].cameraSpaceCoo[0][VEC_X]>i))
        return;
    
    
    
    
    
    
    

    gx1 = pvWalls[0].cameraSpaceCoo[0][VEC_X];
    gy1 = pvWalls[0].cameraSpaceCoo[0][VEC_Y];   /* back up these before clipping */

    if ((npoints = clippoly4(cx1<<16,cy1<<16,(cx2+1)<<16,(cy2+1)<<16)) < 3) return;

    lx = pvWalls[0].cameraSpaceCoo[0][VEC_X];
    rx = pvWalls[0].cameraSpaceCoo[0][VEC_X];

    nextv = 0;
    for(v=npoints-1; v>=0; v--)
    {
        x1 = pvWalls[    v].cameraSpaceCoo[0][VEC_X];
        x2 = pvWalls[nextv].cameraSpaceCoo[0][VEC_X];
        dax1 = (x1>>16);
        if (x1 < lx) lx = x1;
        dax2 = (x2>>16);
        if (x1 > rx) rx = x1;
        if (dax1 != dax2)
        {
            y1 = pvWalls[    v].cameraSpaceCoo[0][VEC_Y];
            y2 = pvWalls[nextv].cameraSpaceCoo[0][VEC_Y];
            yinc = divscale16(y2-y1,x2-x1);
            if (dax2 > dax1)
            {
                yplc = y1 + mulscale16((dax1<<16)+65535-x1,yinc);
                qinterpolatedown16short((int32_t *)(&uplc[dax1]),dax2-dax1,yplc,yinc);
            }
            else
            {
                yplc = y2 + mulscale16((dax2<<16)+65535-x2,yinc);
                qinterpolatedown16short((int32_t *)(&dplc[dax2]),dax1-dax2,yplc,yinc);
            }
        }
        nextv = v;
    }

    TILE_MakeAvailable(picnum);
    
    setgotpic(picnum);
    bufplc = tiles[picnum].data;

    palookupoffs = palookup[dapalnum] + (getpalookup(0L,(int32_t)dashade)<<8);

    i = divscale32(1L,z);
    xv = mulscale14(sinang,i);
    yv = mulscale14(cosang,i);
    if (((dastat&2) != 0) || ((dastat&8) == 0)) /* Don't aspect unscaled perms */
    {
        yv2 = mulscale16(-xv,yxaspect);
        xv2 = mulscale16(yv,yxaspect);
    }
    else
    {
        yv2 = -xv;
        xv2 = yv;
    }

    x1 = (lx>>16);
    x2 = (rx>>16);

    oy = 0;
    x = (x1<<16)-1-gx1;
    y = (oy<<16)+65535-gy1;
    bx = dmulscale16(x,xv2,y,xv);
    by = dmulscale16(x,yv2,y,yv);
    if (dastat&4) {
        yv = -yv;
        yv2 = -yv2;
        by = (tileHeight<<16)-1-by;
    }

    if ((vidoption == 1) && (origbuffermode == 0))
    {
        if (dastat&128)
        {
            obuffermode = buffermode;
            buffermode = 0;

        }
    }
    else if (dastat&8)
        permanentupdate = 1;

    if ((dastat&1) == 0)
    {
        if (((a&1023) == 0) && (tileHeight <= 256))  /* vlineasm4 has 256 high limit! */
        {
            if (dastat&64)
                setupvlineasm(24L);
            else
                setupmvlineasm(24L);

            by <<= 8;
            yv <<= 8;
            yv2 <<= 8;

            palookupoffse[0] = palookupoffse[1] = palookupoffse[2] = palookupoffse[3] = palookupoffs;
            vince[0] = vince[1] = vince[2] = vince[3] = yv;

            for(x=x1; x<x2; x+=4)
            {
                bad = 15;
                xend = min(x2-x,4);
                for(xx=0; xx<xend; xx++)
                {
                    bx += xv2;

                    y1 = uplc[x+xx];
                    y2 = dplc[x+xx];
                    if ((dastat&8) == 0)
                    {
                        if (startumost[x+xx] > y1) y1 = startumost[x+xx];
                        if (startdmost[x+xx] < y2) y2 = startdmost[x+xx];
                    }
                    if (y2 <= y1) continue;

                    by += yv*(y1-oy);
                    oy = y1;

                    bufplce[xx] = (bx>>16)*tileHeight+bufplc;
                    vplce[xx] = by;
                    y1ve[xx] = y1;
                    y2ve[xx] = y2-1;
                    bad &= ~pow2char[xx];
                }

                p = x+frameplace;

                u4 = max(max(y1ve[0],y1ve[1]),max(y1ve[2],y1ve[3]));
                d4 = min(min(y2ve[0],y2ve[1]),min(y2ve[2],y2ve[3]));

                if (dastat&64)
                {
                    if ((bad != 0) || (u4 >= d4))
                    {
                        if (!(bad&1)) 
                            prevlineasm1(vince[0],palookupoffse[0],y2ve[0]-y1ve[0],vplce[0],bufplce[0],ylookup[y1ve[0]]+p+0);
                        if (!(bad&2)) 
                            prevlineasm1(vince[1],palookupoffse[1],y2ve[1]-y1ve[1],vplce[1],bufplce[1],ylookup[y1ve[1]]+p+1);
                        if (!(bad&4)) 
                            prevlineasm1(vince[2],palookupoffse[2],y2ve[2]-y1ve[2],vplce[2],bufplce[2],ylookup[y1ve[2]]+p+2);
                        if (!(bad&8)) 
                            prevlineasm1(vince[3],palookupoffse[3],y2ve[3]-y1ve[3],vplce[3],bufplce[3],ylookup[y1ve[3]]+p+3);
                        continue;
                    }

                    if (u4 > y1ve[0]) 
                        vplce[0] = prevlineasm1(vince[0],palookupoffse[0],u4-y1ve[0]-1,vplce[0],bufplce[0],ylookup[y1ve[0]]+p+0);
                    if (u4 > y1ve[1]) 
                        vplce[1] = prevlineasm1(vince[1],palookupoffse[1],u4-y1ve[1]-1,vplce[1],bufplce[1],ylookup[y1ve[1]]+p+1);
                    if (u4 > y1ve[2]) 
                        vplce[2] = prevlineasm1(vince[2],palookupoffse[2],u4-y1ve[2]-1,vplce[2],bufplce[2],ylookup[y1ve[2]]+p+2);
                    if (u4 > y1ve[3]) 
                        vplce[3] = prevlineasm1(vince[3],palookupoffse[3],u4-y1ve[3]-1,vplce[3],bufplce[3],ylookup[y1ve[3]]+p+3);

                    if (d4 >= u4) vlineasm4(d4-u4+1,ylookup[u4]+p);

                    i = p+ylookup[d4+1];
                    if (y2ve[0] > d4) 
                        prevlineasm1(vince[0],palookupoffse[0],y2ve[0]-d4-1,vplce[0],bufplce[0],i+0);
                    if (y2ve[1] > d4) 
                        prevlineasm1(vince[1],palookupoffse[1],y2ve[1]-d4-1,vplce[1],bufplce[1],i+1);
                    if (y2ve[2] > d4) 
                        prevlineasm1(vince[2],palookupoffse[2],y2ve[2]-d4-1,vplce[2],bufplce[2],i+2);
                    if (y2ve[3] > d4) 
                        prevlineasm1(vince[3],palookupoffse[3],y2ve[3]-d4-1,vplce[3],bufplce[3],i+3);
                }
                else
                {
                    if ((bad != 0) || (u4 >= d4))
                    {
                        if (!(bad&1)) mvlineasm1(vince[0],palookupoffse[0],y2ve[0]-y1ve[0],vplce[0],bufplce[0],ylookup[y1ve[0]]+p+0);
                        if (!(bad&2)) mvlineasm1(vince[1],palookupoffse[1],y2ve[1]-y1ve[1],vplce[1],bufplce[1],ylookup[y1ve[1]]+p+1);
                        if (!(bad&4)) mvlineasm1(vince[2],palookupoffse[2],y2ve[2]-y1ve[2],vplce[2],bufplce[2],ylookup[y1ve[2]]+p+2);
                        if (!(bad&8)) mvlineasm1(vince[3],palookupoffse[3],y2ve[3]-y1ve[3],vplce[3],bufplce[3],ylookup[y1ve[3]]+p+3);
                        continue;
                    }

                    if (u4 > y1ve[0]) vplce[0] = mvlineasm1(vince[0],palookupoffse[0],u4-y1ve[0]-1,vplce[0],bufplce[0],ylookup[y1ve[0]]+p+0);
                    if (u4 > y1ve[1]) vplce[1] = mvlineasm1(vince[1],palookupoffse[1],u4-y1ve[1]-1,vplce[1],bufplce[1],ylookup[y1ve[1]]+p+1);
                    if (u4 > y1ve[2]) vplce[2] = mvlineasm1(vince[2],palookupoffse[2],u4-y1ve[2]-1,vplce[2],bufplce[2],ylookup[y1ve[2]]+p+2);
                    if (u4 > y1ve[3]) vplce[3] = mvlineasm1(vince[3],palookupoffse[3],u4-y1ve[3]-1,vplce[3],bufplce[3],ylookup[y1ve[3]]+p+3);

                    if (d4 >= u4) mvlineasm4(d4-u4+1,ylookup[u4]+p);

                    i = p+ylookup[d4+1];
                    if (y2ve[0] > d4) mvlineasm1(vince[0],palookupoffse[0],y2ve[0]-d4-1,vplce[0],bufplce[0],i+0);
                    if (y2ve[1] > d4) mvlineasm1(vince[1],palookupoffse[1],y2ve[1]-d4-1,vplce[1],bufplce[1],i+1);
                    if (y2ve[2] > d4) mvlineasm1(vince[2],palookupoffse[2],y2ve[2]-d4-1,vplce[2],bufplce[2],i+2);
                    if (y2ve[3] > d4) mvlineasm1(vince[3],palookupoffse[3],y2ve[3]-d4-1,vplce[3],bufplce[3],i+3);
                }

                faketimerhandler();
            }
        }
        else
        {
            if (dastat&64)
            {
                if ((xv2&0x0000ffff) == 0)
                {
                    qlinemode = 1;
                    setuprhlineasm4(0L,yv2<<16,(xv2>>16)*tileHeight+(yv2>>16),palookupoffs,0L,0L);
                }
                else
                {
                    qlinemode = 0;
                    setuprhlineasm4(xv2<<16,yv2<<16,(xv2>>16)*tileHeight+(yv2>>16),palookupoffs,tileHeight,0L);
                }
            }
            else
                setuprmhlineasm4(xv2<<16,yv2<<16,(xv2>>16)*tileHeight+(yv2>>16),palookupoffs,tileHeight,0L);

            y1 = uplc[x1];
            if (((dastat&8) == 0) && (startumost[x1] > y1)) y1 = startumost[x1];
            y2 = y1;
            for(x=x1; x<x2; x++)
            {
                ny1 = uplc[x]-1;
                ny2 = dplc[x];
                if ((dastat&8) == 0)
                {
                    if (startumost[x]-1 > ny1) ny1 = startumost[x]-1;
                    if (startdmost[x] < ny2) ny2 = startdmost[x];
                }

                if (ny1 < ny2-1)
                {
                    if (ny1 >= y2)
                    {
                        while (y1 < y2-1)
                        {
                            y1++;
                            if ((y1&31) == 0) faketimerhandler();

                            /* x,y1 */
                            bx += xv*(y1-oy);
                            by += yv*(y1-oy);
                            oy = y1;
                            if (dastat&64) {
                                if (qlinemode)
                                    rhlineasm4(x-lastx[y1],(bx>>16)*tileHeight+(by>>16)+bufplc,0L,0L    ,by<<16,ylookup[y1]+x+frameplace);
                                else
                                    rhlineasm4(x-lastx[y1],(bx>>16)*tileHeight+(by>>16)+bufplc,0L,bx<<16,by<<16,ylookup[y1]+x+frameplace);
                            } else
                                rmhlineasm4(x-lastx[y1],(bx>>16)*tileHeight+(by>>16)+bufplc,0L,bx<<16,by<<16,ylookup[y1]+x+frameplace);
                        }
                        y1 = ny1;
                    }
                    else
                    {
                        while (y1 < ny1)
                        {
                            y1++;
                            if ((y1&31) == 0) faketimerhandler();

                            /* x,y1 */
                            bx += xv*(y1-oy);
                            by += yv*(y1-oy);
                            oy = y1;
                            if (dastat&64) {
                                if (qlinemode)
                                    rhlineasm4(x-lastx[y1],(bx>>16)*tileHeight+(by>>16)+bufplc,0L,0L,by<<16,ylookup[y1]+x+frameplace);
                                else
                                    rhlineasm4(x-lastx[y1],(bx>>16)*tileHeight+(by>>16)+bufplc,0L,bx<<16,by<<16,ylookup[y1]+x+frameplace);
                            } else
                                rmhlineasm4(x-lastx[y1],(bx>>16)*tileHeight+(by>>16)+bufplc,0L,bx<<16,by<<16,ylookup[y1]+x+frameplace);
                        }
                        while (y1 > ny1) lastx[y1--] = x;
                    }
                    while (y2 > ny2)
                    {
                        y2--;
                        if ((y2&31) == 0) faketimerhandler();

                        /* x,y2 */
                        bx += xv*(y2-oy);
                        by += yv*(y2-oy);
                        oy = y2;
                        if (dastat&64) {
                            if (qlinemode)
                                rhlineasm4(x-lastx[y2],(bx>>16)*tileHeight+(by>>16)+bufplc,0L,0L    ,by<<16,ylookup[y2]+x+frameplace);
                            else
                                rhlineasm4(x-lastx[y2],(bx>>16)*tileHeight+(by>>16)+bufplc,0L,bx<<16,by<<16,ylookup[y2]+x+frameplace);
                        } else
                            rmhlineasm4(x-lastx[y2],(bx>>16)*tileHeight+(by>>16)+bufplc,0L,bx<<16,by<<16,ylookup[y2]+x+frameplace);
                    }
                    while (y2 < ny2) lastx[y2++] = x;
                }
                else
                {
                    while (y1 < y2-1)
                    {
                        y1++;
                        if ((y1&31) == 0) faketimerhandler();

                        /* x,y1 */
                        bx += xv*(y1-oy);
                        by += yv*(y1-oy);
                        oy = y1;
                        if (dastat&64)
                        {
                            if (qlinemode)
                                rhlineasm4(x-lastx[y1],(bx>>16)*tileHeight+(by>>16)+bufplc,0L,0L    ,by<<16,ylookup[y1]+x+frameplace);
                            else
                                rhlineasm4(x-lastx[y1],(bx>>16)*tileHeight+(by>>16)+bufplc,0L,bx<<16,by<<16,ylookup[y1]+x+frameplace);
                        }
                        else
                            rmhlineasm4(x-lastx[y1],(bx>>16)*tileHeight+(by>>16)+bufplc,0L,bx<<16,by<<16,ylookup[y1]+x+frameplace);
                    }
                    if (x == x2-1)
                    {
                        bx += xv2;
                        by += yv2;
                        break;
                    }

                    y1 = uplc[x+1];

                    if (((dastat&8) == 0) && (startumost[x+1] > y1))
                        y1 = startumost[x+1];

                    y2 = y1;
                }
                bx += xv2;
                by += yv2;
            }
            while (y1 < y2-1)
            {
                y1++;
                if ((y1&31) == 0) faketimerhandler();

                /* x2,y1 */
                bx += xv*(y1-oy);
                by += yv*(y1-oy);
                oy = y1;
                if (dastat&64) {
                    if (qlinemode)
                        rhlineasm4(x2-lastx[y1],(bx>>16)*tileHeight+(by>>16)+bufplc,0L,0L    ,by<<16,ylookup[y1]+x2+frameplace);
                    else
                        rhlineasm4(x2-lastx[y1],(bx>>16)*tileHeight+(by>>16)+bufplc,0L,bx<<16,by<<16,ylookup[y1]+x2+frameplace);
                } else
                    rmhlineasm4(x2-lastx[y1],(bx>>16)*tileHeight+(by>>16)+bufplc,0L,bx<<16,by<<16,ylookup[y1]+x2+frameplace);
            }
        }
    }
    else
    {
        if ((dastat&1) == 0)
        {
            if (dastat&64)
                setupspritevline(palookupoffs,(xv>>16)*tileHeight,xv<<16,tileHeight,yv,0L);
            else
                msetupspritevline(palookupoffs,(xv>>16)*tileHeight,xv<<16,tileHeight,yv,0L);
        }
        else
        {
            tsetupspritevline(palookupoffs,(xv>>16)*tileHeight,xv<<16,tileHeight,yv);

            if (dastat&32) 
				settrans(TRANS_REVERSE);
            else 
				settrans(TRANS_NORMAL);
        }

        for(x=x1; x<x2; x++)
        {
            bx += xv2;
            by += yv2;

            y1 = uplc[x];
            y2 = dplc[x];
            if ((dastat&8) == 0)
            {
                if (startumost[x] > y1) y1 = startumost[x];
                if (startdmost[x] < y2) y2 = startdmost[x];
            }
            if (y2 <= y1) continue;

            switch(y1-oy)
            {
            case -1:
                bx -= xv;
                by -= yv;
                oy = y1;
                break;
            case 0:
                break;
            case 1:
                bx += xv;
                by += yv;
                oy = y1;
                break;
            default:
                bx += xv*(y1-oy);
                by += yv*(y1-oy);
                oy = y1;
                break;
            }

            p = ylookup[y1]+x+frameplace;

            if ((dastat&1) == 0)
            {
                if (dastat&64)
                    spritevline(0L,by<<16,y2-y1+1,bx<<16,(bx>>16)*tileHeight+(by>>16)+bufplc,p);
                else
                    mspritevline(0L,by<<16,y2-y1+1,bx<<16,(bx>>16)*tileHeight+(by>>16)+bufplc,p);
            }
            else
            {
                DrawSpriteVerticalLine(by<<16,y2-y1+1,bx<<16,(bx>>16)*tileHeight+(by>>16)+bufplc,p);
                transarea += (y2-y1);
            }
            faketimerhandler();
        }
    }

    if ((vidoption == 1) && (dastat&128) && (origbuffermode == 0))
    {
        buffermode = obuffermode;

    }
}


void nextpage(void)
{
    int32_t i;
    permfifotype *per;

    if (qsetmode == 200)
    {
        for(i=permtail; i!=permhead; i=((i+1)&(MAXPERMS-1)))
        {
            per = &permfifo[i];
            if ((per->pagesleft > 0) && (per->pagesleft <= numpages))
                dorotatesprite(per->sx,per->sy,per->z,per->a,per->picnum,per->dashade,per->dapalnum,per->dastat,per->cx1,per->cy1,per->cx2,per->cy2);
        }
    } /* if */

    _nextpage();  /* video driver specific. */


    if (qsetmode == 200)
    {
        for(i=permtail; i!=permhead; i=((i+1)&(MAXPERMS-1)))
        {
            per = &permfifo[i];
            if (per->pagesleft >= 130)
                dorotatesprite(per->sx,per->sy,per->z,per->a,per->picnum,
                               per->dashade,per->dapalnum,per->dastat,
                               per->cx1,per->cy1,per->cx2,per->cy2);
            if (per->pagesleft&127) per->pagesleft--;
            if (((per->pagesleft&127) == 0) && (i == permtail))
                permtail = ((permtail+1)&(MAXPERMS-1));
        }
    } /* if */

    faketimerhandler();

    if ((totalclock >= lastageclock+8) || (totalclock < lastageclock))
    {
        lastageclock = totalclock;
        agecache();
    }

    beforedrawrooms = 1;
    numframes++;
}



int clipinsidebox(int32_t x, int32_t y, short wallnum, int32_t walldist)
{
    walltype *wal;
    int32_t x1, y1, x2, y2, r;

    r = (walldist<<1);
    wal = &wall[wallnum];
    x1 = wal->x+walldist-x;
    y1 = wal->y+walldist-y;
    wal = &wall[wal->point2];
    x2 = wal->x+walldist-x;
    y2 = wal->y+walldist-y;

    if ((x1 < 0) && (x2 < 0)) return(0);
    if ((y1 < 0) && (y2 < 0)) return(0);
    if ((x1 >= r) && (x2 >= r)) return(0);
    if ((y1 >= r) && (y2 >= r)) return(0);

    x2 -= x1;
    y2 -= y1;
    if (x2*(walldist-y1) >= y2*(walldist-x1))  /* Front */
    {
        if (x2 > 0) x2 *= (0-y1);
        else x2 *= (r-y1);
        if (y2 > 0) y2 *= (r-x1);
        else y2 *= (0-x1);
        return(x2 < y2);
    }
    if (x2 > 0) x2 *= (r-y1);
    else x2 *= (0-y1);
    if (y2 > 0) y2 *= (0-x1);
    else y2 *= (r-x1);
    return((x2 >= y2)<<1);
}

static int clipinsideboxline(int32_t x, int32_t y, int32_t x1, int32_t y1, int32_t x2, int32_t y2, int32_t walldist)
{
    int32_t r;

    r = (walldist<<1);

    x1 += walldist-x;
    x2 += walldist-x;
    if ((x1 < 0) && (x2 < 0)) return(0);
    if ((x1 >= r) && (x2 >= r)) return(0);

    y1 += walldist-y;
    y2 += walldist-y;
    if ((y1 < 0) && (y2 < 0)) return(0);
    if ((y1 >= r) && (y2 >= r)) return(0);

    x2 -= x1;
    y2 -= y1;
    if (x2*(walldist-y1) >= y2*(walldist-x1))  /* Front */
    {
        if (x2 > 0) x2 *= (0-y1);
        else x2 *= (r-y1);
        if (y2 > 0) y2 *= (r-x1);
        else y2 *= (0-x1);
        return(x2 < y2);
    }
    if (x2 > 0) x2 *= (r-y1);
    else x2 *= (0-y1);
    if (y2 > 0) y2 *= (0-x1);
    else y2 *= (r-x1);
    return((x2 >= y2)<<1);
}


void drawline256 (int32_t x1, int32_t y1, int32_t x2, int32_t y2, uint8_t  col)
{
    int32_t dx, dy, i, j, inc, plc, daend;
    uint8_t* p;
    col = palookup[0][col];

    dx = x2-x1;
    dy = y2-y1;
    if (dx >= 0)
    {
        if ((x1 >= wx2) || (x2 < wx1)) return;
        if (x1 < wx1) y1 += scale(wx1-x1,dy,dx), x1 = wx1;
        if (x2 > wx2) y2 += scale(wx2-x2,dy,dx), x2 = wx2;
    }
    else
    {
        if ((x2 >= wx2) || (x1 < wx1)) return;
        if (x2 < wx1) y2 += scale(wx1-x2,dy,dx), x2 = wx1;
        if (x1 > wx2) y1 += scale(wx2-x1,dy,dx), x1 = wx2;
    }
    if (dy >= 0)
    {
        if ((y1 >= wy2) || (y2 < wy1)) return;
        if (y1 < wy1) x1 += scale(wy1-y1,dx,dy), y1 = wy1;
        if (y2 > wy2) x2 += scale(wy2-y2,dx,dy), y2 = wy2;
    }
    else
    {
        if ((y2 >= wy2) || (y1 < wy1)) return;
        if (y2 < wy1) x2 += scale(wy1-y2,dx,dy), y2 = wy1;
        if (y1 > wy2) x1 += scale(wy2-y1,dx,dy), y1 = wy2;
    }

    if (klabs(dx) >= klabs(dy))
    {
        if (dx == 0) return;
        if (dx < 0)
        {
            i = x1;
            x1 = x2;
            x2 = i;
            i = y1;
            y1 = y2;
            y2 = i;
        }

        inc = divscale12(dy,dx);
        plc = y1+mulscale12((2047-x1)&4095,inc);
        i = ((x1+2048)>>12);
        daend = ((x2+2048)>>12);
        for(; i<daend; i++)
        {
            j = (plc>>12);
            if ((j >= startumost[i]) && (j < startdmost[i]))
                drawpixel(ylookup[j]+i+frameplace,col);
            plc += inc;
        }
    }
    else
    {
        if (dy < 0)
        {
            i = x1;
            x1 = x2;
            x2 = i;
            i = y1;
            y1 = y2;
            y2 = i;
        }

        inc = divscale12(dx,dy);
        plc = x1+mulscale12((2047-y1)&4095,inc);
        i = ((y1+2048)>>12);
        daend = ((y2+2048)>>12);
        p = ylookup[i]+frameplace;
        for(; i<daend; i++)
        {
            j = (plc>>12);
            if ((i >= startumost[j]) && (i < startdmost[j]))
                drawpixel(j+p,col);
            plc += inc;
            p += ylookup[1];
        }
    }
}

/*
 FCS: Return true if the point (x,Y) is inside the sector sectnum.
 Note that a sector is closed (but can be concave) so the answer is always 0 or 1.

 Algorithm: This is an optimized raycasting inside polygon test:
 http://en.wikipedia.org/wiki/Point_in_polygon#Ray_casting_algorithm
 The goal is to follow an ***horizontal*** ray passing by (x,y) and count how many
 wall are being crossed.
 If it is an odd number of time: (x,y) is inside the sector.
 If it is an even nymber of time:(x,y) is outside the sector.
 */

int inside(int32_t x, int32_t y, short sectnum)
{
    walltype *wal;
    int32_t i, x1, y1, x2, y2;
    uint32_t  wallCrossed;

    //Quick check if the sector ID is valid.
    if ((sectnum < 0) || (sectnum >= numsectors)) return(-1);

    wallCrossed = 0;
    wal = &wall[sector[sectnum].wallptr];
    i = sector[sectnum].wallnum;
    do
    {
        y1 = wal->y-y;
        y2 = wall[wal->point2].y-y;

        // Compare the sign of y1 and y2.
        // If (y1^y2) < 0 : y1 and y2 have different sign bit:  y is between wal->y and wall[wal->point2].y.
        // The goal is to not take into consideration any wall that is totally above or totally under the point [x,y].
        if ((y1^y2) < 0)
        {
            x1 = wal->x-x;
            x2 = wall[wal->point2].x-x;

            //If (x1^x2) >= 0 x1 and x2 have identic sign bit: x is on the left or the right of both wal->x and wall[wal->point2].x.
            if ((x1^x2) >= 0)
            {
                // If (x,y) is totally on the left or on the right, just count x1 (which indicate if we are on
                // on the left or on the right.
                wallCrossed ^= x1;
            }
            else
            {
                // This is the most complicated case: X is between x1 and x2, we need a fine grained test.
                // We need to know exactly if it is on the left or on the right in order to know if the ray
                // is crossing the wall or not,
                // The sign of the Cross-Product can answer this case :) !
                wallCrossed ^= (x1*y2-x2*y1)^y2;
            }
        }

        wal++;
        i--;

    } while (i);

    //Just return the sign. If the position vector cut the sector walls an odd number of time
    //it is inside. Otherwise (even) it is outside.
    return(wallCrossed>>31);
}


int getangle(int32_t xvect, int32_t yvect)
{
    if ((xvect|yvect) == 0)
        return(0);
    if (xvect == 0)
        return(512+((yvect<0)<<10));
    if (yvect == 0)
        return(((xvect<0)<<10));
    if (xvect == yvect)
        return(256+((xvect<0)<<10));
    if (xvect == -yvect)
        return(768+((xvect>0)<<10));
    if (klabs(xvect) > klabs(yvect))
        return(((radarang[640+scale(160,yvect,xvect)]>>6)+((xvect<0)<<10))&2047);
    
    return(((radarang[640-scale(160,xvect,yvect)]>>6)+512+((yvect<0)<<10))&2047);
}


int ksqrt(int32_t num)
{
    return(nsqrtasm(num));
}





static void drawmaskwall(short damaskwallcnt)
{
    int32_t i, j, k, x, z, sectnum, z1, z2, lx, rx;
    sectortype *sec, *nsec;
    walltype *wal;

    //Retrive pvWall ID.
    z = maskwall[damaskwallcnt];
    
    //Retrive world wall ID.
    wal = &wall[pvWalls[z].worldWallId];
    
    //Retrive sector ID
    sectnum = pvWalls[z].sectorId;
    
    //Retrive sector.
    sec = &sector[sectnum];
    
    //Retrive next sector.
    nsec = &sector[wal->nextsector];
    
    z1 = max(nsec->ceilingz,sec->ceilingz);
    z2 = min(nsec->floorz,sec->floorz);

    wallmost(uwall,z,sectnum,(uint8_t )0);
    wallmost(uplc,z,(int32_t)wal->nextsector,(uint8_t )0);
    for(x=pvWalls[z].screenSpaceCoo[0][VEC_COL]; x<=pvWalls[z].screenSpaceCoo[1][VEC_COL]; x++)
        if (uplc[x] > uwall[x])
            uwall[x] = uplc[x];
    
    wallmost(dwall,z,sectnum,(uint8_t )1);
    wallmost(dplc,z,(int32_t)wal->nextsector,(uint8_t )1);
    for(x=pvWalls[z].screenSpaceCoo[0][VEC_COL]; x<=pvWalls[z].screenSpaceCoo[1][VEC_COL]; x++)
        if (dplc[x] < dwall[x])
            dwall[x] = dplc[x];
    
    
    prepwall(z,wal);

    globalorientation = (int32_t)wal->cstat;
    globalpicnum = wal->overpicnum;
    if ((uint32_t)globalpicnum >= (uint32_t)MAXTILES)
        globalpicnum = 0;
    globalxpanning = (int32_t)wal->xpanning;
    globalypanning = (int32_t)wal->ypanning;
    
    if (tiles[globalpicnum].animFlags&192)
        globalpicnum += animateoffs(globalpicnum);
    
    globalshade = (int32_t)wal->shade;
    globvis = globalvisibility;
    if (sec->visibility != 0)
        globvis = mulscale4(globvis,(int32_t)((uint8_t )(sec->visibility+16)));
    globalpal = (int32_t)wal->pal;
    globalshiftval = (picsiz[globalpicnum]>>4);
    if (pow2long[globalshiftval] != tiles[globalpicnum].dim.height)
        globalshiftval++;
    
    globalshiftval = 32-globalshiftval;
    globalyscale = (wal->yrepeat<<(globalshiftval-19));
    if ((globalorientation&4) == 0)
        globalzd = (((globalposz-z1)*globalyscale)<<8);
    else
        globalzd = (((globalposz-z2)*globalyscale)<<8);
    globalzd += (globalypanning<<24);
    if (globalorientation&256) globalyscale = -globalyscale, globalzd = -globalzd;

    for(i=smostwallcnt-1; i>=0; i--)
    {
        j = smostwall[i];
        if ((pvWalls[j].screenSpaceCoo[0][VEC_COL] > pvWalls[z].screenSpaceCoo[1][VEC_COL]) || (pvWalls[j].screenSpaceCoo[1][VEC_COL] < pvWalls[z].screenSpaceCoo[0][VEC_COL])) continue;
        if (wallfront(j,z)) continue;

        lx = max(pvWalls[j].screenSpaceCoo[0][VEC_COL],pvWalls[z].screenSpaceCoo[0][VEC_COL]);
        rx = min(pvWalls[j].screenSpaceCoo[1][VEC_COL],pvWalls[z].screenSpaceCoo[1][VEC_COL]);

        switch(smostwalltype[i])
        {
        case 0:
            if (lx <= rx)
            {
                if ((lx == pvWalls[z].screenSpaceCoo[0][VEC_COL]) && (rx == pvWalls[z].screenSpaceCoo[1][VEC_COL])) return;
                clearbufbyte(&dwall[lx],(rx-lx+1)*sizeof(dwall[0]),0L);
            }
            break;
        case 1:
            k = smoststart[i] - pvWalls[j].screenSpaceCoo[0][VEC_COL];
            for(x=lx; x<=rx; x++)
                if (smost[k+x] > uwall[x]) uwall[x] = smost[k+x];
            break;
        case 2:
            k = smoststart[i] - pvWalls[j].screenSpaceCoo[0][VEC_COL];
            for(x=lx; x<=rx; x++)
                if (smost[k+x] < dwall[x]) dwall[x] = smost[k+x];
            break;
        }
    }

    /* maskwall */
    if ((searchit >= 1) && (searchx >= pvWalls[z].screenSpaceCoo[0][VEC_COL]) && (searchx <= pvWalls[z].screenSpaceCoo[1][VEC_COL]))
        if ((searchy >= uwall[searchx]) && (searchy <= dwall[searchx]))
        {
            searchsector = sectnum;
            searchwall = pvWalls[z].worldWallId;
            searchstat = 4;
            searchit = 1;
        }

    if ((globalorientation&128) == 0)
        maskwallscan(pvWalls[z].screenSpaceCoo[0][VEC_COL],pvWalls[z].screenSpaceCoo[1][VEC_COL],uwall,dwall,swall,lwall);
    else
    {
        if (globalorientation&128)
        {
            if (globalorientation&512) 
				settrans(TRANS_REVERSE);
            else 
				settrans(TRANS_NORMAL);
        }
        transmaskwallscan(pvWalls[z].screenSpaceCoo[0][VEC_COL],pvWalls[z].screenSpaceCoo[1][VEC_COL]);
    }
}





static void ceilspritehline (int32_t x2, int32_t y)
{
    int32_t x1, v, bx, by;

    /*
     * x = x1 + (x2-x1)t + (y1-y2)u  �  x = 160v
     * y = y1 + (y2-y1)t + (x2-x1)u  �  y = (scrx-160)v
     * z = z1 = z2                   �  z = posz + (scry-horiz)v
     */

    x1 = lastx[y];
    if (x2 < x1) return;

    v = mulscale20(globalzd,horizlookup[y-globalhoriz+horizycent]);
    bx = mulscale14(globalx2*x1+globalx1,v) + globalxpanning;
    by = mulscale14(globaly2*x1+globaly1,v) + globalypanning;
    asm1 = mulscale14(globalx2,v);
    asm2 = mulscale14(globaly2,v);
    asm3 = (intptr_t) palookup[globalpal] + (getpalookup((int32_t)mulscale28(klabs(v),globvis),globalshade)<<8);

    if ((globalorientation&2) == 0)
        mhline(globalbufplc,bx,(x2-x1)<<16,0L,by,ylookup[y]+x1+frameoffset);
    else
    {
        thline(globalbufplc,bx,(x2-x1)<<16,0L,by,ylookup[y]+x1+frameoffset);
        transarea += (x2-x1);
    }
}


static void ceilspritescan (int32_t x1, int32_t x2)
{
    int32_t x, y1, y2, twall, bwall;

    y1 = uwall[x1];
    y2 = y1;
    for(x=x1; x<=x2; x++)
    {
        twall = uwall[x]-1;
        bwall = dwall[x];
        if (twall < bwall-1)
        {
            if (twall >= y2)
            {
                while (y1 < y2-1) ceilspritehline(x-1,++y1);
                y1 = twall;
            }
            else
            {
                while (y1 < twall) ceilspritehline(x-1,++y1);
                while (y1 > twall) lastx[y1--] = x;
            }
            while (y2 > bwall) ceilspritehline(x-1,--y2);
            while (y2 < bwall) lastx[y2++] = x;
        }
        else
        {
            while (y1 < y2-1) ceilspritehline(x-1,++y1);
            if (x == x2) break;
            y1 = uwall[x+1];
            y2 = y1;
        }
    }
    while (y1 < y2-1) ceilspritehline(x2,++y1);
    faketimerhandler();
}

static void drawsprite (int32_t snum)
{
    spritetype *tspr;
    sectortype *sec;
    int32_t startum, startdm, sectnum, xb, yp, cstat;
    int32_t siz, xsiz, ysiz, xoff, yoff;
    dimensions_t spriteDim;
    int32_t x1, y1, x2, y2, lx, rx, dalx2, darx2, i, j, k, x, linum, linuminc;
    int32_t yinc, z, z1, z2, xp1, yp1, xp2, yp2;
    int32_t xv, yv, top, topinc, bot, botinc, hplc, hinc;
    int32_t cosang, sinang, dax, day, lpoint, lmax, rpoint, rmax, dax1, dax2, y;
    int32_t npoints, npoints2, zz, t, zsgn, zzsgn;
    short tilenum, spritenum;
    uint8_t  swapped, daclip;

    tspr = tspriteptr[snum];

    xb = spritesx[snum];
    yp = spritesy[snum];
    tilenum = tspr->picnum;
    spritenum = tspr->owner;
    cstat = tspr->cstat;

    if ((cstat&48) != 48)
    {
        if (tiles[tilenum].animFlags&192)
            tilenum += animateoffs(tilenum);
        
        if ((tiles[tilenum].dim.width <= 0) || (tiles[tilenum].dim.height <= 0) || (spritenum < 0))
            return;
    }
    if ((tspr->xrepeat <= 0) || (tspr->yrepeat <= 0)) return;

    sectnum = tspr->sectnum;
    sec = &sector[sectnum];
    globalpal = tspr->pal;
    // FIX_00088: crash on maps using a bad palette index (like the end of roch3.map)
    if (!palookup[globalpal])
        globalpal = 0; // seem to crash when globalpal > 25
    globalshade = tspr->shade;
    if (cstat&2)
    {

        if (cstat&512) 
			settrans(TRANS_REVERSE);
        else 
			settrans(TRANS_NORMAL);
    }

    xoff = (int32_t)((int8_t )((tiles[tilenum].animFlags>>8)&255))+((int32_t)tspr->xoffset);
    yoff = (int32_t)((int8_t )((tiles[tilenum].animFlags>>16)&255))+((int32_t)tspr->yoffset);

    if ((cstat&48) == 0)
    {
        if (yp <= (4<<8))
            return;

        siz = divscale19(xdimenscale,yp);

        xv = mulscale16(((int32_t)tspr->xrepeat)<<16,xyaspect);

        spriteDim.width = tiles[tilenum].dim.width;
        spriteDim.height = tiles[tilenum].dim.height;
        
        xsiz = mulscale30(siz,xv * spriteDim.width);
        ysiz = mulscale14(siz,tspr->yrepeat * spriteDim.height);

        if (((tiles[tilenum].dim.width>>11) >= xsiz) || (spriteDim.height >= (ysiz>>1)))
            return;  /* Watch out for divscale overflow */

        x1 = xb-(xsiz>>1);
        if (spriteDim.width & 1)
            x1 += mulscale31(siz,xv);  /* Odd xspans */
        i = mulscale30(siz,xv*xoff);
        if ((cstat&4) == 0)
            x1 -= i;
        else
            x1 += i;

        y1 = mulscale16(tspr->z-globalposz,siz);
        y1 -= mulscale14(siz,tspr->yrepeat*yoff);
        y1 += (globalhoriz<<8)-ysiz;
        if (cstat&128)
        {
            y1 += (ysiz>>1);
            if (spriteDim.height&1) y1 += mulscale15(siz,tspr->yrepeat);  /* Odd yspans */
        }

        x2 = x1+xsiz-1;
        y2 = y1+ysiz-1;
        if ((y1|255) >= (y2|255)) return;

        lx = (x1>>8)+1;
        if (lx < 0) lx = 0;
        rx = (x2>>8);
        if (rx >= xdimen) rx = xdimen-1;
        if (lx > rx) return;

        yinc = divscale32(spriteDim.height,ysiz);

        if ((sec->ceilingstat&3) == 0)
            startum = globalhoriz+mulscale24(siz,sec->ceilingz-globalposz)-1;
        else
            startum = 0;
        
        if ((sec->floorstat&3) == 0)
            startdm = globalhoriz+mulscale24(siz,sec->floorz-globalposz)+1;
        else
            startdm = 0x7fffffff;
        
        if ((y1>>8) > startum) startum = (y1>>8);
        if ((y2>>8) < startdm) startdm = (y2>>8);

        if (startum < -32768) startum = -32768;
        if (startdm > 32767) startdm = 32767;
        if (startum >= startdm) return;

        if ((cstat&4) == 0)
        {
            linuminc = divscale24(spriteDim.width,xsiz);
            linum = mulscale8((lx<<8)-x1,linuminc);
        }
        else
        {
            linuminc = -divscale24(spriteDim.width,xsiz);
            linum = mulscale8((lx<<8)-x2,linuminc);
        }
        if ((cstat&8) > 0)
        {
            yinc = -yinc;
            i = y1;
            y1 = y2;
            y2 = i;
        }

        for(x=lx; x<=rx; x++)
        {
            uwall[x] = max(startumost[x+windowx1]-windowy1,(short)startum);
            dwall[x] = min(startdmost[x+windowx1]-windowy1,(short)startdm);
        }
        daclip = 0;
        for(i=smostwallcnt-1; i>=0; i--)
        {
            if (smostwalltype[i]&daclip)
                continue;
            
            j = smostwall[i];
            if ((pvWalls[j].screenSpaceCoo[0][VEC_COL] > rx) || (pvWalls[j].screenSpaceCoo[1][VEC_COL] < lx))
                continue;
            
            if ((yp <= pvWalls[j].screenSpaceCoo[0][VEC_DIST]) && (yp <= pvWalls[j].screenSpaceCoo[1][VEC_DIST]))
                continue;
            
            if (spritewallfront(tspr,pvWalls[j].worldWallId) && ((yp <= pvWalls[j].screenSpaceCoo[0][VEC_DIST]) || (yp <= pvWalls[j].screenSpaceCoo[1][VEC_DIST])))
                continue;

            dalx2 = max(pvWalls[j].screenSpaceCoo[0][VEC_COL],lx);
            darx2 = min(pvWalls[j].screenSpaceCoo[1][VEC_COL],rx);

            switch(smostwalltype[i])
            {
            case 0:
                if (dalx2 <= darx2)
                {
                    if ((dalx2 == lx) && (darx2 == rx))
                        return;
                    clearbufbyte(&dwall[dalx2],(darx2-dalx2+1)*sizeof(dwall[0]),0L);
                }
                break;
            case 1:
                k = smoststart[i] - pvWalls[j].screenSpaceCoo[0][VEC_COL];
                for(x=dalx2; x<=darx2; x++)
                    if (smost[k+x] > uwall[x]) uwall[x] = smost[k+x];
                if ((dalx2 == lx) && (darx2 == rx)) daclip |= 1;
                break;
            case 2:
                k = smoststart[i] - pvWalls[j].screenSpaceCoo[0][VEC_COL];
                for(x=dalx2; x<=darx2; x++)
                    if (smost[k+x] < dwall[x]) dwall[x] = smost[k+x];
                if ((dalx2 == lx) && (darx2 == rx)) daclip |= 2;
                break;
            }
        }

        if (uwall[rx] >= dwall[rx])
        {
            for(x=lx; x<rx; x++)
                if (uwall[x] < dwall[x]) break;
            if (x == rx) return;
        }

        /* sprite */
        if ((searchit >= 1) && (searchx >= lx) && (searchx <= rx))
            if ((searchy >= uwall[searchx]) && (searchy < dwall[searchx]))
            {
                searchsector = sectnum;
                searchwall = spritenum;
                searchstat = 3;
                searchit = 1;
            }

        z2 = tspr->z - ((yoff*tspr->yrepeat)<<2);
        if (cstat&128)
        {
            z2 += ((spriteDim.height*tspr->yrepeat)<<1);
            if (spriteDim.height&1) z2 += (tspr->yrepeat<<1);        /* Odd yspans */
        }
        z1 = z2 - ((spriteDim.height*tspr->yrepeat)<<2);

        globalorientation = 0;
        globalpicnum = tilenum;
        if ((uint32_t)globalpicnum >= (uint32_t)MAXTILES) globalpicnum = 0;
        globalxpanning = 0L;
        globalypanning = 0L;
        globvis = globalvisibility;
        if (sec->visibility != 0) globvis = mulscale4(globvis,(int32_t)((uint8_t )(sec->visibility+16)));
        globalshiftval = (picsiz[globalpicnum]>>4);
        if (pow2long[globalshiftval] != tiles[globalpicnum].dim.height)
            globalshiftval++;
        
        globalshiftval = 32-globalshiftval;
        globalyscale = divscale(512,tspr->yrepeat,globalshiftval-19);
        globalzd = (((globalposz-z1)*globalyscale)<<8);
        if ((cstat&8) > 0)
        {
            globalyscale = -globalyscale;
            globalzd = (((globalposz-z2)*globalyscale)<<8);
        }

        qinterpolatedown16((int32_t *)&lwall[lx],rx-lx+1,linum,linuminc);
        clearbuf(&swall[lx],rx-lx+1,mulscale19(yp,xdimscale));

        if ((cstat&2) == 0)
            maskwallscan(lx,rx,uwall,dwall,swall,lwall);
        else
            transmaskwallscan(lx,rx);
    }
    else if ((cstat&48) == 16)
    {
        if ((cstat&4) > 0) xoff = -xoff;
        if ((cstat&8) > 0) yoff = -yoff;

        spriteDim.width = tiles[tilenum].dim.width;
        spriteDim.height = tiles[tilenum].dim.height;
        
        xv = tspr->xrepeat*sintable[(tspr->ang+2560+1536)&2047];
        yv = tspr->xrepeat*sintable[(tspr->ang+2048+1536)&2047];
        i = (spriteDim.width >>1)+xoff;
        x1 = tspr->x-globalposx-mulscale16(xv,i);
        x2 = x1+mulscale16(xv,spriteDim.width );
        y1 = tspr->y-globalposy-mulscale16(yv,i);
        y2 = y1+mulscale16(yv,spriteDim.width );

        yp1 = dmulscale6(x1,cosviewingrangeglobalang,y1,sinviewingrangeglobalang);
        yp2 = dmulscale6(x2,cosviewingrangeglobalang,y2,sinviewingrangeglobalang);
        if ((yp1 <= 0) && (yp2 <= 0)) return;
        xp1 = dmulscale6(y1,cosglobalang,-x1,singlobalang);
        xp2 = dmulscale6(y2,cosglobalang,-x2,singlobalang);

        x1 += globalposx;
        y1 += globalposy;
        x2 += globalposx;
        y2 += globalposy;

        swapped = 0;
        if (dmulscale32(xp1,yp2,-xp2,yp1) >= 0)  /* If wall's NOT facing you */
        {
            if ((cstat&64) != 0) return;
            i = xp1, xp1 = xp2, xp2 = i;
            i = yp1, yp1 = yp2, yp2 = i;
            i = x1, x1 = x2, x2 = i;
            i = y1, y1 = y2, y2 = i;
            swapped = 1;
        }

        if (xp1 >= -yp1)
        {
            if (xp1 > yp1) return;

            if (yp1 == 0) return;
            pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL] = halfxdimen + scale(xp1,halfxdimen,yp1);
            if (xp1 >= 0) pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL]++;   /* Fix for SIGNED divide */
            if (pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL] >= xdimen) pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL] = xdimen-1;
            pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_DIST] = yp1;
        }
        else
        {
            if (xp2 < -yp2) return;
            pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL] = 0;
            i = yp1-yp2+xp1-xp2;
            if (i == 0) return;
            pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_DIST] = yp1 + scale(yp2-yp1,xp1+yp1,i);
        }
        if (xp2 <= yp2)
        {
            if (xp2 < -yp2) return;

            if (yp2 == 0) return;
            pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL] = halfxdimen + scale(xp2,halfxdimen,yp2) - 1;
            if (xp2 >= 0) pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL]++;   /* Fix for SIGNED divide */
            if (pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL] >= xdimen) pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL] = xdimen-1;
            pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_DIST] = yp2;
        }
        else
        {
            if (xp1 > yp1) return;

            pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL] = xdimen-1;
            i = xp2-xp1+yp1-yp2;
            if (i == 0) return;
            pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_DIST] = yp1 + scale(yp2-yp1,yp1-xp1,i);
        }

        if ((pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_DIST] < 256) || (pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_DIST] < 256) || (pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL] > pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL]))
            return;

        topinc = -mulscale10(yp1,spriteDim.width);
        top = (((mulscale10(xp1,xdimen) - mulscale9(pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL]-halfxdimen,yp1))*spriteDim.width)>>3);
        botinc = ((yp2-yp1)>>8);
        bot = mulscale11(xp1-xp2,xdimen) + mulscale2(pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL]-halfxdimen,botinc);

        j = pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL]+3;
        z = mulscale20(top,krecipasm(bot));
        lwall[pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL]] = (z>>8);
        for(x=pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL]+4; x<=j; x+=4)
        {
            top += topinc;
            bot += botinc;
            zz = z;
            z = mulscale20(top,krecipasm(bot));
            lwall[x] = (z>>8);
            i = ((z+zz)>>1);
            lwall[x-2] = (i>>8);
            lwall[x-3] = ((i+zz)>>9);
            lwall[x-1] = ((i+z)>>9);
        }

        if (lwall[pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL]] < 0) lwall[pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL]] = 0;
        if (lwall[pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL]] >= spriteDim.width) lwall[pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL]] = spriteDim.width-1;

        if ((swapped^((cstat&4)>0)) > 0)
        {
            j = spriteDim.width-1;
            for(x=pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL]; x<=pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL]; x++)
                lwall[x] = j-lwall[x];
        }

        pvWalls[MAXWALLSB-1].cameraSpaceCoo[0][VEC_X] = xp1 ;
        pvWalls[MAXWALLSB-1].cameraSpaceCoo[0][VEC_Y] = yp1 ;
        pvWalls[MAXWALLSB-1].cameraSpaceCoo[1][VEC_X] = xp2 ;
        pvWalls[MAXWALLSB-1].cameraSpaceCoo[1][VEC_Y] = yp2 ;

        
        hplc = divscale19(xdimenscale,pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_DIST]);
        hinc = divscale19(xdimenscale,pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_DIST]);
        hinc = (hinc-hplc)/(pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL]-pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL]+1);

        z2 = tspr->z - ((yoff*tspr->yrepeat)<<2);
        if (cstat&128)
        {
            z2 += ((spriteDim.height*tspr->yrepeat)<<1);
            if (spriteDim.height&1) z2 += (tspr->yrepeat<<1);        /* Odd yspans */
        }
        z1 = z2 - ((spriteDim.height*tspr->yrepeat)<<2);

        globalorientation = 0;
        globalpicnum = tilenum;
        if ((uint32_t)globalpicnum >= (uint32_t)MAXTILES) globalpicnum = 0;
        globalxpanning = 0L;
        globalypanning = 0L;
        globvis = globalvisibility;
        if (sec->visibility != 0) globvis = mulscale4(globvis,(int32_t)((uint8_t )(sec->visibility+16)));
        globalshiftval = (picsiz[globalpicnum]>>4);
        if (pow2long[globalshiftval] != tiles[globalpicnum].dim.height) globalshiftval++;
        globalshiftval = 32-globalshiftval;
        globalyscale = divscale(512,tspr->yrepeat,globalshiftval-19);
        globalzd = (((globalposz-z1)*globalyscale)<<8);
        if ((cstat&8) > 0)
        {
            globalyscale = -globalyscale;
            globalzd = (((globalposz-z2)*globalyscale)<<8);
        }

        if (((sec->ceilingstat&1) == 0) && (z1 < sec->ceilingz))
            z1 = sec->ceilingz;
        if (((sec->floorstat&1) == 0) && (z2 > sec->floorz))
            z2 = sec->floorz;

        owallmost(uwall,(int32_t)(MAXWALLSB-1),z1-globalposz);
        owallmost(dwall,(int32_t)(MAXWALLSB-1),z2-globalposz);
        for(i=pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL]; i<=pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL]; i++)
        {
            swall[i] = (krecipasm(hplc)<<2);
            hplc += hinc;
        }

        for(i=smostwallcnt-1; i>=0; i--)
        {
            j = smostwall[i];

            if ((pvWalls[j].screenSpaceCoo[0][VEC_COL] > pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL]) || (pvWalls[j].screenSpaceCoo[1][VEC_COL] < pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL])) continue;

            dalx2 = pvWalls[j].screenSpaceCoo[0][VEC_COL];
            darx2 = pvWalls[j].screenSpaceCoo[1][VEC_COL];
            if (max(pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_DIST],pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_DIST]) > min(pvWalls[j].screenSpaceCoo[0][VEC_DIST],pvWalls[j].screenSpaceCoo[1][VEC_DIST]))
            {
                if (min(pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_DIST],pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_DIST]) > max(pvWalls[j].screenSpaceCoo[0][VEC_DIST],pvWalls[j].screenSpaceCoo[1][VEC_DIST]))
                {
                    x = 0x80000000;
                }
                else
                {
                    x = pvWalls[j].worldWallId;
                    xp1 = wall[x].x;
                    yp1 = wall[x].y;
                    x = wall[x].point2;
                    xp2 = wall[x].x;
                    yp2 = wall[x].y;

                    z1 = (xp2-xp1)*(y1-yp1) - (yp2-yp1)*(x1-xp1);
                    z2 = (xp2-xp1)*(y2-yp1) - (yp2-yp1)*(x2-xp1);
                    if ((z1^z2) >= 0)
                        x = (z1+z2);
                    else
                    {
                        z1 = (x2-x1)*(yp1-y1) - (y2-y1)*(xp1-x1);
                        z2 = (x2-x1)*(yp2-y1) - (y2-y1)*(xp2-x1);

                        if ((z1^z2) >= 0)
                            x = -(z1+z2);
                        else
                        {
                            if ((xp2-xp1)*(tspr->y-yp1) == (tspr->x-xp1)*(yp2-yp1))
                            {
                                if (wall[pvWalls[j].worldWallId].nextsector == tspr->sectnum)
                                    x = 0x80000000;
                                else
                                    x = 0x7fffffff;
                            }
                            else
                            {   /* INTERSECTION! */
                                x = (xp1-globalposx) + scale(xp2-xp1,z1,z1-z2);
                                y = (yp1-globalposy) + scale(yp2-yp1,z1,z1-z2);

                                yp1 = dmulscale14(x,cosglobalang,y,singlobalang);
                                if (yp1 > 0)
                                {
                                    xp1 = dmulscale14(y,cosglobalang,-x,singlobalang);

                                    x = halfxdimen + scale(xp1,halfxdimen,yp1);
                                    if (xp1 >= 0) x++;   /* Fix for SIGNED divide */

                                    if (z1 < 0)
                                    {
                                        if (dalx2 < x) dalx2 = x;
                                    }
                                    else
                                    {
                                        if (darx2 > x) darx2 = x;
                                    }
                                    x = 0x80000001;
                                }
                                else
                                    x = 0x7fffffff;
                            }
                        }
                    }
                }
                if (x < 0)
                {
                    if (dalx2 < pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL]) dalx2 = pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL];
                    if (darx2 > pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL]) darx2 = pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL];
                    switch(smostwalltype[i])
                    {
                    case 0:
                        if (dalx2 <= darx2)
                        {
                            if ((dalx2 == pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL]) && (darx2 == pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL])) return;
                            clearbufbyte(&dwall[dalx2],(darx2-dalx2+1)*sizeof(dwall[0]),0L);
                        }
                        break;
                    case 1:
                        k = smoststart[i] - pvWalls[j].screenSpaceCoo[0][VEC_COL];
                        for(x=dalx2; x<=darx2; x++)
                            if (smost[k+x] > uwall[x]) uwall[x] = smost[k+x];
                        break;
                    case 2:
                        k = smoststart[i] - pvWalls[j].screenSpaceCoo[0][VEC_COL];
                        for(x=dalx2; x<=darx2; x++)
                            if (smost[k+x] < dwall[x]) dwall[x] = smost[k+x];
                        break;
                    }
                }
            }
        }

        /* sprite */
        if ((searchit >= 1) && (searchx >= pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL]) && (searchx <= pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL]))
            if ((searchy >= uwall[searchx]) && (searchy <= dwall[searchx]))
            {
                searchsector = sectnum;
                searchwall = spritenum;
                searchstat = 3;
                searchit = 1;
            }

        if ((cstat&2) == 0)
            maskwallscan(pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL],pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL],uwall,dwall,swall,lwall);
        else
            transmaskwallscan(pvWalls[MAXWALLSB-1].screenSpaceCoo[0][VEC_COL],pvWalls[MAXWALLSB-1].screenSpaceCoo[1][VEC_COL]);
    }
    else if ((cstat&48) == 32)
    {
        if ((cstat&64) != 0)
            if ((globalposz > tspr->z) == ((cstat&8)==0))
                return;

        if ((cstat&4) > 0) xoff = -xoff;
        if ((cstat&8) > 0) yoff = -yoff;
        spriteDim.width = tiles[tilenum].dim.width;
        spriteDim.height = tiles[tilenum].dim.height;

        /* Rotate center point */
        dax = tspr->x-globalposx;
        day = tspr->y-globalposy;
        rzi[0] = dmulscale10(cosglobalang,dax,singlobalang,day);
        rxi[0] = dmulscale10(cosglobalang,day,-singlobalang,dax);

        /* Get top-left corner */
        i = ((tspr->ang+2048-globalang)&2047);
        cosang = sintable[(i+512)&2047];
        sinang = sintable[i];
        dax = ((spriteDim.width>>1)+xoff)*tspr->xrepeat;
        day = ((spriteDim.height>>1)+yoff)*tspr->yrepeat;
        rzi[0] += dmulscale12(sinang,dax,cosang,day);
        rxi[0] += dmulscale12(sinang,day,-cosang,dax);

        /* Get other 3 corners */
        dax = spriteDim.width*tspr->xrepeat;
        day = spriteDim.height*tspr->yrepeat;
        rzi[1] = rzi[0]-mulscale12(sinang,dax);
        rxi[1] = rxi[0]+mulscale12(cosang,dax);
        dax = -mulscale12(cosang,day);
        day = -mulscale12(sinang,day);
        rzi[2] = rzi[1]+dax;
        rxi[2] = rxi[1]+day;
        rzi[3] = rzi[0]+dax;
        rxi[3] = rxi[0]+day;

        /* Put all points on same z */
        ryi[0] = scale((tspr->z-globalposz),yxaspect,320<<8);
        if (ryi[0] == 0) return;
        ryi[1] = ryi[2] = ryi[3] = ryi[0];

        if ((cstat&4) == 0)
        {
            z = 0;
            z1 = 1;
            z2 = 3;
        }
        else
        {
            z = 1;
            z1 = 0;
            z2 = 2;
        }

        dax = rzi[z1]-rzi[z];
        day = rxi[z1]-rxi[z];
        bot = dmulscale8(dax,dax,day,day);
        if (((klabs(dax)>>13) >= bot) || ((klabs(day)>>13) >= bot)) return;
        globalx1 = divscale18(dax,bot);
        globalx2 = divscale18(day,bot);

        dax = rzi[z2]-rzi[z];
        day = rxi[z2]-rxi[z];
        bot = dmulscale8(dax,dax,day,day);
        if (((klabs(dax)>>13) >= bot) || ((klabs(day)>>13) >= bot)) return;
        globaly1 = divscale18(dax,bot);
        globaly2 = divscale18(day,bot);

        /* Calculate globals for hline texture mapping function */
        globalxpanning = (rxi[z]<<12);
        globalypanning = (rzi[z]<<12);
        globalzd = (ryi[z]<<12);

        rzi[0] = mulscale16(rzi[0],viewingrange);
        rzi[1] = mulscale16(rzi[1],viewingrange);
        rzi[2] = mulscale16(rzi[2],viewingrange);
        rzi[3] = mulscale16(rzi[3],viewingrange);

        if (ryi[0] < 0)   /* If ceilsprite is above you, reverse order of points */
        {
            i = rxi[1];
            rxi[1] = rxi[3];
            rxi[3] = i;
            i = rzi[1];
            rzi[1] = rzi[3];
            rzi[3] = i;
        }


        /* Clip polygon in 3-space */
        npoints = 4;

        /* Clip edge 1 */
        npoints2 = 0;
        zzsgn = rxi[0]+rzi[0];
        for(z=0; z<npoints; z++)
        {
            zz = z+1;
            if (zz == npoints) zz = 0;
            zsgn = zzsgn;
            zzsgn = rxi[zz]+rzi[zz];
            if (zsgn >= 0)
            {
                rxi2[npoints2] = rxi[z];
                ryi2[npoints2] = ryi[z];
                rzi2[npoints2] = rzi[z];
                npoints2++;
            }
            if ((zsgn^zzsgn) < 0)
            {
                t = divscale30(zsgn,zsgn-zzsgn);
                rxi2[npoints2] = rxi[z] + mulscale30(t,rxi[zz]-rxi[z]);
                ryi2[npoints2] = ryi[z] + mulscale30(t,ryi[zz]-ryi[z]);
                rzi2[npoints2] = rzi[z] + mulscale30(t,rzi[zz]-rzi[z]);
                npoints2++;
            }
        }
        if (npoints2 <= 2) return;

        /* Clip edge 2 */
        npoints = 0;
        zzsgn = rxi2[0]-rzi2[0];
        for(z=0; z<npoints2; z++)
        {
            zz = z+1;
            if (zz == npoints2) zz = 0;
            zsgn = zzsgn;
            zzsgn = rxi2[zz]-rzi2[zz];
            if (zsgn <= 0)
            {
                rxi[npoints] = rxi2[z];
                ryi[npoints] = ryi2[z];
                rzi[npoints] = rzi2[z];
                npoints++;
            }
            if ((zsgn^zzsgn) < 0)
            {
                t = divscale30(zsgn,zsgn-zzsgn);
                rxi[npoints] = rxi2[z] + mulscale30(t,rxi2[zz]-rxi2[z]);
                ryi[npoints] = ryi2[z] + mulscale30(t,ryi2[zz]-ryi2[z]);
                rzi[npoints] = rzi2[z] + mulscale30(t,rzi2[zz]-rzi2[z]);
                npoints++;
            }
        }
        if (npoints <= 2) return;

        /* Clip edge 3 */
        npoints2 = 0;
        zzsgn = ryi[0]*halfxdimen + (rzi[0]*(globalhoriz-0));
        for(z=0; z<npoints; z++)
        {
            zz = z+1;
            if (zz == npoints) zz = 0;
            zsgn = zzsgn;
            zzsgn = ryi[zz]*halfxdimen + (rzi[zz]*(globalhoriz-0));
            if (zsgn >= 0)
            {
                rxi2[npoints2] = rxi[z];
                ryi2[npoints2] = ryi[z];
                rzi2[npoints2] = rzi[z];
                npoints2++;
            }
            if ((zsgn^zzsgn) < 0)
            {
                t = divscale30(zsgn,zsgn-zzsgn);
                rxi2[npoints2] = rxi[z] + mulscale30(t,rxi[zz]-rxi[z]);
                ryi2[npoints2] = ryi[z] + mulscale30(t,ryi[zz]-ryi[z]);
                rzi2[npoints2] = rzi[z] + mulscale30(t,rzi[zz]-rzi[z]);
                npoints2++;
            }
        }
        if (npoints2 <= 2) return;

        /* Clip edge 4 */
        npoints = 0;
        zzsgn = ryi2[0]*halfxdimen + (rzi2[0]*(globalhoriz-ydimen));
        for(z=0; z<npoints2; z++)
        {
            zz = z+1;
            if (zz == npoints2) zz = 0;
            zsgn = zzsgn;
            zzsgn = ryi2[zz]*halfxdimen + (rzi2[zz]*(globalhoriz-ydimen));
            if (zsgn <= 0)
            {
                rxi[npoints] = rxi2[z];
                ryi[npoints] = ryi2[z];
                rzi[npoints] = rzi2[z];
                npoints++;
            }
            if ((zsgn^zzsgn) < 0)
            {
                t = divscale30(zsgn,zsgn-zzsgn);
                rxi[npoints] = rxi2[z] + mulscale30(t,rxi2[zz]-rxi2[z]);
                ryi[npoints] = ryi2[z] + mulscale30(t,ryi2[zz]-ryi2[z]);
                rzi[npoints] = rzi2[z] + mulscale30(t,rzi2[zz]-rzi2[z]);
                npoints++;
            }
        }
        if (npoints <= 2) return;

        /* Project onto screen */
        lpoint = -1;
        lmax = 0x7fffffff;
        rpoint = -1;
        rmax = 0x80000000;
        for(z=0; z<npoints; z++)
        {
            xsi[z] = scale(rxi[z],xdimen<<15,rzi[z]) + (xdimen<<15);
            ysi[z] = scale(ryi[z],xdimen<<15,rzi[z]) + (globalhoriz<<16);
            if (xsi[z] < 0) xsi[z] = 0;
            if (xsi[z] > (xdimen<<16)) xsi[z] = (xdimen<<16);
            if (ysi[z] < ((int32_t)0<<16)) ysi[z] = ((int32_t)0<<16);
            if (ysi[z] > ((int32_t)ydimen<<16)) ysi[z] = ((int32_t)ydimen<<16);
            if (xsi[z] < lmax) lmax = xsi[z], lpoint = z;
            if (xsi[z] > rmax) rmax = xsi[z], rpoint = z;
        }

        /* Get uwall arrays */
        for(z=lpoint; z!=rpoint; z=zz)
        {
            zz = z+1;
            if (zz == npoints) zz = 0;

            dax1 = ((xsi[z]+65535)>>16);
            dax2 = ((xsi[zz]+65535)>>16);
            if (dax2 > dax1)
            {
                yinc = divscale16(ysi[zz]-ysi[z],xsi[zz]-xsi[z]);
                y = ysi[z] + mulscale16((dax1<<16)-xsi[z],yinc);
                qinterpolatedown16short((int32_t *)(&uwall[dax1]),dax2-dax1,y,yinc);
            }
        }

        /* Get dwall arrays */
        for(; z!=lpoint; z=zz)
        {
            zz = z+1;
            if (zz == npoints) zz = 0;

            dax1 = ((xsi[zz]+65535)>>16);
            dax2 = ((xsi[z]+65535)>>16);
            if (dax2 > dax1)
            {
                yinc = divscale16(ysi[zz]-ysi[z],xsi[zz]-xsi[z]);
                y = ysi[zz] + mulscale16((dax1<<16)-xsi[zz],yinc);
                qinterpolatedown16short((int32_t *)(&dwall[dax1]),dax2-dax1,y,yinc);
            }
        }


        lx = ((lmax+65535)>>16);
        rx = ((rmax+65535)>>16);
        for(x=lx; x<=rx; x++)
        {
            uwall[x] = max(uwall[x],startumost[x+windowx1]-windowy1);
            dwall[x] = min(dwall[x],startdmost[x+windowx1]-windowy1);
        }

        /* Additional uwall/dwall clipping goes here */
        for(i=smostwallcnt-1; i>=0; i--)
        {
            j = smostwall[i];
            if ((pvWalls[j].screenSpaceCoo[0][VEC_COL] > rx) || (pvWalls[j].screenSpaceCoo[1][VEC_COL] < lx)) continue;
            if ((yp <= pvWalls[j].screenSpaceCoo[0][VEC_DIST]) && (yp <= pvWalls[j].screenSpaceCoo[1][VEC_DIST])) continue;

            /* if (spritewallfront(tspr,thewall[j]) == 0) */
            x = pvWalls[j].worldWallId;
            xp1 = wall[x].x;
            yp1 = wall[x].y;
            x = wall[x].point2;
            xp2 = wall[x].x;
            yp2 = wall[x].y;
            x = (xp2-xp1)*(tspr->y-yp1)-(tspr->x-xp1)*(yp2-yp1);
            if ((yp > pvWalls[j].screenSpaceCoo[0][VEC_DIST]) && (yp > pvWalls[j].screenSpaceCoo[1][VEC_DIST])) x = -1;
            if ((x >= 0) && ((x != 0) || (wall[pvWalls[j].worldWallId].nextsector != tspr->sectnum))) continue;

            dalx2 = max(pvWalls[j].screenSpaceCoo[0][VEC_COL],lx);
            darx2 = min(pvWalls[j].screenSpaceCoo[1][VEC_COL],rx);

            switch(smostwalltype[i])
            {
            case 0:
                if (dalx2 <= darx2)
                {
                    if ((dalx2 == lx) && (darx2 == rx)) return;
                    clearbufbyte(&dwall[dalx2],(darx2-dalx2+1)*sizeof(dwall[0]),0L);
                }
                break;
            case 1:
                k = smoststart[i] - pvWalls[j].screenSpaceCoo[0][VEC_COL];
                for(x=dalx2; x<=darx2; x++)
                    if (smost[k+x] > uwall[x]) uwall[x] = smost[k+x];
                break;
            case 2:
                k = smoststart[i] - pvWalls[j].screenSpaceCoo[0][VEC_COL];
                for(x=dalx2; x<=darx2; x++)
                    if (smost[k+x] < dwall[x]) dwall[x] = smost[k+x];
                break;
            }
        }

        /* sprite */
        if ((searchit >= 1) && (searchx >= lx) && (searchx <= rx))
            if ((searchy >= uwall[searchx]) && (searchy <= dwall[searchx]))
            {
                searchsector = sectnum;
                searchwall = spritenum;
                searchstat = 3;
                searchit = 1;
            }

        globalorientation = cstat;
        globalpicnum = tilenum;
        if ((uint32_t)globalpicnum >= (uint32_t)MAXTILES)
            globalpicnum = 0;

        TILE_MakeAvailable(globalpicnum);
        
        setgotpic(globalpicnum);
        globalbufplc = tiles[globalpicnum].data;

        globvis = mulscale16(globalhisibility,viewingrange);
        if (sec->visibility != 0) globvis = mulscale4(globvis,(int32_t)((uint8_t )(sec->visibility+16)));

        x = picsiz[globalpicnum];
        y = ((x>>4)&15);
        x &= 15;
        if (pow2long[x] != spriteDim.width)
        {
            x++;
            globalx1 = mulscale(globalx1,spriteDim.width,x);
            globalx2 = mulscale(globalx2,spriteDim.width,x);
        }

        dax = globalxpanning;
        day = globalypanning;
        globalxpanning = -dmulscale6(globalx1,day,globalx2,dax);
        globalypanning = -dmulscale6(globaly1,day,globaly2,dax);

        globalx2 = mulscale16(globalx2,viewingrange);
        globaly2 = mulscale16(globaly2,viewingrange);
        globalzd = mulscale16(globalzd,viewingrangerecip);

        globalx1 = (globalx1-globalx2)*halfxdimen;
        globaly1 = (globaly1-globaly2)*halfxdimen;

        if ((cstat&2) == 0)
            msethlineshift(x,y);
        else
            tsethlineshift(x,y);

        /* Draw it! */
        ceilspritescan(lx,rx-1);
    }

    if (automapping == 1) show2dsprite[spritenum>>3] |= pow2char[spritenum&7];
}

/*
     FCS: Draw every transparent sprites in Back To Front Order. Also draw decals on the walls...
 */
void drawmasks(void)
{
    int32_t i, j, k, l, gap, xs, ys, xp, yp, yoff, yspan;
    /* int32_t zs, zp; */

    //Copy sprite address in a sprite proxy structure (pointers are easier to re-arrange than structs).
    for(i=spritesortcnt-1; i>=0; i--)
        tspriteptr[i] = &tsprite[i];
    
    
    //Generate screenspace coordinate (X column and Y distance).
    for(i=spritesortcnt-1; i>=0; i--)
    {
        //Translate and rotate the sprite in Camera space coordinate.
        xs = tspriteptr[i]->x-globalposx;
        ys = tspriteptr[i]->y-globalposy;
        yp = dmulscale6(xs,cosviewingrangeglobalang,ys,sinviewingrangeglobalang);
        
        if (yp > (4<<8))
        {
            xp = dmulscale6(ys,cosglobalang,-xs,singlobalang);
            spritesx[i] = scale(xp+yp,xdimen<<7,yp);
        }
        else if ((tspriteptr[i]->cstat&48) == 0)
        {
            spritesortcnt--;  /* Delete face sprite if on wrong side! */
            //Move the sprite at the end of the array and decrease array length.
            if (i != spritesortcnt)
            {
                tspriteptr[i] = tspriteptr[spritesortcnt];
                spritesx[i] = spritesx[spritesortcnt];
                spritesy[i] = spritesy[spritesortcnt];
            }
            continue;
        }
        spritesy[i] = yp;
    }

    //FCS: Bubble sort ?! REally ?!?!?
    gap = 1;
    while (gap < spritesortcnt) gap = (gap<<1)+1;
    for(gap>>=1; gap>0; gap>>=1)    /* Sort sprite list */
        for(i=0; i<spritesortcnt-gap; i++)
            for(l=i; l>=0; l-=gap)
            {
                if (spritesy[l] <= spritesy[l+gap])
                    break;
                
                swaplong((int32_t *)&tspriteptr[l],(int32_t *)&tspriteptr[l+gap]);
                swaplong(&spritesx[l],&spritesx[l+gap]);
                swaplong(&spritesy[l],&spritesy[l+gap]);
            }

    if (spritesortcnt > 0)
        spritesy[spritesortcnt] = (spritesy[spritesortcnt-1]^1);

    ys = spritesy[0];
    i = 0;
    for(j=1; j<=spritesortcnt; j++)
    {
        if (spritesy[j] == ys)
            continue;
        
        ys = spritesy[j];
        if (j > i+1)
        {
            for(k=i; k<j; k++)
            {
                spritesz[k] = tspriteptr[k]->z;
                if ((tspriteptr[k]->cstat&48) != 32)
                {
                    yoff = (int32_t)((int8_t )((tiles[tspriteptr[k]->picnum].animFlags>>16)&255))+((int32_t)tspriteptr[k]->yoffset);
                    spritesz[k] -= ((yoff*tspriteptr[k]->yrepeat)<<2);
                    yspan = (tiles[tspriteptr[k]->picnum].dim.height*tspriteptr[k]->yrepeat<<2);
                    if (!(tspriteptr[k]->cstat&128))
                        spritesz[k] -= (yspan>>1);
                    if (klabs(spritesz[k]-globalposz) < (yspan>>1))
                        spritesz[k] = globalposz;
                }
            }
            for(k=i+1; k<j; k++)
                for(l=i; l<k; l++)
                    if (klabs(spritesz[k]-globalposz) < klabs(spritesz[l]-globalposz))
                    {
                        swaplong((int32_t *)&tspriteptr[k],(int32_t *)&tspriteptr[l]);
                        swaplong(&spritesx[k],&spritesx[l]);
                        swaplong(&spritesy[k],&spritesy[l]);
                        swaplong(&spritesz[k],&spritesz[l]);
                    }
            for(k=i+1; k<j; k++)
                for(l=i; l<k; l++)
                    if (tspriteptr[k]->statnum < tspriteptr[l]->statnum)
                    {
                        swaplong((int32_t *)&tspriteptr[k],(int32_t *)&tspriteptr[l]);
                        swaplong(&spritesx[k],&spritesx[l]);
                        swaplong(&spritesy[k],&spritesy[l]);
                    }
        }
        i = j;
    }

    while ((spritesortcnt > 0) && (maskwallcnt > 0))  /* While BOTH > 0 */
    {
        j = maskwall[maskwallcnt-1];
        if (spritewallfront(tspriteptr[spritesortcnt-1],pvWalls[j].worldWallId) == 0)
            drawsprite(--spritesortcnt);
        else
        {
            /* Check to see if any sprites behind the masked wall... */
            k = -1;
            gap = 0;
            for(i=spritesortcnt-2; i>=0; i--)
                if ((pvWalls[j].screenSpaceCoo[0][VEC_COL] <= (spritesx[i]>>8)) && ((spritesx[i]>>8) <= pvWalls[j].screenSpaceCoo[1][VEC_COL]))
                    if (spritewallfront(tspriteptr[i],pvWalls[j].worldWallId) == 0)
                    {
                        drawsprite(i);
                        tspriteptr[i]->owner = -1;
                        k = i;
                        gap++;
                    }
            if (k >= 0)       /* remove holes in sprite list */
            {
                for(i=k; i<spritesortcnt; i++)
                    if (tspriteptr[i]->owner >= 0)
                    {
                        if (i > k)
                        {
                            tspriteptr[k] = tspriteptr[i];
                            spritesx[k] = spritesx[i];
                            spritesy[k] = spritesy[i];
                        }
                        k++;
                    }
                spritesortcnt -= gap;
            }

            /* finally safe to draw the masked wall */
            drawmaskwall(--maskwallcnt);
        }
    }
    while (spritesortcnt > 0) drawsprite(--spritesortcnt);
    while (maskwallcnt > 0) drawmaskwall(--maskwallcnt);
}


int setsprite(short spritenum, int32_t newx, int32_t newy, int32_t newz)
{
    short tempsectnum;

    sprite[spritenum].x = newx;
    sprite[spritenum].y = newy;
    sprite[spritenum].z = newz;

    tempsectnum = sprite[spritenum].sectnum;
    updatesector(newx,newy,&tempsectnum);
    if (tempsectnum < 0)
        return(-1);
    if (tempsectnum != sprite[spritenum].sectnum)
        changespritesect(spritenum,tempsectnum);

    return(0);
}


void initspritelists(void)
{
    int32_t i;

    for (i=0; i<MAXSECTORS; i++)   /* Init doubly-linked sprite sector lists */
        headspritesect[i] = -1;
    
    headspritesect[MAXSECTORS] = 0;
    
    for(i=0; i<MAXSPRITES; i++){
        prevspritesect[i] = i-1;
        nextspritesect[i] = i+1;
        sprite[i].sectnum = MAXSECTORS;
    }
    prevspritesect[0] = -1;
    nextspritesect[MAXSPRITES-1] = -1;


    for(i=0; i<MAXSTATUS; i++)    /* Init doubly-linked sprite status lists */
        headspritestat[i] = -1;
    headspritestat[MAXSTATUS] = 0;
    for(i=0; i<MAXSPRITES; i++)
    {
        prevspritestat[i] = i-1;
        nextspritestat[i] = i+1;
        sprite[i].statnum = MAXSTATUS;
    }
    prevspritestat[0] = -1;
    nextspritestat[MAXSPRITES-1] = -1;
}


int insertsprite(short sectnum, short statnum)
{
    insertspritestat(statnum);
    return(insertspritesect(sectnum));
}


int insertspritesect(short sectnum)
{
    short blanktouse;

    if ((sectnum >= MAXSECTORS) || (headspritesect[MAXSECTORS] == -1))
        return(-1);  /* list full */

    blanktouse = headspritesect[MAXSECTORS];

    headspritesect[MAXSECTORS] = nextspritesect[blanktouse];
    if (headspritesect[MAXSECTORS] >= 0)
        prevspritesect[headspritesect[MAXSECTORS]] = -1;

    prevspritesect[blanktouse] = -1;
    nextspritesect[blanktouse] = headspritesect[sectnum];
    if (headspritesect[sectnum] >= 0)
        prevspritesect[headspritesect[sectnum]] = blanktouse;
    headspritesect[sectnum] = blanktouse;

    sprite[blanktouse].sectnum = sectnum;

    return(blanktouse);
}


int insertspritestat(short statnum)
{
    short blanktouse;

    if ((statnum >= MAXSTATUS) || (headspritestat[MAXSTATUS] == -1))
        return(-1);  /* list full */

    blanktouse = headspritestat[MAXSTATUS];

    headspritestat[MAXSTATUS] = nextspritestat[blanktouse];
    if (headspritestat[MAXSTATUS] >= 0)
        prevspritestat[headspritestat[MAXSTATUS]] = -1;

    prevspritestat[blanktouse] = -1;
    nextspritestat[blanktouse] = headspritestat[statnum];
    if (headspritestat[statnum] >= 0)
        prevspritestat[headspritestat[statnum]] = blanktouse;
    headspritestat[statnum] = blanktouse;

    sprite[blanktouse].statnum = statnum;

    return(blanktouse);
}


int deletesprite(short spritenum)
{
    deletespritestat(spritenum);
    return(deletespritesect(spritenum));
}


int deletespritesect(short deleteme)
{
    if (sprite[deleteme].sectnum == MAXSECTORS)
        return(-1);

    if (headspritesect[sprite[deleteme].sectnum] == deleteme)
        headspritesect[sprite[deleteme].sectnum] = nextspritesect[deleteme];

    if (prevspritesect[deleteme] >= 0) nextspritesect[prevspritesect[deleteme]] = nextspritesect[deleteme];
    if (nextspritesect[deleteme] >= 0) prevspritesect[nextspritesect[deleteme]] = prevspritesect[deleteme];

    if (headspritesect[MAXSECTORS] >= 0) prevspritesect[headspritesect[MAXSECTORS]] = deleteme;
    prevspritesect[deleteme] = -1;
    nextspritesect[deleteme] = headspritesect[MAXSECTORS];
    headspritesect[MAXSECTORS] = deleteme;

    sprite[deleteme].sectnum = MAXSECTORS;
    return(0);
}


int deletespritestat(short deleteme)
{
    if (sprite[deleteme].statnum == MAXSTATUS)
        return(-1);

    if (headspritestat[sprite[deleteme].statnum] == deleteme)
        headspritestat[sprite[deleteme].statnum] = nextspritestat[deleteme];

    if (prevspritestat[deleteme] >= 0) nextspritestat[prevspritestat[deleteme]] = nextspritestat[deleteme];
    if (nextspritestat[deleteme] >= 0) prevspritestat[nextspritestat[deleteme]] = prevspritestat[deleteme];

    if (headspritestat[MAXSTATUS] >= 0) prevspritestat[headspritestat[MAXSTATUS]] = deleteme;
    prevspritestat[deleteme] = -1;
    nextspritestat[deleteme] = headspritestat[MAXSTATUS];
    headspritestat[MAXSTATUS] = deleteme;

    sprite[deleteme].statnum = MAXSTATUS;
    return(0);
}


int changespritesect(short spritenum, short newsectnum)
{
    if ((newsectnum < 0) || (newsectnum > MAXSECTORS)) return(-1);
    if (sprite[spritenum].sectnum == newsectnum) return(0);
    if (sprite[spritenum].sectnum == MAXSECTORS) return(-1);
    if (deletespritesect(spritenum) < 0) return(-1);
    insertspritesect(newsectnum);
    return(0);
}


int changespritestat(short spritenum, short newstatnum)
{
    if ((newstatnum < 0) || (newstatnum > MAXSTATUS)) return(-1);
    if (sprite[spritenum].statnum == newstatnum) return(0);
    if (sprite[spritenum].statnum == MAXSTATUS) return(-1);
    if (deletespritestat(spritenum) < 0) return(-1);
    insertspritestat(newstatnum);
    return(0);
}


int nextsectorneighborz(short sectnum, int32_t thez,
                        short topbottom, short direction)
{
    walltype *wal;
    int32_t i, testz, nextz;
    short sectortouse;

    if (direction == 1) nextz = 0x7fffffff;
    else nextz = 0x80000000;

    sectortouse = -1;

    wal = &wall[sector[sectnum].wallptr];
    i = sector[sectnum].wallnum;
    do
    {
        if (wal->nextsector >= 0)
        {
            if (topbottom == 1)
            {
                testz = sector[wal->nextsector].floorz;
                if (direction == 1)
                {
                    if ((testz > thez) && (testz < nextz))
                    {
                        nextz = testz;
                        sectortouse = wal->nextsector;
                    }
                }
                else
                {
                    if ((testz < thez) && (testz > nextz))
                    {
                        nextz = testz;
                        sectortouse = wal->nextsector;
                    }
                }
            }
            else
            {
                testz = sector[wal->nextsector].ceilingz;
                if (direction == 1)
                {
                    if ((testz > thez) && (testz < nextz))
                    {
                        nextz = testz;
                        sectortouse = wal->nextsector;
                    }
                }
                else
                {
                    if ((testz < thez) && (testz > nextz))
                    {
                        nextz = testz;
                        sectortouse = wal->nextsector;
                    }
                }
            }
        }
        wal++;
        i--;
    } while (i != 0);

    return(sectortouse);
}


int cansee(int32_t x1, int32_t y1, int32_t z1, short sect1,
           int32_t x2, int32_t y2, int32_t z2, short sect2)
{
    sectortype *sec;
    walltype *wal, *wal2;
    int32_t i, cnt, nexts, x, y, z, cz, fz, dasectnum, dacnt, danum;
    int32_t x21, y21, z21, x31, y31, x34, y34, bot, t;

    if ((x1 == x2) && (y1 == y2))
        return(sect1 == sect2);

    x21 = x2-x1;
    y21 = y2-y1;
    z21 = z2-z1;

    clipsectorlist[0] = sect1;
    danum = 1;
    for(dacnt=0; dacnt<danum; dacnt++)
    {
        dasectnum = clipsectorlist[dacnt];
        sec = &sector[dasectnum];
        for(cnt=sec->wallnum,wal=&wall[sec->wallptr]; cnt>0; cnt--,wal++)
        {
            wal2 = &wall[wal->point2];
            x31 = wal->x-x1;
            x34 = wal->x-wal2->x;
            y31 = wal->y-y1;
            y34 = wal->y-wal2->y;

            bot = y21*x34-x21*y34;
            if (bot <= 0)
                continue;
            
            t = y21*x31-x21*y31;
            if ((uint32_t)t >= (uint32_t)bot)
                continue;
            t = y31*x34-x31*y34;
            if ((uint32_t)t >= (uint32_t)bot)
                continue;

            nexts = wal->nextsector;
            if ((nexts < 0) || (wal->cstat&32)) return(0);

            t = divscale24(t,bot);
            x = x1 + mulscale24(x21,t);
            y = y1 + mulscale24(y21,t);
            z = z1 + mulscale24(z21,t);

            getzsofslope((short)dasectnum,x,y,&cz,&fz);
            if ((z <= cz) || (z >= fz))
                return(0);
            getzsofslope((short)nexts,x,y,&cz,&fz);
            if ((z <= cz) || (z >= fz))
                return(0);

            for(i=danum-1; i>=0; i--)
                if (clipsectorlist[i] == nexts)
                    break;
            if (i < 0)
                clipsectorlist[danum++] = nexts;
        }
    }
    for(i=danum-1; i>=0;i--)
        if (clipsectorlist[i] == sect2)
            return(1);
    return(0);
}


int lintersect(int32_t x1, int32_t y1, int32_t z1, int32_t x2, int32_t y2, int32_t z2,
               int32_t x3, int32_t y3, int32_t x4, int32_t y4, int32_t *intx,
               int32_t *inty, int32_t *intz)
{   /* p1 to p2 is a line segment */
    int32_t x21, y21, x34, y34, x31, y31, bot, topt, topu, t;

    x21 = x2-x1;
    x34 = x3-x4;
    y21 = y2-y1;
    y34 = y3-y4;
    bot = x21*y34 - y21*x34;
    if (bot >= 0)
    {
        if (bot == 0) return(0);
        x31 = x3-x1;
        y31 = y3-y1;
        topt = x31*y34 - y31*x34;
        if ((topt < 0) || (topt >= bot)) return(0);
        topu = x21*y31 - y21*x31;
        if ((topu < 0) || (topu >= bot)) return(0);
    }
    else
    {
        x31 = x3-x1;
        y31 = y3-y1;
        topt = x31*y34 - y31*x34;
        if ((topt > 0) || (topt <= bot)) return(0);
        topu = x21*y31 - y21*x31;
        if ((topu > 0) || (topu <= bot)) return(0);
    }
    t = divscale24(topt,bot);
    *intx = x1 + mulscale24(x21,t);
    *inty = y1 + mulscale24(y21,t);
    *intz = z1 + mulscale24(z2-z1,t);
    return(1);
}


int rintersect(int32_t x1, int32_t y1, int32_t z1, int32_t vx, int32_t vy, int32_t vz,
               int32_t x3, int32_t y3, int32_t x4, int32_t y4, int32_t *intx,
               int32_t *inty, int32_t *intz)
{   /* p1 towards p2 is a ray */
    int32_t x34, y34, x31, y31, bot, topt, topu, t;

    x34 = x3-x4;
    y34 = y3-y4;
    bot = vx*y34 - vy*x34;
    if (bot >= 0)
    {
        if (bot == 0) return(0);
        x31 = x3-x1;
        y31 = y3-y1;
        topt = x31*y34 - y31*x34;
        if (topt < 0) return(0);
        topu = vx*y31 - vy*x31;
        if ((topu < 0) || (topu >= bot)) return(0);
    }
    else
    {
        x31 = x3-x1;
        y31 = y3-y1;
        topt = x31*y34 - y31*x34;
        if (topt > 0) return(0);
        topu = vx*y31 - vy*x31;
        if ((topu > 0) || (topu <= bot)) return(0);
    }
    t = divscale16(topt,bot);
    *intx = x1 + mulscale16(vx,t);
    *inty = y1 + mulscale16(vy,t);
    *intz = z1 + mulscale16(vz,t);
    return(1);
}


int hitscan(int32_t xs, int32_t ys, int32_t zs, short sectnum,
            int32_t vx, int32_t vy, int32_t vz,
            short *hitsect, short *hitwall, short *hitsprite,
            int32_t *hitx, int32_t *hity, int32_t *hitz, uint32_t  cliptype)
{
    sectortype *sec;
    walltype *wal, *wal2;
    spritetype *spr;
    int32_t z, zz, x1, y1=0, z1=0, x2, y2, x3, y3, x4, y4, intx, inty, intz;
    int32_t topt, topu, bot, dist, offx, offy, cstat;
    int32_t i, j, k, l, tilenum, xoff, yoff, dax, day, daz, daz2;
    int32_t ang, cosang, sinang, xspan, yspan, xrepeat, yrepeat;
    int32_t dawalclipmask, dasprclipmask;
    short tempshortcnt, tempshortnum, dasector, startwall, endwall;
    short nextsector;
    uint8_t  clipyou;

    *hitsect = -1;
    *hitwall = -1;
    *hitsprite = -1;
    if (sectnum < 0) return(-1);

    *hitx = hitscangoalx;
    *hity = hitscangoaly;

    dawalclipmask = (cliptype&65535);
    dasprclipmask = (cliptype>>16);

    clipsectorlist[0] = sectnum;
    tempshortcnt = 0;
    tempshortnum = 1;
    do
    {
        dasector = clipsectorlist[tempshortcnt];
        sec = &sector[dasector];

        x1 = 0x7fffffff;
        if (sec->ceilingstat&2)
        {
            wal = &wall[sec->wallptr];
            wal2 = &wall[wal->point2];
            dax = wal2->x-wal->x;
            day = wal2->y-wal->y;
            i = nsqrtasm(dax*dax+day*day);
            if (i == 0) continue;
            i = divscale15(sec->ceilingheinum,i);
            dax *= i;
            day *= i;

            j = (vz<<8)-dmulscale15(dax,vy,-day,vx);
            if (j != 0)
            {
                i = ((sec->ceilingz-zs)<<8)+dmulscale15(dax,ys-wal->y,-day,xs-wal->x);
                if (((i^j) >= 0) && ((klabs(i)>>1) < klabs(j)))
                {
                    i = divscale30(i,j);
                    x1 = xs + mulscale30(vx,i);
                    y1 = ys + mulscale30(vy,i);
                    z1 = zs + mulscale30(vz,i);
                }
            }
        }
        else if ((vz < 0) && (zs >= sec->ceilingz))
        {
            z1 = sec->ceilingz;
            i = z1-zs;
            if ((klabs(i)>>1) < -vz)
            {
                i = divscale30(i,vz);
                x1 = xs + mulscale30(vx,i);
                y1 = ys + mulscale30(vy,i);
            }
        }
        if ((x1 != 0x7fffffff) && (klabs(x1-xs)+klabs(y1-ys) < klabs((*hitx)-xs)+klabs((*hity)-ys)))
            if (inside(x1,y1,dasector) != 0)
            {
                *hitsect = dasector;
                *hitwall = -1;
                *hitsprite = -1;
                *hitx = x1;
                *hity = y1;
                *hitz = z1;
            }

        x1 = 0x7fffffff;
        if (sec->floorstat&2)
        {
            wal = &wall[sec->wallptr];
            wal2 = &wall[wal->point2];
            dax = wal2->x-wal->x;
            day = wal2->y-wal->y;
            i = nsqrtasm(dax*dax+day*day);
            if (i == 0) continue;
            i = divscale15(sec->floorheinum,i);
            dax *= i;
            day *= i;

            j = (vz<<8)-dmulscale15(dax,vy,-day,vx);
            if (j != 0)
            {
                i = ((sec->floorz-zs)<<8)+dmulscale15(dax,ys-wal->y,-day,xs-wal->x);
                if (((i^j) >= 0) && ((klabs(i)>>1) < klabs(j)))
                {
                    i = divscale30(i,j);
                    x1 = xs + mulscale30(vx,i);
                    y1 = ys + mulscale30(vy,i);
                    z1 = zs + mulscale30(vz,i);
                }
            }
        }
        else if ((vz > 0) && (zs <= sec->floorz))
        {
            z1 = sec->floorz;
            i = z1-zs;
            if ((klabs(i)>>1) < vz)
            {
                i = divscale30(i,vz);
                x1 = xs + mulscale30(vx,i);
                y1 = ys + mulscale30(vy,i);
            }
        }
        if ((x1 != 0x7fffffff) && (klabs(x1-xs)+klabs(y1-ys) < klabs((*hitx)-xs)+klabs((*hity)-ys)))
            if (inside(x1,y1,dasector) != 0)
            {
                *hitsect = dasector;
                *hitwall = -1;
                *hitsprite = -1;
                *hitx = x1;
                *hity = y1;
                *hitz = z1;
            }

        startwall = sec->wallptr;
        endwall = startwall + sec->wallnum;
        for(z=startwall,wal=&wall[startwall]; z<endwall; z++,wal++)
        {
            wal2 = &wall[wal->point2];
            x1 = wal->x;
            y1 = wal->y;
            x2 = wal2->x;
            y2 = wal2->y;

            if ((x1-xs)*(y2-ys) < (x2-xs)*(y1-ys)) continue;
            if (rintersect(xs,ys,zs,vx,vy,vz,x1,y1,x2,y2,&intx,&inty,&intz) == 0) continue;

            if (klabs(intx-xs)+klabs(inty-ys) >= klabs((*hitx)-xs)+klabs((*hity)-ys)) continue;

            nextsector = wal->nextsector;
            if ((nextsector < 0) || (wal->cstat&dawalclipmask))
            {
                *hitsect = dasector;
                *hitwall = z;
                *hitsprite = -1;
                *hitx = intx;
                *hity = inty;
                *hitz = intz;
                continue;
            }
            getzsofslope(nextsector,intx,inty,&daz,&daz2);
            if ((intz <= daz) || (intz >= daz2))
            {
                *hitsect = dasector;
                *hitwall = z;
                *hitsprite = -1;
                *hitx = intx;
                *hity = inty;
                *hitz = intz;
                continue;
            }

            for(zz=tempshortnum-1; zz>=0; zz--)
                if (clipsectorlist[zz] == nextsector) break;
            if (zz < 0) clipsectorlist[tempshortnum++] = nextsector;
        }

        for(z=headspritesect[dasector]; z>=0; z=nextspritesect[z])
        {
            spr = &sprite[z];
            cstat = spr->cstat;
            if ((cstat&dasprclipmask) == 0) continue;

            x1 = spr->x;
            y1 = spr->y;
            z1 = spr->z;
            switch(cstat&48)
            {
            case 0:
                topt = vx*(x1-xs) + vy*(y1-ys);
                if (topt <= 0) continue;
                bot = vx*vx + vy*vy;
                if (bot == 0) continue;

                intz = zs+scale(vz,topt,bot);

                i = (tiles[spr->picnum].dim.height*spr->yrepeat<<2);
                    
                if (cstat&128) 
                    z1 += (i>>1);
                    
                if (tiles[spr->picnum].animFlags&0x00ff0000) 
                    z1 -= ((int32_t)((int8_t )((tiles[spr->picnum].animFlags>>16)&255))*spr->yrepeat<<2);
                    
                if ((intz > z1) || (intz < z1-i)) continue;
                topu = vx*(y1-ys) - vy*(x1-xs);

                offx = scale(vx,topu,bot);
                offy = scale(vy,topu,bot);
                dist = offx*offx + offy*offy;
                i = tiles[spr->picnum].dim.width*spr->xrepeat;
                i *= i;
                if (dist > (i>>7)) continue;
                intx = xs + scale(vx,topt,bot);
                inty = ys + scale(vy,topt,bot);

                if (klabs(intx-xs)+klabs(inty-ys) > klabs((*hitx)-xs)+klabs((*hity)-ys)) continue;

                *hitsect = dasector;
                *hitwall = -1;
                *hitsprite = z;
                *hitx = intx;
                *hity = inty;
                *hitz = intz;
                break;
            case 16:
                /*
                 * These lines get the 2 points of the rotated sprite
                 * Given: (x1, y1) starts out as the center point
                 */
                tilenum = spr->picnum;
                xoff = (int32_t)((int8_t )((tiles[tilenum].animFlags>>8)&255))+((int32_t)spr->xoffset);
                if ((cstat&4) > 0) xoff = -xoff;
                k = spr->ang;
                l = spr->xrepeat;
                dax = sintable[k&2047]*l;
                day = sintable[(k+1536)&2047]*l;
                l = tiles[tilenum].dim.width;
                k = (l>>1)+xoff;
                x1 -= mulscale16(dax,k);
                x2 = x1+mulscale16(dax,l);
                y1 -= mulscale16(day,k);
                y2 = y1+mulscale16(day,l);

                if ((cstat&64) != 0)   /* back side of 1-way sprite */
                    if ((x1-xs)*(y2-ys) < (x2-xs)*(y1-ys)) continue;

                if (rintersect(xs,ys,zs,vx,vy,vz,x1,y1,x2,y2,&intx,&inty,&intz) == 0) continue;

                if (klabs(intx-xs)+klabs(inty-ys) > klabs((*hitx)-xs)+klabs((*hity)-ys)) continue;

                k = ((tiles[spr->picnum].dim.height*spr->yrepeat)<<2);
                if (cstat&128)
                    daz = spr->z+(k>>1);
                else
                    daz = spr->z;
                    
                if (tiles[spr->picnum].animFlags&0x00ff0000)
                    daz -= ((int32_t)((int8_t  )((tiles[spr->picnum].animFlags>>16)&255))*spr->yrepeat<<2);
                    
                if ((intz < daz) && (intz > daz-k))
                {
                    *hitsect = dasector;
                    *hitwall = -1;
                    *hitsprite = z;
                    *hitx = intx;
                    *hity = inty;
                    *hitz = intz;
                }
                break;
            case 32:
                if (vz == 0) continue;
                intz = z1;
                if (((intz-zs)^vz) < 0) continue;
                if ((cstat&64) != 0)
                    if ((zs > intz) == ((cstat&8)==0)) continue;

                intx = xs+scale(intz-zs,vx,vz);
                inty = ys+scale(intz-zs,vy,vz);

                if (klabs(intx-xs)+klabs(inty-ys) > klabs((*hitx)-xs)+klabs((*hity)-ys)) continue;

                tilenum = spr->picnum;
                xoff = (int32_t)((int8_t )((tiles[tilenum].animFlags>>8)&255))+((int32_t)spr->xoffset);
                yoff = (int32_t)((int8_t )((tiles[tilenum].animFlags>>16)&255))+((int32_t)spr->yoffset);
                if ((cstat&4) > 0) xoff = -xoff;
                if ((cstat&8) > 0) yoff = -yoff;

                ang = spr->ang;
                cosang = sintable[(ang+512)&2047];
                sinang = sintable[ang];
                xspan = tiles[tilenum].dim.width;
                xrepeat = spr->xrepeat;
                yspan = tiles[tilenum].dim.height;
                yrepeat = spr->yrepeat;

                dax = ((xspan>>1)+xoff)*xrepeat;
                day = ((yspan>>1)+yoff)*yrepeat;
                x1 += dmulscale16(sinang,dax,cosang,day)-intx;
                y1 += dmulscale16(sinang,day,-cosang,dax)-inty;
                l = xspan*xrepeat;
                x2 = x1 - mulscale16(sinang,l);
                y2 = y1 + mulscale16(cosang,l);
                l = yspan*yrepeat;
                k = -mulscale16(cosang,l);
                x3 = x2+k;
                x4 = x1+k;
                k = -mulscale16(sinang,l);
                y3 = y2+k;
                y4 = y1+k;

                clipyou = 0;
                if ((y1^y2) < 0)
                {
                    if ((x1^x2) < 0) clipyou ^= (x1*y2<x2*y1)^(y1<y2);
                    else if (x1 >= 0) clipyou ^= 1;
                }
                if ((y2^y3) < 0)
                {
                    if ((x2^x3) < 0) clipyou ^= (x2*y3<x3*y2)^(y2<y3);
                    else if (x2 >= 0) clipyou ^= 1;
                }
                if ((y3^y4) < 0)
                {
                    if ((x3^x4) < 0) clipyou ^= (x3*y4<x4*y3)^(y3<y4);
                    else if (x3 >= 0) clipyou ^= 1;
                }
                if ((y4^y1) < 0)
                {
                    if ((x4^x1) < 0) clipyou ^= (x4*y1<x1*y4)^(y4<y1);
                    else if (x4 >= 0) clipyou ^= 1;
                }

                if (clipyou != 0)
                {
                    *hitsect = dasector;
                    *hitwall = -1;
                    *hitsprite = z;
                    *hitx = intx;
                    *hity = inty;
                    *hitz = intz;
                }
                break;
            }
        }
        tempshortcnt++;
    } while (tempshortcnt < tempshortnum);
    return(0);
}


int neartag(int32_t xs, int32_t ys, int32_t zs, short sectnum, short ange,
            short *neartagsector, short *neartagwall, short *neartagsprite,
            int32_t *neartaghitdist, int32_t neartagrange, uint8_t  tagsearch)
{
    walltype *wal, *wal2;
    spritetype *spr;
    int32_t i, z, zz, xe, ye, ze, x1, y1, z1, x2, y2, intx, inty, intz;
    int32_t topt, topu, bot, dist, offx, offy, vx, vy, vz;
    short tempshortcnt, tempshortnum, dasector, startwall, endwall;
    short nextsector, good;

    *neartagsector = -1;
    *neartagwall = -1;
    *neartagsprite = -1;
    *neartaghitdist = 0;

    if (sectnum < 0) return(0);
    if ((tagsearch < 1) || (tagsearch > 3)) return(0);

    vx = mulscale14(sintable[(ange+2560)&2047],neartagrange);
    xe = xs+vx;
    vy = mulscale14(sintable[(ange+2048)&2047],neartagrange);
    ye = ys+vy;
    vz = 0;
    ze = 0;

    clipsectorlist[0] = sectnum;
    tempshortcnt = 0;
    tempshortnum = 1;

    do
    {
        dasector = clipsectorlist[tempshortcnt];

        startwall = sector[dasector].wallptr;
        endwall = startwall + sector[dasector].wallnum - 1;
        for(z=startwall,wal=&wall[startwall]; z<=endwall; z++,wal++)
        {
            wal2 = &wall[wal->point2];
            x1 = wal->x;
            y1 = wal->y;
            x2 = wal2->x;
            y2 = wal2->y;

            nextsector = wal->nextsector;

            good = 0;
            if (nextsector >= 0)
            {
                if ((tagsearch&1) && sector[nextsector].lotag) good |= 1;
                if ((tagsearch&2) && sector[nextsector].hitag) good |= 1;
            }
            if ((tagsearch&1) && wal->lotag) good |= 2;
            if ((tagsearch&2) && wal->hitag) good |= 2;

            if ((good == 0) && (nextsector < 0)) continue;
            if ((x1-xs)*(y2-ys) < (x2-xs)*(y1-ys)) continue;

            if (lintersect(xs,ys,zs,xe,ye,ze,x1,y1,x2,y2,&intx,&inty,&intz) == 1)
            {
                if (good != 0)
                {
                    if (good&1) *neartagsector = nextsector;
                    if (good&2) *neartagwall = z;
                    *neartaghitdist = dmulscale14(intx-xs,sintable[(ange+2560)&2047],inty-ys,sintable[(ange+2048)&2047]);
                    xe = intx;
                    ye = inty;
                    ze = intz;
                }
                if (nextsector >= 0)
                {
                    for(zz=tempshortnum-1; zz>=0; zz--)
                        if (clipsectorlist[zz] == nextsector) break;
                    if (zz < 0) clipsectorlist[tempshortnum++] = nextsector;
                }
            }
        }

        for(z=headspritesect[dasector]; z>=0; z=nextspritesect[z])
        {
            spr = &sprite[z];

            good = 0;
            if ((tagsearch&1) && spr->lotag) good |= 1;
            if ((tagsearch&2) && spr->hitag) good |= 1;
            if (good != 0)
            {
                x1 = spr->x;
                y1 = spr->y;
                z1 = spr->z;

                topt = vx*(x1-xs) + vy*(y1-ys);
                if (topt > 0)
                {
                    bot = vx*vx + vy*vy;
                    if (bot != 0)
                    {
                        intz = zs+scale(vz,topt,bot);
                        i = tiles[spr->picnum].dim.height*spr->yrepeat;
                        if (spr->cstat&128) 
                            z1 += (i<<1);
                        if (tiles[spr->picnum].animFlags&0x00ff0000) 
                            z1 -= ((int32_t)((int8_t  )((tiles[spr->picnum].animFlags>>16)&255))*spr->yrepeat<<2);
                        if ((intz <= z1) && (intz >= z1-(i<<2)))
                        {
                            topu = vx*(y1-ys) - vy*(x1-xs);

                            offx = scale(vx,topu,bot);
                            offy = scale(vy,topu,bot);
                            dist = offx*offx + offy*offy;
                            i = (tiles[spr->picnum].dim.width*spr->xrepeat);
                            i *= i;
                            if (dist <= (i>>7))
                            {
                                intx = xs + scale(vx,topt,bot);
                                inty = ys + scale(vy,topt,bot);
                                if (klabs(intx-xs)+klabs(inty-ys) < klabs(xe-xs)+klabs(ye-ys))
                                {
                                    *neartagsprite = z;
                                    *neartaghitdist = dmulscale14(intx-xs,sintable[(ange+2560)&2047],inty-ys,sintable[(ange+2048)&2047]);
                                    xe = intx;
                                    ye = inty;
                                    ze = intz;
                                }
                            }
                        }
                    }
                }
            }
        }

        tempshortcnt++;
    } while (tempshortcnt < tempshortnum);
    return(0);
}


void dragpoint(short pointhighlight, int32_t dax, int32_t day)
{
    short cnt, tempshort;

    wall[pointhighlight].x = dax;
    wall[pointhighlight].y = day;

    cnt = MAXWALLS;
    tempshort = pointhighlight;    /* search points CCW */
    do
    {
        if (wall[tempshort].nextwall >= 0)
        {
            tempshort = wall[wall[tempshort].nextwall].point2;
            wall[tempshort].x = dax;
            wall[tempshort].y = day;
        }
        else
        {
            tempshort = pointhighlight;    /* search points CW if not searched all the way around */
            do
            {
                if (wall[lastwall(tempshort)].nextwall >= 0)
                {
                    tempshort = wall[lastwall(tempshort)].nextwall;
                    wall[tempshort].x = dax;
                    wall[tempshort].y = day;
                }
                else
                {
                    break;
                }
                cnt--;
            }
            while ((tempshort != pointhighlight) && (cnt > 0));
            break;
        }
        cnt--;
    }
    while ((tempshort != pointhighlight) && (cnt > 0));
}


int lastwall(short point)
{
    int32_t i, j, cnt;

    if ((point > 0) && (wall[point-1].point2 == point)) return(point-1);
    i = point;
    cnt = MAXWALLS;
    do
    {
        j = wall[i].point2;
        if (j == point) return(i);
        i = j;
        cnt--;
    } while (cnt > 0);
    return(point);
}

#define addclipline(dax1, day1, dax2, day2, daoval)      \
{                                                        \
clipit[clipnum].x1 = dax1; clipit[clipnum].y1 = day1; \
clipit[clipnum].x2 = dax2; clipit[clipnum].y2 = day2; \
clipobjectval[clipnum] = daoval;                      \
clipnum++;                                            \
}                                                        \
 

static void keepaway (int32_t *x, int32_t *y, int32_t w)
{
    int32_t dx, dy, ox, oy, x1, y1;
    uint8_t  first;

    x1 = clipit[w].x1;
    dx = clipit[w].x2-x1;
    y1 = clipit[w].y1;
    dy = clipit[w].y2-y1;
    ox = ksgn(-dy);
    oy = ksgn(dx);
    first = (klabs(dx) <= klabs(dy));
    while (1)
    {
        if (dx*(*y-y1) > (*x-x1)*dy) return;
        if (first == 0) *x += ox;
        else *y += oy;
        first ^= 1;
    }
}


static int raytrace(int32_t x3, int32_t y3, int32_t *x4, int32_t *y4)
{
    int32_t x1, y1, x2, y2, bot, topu, nintx, ninty, cnt, z, hitwall;
    int32_t x21, y21, x43, y43;

    hitwall = -1;
    for(z=clipnum-1; z>=0; z--)
    {
        x1 = clipit[z].x1;
        x2 = clipit[z].x2;
        x21 = x2-x1;
        y1 = clipit[z].y1;
        y2 = clipit[z].y2;
        y21 = y2-y1;

        topu = x21*(y3-y1) - (x3-x1)*y21;
        if (topu <= 0) continue;
        if (x21*(*y4-y1) > (*x4-x1)*y21) continue;
        x43 = *x4-x3;
        y43 = *y4-y3;
        if (x43*(y1-y3) > (x1-x3)*y43) continue;
        if (x43*(y2-y3) <= (x2-x3)*y43) continue;
        bot = x43*y21 - x21*y43;
        if (bot == 0) continue;

        cnt = 256;
        do
        {
            cnt--;
            if (cnt < 0) {
                *x4 = x3;
                *y4 = y3;
                return(z);
            }
            nintx = x3 + scale(x43,topu,bot);
            ninty = y3 + scale(y43,topu,bot);
            topu--;
        } while (x21*(ninty-y1) <= (nintx-x1)*y21);

        if (klabs(x3-nintx)+klabs(y3-ninty) < klabs(x3-*x4)+klabs(y3-*y4))
        {
            *x4 = nintx;
            *y4 = ninty;
            hitwall = z;
        }
    }
    return(hitwall);
}


/* !!! ugh...move this var into clipmove as a parameter, and update build2.txt! */
int32_t clipmoveboxtracenum = 3;
int clipmove (int32_t *x, int32_t *y, int32_t *z, short *sectnum,
              int32_t xvect, int32_t yvect, int32_t walldist, int32_t ceildist,
              int32_t flordist, uint32_t  cliptype)
{
    walltype *wal, *wal2;
    spritetype *spr;
    sectortype *sec, *sec2;
    int32_t i, j, templong1, templong2;
    int32_t oxvect, oyvect, goalx, goaly, intx, inty, lx, ly, retval;
    int32_t k, l, clipsectcnt, startwall, endwall, cstat, dasect;
    int32_t x1, y1, x2, y2, cx, cy, rad, xmin, ymin, xmax, ymax, daz, daz2;
    int32_t bsz, dax, day, xoff, yoff, xspan, yspan, cosang, sinang, tilenum;
    int32_t xrepeat, yrepeat, gx, gy, dx, dy, dasprclipmask, dawalclipmask;
    int32_t hitwall, cnt, clipyou;

    if (((xvect|yvect) == 0) || (*sectnum < 0)) return(0);
    retval = 0;

    oxvect = xvect;
    oyvect = yvect;

    goalx = (*x) + (xvect>>14);
    goaly = (*y) + (yvect>>14);


    clipnum = 0;

    cx = (((*x)+goalx)>>1);
    cy = (((*y)+goaly)>>1);
    /* Extra walldist for sprites on sector lines */
    gx = goalx-(*x);
    gy = goaly-(*y);
    rad = nsqrtasm(gx*gx + gy*gy) + MAXCLIPDIST+walldist + 8;
    xmin = cx-rad;
    ymin = cy-rad;
    xmax = cx+rad;
    ymax = cy+rad;

    dawalclipmask = (cliptype&65535);        /* CLIPMASK0 = 0x00010001 */
    dasprclipmask = (cliptype>>16);          /* CLIPMASK1 = 0x01000040 */

    clipsectorlist[0] = (*sectnum);
    clipsectcnt = 0;
    clipsectnum = 1;
    do
    {
        dasect = clipsectorlist[clipsectcnt++];
        sec = &sector[dasect];
        startwall = sec->wallptr;
        endwall = startwall + sec->wallnum;
        for(j=startwall,wal=&wall[startwall]; j<endwall; j++,wal++)
        {
            wal2 = &wall[wal->point2];
            if ((wal->x < xmin) && (wal2->x < xmin)) continue;
            if ((wal->x > xmax) && (wal2->x > xmax)) continue;
            if ((wal->y < ymin) && (wal2->y < ymin)) continue;
            if ((wal->y > ymax) && (wal2->y > ymax)) continue;

            x1 = wal->x;
            y1 = wal->y;
            x2 = wal2->x;
            y2 = wal2->y;

            dx = x2-x1;
            dy = y2-y1;
            if (dx*((*y)-y1) < ((*x)-x1)*dy) continue;  /* If wall's not facing you */

            if (dx > 0) dax = dx*(ymin-y1);
            else dax = dx*(ymax-y1);
            if (dy > 0) day = dy*(xmax-x1);
            else day = dy*(xmin-x1);
            if (dax >= day) continue;

            clipyou = 0;
            if ((wal->nextsector < 0) || (wal->cstat&dawalclipmask)) clipyou = 1;
            else if (editstatus == 0)
            {
                if (rintersect(*x,*y,0,gx,gy,0,x1,y1,x2,y2,&dax,&day,&daz) == 0)
                    dax = *x, day = *y;
                daz = getflorzofslope((short)dasect,dax,day);
                daz2 = getflorzofslope(wal->nextsector,dax,day);

                sec2 = &sector[wal->nextsector];
                if (daz2 < daz-(1<<8))
                    if ((sec2->floorstat&1) == 0)
                        if ((*z) >= daz2-(flordist-1)) clipyou = 1;
                if (clipyou == 0)
                {
                    daz = getceilzofslope((short)dasect,dax,day);
                    daz2 = getceilzofslope(wal->nextsector,dax,day);
                    if (daz2 > daz+(1<<8))
                        if ((sec2->ceilingstat&1) == 0)
                            if ((*z) <= daz2+(ceildist-1)) clipyou = 1;
                }
            }

            if (clipyou)
            {
                /* Add 2 boxes at endpoints */
                bsz = walldist;
                if (gx < 0) bsz = -bsz;
                addclipline(x1-bsz,y1-bsz,x1-bsz,y1+bsz,(short)j+32768);
                addclipline(x2-bsz,y2-bsz,x2-bsz,y2+bsz,(short)j+32768);
                bsz = walldist;
                if (gy < 0) bsz = -bsz;
                addclipline(x1+bsz,y1-bsz,x1-bsz,y1-bsz,(short)j+32768);
                addclipline(x2+bsz,y2-bsz,x2-bsz,y2-bsz,(short)j+32768);

                dax = walldist;
                if (dy > 0) dax = -dax;
                day = walldist;
                if (dx < 0) day = -day;
                addclipline(x1+dax,y1+day,x2+dax,y2+day,(short)j+32768);
            }
            else
            {
                for(i=clipsectnum-1; i>=0; i--)
                    if (wal->nextsector == clipsectorlist[i]) break;
                if (i < 0) clipsectorlist[clipsectnum++] = wal->nextsector;
            }
        }

        for(j=headspritesect[dasect]; j>=0; j=nextspritesect[j])
        {
            spr = &sprite[j];
            cstat = spr->cstat;
            if ((cstat&dasprclipmask) == 0) continue;
            x1 = spr->x;
            y1 = spr->y;
            switch(cstat&48)
            {
            case 0:
                if ((x1 >= xmin) && (x1 <= xmax) && (y1 >= ymin) && (y1 <= ymax))
                {
                    k = ((tiles[spr->picnum].dim.height*spr->yrepeat)<<2);
                    if (cstat&128) daz = spr->z+(k>>1);
                    else daz = spr->z;
                    
                    if (tiles[spr->picnum].animFlags&0x00ff0000) 
                        daz -= ((int32_t)((int8_t )((tiles[spr->picnum].animFlags>>16)&255))*spr->yrepeat<<2);
                    
                    if (((*z) < daz+ceildist) && ((*z) > daz-k-flordist)){
                        bsz = (spr->clipdist<<2)+walldist;
                        if (gx < 0) bsz = -bsz;
                        addclipline(x1-bsz,y1-bsz,x1-bsz,y1+bsz,(short)j+49152);
                        bsz = (spr->clipdist<<2)+walldist;
                        if (gy < 0) bsz = -bsz;
                        addclipline(x1+bsz,y1-bsz,x1-bsz,y1-bsz,(short)j+49152);
                    }
                }
                break;
            case 16:
                k = ((tiles[spr->picnum].dim.height*spr->yrepeat)<<2);
                    
                if (cstat&128) 
                    daz = spr->z+(k>>1);
                else 
                    daz = spr->z;
                    
                if (tiles[spr->picnum].animFlags&0x00ff0000) 
                    daz -= ((int32_t)((int8_t  )((tiles[spr->picnum].animFlags>>16)&255))*spr->yrepeat<<2);
                daz2 = daz-k;
                daz += ceildist;
                daz2 -= flordist;
                if (((*z) < daz) && ((*z) > daz2))
                {
                    /*
                     * These lines get the 2 points of the rotated sprite
                     * Given: (x1, y1) starts out as the center point
                     */
                    tilenum = spr->picnum;
                    xoff = (int32_t)((int8_t  )((tiles[tilenum].animFlags>>8)&255))+((int32_t)spr->xoffset);
                    if ((cstat&4) > 0) xoff = -xoff;
                    k = spr->ang;
                    l = spr->xrepeat;
                    dax = sintable[k&2047]*l;
                    day = sintable[(k+1536)&2047]*l;
                    l = tiles[tilenum].dim.width;
                    k = (l>>1)+xoff;
                    x1 -= mulscale16(dax,k);
                    x2 = x1+mulscale16(dax,l);
                    y1 -= mulscale16(day,k);
                    y2 = y1+mulscale16(day,l);
                    if (clipinsideboxline(cx,cy,x1,y1,x2,y2,rad) != 0)
                    {
                        dax = mulscale14(sintable[(spr->ang+256+512)&2047],walldist);
                        day = mulscale14(sintable[(spr->ang+256)&2047],walldist);

                        if ((x1-(*x))*(y2-(*y)) >= (x2-(*x))*(y1-(*y)))   /* Front */
                        {
                            addclipline(x1+dax,y1+day,x2+day,y2-dax,(short)j+49152);
                        }
                        else
                        {
                            if ((cstat&64) != 0) continue;
                            addclipline(x2-dax,y2-day,x1-day,y1+dax,(short)j+49152);
                        }

                        /* Side blocker */
                        if ((x2-x1)*((*x)-x1) + (y2-y1)*((*y)-y1) < 0)
                        {
                            addclipline(x1-day,y1+dax,x1+dax,y1+day,(short)j+49152);
                        }
                        else if ((x1-x2)*((*x)-x2) + (y1-y2)*((*y)-y2) < 0)
                        {
                            addclipline(x2+day,y2-dax,x2-dax,y2-day,(short)j+49152);
                        }
                    }
                }
                break;
            case 32:
                daz = spr->z+ceildist;
                daz2 = spr->z-flordist;
                if (((*z) < daz) && ((*z) > daz2))
                {
                    if ((cstat&64) != 0)
                        if (((*z) > spr->z) == ((cstat&8)==0)) continue;

                    tilenum = spr->picnum;
                    xoff = (int32_t)((int8_t  )((tiles[tilenum].animFlags>>8)&255))+((int32_t)spr->xoffset);
                    yoff = (int32_t)((int8_t  )((tiles[tilenum].animFlags>>16)&255))+((int32_t)spr->yoffset);
                    if ((cstat&4) > 0) xoff = -xoff;
                    if ((cstat&8) > 0) yoff = -yoff;

                    k = spr->ang;
                    cosang = sintable[(k+512)&2047];
                    sinang = sintable[k];
                    xspan = tiles[tilenum].dim.width;
                    xrepeat = spr->xrepeat;
                    yspan = tiles[tilenum].dim.height;
                    yrepeat = spr->yrepeat;

                    dax = ((xspan>>1)+xoff)*xrepeat;
                    day = ((yspan>>1)+yoff)*yrepeat;
                    rxi[0] = x1 + dmulscale16(sinang,dax,cosang,day);
                    ryi[0] = y1 + dmulscale16(sinang,day,-cosang,dax);
                    l = xspan*xrepeat;
                    rxi[1] = rxi[0] - mulscale16(sinang,l);
                    ryi[1] = ryi[0] + mulscale16(cosang,l);
                    l = yspan*yrepeat;
                    k = -mulscale16(cosang,l);
                    rxi[2] = rxi[1]+k;
                    rxi[3] = rxi[0]+k;
                    k = -mulscale16(sinang,l);
                    ryi[2] = ryi[1]+k;
                    ryi[3] = ryi[0]+k;

                    dax = mulscale14(sintable[(spr->ang-256+512)&2047],walldist);
                    day = mulscale14(sintable[(spr->ang-256)&2047],walldist);

                    if ((rxi[0]-(*x))*(ryi[1]-(*y)) < (rxi[1]-(*x))*(ryi[0]-(*y)))
                    {
                        if (clipinsideboxline(cx,cy,rxi[1],ryi[1],rxi[0],ryi[0],rad) != 0)
                            addclipline(rxi[1]-day,ryi[1]+dax,rxi[0]+dax,ryi[0]+day,(short)j+49152);
                    }
                    else if ((rxi[2]-(*x))*(ryi[3]-(*y)) < (rxi[3]-(*x))*(ryi[2]-(*y)))
                    {
                        if (clipinsideboxline(cx,cy,rxi[3],ryi[3],rxi[2],ryi[2],rad) != 0)
                            addclipline(rxi[3]+day,ryi[3]-dax,rxi[2]-dax,ryi[2]-day,(short)j+49152);
                    }

                    if ((rxi[1]-(*x))*(ryi[2]-(*y)) < (rxi[2]-(*x))*(ryi[1]-(*y)))
                    {
                        if (clipinsideboxline(cx,cy,rxi[2],ryi[2],rxi[1],ryi[1],rad) != 0)
                            addclipline(rxi[2]-dax,ryi[2]-day,rxi[1]-day,ryi[1]+dax,(short)j+49152);
                    }
                    else if ((rxi[3]-(*x))*(ryi[0]-(*y)) < (rxi[0]-(*x))*(ryi[3]-(*y)))
                    {
                        if (clipinsideboxline(cx,cy,rxi[0],ryi[0],rxi[3],ryi[3],rad) != 0)
                            addclipline(rxi[0]+dax,ryi[0]+day,rxi[3]+day,ryi[3]-dax,(short)j+49152);
                    }
                }
                break;
            }
        }
    } while (clipsectcnt < clipsectnum);


    hitwall = 0;
    cnt = clipmoveboxtracenum;
    do
    {
        intx = goalx;
        inty = goaly;
        if ((hitwall = raytrace(*x, *y, &intx, &inty)) >= 0)
        {
            lx = clipit[hitwall].x2-clipit[hitwall].x1;
            ly = clipit[hitwall].y2-clipit[hitwall].y1;
            templong2 = lx*lx + ly*ly;
            if (templong2 > 0)
            {
                templong1 = (goalx-intx)*lx + (goaly-inty)*ly;

                if ((klabs(templong1)>>11) < templong2)
                    i = divscale20(templong1,templong2);
                else
                    i = 0;
                goalx = mulscale20(lx,i)+intx;
                goaly = mulscale20(ly,i)+inty;
            }

            templong1 = dmulscale6(lx,oxvect,ly,oyvect);
            for(i=cnt+1; i<=clipmoveboxtracenum; i++)
            {
                j = hitwalls[i];
                templong2 = dmulscale6(clipit[j].x2-clipit[j].x1,oxvect,clipit[j].y2-clipit[j].y1,oyvect);
                if ((templong1^templong2) < 0)
                {
                    updatesector(*x,*y,sectnum);
                    return(retval);
                }
            }

            keepaway(&goalx, &goaly, hitwall);
            xvect = ((goalx-intx)<<14);
            yvect = ((goaly-inty)<<14);

            if (cnt == clipmoveboxtracenum) retval = clipobjectval[hitwall];
            hitwalls[cnt] = hitwall;
        }
        cnt--;

        *x = intx;
        *y = inty;
    } while (((xvect|yvect) != 0) && (hitwall >= 0) && (cnt > 0));

    for(j=0; j<clipsectnum; j++)
        if (inside(*x,*y,clipsectorlist[j]) == 1)
        {
            *sectnum = clipsectorlist[j];
            return(retval);
        }

    *sectnum = -1;
    templong1 = 0x7fffffff;
    for(j=numsectors-1; j>=0; j--)
        if (inside(*x,*y,j) == 1)
        {
            if (sector[j].ceilingstat&2)
                templong2 = (getceilzofslope((short)j,*x,*y)-(*z));
            else
                templong2 = (sector[j].ceilingz-(*z));

            if (templong2 > 0)
            {
                if (templong2 < templong1)
                {
                    *sectnum = j;
                    templong1 = templong2;
                }
            }
            else
            {
                if (sector[j].floorstat&2)
                    templong2 = ((*z)-getflorzofslope((short)j,*x,*y));
                else
                    templong2 = ((*z)-sector[j].floorz);

                if (templong2 <= 0)
                {
                    *sectnum = j;
                    return(retval);
                }
                if (templong2 < templong1)
                {
                    *sectnum = j;
                    templong1 = templong2;
                }
            }
        }

    return(retval);
}


int pushmove(int32_t *x, int32_t *y, int32_t *z, short *sectnum,
             int32_t walldist, int32_t ceildist, int32_t flordist,
             uint32_t  cliptype)
{
    sectortype *sec, *sec2;
    walltype *wal;
    int32_t i, j, k, t, dx, dy, dax, day, daz, daz2, bad, dir;
//    int32_t dasprclipmask;
    int32_t dawalclipmask;
    short startwall, endwall, clipsectcnt;
    uint8_t  bad2;

    if ((*sectnum) < 0) return(-1);

    dawalclipmask = (cliptype&65535);
//    dasprclipmask = (cliptype>>16);

    k = 32;
    dir = 1;
    do
    {
        bad = 0;

        clipsectorlist[0] = *sectnum;
        clipsectcnt = 0;
        clipsectnum = 1;
        do
        {
            sec = &sector[clipsectorlist[clipsectcnt]];
            if (dir > 0)
                startwall = sec->wallptr, endwall = startwall + sec->wallnum;
            else
                endwall = sec->wallptr, startwall = endwall + sec->wallnum;

            for(i=startwall,wal=&wall[startwall]; i!=endwall; i+=dir,wal+=dir)
                if (clipinsidebox(*x,*y,i,walldist-4) == 1)
                {
                    j = 0;
                    if (wal->nextsector < 0) j = 1;
                    if (wal->cstat&dawalclipmask) j = 1;
                    if (j == 0)
                    {
                        sec2 = &sector[wal->nextsector];


                        /* Find closest point on wall (dax, day) to (*x, *y) */
                        dax = wall[wal->point2].x-wal->x;
                        day = wall[wal->point2].y-wal->y;
                        daz = dax*((*x)-wal->x) + day*((*y)-wal->y);
                        if (daz <= 0)
                            t = 0;
                        else
                        {
                            daz2 = dax*dax+day*day;
                            if (daz >= daz2) t = (1<<30);
                            else t = divscale30(daz,daz2);
                        }
                        dax = wal->x + mulscale30(dax,t);
                        day = wal->y + mulscale30(day,t);


                        daz = getflorzofslope(clipsectorlist[clipsectcnt],dax,day);
                        daz2 = getflorzofslope(wal->nextsector,dax,day);
                        if ((daz2 < daz-(1<<8)) && ((sec2->floorstat&1) == 0))
                            if (*z >= daz2-(flordist-1)) j = 1;

                        daz = getceilzofslope(clipsectorlist[clipsectcnt],dax,day);
                        daz2 = getceilzofslope(wal->nextsector,dax,day);
                        if ((daz2 > daz+(1<<8)) && ((sec2->ceilingstat&1) == 0))
                            if (*z <= daz2+(ceildist-1)) j = 1;
                    }
                    if (j != 0)
                    {
                        j = getangle(wall[wal->point2].x-wal->x,wall[wal->point2].y-wal->y);
                        dx = (sintable[(j+1024)&2047]>>11);
                        dy = (sintable[(j+512)&2047]>>11);
                        bad2 = 16;
                        do
                        {
                            *x = (*x) + dx;
                            *y = (*y) + dy;
                            bad2--;
                            if (bad2 == 0) break;
                        } while (clipinsidebox(*x,*y,i,walldist-4) != 0);
                        bad = -1;
                        k--;
                        if (k <= 0) return(bad);
                        updatesector(*x,*y,sectnum);
                    }
                    else
                    {
                        for(j=clipsectnum-1; j>=0; j--)
                            if (wal->nextsector == clipsectorlist[j]) break;
                        if (j < 0) clipsectorlist[clipsectnum++] = wal->nextsector;
                    }
                }

            clipsectcnt++;
        } while (clipsectcnt < clipsectnum);
        dir = -dir;
    } while (bad != 0);

    return(bad);
}

/*
 FCS:  x and y are the new position of the entity that has just moved:
 lastKnownSector is an hint (the last known sectorID of the entity).

 Thanks to the "hint", the algorithm check:
 1. Is (x,y) inside sectors[sectnum].
 2. Flood in sectnum portal and check again if (x,y) is inside.
 3. Do a linear search on sectors[sectnum] from 0 to numSectors.

 Note: Inside uses cross_product and return as soon as the point switch
 from one side to the other.
 */
void updatesector(int32_t x, int32_t y, short *lastKnownSector)
{
    walltype *wal;
    int32_t i, j;

    //First check the last sector where (old_x,old_y) was before being updated to (x,y)
    if (inside(x,y,*lastKnownSector) == 1)
    {
        //We found it and (x,y) is still in the same sector: nothing to update !
        return;
    }

    // Seems (x,y) moved into an other sector....hopefully one connected via a portal. Let's flood in each portal.
    if ((*lastKnownSector >= 0) && (*lastKnownSector < numsectors))
    {
        wal = &wall[sector[*lastKnownSector].wallptr];
        j = sector[*lastKnownSector].wallnum;
        do
        {
            i = wal->nextsector;
            if (i >= 0)
                if (inside(x,y,(short)i) == 1)
                {
                    *lastKnownSector = i;
                    return;
                }
            wal++;
            j--;
        } while (j != 0);
    }

    //Damn that is a BIG move, still cannot find which sector (x,y) belongs to. Let's search via linear search.
    for(i=numsectors-1; i>=0; i--)
    {
        if (inside(x,y,(short)i) == 1)
        {
            *lastKnownSector = i;
            return;
        }
    }
    // (x,y) is contained in NO sector. (x,y) is likely out of the map.
    *lastKnownSector = -1;
}


void rotatepoint(int32_t xpivot, int32_t ypivot, int32_t x, int32_t y, short daang, int32_t *x2, int32_t *y2)
{
    int32_t dacos, dasin;

    dacos = sintable[(daang+2560)&2047];
    dasin = sintable[(daang+2048)&2047];
    x -= xpivot;
    y -= ypivot;
    *x2 = dmulscale14(x,dacos,-y,dasin) + xpivot;
    *y2 = dmulscale14(y,dacos,x,dasin) + ypivot;
}


int initmouse(void)
{
    return(moustat = setupmouse());
}


void getmousevalues(short *mousx, short *mousy, short *bstatus)
{
    if (moustat == 0) {
        *mousx = 0;
        *mousy = 0;
        *bstatus = 0;
        return;
    }
    readmousexy(mousx,mousy);
    readmousebstatus(bstatus);
}

void draw2dgrid(int32_t posxe, int32_t posye, short ange, int32_t zoome, short gride)
{
    int32_t i, xp1, yp1, xp2=0, yp2, tempy; // tempint;
    uint8_t  mask;

    if (gride > 0)
    {
        yp1 = 200-mulscale14(posye+131072,zoome);
        if (yp1 < 0) yp1 = 0;
        yp2 = 200-mulscale14(posye-131072,zoome);
        if (yp2 >= ydim16) yp2 = ydim16-1;

        if ((yp1 < ydim16) && (yp2 >= 0) && (yp2 >= yp1))
        {
            setcolor16(8);

//            tempint = ((yp1*640+pageoffset)>>3)+(int32_t)_getVideoBase();
            tempy = yp2-yp1+1;
            mask = 0;
            xp1 = 320-mulscale14(posxe+131072,zoome);

            for(i=-131072; i<=131072; i+=(2048>>gride))
            {
                xp2 = xp1;
                xp1 = 320-mulscale14(posxe-i,zoome);

                if (xp1 >= 640) break;
                if (xp1 >= 0)
                {


                    drawline16(xp1, 0, xp1, tempy, 8);
                }
            }
            if ((i >= 131072) && (xp1 < 640))
                xp2 = xp1;
            if ((mask != 0) && ((xp2>>3) >= 0) && ((xp2>>3) < 80))
            {
                /* !!! Does this code ever get hit? Do something with this! */
                fprintf (stderr, "STUB: %s:%d\n",__FILE__,__LINE__);
            }
        }

        xp1 = mulscale14(posxe+131072,zoome);
        xp2 = mulscale14(posxe-131072,zoome);
        tempy = 0x80000000;
        for(i=-131072; i<=131072; i+=(2048>>gride))
        {
            yp1 = (((posye-i)*zoome)>>14);
            if (yp1 != tempy)
            {
                if ((yp1 > 200-ydim16) && (yp1 <= 200))
                {
                    drawline16(320-xp1,200-yp1,320-xp2,200-yp1,8);
                    tempy = yp1;
                }
            }
        }
    }
}

void draw2dscreen(int32_t posxe, int32_t posye, short ange, int32_t zoome, short gride)
{
    walltype *wal;
    int32_t i, j, xp1, yp1, xp2, yp2, tempint;
    uint8_t  col;

    if (qsetmode == 200) return;

    if (editstatus == 0)
    {
        faketimerhandler();
        clear2dscreen();

        faketimerhandler();
        draw2dgrid(posxe,posye,ange,zoome,gride);
    }

    faketimerhandler();
    for(i=numwalls-1,wal=&wall[i]; i>=0; i--,wal--)
    {
        if (editstatus == 0)
        {
            if ((show2dwall[i>>3]&pow2char[i&7]) == 0) continue;
            j = wal->nextwall;
            if ((j >= 0) && (i > j))
                if ((show2dwall[j>>3]&pow2char[j&7]) > 0) continue;
        }
        else
        {
            j = wal->nextwall;
            if ((j >= 0) && (i > j)) continue;
        }

        if (j < 0)
        {
            col = 7;
            if (i == linehighlight) col += ((numframes&2)<<2);
        }
        else
        {
            col = 4;
            if ((wal->cstat&1) != 0) col = 5;
            if ((i == linehighlight) || ((linehighlight >= 0) && (i == wall[linehighlight].nextwall)))
                col += ((numframes&2)<<2);
        }

        xp1 = mulscale14(wal->x-posxe,zoome);
        yp1 = mulscale14(wal->y-posye,zoome);
        xp2 = mulscale14(wall[wal->point2].x-posxe,zoome);
        yp2 = mulscale14(wall[wal->point2].y-posye,zoome);

        if ((wal->cstat&64) > 0)
        {
            if (klabs(xp2-xp1) >= klabs(yp2-yp1))
            {
                drawline16(320+xp1,200+yp1+1,320+xp2,200+yp2+1,col);
                drawline16(320+xp1,200+yp1-1,320+xp2,200+yp2-1,col);
            }
            else
            {
                drawline16(320+xp1+1,200+yp1,320+xp2+1,200+yp2,col);
                drawline16(320+xp1-1,200+yp1,320+xp2-1,200+yp2,col);
            }
            col += 8;
        }
        drawline16(320+xp1,200+yp1,320+xp2,200+yp2,col);

        if ((zoome >= 256) && (editstatus == 1))
            if (((320+xp1) >= 2) && ((320+xp1) <= 637))
                if (((200+yp1) >= 2) && ((200+yp1) <= ydim16-3))
                {
                    col = 2;
                    if (i == pointhighlight) col += ((numframes&2)<<2);
                    else if ((highlightcnt > 0) && (editstatus == 1))
                    {
                        if (show2dwall[i>>3]&pow2char[i&7])
                            col += ((numframes&2)<<2);
                    }


                    tempint = (mul5(200+yp1)<<7)+(320+xp1);

                    setcolor16(col);

                    drawpixel16(tempint-2-1280);
                    drawpixel16(tempint-1-1280);
                    drawpixel16(tempint+0-1280);
                    drawpixel16(tempint+1-1280);
                    drawpixel16(tempint+2-1280);

                    drawpixel16(tempint-2+1280);
                    drawpixel16(tempint-1+1280);
                    drawpixel16(tempint+0+1280);
                    drawpixel16(tempint+1+1280);
                    drawpixel16(tempint+2+1280);

                    drawpixel16(tempint-2-640);
                    drawpixel16(tempint-2+0);
                    drawpixel16(tempint-2+640);

                    drawpixel16(tempint+2-640);
                    drawpixel16(tempint+2+0);
                    drawpixel16(tempint+2+640);
                }
    }
    faketimerhandler();

    if ((zoome >= 256) || (editstatus == 0))
        for(i=0; i<numsectors; i++)
            for(j=headspritesect[i]; j>=0; j=nextspritesect[j])
                if ((editstatus == 1) || (show2dsprite[j>>3]&pow2char[j&7]))
                {
                    col = 3;
                    if ((sprite[j].cstat&1) > 0) col = 5;
                    if (editstatus == 1)
                    {
                        if (j+16384 == pointhighlight)
                            col += ((numframes&2)<<2);
                        else if ((highlightcnt > 0) && (editstatus == 1))
                        {
                            if (show2dsprite[j>>3]&pow2char[j&7])
                                col += ((numframes&2)<<2);
                        }
                    }

                    xp1 = mulscale14(sprite[j].x-posxe,zoome);
                    yp1 = mulscale14(sprite[j].y-posye,zoome);
                    if (((320+xp1) >= 2) && ((320+xp1) <= 637))
                        if (((200+yp1) >= 2) && ((200+yp1) <= ydim16-3))
                        {

                            tempint = (mul5(200+yp1)<<7)+(320+xp1);


                            setcolor16(col);
                            drawpixel16(tempint-1-1280);
                            drawpixel16(tempint+0-1280);
                            drawpixel16(tempint+1-1280);

                            drawpixel16(tempint-1+1280);
                            drawpixel16(tempint+0+1280);
                            drawpixel16(tempint+1+1280);

                            drawpixel16(tempint-2-640);
                            drawpixel16(tempint-2+0);
                            drawpixel16(tempint-2+640);

                            drawpixel16(tempint+2-640);
                            drawpixel16(tempint+2+0);
                            drawpixel16(tempint+2+640);

                            drawpixel16(tempint+1+640);
                            drawpixel16(tempint-1+640);
                            drawpixel16(tempint+1-640);
                            drawpixel16(tempint-1-640);

                            xp2 = mulscale11(sintable[(sprite[j].ang+2560)&2047],zoome) / 768;
                            yp2 = mulscale11(sintable[(sprite[j].ang+2048)&2047],zoome) / 768;

                            if ((sprite[j].cstat&256) > 0)
                            {
                                if (((sprite[j].ang+256)&512) == 0)
                                {
                                    drawline16(320+xp1,200+yp1-1,320+xp1+xp2,200+yp1+yp2-1,col);
                                    drawline16(320+xp1,200+yp1+1,320+xp1+xp2,200+yp1+yp2+1,col);
                                }
                                else
                                {
                                    drawline16(320+xp1-1,200+yp1,320+xp1+xp2-1,200+yp1+yp2,col);
                                    drawline16(320+xp1+1,200+yp1,320+xp1+xp2+1,200+yp1+yp2,col);
                                }
                                col += 8;
                            }
                            drawline16(320+xp1,200+yp1,320+xp1+xp2,200+yp1+yp2,col);
                        }
                }

    faketimerhandler();
    xp1 = mulscale11(sintable[(ange+2560)&2047],zoome) / 768; /* Draw white arrow */
    yp1 = mulscale11(sintable[(ange+2048)&2047],zoome) / 768;
    drawline16(320+xp1,200+yp1,320-xp1,200-yp1,15);
    drawline16(320+xp1,200+yp1,320+yp1,200-xp1,15);
    drawline16(320+xp1,200+yp1,320-yp1,200+xp1,15);
}


/*
 * This is ryan's change. SDL requires me to call SDL_UpdateRect() to force
 *  vid updates without a SDL_Flip() call, but there's no such thing in the
 *  DOS version of this program, so text won't show up sometimes without
 *  my update call in Linux.  However, to get a nice shadow effect on some
 *  text, Ken draws a string at an offset and darker, and then on top of it
 *  draws the actual string. Two SDL_UpdateRect() calls in over top of each
 *  other cause flicker, so I have this function here so the shadow can
 *  be drawn with _noupdate, and the actual string is draw with an update.
 */
void printext256(int32_t xpos, int32_t ypos, short col, short backcol, char*  name, uint8_t  fontsize)
{
    int32_t stx, i, x, y, charxsiz;
    uint8_t  *fontptr, *letptr, *ptr;

	

    stx = xpos;

    if (fontsize) {
        fontptr = smalltextfont;
        charxsiz = 4;
    }
    else {
        fontptr = textfont;
        charxsiz = 8;
    }

    //For each character in the string.
    for(i=0; name[i]; i++)
    {
        letptr = &fontptr[name[i]<<3];
        ptr = ylookup[ypos+7]+(stx-fontsize)+frameplace;
        for(y=7; y>=0; y--)
        {
            for(x=charxsiz-1; x>=0; x--)
            {
                if (letptr[y]&pow2char[7-fontsize-x])
                    ptr[x] = (uint8_t )col;
                else if (backcol >= 0)
                    ptr[x] = (uint8_t )backcol;
            }
            ptr -= ylookup[1];
        }
        stx += charxsiz;
    }
   
    _updateScreenRect(xpos, ypos, charxsiz * i, 8);
}

int krand()
{
    randomseed = (randomseed*27584621)+1;
    return(((uint32_t )randomseed)>>16);
}


void getzrange(int32_t x, int32_t y, int32_t z, short sectnum,
               int32_t *ceilz, int32_t *ceilhit, int32_t *florz, int32_t *florhit,
               int32_t walldist, uint32_t  cliptype)
{
    sectortype *sec;
    walltype *wal, *wal2;
    spritetype *spr;
    int32_t clipsectcnt, startwall, endwall, tilenum, xoff, yoff, dax, day;
    int32_t xmin, ymin, xmax, ymax, i, j, k, l, daz, daz2, dx, dy;
    int32_t x1, y1, x2, y2, x3, y3, x4, y4, ang, cosang, sinang;
    int32_t xspan, yspan, xrepeat, yrepeat, dasprclipmask, dawalclipmask;
    short cstat;
    uint8_t  clipyou;

    if (sectnum < 0)
    {
        *ceilz = 0x80000000;
        *ceilhit = -1;
        *florz = 0x7fffffff;
        *florhit = -1;
        return;
    }

    /* Extra walldist for sprites on sector lines */
    i = walldist+MAXCLIPDIST+1;
    xmin = x-i;
    ymin = y-i;
    xmax = x+i;
    ymax = y+i;

    getzsofslope(sectnum,x,y,ceilz,florz);
    *ceilhit = sectnum+16384;
    *florhit = sectnum+16384;

    dawalclipmask = (cliptype&65535);
    dasprclipmask = (cliptype>>16);

    clipsectorlist[0] = sectnum;
    clipsectcnt = 0;
    clipsectnum = 1;

    do  /* Collect sectors inside your square first */
    {
        sec = &sector[clipsectorlist[clipsectcnt]];
        startwall = sec->wallptr;
        endwall = startwall + sec->wallnum;
        for(j=startwall,wal=&wall[startwall]; j<endwall; j++,wal++)
        {
            k = wal->nextsector;
            if (k >= 0)
            {
                wal2 = &wall[wal->point2];
                x1 = wal->x;
                x2 = wal2->x;
                if ((x1 < xmin) && (x2 < xmin)) continue;
                if ((x1 > xmax) && (x2 > xmax)) continue;
                y1 = wal->y;
                y2 = wal2->y;
                if ((y1 < ymin) && (y2 < ymin)) continue;
                if ((y1 > ymax) && (y2 > ymax)) continue;

                dx = x2-x1;
                dy = y2-y1;
                if (dx*(y-y1) < (x-x1)*dy) continue; /* back */
                if (dx > 0) dax = dx*(ymin-y1);
                else dax = dx*(ymax-y1);
                if (dy > 0) day = dy*(xmax-x1);
                else day = dy*(xmin-x1);
                if (dax >= day) continue;

                if (wal->cstat&dawalclipmask) continue;
                sec = &sector[k];
                if (editstatus == 0)
                {
                    if (((sec->ceilingstat&1) == 0) && (z <= sec->ceilingz+(3<<8))) continue;
                    if (((sec->floorstat&1) == 0) && (z >= sec->floorz-(3<<8))) continue;
                }

                for(i=clipsectnum-1; i>=0; i--) if (clipsectorlist[i] == k) break;
                if (i < 0) clipsectorlist[clipsectnum++] = k;

                if ((x1 < xmin+MAXCLIPDIST) && (x2 < xmin+MAXCLIPDIST)) continue;
                if ((x1 > xmax-MAXCLIPDIST) && (x2 > xmax-MAXCLIPDIST)) continue;
                if ((y1 < ymin+MAXCLIPDIST) && (y2 < ymin+MAXCLIPDIST)) continue;
                if ((y1 > ymax-MAXCLIPDIST) && (y2 > ymax-MAXCLIPDIST)) continue;
                if (dx > 0) dax += dx*MAXCLIPDIST;
                else dax -= dx*MAXCLIPDIST;
                if (dy > 0) day -= dy*MAXCLIPDIST;
                else day += dy*MAXCLIPDIST;
                if (dax >= day) continue;

                /* It actually got here, through all the continue's! */
                getzsofslope((short)k,x,y,&daz,&daz2);
                if (daz > *ceilz) {
                    *ceilz = daz;
                    *ceilhit = k+16384;
                }
                if (daz2 < *florz) {
                    *florz = daz2;
                    *florhit = k+16384;
                }
            }
        }
        clipsectcnt++;
    } while (clipsectcnt < clipsectnum);

    for(i=0; i<clipsectnum; i++)
    {
        for(j=headspritesect[clipsectorlist[i]]; j>=0; j=nextspritesect[j])
        {
            spr = &sprite[j];
            cstat = spr->cstat;
            if (cstat&dasprclipmask)
            {
                x1 = spr->x;
                y1 = spr->y;

                clipyou = 0;
                switch(cstat&48)
                {
                case 0:
                    k = walldist+(spr->clipdist<<2)+1;
                    if ((klabs(x1-x) <= k) && (klabs(y1-y) <= k))
                    {
                        daz = spr->z;
                        k = ((tiles[spr->picnum].dim.height*spr->yrepeat)<<1);
                        if (cstat&128)
                            daz += k;
                        if (tiles[spr->picnum].animFlags&0x00ff0000) daz -= ((int32_t)((int8_t  )((tiles[spr->picnum].animFlags>>16)&255))*spr->yrepeat<<2);
                        daz2 = daz - (k<<1);
                        clipyou = 1;
                    }
                    break;
                case 16:
                    tilenum = spr->picnum;
                    xoff = (int32_t)((int8_t  )((tiles[tilenum].animFlags>>8)&255))+((int32_t)spr->xoffset);
                    if ((cstat&4) > 0) xoff = -xoff;
                    k = spr->ang;
                    l = spr->xrepeat;
                    dax = sintable[k&2047]*l;
                    day = sintable[(k+1536)&2047]*l;
                    l = tiles[tilenum].dim.width;
                    k = (l>>1)+xoff;
                    x1 -= mulscale16(dax,k);
                    x2 = x1+mulscale16(dax,l);
                    y1 -= mulscale16(day,k);
                    y2 = y1+mulscale16(day,l);
                    if (clipinsideboxline(x,y,x1,y1,x2,y2,walldist+1) != 0)
                    {
                        daz = spr->z;
                        k = ((tiles[spr->picnum].dim.height*spr->yrepeat)<<1);
                        if (cstat&128)
                            daz += k;
                        
                        if (tiles[spr->picnum].animFlags&0x00ff0000) 
                            daz -= ((int32_t)((int8_t  )((tiles[spr->picnum].animFlags>>16)&255))*spr->yrepeat<<2);
                        
                        daz2 = daz-(k<<1);
                        clipyou = 1;
                    }
                    break;
                case 32:
                    daz = spr->z;
                    daz2 = daz;

                    if ((cstat&64) != 0)
                        if ((z > daz) == ((cstat&8)==0)) continue;

                    tilenum = spr->picnum;
                    xoff = (int32_t)((int8_t  )((tiles[tilenum].animFlags>>8)&255))+((int32_t)spr->xoffset);
                    yoff = (int32_t)((int8_t  )((tiles[tilenum].animFlags>>16)&255))+((int32_t)spr->yoffset);
                    if ((cstat&4) > 0) xoff = -xoff;
                    if ((cstat&8) > 0) yoff = -yoff;

                    ang = spr->ang;
                    cosang = sintable[(ang+512)&2047];
                    sinang = sintable[ang];
                    xspan = tiles[tilenum].dim.width;
                    xrepeat = spr->xrepeat;
                    yspan = tiles[tilenum].dim.height;
                    yrepeat = spr->yrepeat;

                    dax = ((xspan>>1)+xoff)*xrepeat;
                    day = ((yspan>>1)+yoff)*yrepeat;
                    x1 += dmulscale16(sinang,dax,cosang,day)-x;
                    y1 += dmulscale16(sinang,day,-cosang,dax)-y;
                    l = xspan*xrepeat;
                    x2 = x1 - mulscale16(sinang,l);
                    y2 = y1 + mulscale16(cosang,l);
                    l = yspan*yrepeat;
                    k = -mulscale16(cosang,l);
                    x3 = x2+k;
                    x4 = x1+k;
                    k = -mulscale16(sinang,l);
                    y3 = y2+k;
                    y4 = y1+k;

                    dax = mulscale14(sintable[(spr->ang-256+512)&2047],walldist+4);
                    day = mulscale14(sintable[(spr->ang-256)&2047],walldist+4);
                    x1 += dax;
                    x2 -= day;
                    x3 -= dax;
                    x4 += day;
                    y1 += day;
                    y2 += dax;
                    y3 -= day;
                    y4 -= dax;

                    if ((y1^y2) < 0)
                    {
                        if ((x1^x2) < 0) clipyou ^= (x1*y2<x2*y1)^(y1<y2);
                        else if (x1 >= 0) clipyou ^= 1;
                    }
                    if ((y2^y3) < 0)
                    {
                        if ((x2^x3) < 0) clipyou ^= (x2*y3<x3*y2)^(y2<y3);
                        else if (x2 >= 0) clipyou ^= 1;
                    }
                    if ((y3^y4) < 0)
                    {
                        if ((x3^x4) < 0) clipyou ^= (x3*y4<x4*y3)^(y3<y4);
                        else if (x3 >= 0) clipyou ^= 1;
                    }
                    if ((y4^y1) < 0)
                    {
                        if ((x4^x1) < 0) clipyou ^= (x4*y1<x1*y4)^(y4<y1);
                        else if (x4 >= 0) clipyou ^= 1;
                    }
                    break;
                }

                if (clipyou != 0)
                {
                    if ((z > daz) && (daz > *ceilz)) {
                        *ceilz = daz;
                        *ceilhit = j+49152;
                    }
                    if ((z < daz2) && (daz2 < *florz)) {
                        *florz = daz2;
                        *florhit = j+49152;
                    }
                }
            }
        }
    }
}


void setview(int32_t x1, int32_t y1, int32_t x2, int32_t y2)
{
    int32_t i;

    windowx1 = x1;
    wx1 = (x1<<12);
    windowy1 = y1;
    wy1 = (y1<<12);
    windowx2 = x2;
    wx2 = ((x2+1)<<12);
    windowy2 = y2;
    wy2 = ((y2+1)<<12);

    xdimen = (x2-x1)+1;
    halfxdimen = (xdimen>>1);
    xdimenrecip = divscale32(1L,xdimen);
    ydimen = (y2-y1)+1;

    setaspect(65536L,(int32_t)divscale16(ydim*320L,xdim*200L));

    for(i=0; i<windowx1; i++) {
        startumost[i] = 1, startdmost[i] = 0;
    }
    for(i=windowx1; i<=windowx2; i++)
    {
        startumost[i] = windowy1, startdmost[i] = windowy2+1;
    }
    for(i=windowx2+1; i<xdim; i++) {
        startumost[i] = 1, startdmost[i] = 0;
    }

    viewoffset = windowy1*bytesperline + windowx1;

    if (stereomode)
    {
        ostereopixelwidth = stereopixelwidth;
        xdimen = (windowx2-windowx1+1)+(stereopixelwidth<<1);
        halfxdimen = (xdimen>>1);
        xdimenrecip = divscale32(1L,xdimen);
        setaspect((int32_t)divscale16(xdimen,windowx2-windowx1+1),yxaspect);
    }
}


void setaspect(int32_t daxrange, int32_t daaspect)
{
    viewingrange = daxrange;
    viewingrangerecip = divscale32(1L,daxrange);

    yxaspect = daaspect;
    xyaspect = divscale32(1,yxaspect);
    xdimenscale = scale(xdimen,yxaspect,320);
    xdimscale = scale(320,xyaspect,xdimen);
}


void flushperms(void)
{
    permhead = permtail = 0;
}

// Render a sprite on screen. This is used by the Engine but also the Game module
// when drawing the HUD or the Weapon held by the player !!!
void rotatesprite(int32_t sx, int32_t sy, int32_t z, short a, short picnum,
                  int8_t dashade, uint8_t  dapalnum, uint8_t  dastat,
                  int32_t cx1, int32_t cy1, int32_t cx2, int32_t cy2)
{
    int32_t i;
    permfifotype *per, *per2;

    //If 2D target coordinate do not make sense (left > right)..
    if ((cx1 > cx2) || (cy1 > cy2))
        return;
    
    if (z <= 16)
        return;
    
    if (tiles[picnum].animFlags&192)
        picnum += animateoffs(picnum);
    
    //Does the tile has negative dimensions ?
    if ((tiles[picnum].dim.width <= 0) || (tiles[picnum].dim.height <= 0))
        return;

    if (((dastat&128) == 0) || (numpages < 2) || (beforedrawrooms != 0))
        dorotatesprite(sx,sy,z,a,picnum,dashade,dapalnum,dastat,cx1,cy1,cx2,cy2);

    if ((dastat&64) && (cx1 <= 0) && (cy1 <= 0) && (cx2 >= xdim-1) && (cy2 >= ydim-1) &&
            (sx == (160<<16)) && (sy == (100<<16)) && (z == 65536L) && (a == 0) && ((dastat&1) == 0))
        permhead = permtail = 0;

    if ((dastat&128) == 0) return;
    if (numpages >= 2)
    {
        per = &permfifo[permhead];
        per->sx = sx;
        per->sy = sy;
        per->z = z;
        per->a = a;
        per->picnum = picnum;
        per->dashade = dashade;
        per->dapalnum = dapalnum;
        per->dastat = dastat;
        per->pagesleft = numpages+((beforedrawrooms&1)<<7);
        per->cx1 = cx1;
        per->cy1 = cy1;
        per->cx2 = cx2;
        per->cy2 = cy2;

        /* Would be better to optimize out true bounding boxes */
        if (dastat&64)  /* If non-masking write, checking for overlapping cases */
        {
            for(i=permtail; i!=permhead; i=((i+1)&(MAXPERMS-1)))
            {
                per2 = &permfifo[i];
                if ((per2->pagesleft&127) == 0) continue;
                if (per2->sx != per->sx) continue;
                if (per2->sy != per->sy) continue;
                if (per2->z != per->z) continue;
                if (per2->a != per->a) continue;
                if (tiles[per2->picnum].dim.width > tiles[per->picnum].dim.width)
                    continue;
                
                if (tiles[per2->picnum].dim.height > tiles[per->picnum].dim.height)
                    continue;
                if (per2->cx1 < per->cx1) continue;
                if (per2->cy1 < per->cy1) continue;
                if (per2->cx2 > per->cx2) continue;
                if (per2->cy2 > per->cy2) continue;
                per2->pagesleft = 0;
            }
            if ((per->z == 65536) && (per->a == 0))
                for(i=permtail; i!=permhead; i=((i+1)&(MAXPERMS-1)))
                {
                    per2 = &permfifo[i];
                    if ((per2->pagesleft&127) == 0) continue;
                    if (per2->z != 65536) continue;
                    if (per2->a != 0) continue;
                    if (per2->cx1 < per->cx1) continue;
                    if (per2->cy1 < per->cy1) continue;
                    if (per2->cx2 > per->cx2) continue;
                    if (per2->cy2 > per->cy2) continue;
                    if ((per2->sx>>16) < (per->sx>>16)) continue;
                    if ((per2->sy>>16) < (per->sy>>16)) continue;
                    if ((per2->sx>>16)+tiles[per2->picnum].dim.width > (per->sx>>16)+tiles[per->picnum].dim.width)
                        continue;
                    if ((per2->sy>>16)+tiles[per2->picnum].dim.height > (per->sy>>16)+tiles[per->picnum].dim.height)
                        continue;
                    per2->pagesleft = 0;
                }
        }

        permhead = ((permhead+1)&(MAXPERMS-1));
    }
}


static int getclosestcol(int32_t r, int32_t g, int32_t b)
{
    int32_t i, j, k, dist, mindist, retcol;
    uint8_t  *pal1;

    j = (r>>3)*FASTPALGRIDSIZ*FASTPALGRIDSIZ+(g>>3)*FASTPALGRIDSIZ+(b>>3)+FASTPALGRIDSIZ*FASTPALGRIDSIZ+FASTPALGRIDSIZ+1;
    mindist = min(rdist[coldist[r&7]+64+8],gdist[coldist[g&7]+64+8]);
    mindist = min(mindist,bdist[coldist[b&7]+64+8]);
    mindist++;

    r = 64-r;
    g = 64-g;
    b = 64-b;

    retcol = -1;
    for(k=26; k>=0; k--)
    {
        i = colscan[k]+j;
        if ((colhere[i>>3]&pow2char[i&7]) == 0) continue;
        i = colhead[i];
        do
        {
            pal1 = (uint8_t  *)&palette[i*3];
            dist = gdist[pal1[1]+g];
            if (dist < mindist)
            {
                dist += rdist[pal1[0]+r];
                if (dist < mindist)
                {
                    dist += bdist[pal1[2]+b];
                    if (dist < mindist) {
                        mindist = dist;
                        retcol = i;
                    }
                }
            }
            i = colnext[i];
        } while (i >= 0);
    }
    if (retcol >= 0) return(retcol);

    mindist = 0x7fffffff;
    pal1 = (uint8_t  *)&palette[768-3];
    for(i=255; i>=0; i--,pal1-=3)
    {
        dist = gdist[pal1[1]+g];
        if (dist >= mindist) continue;
        dist += rdist[pal1[0]+r];
        if (dist >= mindist) continue;
        dist += bdist[pal1[2]+b];
        if (dist >= mindist) continue;
        mindist = dist;
        retcol = i;
    }
    return(retcol);
}


void makepalookup(int32_t palnum, uint8_t  *remapbuf, int8_t r,
                  int8_t g, int8_t b, uint8_t  dastat)
{
    int32_t i, j, palscale;
    uint8_t  *ptr, *ptr2;

    if (paletteloaded == 0)
        return;

    if (palookup[palnum] == NULL)
    {
        /* Allocate palookup buffer */
        if ((palookup[palnum] = (uint8_t  *)malloc(numpalookups<<8)) == NULL)
            allocache((int32_t *)&palookup[palnum],numpalookups<<8,&permanentlock);
    }

    if (dastat == 0) return;
    if ((r|g|b|63) != 63) return;

    if ((r|g|b) == 0)
    {
        for(i=0; i<256; i++)
        {
            ptr = palookup[0] + remapbuf[i];
            ptr2 = palookup[palnum] + i;
            for(j=0; j<numpalookups; j++)
            {
                *ptr2 = *ptr;
                ptr += 256;
                ptr2 += 256;
            }
        }
    }
    else
    {
        ptr2 = palookup[palnum];
        for(i=0; i<numpalookups; i++)
        {
            palscale = divscale16(i,numpalookups);
            for(j=0; j<256; j++)
            {
                ptr = (uint8_t  *)&palette[remapbuf[j]*3];
                *ptr2++ = getclosestcol((int32_t)ptr[0]+mulscale16(r-ptr[0],palscale),
                                        (int32_t)ptr[1]+mulscale16(g-ptr[1],palscale),
                                        (int32_t)ptr[2]+mulscale16(b-ptr[2],palscale));
            }
        }
    }
}


void setbrightness(uint8_t  dabrightness, uint8_t  *dapal)
{
    int32_t i, k;
    uint8_t newPalette[256*4];
    
    //Clamp bightness to [0-15]
    curbrightness = min(max(dabrightness,0),15);

    k = 0;
   
    for(i=0; i<256; i++){
        newPalette[k++] = britable[curbrightness][dapal[i*3+2]];
        newPalette[k++] = britable[curbrightness][dapal[i*3+1]];
        newPalette[k++] = britable[curbrightness][dapal[i*3+0]];
        newPalette[k++] = 0;
    }
    
    VBE_setPalette(newPalette);
}

//This is only used by drawmapview.
static void fillpolygon(int32_t npoints)
{
    int32_t z, zz, x1, y1, x2, y2, miny, maxy, y, xinc, cnt;
    int32_t ox, oy, bx, by, day1, day2;
    uint8_t *p;
    short *ptr, *ptr2;

    miny = 0x7fffffff;
    maxy = 0x80000000;
    for(z=npoints-1; z>=0; z--)
    {
        y = pvWalls[z].cameraSpaceCoo[0][VEC_Y];
        miny = min(miny,y);
        maxy = max(maxy,y);
    }
    miny = (miny>>12);
    maxy = (maxy>>12);
    if (miny < 0) miny = 0;
    if (maxy >= ydim) maxy = ydim-1;
    ptr = smost;    /* They're pointers! - watch how you optimize this thing */
    for(y=miny; y<=maxy; y++)
    {
        dotp1[y] = ptr;
        dotp2[y] = ptr+(MAXNODESPERLINE>>1);
        ptr += MAXNODESPERLINE;
    }

    for(z=npoints-1; z>=0; z--)
    {
        zz = pvWalls[z].screenSpaceCoo[0][VEC_COL];
        y1 = pvWalls[z] .cameraSpaceCoo[0][VEC_Y];
        day1 = (y1>>12);
        y2 = pvWalls[zz].cameraSpaceCoo[0][VEC_Y];
        day2 = (y2>>12);
        if (day1 != day2)
        {
            x1 = pvWalls[z ].cameraSpaceCoo[0][VEC_X];
            x2 = pvWalls[zz].cameraSpaceCoo[0][VEC_X];
            xinc = divscale12(x2-x1,y2-y1);
            if (day2 > day1)
            {
                x1 += mulscale12((day1<<12)+4095-y1,xinc);
                for(y=day1; y<day2; y++) {
                    *dotp2[y]++ = (x1>>12);
                    x1 += xinc;
                }
            }
            else
            {
                x2 += mulscale12((day2<<12)+4095-y2,xinc);
                for(y=day2; y<day1; y++) {
                    *dotp1[y]++ = (x2>>12);
                    x2 += xinc;
                }
            }
        }
    }

    globalx1 = mulscale16(globalx1,xyaspect);
    globaly2 = mulscale16(globaly2,xyaspect);

    oy = miny+1-(ydim>>1);
    globalposx += oy*globalx1;
    globalposy += oy*globaly2;

    

    ptr = smost;
    for(y=miny; y<=maxy; y++)
    {
        cnt = dotp1[y]-ptr;
        ptr2 = ptr+(MAXNODESPERLINE>>1);
        for(z=cnt-1; z>=0; z--)
        {
            day1 = 0;
            day2 = 0;
            for(zz=z; zz>0; zz--)
            {
                if (ptr[zz] < ptr[day1]) day1 = zz;
                if (ptr2[zz] < ptr2[day2]) day2 = zz;
            }
            x1 = ptr[day1];
            ptr[day1] = ptr[z];
            x2 = ptr2[day2]-1;
            ptr2[day2] = ptr2[z];
            if (x1 > x2) continue;

            if (globalpolytype < 1)
            {
                /* maphline */
                ox = x2+1-(xdim>>1);
                bx = ox*asm1 + globalposx;
                by = ox*asm2 - globalposy;

                p = ylookup[y]+x2+frameplace;
                hlineasm4(x2-x1,globalshade<<8,by,bx,p);
            }
            else
            {
                /* maphline */
                ox = x1+1-(xdim>>1);
                bx = ox*asm1 + globalposx;
                by = ox*asm2 - globalposy;

                p = ylookup[y]+x1+frameplace;
                if (globalpolytype == 1)
                    mhline(globalbufplc,bx,(x2-x1)<<16,0L,by,p);
                else
                {
                    thline(globalbufplc,bx,(x2-x1)<<16,0L,by,p);
                    transarea += (x2-x1);
                }
            }
        }
        globalposx += globalx1;
        globalposy += globaly2;
        ptr += MAXNODESPERLINE;
    }
    faketimerhandler();
}


static int clippoly (int32_t npoints, int32_t clipstat)
{
    int32_t z, zz, s1, s2, t, npoints2, start2, z1, z2, z3, z4, splitcnt;
    int32_t cx1, cy1, cx2, cy2;

    cx1 = windowx1;
    cy1 = windowy1;
    cx2 = windowx2+1;
    cy2 = windowy2+1;
    cx1 <<= 12;
    cy1 <<= 12;
    cx2 <<= 12;
    cy2 <<= 12;

    if (clipstat&0xa)   /* Need to clip top or left */
    {
        npoints2 = 0;
        start2 = 0;
        z = 0;
        splitcnt = 0;
        do
        {
            s2 = cx1-pvWalls[z].cameraSpaceCoo[0][VEC_X];
            do
            {
                zz = pvWalls[z].screenSpaceCoo[0][VEC_COL];
                pvWalls[z].screenSpaceCoo[0][VEC_COL] = -1;
                s1 = s2;
                s2 = cx1-pvWalls[zz].cameraSpaceCoo[0][VEC_X];
                if (s1 < 0){
                    pvWalls[npoints2].cameraSpaceCoo[1][VEC_X] = pvWalls[z].cameraSpaceCoo[0][VEC_X];
                    pvWalls[npoints2].cameraSpaceCoo[1][VEC_Y] = pvWalls[z].cameraSpaceCoo[0][VEC_Y];
                    pvWalls[npoints2].screenSpaceCoo[1][VEC_COL] = npoints2+1;
                    npoints2++;
                }
                
                if ((s1^s2) < 0){
                    pvWalls[npoints2].cameraSpaceCoo[1][VEC_X] =
                    pvWalls[z].cameraSpaceCoo[0][VEC_X]+scale(pvWalls[zz].cameraSpaceCoo[0][VEC_X]-pvWalls[z].cameraSpaceCoo[0][VEC_X],s1,s1-s2);
                    pvWalls[npoints2].cameraSpaceCoo[1][VEC_Y] =
                    pvWalls[z].cameraSpaceCoo[0][VEC_Y]+scale(pvWalls[zz].cameraSpaceCoo[0][VEC_Y]-pvWalls[z].cameraSpaceCoo[0][VEC_Y],s1,s1-s2);
                    
                    if (s1 < 0)
                        bunchWallsList[splitcnt++] = npoints2;
                    
                    pvWalls[npoints2].screenSpaceCoo[1][VEC_COL] = npoints2+1;
                    npoints2++;
                }
                z = zz;
            } while (pvWalls[z].screenSpaceCoo[0][VEC_COL] >= 0);

            if (npoints2 >= start2+3)
                pvWalls[npoints2-1].screenSpaceCoo[1][VEC_COL] = start2, start2 = npoints2;
            else
                npoints2 = start2;

            z = 1;
            while ((z < npoints) && (pvWalls[z].screenSpaceCoo[0][VEC_COL] < 0)) z++;
        } while (z < npoints);
        if (npoints2 <= 2) return(0);

        for(z=1; z<splitcnt; z++)
            for(zz=0; zz<z; zz++)
            {
                z1 = bunchWallsList[z];
                z2 = pvWalls[z1].screenSpaceCoo[1][VEC_COL];
                z3 = bunchWallsList[zz];
                z4 = pvWalls[z3].screenSpaceCoo[1][VEC_COL];
                s1  = klabs(pvWalls[z1].cameraSpaceCoo[1][VEC_X]-pvWalls[z2].cameraSpaceCoo[1][VEC_X])+klabs(pvWalls[z1].cameraSpaceCoo[1][VEC_Y]-pvWalls[z2].cameraSpaceCoo[1][VEC_Y]);
                s1 += klabs(pvWalls[z3].cameraSpaceCoo[1][VEC_X]-pvWalls[z4].cameraSpaceCoo[1][VEC_X])+klabs(pvWalls[z3].cameraSpaceCoo[1][VEC_Y]-pvWalls[z4].cameraSpaceCoo[1][VEC_Y]);
                s2  = klabs(pvWalls[z1].cameraSpaceCoo[1][VEC_X]-pvWalls[z4].cameraSpaceCoo[1][VEC_X])+klabs(pvWalls[z1].cameraSpaceCoo[1][VEC_Y]-pvWalls[z4].cameraSpaceCoo[1][VEC_Y]);
                s2 += klabs(pvWalls[z3].cameraSpaceCoo[1][VEC_X]-pvWalls[z2].cameraSpaceCoo[1][VEC_X])+klabs(pvWalls[z3].cameraSpaceCoo[1][VEC_Y]-pvWalls[z2].cameraSpaceCoo[1][VEC_Y]);
                if (s2 < s1)
                {
                    t = pvWalls[bunchWallsList[z]].screenSpaceCoo[1][VEC_COL];
                    pvWalls[bunchWallsList[z]].screenSpaceCoo[1][VEC_COL] = pvWalls[bunchWallsList[zz]].screenSpaceCoo[1][VEC_COL];
                    pvWalls[bunchWallsList[zz]].screenSpaceCoo[1][VEC_COL] = t;
                }
            }


        npoints = 0;
        start2 = 0;
        z = 0;
        splitcnt = 0;
        do
        {
            s2 = cy1-pvWalls[z].cameraSpaceCoo[1][VEC_Y];
            do
            {
                zz = pvWalls[z].screenSpaceCoo[1][VEC_COL];
                pvWalls[z].screenSpaceCoo[1][VEC_COL] = -1;
                s1 = s2;
                s2 = cy1-pvWalls[zz].cameraSpaceCoo[1][VEC_Y];
                if (s1 < 0)
                {
                    pvWalls[npoints].cameraSpaceCoo[0][VEC_X] = pvWalls[z].cameraSpaceCoo[1][VEC_X];
                    pvWalls[npoints].cameraSpaceCoo[0][VEC_Y] = pvWalls[z].cameraSpaceCoo[1][VEC_Y];
                    pvWalls[npoints].screenSpaceCoo[0][VEC_COL] = npoints+1;
                    npoints++;
                }
                if ((s1^s2) < 0)
                {
                    pvWalls[npoints].cameraSpaceCoo[0][VEC_X] = pvWalls[z].cameraSpaceCoo[1][VEC_X]+scale(pvWalls[zz].cameraSpaceCoo[1][VEC_X]-pvWalls[z].cameraSpaceCoo[1][VEC_X],s1,s1-s2);
                    pvWalls[npoints].cameraSpaceCoo[0][VEC_Y] = pvWalls[z].cameraSpaceCoo[1][VEC_Y]+scale(pvWalls[zz].cameraSpaceCoo[1][VEC_Y]-pvWalls[z].cameraSpaceCoo[1][VEC_Y],s1,s1-s2);
                    if (s1 < 0) bunchWallsList[splitcnt++] = npoints;
                    pvWalls[npoints].screenSpaceCoo[0][VEC_COL] = npoints+1;
                    npoints++;
                }
                z = zz;
            } while (pvWalls[z].screenSpaceCoo[1][VEC_COL] >= 0);

            if (npoints >= start2+3)
                pvWalls[npoints-1].screenSpaceCoo[0][VEC_COL] = start2, start2 = npoints;
            else
                npoints = start2;

            z = 1;
            while ((z < npoints2) && (pvWalls[z].screenSpaceCoo[1][VEC_COL] < 0)) z++;
        } while (z < npoints2);
        if (npoints <= 2) return(0);

        for(z=1; z<splitcnt; z++)
            for(zz=0; zz<z; zz++)
            {
                z1 = bunchWallsList[z];
                z2 = pvWalls[z1].screenSpaceCoo[0][VEC_COL];
                z3 = bunchWallsList[zz];
                z4 = pvWalls[z3].screenSpaceCoo[0][VEC_COL];
                s1  = klabs(pvWalls[z1].cameraSpaceCoo[0][VEC_X]-pvWalls[z2].cameraSpaceCoo[0][VEC_X])+klabs(pvWalls[z1].cameraSpaceCoo[0][VEC_Y]-pvWalls[z2].cameraSpaceCoo[0][VEC_Y]);
                s1 += klabs(pvWalls[z3].cameraSpaceCoo[0][VEC_X]-pvWalls[z4].cameraSpaceCoo[0][VEC_X])+klabs(pvWalls[z3].cameraSpaceCoo[0][VEC_Y]-pvWalls[z4].cameraSpaceCoo[0][VEC_Y]);
                s2  = klabs(pvWalls[z1].cameraSpaceCoo[0][VEC_X]-pvWalls[z4].cameraSpaceCoo[0][VEC_X])+klabs(pvWalls[z1].cameraSpaceCoo[0][VEC_Y]-pvWalls[z4].cameraSpaceCoo[0][VEC_Y]);
                s2 += klabs(pvWalls[z3].cameraSpaceCoo[0][VEC_X]-pvWalls[z2].cameraSpaceCoo[0][VEC_X])+klabs(pvWalls[z3].cameraSpaceCoo[0][VEC_Y]-pvWalls[z2].cameraSpaceCoo[0][VEC_Y]);
                if (s2 < s1)
                {
                    t = pvWalls[bunchWallsList[z]].screenSpaceCoo[0][VEC_COL];
                    pvWalls[bunchWallsList[z]].screenSpaceCoo[0][VEC_COL] = pvWalls[bunchWallsList[zz]].screenSpaceCoo[0][VEC_COL];
                    pvWalls[bunchWallsList[zz]].screenSpaceCoo[0][VEC_COL] = t;
                }
            }
    }
    if (clipstat&0x5)   /* Need to clip bottom or right */
    {
        npoints2 = 0;
        start2 = 0;
        z = 0;
        splitcnt = 0;
        do
        {
            s2 = pvWalls[z].cameraSpaceCoo[0][VEC_X]-cx2;
            do
            {
                zz = pvWalls[z].screenSpaceCoo[0][VEC_COL];
                pvWalls[z].screenSpaceCoo[0][VEC_COL] = -1;
                s1 = s2;
                s2 = pvWalls[zz].cameraSpaceCoo[0][VEC_X]-cx2;
                if (s1 < 0)
                {
                    pvWalls[npoints2].cameraSpaceCoo[1][VEC_X] = pvWalls[z].cameraSpaceCoo[0][VEC_X];
                    pvWalls[npoints2].cameraSpaceCoo[1][VEC_Y] = pvWalls[z].cameraSpaceCoo[0][VEC_Y];
                    pvWalls[npoints2].screenSpaceCoo[1][VEC_COL] = npoints2+1;
                    npoints2++;
                }
                if ((s1^s2) < 0)
                {
                    pvWalls[npoints2].cameraSpaceCoo[1][VEC_X] = pvWalls[z].cameraSpaceCoo[0][VEC_X]+scale(pvWalls[zz].cameraSpaceCoo[0][VEC_X]-pvWalls[z].cameraSpaceCoo[0][VEC_X],s1,s1-s2);
                    pvWalls[npoints2].cameraSpaceCoo[1][VEC_Y] = pvWalls[z].cameraSpaceCoo[0][VEC_Y]+scale(pvWalls[zz].cameraSpaceCoo[0][VEC_Y]-pvWalls[z].cameraSpaceCoo[0][VEC_Y],s1,s1-s2);
                    if (s1 < 0) bunchWallsList[splitcnt++] = npoints2;
                    pvWalls[npoints2].screenSpaceCoo[1][VEC_COL] = npoints2+1;
                    npoints2++;
                }
                z = zz;
            } while (pvWalls[z].screenSpaceCoo[0][VEC_COL] >= 0);

            if (npoints2 >= start2+3)
                pvWalls[npoints2-1].screenSpaceCoo[1][VEC_COL] = start2, start2 = npoints2;
            else
                npoints2 = start2;

            z = 1;
            while ((z < npoints) && (pvWalls[z].screenSpaceCoo[0][VEC_COL] < 0)) z++;
        } while (z < npoints);
        if (npoints2 <= 2) return(0);

        for(z=1; z<splitcnt; z++)
            for(zz=0; zz<z; zz++)
            {
                z1 = bunchWallsList[z];
                z2 = pvWalls[z1].screenSpaceCoo[1][VEC_COL];
                z3 = bunchWallsList[zz];
                z4 = pvWalls[z3].screenSpaceCoo[1][VEC_COL];
                s1  = klabs(pvWalls[z1].cameraSpaceCoo[1][VEC_X]-pvWalls[z2].cameraSpaceCoo[1][VEC_X])+klabs(pvWalls[z1].cameraSpaceCoo[1][VEC_Y]-pvWalls[z2].cameraSpaceCoo[1][VEC_Y]);
                s1 += klabs(pvWalls[z3].cameraSpaceCoo[1][VEC_X]-pvWalls[z4].cameraSpaceCoo[1][VEC_X])+klabs(pvWalls[z3].cameraSpaceCoo[1][VEC_Y]-pvWalls[z4].cameraSpaceCoo[1][VEC_Y]);
                s2  = klabs(pvWalls[z1].cameraSpaceCoo[1][VEC_X]-pvWalls[z4].cameraSpaceCoo[1][VEC_X])+klabs(pvWalls[z1].cameraSpaceCoo[1][VEC_Y]-pvWalls[z4].cameraSpaceCoo[1][VEC_Y]);
                s2 += klabs(pvWalls[z3].cameraSpaceCoo[1][VEC_X]-pvWalls[z2].cameraSpaceCoo[1][VEC_X])+klabs(pvWalls[z3].cameraSpaceCoo[1][VEC_Y]-pvWalls[z2].cameraSpaceCoo[1][VEC_Y]);
                if (s2 < s1)
                {
                    t = pvWalls[bunchWallsList[z]].screenSpaceCoo[1][VEC_COL];
                    pvWalls[bunchWallsList[z]].screenSpaceCoo[1][VEC_COL] = pvWalls[bunchWallsList[zz]].screenSpaceCoo[1][VEC_COL];
                    pvWalls[bunchWallsList[zz]].screenSpaceCoo[1][VEC_COL] = t;
                }
            }


        npoints = 0;
        start2 = 0;
        z = 0;
        splitcnt = 0;
        do
        {
            s2 = pvWalls[z].cameraSpaceCoo[1][VEC_Y]-cy2;
            do
            {
                zz = pvWalls[z].screenSpaceCoo[1][VEC_COL];
                pvWalls[z].screenSpaceCoo[1][VEC_COL] = -1;
                s1 = s2;
                s2 = pvWalls[zz].cameraSpaceCoo[1][VEC_Y]-cy2;
                if (s1 < 0)
                {
                    pvWalls[npoints].cameraSpaceCoo[0][VEC_X] = pvWalls[z].cameraSpaceCoo[1][VEC_X];
                    pvWalls[npoints].cameraSpaceCoo[0][VEC_Y] = pvWalls[z].cameraSpaceCoo[1][VEC_Y];
                    pvWalls[npoints].screenSpaceCoo[0][VEC_COL] = npoints+1;
                    npoints++;
                }
                if ((s1^s2) < 0)
                {
                    pvWalls[npoints].cameraSpaceCoo[0][VEC_X] = pvWalls[z].cameraSpaceCoo[1][VEC_X]+scale(pvWalls[zz].cameraSpaceCoo[1][VEC_X]-pvWalls[z].cameraSpaceCoo[1][VEC_X],s1,s1-s2);
                    pvWalls[npoints].cameraSpaceCoo[0][VEC_Y] = pvWalls[z].cameraSpaceCoo[1][VEC_Y]+scale(pvWalls[zz].cameraSpaceCoo[1][VEC_Y]-pvWalls[z].cameraSpaceCoo[1][VEC_Y],s1,s1-s2);
                    if (s1 < 0) bunchWallsList[splitcnt++] = npoints;
                    pvWalls[npoints].screenSpaceCoo[0][VEC_COL] = npoints+1;
                    npoints++;
                }
                z = zz;
            } while (pvWalls[z].screenSpaceCoo[1][VEC_COL] >= 0);

            if (npoints >= start2+3)
                pvWalls[npoints-1].screenSpaceCoo[0][VEC_COL] = start2, start2 = npoints;
            else
                npoints = start2;

            z = 1;
            while ((z < npoints2) && (pvWalls[z].screenSpaceCoo[1][VEC_COL] < 0)) z++;
        } while (z < npoints2);
        if (npoints <= 2) return(0);

        for(z=1; z<splitcnt; z++)
            for(zz=0; zz<z; zz++)
            {
                z1 = bunchWallsList[z];
                z2 = pvWalls[z1].screenSpaceCoo[0][VEC_COL];
                z3 = bunchWallsList[zz];
                z4 = pvWalls[z3].screenSpaceCoo[0][VEC_COL];
                s1  = klabs(pvWalls[z1].cameraSpaceCoo[0][VEC_X]-pvWalls[z2].cameraSpaceCoo[0][VEC_X])+klabs(pvWalls[z1].cameraSpaceCoo[0][VEC_Y]-pvWalls[z2].cameraSpaceCoo[0][VEC_Y]);
                s1 += klabs(pvWalls[z3].cameraSpaceCoo[0][VEC_X]-pvWalls[z4].cameraSpaceCoo[0][VEC_X])+klabs(pvWalls[z3].cameraSpaceCoo[0][VEC_Y]-pvWalls[z4].cameraSpaceCoo[0][VEC_Y]);
                s2  = klabs(pvWalls[z1].cameraSpaceCoo[0][VEC_X]-pvWalls[z4].cameraSpaceCoo[0][VEC_X])+klabs(pvWalls[z1].cameraSpaceCoo[0][VEC_Y]-pvWalls[z4].cameraSpaceCoo[0][VEC_Y]);
                s2 += klabs(pvWalls[z3].cameraSpaceCoo[0][VEC_X]-pvWalls[z2].cameraSpaceCoo[0][VEC_X])+klabs(pvWalls[z3].cameraSpaceCoo[0][VEC_Y]-pvWalls[z2].cameraSpaceCoo[0][VEC_Y]);
                if (s2 < s1)
                {
                    t = pvWalls[bunchWallsList[z]].screenSpaceCoo[0][VEC_COL];
                    pvWalls[bunchWallsList[z]].screenSpaceCoo[0][VEC_COL] = pvWalls[bunchWallsList[zz]].screenSpaceCoo[0][VEC_COL];
                    pvWalls[bunchWallsList[zz]].screenSpaceCoo[0][VEC_COL] = t;
                }
            }
    }
    return(npoints);
}


void drawmapview(int32_t dax, int32_t day, int32_t zoome, short ang)
{
    walltype *wal;
    sectortype *sec;
    spritetype *spr;
    int32_t tilenum, xoff, yoff, i, j, k, l, cosang, sinang, xspan, yspan;
    int32_t xrepeat, yrepeat, x, y, x1, y1, x2, y2, x3, y3, x4, y4, bakx1, baky1;
    int32_t s, w, ox, oy, startwall, cx1, cy1, cx2, cy2;
    int32_t bakgxvect, bakgyvect, sortnum, gap, npoints;
    int32_t xvect, yvect, xvect2, yvect2, daslope;

    beforedrawrooms = 0;
   

    //This seems to be dead code.
    //clearbuf(visitedSectors,(int32_t)((numsectors+31)>>5),0L);

    cx1 = (windowx1<<12);
    cy1 = (windowy1<<12);
    cx2 = ((windowx2+1)<<12)-1;
    cy2 = ((windowy2+1)<<12)-1;
    zoome <<= 8;
    bakgxvect = divscale28(sintable[(1536-ang)&2047],zoome);
    bakgyvect = divscale28(sintable[(2048-ang)&2047],zoome);
    xvect = mulscale8(sintable[(2048-ang)&2047],zoome);
    yvect = mulscale8(sintable[(1536-ang)&2047],zoome);
    xvect2 = mulscale16(xvect,yxaspect);
    yvect2 = mulscale16(yvect,yxaspect);

    sortnum = 0;
    for(s=0,sec=&sector[s]; s<numsectors; s++,sec++)
        if (show2dsector[s>>3]&pow2char[s&7])
        {
            npoints = 0;
            i = 0;
            startwall = sec->wallptr;
            for(w=sec->wallnum,wal=&wall[startwall]; w>0; w--,wal++)
            {
                ox = wal->x - dax;
                oy = wal->y - day;
                x = dmulscale16(ox,xvect,-oy,yvect) + (xdim<<11);
                y = dmulscale16(oy,xvect2,ox,yvect2) + (ydim<<11);
                i |= getclipmask(x-cx1,cx2-x,y-cy1,cy2-y);
                pvWalls[npoints].cameraSpaceCoo[0][VEC_X] = x;
                pvWalls[npoints].cameraSpaceCoo[0][VEC_Y] = y;
                pvWalls[npoints].screenSpaceCoo[0][VEC_COL] = wal->point2 - startwall;
                npoints++;
            }
            
            if ((i&0xf0) != 0xf0)
                continue;
            
            bakx1 = pvWalls[0].cameraSpaceCoo[0][VEC_X];
            baky1 = mulscale16(pvWalls[0].cameraSpaceCoo[0][VEC_Y]-(ydim<<11),xyaspect)+(ydim<<11);
            if (i&0x0f)
            {
                npoints = clippoly(npoints,i);
                if (npoints < 3) continue;
            }

            /* Collect floor sprites to draw */
            for(i=headspritesect[s]; i>=0; i=nextspritesect[i])
                if ((sprite[i].cstat&48) == 32)
                {
                    if ((sprite[i].cstat&(64+8)) == (64+8)) continue;
                    tsprite[sortnum++].owner = i;
                }

            //This seems to be dead code.
            //visitedSectors[s>>3] |= pow2char[s&7];

            globalorientation = (int32_t)sec->floorstat;
            if ((globalorientation&1) != 0) continue;

            if (palookup[sec->floorpal] != globalpalwritten)
            {
                globalpalwritten = palookup[sec->floorpal];
               
            }
            globalpicnum = sec->floorpicnum;
            if ((uint32_t)globalpicnum >= (uint32_t)MAXTILES) globalpicnum = 0;
            setgotpic(globalpicnum);
            
            if ((tiles[globalpicnum].dim.width <= 0) ||
                (tiles[globalpicnum].dim.height <= 0)) continue;
            
            if ((tiles[globalpicnum].animFlags&192) != 0) 
                globalpicnum += animateoffs(globalpicnum);
            
            TILE_MakeAvailable(globalpicnum);
            
            globalbufplc = tiles[globalpicnum].data;
            
            globalshade = max(min(sec->floorshade,numpalookups-1),0);
            globvis = globalhisibility;
            if (sec->visibility != 0) globvis = mulscale4(globvis,(int32_t)((uint8_t )(sec->visibility+16)));
            globalpolytype = 0;
            if ((globalorientation&64) == 0)
            {
                globalposx = dax;
                globalx1 = bakgxvect;
                globaly1 = bakgyvect;
                globalposy = day;
                globalx2 = bakgxvect;
                globaly2 = bakgyvect;
            }
            else
            {
                ox = wall[wall[startwall].point2].x - wall[startwall].x;
                oy = wall[wall[startwall].point2].y - wall[startwall].y;
                i = nsqrtasm(ox*ox+oy*oy);
                
                if (i == 0)
                    continue;
                
                i = 1048576/i;
                globalx1 = mulscale10(dmulscale10(ox,bakgxvect,oy,bakgyvect),i);
                globaly1 = mulscale10(dmulscale10(ox,bakgyvect,-oy,bakgxvect),i);
                ox = (bakx1>>4)-(xdim<<7);
                oy = (baky1>>4)-(ydim<<7);
                globalposx = dmulscale28(-oy,globalx1,-ox,globaly1);
                globalposy = dmulscale28(-ox,globalx1,oy,globaly1);
                globalx2 = -globalx1;
                globaly2 = -globaly1;

                daslope = sector[s].floorheinum;
                i = nsqrtasm(daslope*daslope+16777216);
                globalposy = mulscale12(globalposy,i);
                globalx2 = mulscale12(globalx2,i);
                globaly2 = mulscale12(globaly2,i);
            }
            globalxshift = (8-(picsiz[globalpicnum]&15));
            globalyshift = (8-(picsiz[globalpicnum]>>4));
            if (globalorientation&8) {
                globalxshift++;
                globalyshift++;
            }

            sethlinesizes(picsiz[globalpicnum]&15,picsiz[globalpicnum]>>4,globalbufplc);

            if ((globalorientation&0x4) > 0)
            {
                i = globalposx;
                globalposx = -globalposy;
                globalposy = -i;
                i = globalx2;
                globalx2 = globaly1;
                globaly1 = i;
                i = globalx1;
                globalx1 = -globaly2;
                globaly2 = -i;
            }
            if ((globalorientation&0x10) > 0) globalx1 = -globalx1, globaly1 = -globaly1, globalposx = -globalposx;
            if ((globalorientation&0x20) > 0) globalx2 = -globalx2, globaly2 = -globaly2, globalposy = -globalposy;
            asm1 = (globaly1<<globalxshift);
            asm2 = (globalx2<<globalyshift);
            globalx1 <<= globalxshift;
            globaly2 <<= globalyshift;
            globalposx = (globalposx<<(20+globalxshift))+(((int32_t)sec->floorxpanning)<<24);
            globalposy = (globalposy<<(20+globalyshift))-(((int32_t)sec->floorypanning)<<24);

            fillpolygon(npoints);
        }

    /* Sort sprite list */
    gap = 1;
    while (gap < sortnum) gap = (gap<<1)+1;
    for(gap>>=1; gap>0; gap>>=1)
        for(i=0; i<sortnum-gap; i++)
            for(j=i; j>=0; j-=gap)
            {
                if (sprite[tsprite[j].owner].z <= sprite[tsprite[j+gap].owner].z) break;
                swapshort(&tsprite[j].owner,&tsprite[j+gap].owner);
            }

    for(s=sortnum-1; s>=0; s--)
    {
        spr = &sprite[tsprite[s].owner];
        if ((spr->cstat&48) == 32)
        {
            npoints = 0;

            tilenum = spr->picnum;
            xoff = (int32_t)((int8_t  )((tiles[tilenum].animFlags>>8)&255))+((int32_t)spr->xoffset);
            yoff = (int32_t)((int8_t  )((tiles[tilenum].animFlags>>16)&255))+((int32_t)spr->yoffset);
            
            if ((spr->cstat&4) > 0) 
                xoff = -xoff;
            if ((spr->cstat&8) > 0) 
                yoff = -yoff;

            k = spr->ang;
            cosang = sintable[(k+512)&2047];
            sinang = sintable[k];
            xspan = tiles[tilenum].dim.width;
            xrepeat = spr->xrepeat;
            yspan = tiles[tilenum].dim.height;
            yrepeat = spr->yrepeat;

            ox = ((xspan>>1)+xoff)*xrepeat;
            oy = ((yspan>>1)+yoff)*yrepeat;
            x1 = spr->x + mulscale(sinang,ox,16) + mulscale(cosang,oy,16);
            y1 = spr->y + mulscale(sinang,oy,16) - mulscale(cosang,ox,16);
            l = xspan*xrepeat;
            x2 = x1 - mulscale(sinang,l,16);
            y2 = y1 + mulscale(cosang,l,16);
            l = yspan*yrepeat;
            k = -mulscale(cosang,l,16);
            x3 = x2+k;
            x4 = x1+k;
            k = -mulscale(sinang,l,16);
            y3 = y2+k;
            y4 = y1+k;

            pvWalls[0].screenSpaceCoo[0][VEC_COL] = 1;
            pvWalls[1].screenSpaceCoo[0][VEC_COL] = 2;
            pvWalls[2].screenSpaceCoo[0][VEC_COL] = 3;
            pvWalls[3].screenSpaceCoo[0][VEC_COL] = 0;
            npoints = 4;

            i = 0;

            ox = x1 - dax;
            oy = y1 - day;
            x = dmulscale16(ox,xvect,-oy,yvect) + (xdim<<11);
            y = dmulscale16(oy,xvect2,ox,yvect2) + (ydim<<11);
            i |= getclipmask(x-cx1,cx2-x,y-cy1,cy2-y);
            pvWalls[0].cameraSpaceCoo[0][VEC_X] = x;
            pvWalls[0].cameraSpaceCoo[0][VEC_Y] = y;

            ox = x2 - dax;
            oy = y2 - day;
            x = dmulscale16(ox,xvect,-oy,yvect) + (xdim<<11);
            y = dmulscale16(oy,xvect2,ox,yvect2) + (ydim<<11);
            i |= getclipmask(x-cx1,cx2-x,y-cy1,cy2-y);
            pvWalls[1].cameraSpaceCoo[0][VEC_X] = x;
            pvWalls[1].cameraSpaceCoo[0][VEC_Y] = y;

            ox = x3 - dax;
            oy = y3 - day;
            x = dmulscale16(ox,xvect,-oy,yvect) + (xdim<<11);
            y = dmulscale16(oy,xvect2,ox,yvect2) + (ydim<<11);
            i |= getclipmask(x-cx1,cx2-x,y-cy1,cy2-y);
            pvWalls[2].cameraSpaceCoo[0][VEC_X] = x;
            pvWalls[2].cameraSpaceCoo[0][VEC_Y] = y;

            x = pvWalls[0].cameraSpaceCoo[0][VEC_X]+pvWalls[2].cameraSpaceCoo[0][VEC_X]-pvWalls[1].cameraSpaceCoo[0][VEC_X];
            y = pvWalls[3].cameraSpaceCoo[0][VEC_Y]+pvWalls[2].cameraSpaceCoo[0][VEC_Y]-pvWalls[1].cameraSpaceCoo[0][VEC_Y];
            i |= getclipmask(x-cx1,cx2-x,y-cy1,cy2-y);
            pvWalls[3].cameraSpaceCoo[0][VEC_X] = x;
            pvWalls[3].cameraSpaceCoo[0][VEC_Y] = y;

            if ((i&0xf0) != 0xf0) continue;
            bakx1 = pvWalls[0].cameraSpaceCoo[0][VEC_X];
            baky1 = mulscale16(pvWalls[0].cameraSpaceCoo[0][VEC_Y]-(ydim<<11),xyaspect)+(ydim<<11);
            if (i&0x0f)
            {
                npoints = clippoly(npoints,i);
                if (npoints < 3) continue;
            }

            globalpicnum = spr->picnum;
            if ((uint32_t)globalpicnum >= (uint32_t)MAXTILES)
                globalpicnum = 0;
            setgotpic(globalpicnum);
            
            if ((tiles[globalpicnum].dim.width <= 0) ||
                (tiles[globalpicnum].dim.height <= 0))
                continue;
            
            if ((tiles[globalpicnum].animFlags&192) != 0) 
                globalpicnum += animateoffs(globalpicnum);
            
            TILE_MakeAvailable(globalpicnum);
            
            globalbufplc = tiles[globalpicnum].data;
            if ((sector[spr->sectnum].ceilingstat&1) > 0)
                globalshade = ((int32_t)sector[spr->sectnum].ceilingshade);
            else
                globalshade = ((int32_t)sector[spr->sectnum].floorshade);
            globalshade = max(min(globalshade+spr->shade+6,numpalookups-1),0);
            asm3 = (intptr_t) palookup[spr->pal]+(globalshade<<8);
            globvis = globalhisibility;
            if (sec->visibility != 0) globvis = mulscale4(globvis,(int32_t)((uint8_t )(sec->visibility+16)));
            globalpolytype = ((spr->cstat&2)>>1)+1;

            /* relative alignment stuff */
            ox = x2-x1;
            oy = y2-y1;
            i = ox*ox+oy*oy;
            if (i == 0) continue;
            i = (65536*16384)/i;
            globalx1 = mulscale10(dmulscale10(ox,bakgxvect,oy,bakgyvect),i);
            globaly1 = mulscale10(dmulscale10(ox,bakgyvect,-oy,bakgxvect),i);
            ox = y1-y4;
            oy = x4-x1;
            i = ox*ox+oy*oy;
            if (i == 0) continue;
            i = (65536*16384)/i;
            globalx2 = mulscale10(dmulscale10(ox,bakgxvect,oy,bakgyvect),i);
            globaly2 = mulscale10(dmulscale10(ox,bakgyvect,-oy,bakgxvect),i);

            ox = picsiz[globalpicnum];
            oy = ((ox>>4)&15);
            ox &= 15;
            if (pow2long[ox] != xspan)
            {
                ox++;
                globalx1 = mulscale(globalx1,xspan,ox);
                globaly1 = mulscale(globaly1,xspan,ox);
            }

            bakx1 = (bakx1>>4)-(xdim<<7);
            baky1 = (baky1>>4)-(ydim<<7);
            globalposx = dmulscale28(-baky1,globalx1,-bakx1,globaly1);
            globalposy = dmulscale28(bakx1,globalx2,-baky1,globaly2);

            if ((spr->cstat&2) == 0)
                msethlineshift(ox,oy);
            else
                tsethlineshift(ox,oy);

            if ((spr->cstat&0x4) > 0) globalx1 = -globalx1, globaly1 = -globaly1, globalposx = -globalposx;
            asm1 = (globaly1<<2);
            globalx1 <<= 2;
            globalposx <<= (20+2);
            asm2 = (globalx2<<2);
            globaly2 <<= 2;
            globalposy <<= (20+2);

            fillpolygon(npoints);
        }
    }
}


void clearview(int32_t dacol)
{
    int32_t y, dx;
    uint8_t* p;

    if (qsetmode != 200) return;

    dx = windowx2-windowx1+1;
    dacol += (dacol<<8);
    dacol += (dacol<<16);
    
    p = frameplace+ylookup[windowy1]+windowx1;
    for(y=windowy1; y<=windowy2; y++)
    {
        clearbufbyte(p, dx, dacol);
        p += ylookup[1];
    }
    faketimerhandler();
}


void clearallviews(int32_t dacol)
{
    int32_t i;

    if (qsetmode != 200) return;
    dacol += (dacol<<8);
    dacol += (dacol<<16);

    switch(vidoption)
    {
    case 1:
        for(i=0; i<numpages; i++)
        {

            clearbufbyte((void *)frameplace,imageSize,0L);
        }

    case 2:
        clearbuf((void *)frameplace,(xdim*ydim)>>2,0L);
        break;
    }
    faketimerhandler();
}


void plotpixel(int32_t x, int32_t y, uint8_t  col)
{
    drawpixel(ylookup[y]+x+frameplace,(int32_t)col);
}


uint8_t  getpixel(int32_t x, int32_t y)
{
    return(readpixel(ylookup[y]+x+frameplace));
}

/* MUST USE RESTOREFORDRAWROOMS AFTER DRAWING */
int32_t setviewcnt = 0;
int32_t bakvidoption[4];
uint8_t* bakframeplace[4];
int32_t bakxsiz[4], bakysiz[4];
int32_t bakwindowx1[4], bakwindowy1[4];
int32_t bakwindowx2[4], bakwindowy2[4];

void setviewback(void)
{
    int32_t i, j, k;

    if (setviewcnt <= 0) return;
    setviewcnt--;

    setview(bakwindowx1[setviewcnt],bakwindowy1[setviewcnt],
            bakwindowx2[setviewcnt],bakwindowy2[setviewcnt]);
    copybufbyte(&bakumost[windowx1],&startumost[windowx1],(windowx2-windowx1+1)*sizeof(startumost[0]));
    copybufbyte(&bakdmost[windowx1],&startdmost[windowx1],(windowx2-windowx1+1)*sizeof(startdmost[0]));
    vidoption = bakvidoption[setviewcnt];
    frameplace = bakframeplace[setviewcnt];
    if (setviewcnt == 0)
        k = bakxsiz[0];
    else
        k = max(bakxsiz[setviewcnt-1],bakxsiz[setviewcnt]);
    j = 0;
    for(i=0; i<=k; i++) ylookup[i] = j, j += bytesperline;
    setBytesPerLine(bytesperline);
}





void preparemirror(int32_t dax, int32_t day, int32_t daz,
                   short daang, int32_t dahoriz, short dawall,
                   short dasector, int32_t *tposx, int32_t *tposy,
                   short *tang)
{
    int32_t i, j, x, y, dx, dy;

    x = wall[dawall].x;
    dx = wall[wall[dawall].point2].x-x;
    y = wall[dawall].y;
    dy = wall[wall[dawall].point2].y-y;
    j = dx*dx + dy*dy;
    if (j == 0) return;
    i = (((dax-x)*dx + (day-y)*dy)<<1);
    *tposx = (x<<1) + scale(dx,i,j) - dax;
    *tposy = (y<<1) + scale(dy,i,j) - day;
    *tang = (((getangle(dx,dy)<<1)-daang)&2047);

    inpreparemirror = 1;
}


void completemirror(void)
{
    int32_t i, dy;
    intptr_t p;

    /* Can't reverse with uninitialized data */
    if (inpreparemirror) {
        inpreparemirror = 0;
        return;
    }
    if (mirrorsx1 > 0) mirrorsx1--;
    if (mirrorsx2 < windowx2-windowx1-1) mirrorsx2++;
    if (mirrorsx2 < mirrorsx1) return;

    transarea += (mirrorsx2-mirrorsx1)*(windowy2-windowy1);

    p = frameplace+ylookup[windowy1+mirrorsy1]+windowx1+mirrorsx1;
    i = windowx2-windowx1-mirrorsx2-mirrorsx1;
    mirrorsx2 -= mirrorsx1;
    // FIX_00085: Optimized Video driver. FPS increases by +20%.
    for(dy=mirrorsy2-mirrorsy1-1; dy>=0; dy--)
    {
        copybufbyte((void *)(p),tempbuf,mirrorsx2+1);
        tempbuf[mirrorsx2] = tempbuf[mirrorsx2-1];
        copybufreverse(&tempbuf[mirrorsx2],(void *)(p+i),mirrorsx2+1);
        p += ylookup[1];
        faketimerhandler();
    }
}


int sectorofwall(short theline)
{
    int32_t i, gap;

    if ((theline < 0) || (theline >= numwalls)) return(-1);
    i = wall[theline].nextwall;
    if (i >= 0) return(wall[i].nextsector);

    gap = (numsectors>>1);
    i = gap;
    while (gap > 1)
    {
        gap >>= 1;
        if (sector[i].wallptr < theline) i += gap;
        else i -= gap;
    }
    while (sector[i].wallptr > theline) i--;
    while (sector[i].wallptr+sector[i].wallnum <= theline) i++;
    
    return(i);
}


int getceilzofslope(short sectnum, int32_t dax, int32_t day)
{
    int32_t dx, dy, i, j;
    walltype *wal;

    if (!(sector[sectnum].ceilingstat&2)) return(sector[sectnum].ceilingz);
    wal = &wall[sector[sectnum].wallptr];
    dx = wall[wal->point2].x-wal->x;
    dy = wall[wal->point2].y-wal->y;
    i = (nsqrtasm(dx*dx+dy*dy)<<5);
    if (i == 0) return(sector[sectnum].ceilingz);
    j = dmulscale3(dx,day-wal->y,-dy,dax-wal->x);
    return(sector[sectnum].ceilingz+scale(sector[sectnum].ceilingheinum,j,i));
}


int getflorzofslope(short sectnum, int32_t dax, int32_t day)
{
    int32_t dx, dy, i, j;
    walltype *wal;

    if (!(sector[sectnum].floorstat&2))
        return(sector[sectnum].floorz);
    
    wal = &wall[sector[sectnum].wallptr];
    dx = wall[wal->point2].x-wal->x;
    dy = wall[wal->point2].y-wal->y;
    i = (nsqrtasm(dx*dx+dy*dy)<<5);
    
    if (i == 0)
        return(sector[sectnum].floorz);
    
    j = dmulscale3(dx,day-wal->y,-dy,dax-wal->x);
    
    return(sector[sectnum].floorz+scale(sector[sectnum].floorheinum,j,i));
}

/*
 FCS:
 
 Output the ceiling and floor Z coordinate in the two last parameters for given:
 sectorNumber and worldspace (coordinate X,Y).
 
 If the sector is flat, this is jsut a lookup. But if either the floor/ceiling have
 a slope it requires more calculation
 
 */
void getzsofslope(short sectnum, int32_t dax, int32_t day, int32_t *ceilz, int32_t *florz)
{
    int32_t dx, dy, i, j;
    walltype *wal, *wal2;
    sectortype *sec;

    sec = &sector[sectnum];
    *ceilz = sec->ceilingz;
    *florz = sec->floorz;
    
    //If the sector has a slopped ceiling or a slopped floor then it needs more calculation.
    if ((sec->ceilingstat|sec->floorstat)&2)
    {
        wal = &wall[sec->wallptr];
        wal2 = &wall[wal->point2];
        dx = wal2->x-wal->x;
        dy = wal2->y-wal->y;
        i = (nsqrtasm(dx*dx+dy*dy)<<5);
        if (i == 0) return;
        j = dmulscale3(dx,day-wal->y,-dy,dax-wal->x);
        
        if (sec->ceilingstat&2)
            *ceilz = (*ceilz)+scale(sec->ceilingheinum,j,i);
        if (sec->floorstat&2)
            *florz = (*florz)+scale(sec->floorheinum,j,i);
    }
}


void alignceilslope(short dasect, int32_t x, int32_t y, int32_t z)
{
    int32_t i, dax, day;
    walltype *wal;

    wal = &wall[sector[dasect].wallptr];
    dax = wall[wal->point2].x-wal->x;
    day = wall[wal->point2].y-wal->y;

    i = (y-wal->y)*dax - (x-wal->x)*day;
    if (i == 0) return;
    sector[dasect].ceilingheinum = scale((z-sector[dasect].ceilingz)<<8,
                                         nsqrtasm(dax*dax+day*day),i);

    if (sector[dasect].ceilingheinum == 0) sector[dasect].ceilingstat &= ~2;
    else sector[dasect].ceilingstat |= 2;
}


void alignflorslope(short dasect, int32_t x, int32_t y, int32_t z)
{
    int32_t i, dax, day;
    walltype *wal;

    wal = &wall[sector[dasect].wallptr];
    dax = wall[wal->point2].x-wal->x;
    day = wall[wal->point2].y-wal->y;

    i = (y-wal->y)*dax - (x-wal->x)*day;
    if (i == 0) return;
    sector[dasect].floorheinum = scale((z-sector[dasect].floorz)<<8,
                                       nsqrtasm(dax*dax+day*day),i);

    if (sector[dasect].floorheinum == 0) sector[dasect].floorstat &= ~2;
    else sector[dasect].floorstat |= 2;
}

/*
 FCS:
 Search for ???
*/
int loopnumofsector(short sectnum, short wallnum)
{
    int32_t i, numloops, startwall, endwall;

    numloops = 0;
    
    startwall = sector[sectnum].wallptr;
    endwall = startwall + sector[sectnum].wallnum;
    
    for(i=startwall; i<endwall; i++)
    {
        if (i == wallnum)
            return(numloops);
        
        if (wall[i].point2 < i)
            numloops++;
    }
    return(-1);
}


void setfirstwall(short sectnum, short newfirstwall)
{
    int32_t i, j, k, numwallsofloop;
    int32_t startwall, endwall, danumwalls, dagoalloop;

    startwall = sector[sectnum].wallptr;
    danumwalls = sector[sectnum].wallnum;
    endwall = startwall+danumwalls;
    if ((newfirstwall < startwall) || (newfirstwall >= startwall+danumwalls)) return;
    for(i=0; i<danumwalls; i++)
        memcpy(&wall[i+numwalls],&wall[i+startwall],sizeof(walltype));

    numwallsofloop = 0;
    i = newfirstwall;
    do
    {
        numwallsofloop++;
        i = wall[i].point2;
    } while (i != newfirstwall);

    /* Put correct loop at beginning */
    dagoalloop = loopnumofsector(sectnum,newfirstwall);
    if (dagoalloop > 0)
    {
        j = 0;
        while (loopnumofsector(sectnum,j+startwall) != dagoalloop) j++;
        for(i=0; i<danumwalls; i++)
        {
            k = i+j;
            if (k >= danumwalls) k -= danumwalls;
            memcpy(&wall[startwall+i],&wall[numwalls+k],sizeof(walltype));

            wall[startwall+i].point2 += danumwalls-startwall-j;
            if (wall[startwall+i].point2 >= danumwalls)
                wall[startwall+i].point2 -= danumwalls;
            wall[startwall+i].point2 += startwall;
        }
        newfirstwall += danumwalls-j;
        if (newfirstwall >= startwall+danumwalls) newfirstwall -= danumwalls;
    }

    for(i=0; i<numwallsofloop; i++)
        memcpy(&wall[i+numwalls],&wall[i+startwall],sizeof(walltype));
    for(i=0; i<numwallsofloop; i++)
    {
        k = i+newfirstwall-startwall;
        if (k >= numwallsofloop) k -= numwallsofloop;
        memcpy(&wall[startwall+i],&wall[numwalls+k],sizeof(walltype));

        wall[startwall+i].point2 += numwallsofloop-newfirstwall;
        if (wall[startwall+i].point2 >= numwallsofloop)
            wall[startwall+i].point2 -= numwallsofloop;
        wall[startwall+i].point2 += startwall;
    }

    for(i=startwall; i<endwall; i++)
        if (wall[i].nextwall >= 0) wall[wall[i].nextwall].nextwall = i;
}

/* end of engine.c ... */