CGDoom/cgdoom/r_bsp.c

// Emacs style mode select   -*- C++ -*- 
//-----------------------------------------------------------------------------
//
// $Id:$
//
// Copyright (C) 1993-1996 by id Software, Inc.
//
// This source is available for distribution and/or modification
// only under the terms of the DOOM Source Code License as
// published by id Software. All rights reserved.
//
// The source is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// FITNESS FOR A PARTICULAR PURPOSE. See the DOOM Source Code License
// for more details.
//
// $Log:$
//
// DESCRIPTION:
//	BSP traversal, handling of LineSegs for rendering.
//
//-----------------------------------------------------------------------------


//static const char 


#include "doomdef.h"

#include "m_bbox.h"

#include "i_system.h"

#include "r_main.h"
#include "r_plane.h"
#include "r_things.h"

// State.
#include "doomstat.h"
#include "r_state.h"

//#include "r_local.h"



seg_t*		curline;
side_t*		sidedef;
line_t*		linedef;
sector_t*	frontsector;
sector_t*	backsector;

drawseg_t	drawsegs[MAXDRAWSEGS];
drawseg_t*	ds_p;


void R_StoreWallRange( int	start,  int	stop );




//
// R_ClearDrawSegs
//
void R_ClearDrawSegs (void)
{
  ds_p = drawsegs;
}



//
// ClipWallSegment
// Clips the given range of columns
// and includes it in the new clip list.
//
typedef	struct
{
  int	first;
  int last;

} cliprange_t;


#define MAXSEGS		32

// newend is one past the last valid seg
static cliprange_t*	newend;
static cliprange_t		solidsegs[MAXSEGS];




//
// R_ClipSolidWallSegment
// Does handle solid walls,
//  e.g. single sided LineDefs (middle texture)
//  that entirely block the view.
//
void R_ClipSolidWallSegment ( int first, int last )
{
  cliprange_t*	next;
  cliprange_t*	start;

  // Find the first range that touches the range
  //  (adjacent pixels are touching).
  start = solidsegs;
  while (start->last < first-1)
    start++;

  if (first < start->first)
  {
    if (last < start->first-1)
    {
      // Post is entirely visible (above start),
      //  so insert a new clippost.
      R_StoreWallRange (first, last);
      next = newend;
      newend++;

      while (next != start)
      {
        *next = *(next-1);
        next--;
      }
      next->first = first;
      next->last = last;
      return;
    }

    // There is a fragment above *start.
    R_StoreWallRange (first, start->first - 1);
    // Now adjust the clip size.
    start->first = first;	
  }

  // Bottom contained in start?
  if (last <= start->last)
    return;			

  next = start;
  while (last >= (next+1)->first-1)
  {
    // There is a fragment between two posts.
    R_StoreWallRange (next->last + 1, (next+1)->first - 1);
    next++;

    if (last <= next->last)
    {
      // Bottom is contained in next.
      // Adjust the clip size.
      start->last = next->last;	
      goto crunch;
    }
  }

  // There is a fragment after *next.
  R_StoreWallRange (next->last + 1, last);
  // Adjust the clip size.
  start->last = last;

  // Remove start+1 to next from the clip list,
  // because start now covers their area.
crunch:
  if (next == start)
  {
    // Post just extended past the bottom of one post.
    return;
  }


  while (next++ != newend)
  {
    // Remove a post.
    *++start = *next;
  }

  newend = start+1;
}
/*void R_ClipSolidWallSegment ( int first, int last )
{
cliprange_t*	next;
cliprange_t*	start;

// Find the first range that touches the range
//  (adjacent pixels are touching).
start = solidsegs;
while (start->last < first-1)
start++;

if (first < start->first)
{
if (last < start->first-1)
{
// Post is entirely visible (above start),
//  so insert a new clippost.
R_StoreWallRange (first, last);
next = newend;
newend++;

while (next != start)
{
*next = *(next-1);
next--;
}
next->first = first;
next->last = last;
return;
}

// There is a fragment above *start.
R_StoreWallRange (first, start->first - 1);
// Now adjust the clip size.
start->first = first;
}

// Bottom contained in start?
if (last <= start->last)
return;

next = start;
while (last >= (next+1)->first-1)
{
// There is a fragment between two posts.
R_StoreWallRange (next->last + 1, (next+1)->first - 1);
next++;

if (last <= next->last)
{
// Bottom is contained in next.
// Adjust the clip size.
start->last = next->last;	
//goto crunch;
if (next == start)
{
// Post just extended past the bottom of one post.
//printf("Post extended past bottom\n");
return;
}
while (next++ != newend)
{
// Remove a post.
*++start = *next;
}
newend = start+1;
//printf("Loop - 2 \n");
return;
}
}
//printf("Loop passed \n");
// There is a fragment after *next.
R_StoreWallRange (next->last + 1, last);
// Adjust the clip size.
start->last = last;

// Remove start+1 to next from the clip list,
// because start now covers their area.
//crunch:
if (next == start)
{
//printf("nL \n");
// Post just extended past the bottom of one post.
return;
}


while (next++ != newend)
{
// Remove a post.
*++start = *next;
}

newend = start+1;
}
*/


//
// R_ClipPassWallSegment
// Clips the given range of columns,
//  but does not includes it in the clip list.
// Does handle windows,
//  e.g. LineDefs with upper and lower texture.
//
void R_ClipPassWallSegment ( int first, int last )
{
  cliprange_t*	start;

  // Find the first range that touches the range
  //  (adjacent pixels are touching).
  start = solidsegs;
  while (start->last < first-1)
    start++;

  if (first < start->first)
  {
    if (last < start->first-1)
    {
      // Post is entirely visible (above start).
      R_StoreWallRange (first, last);
      return;
    }

    // There is a fragment above *start.
    R_StoreWallRange (first, start->first - 1);
  }

  // Bottom contained in start?
  if (last <= start->last)
    return;			

  while (last >= (start+1)->first-1)
  {
    // There is a fragment between two posts.
    R_StoreWallRange (start->last + 1, (start+1)->first - 1);
    start++;

    if (last <= start->last)
      return;
  }

  // There is a fragment after *next.
  R_StoreWallRange (start->last + 1, last);
}



//
// R_ClearClipSegs
//
void R_ClearClipSegs (void)
{
  solidsegs[0].first = -0x7fffffff;
  solidsegs[0].last = -1;
  solidsegs[1].first = viewwidth;
  solidsegs[1].last = 0x7fffffff;
  newend = solidsegs+2;
}

//
// R_AddLine
// Clips the given lineseg [segment]
// and adds any visible pieces to the line list.
//
void R_AddLine (seg_t*	line)
{
  int			x1;
  int			x2;
  angle_t		angle1;
  angle_t		angle2;
  angle_t		span;
  angle_t		tspan;

  curline = line;

  // OPTIMIZE: quickly reject orthogonal back sides.
  angle1 = R_PointToAngle (line->v1->x, line->v1->y);
  angle2 = R_PointToAngle (line->v2->x, line->v2->y);

  // Clip to view edges.
  // OPTIMIZE: make constant out of 2*clipangle (FIELDOFVIEW).
  span = angle1 - angle2;

  // Back side? I.e. backface culling?
  if (span >= ANG180)
    return;		

  // Global angle needed by segcalc.
  rw_angle1 = angle1;
  angle1 -= viewangle;
  angle2 -= viewangle;

  tspan = angle1 + clipangle;
  if (tspan > 2*clipangle)
  {
    tspan -= 2*clipangle;

    // Totally off the left edge?
    if (tspan >= span)
      return;

    angle1 = clipangle;
  }
  tspan = clipangle - angle2;
  if (tspan > 2*clipangle)
  {
    tspan -= 2*clipangle;

    // Totally off the left edge?
    if (tspan >= span)
      return;	
    angle2 = -clipangle;
  }

  // The seg is in the view range,
  // but not necessarily visible.
  angle1 = (angle1+ANG90)>>ANGLETOFINESHIFT;
  angle2 = (angle2+ANG90)>>ANGLETOFINESHIFT;
  x1 = viewangletox[angle1];
  x2 = viewangletox[angle2];

  // Does not cross a pixel?
  if (x1 == x2)
    return;				

  backsector = line->backsector;

  // Single sided line?
  if (!backsector)
    goto clipsolid;		

  // Closed door.
  if (backsector->ceilingheight <= frontsector->floorheight || backsector->floorheight >= frontsector->ceilingheight)
    goto clipsolid;		

  // Window.
  if (backsector->ceilingheight != frontsector->ceilingheight || backsector->floorheight != frontsector->floorheight)
    goto clippass;	

  // Reject empty lines used for triggers
  //  and special events.
  // Identical floor and ceiling on both sides,
  // identical light levels on both sides,
  // and no middle texture.
  if (backsector->ceilingpic == frontsector->ceilingpic
    && backsector->floorpic == frontsector->floorpic
    && backsector->lightlevel == frontsector->lightlevel
    && curline->sidedef->midtexture == 0)
  {
    return;
  }


clippass:
  R_ClipPassWallSegment (x1, x2-1);	
  return;

clipsolid:
  R_ClipSolidWallSegment (x1, x2-1);
}

//
// R_CheckBBox
// Checks BSP node/subtree bounding box.
// Returns true
//  if some part of the bbox might be visible.
//
const int	checkcoord[12][4] =
{
  {3,0,2,1},
  {3,0,2,0},
  {3,1,2,0},
  {0},
  {2,0,2,1},
  {0,0,0,0},
  {3,1,3,0},
  {0},
  {2,0,3,1},
  {2,1,3,1},
  {2,1,3,0}
};


boolean R_CheckBBox (fixed_t* bspcoord)
{
  int				boxx;
  int				boxy;
  int				boxpos;

  fixed_t			x1;
  fixed_t			y1;
  fixed_t			x2;
  fixed_t			y2;

  angle_t			angle1;
  angle_t			angle2;
  angle_t			span;
  angle_t			tspan;

  cliprange_t*	start;

  int				sx1;
  int				sx2;

  // Find the corners of the box
  // that define the edges from current viewpoint.
  if (viewx <= bspcoord[BOXLEFT])
    boxx = 0;
  else if (viewx < bspcoord[BOXRIGHT])
    boxx = 1;
  else
    boxx = 2;

  if (viewy >= bspcoord[BOXTOP])
    boxy = 0;
  else if (viewy > bspcoord[BOXBOTTOM])
    boxy = 1;
  else
    boxy = 2;

  boxpos = (boxy<<2)+boxx;
  if (boxpos == 5)
    return true;

  x1 = bspcoord[checkcoord[boxpos][0]];
  y1 = bspcoord[checkcoord[boxpos][1]];
  x2 = bspcoord[checkcoord[boxpos][2]];
  y2 = bspcoord[checkcoord[boxpos][3]];

  // check clip list for an open space
  angle1 = R_PointToAngle (x1, y1) - viewangle;
  angle2 = R_PointToAngle (x2, y2) - viewangle;

  span = angle1 - angle2;

  // Sitting on a line?
  if (span >= ANG180)
    return true;

  tspan = angle1 + clipangle;

  if (tspan > 2*clipangle)
  {
    tspan -= 2*clipangle;

    // Totally off the left edge?
    if (tspan >= span)
      return false;	

    angle1 = clipangle;
  }
  tspan = clipangle - angle2;
  if (tspan > 2*clipangle)
  {
    tspan -= 2*clipangle;

    // Totally off the left edge?
    if (tspan >= span)
      return false;

    angle2 = -clipangle;
  }


  // Find the first clippost
  //  that touches the source post
  //  (adjacent pixels are touching).
  angle1 = (angle1+ANG90)>>ANGLETOFINESHIFT;
  angle2 = (angle2+ANG90)>>ANGLETOFINESHIFT;
  sx1 = viewangletox[angle1];
  sx2 = viewangletox[angle2];

  // Does not cross a pixel.
  if (sx1 == sx2)
    return false;			
  sx2--;

  start = solidsegs;
  while (start->last < sx2)
    start++;

  if ((sx1 >= start->first) && (sx2 <= start->last))
  {
    // The clippost contains the new span.
    return false;
  }

  return true;
}



//
// R_Subsector
// Determine floor/ceiling planes.
// Add sprites of things in sector.
// Draw one or more line segments.
//
void R_Subsector (int num)
{
  int				count;
  seg_t*			line;
  subsector_t*	sub;

#ifdef RANGECHECK
  if (num>=numsubsectors)
    I_Error ("R_Subsector: ss %i with numss = %i", num, numsubsectors);
#endif

  sscount++;
  sub = &subsectors[num];
  frontsector = sub->sector;
  count = sub->numlines;
  line = &segs[sub->firstline];

  if (frontsector->floorheight < viewz)
  {
    floorplane = R_FindPlane (frontsector->floorheight, frontsector->floorpic, frontsector->lightlevel);
  }
  else
    floorplane = NULL;

  if (frontsector->ceilingheight > viewz  || frontsector->ceilingpic == skyflatnum)
  {
    ceilingplane = R_FindPlane (frontsector->ceilingheight, frontsector->ceilingpic, frontsector->lightlevel);
  }
  else
    ceilingplane = NULL;

  R_AddSprites (frontsector);	

  while (count--)
  {
    R_AddLine (line);
    line++;
  }
}




//
// RenderBSPNode
// Renders all subsectors below a given node,
//  traversing subtree recursively.
// Just call with BSP root.
void R_RenderBSPNode (int bspnum)
{
  node_t*	bsp;
  int		side;

  // Found a subsector?
  if (bspnum & NF_SUBSECTOR)
  {
    if (bspnum == -1)	
      R_Subsector (0);
    else
      R_Subsector (bspnum&(~NF_SUBSECTOR));
    return;
  }

  bsp = &nodes[bspnum];

  // Decide which side the view point is on.
  side = R_PointOnSide (viewx, viewy, bsp);

  // Recursively divide front space.
  R_RenderBSPNode (bsp->children[side]); 

  // Possibly divide back space.
  if (R_CheckBBox (bsp->bbox[side^1]))	
    R_RenderBSPNode (bsp->children[side^1]);
}