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//**************************************************************************
//**
//** p_sight.cpp : Heretic 2 : Raven Software, Corp.
//**
//** $RCSfile: p_sight.c,v $
//** $Revision: 1.1 $
//** $Date: 95/05/11 00:22:50 $
//** $Author: bgokey $
//**
//**************************************************************************
# include <assert.h>
# include "doomdef.h"
# include "i_system.h"
# include "p_local.h"
# include "p_maputl.h"
# include "p_blockmap.h"
# include "m_random.h"
# include "m_bbox.h"
# include "p_lnspec.h"
# include "g_level.h"
# include "po_man.h"
# include "r_utility.h"
# include "b_bot.h"
# include "p_spec.h"
// State.
# include "r_state.h"
# include "stats.h"
static FRandom pr_botchecksight ( " BotCheckSight " ) ;
static FRandom pr_checksight ( " CheckSight " ) ;
/*
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
P_CheckSight
This uses specialized forms of the maputils routines for optimized performance
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
*/
// Performance meters
static int sightcounts [ 6 ] ;
static cycle_t SightCycles ;
static cycle_t MaxSightCycles ;
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enum
{
SO_TOPFRONT = 1 ,
SO_TOPBACK = 2 ,
SO_BOTTOMFRONT = 4 ,
SO_BOTTOMBACK = 8 ,
} ;
struct SightOpening
{
fixed_t top ;
fixed_t bottom ;
int range ;
int portalflags ;
void SwapSides ( )
{
portalflags = ( ( portalflags & ( SO_TOPFRONT | SO_BOTTOMFRONT ) ) < < 1 ) | ( ( portalflags & ( SO_TOPBACK | SO_BOTTOMBACK ) ) > > 1 ) ;
}
} ;
struct SightTask
{
fixed_t frac ;
fixed_t topslope ;
fixed_t bottomslope ;
int direction ;
int portalgroup ;
} ;
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static TArray < intercept_t > intercepts ( 128 ) ;
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static TArray < SightTask > portals ( 32 ) ;
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class SightCheck
{
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fixedvec3 sightstart ;
fixedvec2 sightend ;
fixed_t startfrac ;
AActor * seeingthing ;
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fixed_t lastztop ; // z at last line
fixed_t lastzbottom ; // z at last line
sector_t * lastsector ; // last sector being entered by trace
fixed_t topslope , bottomslope ; // slopes to top and bottom of target
int Flags ;
divline_t trace ;
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int portaldir ;
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int portalgroup ;
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bool portalfound ;
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unsigned int myseethrough ;
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void P_SightOpening ( SightOpening & open , const line_t * linedef , fixed_t x , fixed_t y ) ;
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bool PTR_SightTraverse ( intercept_t * in ) ;
bool P_SightCheckLine ( line_t * ld ) ;
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int P_SightBlockLinesIterator ( int x , int y ) ;
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bool P_SightTraverseIntercepts ( ) ;
public :
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bool P_SightPathTraverse ( ) ;
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void init ( AActor * t1 , AActor * t2 , sector_t * startsector , SightTask * task , int flags )
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{
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sightstart = t1 - > PosRelative ( task - > portalgroup ) ;
sightend = t2 - > PosRelative ( task - > portalgroup ) ;
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sightstart . z + = t1 - > height - ( t1 - > height > > 2 ) ;
startfrac = task - > frac ;
trace = { sightstart . x , sightstart . y , sightend . x - sightstart . x , sightend . y - sightstart . y } ;
lastztop = lastzbottom = sightstart . z ;
lastsector = startsector ;
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seeingthing = t2 ;
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topslope = task - > topslope ;
bottomslope = task - > bottomslope ;
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Flags = flags ;
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portaldir = task - > direction ;
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portalfound = false ;
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myseethrough = FF_SEETHROUGH ;
}
} ;
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//==========================================================================
//
// P_SightOpening
//
// Simplified version that removes everything not needed for a sight check
//
//==========================================================================
void SightCheck : : P_SightOpening ( SightOpening & open , const line_t * linedef , fixed_t x , fixed_t y )
{
open . portalflags = 0 ;
sector_t * front = linedef - > frontsector ;
sector_t * back = linedef - > backsector ;
if ( back = = NULL )
{
// single sided line
if ( linedef - > flags & ML_PORTALCONNECT )
{
if ( ! front - > PortalBlocksSight ( sector_t : : ceiling ) ) open . portalflags | = SO_TOPFRONT ;
if ( ! front - > PortalBlocksSight ( sector_t : : floor ) ) open . portalflags | = SO_BOTTOMFRONT ;
}
open . range = 0 ;
return ;
}
fixed_t fc = 0 , ff = 0 , bc = 0 , bf = 0 ;
if ( linedef - > flags & ML_PORTALCONNECT )
{
if ( ! front - > PortalBlocksSight ( sector_t : : ceiling ) ) fc = FIXED_MAX , open . portalflags | = SO_TOPFRONT ;
if ( ! back - > PortalBlocksSight ( sector_t : : ceiling ) ) bc = FIXED_MAX , open . portalflags | = SO_TOPBACK ;
if ( ! front - > PortalBlocksSight ( sector_t : : floor ) ) ff = FIXED_MIN , open . portalflags | = SO_BOTTOMFRONT ;
if ( ! back - > PortalBlocksSight ( sector_t : : floor ) ) bf = FIXED_MIN , open . portalflags | = SO_BOTTOMBACK ;
}
if ( fc = = 0 ) fc = front - > ceilingplane . ZatPoint ( x , y ) ;
if ( bc = = 0 ) bc = back - > ceilingplane . ZatPoint ( x , y ) ;
if ( ff = = 0 ) ff = front - > floorplane . ZatPoint ( x , y ) ;
if ( bf = = 0 ) bf = back - > floorplane . ZatPoint ( x , y ) ;
open . bottom = MAX ( ff , bf ) ;
open . top = MIN ( fc , bc ) ;
// we only want to know if there is an opening, not how large it is.
open . range = open . bottom > = open . top ? 0 : 1 ;
}
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/*
= = = = = = = = = = = = = =
=
= PTR_SightTraverse
=
= = = = = = = = = = = = = =
*/
bool SightCheck : : PTR_SightTraverse ( intercept_t * in )
{
line_t * li ;
fixed_t slope ;
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SightOpening open ;
int frontflag = - 1 ;
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li = in - > d . line ;
//
// crosses a two sided line
//
// ignore self referencing sectors if COMPAT_TRACE is on
if ( ( i_compatflags & COMPATF_TRACE ) & & li - > frontsector = = li - > backsector )
return true ;
fixed_t trX = trace . x + FixedMul ( trace . dx , in - > frac ) ;
fixed_t trY = trace . y + FixedMul ( trace . dy , in - > frac ) ;
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P_SightOpening ( open , li , trX , trY ) ;
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FLinePortal * lport = li - > getPortal ( ) ;
if ( open . range = = 0 & & open . portalflags = = 0 & & ( lport = = NULL | | lport - > mType ! = PORTT_LINKED ) ) // quick test for totally closed doors (must be delayed if portal checks are needed, though)
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return false ; // stop
// check bottom
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if ( open . bottom > FIXED_MIN )
{
slope = FixedDiv ( open . bottom - sightstart . z , in - > frac ) ;
if ( slope > bottomslope )
bottomslope = slope ;
}
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// check top
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if ( open . top < FIXED_MAX )
{
slope = FixedDiv ( open . top - sightstart . z , in - > frac ) ;
if ( slope < topslope )
topslope = slope ;
}
if ( open . portalflags )
{
sector_t * frontsec , * backsec ;
frontflag = P_PointOnLineSidePrecise ( sightstart . x , sightstart . y , li ) ;
if ( ! frontflag )
{
frontsec = li - > frontsector ;
backsec = li - > backsector ;
}
else
{
frontsec = li - > backsector ;
if ( ! frontsec ) return false ; // We are looking through the backside of a one-sided line. Just abort if that happens.
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backsec = li - > frontsector ;
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open . SwapSides ( ) ; // swap flags to make the next checks simpler.
}
if ( portaldir ! = sector_t : : floor & & ( open . portalflags & SO_TOPBACK ) & & ! ( open . portalflags & SO_TOPFRONT ) )
{
portals . Push ( { in - > frac , topslope , bottomslope , sector_t : : ceiling , backsec - > SkyBoxes [ sector_t : : ceiling ] - > Sector - > PortalGroup } ) ;
}
if ( portaldir ! = sector_t : : ceiling & & ( open . portalflags & SO_BOTTOMBACK ) & & ! ( open . portalflags & SO_BOTTOMFRONT ) )
{
portals . Push ( { in - > frac , topslope , bottomslope , sector_t : : floor , backsec - > SkyBoxes [ sector_t : : floor ] - > Sector - > PortalGroup } ) ;
}
}
if ( lport )
{
portals . Push ( { in - > frac , topslope , bottomslope , portaldir , lport - > mDestination - > frontsector - > PortalGroup } ) ;
return false ;
}
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if ( topslope < = bottomslope | | open . range = = 0 )
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return false ; // stop
// now handle 3D-floors
if ( li - > frontsector - > e - > XFloor . ffloors . Size ( ) | | li - > backsector - > e - > XFloor . ffloors . Size ( ) )
{
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if ( frontflag = = - 1 ) frontflag = P_PointOnLineSidePrecise ( sightstart . x , sightstart . y , li ) ;
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//Check 3D FLOORS!
for ( int i = 1 ; i < = 2 ; i + + )
{
sector_t * s = i = = 1 ? li - > frontsector : li - > backsector ;
fixed_t highslope , lowslope ;
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fixed_t topz = FixedMul ( topslope , in - > frac ) + sightstart . z ;
fixed_t bottomz = FixedMul ( bottomslope , in - > frac ) + sightstart . z ;
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for ( unsigned int j = 0 ; j < s - > e - > XFloor . ffloors . Size ( ) ; j + + )
{
F3DFloor * rover = s - > e - > XFloor . ffloors [ j ] ;
if ( ( rover - > flags & FF_SEETHROUGH ) = = myseethrough | | ! ( rover - > flags & FF_EXISTS ) ) continue ;
if ( ( Flags & SF_IGNOREWATERBOUNDARY ) & & ( rover - > flags & FF_SOLID ) = = 0 ) continue ;
fixed_t ff_bottom = rover - > bottom . plane - > ZatPoint ( trX , trY ) ;
fixed_t ff_top = rover - > top . plane - > ZatPoint ( trX , trY ) ;
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highslope = FixedDiv ( ff_top - sightstart . z , in - > frac ) ;
lowslope = FixedDiv ( ff_bottom - sightstart . z , in - > frac ) ;
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if ( highslope > = topslope )
{
// blocks completely
if ( lowslope < = bottomslope ) return false ;
// blocks upper edge of view
if ( lowslope < topslope ) topslope = lowslope ;
}
else if ( lowslope < = bottomslope )
{
// blocks lower edge of view
if ( highslope > bottomslope ) bottomslope = highslope ;
}
else
{
// the 3D-floor is inside the viewing cone but neither clips the top nor the bottom so by
// itself it can't be view blocking.
// However, if there's a 3D-floor on the other side that obstructs the same vertical range
// the 2 together will block sight.
sector_t * sb = i = = 2 ? li - > frontsector : li - > backsector ;
for ( unsigned int k = 0 ; k < sb - > e - > XFloor . ffloors . Size ( ) ; k + + )
{
F3DFloor * rover2 = sb - > e - > XFloor . ffloors [ k ] ;
if ( ( rover2 - > flags & FF_SEETHROUGH ) = = myseethrough | | ! ( rover2 - > flags & FF_EXISTS ) ) continue ;
if ( ( Flags & SF_IGNOREWATERBOUNDARY ) & & ( rover - > flags & FF_SOLID ) = = 0 ) continue ;
fixed_t ffb_bottom = rover2 - > bottom . plane - > ZatPoint ( trX , trY ) ;
fixed_t ffb_top = rover2 - > top . plane - > ZatPoint ( trX , trY ) ;
if ( ( ffb_bottom > = ff_bottom & & ffb_bottom < = ff_top ) | |
( ffb_top < = ff_top & & ffb_top > = ff_bottom ) | |
( ffb_top > = ff_top & & ffb_bottom < = ff_bottom ) | |
( ffb_top < = ff_top & & ffb_bottom > = ff_bottom ) )
{
return false ;
}
}
}
// trace is leaving a sector with a 3d-floor
if ( s = = lastsector & & frontflag = = i - 1 )
{
// upper slope intersects with this 3d-floor
if ( lastztop < = ff_bottom & & topz > ff_top )
{
topslope = lowslope ;
}
// lower slope intersects with this 3d-floor
if ( lastzbottom > = ff_top & & bottomz < ff_top )
{
bottomslope = highslope ;
}
}
if ( topslope < = bottomslope ) return false ; // stop
}
}
lastsector = frontflag = = 0 ? li - > backsector : li - > frontsector ;
}
else lastsector = NULL ; // don't need it if there are no 3D-floors
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lastztop = FixedMul ( topslope , in - > frac ) + sightstart . z ;
lastzbottom = FixedMul ( bottomslope , in - > frac ) + sightstart . z ;
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return true ; // keep going
}
/*
= = = = = = = = = = = = = = = = = =
=
= P_SightCheckLine
=
= = = = = = = = = = = = = = = = = = =
*/
bool SightCheck : : P_SightCheckLine ( line_t * ld )
{
divline_t dl ;
if ( ld - > validcount = = validcount )
{
return true ;
}
ld - > validcount = validcount ;
if ( P_PointOnDivlineSidePrecise ( ld - > v1 - > x , ld - > v1 - > y , & trace ) = =
P_PointOnDivlineSidePrecise ( ld - > v2 - > x , ld - > v2 - > y , & trace ) )
{
return true ; // line isn't crossed
}
P_MakeDivline ( ld , & dl ) ;
if ( P_PointOnDivlineSidePrecise ( trace . x , trace . y , & dl ) = =
P_PointOnDivlineSidePrecise ( trace . x + trace . dx , trace . y + trace . dy , & dl ) )
{
return true ; // line isn't crossed
}
// try to early out the check
if ( ! ld - > backsector | | ! ( ld - > flags & ML_TWOSIDED ) | | ( ld - > flags & ML_BLOCKSIGHT ) )
return false ; // stop checking
// [RH] don't see past block everything lines
if ( ld - > flags & ML_BLOCKEVERYTHING )
{
if ( ! ( Flags & SF_SEEPASTBLOCKEVERYTHING ) )
{
return false ;
}
// Pretend the other side is invisible if this is not an impact line
// that runs a script on the current map. Used to prevent monsters
// from trying to attack through a block everything line unless
// there's a chance their attack will make it nonblocking.
if ( ! ( Flags & SF_SEEPASTSHOOTABLELINES ) )
{
if ( ! ( ld - > activation & SPAC_Impact ) )
{
return false ;
}
if ( ld - > special ! = ACS_Execute & & ld - > special ! = ACS_ExecuteAlways )
{
return false ;
}
if ( ld - > args [ 1 ] ! = 0 & & ld - > args [ 1 ] ! = level . levelnum )
{
return false ;
}
}
}
sightcounts [ 3 ] + + ;
// store the line for later intersection testing
intercept_t newintercept ;
newintercept . isaline = true ;
newintercept . d . line = ld ;
intercepts . Push ( newintercept ) ;
return true ;
}
/*
= = = = = = = = = = = = = = = = = =
=
= P_SightBlockLinesIterator
=
= = = = = = = = = = = = = = = = = = =
*/
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int SightCheck : : P_SightBlockLinesIterator ( int x , int y )
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{
int offset ;
int * list ;
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int res = 1 ;
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polyblock_t * polyLink ;
unsigned int i ;
extern polyblock_t * * PolyBlockMap ;
offset = y * bmapwidth + x ;
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// if any of the previous blocks may contain a portal we may abort the collection of lines here, but we may not abort the sight check.
// (We still try to delay activating this for as long as possible.)
portalfound = portalfound | | PortalBlockmap ( x , y ) . containsLinkedPortals ;
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polyLink = PolyBlockMap [ offset ] ;
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portalfound | = ( polyLink & & PortalBlockmap . hasLinkedPolyPortals ) ;
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while ( polyLink )
{
if ( polyLink - > polyobj )
{ // only check non-empty links
if ( polyLink - > polyobj - > validcount ! = validcount )
{
polyLink - > polyobj - > validcount = validcount ;
for ( i = 0 ; i < polyLink - > polyobj - > Linedefs . Size ( ) ; i + + )
{
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if ( ! P_SightCheckLine ( polyLink - > polyobj - > Linedefs [ i ] ) )
{
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if ( ! portalfound ) return 0 ;
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else res = - 1 ;
}
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}
}
}
polyLink = polyLink - > next ;
}
offset = * ( blockmap + offset ) ;
for ( list = blockmaplump + offset + 1 ; * list ! = - 1 ; list + + )
{
if ( ! P_SightCheckLine ( & lines [ * list ] ) )
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{
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if ( ! portalfound ) return 0 ;
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else res = - 1 ;
}
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}
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return res ; // everything was checked
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}
/*
= = = = = = = = = = = = = = = = = = = =
=
= P_SightTraverseIntercepts
=
= Returns true if the traverser function returns true for all lines
= = = = = = = = = = = = = = = = = = = =
*/
bool SightCheck : : P_SightTraverseIntercepts ( )
{
unsigned count ;
fixed_t dist ;
intercept_t * scan , * in ;
unsigned scanpos ;
divline_t dl ;
count = intercepts . Size ( ) ;
//
// calculate intercept distance
//
for ( scanpos = 0 ; scanpos < intercepts . Size ( ) ; scanpos + + )
{
scan = & intercepts [ scanpos ] ;
P_MakeDivline ( scan - > d . line , & dl ) ;
scan - > frac = P_InterceptVector ( & trace , & dl ) ;
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if ( scan - > frac < startfrac )
{
scan - > frac = FIXED_MAX ;
count - - ;
}
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}
//
// go through in order
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// proper order is needed to handle 3D floors and portals.
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//
in = NULL ;
while ( count - - )
{
dist = FIXED_MAX ;
for ( scanpos = 0 ; scanpos < intercepts . Size ( ) ; scanpos + + )
{
scan = & intercepts [ scanpos ] ;
if ( scan - > frac < dist )
{
dist = scan - > frac ;
in = scan ;
}
}
if ( in ! = NULL )
{
if ( ! PTR_SightTraverse ( in ) )
return false ; // don't bother going farther
in - > frac = FIXED_MAX ;
}
}
if ( lastsector = = seeingthing - > Sector & & lastsector - > e - > XFloor . ffloors . Size ( ) )
{
// we must do one last check whether the trace has crossed a 3D floor in the last sector
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fixed_t topz = topslope + sightstart . z ;
fixed_t bottomz = bottomslope + sightstart . z ;
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for ( unsigned int i = 0 ; i < lastsector - > e - > XFloor . ffloors . Size ( ) ; i + + )
{
F3DFloor * rover = lastsector - > e - > XFloor . ffloors [ i ] ;
if ( ( rover - > flags & FF_SOLID ) = = myseethrough | | ! ( rover - > flags & FF_EXISTS ) ) continue ;
if ( ( Flags & SF_IGNOREWATERBOUNDARY ) & & ( rover - > flags & FF_SOLID ) = = 0 ) continue ;
fixed_t ff_bottom = rover - > bottom . plane - > ZatPoint ( seeingthing ) ;
fixed_t ff_top = rover - > top . plane - > ZatPoint ( seeingthing ) ;
if ( lastztop < = ff_bottom & & topz > ff_bottom & & lastzbottom < = ff_bottom & & bottomz > ff_bottom ) return false ;
if ( lastzbottom > = ff_top & & bottomz < ff_top & & lastztop > = ff_top & & topz < ff_top ) return false ;
}
}
return true ; // everything was traversed
}
/*
= = = = = = = = = = = = = = = = = =
=
= P_SightPathTraverse
=
= Traces a line from x1 , y1 to x2 , y2 , calling the traverser function for each block
= Returns true if the traverser function returns true for all lines
= = = = = = = = = = = = = = = = = =
*/
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bool SightCheck : : P_SightPathTraverse ( )
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{
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fixed_t x1 , x2 , y1 , y2 ;
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fixed_t xt1 , yt1 , xt2 , yt2 ;
long long _x1 , _y1 , _x2 , _y2 ;
fixed_t xstep , ystep ;
fixed_t partialx , partialy ;
fixed_t xintercept , yintercept ;
int mapx , mapy , mapxstep , mapystep ;
int count ;
validcount + + ;
intercepts . Clear ( ) ;
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x1 = sightstart . x + FixedMul ( startfrac , trace . dx ) ;
y1 = sightstart . y + FixedMul ( startfrac , trace . dy ) ;
x2 = sightend . x ;
y2 = sightend . y ;
if ( lastsector = = NULL ) lastsector = P_PointInSector ( x1 , y1 ) ;
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// for FF_SEETHROUGH the following rule applies:
// If the viewer is in an area without FF_SEETHROUGH he can only see into areas without this flag
// If the viewer is in an area with FF_SEETHROUGH he can only see into areas with this flag
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bool checkfloor = true , checkceiling = true ;
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for ( unsigned int i = 0 ; i < lastsector - > e - > XFloor . ffloors . Size ( ) ; i + + )
{
F3DFloor * rover = lastsector - > e - > XFloor . ffloors [ i ] ;
if ( ! ( rover - > flags & FF_EXISTS ) ) continue ;
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fixed_t ff_bottom = rover - > bottom . plane - > ZatPoint ( sightstart ) ;
fixed_t ff_top = rover - > top . plane - > ZatPoint ( sightstart ) ;
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if ( sightstart . z < ff_top ) checkceiling = false ;
if ( sightstart . z > = ff_bottom ) checkfloor = false ;
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if ( sightstart . z < ff_top & & sightstart . z > = ff_bottom )
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{
myseethrough = rover - > flags & FF_SEETHROUGH ;
break ;
}
}
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// We also must check if the starting sector contains portals, and start sight checks in those as well.
if ( portaldir ! = sector_t : : floor & & checkceiling & & ! lastsector - > PortalBlocksSight ( sector_t : : ceiling ) )
{
portals . Push ( { 0 , topslope , bottomslope , sector_t : : ceiling , lastsector - > SkyBoxes [ sector_t : : ceiling ] - > Sector - > PortalGroup } ) ;
}
if ( portaldir ! = sector_t : : ceiling & & checkfloor & & ! lastsector - > PortalBlocksSight ( sector_t : : floor ) )
{
portals . Push ( { 0 , topslope , bottomslope , sector_t : : floor , lastsector - > SkyBoxes [ sector_t : : floor ] - > Sector - > PortalGroup } ) ;
}
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if ( ( ( x1 - bmaporgx ) & ( MAPBLOCKSIZE - 1 ) ) = = 0 )
x1 + = FRACUNIT ; // don't side exactly on a line
if ( ( ( y1 - bmaporgy ) & ( MAPBLOCKSIZE - 1 ) ) = = 0 )
y1 + = FRACUNIT ; // don't side exactly on a line
_x1 = ( long long ) x1 - bmaporgx ;
_y1 = ( long long ) y1 - bmaporgy ;
x1 - = bmaporgx ;
y1 - = bmaporgy ;
xt1 = int ( _x1 > > MAPBLOCKSHIFT ) ;
yt1 = int ( _y1 > > MAPBLOCKSHIFT ) ;
_x2 = ( long long ) x2 - bmaporgx ;
_y2 = ( long long ) y2 - bmaporgy ;
x2 - = bmaporgx ;
y2 - = bmaporgy ;
xt2 = int ( _x2 > > MAPBLOCKSHIFT ) ;
yt2 = int ( _y2 > > MAPBLOCKSHIFT ) ;
if ( xt2 > xt1 )
{
mapxstep = 1 ;
partialx = FRACUNIT - ( ( x1 > > MAPBTOFRAC ) & ( FRACUNIT - 1 ) ) ;
ystep = FixedDiv ( y2 - y1 , abs ( x2 - x1 ) ) ;
}
else if ( xt2 < xt1 )
{
mapxstep = - 1 ;
partialx = ( x1 > > MAPBTOFRAC ) & ( FRACUNIT - 1 ) ;
ystep = FixedDiv ( y2 - y1 , abs ( x2 - x1 ) ) ;
}
else
{
mapxstep = 0 ;
partialx = FRACUNIT ;
ystep = 256 * FRACUNIT ;
}
yintercept = int ( _y1 > > MAPBTOFRAC ) + FixedMul ( partialx , ystep ) ;
if ( yt2 > yt1 )
{
mapystep = 1 ;
partialy = FRACUNIT - ( ( y1 > > MAPBTOFRAC ) & ( FRACUNIT - 1 ) ) ;
xstep = FixedDiv ( x2 - x1 , abs ( y2 - y1 ) ) ;
}
else if ( yt2 < yt1 )
{
mapystep = - 1 ;
partialy = ( y1 > > MAPBTOFRAC ) & ( FRACUNIT - 1 ) ;
xstep = FixedDiv ( x2 - x1 , abs ( y2 - y1 ) ) ;
}
else
{
mapystep = 0 ;
partialy = FRACUNIT ;
xstep = 256 * FRACUNIT ;
}
xintercept = int ( _x1 > > MAPBTOFRAC ) + FixedMul ( partialy , xstep ) ;
// [RH] Fix for traces that pass only through blockmap corners. In that case,
// xintercept and yintercept can both be set ahead of mapx and mapy, so the
// for loop would never advance anywhere.
if ( abs ( xstep ) = = FRACUNIT & & abs ( ystep ) = = FRACUNIT )
{
if ( ystep < 0 )
{
partialx = FRACUNIT - partialx ;
}
if ( xstep < 0 )
{
partialy = FRACUNIT - partialy ;
}
if ( partialx = = partialy )
{
xintercept = xt1 < < FRACBITS ;
yintercept = yt1 < < FRACBITS ;
}
}
//
// step through map blocks
// Count is present to prevent a round off error from skipping the break
mapx = xt1 ;
mapy = yt1 ;
for ( count = 0 ; count < 100 ; count + + )
{
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// end traversing when reaching the end of the blockmap
// an early out is not possible because with portals a trace can easily land outside the map's bounds.
if ( mapx < 0 | | mapx > = bmapwidth | | mapy < 0 | | mapy > = bmapheight )
{
break ;
}
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int res = P_SightBlockLinesIterator ( mapx , mapy ) ;
if ( res = = 0 )
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{
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sightcounts [ 1 ] + + ;
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return false ; // early out
}
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// either reached the end or had an early-out condition with portals left to check,
if ( res = = - 1 | | ( mapxstep | mapystep ) = = 0 )
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break ;
switch ( ( ( ( yintercept > > FRACBITS ) = = mapy ) < < 1 ) | ( ( xintercept > > FRACBITS ) = = mapx ) )
{
case 0 : // neither xintercept nor yintercept match!
sightcounts [ 5 ] + + ;
// Continuing won't make things any better, so we might as well stop right here
count = 100 ;
break ;
case 1 : // xintercept matches
xintercept + = xstep ;
mapy + = mapystep ;
if ( mapy = = yt2 )
mapystep = 0 ;
break ;
case 2 : // yintercept matches
yintercept + = ystep ;
mapx + = mapxstep ;
if ( mapx = = xt2 )
mapxstep = 0 ;
break ;
case 3 : // xintercept and yintercept both match
sightcounts [ 4 ] + + ;
// The trace is exiting a block through its corner. Not only does the block
// being entered need to be checked (which will happen when this loop
// continues), but the other two blocks adjacent to the corner also need to
// be checked.
if ( ! P_SightBlockLinesIterator ( mapx + mapxstep , mapy ) | |
! P_SightBlockLinesIterator ( mapx , mapy + mapystep ) )
{
sightcounts [ 1 ] + + ;
return false ;
}
xintercept + = xstep ;
yintercept + = ystep ;
mapx + = mapxstep ;
mapy + = mapystep ;
if ( mapx = = xt2 )
mapxstep = 0 ;
if ( mapy = = yt2 )
mapystep = 0 ;
break ;
}
}
//
// couldn't early out, so go through the sorted list
//
sightcounts [ 2 ] + + ;
return P_SightTraverseIntercepts ( ) ;
}
/*
= = = = = = = = = = = = = = = = = = = = =
=
= P_CheckSight
=
= Returns true if a straight line between t1 and t2 is unobstructed
= look from eyes of t1 to any part of t2
=
= killough 4 / 20 / 98 : cleaned up , made to use new LOS struct
=
= = = = = = = = = = = = = = = = = = = = =
*/
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bool P_CheckSight ( AActor * t1 , AActor * t2 , int flags )
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{
SightCycles . Clock ( ) ;
bool res ;
assert ( t1 ! = NULL ) ;
assert ( t2 ! = NULL ) ;
if ( t1 = = NULL | | t2 = = NULL )
{
return false ;
}
const sector_t * s1 = t1 - > Sector ;
const sector_t * s2 = t2 - > Sector ;
int pnum = int ( s1 - sectors ) * numsectors + int ( s2 - sectors ) ;
//
// check for trivial rejection
//
if ( rejectmatrix ! = NULL & &
( rejectmatrix [ pnum > > 3 ] & ( 1 < < ( pnum & 7 ) ) ) )
{
sightcounts [ 0 ] + + ;
res = false ; // can't possibly be connected
goto done ;
}
//
// check precisely
//
// [RH] Andy Baker's stealth monsters:
// Cannot see an invisible object
if ( ( flags & SF_IGNOREVISIBILITY ) = = 0 & & ( ( t2 - > renderflags & RF_INVISIBLE ) | | ! t2 - > RenderStyle . IsVisible ( t2 - > alpha ) ) )
{ // small chance of an attack being made anyway
if ( ( bglobal . m_Thinking ? pr_botchecksight ( ) : pr_checksight ( ) ) > 50 )
{
res = false ;
goto done ;
}
}
// killough 4/19/98: make fake floors and ceilings block monster view
if ( ! ( flags & SF_IGNOREWATERBOUNDARY ) )
{
if ( ( s1 - > GetHeightSec ( ) & &
( ( t1 - > Z ( ) + t1 - > height < = s1 - > heightsec - > floorplane . ZatPoint ( t1 ) & &
t2 - > Z ( ) > = s1 - > heightsec - > floorplane . ZatPoint ( t2 ) ) | |
( t1 - > Z ( ) > = s1 - > heightsec - > ceilingplane . ZatPoint ( t1 ) & &
t2 - > Z ( ) + t1 - > height < = s1 - > heightsec - > ceilingplane . ZatPoint ( t2 ) ) ) )
| |
( s2 - > GetHeightSec ( ) & &
( ( t2 - > Z ( ) + t2 - > height < = s2 - > heightsec - > floorplane . ZatPoint ( t2 ) & &
t1 - > Z ( ) > = s2 - > heightsec - > floorplane . ZatPoint ( t1 ) ) | |
( t2 - > Z ( ) > = s2 - > heightsec - > ceilingplane . ZatPoint ( t2 ) & &
t1 - > Z ( ) + t2 - > height < = s2 - > heightsec - > ceilingplane . ZatPoint ( t1 ) ) ) ) )
{
res = false ;
goto done ;
}
}
// An unobstructed LOS is possible.
// Now look from eyes of t1 to any part of t2.
validcount + + ;
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portals . Clear ( ) ;
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{
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sector_t * sec ;
fixed_t lookheight = t1 - > height - ( t1 - > height > > 2 ) ;
t1 - > GetPortalTransition ( lookheight , & sec ) ;
fixed_t bottomslope = t2 - > Z ( ) - ( t1 - > Z ( ) + lookheight ) ;
fixed_t topslope = bottomslope + t2 - > height ;
SightTask task = { 0 , topslope , bottomslope , - 1 , sec - > PortalGroup } ;
SightCheck s ;
s . init ( t1 , t2 , sec , & task , flags ) ;
res = s . P_SightPathTraverse ( ) ;
if ( ! res )
{
fixed_t dist = t1 - > AproxDistance ( t2 ) ;
for ( unsigned i = 0 ; i < portals . Size ( ) ; i + + )
{
portals [ i ] . frac + = FixedDiv ( FRACUNIT , dist ) ;
s . init ( t1 , t2 , NULL , & portals [ i ] , flags ) ;
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if ( s . P_SightPathTraverse ( ) )
{
res = true ;
break ;
}
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}
}
2016-03-01 15:47:10 +00:00
}
done :
SightCycles . Unclock ( ) ;
return res ;
}
ADD_STAT ( sight )
{
FString out ;
out . Format ( " %04.1f ms (%04.1f max), %5d %2d%4d%4d%4d%4d \n " ,
SightCycles . TimeMS ( ) , MaxSightCycles . TimeMS ( ) ,
sightcounts [ 3 ] , sightcounts [ 0 ] , sightcounts [ 1 ] , sightcounts [ 2 ] , sightcounts [ 4 ] , sightcounts [ 5 ] ) ;
return out ;
}
void P_ResetSightCounters ( bool full )
{
if ( full )
{
MaxSightCycles . Reset ( ) ;
}
if ( SightCycles . Time ( ) > MaxSightCycles . Time ( ) )
{
MaxSightCycles = SightCycles ;
}
SightCycles . Reset ( ) ;
memset ( sightcounts , 0 , sizeof ( sightcounts ) ) ;
}