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/*
* * portals . cpp
* * Everything that has to do with portals ( both of the line and sector variety )
* *
* * - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
* * Copyright 2016 ZZYZX
* * Copyright 2016 Christoph Oelckers
* * All rights reserved .
* *
* * Redistribution and use in source and binary forms , with or without
* * modification , are permitted provided that the following conditions
* * are met :
* *
* * 1. Redistributions of source code must retain the above copyright
* * notice , this list of conditions and the following disclaimer .
* * 2. Redistributions in binary form must reproduce the above copyright
* * notice , this list of conditions and the following disclaimer in the
* * documentation and / or other materials provided with the distribution .
* * 3. The name of the author may not be used to endorse or promote products
* * derived from this software without specific prior written permission .
* *
* * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ` ` AS IS ' ' AND ANY EXPRESS OR
* * IMPLIED WARRANTIES , INCLUDING , BUT NOT LIMITED TO , THE IMPLIED WARRANTIES
* * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED .
* * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT , INDIRECT ,
* * INCIDENTAL , SPECIAL , EXEMPLARY , OR CONSEQUENTIAL DAMAGES ( INCLUDING , BUT
* * NOT LIMITED TO , PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES ; LOSS OF USE ,
* * DATA , OR PROFITS ; OR BUSINESS INTERRUPTION ) HOWEVER CAUSED AND ON ANY
* * THEORY OF LIABILITY , WHETHER IN CONTRACT , STRICT LIABILITY , OR TORT
* * ( INCLUDING NEGLIGENCE OR OTHERWISE ) ARISING IN ANY WAY OUT OF THE USE OF
* * THIS SOFTWARE , EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE .
* * - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
* *
* * There is no code here that is directly taken from Eternity
* * although some similarities may be inevitable because it has to
* * implement the same concepts .
*/
# include "p_local.h"
# include "p_blockmap.h"
# include "p_lnspec.h"
# include "c_cvars.h"
# include "m_bbox.h"
# include "p_tags.h"
# include "v_text.h"
# include "a_sharedglobal.h"
# include "i_system.h"
# include "c_dispatch.h"
# include "p_maputl.h"
# include "p_spec.h"
# include "p_checkposition.h"
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# include "math/cmath.h"
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# include "g_levellocals.h"
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// simulation recurions maximum
CVAR ( Int , sv_portal_recursions , 4 , CVAR_ARCHIVE | CVAR_SERVERINFO )
FDisplacementTable Displacements ;
FPortalBlockmap PortalBlockmap ;
TArray < FLinePortal > linePortals ;
TArray < FLinePortal * > linkedPortals ; // only the linked portals, this is used to speed up looking for them in P_CollectConnectedGroups.
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TArray < FSectorPortal > sectorPortals ;
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//============================================================================
//
// This is used to mark processed portals for some collection functions.
//
//============================================================================
struct FPortalBits
{
TArray < DWORD > data ;
void setSize ( int num )
{
data . Resize ( ( num + 31 ) / 32 ) ;
clear ( ) ;
}
void clear ( )
{
memset ( & data [ 0 ] , 0 , data . Size ( ) * sizeof ( DWORD ) ) ;
}
void setBit ( int group )
{
data [ group > > 5 ] | = ( 1 < < ( group & 31 ) ) ;
}
int getBit ( int group )
{
return data [ group > > 5 ] & ( 1 < < ( group & 31 ) ) ;
}
} ;
//============================================================================
//
// BuildBlockmap
//
//============================================================================
static void BuildBlockmap ( )
{
PortalBlockmap . Clear ( ) ;
PortalBlockmap . Create ( bmapwidth , bmapheight ) ;
for ( int y = 0 ; y < bmapheight ; y + + )
{
for ( int x = 0 ; x < bmapwidth ; x + + )
{
int offset = y * bmapwidth + x ;
int * list = blockmaplump + * ( blockmap + offset ) + 1 ;
FPortalBlock & block = PortalBlockmap ( x , y ) ;
while ( * list ! = - 1 )
{
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line_t * ld = & level . lines [ * list + + ] ;
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FLinePortal * port = ld - > getPortal ( ) ;
if ( port & & port - > mType ! = PORTT_VISUAL )
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{
PortalBlockmap . containsLines = true ;
block . portallines . Push ( ld ) ;
block . neighborContainsLines = true ;
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if ( ld - > getPortal ( ) - > mType = = PORTT_LINKED ) block . containsLinkedPortals = true ;
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if ( x > 0 ) PortalBlockmap ( x - 1 , y ) . neighborContainsLines = true ;
if ( y > 0 ) PortalBlockmap ( x , y - 1 ) . neighborContainsLines = true ;
if ( x < PortalBlockmap . dx - 1 ) PortalBlockmap ( x + 1 , y ) . neighborContainsLines = true ;
if ( y < PortalBlockmap . dy - 1 ) PortalBlockmap ( x , y + 1 ) . neighborContainsLines = true ;
}
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else
{
bool yes = ld - > frontsector - > PortalIsLinked ( sector_t : : ceiling ) | | ld - > frontsector - > PortalIsLinked ( sector_t : : floor ) ;
if ( ld - > backsector )
{
yes | = ld - > backsector - > PortalIsLinked ( sector_t : : ceiling ) | | ld - > backsector - > PortalIsLinked ( sector_t : : floor ) ;
}
block . containsLinkedPortals | = yes ;
PortalBlockmap . hasLinkedSectorPortals | = yes ;
}
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}
}
}
}
//===========================================================================
//
// FLinePortalTraverse :: AddLineIntercepts.
//
// Similar to AddLineIntercepts but checks the portal blockmap for line-to-line portals
//
//===========================================================================
void FLinePortalTraverse : : AddLineIntercepts ( int bx , int by )
{
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if ( by < 0 | | by > = bmapheight | | bx < 0 | | bx > = bmapwidth ) return ;
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FPortalBlock & block = PortalBlockmap ( bx , by ) ;
for ( unsigned i = 0 ; i < block . portallines . Size ( ) ; i + + )
{
line_t * ld = block . portallines [ i ] ;
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double frac ;
divline_t dl ;
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if ( ld - > validcount = = validcount ) continue ; // already processed
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if ( P_PointOnDivlineSide ( ld - > v1 - > fPos ( ) , & trace ) = =
P_PointOnDivlineSide ( ld - > v2 - > fPos ( ) , & trace ) )
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{
continue ; // line isn't crossed
}
P_MakeDivline ( ld , & dl ) ;
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if ( P_PointOnDivlineSide ( trace . x , trace . y , & dl ) ! = 0 | |
P_PointOnDivlineSide ( trace . x + trace . dx , trace . y + trace . dy , & dl ) ! = 1 )
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{
continue ; // line isn't crossed from the front side
}
// hit the line
P_MakeDivline ( ld , & dl ) ;
frac = P_InterceptVector ( & trace , & dl ) ;
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if ( frac < 0 | | frac > 1. ) continue ; // behind source
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intercept_t newintercept ;
newintercept . frac = frac ;
newintercept . isaline = true ;
newintercept . done = false ;
newintercept . d . line = ld ;
intercepts . Push ( newintercept ) ;
}
}
//============================================================================
//
// finds the destination for a line portal for spawning
//
//============================================================================
static line_t * FindDestination ( line_t * src , int tag )
{
if ( tag )
{
int lineno = - 1 ;
FLineIdIterator it ( tag ) ;
while ( ( lineno = it . Next ( ) ) > = 0 )
{
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if ( & level . lines [ lineno ] ! = src )
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{
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return & level . lines [ lineno ] ;
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}
}
}
return NULL ;
}
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//============================================================================
//
//
//
//============================================================================
static void SetRotation ( FLinePortal * port )
{
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if ( port ! = nullptr & & port - > mDestination ! = nullptr )
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{
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if ( port - > mType ! = PORTT_LINKED )
{
line_t * dst = port - > mDestination ;
line_t * line = port - > mOrigin ;
DAngle angle = dst - > Delta ( ) . Angle ( ) - line - > Delta ( ) . Angle ( ) + 180. ;
port - > mSinRot = sindeg ( angle . Degrees ) ; // Here precision matters so use the slower but more precise versions.
port - > mCosRot = cosdeg ( angle . Degrees ) ;
port - > mAngleDiff = angle ;
if ( ( line - > sidedef [ 0 ] - > Flags & WALLF_POLYOBJ ) | | ( dst - > sidedef [ 0 ] - > Flags & WALLF_POLYOBJ ) )
{
port - > mFlags | = PORTF_POLYOBJ ;
}
else
{
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port - > mFlags & = ~ PORTF_POLYOBJ ;
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}
}
else
{
// Linked portals have no angular difference.
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port - > mSinRot = 0. ;
port - > mCosRot = 1. ;
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port - > mAngleDiff = 0. ;
}
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}
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}
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//============================================================================
//
// Spawns a single line portal
//
//============================================================================
void P_SpawnLinePortal ( line_t * line )
{
// portal destination is special argument #0
line_t * dst = NULL ;
if ( line - > args [ 2 ] > = PORTT_VISUAL & & line - > args [ 2 ] < = PORTT_LINKED )
{
dst = FindDestination ( line , line - > args [ 0 ] ) ;
line - > portalindex = linePortals . Reserve ( 1 ) ;
FLinePortal * port = & linePortals . Last ( ) ;
memset ( port , 0 , sizeof ( FLinePortal ) ) ;
port - > mOrigin = line ;
port - > mDestination = dst ;
port - > mType = BYTE ( line - > args [ 2 ] ) ; // range check is done above.
if ( port - > mType = = PORTT_LINKED )
{
// Linked portals have no z-offset ever.
port - > mAlign = PORG_ABSOLUTE ;
}
else
{
port - > mAlign = BYTE ( line - > args [ 3 ] > = PORG_ABSOLUTE & & line - > args [ 3 ] < = PORG_CEILING ? line - > args [ 3 ] : PORG_ABSOLUTE ) ;
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if ( port - > mType = = PORTT_INTERACTIVE & & port - > mAlign ! = PORG_ABSOLUTE )
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{
// Due to the way z is often handled, these pose a major issue for parts of the code that needs to transparently handle interactive portals.
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Printf ( TEXTCOLOR_RED " Warning: z-offsetting not allowed for interactive portals. Changing line %d to teleport-portal! \n " , line - > Index ( ) ) ;
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port - > mType = PORTT_TELEPORT ;
}
}
if ( port - > mDestination ! = NULL )
{
port - > mDefFlags = port - > mType = = PORTT_VISUAL ? PORTF_VISIBLE : port - > mType = = PORTT_TELEPORT ? PORTF_TYPETELEPORT : PORTF_TYPEINTERACTIVE ;
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}
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}
else if ( line - > args [ 2 ] = = PORTT_LINKEDEE & & line - > args [ 0 ] = = 0 )
{
// EE-style portals require that the first line ID is identical and the first arg of the two linked linedefs are 0 and 1 respectively.
int mytag = tagManager . GetFirstLineID ( line ) ;
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for ( auto & ln : level . lines )
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{
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if ( tagManager . GetFirstLineID ( & ln ) = = mytag & & ln . args [ 0 ] = = 1 & & ln . special = = Line_SetPortal )
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{
line - > portalindex = linePortals . Reserve ( 1 ) ;
FLinePortal * port = & linePortals . Last ( ) ;
memset ( port , 0 , sizeof ( FLinePortal ) ) ;
port - > mOrigin = line ;
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port - > mDestination = & ln ;
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port - > mType = PORTT_LINKED ;
port - > mAlign = PORG_ABSOLUTE ;
port - > mDefFlags = PORTF_TYPEINTERACTIVE ;
// we need to create the backlink here, too.
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ln . portalindex = linePortals . Reserve ( 1 ) ;
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port = & linePortals . Last ( ) ;
memset ( port , 0 , sizeof ( FLinePortal ) ) ;
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port - > mOrigin = & ln ;
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port - > mDestination = line ;
port - > mType = PORTT_LINKED ;
port - > mAlign = PORG_ABSOLUTE ;
port - > mDefFlags = PORTF_TYPEINTERACTIVE ;
}
}
}
else
{
// undefined type
return ;
}
}
//============================================================================
//
// Update a line portal's state after all have been spawned
//
//============================================================================
void P_UpdatePortal ( FLinePortal * port )
{
if ( port - > mDestination = = NULL )
{
// Portal has no destination: switch it off
port - > mFlags = 0 ;
}
else if ( port - > mDestination - > getPortalDestination ( ) ! = port - > mOrigin )
{
//portal doesn't link back. This will be a simple teleporter portal.
port - > mFlags = port - > mDefFlags & ~ PORTF_INTERACTIVE ;
if ( port - > mType = = PORTT_LINKED )
{
// this is illegal. Demote the type to TELEPORT
port - > mType = PORTT_TELEPORT ;
port - > mDefFlags & = ~ PORTF_INTERACTIVE ;
}
}
else
{
port - > mFlags = port - > mDefFlags ;
if ( port - > mType = = PORTT_LINKED )
{
if ( linePortals [ port - > mDestination - > portalindex ] . mType ! = PORTT_LINKED )
{
port - > mType = PORTT_INTERACTIVE ; // linked portals must be two-way.
}
else
{
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port - > mDisplacement = port - > mDestination - > v2 - > fPos ( ) - port - > mOrigin - > v1 - > fPos ( ) ;
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}
}
}
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// Cache the angle between the two linedefs, for rotating.
SetRotation ( port ) ;
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}
//============================================================================
//
// Collect a separate list of linked portals so that these can be
// processed faster without the simpler types interfering.
//
//============================================================================
void P_CollectLinkedPortals ( )
{
linkedPortals . Clear ( ) ;
for ( unsigned i = 0 ; i < linePortals . Size ( ) ; i + + )
{
FLinePortal * port = & linePortals [ i ] ;
if ( port - > mType = = PORTT_LINKED )
{
linkedPortals . Push ( port ) ;
}
}
}
//============================================================================
//
// Post-process all line portals
//
//============================================================================
void P_FinalizePortals ( )
{
for ( unsigned i = 0 ; i < linePortals . Size ( ) ; i + + )
{
FLinePortal * port = & linePortals [ i ] ;
P_UpdatePortal ( port ) ;
}
P_CollectLinkedPortals ( ) ;
BuildBlockmap ( ) ;
P_CreateLinkedPortals ( ) ;
}
//============================================================================
//
// Change the destination of a portal
//
//============================================================================
static bool ChangePortalLine ( line_t * line , int destid )
{
if ( line - > portalindex > = linePortals . Size ( ) ) return false ;
FLinePortal * port = & linePortals [ line - > portalindex ] ;
if ( port - > mType = = PORTT_LINKED ) return false ; // linked portals cannot be changed.
if ( destid = = 0 ) port - > mDestination = NULL ;
port - > mDestination = FindDestination ( line , destid ) ;
if ( port - > mDestination = = NULL )
{
port - > mFlags = 0 ;
}
else if ( port - > mType = = PORTT_INTERACTIVE )
{
FLinePortal * portd = & linePortals [ port - > mDestination - > portalindex ] ;
if ( portd ! = NULL & & portd - > mType = = PORTT_INTERACTIVE & & portd - > mDestination = = line )
{
// this is a 2-way interactive portal
port - > mFlags = port - > mDefFlags | PORTF_INTERACTIVE ;
portd - > mFlags = portd - > mDefFlags | PORTF_INTERACTIVE ;
}
else
{
port - > mFlags = port - > mDefFlags ;
}
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SetRotation ( portd ) ;
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}
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SetRotation ( port ) ;
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return true ;
}
//============================================================================
//
// Change the destination of a group of portals
//
//============================================================================
bool P_ChangePortal ( line_t * ln , int thisid , int destid )
{
int lineno ;
if ( thisid = = 0 ) return ChangePortalLine ( ln , destid ) ;
FLineIdIterator it ( thisid ) ;
bool res = false ;
while ( ( lineno = it . Next ( ) ) > = 0 )
{
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res | = ChangePortalLine ( & level . lines [ lineno ] , destid ) ;
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}
return res ;
}
//============================================================================
//
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// clears all portal data for a new level start
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//
//============================================================================
void P_ClearPortals ( )
{
Displacements . Create ( 1 ) ;
linePortals . Clear ( ) ;
linkedPortals . Clear ( ) ;
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sectorPortals . Resize ( 2 ) ;
// The first entry must always be the default skybox. This is what every sector gets by default.
memset ( & sectorPortals [ 0 ] , 0 , sizeof ( sectorPortals [ 0 ] ) ) ;
sectorPortals [ 0 ] . mType = PORTS_SKYVIEWPOINT ;
sectorPortals [ 0 ] . mFlags = PORTSF_SKYFLATONLY ;
// The second entry will be the default sky. This is for forcing a regular sky through the skybox picker
memset ( & sectorPortals [ 1 ] , 0 , sizeof ( sectorPortals [ 0 ] ) ) ;
sectorPortals [ 1 ] . mType = PORTS_SKYVIEWPOINT ;
sectorPortals [ 1 ] . mFlags = PORTSF_SKYFLATONLY ;
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}
//============================================================================
//
// check if this line is between portal and the viewer. clip away if it is.
//
//============================================================================
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inline int P_GetLineSide ( const DVector2 & pos , const line_t * line )
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{
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double v = ( pos . Y - line - > v1 - > fY ( ) ) * line - > Delta ( ) . X + ( line - > v1 - > fX ( ) - pos . X ) * line - > Delta ( ) . Y ;
return v < - 1. / 65536. ? - 1 : v > 1. / 65536 ? 1 : 0 ;
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}
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bool P_ClipLineToPortal ( line_t * line , line_t * portal , DVector2 view , bool partial , bool samebehind )
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{
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int behind1 = P_GetLineSide ( line - > v1 - > fPos ( ) , portal ) ;
int behind2 = P_GetLineSide ( line - > v2 - > fPos ( ) , portal ) ;
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if ( behind1 = = 0 & & behind2 = = 0 )
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{
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// The line is parallel to the portal and cannot possibly be visible.
return true ;
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}
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// If one point lies on the same straight line than the portal, the other vertex will determine sidedness alone.
else if ( behind2 = = 0 ) behind2 = behind1 ;
else if ( behind1 = = 0 ) behind1 = behind2 ;
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if ( behind1 > 0 & & behind2 > 0 )
{
// The line is behind the portal, i.e. between viewer and portal line, and must be rejected
return true ;
}
else if ( behind1 < 0 & & behind2 < 0 )
{
// The line is in front of the portal, i.e. the portal is between viewer and line. This line must not be rejected
return false ;
}
else
{
// The line intersects with the portal straight, so we need to do another check to see how both ends of the portal lie in relation to the viewer.
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int viewside = P_GetLineSide ( view , line ) ;
int p1side = P_GetLineSide ( portal - > v1 - > fPos ( ) , line ) ;
int p2side = P_GetLineSide ( portal - > v2 - > fPos ( ) , line ) ;
// Do the same handling of points on the portal straight as above.
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if ( p1side = = 0 ) p1side = p2side ;
else if ( p2side = = 0 ) p2side = p1side ;
// If the portal is on the other side of the line than the viewpoint, there is no possibility to see this line inside the portal.
return ( p1side = = p2side & & viewside ! = p1side ) ;
}
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}
//============================================================================
//
// Translates a coordinate by a portal's displacement
//
//============================================================================
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void P_TranslatePortalXY ( line_t * src , double & x , double & y )
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{
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if ( ! src ) return ;
FLinePortal * port = src - > getPortal ( ) ;
if ( ! port ) return ;
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if ( port - > mFlags & PORTF_POLYOBJ ) SetRotation ( port ) ; // update the angle for polyportals.
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// offsets from line
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double nposx = x - src - > v1 - > fX ( ) ;
double nposy = y - src - > v1 - > fY ( ) ;
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// Rotate position along normal to match exit linedef
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double tx = nposx * port - > mCosRot - nposy * port - > mSinRot ;
double ty = nposy * port - > mCosRot + nposx * port - > mSinRot ;
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tx + = port - > mDestination - > v2 - > fX ( ) ;
ty + = port - > mDestination - > v2 - > fY ( ) ;
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x = tx ;
y = ty ;
}
//============================================================================
//
// Translates a velocity vector by a portal's displacement
//
//============================================================================
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void P_TranslatePortalVXVY ( line_t * src , double & velx , double & vely )
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{
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if ( ! src ) return ;
FLinePortal * port = src - > getPortal ( ) ;
if ( ! port ) return ;
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if ( port - > mFlags & PORTF_POLYOBJ ) SetRotation ( port ) ; // update the angle for polyportals.
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double orig_velx = velx ;
double orig_vely = vely ;
velx = orig_velx * port - > mCosRot - orig_vely * port - > mSinRot ;
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vely = orig_vely * port - > mCosRot + orig_velx * port - > mSinRot ;
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}
//============================================================================
//
// Translates an angle by a portal's displacement
//
//============================================================================
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void P_TranslatePortalAngle ( line_t * src , DAngle & angle )
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{
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if ( ! src ) return ;
FLinePortal * port = src - > getPortal ( ) ;
if ( ! port ) return ;
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if ( port - > mFlags & PORTF_POLYOBJ ) SetRotation ( port ) ; // update the angle for polyportals.
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angle = ( angle + port - > mAngleDiff ) . Normalized360 ( ) ;
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}
//============================================================================
//
// Translates a z-coordinate by a portal's displacement
//
//============================================================================
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void P_TranslatePortalZ ( line_t * src , double & z )
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{
// args[2] = 0 - no adjustment
// args[2] = 1 - adjust by floor difference
// args[2] = 2 - adjust by ceiling difference
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// This cannot be precalculated because heights may change.
line_t * dst = src - > getPortalDestination ( ) ;
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switch ( src - > getPortalAlignment ( ) )
{
case PORG_FLOOR :
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z = z - src - > frontsector - > floorplane . ZatPoint ( src - > v1 ) + dst - > frontsector - > floorplane . ZatPoint ( dst - > v2 ) ;
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return ;
case PORG_CEILING :
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z = z - src - > frontsector - > ceilingplane . ZatPoint ( src - > v1 ) + dst - > frontsector - > ceilingplane . ZatPoint ( dst - > v2 ) ;
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return ;
default :
return ;
}
}
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//============================================================================
//
// P_GetSkyboxPortal
//
// Gets a portal for a SkyViewpoint
// If none exists yet, it will create a new one.
//
//============================================================================
unsigned P_GetSkyboxPortal ( ASkyViewpoint * actor )
{
if ( actor = = NULL ) return 1 ; // this means a regular sky.
for ( unsigned i = 0 ; i < sectorPortals . Size ( ) ; i + + )
{
if ( sectorPortals [ i ] . mSkybox = = actor ) return i ;
}
unsigned i = sectorPortals . Reserve ( 1 ) ;
memset ( & sectorPortals [ i ] , 0 , sizeof ( sectorPortals [ i ] ) ) ;
sectorPortals [ i ] . mType = PORTS_SKYVIEWPOINT ;
sectorPortals [ i ] . mFlags = actor - > GetClass ( ) - > IsDescendantOf ( RUNTIME_CLASS ( ASkyCamCompat ) ) ? 0 : PORTSF_SKYFLATONLY ;
sectorPortals [ i ] . mSkybox = actor ;
sectorPortals [ i ] . mDestination = actor - > Sector ;
return i ;
}
//============================================================================
//
// P_GetPortal
//
// Creates a portal struct for a linedef-based portal
//
//============================================================================
unsigned P_GetPortal ( int type , int plane , sector_t * from , sector_t * to , const DVector2 & displacement )
{
unsigned i = sectorPortals . Reserve ( 1 ) ;
memset ( & sectorPortals [ i ] , 0 , sizeof ( sectorPortals [ i ] ) ) ;
sectorPortals [ i ] . mType = type ;
sectorPortals [ i ] . mPlane = plane ;
sectorPortals [ i ] . mOrigin = from ;
sectorPortals [ i ] . mDestination = to ;
sectorPortals [ i ] . mDisplacement = displacement ;
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sectorPortals [ i ] . mPlaneZ = type = = PORTS_LINKEDPORTAL ? from - > GetPlaneTexZ ( plane ) : FLT_MAX ;
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return i ;
}
//============================================================================
//
// P_GetStackPortal
//
// Creates a portal for a stacked sector thing
//
//============================================================================
unsigned P_GetStackPortal ( AActor * point , int plane )
{
unsigned i = sectorPortals . Reserve ( 1 ) ;
memset ( & sectorPortals [ i ] , 0 , sizeof ( sectorPortals [ i ] ) ) ;
sectorPortals [ i ] . mType = PORTS_STACKEDSECTORTHING ;
sectorPortals [ i ] . mPlane = plane ;
sectorPortals [ i ] . mOrigin = point - > target - > Sector ;
sectorPortals [ i ] . mDestination = point - > Sector ;
sectorPortals [ i ] . mPlaneZ = FLT_MAX ;
sectorPortals [ i ] . mSkybox = point ;
return i ;
}
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//============================================================================
//
// P_GetOffsetPosition
//
// Offsets a given coordinate if the trace from the origin crosses an
// interactive line-to-line portal.
//
//============================================================================
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DVector2 P_GetOffsetPosition ( double x , double y , double dx , double dy )
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{
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DVector2 dest ( x + dx , y + dy ) ;
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if ( PortalBlockmap . containsLines )
{
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double actx = x , acty = y ;
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// Try some easily discoverable early-out first. If we know that the trace cannot possibly find a portal, this saves us from calling the traverser completely for vast parts of the map.
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if ( dx < 128 & & dy < 128 )
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{
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int blockx = GetBlockX ( actx ) ;
int blocky = GetBlockY ( acty ) ;
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if ( blockx < 0 | | blocky < 0 | | blockx > = bmapwidth | | blocky > = bmapheight | | ! PortalBlockmap ( blockx , blocky ) . neighborContainsLines ) return dest ;
}
bool repeat ;
do
{
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FLinePortalTraverse it ;
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it . init ( actx , acty , dx , dy , PT_ADDLINES | PT_DELTA ) ;
intercept_t * in ;
repeat = false ;
while ( ( in = it . Next ( ) ) )
{
// hit a portal line.
line_t * line = in - > d . line ;
FLinePortal * port = line - > getPortal ( ) ;
// Teleport portals are intentionally ignored since skipping this stuff is their entire reason for existence.
if ( port - > mFlags & PORTF_INTERACTIVE )
{
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DVector2 hit = it . InterceptPoint ( in ) ;
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if ( port - > mType = = PORTT_LINKED )
{
// optimized handling for linked portals where we only need to add an offset.
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hit + = port - > mDisplacement ;
dest + = port - > mDisplacement ;
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}
else
{
// interactive ones are more complex because the vector may be rotated.
// Note: There is no z-translation here, there's just too much code in the engine that wouldn't be able to handle interactive portals with a height difference.
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P_TranslatePortalXY ( line , hit . X , hit . Y ) ;
P_TranslatePortalXY ( line , dest . X , dest . Y ) ;
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}
// update the fields, end this trace and restart from the new position
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dx = dest . X - hit . X ;
dy = dest . Y - hit . Y ;
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actx = hit . X ;
acty = hit . Y ;
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repeat = true ;
}
break ;
}
} while ( repeat ) ;
}
return dest ;
}
//============================================================================
//
// CollectSectors
//
// Collects all sectors that are connected to any sector belonging to a portal
// because they all will need the same displacement values
//
//============================================================================
static bool CollectSectors ( int groupid , sector_t * origin )
{
if ( origin - > PortalGroup ! = 0 ) return false ; // already processed
origin - > PortalGroup = groupid ;
TArray < sector_t * > list ( 16 ) ;
list . Push ( origin ) ;
for ( unsigned i = 0 ; i < list . Size ( ) ; i + + )
{
sector_t * sec = list [ i ] ;
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for ( auto line : sec - > Lines )
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{
sector_t * other = line - > frontsector = = sec ? line - > backsector : line - > frontsector ;
if ( other ! = NULL & & other ! = sec & & other - > PortalGroup ! = groupid )
{
other - > PortalGroup = groupid ;
list . Push ( other ) ;
}
}
}
return true ;
}
//============================================================================
//
// AddDisplacementForPortal
//
// Adds the displacement for one portal to the displacement array
// (one version for sector to sector plane, one for line to line portals)
//
// Note: Despite the similarities to Eternity's equivalent this is
// original code!
//
//============================================================================
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static void AddDisplacementForPortal ( FSectorPortal * portal )
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{
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int thisgroup = portal - > mOrigin - > PortalGroup ;
int othergroup = portal - > mDestination - > PortalGroup ;
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if ( thisgroup = = othergroup )
{
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Printf ( " Portal between sectors %d and %d has both sides in same group and will be disabled \n " , portal - > mOrigin - > sectornum , portal - > mDestination - > sectornum ) ;
portal - > mType = PORTS_PORTAL ;
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return ;
}
if ( thisgroup < = 0 | | thisgroup > = Displacements . size | | othergroup < = 0 | | othergroup > = Displacements . size )
{
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Printf ( " Portal between sectors %d and %d has invalid group and will be disabled \n " , portal - > mOrigin - > sectornum , portal - > mDestination - > sectornum ) ;
portal - > mType = PORTS_PORTAL ;
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return ;
}
FDisplacement & disp = Displacements ( thisgroup , othergroup ) ;
if ( ! disp . isSet )
{
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disp . pos = portal - > mDisplacement ;
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disp . isSet = true ;
}
else
{
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if ( disp . pos ! = portal - > mDisplacement )
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{
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Printf ( " Portal between sectors %d and %d has displacement mismatch and will be disabled \n " , portal - > mOrigin - > sectornum , portal - > mDestination - > sectornum ) ;
portal - > mType = PORTS_PORTAL ;
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return ;
}
}
}
static void AddDisplacementForPortal ( FLinePortal * portal )
{
int thisgroup = portal - > mOrigin - > frontsector - > PortalGroup ;
int othergroup = portal - > mDestination - > frontsector - > PortalGroup ;
if ( thisgroup = = othergroup )
{
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Printf ( " Portal between lines %d and %d has both sides in same group \n " , portal - > mOrigin - > Index ( ) , portal - > mDestination - > Index ( ) ) ;
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portal - > mType = linePortals [ portal - > mDestination - > portalindex ] . mType = PORTT_TELEPORT ;
return ;
}
if ( thisgroup < = 0 | | thisgroup > = Displacements . size | | othergroup < = 0 | | othergroup > = Displacements . size )
{
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Printf ( " Portal between lines %d and %d has invalid group \n " , portal - > mOrigin - > Index ( ) , portal - > mDestination - > Index ( ) ) ;
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portal - > mType = linePortals [ portal - > mDestination - > portalindex ] . mType = PORTT_TELEPORT ;
return ;
}
FDisplacement & disp = Displacements ( thisgroup , othergroup ) ;
if ( ! disp . isSet )
{
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disp . pos = portal - > mDisplacement ;
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disp . isSet = true ;
}
else
{
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if ( disp . pos ! = portal - > mDisplacement )
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{
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Printf ( " Portal between lines %d and %d has displacement mismatch \n " , portal - > mOrigin - > Index ( ) , portal - > mDestination - > Index ( ) ) ;
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portal - > mType = linePortals [ portal - > mDestination - > portalindex ] . mType = PORTT_TELEPORT ;
return ;
}
}
}
//============================================================================
//
// ConnectGroups
//
// Do the indirect connections. This loop will run until it cannot find any new connections
//
//============================================================================
static bool ConnectGroups ( )
{
// Now
BYTE indirect = 1 ;
bool bogus = false ;
bool changed ;
do
{
changed = false ;
for ( int x = 1 ; x < Displacements . size ; x + + )
{
for ( int y = 1 ; y < Displacements . size ; y + + )
{
FDisplacement & dispxy = Displacements ( x , y ) ;
if ( dispxy . isSet )
{
for ( int z = 1 ; z < Displacements . size ; z + + )
{
FDisplacement & dispyz = Displacements ( y , z ) ;
if ( dispyz . isSet )
{
FDisplacement & dispxz = Displacements ( x , z ) ;
if ( dispxz . isSet )
{
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if ( dispxy . pos . X + dispyz . pos . X ! = dispxz . pos . X | | dispxy . pos . Y + dispyz . pos . Y ! = dispxz . pos . Y )
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{
bogus = true ;
}
}
else
{
dispxz . pos = dispxy . pos + dispyz . pos ;
dispxz . isSet = true ;
dispxz . indirect = indirect ;
changed = true ;
}
}
}
}
}
}
indirect + + ;
} while ( changed ) ;
return bogus ;
}
//============================================================================
//
// P_CreateLinkedPortals
//
// Creates the data structures needed for linked portals
// Removes portals from sloped sectors (as they cannot work on them)
// Group all sectors connected to one side of the portal
// Caclculate displacements between all created groups.
//
// Portals with the same offset but different anchors will not be merged.
//
//============================================================================
void P_CreateLinkedPortals ( )
{
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TArray < FSectorPortal * > orgs ;
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int id = 1 ;
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bool bogus = false ;
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for ( auto & s : sectorPortals )
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{
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if ( s . mType = = PORTS_LINKEDPORTAL )
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{
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orgs . Push ( & s ) ;
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}
}
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id = 1 ;
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if ( orgs . Size ( ) ! = 0 )
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{
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for ( auto & sec : level . sectors )
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{
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for ( int j = 0 ; j < 2 ; j + + )
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{
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if ( sec . GetPortalType ( j ) = = PORTS_LINKEDPORTAL )
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{
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secplane_t & plane = j = = 0 ? sec . floorplane : sec . ceilingplane ;
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if ( plane . isSlope ( ) )
{
// The engine cannot deal with portals on a sloped plane.
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sec . ClearPortal ( j ) ;
Printf ( " Portal on %s of sector %d is sloped and will be disabled \n " , j = = 0 ? " floor " : " ceiling " , sec . sectornum ) ;
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}
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}
}
}
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// Group all sectors, starting at each portal origin.
for ( unsigned i = 0 ; i < orgs . Size ( ) ; i + + )
{
if ( CollectSectors ( id , orgs [ i ] - > mOrigin ) ) id + + ;
if ( CollectSectors ( id , orgs [ i ] - > mDestination ) ) id + + ;
}
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}
for ( unsigned i = 0 ; i < linePortals . Size ( ) ; i + + )
{
if ( linePortals [ i ] . mType = = PORTT_LINKED )
{
if ( CollectSectors ( id , linePortals [ i ] . mOrigin - > frontsector ) ) id + + ;
if ( CollectSectors ( id , linePortals [ i ] . mDestination - > frontsector ) ) id + + ;
}
}
Displacements . Create ( id ) ;
// Check for leftover sectors that connect to a portal
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for ( auto & sec : level . sectors )
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{
for ( int j = 0 ; j < 2 ; j + + )
{
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if ( sec . GetPortalType ( j ) = = PORTS_LINKEDPORTAL & & sec . PortalGroup = = 0 )
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{
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auto p = sec . GetPortal ( j ) ;
CollectSectors ( p - > mOrigin - > PortalGroup , & sec ) ;
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}
}
}
for ( unsigned i = 0 ; i < orgs . Size ( ) ; i + + )
{
AddDisplacementForPortal ( orgs [ i ] ) ;
}
for ( unsigned i = 0 ; i < linePortals . Size ( ) ; i + + )
{
if ( linePortals [ i ] . mType = = PORTT_LINKED )
{
AddDisplacementForPortal ( & linePortals [ i ] ) ;
}
}
for ( int x = 1 ; x < Displacements . size ; x + + )
{
for ( int y = x + 1 ; y < Displacements . size ; y + + )
{
FDisplacement & dispxy = Displacements ( x , y ) ;
FDisplacement & dispyx = Displacements ( y , x ) ;
if ( dispxy . isSet & & dispyx . isSet & &
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( dispxy . pos . X ! = - dispyx . pos . X | | dispxy . pos . Y ! = - dispyx . pos . Y ) )
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{
int sec1 = - 1 , sec2 = - 1 ;
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for ( unsigned i = 0 ; i < level . sectors . Size ( ) & & ( sec1 = = - 1 | | sec2 = = - 1 ) ; i + + )
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{
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if ( sec1 = = - 1 & & level . sectors [ i ] . PortalGroup = = x ) sec1 = i ;
if ( sec2 = = - 1 & & level . sectors [ i ] . PortalGroup = = y ) sec2 = i ;
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}
Printf ( " Link offset mismatch between sectors %d and %d \n " , sec1 , sec2 ) ;
bogus = true ;
}
// mark everything that connects to a one-sided line
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for ( auto & line : level . lines )
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{
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if ( line . backsector = = nullptr & & line . frontsector - > PortalGroup = = 0 )
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{
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CollectSectors ( - 1 , line . frontsector ) ;
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}
}
// and now print a message for everything that still wasn't processed.
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for ( auto & sec : level . sectors )
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{
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if ( sec . PortalGroup = = 0 )
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{
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Printf ( " Unable to assign sector %d to any group. Possibly self-referencing \n " , sec . sectornum ) ;
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}
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else if ( sec . PortalGroup = = - 1 ) sec . PortalGroup = 0 ;
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}
}
}
bogus | = ConnectGroups ( ) ;
if ( bogus )
{
// todo: disable all portals whose offsets do not match the associated groups
}
// reject would just get in the way when checking sight through portals.
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if ( Displacements . size > 1 & & rejectmatrix ! = NULL )
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{
delete [ ] rejectmatrix ;
rejectmatrix = NULL ;
}
// finally we must flag all planes which are obstructed by the sector's own ceiling or floor.
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for ( auto & sec : level . sectors )
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{
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sec . CheckPortalPlane ( sector_t : : floor ) ;
sec . CheckPortalPlane ( sector_t : : ceiling ) ;
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// set a flag on each line connecting to a plane portal sector. This is used to reduce the amount of checks in P_CheckSight.
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if ( sec . PortalIsLinked ( sector_t : : floor ) | | sec . PortalIsLinked ( sector_t : : ceiling ) )
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{
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for ( auto ln : sec . Lines )
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{
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ln - > flags | = ML_PORTALCONNECT ;
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}
}
2017-01-07 18:32:24 +00:00
if ( sec . PortalIsLinked ( sector_t : : ceiling ) & & sec . PortalIsLinked ( sector_t : : floor ) )
2016-03-08 09:09:02 +00:00
{
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double cz = sec . GetPortalPlaneZ ( sector_t : : ceiling ) ;
double fz = sec . GetPortalPlaneZ ( sector_t : : floor ) ;
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if ( cz < fz )
{
// This is a fatal condition. We have to remove one of the two portals. Choose the one that doesn't match the current plane
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Printf ( " Error in sector %d: Ceiling portal at z=%f is below floor portal at z=%f \n " , sec . sectornum , cz , fz ) ;
double cp = - sec . ceilingplane . fD ( ) ;
double fp = sec . floorplane . fD ( ) ;
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if ( cp < fp | | fz = = fp )
{
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sec . ClearPortal ( sector_t : : ceiling ) ;
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}
else
{
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sec . ClearPortal ( sector_t : : floor ) ;
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}
}
}
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// mark all sector planes that check out ok for everything.
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if ( sec . PortalIsLinked ( sector_t : : floor ) ) sec . planes [ sector_t : : floor ] . Flags | = PLANEF_LINKED ;
if ( sec . PortalIsLinked ( sector_t : : ceiling ) ) sec . planes [ sector_t : : ceiling ] . Flags | = PLANEF_LINKED ;
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}
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if ( linkedPortals . Size ( ) > 0 )
{
// We need to relink all actors that may touch a linked line portal
TThinkerIterator < AActor > it ;
AActor * actor ;
while ( ( actor = it . Next ( ) ) )
{
if ( ! ( actor - > flags & MF_NOBLOCKMAP ) )
{
FPortalGroupArray check ( FPortalGroupArray : : PGA_NoSectorPortals ) ;
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P_CollectConnectedGroups ( actor - > Sector - > PortalGroup , actor - > Pos ( ) , actor - > Top ( ) , actor - > radius , check ) ;
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if ( check . Size ( ) > 0 )
{
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FLinkContext ctx ;
actor - > UnlinkFromWorld ( & ctx ) ;
actor - > LinkToWorld ( & ctx ) ;
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}
}
}
}
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}
//============================================================================
//
// Collect all portal groups this actor would occupy at the given position
// This is used to determine which parts of the map need to be checked.
//
//============================================================================
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bool P_CollectConnectedGroups ( int startgroup , const DVector3 & position , double upperz , double checkradius , FPortalGroupArray & out )
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{
// Keep this temporary work stuff static. This function can never be called recursively
// and this would have to be reallocated for each call otherwise.
static FPortalBits processMask ;
static TArray < FLinePortal * > foundPortals ;
static TArray < int > groupsToCheck ;
bool retval = false ;
out . inited = true ;
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processMask . setSize ( Displacements . size ) ;
if ( Displacements . size = = 1 )
{
processMask . setBit ( startgroup ) ;
return false ;
}
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if ( linkedPortals . Size ( ) ! = 0 )
{
processMask . clear ( ) ;
foundPortals . Clear ( ) ;
int thisgroup = startgroup ;
processMask . setBit ( thisgroup ) ;
//out.Add(thisgroup);
for ( unsigned i = 0 ; i < linkedPortals . Size ( ) ; i + + )
{
line_t * ld = linkedPortals [ i ] - > mOrigin ;
int othergroup = ld - > frontsector - > PortalGroup ;
FDisplacement & disp = Displacements ( thisgroup , othergroup ) ;
if ( ! disp . isSet ) continue ; // no connection.
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FBoundingBox box ( position . X + disp . pos . X , position . Y + disp . pos . Y , checkradius ) ;
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if ( ! box . inRange ( ld ) | | box . BoxOnLineSide ( linkedPortals [ i ] - > mOrigin ) ! = - 1 ) continue ; // not touched
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foundPortals . Push ( linkedPortals [ i ] ) ;
}
bool foundone = true ;
while ( foundone )
{
foundone = false ;
for ( int i = foundPortals . Size ( ) - 1 ; i > = 0 ; i - - )
{
if ( processMask . getBit ( foundPortals [ i ] - > mOrigin - > frontsector - > PortalGroup ) & &
! processMask . getBit ( foundPortals [ i ] - > mDestination - > frontsector - > PortalGroup ) )
{
processMask . setBit ( foundPortals [ i ] - > mDestination - > frontsector - > PortalGroup ) ;
out . Add ( foundPortals [ i ] - > mDestination - > frontsector - > PortalGroup ) ;
foundone = true ;
retval = true ;
foundPortals . Delete ( i ) ;
}
}
}
}
if ( out . method ! = FPortalGroupArray : : PGA_NoSectorPortals )
{
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sector_t * sec = P_PointInSector ( position ) ;
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sector_t * wsec = sec ;
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while ( ! wsec - > PortalBlocksMovement ( sector_t : : ceiling ) & & upperz > wsec - > GetPortalPlaneZ ( sector_t : : ceiling ) )
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{
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int othergroup = wsec - > GetOppositePortalGroup ( sector_t : : ceiling ) ;
DVector2 pos = Displacements . getOffset ( startgroup , othergroup ) + position ;
processMask . setBit ( othergroup ) ;
out . Add ( othergroup | FPortalGroupArray : : UPPER ) ;
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wsec = P_PointInSector ( pos ) ; // get upper sector at the exact spot we want to check and repeat
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retval = true ;
}
wsec = sec ;
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while ( ! wsec - > PortalBlocksMovement ( sector_t : : floor ) & & position . Z < wsec - > GetPortalPlaneZ ( sector_t : : floor ) )
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{
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int othergroup = wsec - > GetOppositePortalGroup ( sector_t : : floor ) ;
DVector2 pos = Displacements . getOffset ( startgroup , othergroup ) + position ;
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processMask . setBit ( othergroup ) ;
out . Add ( othergroup | FPortalGroupArray : : LOWER ) ;
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wsec = P_PointInSector ( pos ) ; // get lower sector at the exact spot we want to check and repeat
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retval = true ;
}
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if ( out . method = = FPortalGroupArray : : PGA_Full3d & & PortalBlockmap . hasLinkedSectorPortals )
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{
groupsToCheck . Clear ( ) ;
groupsToCheck . Push ( startgroup ) ;
int thisgroup = startgroup ;
for ( unsigned i = 0 ; i < groupsToCheck . Size ( ) ; i + + )
{
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DVector2 disp = Displacements . getOffset ( startgroup , thisgroup & ~ FPortalGroupArray : : FLAT ) ;
FBoundingBox box ( position . X + disp . X , position . Y + disp . Y , checkradius ) ;
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FBlockLinesIterator it ( box ) ;
line_t * ld ;
while ( ( ld = it . Next ( ) ) )
{
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if ( ! box . inRange ( ld ) | | box . BoxOnLineSide ( ld ) ! = - 1 )
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continue ;
if ( ! ( thisgroup & FPortalGroupArray : : LOWER ) )
{
for ( int s = 0 ; s < 2 ; s + + )
{
sector_t * sec = s ? ld - > backsector : ld - > frontsector ;
if ( sec & & ! ( sec - > PortalBlocksMovement ( sector_t : : ceiling ) ) )
{
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if ( sec - > GetPortalPlaneZ ( sector_t : : ceiling ) < upperz )
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{
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int grp = sec - > GetOppositePortalGroup ( sector_t : : ceiling ) ;
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if ( ! ( processMask . getBit ( grp ) ) )
{
processMask . setBit ( grp ) ;
groupsToCheck . Push ( grp | FPortalGroupArray : : UPPER ) ;
}
}
}
}
}
if ( ! ( thisgroup & FPortalGroupArray : : UPPER ) )
{
for ( int s = 0 ; s < 2 ; s + + )
{
sector_t * sec = s ? ld - > backsector : ld - > frontsector ;
if ( sec & & ! ( sec - > PortalBlocksMovement ( sector_t : : floor ) ) )
{
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if ( sec - > GetPortalPlaneZ ( sector_t : : floor ) > position . Z )
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{
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int grp = sec - > GetOppositePortalGroup ( sector_t : : floor ) ;
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if ( ! ( processMask . getBit ( grp ) ) )
{
processMask . setBit ( grp ) ;
groupsToCheck . Push ( grp | FPortalGroupArray : : LOWER ) ;
}
}
}
}
}
}
}
}
}
return retval ;
}
//============================================================================
//
// print the group link table to the console
//
//============================================================================
CCMD ( dumplinktable )
{
for ( int x = 1 ; x < Displacements . size ; x + + )
{
for ( int y = 1 ; y < Displacements . size ; y + + )
{
FDisplacement & disp = Displacements ( x , y ) ;
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Printf ( " %c%c(%6d, %6d) " , TEXTCOLOR_ESCAPE , ' C ' + disp . indirect , int ( disp . pos . X ) , int ( disp . pos . Y ) ) ;
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}
Printf ( " \n " ) ;
}
}