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//
//---------------------------------------------------------------------------
//
// Copyright(C) 2005-2016 Christoph Oelckers
// All rights reserved.
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with this program. If not, see http://www.gnu.org/licenses/
//
//--------------------------------------------------------------------------
//
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/*
* * gl_setup . cpp
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* * Initializes the data structures required by the hardware renderer to handle
* * render hacks and optimization .
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* *
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* */
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# include "doomtype.h"
# include "p_local.h"
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# include "p_spec.h"
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# include "p_lnspec.h"
# include "c_dispatch.h"
# include "r_sky.h"
# include "p_setup.h"
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# include "g_levellocals.h"
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//==========================================================================
//
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// Map section generation
// Map sections are physically separated parts of the map.
// If the player is in section A, any map part in other sections can
// often be quickly discarded to improve performance.
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//
//==========================================================================
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struct MapSectionGenerator
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{
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struct cvertex_t
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{
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double X , Y ;
operator int ( ) const { return xs_FloorToInt ( X ) + 65536 * xs_FloorToInt ( Y ) ; }
bool operator ! = ( const cvertex_t & other ) const { return fabs ( X - other . X ) > = EQUAL_EPSILON | | fabs ( Y - other . Y ) > = EQUAL_EPSILON ; }
cvertex_t & operator = ( const vertex_t * v ) { X = v - > fX ( ) ; Y = v - > fY ( ) ; return * this ; }
} ;
typedef TMap < cvertex_t , int > FSectionVertexMap ;
TArray < subsector_t * > MapSectionCollector ;
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//==========================================================================
//
//
//
//==========================================================================
void DoSetMapSection ( subsector_t * sub , int num )
{
MapSectionCollector . Resize ( 1 ) ;
MapSectionCollector [ 0 ] = sub ;
sub - > mapsection = num ;
for ( unsigned a = 0 ; a < MapSectionCollector . Size ( ) ; a + + )
{
sub = MapSectionCollector [ a ] ;
for ( uint32_t i = 0 ; i < sub - > numlines ; i + + )
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{
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seg_t * seg = sub - > firstline + i ;
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if ( seg - > PartnerSeg )
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{
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subsector_t * sub2 = seg - > PartnerSeg - > Subsector ;
if ( sub2 - > mapsection ! = num )
{
assert ( sub2 - > mapsection = = 0 ) ;
sub2 - > mapsection = num ;
MapSectionCollector . Push ( sub2 ) ;
}
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}
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}
}
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MapSectionCollector . Clear ( ) ;
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}
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//==========================================================================
//
// Merge sections. This is needed in case the map contains errors
// like overlapping lines resulting in abnormal subsectors.
//
// This function ensures that any vertex position can only be in one section.
//
//==========================================================================
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int MergeMapSections ( int num )
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{
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FSectionVertexMap vmap ;
FSectionVertexMap : : Pair * pair ;
TArray < int > sectmap ;
TArray < bool > sectvalid ;
sectmap . Resize ( num ) ;
sectvalid . Resize ( num ) ;
for ( int i = 0 ; i < num ; i + + )
{
sectmap [ i ] = - 1 ;
sectvalid [ i ] = true ;
}
int mergecount = 1 ;
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cvertex_t vt ;
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// first step: Set mapsection for all vertex positions.
for ( auto & seg : level . segs )
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{
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int section = seg . Subsector - > mapsection ;
for ( int j = 0 ; j < 2 ; j + + )
{
vt = j = = 0 ? seg . v1 : seg . v2 ;
vmap [ vt ] = section ;
}
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}
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// second step: Check if any seg references more than one mapsection, either by subsector or by vertex
for ( auto & seg : level . segs )
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{
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int section = seg . Subsector - > mapsection ;
for ( int j = 0 ; j < 2 ; j + + )
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{
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vt = j = = 0 ? seg . v1 : seg . v2 ;
int vsection = vmap [ vt ] ;
if ( vsection ! = section )
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{
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// These 2 sections should be merged
for ( auto & sub : level . subsectors )
{
if ( sub . mapsection = = vsection ) sub . mapsection = section ;
}
FSectionVertexMap : : Iterator it ( vmap ) ;
while ( it . NextPair ( pair ) )
{
if ( pair - > Value = = vsection ) pair - > Value = section ;
}
sectvalid [ vsection - 1 ] = false ;
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}
}
}
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for ( int i = 0 ; i < num ; i + + )
{
if ( sectvalid [ i ] ) sectmap [ i ] = mergecount + + ;
}
for ( auto & sub : level . subsectors )
{
sub . mapsection = sectmap [ sub . mapsection - 1 ] ;
assert ( sub . mapsection ! = - 1 ) ;
}
return mergecount - 1 ;
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}
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//==========================================================================
//
//
//
//==========================================================================
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void SetMapSections ( )
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{
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bool set ;
int num = 0 ;
do
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{
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set = false ;
for ( auto & sub : level . subsectors )
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{
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if ( sub . mapsection = = 0 )
{
num + + ;
DoSetMapSection ( & sub , num ) ;
set = true ;
break ;
}
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}
}
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while ( set ) ;
num = MergeMapSections ( num ) ;
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level . NumMapSections = num ;
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# ifdef DEBUG
Printf ( " %d map sections found \n " , num ) ;
# endif
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}
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} ;
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//==========================================================================
//
// prepare subsectors for GL rendering
// - analyze rendering hacks using open sectors
// - assign a render sector (for self referencing sectors)
// - calculate a bounding box
//
//==========================================================================
static void SpreadHackedFlag ( subsector_t * sub )
{
// The subsector pointer hasn't been set yet!
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for ( uint32_t i = 0 ; i < sub - > numlines ; i + + )
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{
seg_t * seg = sub - > firstline + i ;
if ( seg - > PartnerSeg )
{
subsector_t * sub2 = seg - > PartnerSeg - > Subsector ;
if ( ! ( sub2 - > hacked & 1 ) & & sub2 - > render_sector = = sub - > render_sector )
{
sub2 - > hacked | = 1 ;
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sub - > hacked & = ~ 4 ;
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SpreadHackedFlag ( sub2 ) ;
}
}
}
}
//==========================================================================
//
//
//
//==========================================================================
static void PrepareSectorData ( )
{
TArray < subsector_t * > undetermined ;
// now group the subsectors by sector
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subsector_t * * subsectorbuffer = new subsector_t * [ level . subsectors . Size ( ) ] ;
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for ( auto & sub : level . subsectors )
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{
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sub . render_sector - > subsectorcount + + ;
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}
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for ( auto & sec : level . sectors )
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{
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sec . subsectors = subsectorbuffer ;
subsectorbuffer + = sec . subsectorcount ;
sec . subsectorcount = 0 ;
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}
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for ( auto & sub : level . subsectors )
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{
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sub . render_sector - > subsectors [ sub . render_sector - > subsectorcount + + ] = & sub ;
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}
// marks all malformed subsectors so rendering tricks using them can be handled more easily
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for ( auto & sub : level . subsectors )
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{
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if ( sub . sector = = sub . render_sector )
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{
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seg_t * seg = sub . firstline ;
for ( uint32_t j = 0 ; j < sub . numlines ; j + + )
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{
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if ( ! ( sub . hacked & 1 ) & & seg [ j ] . linedef = = 0 & &
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seg [ j ] . PartnerSeg ! = NULL & &
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sub . render_sector ! = seg [ j ] . PartnerSeg - > Subsector - > render_sector )
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{
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DPrintf ( DMSG_NOTIFY , " Found hack: (%f,%f) (%f,%f) \n " , seg [ j ] . v1 - > fX ( ) , seg [ j ] . v1 - > fY ( ) , seg [ j ] . v2 - > fX ( ) , seg [ j ] . v2 - > fY ( ) ) ;
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sub . hacked | = 5 ;
SpreadHackedFlag ( & sub ) ;
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}
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if ( seg [ j ] . PartnerSeg = = NULL ) sub . hacked | = 2 ; // used for quick termination checks
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}
}
}
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MapSectionGenerator msg ;
msg . SetMapSections ( ) ;
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}
//==========================================================================
//
// Some processing for transparent door hacks using a floor raised by 1 map unit
// - This will be used to lower the floor of such sectors by one map unit
//
//==========================================================================
static void PrepareTransparentDoors ( sector_t * sector )
{
bool solidwall = false ;
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unsigned int notextures = 0 ;
unsigned int nobtextures = 0 ;
unsigned int selfref = 0 ;
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sector_t * nextsec = NULL ;
P_Recalculate3DFloors ( sector ) ;
if ( sector - > subsectorcount = = 0 ) return ;
sector - > transdoorheight = sector - > GetPlaneTexZ ( sector_t : : floor ) ;
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sector - > transdoor = ! ( sector - > e - > XFloor . ffloors . Size ( ) | | sector - > heightsec | | sector - > floorplane . isSlope ( ) ) ;
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if ( sector - > transdoor )
{
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for ( auto ln : sector - > Lines )
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{
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if ( ln - > frontsector = = ln - > backsector )
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{
selfref + + ;
continue ;
}
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sector_t * sec = getNextSector ( ln , sector ) ;
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if ( sec = = NULL )
{
solidwall = true ;
continue ;
}
else
{
nextsec = sec ;
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int side = ln - > sidedef [ 0 ] - > sector = = sec ;
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if ( sector - > GetPlaneTexZ ( sector_t : : floor ) ! = sec - > GetPlaneTexZ ( sector_t : : floor ) + 1. | | sec - > floorplane . isSlope ( ) )
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{
sector - > transdoor = false ;
return ;
}
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if ( ! ln - > sidedef [ 1 - side ] - > GetTexture ( side_t : : top ) . isValid ( ) ) notextures + + ;
if ( ! ln - > sidedef [ 1 - side ] - > GetTexture ( side_t : : bottom ) . isValid ( ) ) nobtextures + + ;
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}
}
if ( sector - > GetTexture ( sector_t : : ceiling ) = = skyflatnum )
{
sector - > transdoor = false ;
return ;
}
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if ( selfref + nobtextures ! = sector - > Lines . Size ( ) )
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{
sector - > transdoor = false ;
}
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if ( selfref + notextures ! = sector - > Lines . Size ( ) )
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{
// This is a crude attempt to fix an incorrect transparent door effect I found in some
// WolfenDoom maps but considering the amount of code required to handle it I left it in.
// Do this only if the sector only contains one-sided walls or ones with no lower texture.
if ( solidwall )
{
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if ( solidwall + nobtextures + selfref = = sector - > Lines . Size ( ) & & nextsec )
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{
sector - > heightsec = nextsec ;
sector - > heightsec - > MoreFlags = 0 ;
}
sector - > transdoor = false ;
}
}
}
}
//==========================================================================
//
//
//
//==========================================================================
static void AddToVertex ( const sector_t * sec , TArray < int > & list )
{
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int secno = sec - > Index ( ) ;
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for ( unsigned i = 0 ; i < list . Size ( ) ; i + + )
{
if ( list [ i ] = = secno ) return ;
}
list . Push ( secno ) ;
}
//==========================================================================
//
// Attach sectors to vertices - used to generate vertex height lists
//
//==========================================================================
static void InitVertexData ( )
{
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auto vt_sectorlists = new TArray < int > [ level . vertexes . Size ( ) ] ;
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for ( auto & line : level . lines )
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{
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for ( int j = 0 ; j < 2 ; + + j )
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{
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vertex_t * v = j = = 0 ? line . v1 : line . v2 ;
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for ( int k = 0 ; k < 2 ; + + k )
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{
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sector_t * sec = k = = 0 ? line . frontsector : line . backsector ;
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if ( sec )
{
extsector_t : : xfloor & x = sec - > e - > XFloor ;
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AddToVertex ( sec , vt_sectorlists [ v - > Index ( ) ] ) ;
if ( sec - > heightsec ) AddToVertex ( sec - > heightsec , vt_sectorlists [ v - > Index ( ) ] ) ;
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}
}
}
}
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for ( unsigned i = 0 ; i < level . vertexes . Size ( ) ; + + i )
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{
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auto & vert = level . vertexes [ i ] ;
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int cnt = vt_sectorlists [ i ] . Size ( ) ;
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vert . dirty = true ;
vert . numheights = 0 ;
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if ( cnt > 1 )
{
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vert . numsectors = cnt ;
vert . sectors = new sector_t * [ cnt ] ;
vert . heightlist = new float [ cnt * 2 ] ;
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for ( int j = 0 ; j < cnt ; j + + )
{
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vert . sectors [ j ] = & level . sectors [ vt_sectorlists [ i ] [ j ] ] ;
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}
}
else
{
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vert . numsectors = 0 ;
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}
}
delete [ ] vt_sectorlists ;
}
//==========================================================================
//
//
//
//==========================================================================
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static void GetSideVertices ( int sdnum , DVector2 * v1 , DVector2 * v2 )
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{
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line_t * ln = level . sides [ sdnum ] . linedef ;
if ( ln - > sidedef [ 0 ] = = & level . sides [ sdnum ] )
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{
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* v1 = ln - > v1 - > fPos ( ) ;
* v2 = ln - > v2 - > fPos ( ) ;
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}
else
{
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* v2 = ln - > v1 - > fPos ( ) ;
* v1 = ln - > v2 - > fPos ( ) ;
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}
}
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static int segcmp ( const void * a , const void * b )
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{
seg_t * A = * ( seg_t * * ) a ;
seg_t * B = * ( seg_t * * ) b ;
return xs_RoundToInt ( FRACUNIT * ( A - > sidefrac - B - > sidefrac ) ) ;
}
//==========================================================================
//
// Group segs to sidedefs
//
//==========================================================================
static void PrepareSegs ( )
{
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auto numsides = level . sides . Size ( ) ;
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int * segcount = new int [ numsides ] ;
int realsegs = 0 ;
// count the segs
memset ( segcount , 0 , numsides * sizeof ( int ) ) ;
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for ( auto & seg : level . segs )
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{
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if ( seg . sidedef = = NULL ) continue ; // miniseg
int sidenum = seg . sidedef - > Index ( ) ;
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realsegs + + ;
segcount [ sidenum ] + + ;
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DVector2 sidestart , sideend , segend = seg . v2 - > fPos ( ) ;
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GetSideVertices ( sidenum , & sidestart , & sideend ) ;
sideend - = sidestart ;
segend - = sidestart ;
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seg . sidefrac = float ( segend . Length ( ) / sideend . Length ( ) ) ;
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}
// allocate memory
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level . sides [ 0 ] . segs = new seg_t * [ realsegs ] ;
level . sides [ 0 ] . numsegs = 0 ;
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for ( unsigned i = 1 ; i < numsides ; i + + )
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{
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level . sides [ i ] . segs = level . sides [ i - 1 ] . segs + segcount [ i - 1 ] ;
level . sides [ i ] . numsegs = 0 ;
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}
delete [ ] segcount ;
// assign the segs
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for ( auto & seg : level . segs )
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{
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if ( seg . sidedef ! = NULL ) seg . sidedef - > segs [ seg . sidedef - > numsegs + + ] = & seg ;
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}
// sort the segs
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for ( unsigned i = 0 ; i < numsides ; i + + )
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{
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if ( level . sides [ i ] . numsegs > 1 ) qsort ( level . sides [ i ] . segs , level . sides [ i ] . numsegs , sizeof ( seg_t * ) , segcmp ) ;
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}
}
//==========================================================================
//
// Initialize the level data for the GL renderer
//
//==========================================================================
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void InitRenderInfo ( )
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{
PrepareSegs ( ) ;
PrepareSectorData ( ) ;
InitVertexData ( ) ;
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int * checkmap = new int [ level . vertexes . Size ( ) ] ;
memset ( checkmap , - 1 , sizeof ( int ) * level . vertexes . Size ( ) ) ;
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for ( auto & sec : level . sectors )
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{
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int i = sec . sectornum ;
PrepareTransparentDoors ( & sec ) ;
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// This ignores vertices only used for seg splitting because those aren't needed here
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for ( auto l : sec . Lines )
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{
if ( l - > sidedef [ 0 ] - > Flags & WALLF_POLYOBJ ) continue ; // don't bother with polyobjects
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int vtnum1 = l - > v1 - > Index ( ) ;
int vtnum2 = l - > v2 - > Index ( ) ;
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if ( checkmap [ vtnum1 ] < i )
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{
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checkmap [ vtnum1 ] = i ;
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sec . e - > vertices . Push ( & level . vertexes [ vtnum1 ] ) ;
level . vertexes [ vtnum1 ] . dirty = true ;
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}
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if ( checkmap [ vtnum2 ] < i )
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{
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checkmap [ vtnum2 ] = i ;
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sec . e - > vertices . Push ( & level . vertexes [ vtnum2 ] ) ;
level . vertexes [ vtnum2 ] . dirty = true ;
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}
}
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}
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delete [ ] checkmap ;
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#if 0
gl_CreateSections ( ) ;
# endif
}
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//==========================================================================
//
// FixMinisegReferences
//
// Sometimes it can happen that two matching minisegs do not have their partner set.
// Fix that here.
//
//==========================================================================
void FixMinisegReferences ( )
{
TArray < seg_t * > bogussegs ;
for ( unsigned i = 0 ; i < level . segs . Size ( ) ; i + + )
{
if ( level . segs [ i ] . sidedef = = nullptr & & level . segs [ i ] . PartnerSeg = = nullptr )
{
bogussegs . Push ( & level . segs [ i ] ) ;
}
}
for ( unsigned i = 0 ; i < bogussegs . Size ( ) ; i + + )
{
auto seg1 = bogussegs [ i ] ;
seg_t * pick = nullptr ;
unsigned int picki = - 1 ;
// Try to fix the reference: If there's exactly one other seg in the set which matches as a partner link those two segs together.
for ( unsigned j = i + 1 ; j < bogussegs . Size ( ) ; j + + )
{
auto seg2 = bogussegs [ j ] ;
if ( seg1 - > v1 = = seg2 - > v2 & & seg2 - > v1 = = seg1 - > v2 & & seg1 - > Subsector - > render_sector = = seg2 - > Subsector - > render_sector )
{
pick = seg2 ;
picki = j ;
break ;
}
}
if ( pick )
{
DPrintf ( DMSG_NOTIFY , " Linking miniseg pair from (%2.3f, %2.3f) -> (%2.3f, %2.3f) in sector %d \n " , pick - > v2 - > fX ( ) , pick - > v2 - > fY ( ) , pick - > v1 - > fX ( ) , pick - > v1 - > fY ( ) , pick - > frontsector - > Index ( ) ) ;
pick - > PartnerSeg = seg1 ;
seg1 - > PartnerSeg = pick ;
assert ( seg1 - > v1 = = pick - > v2 & & pick - > v1 = = seg1 - > v2 ) ;
bogussegs . Delete ( picki ) ;
bogussegs . Delete ( i ) ;
i - - ;
}
}
}
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//==========================================================================
//
// FixHoles
//
// ZDBSP can leave holes in the node tree on extremely detailed maps.
// To help out the triangulator these are filled with dummy subsectors
// so that it can process the area correctly.
//
//==========================================================================
void FixHoles ( )
{
TArray < seg_t * > bogussegs ;
TArray < TArray < seg_t * > > segloops ;
for ( unsigned i = 0 ; i < level . segs . Size ( ) ; i + + )
{
if ( level . segs [ i ] . sidedef = = nullptr & & level . segs [ i ] . PartnerSeg = = nullptr )
{
bogussegs . Push ( & level . segs [ i ] ) ;
}
}
while ( bogussegs . Size ( ) > 0 )
{
segloops . Reserve ( 1 ) ;
auto * segloop = & segloops . Last ( ) ;
seg_t * startseg ;
seg_t * checkseg ;
while ( bogussegs . Size ( ) > 0 )
{
bool foundsome = false ;
if ( segloop - > Size ( ) = = 0 )
{
bogussegs . Pop ( startseg ) ;
segloop - > Push ( startseg ) ;
checkseg = startseg ;
}
for ( unsigned i = 0 ; i < bogussegs . Size ( ) ; i + + )
{
auto seg1 = bogussegs [ i ] ;
if ( seg1 - > v1 = = checkseg - > v2 & & seg1 - > Subsector - > render_sector = = checkseg - > Subsector - > render_sector )
{
foundsome = true ;
segloop - > Push ( seg1 ) ;
bogussegs . Delete ( i ) ;
i - - ;
checkseg = seg1 ;
if ( seg1 - > v2 = = startseg - > v1 )
{
// The loop is complete. Start a new one
segloops . Reserve ( 1 ) ;
segloop = & segloops . Last ( ) ;
}
}
}
if ( ! foundsome )
{
if ( ( * segloop ) [ 0 ] - > v1 ! = segloop - > Last ( ) - > v2 )
{
// There was no connected seg, leaving an unclosed loop.
// Clear this and continue looking.
segloop - > Clear ( ) ;
}
}
}
for ( unsigned i = 0 ; i < segloops . Size ( ) ; i + + )
{
if ( segloops [ i ] . Size ( ) = = 0 )
{
segloops . Delete ( i ) ;
i - - ;
}
}
// Add dummy entries to the level's seg and subsector arrays
if ( segloops . Size ( ) > 0 )
{
// cound the number of segs to add.
unsigned segcount = 0 ;
for ( auto & segloop : segloops )
segcount + = segloop . Size ( ) ;
seg_t * oldsegstartptr = & level . segs [ 0 ] ;
subsector_t * oldssstartptr = & level . subsectors [ 0 ] ;
unsigned newsegstart = level . segs . Reserve ( segcount ) ;
unsigned newssstart = level . subsectors . Reserve ( segloops . Size ( ) ) ;
seg_t * newsegstartptr = & level . segs [ 0 ] ;
subsector_t * newssstartptr = & level . subsectors [ 0 ] ;
// Now fix all references to these in the level data.
// Note that the Index() method does not work here due to the reallocation.
for ( auto & seg : level . segs )
{
if ( seg . PartnerSeg ) seg . PartnerSeg = newsegstartptr + ( seg . PartnerSeg - oldsegstartptr ) ;
seg . Subsector = newssstartptr + ( seg . Subsector - oldssstartptr ) ;
}
for ( auto & sub : level . subsectors )
{
sub . firstline = newsegstartptr + ( sub . firstline - oldsegstartptr ) ;
}
for ( auto & node : level . nodes )
{
// How hideous... :(
for ( auto & p : node . children )
{
auto intp = ( intptr_t ) p ;
if ( intp & 1 )
{
subsector_t * sp = ( subsector_t * ) ( intp - 1 ) ;
sp = newssstartptr + ( sp - oldssstartptr ) ;
intp = intptr_t ( sp ) + 1 ;
p = ( void * ) intp ;
}
}
}
for ( auto & segloop : segloops )
{
for ( auto & seg : segloop )
{
seg = newsegstartptr + ( seg - oldsegstartptr ) ;
}
}
// The seg lists in the sidedefs and the subsector lists in the sectors are not set yet when this gets called.
// Add the new data. This doesn't care about convexity. It is never directly used to generate a primitive.
for ( auto & segloop : segloops )
{
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DPrintf ( DMSG_NOTIFY , " Adding dummy subsector for sector %d \n " , segloop [ 0 ] - > Subsector - > render_sector - > Index ( ) ) ;
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subsector_t & sub = level . subsectors [ newssstart + + ] ;
memset ( & sub , 0 , sizeof ( sub ) ) ;
sub . sector = segloop [ 0 ] - > frontsector ;
sub . render_sector = segloop [ 0 ] - > Subsector - > render_sector ;
sub . numlines = segloop . Size ( ) ;
sub . firstline = & level . segs [ newsegstart ] ;
sub . flags = SSECF_HOLE ;
for ( auto otherseg : segloop )
{
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DPrintf ( DMSG_NOTIFY , " Adding seg from (%2.3f, %2.3f) -> (%2.3f, %2.3f) \n " , otherseg - > v2 - > fX ( ) , otherseg - > v2 - > fY ( ) , otherseg - > v1 - > fX ( ) , otherseg - > v1 - > fY ( ) ) ;
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seg_t & seg = level . segs [ newsegstart + + ] ;
memset ( & seg , 0 , sizeof ( seg ) ) ;
seg . v1 = otherseg - > v2 ;
seg . v2 = otherseg - > v1 ;
seg . frontsector = seg . backsector = otherseg - > backsector = otherseg - > frontsector ;
seg . PartnerSeg = otherseg ;
otherseg - > PartnerSeg = & seg ;
seg . Subsector = & sub ;
}
}
}
}
}
//==========================================================================
//
// ReportUnpairedMinisegs
//
// Debug routine
// reports all unpaired minisegs that couldn't be fixed by either
// explicitly pairing them or combining them to a dummy subsector
//
//==========================================================================
void ReportUnpairedMinisegs ( )
{
int bogus = 0 ;
for ( unsigned i = 0 ; i < level . segs . Size ( ) ; i + + )
{
if ( level . segs [ i ] . sidedef = = nullptr & & level . segs [ i ] . PartnerSeg = = nullptr )
{
Printf ( " Unpaired miniseg %d, sector %d, (%d: %2.6f, %2.6f) -> (%d: %2.6f, %2.6f) \n " ,
i , level . segs [ i ] . Subsector - > render_sector - > Index ( ) ,
level . segs [ i ] . v1 - > Index ( ) , level . segs [ i ] . v1 - > fX ( ) , level . segs [ i ] . v1 - > fY ( ) ,
level . segs [ i ] . v2 - > Index ( ) , level . segs [ i ] . v2 - > fX ( ) , level . segs [ i ] . v2 - > fY ( ) ) ;
bogus + + ;
}
}
if ( bogus > 0 ) Printf ( " %d unpaired minisegs found \n " , bogus ) ;
}
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//==========================================================================
//
//
//
//==========================================================================
CCMD ( listmapsections )
{
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for ( int i = 0 ; i < 100 ; i + + )
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{
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for ( auto & sub : level . subsectors )
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{
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if ( sub . mapsection = = i )
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{
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Printf ( " Mapsection %d, sector %d, line %d \n " , i , sub . render_sector - > Index ( ) , sub . firstline - > linedef - > Index ( ) ) ;
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break ;
}
}
}
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}
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CCMD ( listbadminisegs )
{
ReportUnpairedMinisegs ( ) ;
}