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// Emacs style mode select -*- C++ -*-
//-----------------------------------------------------------------------------
//
// $Id:$
//
// Copyright (C) 1993-1996 by id Software, Inc.
//
// This source is available for distribution and/or modification
// only under the terms of the DOOM Source Code License as
// published by id Software. All rights reserved.
//
// The source is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// FITNESS FOR A PARTICULAR PURPOSE. See the DOOM Source Code License
// for more details.
//
// $Log:$
//
// DESCRIPTION:
// Movement, collision handling.
// Shooting and aiming.
//
//-----------------------------------------------------------------------------
# include <stdlib.h>
# include <math.h>
# include "templates.h"
# include "m_bbox.h"
# include "m_random.h"
# include "i_system.h"
# include "c_dispatch.h"
# include "doomdef.h"
# include "p_local.h"
# include "p_spec.h"
# include "d_player.h"
# include "p_maputl.h"
# include "p_lnspec.h"
# include "p_effect.h"
# include "p_terrain.h"
# include "p_trace.h"
# include "p_checkposition.h"
# include "r_utility.h"
# include "s_sound.h"
# include "decallib.h"
// State.
# include "doomstat.h"
# include "r_state.h"
# include "gi.h"
# include "a_sharedglobal.h"
# include "p_conversation.h"
# include "r_data/r_translate.h"
# include "g_level.h"
# include "r_sky.h"
CVAR ( Bool , cl_bloodsplats , true , CVAR_ARCHIVE )
CVAR ( Int , sv_smartaim , 0 , CVAR_ARCHIVE | CVAR_SERVERINFO )
CVAR ( Bool , cl_doautoaim , false , CVAR_ARCHIVE )
static void CheckForPushSpecial ( line_t * line , int side , AActor * mobj , fixedvec2 * posforwindowcheck = NULL ) ;
static void SpawnShootDecal ( AActor * t1 , const FTraceResults & trace ) ;
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static void SpawnDeepSplash ( AActor * t1 , const FTraceResults & trace , AActor * puff ) ;
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static FRandom pr_tracebleed ( " TraceBleed " ) ;
static FRandom pr_checkthing ( " CheckThing " ) ;
static FRandom pr_lineattack ( " LineAttack " ) ;
static FRandom pr_crunch ( " DoCrunch " ) ;
// keep track of special lines as they are hit,
// but don't process them until the move is proven valid
TArray < spechit_t > spechit ;
TArray < spechit_t > portalhit ;
// Temporary holder for thing_sectorlist threads
msecnode_t * sector_list = NULL ; // phares 3/16/98
//==========================================================================
//
// GetCoefficientClosestPointInLine24
//
// Formula: (dotProduct(ldv1 - tm, ld) << 24) / dotProduct(ld, ld)
// with: ldv1 = (ld->v1->x, ld->v1->y), tm = (tm.x, tm.y)
// and ld = (ld->dx, ld->dy)
// Returns truncated to range [0, 1 << 24].
//
//==========================================================================
static inline fixed_t GetCoefficientClosestPointInLine24 ( line_t * ld , fixedvec2 pos )
{
# ifndef USE_FLOAT
// [EP] Use 64 bit integers in order to keep the exact result of the
// multiplication, because in the case the vertexes have both the
// distance coordinates equal to the map limit (32767 units, which is
// 2147418112 in fixed_t notation), the product result would occupy
// 62 bits and the sum of two products would occupy 63 bits
// in the worst case. If instead the vertexes are very close (1 in
// fixed_t notation, which is 1.52587890625e-05 in float notation), the
// product and the sum can be 1 in the worst case, which is very tiny.
SQWORD r_num = ( ( SQWORD ( pos . x - ld - > v1 - > x ) * ld - > dx ) +
( SQWORD ( pos . y - ld - > v1 - > y ) * ld - > dy ) ) ;
// The denominator is always positive. Use this to avoid useless
// calculations.
SQWORD r_den = ( SQWORD ( ld - > dx ) * ld - > dx + SQWORD ( ld - > dy ) * ld - > dy ) ;
if ( r_num < = 0 ) {
// [EP] The numerator is less or equal to zero, hence the closest
// point on the line is the first vertex. Truncate the result to 0.
return 0 ;
}
if ( r_num > = r_den ) {
// [EP] The division is greater or equal to 1, hence the closest
// point on the line is the second vertex. Truncate the result to
// 1 << 24.
return ( 1 < < 24 ) ;
}
// [EP] Deal with the limited bits. The original formula is:
// r = (r_num << 24) / r_den,
// but r_num might be big enough to make the shift overflow.
// Since the numerator can't be saved in a 128bit integer,
// the denominator must be right shifted. If the denominator is
// less than (1 << 24), there would be a division by zero.
// Thanks to the fact that in this code path the denominator is greater
// than the numerator, it's possible to avoid this bad situation by
// just checking the last 24 bits of the numerator.
if ( ( r_num > > ( 63 - 24 ) ) ! = 0 ) {
// [EP] In fact, if the numerator is greater than
// (1 << (63-24)), the denominator must be greater than
// (1 << (63-24)), hence the denominator won't be zero after
// the right shift by 24 places.
return ( fixed_t ) ( r_num / ( r_den > > 24 ) ) ;
}
// [EP] Having the last 24 bits all zero allows left shifting
// the numerator by 24 bits without overflow.
return ( fixed_t ) ( ( r_num < < 24 ) / r_den ) ;
# else
double dx = ld - > dx ;
double dy = ld - > dy ;
return xs_CRoundToInt ( ( ( double ) ( pos . x - ld - > v1 - > x ) * dx + ( double ) ( pos . y - ld - > v1 - > y ) * dy ) / ( dx * dx + dy * dy ) * 16777216.f ) ;
# endif
}
//==========================================================================
//
// FindRefPoint
//
// Finds the point on the line closest to the given coordinate
//
//==========================================================================
static inline fixedvec2 FindRefPoint ( line_t * ld , fixedvec2 pos )
{
// If there's any chance of slopes getting in the way we need to get a proper refpoint, otherwise we can save the work.
// Slopes can get in here when:
// - the actual sector planes are sloped
// - there's 3D floors in this sector
// - there's a crossable floor portal (for which the dropoff needs to be calculated within P_LineOpening, and the lower sector can easily have slopes)
if (
( ( ( ld - > frontsector - > floorplane . a | ld - > frontsector - > floorplane . b ) |
( ld - > backsector - > floorplane . a | ld - > backsector - > floorplane . b ) |
( ld - > frontsector - > ceilingplane . a | ld - > frontsector - > ceilingplane . b ) |
( ld - > backsector - > ceilingplane . a | ld - > backsector - > ceilingplane . b ) ) ! = 0 )
| |
ld - > backsector - > e - > XFloor . ffloors . Size ( ) ! = 0
| |
ld - > frontsector - > e - > XFloor . ffloors . Size ( ) ! = 0
| |
! ld - > frontsector - > PortalBlocksMovement ( sector_t : : floor ) )
{
fixed_t r = GetCoefficientClosestPointInLine24 ( ld , pos ) ;
if ( r < = 0 )
{
pos . x = ld - > v1 - > x ;
pos . y = ld - > v1 - > y ;
}
else if ( r > = ( 1 < < 24 ) )
{
pos . x = ld - > v2 - > x ;
pos . y = ld - > v2 - > y ;
}
else
{
pos . x = ld - > v1 - > x + MulScale24 ( r , ld - > dx ) ;
pos . y = ld - > v1 - > y + MulScale24 ( r , ld - > dy ) ;
}
}
return pos ;
}
//==========================================================================
//
// PIT_FindFloorCeiling
//
// only3d set means to only check against 3D floors and midtexes.
//
//==========================================================================
bool ffcf_verbose ;
static bool PIT_FindFloorCeiling ( FMultiBlockLinesIterator & mit , FMultiBlockLinesIterator : : CheckResult & cres , const FBoundingBox & box , FCheckPosition & tmf , int flags )
{
line_t * ld = cres . line ;
if ( box . Right ( ) < = ld - > bbox [ BOXLEFT ]
| | box . Left ( ) > = ld - > bbox [ BOXRIGHT ]
| | box . Top ( ) < = ld - > bbox [ BOXBOTTOM ]
| | box . Bottom ( ) > = ld - > bbox [ BOXTOP ] )
return true ;
if ( box . BoxOnLineSide ( ld ) ! = - 1 )
return true ;
// A line has been hit
if ( ffcf_verbose )
{
Printf ( " Hit line %d at position %f,%f, group %d \n " ,
int ( ld - lines ) , FIXED2FLOAT ( cres . position . x ) , FIXED2FLOAT ( cres . position . y ) , ld - > frontsector - > PortalGroup ) ;
}
if ( ! ld - > backsector )
{ // One sided line
return true ;
}
fixedvec2 refpoint = FindRefPoint ( ld , cres . position ) ;
FLineOpening open ;
P_LineOpening ( open , tmf . thing , ld , refpoint . x , refpoint . y , cres . position . x , cres . position . y , flags ) ;
// adjust floor / ceiling heights
if ( ! ( flags & FFCF_NOCEILING ) )
{
if ( open . top < tmf . ceilingz )
{
tmf . ceilingz = open . top ;
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if ( open . topsec ! = NULL ) tmf . ceilingsector = open . topsec ;
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if ( ffcf_verbose ) Printf ( " Adjust ceilingz to %f \n " , FIXED2FLOAT ( open . top ) ) ;
mit . StopUp ( ) ;
}
}
if ( ! ( flags & FFCF_NOFLOOR ) )
{
if ( open . bottom > tmf . floorz )
{
tmf . floorz = open . bottom ;
if ( open . bottomsec ! = NULL ) tmf . floorsector = open . bottomsec ;
tmf . touchmidtex = open . touchmidtex ;
tmf . abovemidtex = open . abovemidtex ;
if ( ffcf_verbose ) Printf ( " Adjust floorz to %f \n " , FIXED2FLOAT ( open . bottom ) ) ;
if ( tmf . floorz > tmf . dropoffz + tmf . thing - > MaxDropOffHeight ) mit . StopDown ( ) ;
}
else if ( open . bottom = = tmf . floorz )
{
tmf . touchmidtex | = open . touchmidtex ;
tmf . abovemidtex | = open . abovemidtex ;
}
if ( open . lowfloor < tmf . dropoffz & & open . lowfloor > FIXED_MIN )
{
tmf . dropoffz = open . lowfloor ;
if ( ffcf_verbose ) Printf ( " Adjust dropoffz to %f \n " , FIXED2FLOAT ( open . bottom ) ) ;
if ( tmf . floorz > tmf . dropoffz + tmf . thing - > MaxDropOffHeight ) mit . StopDown ( ) ;
}
}
return true ;
}
//==========================================================================
//
// calculates the actual floor and ceiling position at a given
// coordinate. Traverses through portals unless being told not to.
//
//==========================================================================
void P_GetFloorCeilingZ ( FCheckPosition & tmf , int flags )
{
sector_t * sec = ( ! ( flags & FFCF_SAMESECTOR ) | | tmf . thing - > Sector = = NULL ) ? P_PointInSector ( tmf . x , tmf . y ) : tmf . sector ;
F3DFloor * ffc , * fff ;
tmf . ceilingz = sec - > NextHighestCeilingAt ( tmf . x , tmf . y , tmf . z + tmf . thing - > height , flags , & tmf . ceilingsector , & ffc ) ;
tmf . floorz = tmf . dropoffz = sec - > NextLowestFloorAt ( tmf . x , tmf . y , tmf . z , flags , tmf . thing - > MaxStepHeight , & tmf . floorsector , & fff ) ;
if ( fff )
{
tmf . floorpic = * fff - > top . texture ;
tmf . floorterrain = fff - > model - > GetTerrain ( fff - > top . isceiling ) ;
}
else
{
tmf . floorpic = tmf . floorsector - > GetTexture ( sector_t : : floor ) ;
tmf . floorterrain = tmf . floorsector - > GetTerrain ( sector_t : : floor ) ;
}
tmf . ceilingpic = ffc ? * ffc - > bottom . texture : tmf . ceilingsector - > GetTexture ( sector_t : : ceiling ) ;
tmf . sector = sec ;
}
//==========================================================================
//
// P_FindFloorCeiling
//
//==========================================================================
void P_FindFloorCeiling ( AActor * actor , int flags )
{
FCheckPosition tmf ;
tmf . thing = actor ;
tmf . x = actor - > X ( ) ;
tmf . y = actor - > Y ( ) ;
tmf . z = actor - > Z ( ) ;
if ( flags & FFCF_ONLYSPAWNPOS )
{
flags | = FFCF_3DRESTRICT ;
}
if ( flags & FFCF_SAMESECTOR )
{
tmf . sector = actor - > Sector ;
}
P_GetFloorCeilingZ ( tmf , flags ) ;
assert ( tmf . thing - > Sector ! = NULL ) ;
actor - > floorz = tmf . floorz ;
actor - > dropoffz = tmf . dropoffz ;
actor - > ceilingz = tmf . ceilingz ;
actor - > floorpic = tmf . floorpic ;
actor - > floorterrain = tmf . floorterrain ;
actor - > floorsector = tmf . floorsector ;
actor - > ceilingpic = tmf . ceilingpic ;
actor - > ceilingsector = tmf . ceilingsector ;
if ( ffcf_verbose ) Printf ( " Starting with ceilingz = %f, floorz = %f \n " , FIXED2FLOAT ( tmf . ceilingz ) , FIXED2FLOAT ( tmf . floorz ) ) ;
tmf . touchmidtex = false ;
tmf . abovemidtex = false ;
validcount + + ;
FPortalGroupArray grouplist ;
FMultiBlockLinesIterator mit ( grouplist , actor ) ;
FMultiBlockLinesIterator : : CheckResult cres ;
// if we already have a valid floor/ceiling sector within the current sector,
// we do not need to iterate through plane portals to find a floor or ceiling.
if ( actor - > floorsector = = actor - > Sector ) mit . StopDown ( ) ;
if ( actor - > ceilingsector = = actor - > Sector ) mit . StopUp ( ) ;
while ( ( mit . Next ( & cres ) ) )
{
PIT_FindFloorCeiling ( mit , cres , mit . Box ( ) , tmf , flags | cres . portalflags ) ;
}
if ( tmf . touchmidtex ) tmf . dropoffz = tmf . floorz ;
bool usetmf = ! ( flags & FFCF_ONLYSPAWNPOS ) | | ( tmf . abovemidtex & & ( tmf . floorz < = actor - > Z ( ) ) ) ;
// when actual floor or ceiling are beyond a portal plane we also need to use the result of the blockmap iterator, regardless of the flags being specified.
if ( usetmf | | tmf . floorsector - > PortalGroup ! = actor - > Sector - > PortalGroup )
{
actor - > floorz = tmf . floorz ;
actor - > dropoffz = tmf . dropoffz ;
actor - > floorpic = tmf . floorpic ;
actor - > floorterrain = tmf . floorterrain ;
actor - > floorsector = tmf . floorsector ;
}
if ( usetmf | | tmf . ceilingsector - > PortalGroup ! = actor - > Sector - > PortalGroup )
{
actor - > ceilingz = tmf . ceilingz ;
actor - > ceilingpic = tmf . ceilingpic ;
actor - > ceilingsector = tmf . ceilingsector ;
}
}
// Debug CCMD for checking errors in the MultiBlockLinesIterator (needs to be removed when this code is complete)
CCMD ( ffcf )
{
ffcf_verbose = true ;
P_FindFloorCeiling ( players [ 0 ] . mo , 0 ) ;
ffcf_verbose = false ;
}
//==========================================================================
//
// TELEPORT MOVE
//
//
// P_TeleportMove
//
// [RH] Added telefrag parameter: When true, anything in the spawn spot
// will always be telefragged, and the move will be successful.
// Added z parameter. Originally, the thing's z was set *after* the
// move was made, so the height checking I added for 1.13 could
// potentially erroneously indicate the move was okay if the thing
// was being teleported between two non-overlapping height ranges.
//
//==========================================================================
bool P_TeleportMove ( AActor * thing , fixed_t x , fixed_t y , fixed_t z , bool telefrag , bool modifyactor )
{
FCheckPosition tmf ;
sector_t * oldsec = thing - > Sector ;
// kill anything occupying the position
// The base floor/ceiling is from the subsector that contains the point.
// Any contacted lines the step closer together will adjust them.
tmf . thing = thing ;
tmf . x = x ;
tmf . y = y ;
tmf . z = z ;
tmf . touchmidtex = false ;
tmf . abovemidtex = false ;
P_GetFloorCeilingZ ( tmf , 0 ) ;
bool StompAlwaysFrags = ( ( thing - > flags2 & MF2_TELESTOMP ) | | ( level . flags & LEVEL_MONSTERSTELEFRAG ) | | telefrag ) & & ! ( thing - > flags7 & MF7_NOTELESTOMP ) ;
// P_LineOpening requires the thing's z to be the destination z in order to work.
fixed_t savedz = thing - > Z ( ) ;
thing - > SetZ ( z ) ;
FPortalGroupArray grouplist ;
FMultiBlockLinesIterator mit ( grouplist , x , y , z , thing - > height , thing - > radius ) ;
FMultiBlockLinesIterator : : CheckResult cres ;
while ( mit . Next ( & cres ) )
{
PIT_FindFloorCeiling ( mit , cres , mit . Box ( ) , tmf , 0 ) ;
}
thing - > SetZ ( savedz ) ;
if ( tmf . touchmidtex ) tmf . dropoffz = tmf . floorz ;
FMultiBlockThingsIterator mit2 ( grouplist , x , y , z , thing - > height , thing - > radius ) ;
FMultiBlockThingsIterator : : CheckResult cres2 ;
while ( mit2 . Next ( & cres2 ) )
{
AActor * th = cres2 . thing ;
if ( ! ( th - > flags & MF_SHOOTABLE ) )
continue ;
// don't clip against self
if ( th = = thing )
continue ;
fixed_t blockdist = th - > radius + tmf . thing - > radius ;
if ( abs ( th - > X ( ) - cres2 . position . x ) > = blockdist | | abs ( th - > Y ( ) - cres2 . position . y ) > = blockdist )
continue ;
if ( ( th - > flags2 | tmf . thing - > flags2 ) & MF2_THRUACTORS )
continue ;
if ( tmf . thing - > flags6 & MF6_THRUSPECIES & & tmf . thing - > GetSpecies ( ) = = th - > GetSpecies ( ) )
continue ;
// [RH] Z-Check
// But not if not MF2_PASSMOBJ or MF3_DONTOVERLAP are set!
// Otherwise those things would get stuck inside each other.
if ( ( thing - > flags2 & MF2_PASSMOBJ | | th - > flags4 & MF4_ACTLIKEBRIDGE ) & & ! ( i_compatflags & COMPATF_NO_PASSMOBJ ) )
{
if ( ! ( th - > flags3 & thing - > flags3 & MF3_DONTOVERLAP ) )
{
if ( z > th - > Top ( ) | | // overhead
z + thing - > height < th - > Z ( ) ) // underneath
continue ;
}
}
// monsters don't stomp things except on boss level
// [RH] Some Heretic/Hexen monsters can telestomp
// ... and some items can never be telefragged while others will be telefragged by everything that teleports upon them.
if ( ( StompAlwaysFrags & & ! ( th - > flags6 & MF6_NOTELEFRAG ) ) | | ( th - > flags7 & MF7_ALWAYSTELEFRAG ) )
{
// Don't actually damage if predicting a teleport
if ( thing - > player = = NULL | | ! ( thing - > player - > cheats & CF_PREDICTING ) )
P_DamageMobj ( th , thing , thing , TELEFRAG_DAMAGE , NAME_Telefrag , DMG_THRUSTLESS ) ;
continue ;
}
return false ;
}
if ( modifyactor )
{
// the move is ok, so link the thing into its new position
thing - > SetOrigin ( x , y , z , false ) ;
thing - > floorz = tmf . floorz ;
thing - > ceilingz = tmf . ceilingz ;
thing - > floorsector = tmf . floorsector ;
thing - > floorpic = tmf . floorpic ;
thing - > floorterrain = tmf . floorterrain ;
thing - > ceilingsector = tmf . ceilingsector ;
thing - > ceilingpic = tmf . ceilingpic ;
thing - > dropoffz = tmf . dropoffz ; // killough 11/98
thing - > BlockingLine = NULL ;
if ( thing - > flags2 & MF2_FLOORCLIP )
{
thing - > AdjustFloorClip ( ) ;
}
if ( thing = = players [ consoleplayer ] . camera )
{
R_ResetViewInterpolation ( ) ;
}
// If this teleport was caused by a move, P_TryMove() will handle the
// sector transition messages better than we can here.
if ( ! ( thing - > flags6 & MF6_INTRYMOVE ) )
{
thing - > CheckSectorTransition ( oldsec ) ;
}
}
return true ;
}
//==========================================================================
//
// [RH] P_PlayerStartStomp
//
// Like P_TeleportMove, but it doesn't move anything, and only monsters and other
// players get telefragged.
//
//==========================================================================
void P_PlayerStartStomp ( AActor * actor , bool mononly )
{
FPortalGroupArray grouplist ;
FMultiBlockThingsIterator mit ( grouplist , actor ) ;
FMultiBlockThingsIterator : : CheckResult cres ;
while ( ( mit . Next ( & cres ) ) )
{
AActor * th = cres . thing ;
if ( ! ( th - > flags & MF_SHOOTABLE ) )
continue ;
// don't clip against self, and don't kill your own voodoo dolls
if ( th = = actor | | ( th - > player = = actor - > player & & th - > player ! = NULL ) )
continue ;
fixed_t blockdist = th - > radius + actor - > radius ;
if ( abs ( th - > X ( ) - cres . position . x ) > = blockdist | | abs ( th - > Y ( ) - cres . position . y ) > = blockdist )
continue ;
// only kill monsters and other players
if ( th - > player = = NULL & & ! ( th - > flags3 & MF3_ISMONSTER ) )
continue ;
if ( th - > player ! = NULL & & mononly )
continue ;
if ( actor - > Z ( ) > th - > Top ( ) )
continue ; // overhead
if ( actor - > Top ( ) < th - > Z ( ) )
continue ; // underneath
P_DamageMobj ( th , actor , actor , TELEFRAG_DAMAGE , NAME_Telefrag ) ;
}
}
//==========================================================================
//
//
//
//==========================================================================
inline fixed_t secfriction ( const sector_t * sec , int plane = sector_t : : floor )
{
if ( sec - > Flags & SECF_FRICTION ) return sec - > friction ;
fixed_t friction = Terrains [ sec - > GetTerrain ( plane ) ] . Friction ;
return friction ! = 0 ? friction : ORIG_FRICTION ;
}
inline fixed_t secmovefac ( const sector_t * sec , int plane = sector_t : : floor )
{
if ( sec - > Flags & SECF_FRICTION ) return sec - > movefactor ;
fixed_t movefactor = Terrains [ sec - > GetTerrain ( plane ) ] . MoveFactor ;
return movefactor ! = 0 ? movefactor : ORIG_FRICTION_FACTOR ;
}
//==========================================================================
//
// killough 8/28/98:
//
// P_GetFriction()
//
// Returns the friction associated with a particular mobj.
//
//==========================================================================
int P_GetFriction ( const AActor * mo , int * frictionfactor )
{
int friction = ORIG_FRICTION ;
int movefactor = ORIG_FRICTION_FACTOR ;
fixed_t newfriction ;
const msecnode_t * m ;
sector_t * sec ;
if ( mo - > IsNoClip2 ( ) )
{
// The default values are fine for noclip2 mode
}
else if ( mo - > flags2 & MF2_FLY & & mo - > flags & MF_NOGRAVITY )
{
friction = FRICTION_FLY ;
}
else if ( ( ! ( mo - > flags & MF_NOGRAVITY ) & & mo - > waterlevel > 1 ) | |
( mo - > waterlevel = = 1 & & mo - > Z ( ) > mo - > floorz + 6 * FRACUNIT ) )
{
friction = secfriction ( mo - > Sector ) ;
movefactor = secmovefac ( mo - > Sector ) > > 1 ;
// Check 3D floors -- might be the source of the waterlevel
for ( unsigned i = 0 ; i < mo - > Sector - > e - > XFloor . ffloors . Size ( ) ; i + + )
{
F3DFloor * rover = mo - > Sector - > e - > XFloor . ffloors [ i ] ;
if ( ! ( rover - > flags & FF_EXISTS ) ) continue ;
if ( ! ( rover - > flags & FF_SWIMMABLE ) ) continue ;
if ( mo - > Z ( ) > rover - > top . plane - > ZatPoint ( mo ) | |
mo - > Z ( ) < rover - > bottom . plane - > ZatPoint ( mo ) )
continue ;
newfriction = secfriction ( rover - > model , rover - > top . isceiling ) ;
if ( newfriction < friction | | friction = = ORIG_FRICTION )
{
friction = newfriction ;
movefactor = secmovefac ( rover - > model , rover - > top . isceiling ) > > 1 ;
}
}
}
else if ( var_friction & & ! ( mo - > flags & ( MF_NOCLIP | MF_NOGRAVITY ) ) )
{ // When the object is straddling sectors with the same
// floor height that have different frictions, use the lowest
// friction value (muddy has precedence over icy).
for ( m = mo - > touching_sectorlist ; m ; m = m - > m_tnext )
{
sec = m - > m_sector ;
fixedvec3 pos = mo - > PosRelative ( sec ) ;
// 3D floors must be checked, too
for ( unsigned i = 0 ; i < sec - > e - > XFloor . ffloors . Size ( ) ; i + + )
{
F3DFloor * rover = sec - > e - > XFloor . ffloors [ i ] ;
if ( ! ( rover - > flags & FF_EXISTS ) ) continue ;
if ( rover - > flags & FF_SOLID )
{
// Must be standing on a solid floor
if ( mo - > Z ( ) ! = rover - > top . plane - > ZatPoint ( pos ) ) continue ;
}
else if ( rover - > flags & FF_SWIMMABLE )
{
// Or on or inside a swimmable floor (e.g. in shallow water)
if ( mo - > Z ( ) > rover - > top . plane - > ZatPoint ( pos ) | |
( mo - > Top ( ) ) < rover - > bottom . plane - > ZatPoint ( pos ) )
continue ;
}
else
continue ;
newfriction = secfriction ( rover - > model , rover - > top . isceiling ) ;
if ( newfriction < friction | | friction = = ORIG_FRICTION )
{
friction = newfriction ;
movefactor = secmovefac ( rover - > model , rover - > top . isceiling ) ;
}
}
if ( ! ( sec - > Flags & SECF_FRICTION ) & &
Terrains [ sec - > GetTerrain ( sector_t : : floor ) ] . Friction = = 0 )
{
continue ;
}
newfriction = secfriction ( sec ) ;
if ( ( newfriction < friction | | friction = = ORIG_FRICTION ) & &
( mo - > Z ( ) < = sec - > floorplane . ZatPoint ( pos ) | |
( sec - > GetHeightSec ( ) ! = NULL & &
mo - > Z ( ) < = sec - > heightsec - > floorplane . ZatPoint ( pos ) ) ) )
{
friction = newfriction ;
movefactor = secmovefac ( sec ) ;
}
}
}
if ( mo - > Friction ! = FRACUNIT )
{
friction = clamp ( FixedMul ( friction , mo - > Friction ) , 0 , FRACUNIT ) ;
movefactor = FrictionToMoveFactor ( friction ) ;
}
if ( frictionfactor )
* frictionfactor = movefactor ;
return friction ;
}
//==========================================================================
//
// phares 3/19/98
// P_GetMoveFactor() returns the value by which the x,y
// movements are multiplied to add to player movement.
//
// killough 8/28/98: rewritten
//
//==========================================================================
int P_GetMoveFactor ( const AActor * mo , int * frictionp )
{
int movefactor , friction ;
// If the floor is icy or muddy, it's harder to get moving. This is where
// the different friction factors are applied to 'trying to move'. In
// p_mobj.c, the friction factors are applied as you coast and slow down.
if ( ( friction = P_GetFriction ( mo , & movefactor ) ) < ORIG_FRICTION )
{
// phares 3/11/98: you start off slowly, then increase as
// you get better footing
int velocity = P_AproxDistance ( mo - > velx , mo - > vely ) ;
if ( velocity > MORE_FRICTION_VELOCITY < < 2 )
movefactor < < = 3 ;
else if ( velocity > MORE_FRICTION_VELOCITY < < 1 )
movefactor < < = 2 ;
else if ( velocity > MORE_FRICTION_VELOCITY )
movefactor < < = 1 ;
}
if ( frictionp )
* frictionp = friction ;
return movefactor ;
}
//==========================================================================
//
// Checks if the line intersects with the actor
// returns
// - 1 when above/below
// - 0 when intersecting
// - -1 when outside the portal
//
//==========================================================================
static int LineIsAbove ( line_t * line , AActor * actor )
{
AActor * point = line - > frontsector - > SkyBoxes [ sector_t : : floor ] ;
if ( point = = NULL ) return - 1 ;
return point - > threshold > = actor - > Top ( ) ;
}
static int LineIsBelow ( line_t * line , AActor * actor )
{
AActor * point = line - > frontsector - > SkyBoxes [ sector_t : : ceiling ] ;
if ( point = = NULL ) return - 1 ;
return point - > threshold < = actor - > Z ( ) ;
}
//
// MOVEMENT ITERATOR FUNCTIONS
//
//==========================================================================
//
//
// PIT_CheckLine
// Adjusts tmfloorz and tmceilingz as lines are contacted
//
//
//==========================================================================
static // killough 3/26/98: make static
bool PIT_CheckLine ( FMultiBlockLinesIterator & mit , FMultiBlockLinesIterator : : CheckResult & cres , const FBoundingBox & box , FCheckPosition & tm )
{
line_t * ld = cres . line ;
bool rail = false ;
if ( box . Right ( ) < = ld - > bbox [ BOXLEFT ]
| | box . Left ( ) > = ld - > bbox [ BOXRIGHT ]
| | box . Top ( ) < = ld - > bbox [ BOXBOTTOM ]
| | box . Bottom ( ) > = ld - > bbox [ BOXTOP ] )
return true ;
if ( box . BoxOnLineSide ( ld ) ! = - 1 )
return true ;
// A line has been hit
/*
=
= The moving thing ' s destination position will cross the given line .
= If this should not be allowed , return false .
= If the line is special , keep track of it to process later if the move
= is proven ok . NOTE : specials are NOT sorted by order , so two special lines
= that are only 8 pixels apart could be crossed in either order .
*/
if ( ! ld - > backsector )
{ // One sided line
// Needed for polyobject portals.
if ( cres . line - > isLinePortal ( ) )
{
spechit_t spec ;
spec . line = ld ;
spec . refpos = cres . position ;
spec . oldrefpos = tm . thing - > PosRelative ( ld ) ;
portalhit . Push ( spec ) ;
return true ;
}
if ( ( ( cres . portalflags & FFCF_NOFLOOR ) & & LineIsAbove ( cres . line , tm . thing ) ! = 0 ) | |
( ( cres . portalflags & FFCF_NOCEILING ) & & LineIsBelow ( cres . line , tm . thing ) ! = 0 ) )
{
// this blocking line is in a different vertical layer and does not intersect with the actor that is being checked.
// Since a one-sided line does not have an opening there's nothing left to do about it.
return true ;
}
if ( tm . thing - > flags2 & MF2_BLASTED )
{
P_DamageMobj ( tm . thing , NULL , NULL , tm . thing - > Mass > > 5 , NAME_Melee ) ;
}
tm . thing - > BlockingLine = ld ;
CheckForPushSpecial ( ld , 0 , tm . thing ) ;
return false ;
}
// MBF bouncers are treated as missiles here.
bool Projectile = ( tm . thing - > flags & MF_MISSILE | | tm . thing - > BounceFlags & BOUNCE_MBF ) ;
// MBF considers that friendly monsters are not blocked by monster-blocking lines.
// This is added here as a compatibility option. Note that monsters that are dehacked
// into being friendly with the MBF flag automatically gain MF3_NOBLOCKMONST, so this
// just optionally generalizes the behavior to other friendly monsters.
bool NotBlocked = ( ( tm . thing - > flags3 & MF3_NOBLOCKMONST )
| | ( ( i_compatflags & COMPATF_NOBLOCKFRIENDS ) & & ( tm . thing - > flags & MF_FRIENDLY ) ) ) ;
if ( ! ( Projectile ) | | ( ld - > flags & ( ML_BLOCKEVERYTHING | ML_BLOCKPROJECTILE ) ) )
{
if ( ld - > flags & ML_RAILING )
{
rail = true ;
}
else if ( ( ld - > flags & ( ML_BLOCKING | ML_BLOCKEVERYTHING ) ) | | // explicitly blocking everything
( ! ( NotBlocked ) & & ( ld - > flags & ML_BLOCKMONSTERS ) ) | | // block monsters only
( tm . thing - > player ! = NULL & & ( ld - > flags & ML_BLOCK_PLAYERS ) ) | | // block players
( ( Projectile ) & & ( ld - > flags & ML_BLOCKPROJECTILE ) ) | | // block projectiles
( ( tm . thing - > flags & MF_FLOAT ) & & ( ld - > flags & ML_BLOCK_FLOATERS ) ) ) // block floaters
{
if ( cres . portalflags & FFCF_NOFLOOR )
{
int state = LineIsAbove ( cres . line , tm . thing ) ;
if ( state = = - 1 ) return true ;
if ( state = = 1 )
{
// the line should not block but we should set the ceilingz to the portal boundary so that we can't float up into that line.
fixed_t portalz = cres . line - > frontsector - > SkyBoxes [ sector_t : : floor ] - > threshold ;
if ( portalz < tm . ceilingz )
{
tm . ceilingz = portalz ;
tm . ceilingsector = cres . line - > frontsector ;
}
return true ;
}
}
else if ( cres . portalflags & FFCF_NOCEILING )
{
// same, but for downward portals
int state = LineIsBelow ( cres . line , tm . thing ) ;
if ( state = = - 1 ) return true ;
if ( state = = 1 )
{
fixed_t portalz = cres . line - > frontsector - > SkyBoxes [ sector_t : : ceiling ] - > threshold ;
if ( portalz > tm . floorz )
{
tm . floorz = portalz ;
tm . floorsector = cres . line - > frontsector ;
tm . floorterrain = 0 ;
}
return true ;
}
}
else
{
if ( tm . thing - > flags2 & MF2_BLASTED )
{
P_DamageMobj ( tm . thing , NULL , NULL , tm . thing - > Mass > > 5 , NAME_Melee ) ;
}
tm . thing - > BlockingLine = ld ;
// Calculate line side based on the actor's original position, not the new one.
CheckForPushSpecial ( ld , P_PointOnLineSide ( cres . position . x , cres . position . y , ld ) , tm . thing ) ;
return false ;
}
}
}
fixedvec2 ref = FindRefPoint ( ld , cres . position ) ;
FLineOpening open ;
P_LineOpening ( open , tm . thing , ld , ref . x , ref . y , cres . position . x , cres . position . y , cres . portalflags ) ;
// [RH] Steep sectors count as dropoffs, if the actor touches the boundary between a steep slope and something else
if ( ! ( tm . thing - > flags & MF_DROPOFF ) & &
! ( tm . thing - > flags & ( MF_NOGRAVITY | MF_NOCLIP ) ) )
{
if ( ( open . frontfloorplane . c < STEEPSLOPE ) ! = ( open . backfloorplane . c < STEEPSLOPE ) )
{
// on the boundary of a steep slope
return false ;
}
}
// If the floor planes on both sides match we should recalculate open.bottom at the actual position we are checking
// This is to avoid bumpy movement when crossing a linedef with the same slope on both sides.
if ( open . frontfloorplane = = open . backfloorplane & & open . bottom > FIXED_MIN )
{
open . bottom = open . frontfloorplane . ZatPoint ( cres . position . x , cres . position . y ) ;
}
if ( rail & &
// Eww! Gross! This check means the rail only exists if you stand on the
// high side of the rail. So if you're walking on the low side of the rail,
// it's possible to get stuck in the rail until you jump out. Unfortunately,
// there is an area on Strife MAP04 that requires this behavior. Still, it's
// better than Strife's handling of rails, which lets you jump into rails
// from either side. How long until somebody reports this as a bug and I'm
// forced to say, "It's not a bug. It's a feature?" Ugh.
( ! ( level . flags2 & LEVEL2_RAILINGHACK ) | |
open . bottom = = tm . thing - > Sector - > floorplane . ZatPoint ( ref . x , ref . y ) ) )
{
open . bottom + = 32 * FRACUNIT ;
}
// adjust floor / ceiling heights
if ( ! ( cres . portalflags & FFCF_NOCEILING ) )
{
if ( open . top < tm . ceilingz )
{
tm . ceilingz = open . top ;
tm . ceilingsector = open . topsec ;
tm . ceilingpic = open . ceilingpic ;
tm . ceilingline = ld ;
tm . thing - > BlockingLine = ld ;
}
}
if ( ! ( cres . portalflags & FFCF_NOFLOOR ) )
{
if ( open . bottom > tm . floorz )
{
tm . floorz = open . bottom ;
tm . floorsector = open . bottomsec ;
tm . floorpic = open . floorpic ;
tm . floorterrain = open . floorterrain ;
tm . touchmidtex = open . touchmidtex ;
tm . abovemidtex = open . abovemidtex ;
tm . thing - > BlockingLine = ld ;
}
else if ( open . bottom = = tm . floorz )
{
tm . touchmidtex | = open . touchmidtex ;
tm . abovemidtex | = open . abovemidtex ;
}
if ( open . lowfloor < tm . dropoffz )
{
tm . dropoffz = open . lowfloor ;
}
}
// if contacted a special line, add it to the list
spechit_t spec ;
if ( ld - > special )
{
spec . line = ld ;
spec . refpos = cres . position ;
spec . oldrefpos = tm . thing - > PosRelative ( ld ) ;
spechit . Push ( spec ) ;
}
if ( ld - > portalindex ! = UINT_MAX )
{
spec . line = ld ;
spec . refpos = cres . position ;
spec . oldrefpos = tm . thing - > PosRelative ( ld ) ;
portalhit . Push ( spec ) ;
}
return true ;
}
//==========================================================================
//
//
// PIT_CheckPortal
// This checks the destination side of a non-static line portal
// We cannot run a full P_CheckPosition there because it'd set
// multiple fields to values that can cause problems in other
// parts of the code
//
// What this does is starting a separate BlockLinesIterator
// and only taking the absolutely necessary information
// (i.e. floor and ceiling height plus terrain)
//
//
//==========================================================================
static bool PIT_CheckPortal ( FMultiBlockLinesIterator & mit , FMultiBlockLinesIterator : : CheckResult cres , const FBoundingBox & box , FCheckPosition & tm )
{
// if in another vertical section let's just ignore it.
if ( cres . portalflags & ( FFCF_NOCEILING | FFCF_NOFLOOR ) ) return false ;
if ( box . Right ( ) < = cres . line - > bbox [ BOXLEFT ]
| | box . Left ( ) > = cres . line - > bbox [ BOXRIGHT ]
| | box . Top ( ) < = cres . line - > bbox [ BOXBOTTOM ]
| | box . Bottom ( ) > = cres . line - > bbox [ BOXTOP ] )
return false ;
if ( box . BoxOnLineSide ( cres . line ) ! = - 1 )
return false ;
line_t * lp = cres . line - > getPortalDestination ( ) ;
fixed_t zofs = 0 ;
2016-03-03 10:58:04 +00:00
P_TranslatePortalXY ( cres . line , cres . position . x , cres . position . y ) ;
P_TranslatePortalZ ( cres . line , zofs ) ;
2016-03-01 15:47:10 +00:00
// fudge a bit with the portal line so that this gets included in the checks that normally only get run on two-sided lines
sector_t * sec = lp - > backsector ;
if ( lp - > backsector = = NULL ) lp - > backsector = lp - > frontsector ;
tm . thing - > AddZ ( zofs ) ;
FBoundingBox pbox ( cres . position . x , cres . position . y , tm . thing - > radius ) ;
FBlockLinesIterator it ( pbox ) ;
bool ret = false ;
line_t * ld ;
// Check all lines at the destination
while ( ( ld = it . Next ( ) ) )
{
if ( pbox . Right ( ) < = ld - > bbox [ BOXLEFT ]
| | pbox . Left ( ) > = ld - > bbox [ BOXRIGHT ]
| | pbox . Top ( ) < = ld - > bbox [ BOXBOTTOM ]
| | pbox . Bottom ( ) > = ld - > bbox [ BOXTOP ] )
continue ;
if ( pbox . BoxOnLineSide ( ld ) ! = - 1 )
continue ;
if ( ld - > backsector = = NULL )
continue ;
fixedvec2 ref = FindRefPoint ( ld , cres . position ) ;
FLineOpening open ;
P_LineOpening ( open , tm . thing , ld , ref . x , ref . y , cres . position . x , cres . position . y , 0 ) ;
// adjust floor / ceiling heights
if ( open . top - zofs < tm . ceilingz )
{
tm . ceilingz = open . top - zofs ;
tm . ceilingpic = open . ceilingpic ;
/*
tm . ceilingsector = open . topsec ;
tm . ceilingline = ld ;
tm . thing - > BlockingLine = ld ;
*/
ret = true ;
}
if ( open . bottom - zofs > tm . floorz )
{
tm . floorz = open . bottom - zofs ;
tm . floorpic = open . floorpic ;
tm . floorterrain = open . floorterrain ;
/*
tm . floorsector = open . bottomsec ;
tm . touchmidtex = open . touchmidtex ;
tm . abovemidtex = open . abovemidtex ;
tm . thing - > BlockingLine = ld ;
*/
ret = true ;
}
if ( open . lowfloor - zofs < tm . dropoffz )
tm . dropoffz = open . lowfloor - zofs ;
}
tm . thing - > AddZ ( - zofs ) ;
lp - > backsector = sec ;
return ret ;
}
//==========================================================================
//
// Isolated to keep the code readable and fix the logic
//
//==========================================================================
static bool CheckRipLevel ( AActor * victim , AActor * projectile )
{
if ( victim - > RipLevelMin > 0 & & projectile - > RipperLevel < victim - > RipLevelMin ) return false ;
if ( victim - > RipLevelMax > 0 & & projectile - > RipperLevel > victim - > RipLevelMax ) return false ;
return true ;
}
//==========================================================================
//
// Isolated to keep the code readable and allow reuse in other attacks
//
//==========================================================================
static bool CanAttackHurt ( AActor * victim , AActor * shooter )
{
// players are never subject to infighting settings and are always allowed
// to harm / be harmed by anything.
if ( ! victim - > player & & ! shooter - > player )
{
int infight = G_SkillProperty ( SKILLP_Infight ) ;
if ( infight < 0 )
{
// -1: Monsters cannot hurt each other, but make exceptions for
// friendliness and hate status.
if ( shooter - > flags & MF_SHOOTABLE )
{
// Question: Should monsters be allowed to shoot barrels in this mode?
// The old code does not.
if ( victim - > flags3 & MF3_ISMONSTER )
{
// Monsters that are clearly hostile can always hurt each other
if ( ! victim - > IsHostile ( shooter ) )
{
// The same if the shooter hates the target
if ( victim - > tid = = 0 | | shooter - > TIDtoHate ! = victim - > tid )
{
return false ;
}
}
}
}
}
else if ( infight = = 0 )
{
// 0: Monsters cannot hurt same species except
// cases where they are clearly supposed to do that
if ( victim - > IsFriend ( shooter ) )
{
// Friends never harm each other, unless the shooter has the HARMFRIENDS set.
if ( ! ( shooter - > flags7 & MF7_HARMFRIENDS ) ) return false ;
}
else
{
if ( victim - > TIDtoHate ! = 0 & & victim - > TIDtoHate = = shooter - > TIDtoHate )
{
// [RH] Don't hurt monsters that hate the same victim as you do
return false ;
}
if ( victim - > GetSpecies ( ) = = shooter - > GetSpecies ( ) & & ! ( victim - > flags6 & MF6_DOHARMSPECIES ) )
{
// Don't hurt same species or any relative -
// but only if the target isn't one's hostile.
if ( ! victim - > IsHostile ( shooter ) )
{
// Allow hurting monsters the shooter hates.
if ( victim - > tid = = 0 | | shooter - > TIDtoHate ! = victim - > tid )
{
return false ;
}
}
}
}
}
// else if (infight==1) every shot hurts anything - no further tests needed
}
return true ;
}
//==========================================================================
//
// PIT_CheckThing
//
//==========================================================================
bool PIT_CheckThing ( FMultiBlockThingsIterator & it , FMultiBlockThingsIterator : : CheckResult & cres , const FBoundingBox & box , FCheckPosition & tm )
{
AActor * thing = cres . thing ;
fixed_t topz ;
bool solid ;
int damage ;
// don't clip against self
if ( thing = = tm . thing )
return true ;
if ( ! ( ( thing - > flags & ( MF_SOLID | MF_SPECIAL | MF_SHOOTABLE ) ) | | thing - > flags6 & MF6_TOUCHY ) )
return true ; // can't hit thing
fixed_t blockdist = thing - > radius + tm . thing - > radius ;
if ( abs ( thing - > X ( ) - cres . position . x ) > = blockdist | | abs ( thing - > Y ( ) - cres . position . y ) > = blockdist )
return true ;
if ( ( thing - > flags2 | tm . thing - > flags2 ) & MF2_THRUACTORS )
return true ;
if ( ( tm . thing - > flags6 & MF6_THRUSPECIES ) & & ( tm . thing - > GetSpecies ( ) = = thing - > GetSpecies ( ) ) )
return true ;
tm . thing - > BlockingMobj = thing ;
topz = thing - > Top ( ) ;
// Both things overlap in x or y direction
bool unblocking = false ;
// walking on other actors and unblocking is too messy through restricted portal types so disable it.
if ( ! ( cres . portalflags & FFCF_RESTRICTEDPORTAL ) )
{
if ( ! ( i_compatflags & COMPATF_NO_PASSMOBJ ) & & ! ( tm . thing - > flags & ( MF_FLOAT | MF_MISSILE | MF_SKULLFLY | MF_NOGRAVITY ) ) & &
( thing - > flags & MF_SOLID ) & & ( thing - > flags4 & MF4_ACTLIKEBRIDGE ) )
{
// [RH] Let monsters walk on actors as well as floors
if ( ( tm . thing - > flags3 & MF3_ISMONSTER ) & &
topz > = tm . floorz & & topz < = tm . thing - > Z ( ) + tm . thing - > MaxStepHeight )
{
// The commented-out if is an attempt to prevent monsters from walking off a
// thing further than they would walk off a ledge. I can't think of an easy
// way to do this, so I restrict them to only walking on bridges instead.
// Uncommenting the if here makes it almost impossible for them to walk on
// anything, bridge or otherwise.
// if (abs(thing->x - tmx) <= thing->radius &&
// abs(thing->y - tmy) <= thing->radius)
{
tm . stepthing = thing ;
tm . floorz = topz ;
}
}
}
if ( ( ( tm . FromPMove | | tm . thing - > player ! = NULL ) & & thing - > flags & MF_SOLID ) )
{
fixedvec3 oldpos = tm . thing - > PosRelative ( thing ) ;
// Both actors already overlap. To prevent them from remaining stuck allow the move if it
// takes them further apart or the move does not change the position (when called from P_ChangeSector.)
if ( oldpos . x = = thing - > X ( ) & & oldpos . y = = thing - > Y ( ) )
{
unblocking = true ;
}
else if ( abs ( thing - > X ( ) - oldpos . x ) < ( thing - > radius + tm . thing - > radius ) & &
abs ( thing - > Y ( ) - oldpos . y ) < ( thing - > radius + tm . thing - > radius ) )
{
fixed_t newdist = thing - > AproxDistance ( cres . position . x , cres . position . y ) ;
fixed_t olddist = thing - > AproxDistance ( oldpos . x , oldpos . y ) ;
if ( newdist > olddist )
{
// unblock only if there's already a vertical overlap (or both actors are flagged not to overlap)
unblocking = ( tm . thing - > Top ( ) > thing - > Z ( ) & & tm . thing - > Z ( ) < topz ) | | ( tm . thing - > flags3 & thing - > flags3 & MF3_DONTOVERLAP ) ;
}
}
}
}
// [RH] If the other thing is a bridge, then treat the moving thing as if it had MF2_PASSMOBJ, so
// you can use a scrolling floor to move scenery items underneath a bridge.
if ( ( tm . thing - > flags2 & MF2_PASSMOBJ | | thing - > flags4 & MF4_ACTLIKEBRIDGE ) & & ! ( i_compatflags & COMPATF_NO_PASSMOBJ ) )
{ // check if a mobj passed over/under another object
if ( ! ( tm . thing - > flags & MF_MISSILE ) | |
! ( tm . thing - > flags2 & MF2_RIP ) | |
( thing - > flags5 & MF5_DONTRIP ) | |
( ( tm . thing - > flags6 & MF6_NOBOSSRIP ) & & ( thing - > flags2 & MF2_BOSS ) ) )
{
if ( tm . thing - > flags3 & thing - > flags3 & MF3_DONTOVERLAP )
{ // Some things prefer not to overlap each other, if possible
return unblocking ;
}
if ( ( tm . thing - > Z ( ) > = topz ) | | ( tm . thing - > Top ( ) < = thing - > Z ( ) ) )
return true ;
}
}
if ( tm . thing - > player = = NULL | | ! ( tm . thing - > player - > cheats & CF_PREDICTING ) )
{
// touchy object is alive, toucher is solid
if ( thing - > flags6 & MF6_TOUCHY & & tm . thing - > flags & MF_SOLID & & thing - > health > 0 & &
// Thing is an armed mine or a sentient thing
( thing - > flags6 & MF6_ARMED | | thing - > IsSentient ( ) ) & &
// either different classes or players
( thing - > player | | thing - > GetClass ( ) ! = tm . thing - > GetClass ( ) ) & &
// or different species if DONTHARMSPECIES
( ! ( thing - > flags6 & MF6_DONTHARMSPECIES ) | | thing - > GetSpecies ( ) ! = tm . thing - > GetSpecies ( ) ) & &
// touches vertically
topz > = tm . thing - > Z ( ) & & tm . thing - > Top ( ) > = thing - > Z ( ) & &
// prevents lost souls from exploding when fired by pain elementals
( thing - > master ! = tm . thing & & tm . thing - > master ! = thing ) )
// Difference with MBF: MBF hardcodes the LS/PE check and lets actors of the same species
// but different classes trigger the touchiness, but that seems less straightforwards.
{
thing - > flags6 & = ~ MF6_ARMED ; // Disarm
P_DamageMobj ( thing , NULL , NULL , thing - > health , NAME_None , DMG_FORCED ) ; // kill object
return true ;
}
// Check for MF6_BUMPSPECIAL
// By default, only players can activate things by bumping into them
if ( ( thing - > flags6 & MF6_BUMPSPECIAL ) & & ( ( tm . thing - > player ! = NULL )
| | ( ( thing - > activationtype & THINGSPEC_MonsterTrigger ) & & ( tm . thing - > flags3 & MF3_ISMONSTER ) )
| | ( ( thing - > activationtype & THINGSPEC_MissileTrigger ) & & ( tm . thing - > flags & MF_MISSILE ) )
) & & ( level . maptime > thing - > lastbump ) ) // Leave the bumper enough time to go away
{
if ( P_ActivateThingSpecial ( thing , tm . thing ) )
thing - > lastbump = level . maptime + TICRATE ;
}
}
// Check for skulls slamming into things
if ( tm . thing - > flags & MF_SKULLFLY )
{
bool res = tm . thing - > Slam ( tm . thing - > BlockingMobj ) ;
tm . thing - > BlockingMobj = NULL ;
return res ;
}
// [ED850] Player Prediction ends here. There is nothing else they could/should do.
if ( tm . thing - > player ! = NULL & & ( tm . thing - > player - > cheats & CF_PREDICTING ) )
{
solid = ( thing - > flags & MF_SOLID ) & &
! ( thing - > flags & MF_NOCLIP ) & &
( ( tm . thing - > flags & MF_SOLID ) | | ( tm . thing - > flags6 & MF6_BLOCKEDBYSOLIDACTORS ) ) ;
return ! solid | | unblocking ;
}
// Check for blasted thing running into another
if ( ( tm . thing - > flags2 & MF2_BLASTED ) & & ( thing - > flags & MF_SHOOTABLE ) )
{
if ( ! ( thing - > flags2 & MF2_BOSS ) & & ( thing - > flags3 & MF3_ISMONSTER ) & & ! ( thing - > flags3 & MF3_DONTBLAST ) )
{
// ideally this should take the mass factor into account
thing - > velx + = tm . thing - > velx ;
thing - > vely + = tm . thing - > vely ;
if ( ( thing - > velx + thing - > vely ) > 3 * FRACUNIT )
{
int newdam ;
damage = ( tm . thing - > Mass / 100 ) + 1 ;
newdam = P_DamageMobj ( thing , tm . thing , tm . thing , damage , tm . thing - > DamageType ) ;
P_TraceBleed ( newdam > 0 ? newdam : damage , thing , tm . thing ) ;
damage = ( thing - > Mass / 100 ) + 1 ;
newdam = P_DamageMobj ( tm . thing , thing , thing , damage > > 2 , tm . thing - > DamageType ) ;
P_TraceBleed ( newdam > 0 ? newdam : damage , tm . thing , thing ) ;
}
return false ;
}
}
// Check for missile or non-solid MBF bouncer
if ( tm . thing - > flags & MF_MISSILE | | ( ( tm . thing - > BounceFlags & BOUNCE_MBF ) & & ! ( tm . thing - > flags & MF_SOLID ) ) )
{
// Check for a non-shootable mobj
if ( thing - > flags2 & MF2_NONSHOOTABLE )
{
return true ;
}
// Check for passing through a ghost
if ( ( thing - > flags3 & MF3_GHOST ) & & ( tm . thing - > flags2 & MF2_THRUGHOST ) )
{
return true ;
}
if ( ( tm . thing - > flags6 & MF6_MTHRUSPECIES )
& & tm . thing - > target // NULL pointer check
& & ( tm . thing - > target - > GetSpecies ( ) = = thing - > GetSpecies ( ) ) )
return true ;
// Check for rippers passing through corpses
if ( ( thing - > flags & MF_CORPSE ) & & ( tm . thing - > flags2 & MF2_RIP ) & & ! ( thing - > flags & MF_SHOOTABLE ) )
{
return true ;
}
int clipheight ;
if ( thing - > projectilepassheight > 0 )
{
clipheight = thing - > projectilepassheight ;
}
else if ( thing - > projectilepassheight < 0 & & ( i_compatflags & COMPATF_MISSILECLIP ) )
{
clipheight = - thing - > projectilepassheight ;
}
else
{
clipheight = thing - > height ;
}
// Check if it went over / under
if ( tm . thing - > Z ( ) > thing - > Z ( ) + clipheight )
{ // Over thing
return true ;
}
if ( tm . thing - > Top ( ) < thing - > Z ( ) )
{ // Under thing
return true ;
}
// [RH] What is the point of this check, again? In Hexen, it is unconditional,
// but here we only do it if the missile's damage is 0.
// MBF bouncer might have a non-0 damage value, but they must not deal damage on impact either.
if ( ( tm . thing - > BounceFlags & BOUNCE_Actors ) & & ( tm . thing - > Damage = = 0 | | ! ( tm . thing - > flags & MF_MISSILE ) ) )
{
return ( tm . thing - > target = = thing | | ! ( thing - > flags & MF_SOLID ) ) ;
}
switch ( tm . thing - > SpecialMissileHit ( thing ) )
{
case 0 : return false ;
case 1 : return true ;
default : break ;
}
// [RH] Extend DeHacked infighting to allow for monsters
// to never fight each other
if ( tm . thing - > target ! = NULL )
{
if ( thing = = tm . thing - > target )
{ // Don't missile self
return true ;
}
if ( ! CanAttackHurt ( thing , tm . thing - > target ) )
{
return false ;
}
}
if ( ! ( thing - > flags & MF_SHOOTABLE ) )
{ // Didn't do any damage
return ! ( thing - > flags & MF_SOLID ) ;
}
if ( ( thing - > flags4 & MF4_SPECTRAL ) & & ! ( tm . thing - > flags4 & MF4_SPECTRAL ) )
{
return true ;
}
if ( ( tm . DoRipping & & ! ( thing - > flags5 & MF5_DONTRIP ) ) & & CheckRipLevel ( thing , tm . thing ) )
{
if ( ! ( tm . thing - > flags6 & MF6_NOBOSSRIP ) | | ! ( thing - > flags2 & MF2_BOSS ) )
{
bool * check = tm . LastRipped . CheckKey ( thing ) ;
if ( check = = NULL | | ! * check )
{
tm . LastRipped [ thing ] = true ;
if ( ! ( thing - > flags & MF_NOBLOOD ) & &
! ( thing - > flags2 & MF2_REFLECTIVE ) & &
! ( tm . thing - > flags3 & MF3_BLOODLESSIMPACT ) & &
! ( thing - > flags2 & ( MF2_INVULNERABLE | MF2_DORMANT ) ) )
{ // Ok to spawn blood
P_RipperBlood ( tm . thing , thing ) ;
}
S_Sound ( tm . thing , CHAN_BODY , " misc/ripslop " , 1 , ATTN_IDLE ) ;
// Do poisoning (if using new style poison)
if ( tm . thing - > PoisonDamage > 0 & & tm . thing - > PoisonDuration ! = INT_MIN )
{
P_PoisonMobj ( thing , tm . thing , tm . thing - > target , tm . thing - > PoisonDamage , tm . thing - > PoisonDuration , tm . thing - > PoisonPeriod , tm . thing - > PoisonDamageType ) ;
}
damage = tm . thing - > GetMissileDamage ( 3 , 2 ) ;
int newdam = P_DamageMobj ( thing , tm . thing , tm . thing - > target , damage , tm . thing - > DamageType ) ;
if ( ! ( tm . thing - > flags3 & MF3_BLOODLESSIMPACT ) )
{
P_TraceBleed ( newdam > 0 ? newdam : damage , thing , tm . thing ) ;
}
if ( thing - > flags2 & MF2_PUSHABLE
& & ! ( tm . thing - > flags2 & MF2_CANNOTPUSH ) )
{ // Push thing
if ( thing - > lastpush ! = tm . PushTime )
{
thing - > velx + = FixedMul ( tm . thing - > velx , thing - > pushfactor ) ;
thing - > vely + = FixedMul ( tm . thing - > vely , thing - > pushfactor ) ;
thing - > lastpush = tm . PushTime ;
}
}
}
spechit . Clear ( ) ;
return true ;
}
}
// Do poisoning (if using new style poison)
if ( tm . thing - > PoisonDamage > 0 & & tm . thing - > PoisonDuration ! = INT_MIN )
{
P_PoisonMobj ( thing , tm . thing , tm . thing - > target , tm . thing - > PoisonDamage , tm . thing - > PoisonDuration , tm . thing - > PoisonPeriod , tm . thing - > PoisonDamageType ) ;
}
// Do damage
damage = tm . thing - > GetMissileDamage ( ( tm . thing - > flags4 & MF4_STRIFEDAMAGE ) ? 3 : 7 , 1 ) ;
if ( ( damage > 0 ) | | ( tm . thing - > flags6 & MF6_FORCEPAIN ) | | ( tm . thing - > flags7 & MF7_CAUSEPAIN ) )
{
int newdam = P_DamageMobj ( thing , tm . thing , tm . thing - > target , damage , tm . thing - > DamageType ) ;
if ( damage > 0 )
{
if ( ( tm . thing - > flags5 & MF5_BLOODSPLATTER ) & &
! ( thing - > flags & MF_NOBLOOD ) & &
! ( thing - > flags2 & MF2_REFLECTIVE ) & &
! ( thing - > flags2 & ( MF2_INVULNERABLE | MF2_DORMANT ) ) & &
! ( tm . thing - > flags3 & MF3_BLOODLESSIMPACT ) & &
( pr_checkthing ( ) < 192 ) )
{
2016-03-06 20:58:36 +00:00
P_BloodSplatter ( tm . thing - > Pos ( ) , thing ) ;
2016-03-01 15:47:10 +00:00
}
if ( ! ( tm . thing - > flags3 & MF3_BLOODLESSIMPACT ) )
{
P_TraceBleed ( newdam > 0 ? newdam : damage , thing , tm . thing ) ;
}
}
}
else
{
P_GiveBody ( thing , - damage ) ;
}
if ( ( thing - > flags7 & MF7_THRUREFLECT ) & & ( thing - > flags2 & MF2_REFLECTIVE ) & & ( tm . thing - > flags & MF_MISSILE ) )
{
if ( tm . thing - > flags2 & MF2_SEEKERMISSILE )
{
tm . thing - > tracer = tm . thing - > target ;
}
tm . thing - > target = thing ;
return true ;
}
return false ; // don't traverse any more
}
if ( thing - > flags2 & MF2_PUSHABLE & & ! ( tm . thing - > flags2 & MF2_CANNOTPUSH ) )
{ // Push thing
if ( thing - > lastpush ! = tm . PushTime )
{
thing - > velx + = FixedMul ( tm . thing - > velx , thing - > pushfactor ) ;
thing - > vely + = FixedMul ( tm . thing - > vely , thing - > pushfactor ) ;
thing - > lastpush = tm . PushTime ;
}
}
solid = ( thing - > flags & MF_SOLID ) & &
! ( thing - > flags & MF_NOCLIP ) & &
( ( tm . thing - > flags & MF_SOLID ) | | ( tm . thing - > flags6 & MF6_BLOCKEDBYSOLIDACTORS ) ) ;
// Check for special pickup
if ( ( thing - > flags & MF_SPECIAL ) & & ( tm . thing - > flags & MF_PICKUP )
// [RH] The next condition is to compensate for the extra height
// that gets added by P_CheckPosition() so that you cannot pick
// up things that are above your true height.
& & thing - > Z ( ) < tm . thing - > Top ( ) - tm . thing - > MaxStepHeight )
{ // Can be picked up by tmthing
P_TouchSpecialThing ( thing , tm . thing ) ; // can remove thing
}
// killough 3/16/98: Allow non-solid moving objects to move through solid
// ones, by allowing the moving thing (tmthing) to move if it's non-solid,
// despite another solid thing being in the way.
// killough 4/11/98: Treat no-clipping things as not blocking
return ! solid | | unblocking ;
// return !(thing->flags & MF_SOLID); // old code -- killough
}
/*
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
MOVEMENT CLIPPING
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
*/
//==========================================================================
//
// P_CheckPosition
// This is purely informative, nothing is modified
// (except things picked up and missile damage applied).
//
// in:
// a AActor (can be valid or invalid)
// a position to be checked
// (doesn't need to be related to the AActor->x,y)
//
// during:
// special things are touched if MF_PICKUP
// early out on solid lines?
//
// out:
// newsubsec
// floorz
// ceilingz
// tmdropoffz = the lowest point contacted (monsters won't move to a dropoff)
// speciallines[]
// numspeciallines
// AActor *BlockingMobj = pointer to thing that blocked position (NULL if not
// blocked, or blocked by a line).
//
//==========================================================================
bool P_CheckPosition ( AActor * thing , fixed_t x , fixed_t y , FCheckPosition & tm , bool actorsonly )
{
sector_t * newsec ;
AActor * thingblocker ;
fixed_t realheight = thing - > height ;
tm . thing = thing ;
tm . x = x ;
tm . y = y ;
tm . z = thing - > Z ( ) ;
newsec = tm . sector = P_PointInSector ( x , y ) ;
tm . ceilingline = thing - > BlockingLine = NULL ;
// Retrieve the base floor / ceiling from the target location.
// Any contacted lines the step closer together will adjust them.
if ( ! thing - > IsNoClip2 ( ) )
{
P_GetFloorCeilingZ ( tm , FFCF_SAMESECTOR ) ;
}
else
{
// With noclip2, we must ignore 3D floors and go right to the uppermost ceiling and lowermost floor.
tm . floorz = tm . dropoffz = newsec - > LowestFloorAt ( x , y , & tm . floorsector ) ;
tm . ceilingz = newsec - > HighestCeilingAt ( x , y , & tm . ceilingsector ) ;
tm . floorpic = tm . floorsector - > GetTexture ( sector_t : : floor ) ;
tm . floorterrain = tm . floorsector - > GetTerrain ( sector_t : : floor ) ;
tm . ceilingpic = tm . ceilingsector - > GetTexture ( sector_t : : ceiling ) ;
}
tm . touchmidtex = false ;
tm . abovemidtex = false ;
validcount + + ;
if ( ( thing - > flags & MF_NOCLIP ) & & ! ( thing - > flags & MF_SKULLFLY ) )
return true ;
// Check things first, possibly picking things up.
thing - > BlockingMobj = NULL ;
thingblocker = NULL ;
if ( thing - > player )
{ // [RH] Fake taller height to catch stepping up into things.
thing - > height = realheight + thing - > MaxStepHeight ;
}
tm . stepthing = NULL ;
FBoundingBox box ( x , y , thing - > radius ) ;
FPortalGroupArray pcheck ;
FMultiBlockThingsIterator it2 ( pcheck , x , y , thing - > Z ( ) , thing - > height , thing - > radius ) ;
FMultiBlockThingsIterator : : CheckResult tcres ;
while ( ( it2 . Next ( & tcres ) ) )
{
if ( ! PIT_CheckThing ( it2 , tcres , it2 . Box ( ) , tm ) )
{ // [RH] If a thing can be stepped up on, we need to continue checking
// other things in the blocks and see if we hit something that is
// definitely blocking. Otherwise, we need to check the lines, or we
// could end up stuck inside a wall.
AActor * BlockingMobj = thing - > BlockingMobj ;
// If this blocks through a restricted line portal, it will always completely block.
if ( BlockingMobj = = NULL | | ( i_compatflags & COMPATF_NO_PASSMOBJ ) | | ( tcres . portalflags & FFCF_RESTRICTEDPORTAL ) )
{ // Thing slammed into something; don't let it move now.
thing - > height = realheight ;
return false ;
}
else if ( ! BlockingMobj - > player & & ! ( thing - > flags & ( MF_FLOAT | MF_MISSILE | MF_SKULLFLY ) ) & &
BlockingMobj - > Top ( ) - thing - > Z ( ) < = thing - > MaxStepHeight )
{
if ( thingblocker = = NULL | |
BlockingMobj - > Z ( ) > thingblocker - > Z ( ) )
{
thingblocker = BlockingMobj ;
}
thing - > BlockingMobj = NULL ;
}
else if ( thing - > player & &
thing - > Top ( ) - BlockingMobj - > Z ( ) < = thing - > MaxStepHeight )
{
if ( thingblocker )
{ // There is something to step up on. Return this thing as
// the blocker so that we don't step up.
thing - > height = realheight ;
return false ;
}
// Nothing is blocking us, but this actor potentially could
// if there is something else to step on.
thing - > BlockingMobj = NULL ;
}
else
{ // Definitely blocking
thing - > height = realheight ;
return false ;
}
}
}
// check lines
// [RH] We need to increment validcount again, because a function above may
// have already set some lines to equal the current validcount.
//
// Specifically, when DehackedPickup spawns a new item in its TryPickup()
// function, that new actor will set the lines around it to match validcount
// when it links itself into the world. If we just leave validcount alone,
// that will give the player the freedom to walk through walls at will near
// a pickup they cannot get, because their validcount will prevent them from
// being considered for collision with the player.
validcount + + ;
thing - > BlockingMobj = NULL ;
thing - > height = realheight ;
if ( actorsonly | | ( thing - > flags & MF_NOCLIP ) )
return ( thing - > BlockingMobj = thingblocker ) = = NULL ;
spechit . Clear ( ) ;
portalhit . Clear ( ) ;
FMultiBlockLinesIterator it ( pcheck , x , y , thing - > Z ( ) , thing - > height , thing - > radius ) ;
FMultiBlockLinesIterator : : CheckResult lcres ;
fixed_t thingdropoffz = tm . floorz ;
//bool onthing = (thingdropoffz != tmdropoffz);
tm . floorz = tm . dropoffz ;
bool good = true ;
while ( it . Next ( & lcres ) )
{
bool thisresult = PIT_CheckLine ( it , lcres , it . Box ( ) , tm ) ;
good & = thisresult ;
if ( thisresult )
{
FLinePortal * port = lcres . line - > getPortal ( ) ;
if ( port ! = NULL & & port - > mFlags & PORTF_PASSABLE & & port - > mType ! = PORTT_LINKED )
{
// Checking the other side of the portal completely is too costly,
// but checking the portal's destination line is necessary to
// retrieve the proper sector heights on the other side.
if ( PIT_CheckPortal ( it , lcres , it . Box ( ) , tm ) )
{
tm . thing - > BlockingLine = lcres . line ;
}
}
}
}
if ( ! good )
{
return false ;
}
if ( tm . ceilingz - tm . floorz < thing - > height )
{
return false ;
}
if ( tm . touchmidtex )
{
tm . dropoffz = tm . floorz ;
}
else if ( tm . stepthing ! = NULL )
{
tm . dropoffz = thingdropoffz ;
}
return ( thing - > BlockingMobj = thingblocker ) = = NULL ;
}
bool P_CheckPosition ( AActor * thing , fixed_t x , fixed_t y , bool actorsonly )
{
FCheckPosition tm ;
return P_CheckPosition ( thing , x , y , tm , actorsonly ) ;
}
//----------------------------------------------------------------------------
//
// FUNC P_TestMobjLocation
//
// Returns true if the mobj is not blocked by anything at its current
// location, otherwise returns false.
//
//----------------------------------------------------------------------------
bool P_TestMobjLocation ( AActor * mobj )
{
ActorFlags flags ;
flags = mobj - > flags ;
mobj - > flags & = ~ MF_PICKUP ;
if ( P_CheckPosition ( mobj , mobj - > X ( ) , mobj - > Y ( ) ) )
{ // XY is ok, now check Z
mobj - > flags = flags ;
if ( ( mobj - > Z ( ) < mobj - > floorz ) | | ( mobj - > Top ( ) > mobj - > ceilingz ) )
{ // Bad Z
return false ;
}
return true ;
}
mobj - > flags = flags ;
return false ;
}
//=============================================================================
//
// P_CheckOnmobj(AActor *thing)
//
// Checks if the new Z position is legal
//=============================================================================
AActor * P_CheckOnmobj ( AActor * thing )
{
fixed_t oldz ;
bool good ;
AActor * onmobj ;
oldz = thing - > Z ( ) ;
P_FakeZMovement ( thing ) ;
good = P_TestMobjZ ( thing , false , & onmobj ) ;
thing - > SetZ ( oldz ) ;
return good ? NULL : onmobj ;
}
//=============================================================================
//
// P_TestMobjZ
//
//=============================================================================
bool P_TestMobjZ ( AActor * actor , bool quick , AActor * * pOnmobj )
{
AActor * onmobj = NULL ;
if ( actor - > flags & MF_NOCLIP )
{
if ( pOnmobj ) * pOnmobj = NULL ;
return true ;
}
FPortalGroupArray check ;
FMultiBlockThingsIterator it ( check , actor , - 1 , true ) ;
FMultiBlockThingsIterator : : CheckResult cres ;
while ( it . Next ( & cres ) )
{
AActor * thing = cres . thing ;
fixed_t blockdist = thing - > radius + actor - > radius ;
if ( abs ( thing - > X ( ) - cres . position . x ) > = blockdist | | abs ( thing - > Y ( ) - cres . position . y ) > = blockdist )
{
continue ;
}
if ( ( actor - > flags2 | thing - > flags2 ) & MF2_THRUACTORS )
{
continue ;
}
if ( ( actor - > flags6 & MF6_THRUSPECIES ) & & ( thing - > GetSpecies ( ) = = actor - > GetSpecies ( ) ) )
{
continue ;
}
if ( ! ( thing - > flags & MF_SOLID ) )
{ // Can't hit thing
continue ;
}
if ( thing - > flags & ( MF_SPECIAL | MF_NOCLIP ) )
{ // [RH] Specials and noclippers don't block moves
continue ;
}
if ( thing - > flags & ( MF_CORPSE ) )
{ // Corpses need a few more checks
if ( ! ( actor - > flags & MF_ICECORPSE ) )
continue ;
}
if ( ! ( thing - > flags4 & MF4_ACTLIKEBRIDGE ) & & ( actor - > flags & MF_SPECIAL ) )
{ // [RH] Only bridges block pickup items
continue ;
}
if ( thing = = actor )
{ // Don't clip against self
continue ;
}
if ( ( actor - > flags & MF_MISSILE ) & & ( thing = = actor - > target ) )
{ // Don't clip against whoever shot the missile.
continue ;
}
if ( actor - > Z ( ) > thing - > Top ( ) )
{ // over thing
continue ;
}
else if ( actor - > Top ( ) < = thing - > Z ( ) )
{ // under thing
continue ;
}
else if ( ! quick & & onmobj ! = NULL & & thing - > Top ( ) < onmobj - > Top ( ) )
{ // something higher is in the way
continue ;
}
onmobj = thing ;
if ( quick ) break ;
}
if ( pOnmobj ) * pOnmobj = onmobj ;
return onmobj = = NULL ;
}
//=============================================================================
//
// P_FakeZMovement
//
// Fake the zmovement so that we can check if a move is legal
//=============================================================================
void P_FakeZMovement ( AActor * mo )
{
//
// adjust height
//
mo - > AddZ ( mo - > velz ) ;
if ( ( mo - > flags & MF_FLOAT ) & & mo - > target )
{ // float down towards target if too close
if ( ! ( mo - > flags & MF_SKULLFLY ) & & ! ( mo - > flags & MF_INFLOAT ) )
{
fixed_t dist = mo - > AproxDistance ( mo - > target ) ;
fixed_t delta = ( mo - > target - > Z ( ) + ( mo - > height > > 1 ) ) - mo - > Z ( ) ;
if ( delta < 0 & & dist < - ( delta * 3 ) )
mo - > AddZ ( - mo - > FloatSpeed ) ;
else if ( delta > 0 & & dist < ( delta * 3 ) )
mo - > AddZ ( mo - > FloatSpeed ) ;
}
}
if ( mo - > player & & mo - > flags & MF_NOGRAVITY & & ( mo - > Z ( ) > mo - > floorz ) & & ! mo - > IsNoClip2 ( ) )
{
mo - > AddZ ( finesine [ ( FINEANGLES / 80 * level . maptime ) & FINEMASK ] / 8 ) ;
}
//
// clip movement
//
if ( mo - > Z ( ) < = mo - > floorz )
{ // hit the floor
mo - > SetZ ( mo - > floorz ) ;
}
if ( mo - > Top ( ) > mo - > ceilingz )
{ // hit the ceiling
mo - > SetZ ( mo - > ceilingz - mo - > height ) ;
}
}
//===========================================================================
//
// CheckForPushSpecial
//
//===========================================================================
static void CheckForPushSpecial ( line_t * line , int side , AActor * mobj , fixedvec2 * posforwindowcheck )
{
if ( line - > special & & ! ( mobj - > flags6 & MF6_NOTRIGGER ) )
{
if ( posforwindowcheck & & ! ( ib_compatflags & BCOMPATF_NOWINDOWCHECK ) & & line - > backsector ! = NULL )
{ // Make sure this line actually blocks us and is not a window
// or similar construct we are standing inside of.
fixedvec3 pos = mobj - > PosRelative ( line ) ;
fixed_t fzt = line - > frontsector - > ceilingplane . ZatPoint ( * posforwindowcheck ) ;
fixed_t fzb = line - > frontsector - > floorplane . ZatPoint ( * posforwindowcheck ) ;
fixed_t bzt = line - > backsector - > ceilingplane . ZatPoint ( * posforwindowcheck ) ;
fixed_t bzb = line - > backsector - > floorplane . ZatPoint ( * posforwindowcheck ) ;
if ( fzt > = mobj - > Top ( ) & & bzt > = mobj - > Top ( ) & &
fzb < = mobj - > Z ( ) & & bzb < = mobj - > Z ( ) )
{
// we must also check if some 3D floor in the backsector may be blocking
for ( unsigned int i = 0 ; i < line - > backsector - > e - > XFloor . ffloors . Size ( ) ; i + + )
{
F3DFloor * rover = line - > backsector - > e - > XFloor . ffloors [ i ] ;
if ( ! ( rover - > flags & FF_SOLID ) | | ! ( rover - > flags & FF_EXISTS ) ) continue ;
fixed_t ff_bottom = rover - > bottom . plane - > ZatPoint ( * posforwindowcheck ) ;
fixed_t ff_top = rover - > top . plane - > ZatPoint ( * posforwindowcheck ) ;
if ( ff_bottom < mobj - > Top ( ) & & ff_top > mobj - > Z ( ) )
{
goto isblocking ;
}
}
return ;
}
}
isblocking :
if ( mobj - > flags2 & MF2_PUSHWALL )
{
P_ActivateLine ( line , mobj , side , SPAC_Push ) ;
}
else if ( mobj - > flags2 & MF2_IMPACT )
{
if ( ( level . flags2 & LEVEL2_MISSILESACTIVATEIMPACT ) | |
! ( mobj - > flags & MF_MISSILE ) | |
( mobj - > target = = NULL ) )
{
P_ActivateLine ( line , mobj , side , SPAC_Impact ) ;
}
else
{
P_ActivateLine ( line , mobj - > target , side , SPAC_Impact ) ;
}
}
}
}
//==========================================================================
//
// P_TryMove
// Attempt to move to a new position,
// crossing special lines unless MF_TELEPORT is set.
//
//==========================================================================
bool P_TryMove ( AActor * thing , fixed_t x , fixed_t y ,
int dropoff , // killough 3/15/98: allow dropoff as option
const secplane_t * onfloor , // [RH] Let P_TryMove keep the thing on the floor
FCheckPosition & tm ,
bool missileCheck ) // [GZ] Fired missiles ignore the drop-off test
{
fixedvec3 oldpos ;
sector_t * oldsector ;
fixed_t oldz ;
int side ;
int oldside ;
sector_t * oldsec = thing - > Sector ; // [RH] for sector actions
sector_t * newsec ;
tm . floatok = false ;
oldz = thing - > Z ( ) ;
if ( onfloor )
{
thing - > SetZ ( onfloor - > ZatPoint ( x , y ) ) ;
}
thing - > flags6 | = MF6_INTRYMOVE ;
if ( ! P_CheckPosition ( thing , x , y , tm ) )
{
AActor * BlockingMobj = thing - > BlockingMobj ;
// Solid wall or thing
if ( ! BlockingMobj | | BlockingMobj - > player | | ! thing - > player )
{
goto pushline ;
}
else
{
if ( BlockingMobj - > player | | ! thing - > player )
{
goto pushline ;
}
else if ( BlockingMobj - > Top ( ) - thing - > Z ( ) > thing - > MaxStepHeight
| | ( BlockingMobj - > Sector - > ceilingplane . ZatPoint ( x , y ) - ( BlockingMobj - > Top ( ) ) < thing - > height )
| | ( tm . ceilingz - ( BlockingMobj - > Top ( ) ) < thing - > height ) )
{
goto pushline ;
}
}
if ( ! ( tm . thing - > flags2 & MF2_PASSMOBJ ) | | ( i_compatflags & COMPATF_NO_PASSMOBJ ) )
{
thing - > SetZ ( oldz ) ;
thing - > flags6 & = ~ MF6_INTRYMOVE ;
return false ;
}
}
if ( thing - > flags3 & MF3_FLOORHUGGER )
{
thing - > SetZ ( tm . floorz ) ;
}
else if ( thing - > flags3 & MF3_CEILINGHUGGER )
{
thing - > SetZ ( tm . ceilingz - thing - > height ) ;
}
if ( onfloor & & tm . floorsector = = thing - > floorsector )
{
thing - > SetZ ( tm . floorz ) ;
}
if ( ! ( thing - > flags & MF_NOCLIP ) )
{
if ( tm . ceilingz - tm . floorz < thing - > height )
{
goto pushline ; // doesn't fit
}
tm . floatok = true ;
if ( ! ( thing - > flags & MF_TELEPORT )
& & tm . ceilingz - thing - > Z ( ) < thing - > height
& & ! ( thing - > flags3 & MF3_CEILINGHUGGER )
& & ( ! ( thing - > flags2 & MF2_FLY ) | | ! ( thing - > flags & MF_NOGRAVITY ) ) )
{
goto pushline ; // mobj must lower itself to fit
}
if ( thing - > flags2 & MF2_FLY & & thing - > flags & MF_NOGRAVITY )
{
# if 1
if ( thing - > Top ( ) > tm . ceilingz )
goto pushline ;
# else
// When flying, slide up or down blocking lines until the actor
// is not blocked.
if ( thing - > Top ( ) > tm . ceilingz )
{
thing - > velz = - 8 * FRACUNIT ;
goto pushline ;
}
else if ( thing - > Z ( ) < tm . floorz & & tm . floorz - tm . dropoffz > thing - > MaxDropOffHeight )
{
thing - > velz = 8 * FRACUNIT ;
goto pushline ;
}
# endif
}
if ( ! ( thing - > flags & MF_TELEPORT ) & & ! ( thing - > flags3 & MF3_FLOORHUGGER ) )
{
if ( ( thing - > flags & MF_MISSILE ) & & ! ( thing - > flags6 & MF6_STEPMISSILE ) & & tm . floorz > thing - > Z ( ) )
{ // [RH] Don't let normal missiles climb steps
goto pushline ;
}
if ( tm . floorz - thing - > Z ( ) > thing - > MaxStepHeight )
{ // too big a step up
goto pushline ;
}
else if ( thing - > Z ( ) < tm . floorz )
{ // [RH] Check to make sure there's nothing in the way for the step up
fixed_t savedz = thing - > Z ( ) ;
bool good ;
thing - > SetZ ( tm . floorz ) ;
good = P_TestMobjZ ( thing ) ;
thing - > SetZ ( savedz ) ;
if ( ! good )
{
goto pushline ;
}
if ( thing - > flags6 & MF6_STEPMISSILE )
{
thing - > SetZ ( tm . floorz ) ;
// If moving down, cancel vertical component of the velocity
if ( thing - > velz < 0 )
{
// If it's a bouncer, let it bounce off its new floor, too.
if ( thing - > BounceFlags & BOUNCE_Floors )
{
thing - > FloorBounceMissile ( tm . floorsector - > floorplane ) ;
}
else
{
thing - > velz = 0 ;
}
}
}
}
}
// compatibility check: Doom originally did not allow monsters to cross dropoffs at all.
// If the compatibility flag is on, only allow this when the velocity comes from a scroller
if ( ( i_compatflags & COMPATF_CROSSDROPOFF ) & & ! ( thing - > flags4 & MF4_SCROLLMOVE ) )
{
dropoff = false ;
}
if ( dropoff = = 2 & & // large jump down (e.g. dogs)
( tm . floorz - tm . dropoffz > 128 * FRACUNIT | | thing - > target = = NULL | | thing - > target - > Z ( ) > tm . dropoffz ) )
{
dropoff = false ;
}
// killough 3/15/98: Allow certain objects to drop off
if ( ( ! dropoff & & ! ( thing - > flags & ( MF_DROPOFF | MF_FLOAT | MF_MISSILE ) ) ) | | ( thing - > flags5 & MF5_NODROPOFF ) )
{
if ( ! ( thing - > flags5 & MF5_AVOIDINGDROPOFF ) )
{
fixed_t floorz = tm . floorz ;
// [RH] If the thing is standing on something, use its current z as the floorz.
// This is so that it does not walk off of things onto a drop off.
if ( thing - > flags2 & MF2_ONMOBJ )
{
floorz = MAX ( thing - > Z ( ) , tm . floorz ) ;
}
if ( floorz - tm . dropoffz > thing - > MaxDropOffHeight & &
! ( thing - > flags2 & MF2_BLASTED ) & & ! missileCheck )
{ // Can't move over a dropoff unless it's been blasted
// [GZ] Or missile-spawned
thing - > SetZ ( oldz ) ;
thing - > flags6 & = ~ MF6_INTRYMOVE ;
return false ;
}
}
else
{
// special logic to move a monster off a dropoff
// this intentionally does not check for standing on things.
if ( thing - > floorz - tm . floorz > thing - > MaxDropOffHeight | |
thing - > dropoffz - tm . dropoffz > thing - > MaxDropOffHeight )
{
thing - > flags6 & = ~ MF6_INTRYMOVE ;
return false ;
}
}
}
if ( thing - > flags2 & MF2_CANTLEAVEFLOORPIC
& & ( tm . floorpic ! = thing - > floorpic
| | tm . floorz - thing - > Z ( ) ! = 0 ) )
{ // must stay within a sector of a certain floor type
thing - > SetZ ( oldz ) ;
thing - > flags6 & = ~ MF6_INTRYMOVE ;
return false ;
}
//Added by MC: To prevent bot from getting into dangerous sectors.
if ( thing - > player & & thing - > player - > Bot ! = NULL & & thing - > flags & MF_SHOOTABLE )
{
if ( tm . sector ! = thing - > Sector
& & bglobal . IsDangerous ( tm . sector ) )
{
thing - > player - > Bot - > prev = thing - > player - > Bot - > dest ;
thing - > player - > Bot - > dest = NULL ;
thing - > velx = 0 ;
thing - > vely = 0 ;
thing - > SetZ ( oldz ) ;
thing - > flags6 & = ~ MF6_INTRYMOVE ;
return false ;
}
}
}
// [RH] Check status of eyes against fake floor/ceiling in case
// it slopes or the player's eyes are bobbing in and out.
bool oldAboveFakeFloor , oldAboveFakeCeiling ;
fixed_t viewheight ;
viewheight = thing - > player ? thing - > player - > viewheight : thing - > height / 2 ;
oldAboveFakeFloor = oldAboveFakeCeiling = false ; // pacify GCC
if ( oldsec - > heightsec )
{
fixed_t eyez = oldz + viewheight ;
oldAboveFakeFloor = eyez > oldsec - > heightsec - > floorplane . ZatPoint ( thing ) ;
oldAboveFakeCeiling = eyez > oldsec - > heightsec - > ceilingplane . ZatPoint ( thing ) ;
}
// Borrowed from MBF:
if ( thing - > BounceFlags & BOUNCE_MBF & & // killough 8/13/98
! ( thing - > flags & ( MF_MISSILE | MF_NOGRAVITY ) ) & &
! thing - > IsSentient ( ) & & tm . floorz - thing - > Z ( ) > 16 * FRACUNIT )
{ // too big a step up for MBF bouncers under gravity
thing - > flags6 & = ~ MF6_INTRYMOVE ;
return false ;
}
// Check for crossed portals
bool portalcrossed ;
portalcrossed = false ;
while ( true )
{
fixed_t bestfrac = FIXED_MAX ;
spechit_t besthit ;
// find the portal nearest to the crossing actor
for ( auto & spec : portalhit )
{
line_t * ld = spec . line ;
if ( ld - > frontsector - > PortalGroup ! = thing - > Sector - > PortalGroup ) continue ; // must be in the same group to be considered valid.
// see if the line was crossed
oldside = P_PointOnLineSide ( spec . oldrefpos . x , spec . oldrefpos . y , ld ) ;
side = P_PointOnLineSide ( spec . refpos . x , spec . refpos . y , ld ) ;
if ( oldside = = 0 & & side = = 1 )
{
divline_t dl2 = { ld - > v1 - > x , ld - > v1 - > y , ld - > dx , ld - > dy } ;
divline_t dl1 = { spec . oldrefpos . x , spec . oldrefpos . y , spec . refpos . x - spec . oldrefpos . x , spec . refpos . y - spec . oldrefpos . y } ;
fixed_t frac = P_InterceptVector ( & dl1 , & dl2 ) ;
if ( frac < bestfrac )
{
besthit = spec ;
bestfrac = frac ;
}
}
}
if ( bestfrac < FIXED_MAX )
{
line_t * ld = besthit . line ;
FLinePortal * port = ld - > getPortal ( ) ;
if ( port - > mType = = PORTT_LINKED )
{
thing - > UnlinkFromWorld ( ) ;
thing - > SetXY ( tm . x + port - > mXDisplacement , tm . y + port - > mYDisplacement ) ;
thing - > PrevX + = port - > mXDisplacement ;
thing - > PrevY + = port - > mYDisplacement ;
thing - > LinkToWorld ( ) ;
P_FindFloorCeiling ( thing ) ;
portalcrossed = true ;
}
else if ( ! portalcrossed )
{
fixedvec3 pos = { tm . x , tm . y , thing - > Z ( ) } ;
fixedvec3 oldthingpos = thing - > Pos ( ) ;
fixedvec2 thingpos = oldthingpos ;
2016-03-03 10:58:04 +00:00
P_TranslatePortalXY ( ld , pos . x , pos . y ) ;
P_TranslatePortalXY ( ld , thingpos . x , thingpos . y ) ;
P_TranslatePortalZ ( ld , pos . z ) ;
2016-03-01 15:47:10 +00:00
thing - > SetXYZ ( thingpos . x , thingpos . y , pos . z ) ;
if ( ! P_CheckPosition ( thing , pos . x , pos . y , true ) ) // check if some actor blocks us on the other side. (No line checks, because of the mess that'd create.)
{
thing - > SetXYZ ( oldthingpos ) ;
thing - > flags6 & = ~ MF6_INTRYMOVE ;
return false ;
}
thing - > UnlinkFromWorld ( ) ;
thing - > SetXYZ ( pos ) ;
2016-03-03 10:58:04 +00:00
P_TranslatePortalVXVY ( ld , thing - > velx , thing - > vely ) ;
P_TranslatePortalAngle ( ld , thing - > angle ) ;
2016-03-01 15:47:10 +00:00
thing - > LinkToWorld ( ) ;
P_FindFloorCeiling ( thing ) ;
thing - > ClearInterpolation ( ) ;
portalcrossed = true ;
}
// if this is the current camera we need to store the point where the portal was crossed and the exit
// so that the renderer can properly calculate an interpolated position along the movement path.
if ( thing = = players [ consoleplayer ] . camera )
{
divline_t dl1 = { besthit . oldrefpos . x , besthit . oldrefpos . y , besthit . refpos . x - besthit . oldrefpos . x , besthit . refpos . y - besthit . oldrefpos . y } ;
fixedvec3a hit = { dl1 . x + FixedMul ( dl1 . dx , bestfrac ) , dl1 . y + FixedMul ( dl1 . dy , bestfrac ) , 0 , 0 } ;
R_AddInterpolationPoint ( hit ) ;
if ( port - > mType = = PORTT_LINKED )
{
hit . x + = port - > mXDisplacement ;
hit . y + = port - > mYDisplacement ;
}
else
{
2016-03-03 10:58:04 +00:00
P_TranslatePortalXY ( ld , hit . x , hit . y ) ;
P_TranslatePortalZ ( ld , hit . z ) ;
2016-03-01 15:47:10 +00:00
players [ consoleplayer ] . viewz + = hit . z ; // needs to be done here because otherwise the renderer will not catch the change.
2016-03-03 10:58:04 +00:00
P_TranslatePortalAngle ( ld , hit . angle ) ;
2016-03-01 15:47:10 +00:00
}
R_AddInterpolationPoint ( hit ) ;
}
if ( port - > mType = = PORTT_LINKED ) continue ;
}
break ;
}
if ( ! portalcrossed )
{
// the move is ok, so link the thing into its new position
thing - > UnlinkFromWorld ( ) ;
oldpos = thing - > Pos ( ) ;
oldsector = thing - > Sector ;
thing - > floorz = tm . floorz ;
thing - > ceilingz = tm . ceilingz ;
thing - > dropoffz = tm . dropoffz ; // killough 11/98: keep track of dropoffs
thing - > floorpic = tm . floorpic ;
thing - > floorterrain = tm . floorterrain ;
thing - > floorsector = tm . floorsector ;
thing - > ceilingpic = tm . ceilingpic ;
thing - > ceilingsector = tm . ceilingsector ;
thing - > SetXY ( x , y ) ;
thing - > LinkToWorld ( ) ;
}
if ( thing - > flags2 & MF2_FLOORCLIP )
{
thing - > AdjustFloorClip ( ) ;
}
// if any special lines were hit, do the effect
if ( ! ( thing - > flags & ( MF_TELEPORT | MF_NOCLIP ) ) )
{
spechit_t spec ;
while ( spechit . Pop ( spec ) )
{
line_t * ld = spec . line ;
// see if the line was crossed
side = P_PointOnLineSide ( spec . refpos . x , spec . refpos . y , ld ) ;
oldside = P_PointOnLineSide ( spec . oldrefpos . x , spec . oldrefpos . y , ld ) ;
if ( side ! = oldside & & ld - > special & & ! ( thing - > flags6 & MF6_NOTRIGGER ) )
{
if ( thing - > player & & ( thing - > player - > cheats & CF_PREDICTING ) )
{
P_PredictLine ( ld , thing , oldside , SPAC_Cross ) ;
}
else if ( thing - > player )
{
P_ActivateLine ( ld , thing , oldside , SPAC_Cross ) ;
}
else if ( thing - > flags2 & MF2_MCROSS )
{
P_ActivateLine ( ld , thing , oldside , SPAC_MCross ) ;
}
else if ( thing - > flags2 & MF2_PCROSS )
{
P_ActivateLine ( ld , thing , oldside , SPAC_PCross ) ;
}
else if ( ( ld - > special = = Teleport | |
ld - > special = = Teleport_NoFog | |
ld - > special = = Teleport_Line ) )
{ // [RH] Just a little hack for BOOM compatibility
P_ActivateLine ( ld , thing , oldside , SPAC_MCross ) ;
}
else
{
P_ActivateLine ( ld , thing , oldside , SPAC_AnyCross ) ;
}
}
}
}
// [RH] Don't activate anything if just predicting
if ( thing - > player & & ( thing - > player - > cheats & CF_PREDICTING ) )
{
thing - > flags6 & = ~ MF6_INTRYMOVE ;
return true ;
}
// [RH] Check for crossing fake floor/ceiling
newsec = thing - > Sector ;
if ( newsec - > heightsec & & oldsec - > heightsec & & newsec - > SecActTarget )
{
const sector_t * hs = newsec - > heightsec ;
fixed_t eyez = thing - > Z ( ) + viewheight ;
fixed_t fakez = hs - > floorplane . ZatPoint ( x , y ) ;
if ( ! oldAboveFakeFloor & & eyez > fakez )
{ // View went above fake floor
newsec - > SecActTarget - > TriggerAction ( thing , SECSPAC_EyesSurface ) ;
}
else if ( oldAboveFakeFloor & & eyez < = fakez )
{ // View went below fake floor
newsec - > SecActTarget - > TriggerAction ( thing , SECSPAC_EyesDive ) ;
}
if ( ! ( hs - > MoreFlags & SECF_FAKEFLOORONLY ) )
{
fakez = hs - > ceilingplane . ZatPoint ( x , y ) ;
if ( ! oldAboveFakeCeiling & & eyez > fakez )
{ // View went above fake ceiling
newsec - > SecActTarget - > TriggerAction ( thing , SECSPAC_EyesAboveC ) ;
}
else if ( oldAboveFakeCeiling & & eyez < = fakez )
{ // View went below fake ceiling
newsec - > SecActTarget - > TriggerAction ( thing , SECSPAC_EyesBelowC ) ;
}
}
}
// [RH] If changing sectors, trigger transitions
thing - > CheckSectorTransition ( oldsec ) ;
thing - > flags6 & = ~ MF6_INTRYMOVE ;
return true ;
pushline :
thing - > flags6 & = ~ MF6_INTRYMOVE ;
// [RH] Don't activate anything if just predicting
if ( thing - > player & & ( thing - > player - > cheats & CF_PREDICTING ) )
{
return false ;
}
thing - > SetZ ( oldz ) ;
if ( ! ( thing - > flags & ( MF_TELEPORT | MF_NOCLIP ) ) )
{
int numSpecHitTemp ;
if ( tm . thing - > flags2 & MF2_BLASTED )
{
P_DamageMobj ( tm . thing , NULL , NULL , tm . thing - > Mass > > 5 , NAME_Melee ) ;
}
numSpecHitTemp = ( int ) spechit . Size ( ) ;
while ( numSpecHitTemp > 0 )
{
// see which lines were pushed
spechit_t & spec = spechit [ - - numSpecHitTemp ] ;
side = P_PointOnLineSide ( spec . refpos . x , spec . refpos . y , spec . line ) ;
CheckForPushSpecial ( spec . line , side , thing , & spec . refpos ) ;
}
}
return false ;
}
bool P_TryMove ( AActor * thing , fixed_t x , fixed_t y ,
int dropoff , // killough 3/15/98: allow dropoff as option
const secplane_t * onfloor ) // [RH] Let P_TryMove keep the thing on the floor
{
FCheckPosition tm ;
return P_TryMove ( thing , x , y , dropoff , onfloor , tm ) ;
}
//==========================================================================
//
// P_CheckMove
// Similar to P_TryMove but doesn't actually move the actor. Used for polyobject crushing
//
//==========================================================================
bool P_CheckMove ( AActor * thing , fixed_t x , fixed_t y )
{
FCheckPosition tm ;
fixed_t newz = thing - > Z ( ) ;
if ( ! P_CheckPosition ( thing , x , y , tm ) )
{
return false ;
}
if ( thing - > flags3 & MF3_FLOORHUGGER )
{
newz = tm . floorz ;
}
else if ( thing - > flags3 & MF3_CEILINGHUGGER )
{
newz = tm . ceilingz - thing - > height ;
}
if ( ! ( thing - > flags & MF_NOCLIP ) )
{
if ( tm . ceilingz - tm . floorz < thing - > height )
{
return false ;
}
if ( ! ( thing - > flags & MF_TELEPORT )
& & tm . ceilingz - newz < thing - > height
& & ! ( thing - > flags3 & MF3_CEILINGHUGGER )
& & ( ! ( thing - > flags2 & MF2_FLY ) | | ! ( thing - > flags & MF_NOGRAVITY ) ) )
{
return false ;
}
if ( thing - > flags2 & MF2_FLY & & thing - > flags & MF_NOGRAVITY )
{
if ( thing - > Top ( ) > tm . ceilingz )
return false ;
}
if ( ! ( thing - > flags & MF_TELEPORT ) & & ! ( thing - > flags3 & MF3_FLOORHUGGER ) )
{
if ( tm . floorz - newz > thing - > MaxStepHeight )
{ // too big a step up
return false ;
}
else if ( ( thing - > flags & MF_MISSILE ) & & ! ( thing - > flags6 & MF6_STEPMISSILE ) & & tm . floorz > newz )
{ // [RH] Don't let normal missiles climb steps
return false ;
}
else if ( newz < tm . floorz )
{ // [RH] Check to make sure there's nothing in the way for the step up
fixed_t savedz = thing - > Z ( ) ;
thing - > SetZ ( newz = tm . floorz ) ;
bool good = P_TestMobjZ ( thing ) ;
thing - > SetZ ( savedz ) ;
if ( ! good )
{
return false ;
}
}
}
if ( thing - > flags2 & MF2_CANTLEAVEFLOORPIC
& & ( tm . floorpic ! = thing - > floorpic
| | tm . floorz - newz ! = 0 ) )
{ // must stay within a sector of a certain floor type
return false ;
}
}
return true ;
}
//==========================================================================
//
// SLIDE MOVE
// Allows the player to slide along any angled walls.
//
//==========================================================================
struct FSlide
{
fixed_t bestslidefrac ;
fixed_t secondslidefrac ;
line_t * bestslideline ;
line_t * secondslideline ;
AActor * slidemo ;
fixed_t tmxmove ;
fixed_t tmymove ;
void HitSlideLine ( line_t * ld ) ;
void SlideTraverse ( fixed_t startx , fixed_t starty , fixed_t endx , fixed_t endy ) ;
void SlideMove ( AActor * mo , fixed_t tryx , fixed_t tryy , int numsteps ) ;
// The bouncing code uses the same data structure
bool BounceTraverse ( fixed_t startx , fixed_t starty , fixed_t endx , fixed_t endy ) ;
bool BounceWall ( AActor * mo ) ;
} ;
//==========================================================================
//
// P_HitSlideLine
// Adjusts the xmove / ymove
// so that the next move will slide along the wall.
// If the floor is icy, then you can bounce off a wall. // phares
//
//==========================================================================
void FSlide : : HitSlideLine ( line_t * ld )
{
int side ;
angle_t lineangle ;
angle_t moveangle ;
angle_t deltaangle ;
fixed_t movelen ;
bool icyfloor ; // is floor icy? // phares
// |
// Under icy conditions, if the angle of approach to the wall // V
// is more than 45 degrees, then you'll bounce and lose half
// your velocity. If less than 45 degrees, you'll slide along
// the wall. 45 is arbitrary and is believable.
// Check for the special cases of horz or vert walls.
// killough 10/98: only bounce if hit hard (prevents wobbling)
icyfloor =
( P_AproxDistance ( tmxmove , tmymove ) > 4 * FRACUNIT ) & &
var_friction & & // killough 8/28/98: calc friction on demand
slidemo - > Z ( ) < = slidemo - > floorz & &
P_GetFriction ( slidemo , NULL ) > ORIG_FRICTION ;
if ( ld - > dx = = 0 )
{ // ST_VERTICAL
if ( icyfloor & & ( abs ( tmxmove ) > abs ( tmymove ) ) )
{
tmxmove = - tmxmove / 2 ; // absorb half the velocity
tmymove / = 2 ;
if ( slidemo - > player & & slidemo - > health > 0 & & ! ( slidemo - > player - > cheats & CF_PREDICTING ) )
{
S_Sound ( slidemo , CHAN_VOICE , " *grunt " , 1 , ATTN_IDLE ) ; // oooff!// ^
}
} // |
else // phares
tmxmove = 0 ; // no more movement in the X direction
return ;
}
if ( ld - > dy = = 0 )
{ // ST_HORIZONTAL
if ( icyfloor & & ( abs ( tmymove ) > abs ( tmxmove ) ) )
{
tmxmove / = 2 ; // absorb half the velocity
tmymove = - tmymove / 2 ;
if ( slidemo - > player & & slidemo - > health > 0 & & ! ( slidemo - > player - > cheats & CF_PREDICTING ) )
{
S_Sound ( slidemo , CHAN_VOICE , " *grunt " , 1 , ATTN_IDLE ) ; // oooff!
}
}
else
tmymove = 0 ; // no more movement in the Y direction
return ;
}
// The wall is angled. Bounce if the angle of approach is // phares
// less than 45 degrees. // phares
fixedvec3 pos = slidemo - > PosRelative ( ld ) ;
side = P_PointOnLineSide ( pos . x , pos . y , ld ) ;
lineangle = R_PointToAngle2 ( 0 , 0 , ld - > dx , ld - > dy ) ;
if ( side = = 1 )
lineangle + = ANG180 ;
moveangle = R_PointToAngle2 ( 0 , 0 , tmxmove , tmymove ) ;
moveangle + = 10 ; // prevents sudden path reversal due to // phares
// rounding error // |
deltaangle = moveangle - lineangle ; // V
movelen = P_AproxDistance ( tmxmove , tmymove ) ;
if ( icyfloor & & ( deltaangle > ANG45 ) & & ( deltaangle < ANG90 + ANG45 ) )
{
moveangle = lineangle - deltaangle ;
movelen / = 2 ; // absorb
if ( slidemo - > player & & slidemo - > health > 0 & & ! ( slidemo - > player - > cheats & CF_PREDICTING ) )
{
S_Sound ( slidemo , CHAN_VOICE , " *grunt " , 1 , ATTN_IDLE ) ; // oooff!
}
moveangle > > = ANGLETOFINESHIFT ;
tmxmove = FixedMul ( movelen , finecosine [ moveangle ] ) ;
tmymove = FixedMul ( movelen , finesine [ moveangle ] ) ;
} // ^
else // |
{ // phares
// Doom's original algorithm here does not work well due to imprecisions of the sine table.
// However, keep it active if the wallrunning compatibility flag is on
if ( i_compatflags & COMPATF_WALLRUN )
{
fixed_t newlen ;
if ( deltaangle > ANG180 )
deltaangle + = ANG180 ;
// I_Error ("SlideLine: ang>ANG180");
lineangle > > = ANGLETOFINESHIFT ;
deltaangle > > = ANGLETOFINESHIFT ;
newlen = FixedMul ( movelen , finecosine [ deltaangle ] ) ;
tmxmove = FixedMul ( newlen , finecosine [ lineangle ] ) ;
tmymove = FixedMul ( newlen , finesine [ lineangle ] ) ;
}
else
{
divline_t dll , dlv ;
fixed_t inter1 , inter2 , inter3 ;
P_MakeDivline ( ld , & dll ) ;
dlv . x = pos . x ;
dlv . y = pos . y ;
dlv . dx = dll . dy ;
dlv . dy = - dll . dx ;
inter1 = P_InterceptVector ( & dll , & dlv ) ;
dlv . dx = tmxmove ;
dlv . dy = tmymove ;
inter2 = P_InterceptVector ( & dll , & dlv ) ;
inter3 = P_InterceptVector ( & dlv , & dll ) ;
if ( inter3 ! = 0 )
{
tmxmove = Scale ( inter2 - inter1 , dll . dx , inter3 ) ;
tmymove = Scale ( inter2 - inter1 , dll . dy , inter3 ) ;
}
else
{
tmxmove = tmymove = 0 ;
}
}
} // phares
}
//==========================================================================
//
// PTR_SlideTraverse
//
//==========================================================================
void FSlide : : SlideTraverse ( fixed_t startx , fixed_t starty , fixed_t endx , fixed_t endy )
{
FLineOpening open ;
FPathTraverse it ( startx , starty , endx , endy , PT_ADDLINES ) ;
intercept_t * in ;
while ( ( in = it . Next ( ) ) )
{
line_t * li ;
if ( ! in - > isaline )
{
// should never happen
Printf ( " PTR_SlideTraverse: not a line? " ) ;
continue ;
}
li = in - > d . line ;
if ( ! ( li - > flags & ML_TWOSIDED ) | | ! li - > backsector )
{
fixedvec3 pos = slidemo - > PosRelative ( li ) ;
if ( P_PointOnLineSide ( pos . x , pos . y , li ) )
{
// don't hit the back side
continue ;
}
goto isblocking ;
}
if ( li - > flags & ( ML_BLOCKING | ML_BLOCKEVERYTHING ) )
{
goto isblocking ;
}
if ( li - > flags & ML_BLOCK_PLAYERS & & slidemo - > player ! = NULL )
{
goto isblocking ;
}
if ( li - > flags & ML_BLOCKMONSTERS & & ! ( ( slidemo - > flags3 & MF3_NOBLOCKMONST )
| | ( ( i_compatflags & COMPATF_NOBLOCKFRIENDS ) & & ( slidemo - > flags & MF_FRIENDLY ) ) ) )
{
goto isblocking ;
}
// set openrange, opentop, openbottom
2016-03-02 23:58:25 +00:00
P_LineOpening ( open , slidemo , li , it . InterceptPoint ( in ) ) ;
2016-03-01 15:47:10 +00:00
if ( open . range < slidemo - > height )
goto isblocking ; // doesn't fit
if ( open . top - slidemo - > Z ( ) < slidemo - > height )
goto isblocking ; // mobj is too high
if ( open . bottom - slidemo - > Z ( ) > slidemo - > MaxStepHeight )
{
goto isblocking ; // too big a step up
}
else if ( slidemo - > Z ( ) < open . bottom )
{ // [RH] Check to make sure there's nothing in the way for the step up
fixed_t savedz = slidemo - > Z ( ) ;
slidemo - > SetZ ( open . bottom ) ;
bool good = P_TestMobjZ ( slidemo ) ;
slidemo - > SetZ ( savedz ) ;
if ( ! good )
{
goto isblocking ;
}
}
// this line doesn't block movement
continue ;
// the line does block movement,
// see if it is closer than best so far
isblocking :
if ( in - > frac < bestslidefrac )
{
secondslidefrac = bestslidefrac ;
secondslideline = bestslideline ;
bestslidefrac = in - > frac ;
bestslideline = li ;
}
return ; // stop
}
}
//==========================================================================
//
// P_SlideMove
//
// The velx / vely move is bad, so try to slide along a wall.
//
// Find the first line hit, move flush to it, and slide along it
//
// This is a kludgy mess.
//
//==========================================================================
void FSlide : : SlideMove ( AActor * mo , fixed_t tryx , fixed_t tryy , int numsteps )
{
fixed_t leadx , leady ;
fixed_t trailx , traily ;
fixed_t newx , newy ;
fixed_t xmove , ymove ;
const secplane_t * walkplane ;
int hitcount ;
hitcount = 3 ;
slidemo = mo ;
if ( mo - > player & & mo - > player - > mo = = mo & & mo - > reactiontime > 0 )
return ; // player coming right out of a teleporter.
retry :
if ( ! - - hitcount )
goto stairstep ; // don't loop forever
// trace along the three leading corners
if ( tryx > 0 )
{
leadx = mo - > X ( ) + mo - > radius ;
trailx = mo - > X ( ) - mo - > radius ;
}
else
{
leadx = mo - > X ( ) - mo - > radius ;
trailx = mo - > X ( ) + mo - > radius ;
}
if ( tryy > 0 )
{
leady = mo - > Y ( ) + mo - > radius ;
traily = mo - > Y ( ) - mo - > radius ;
}
else
{
leady = mo - > Y ( ) - mo - > radius ;
traily = mo - > Y ( ) + mo - > radius ;
}
bestslidefrac = FRACUNIT + 1 ;
SlideTraverse ( leadx , leady , leadx + tryx , leady + tryy ) ;
SlideTraverse ( trailx , leady , trailx + tryx , leady + tryy ) ;
SlideTraverse ( leadx , traily , leadx + tryx , traily + tryy ) ;
// move up to the wall
if ( bestslidefrac = = FRACUNIT + 1 )
{
// the move must have hit the middle, so stairstep
stairstep :
// killough 3/15/98: Allow objects to drop off ledges
xmove = 0 , ymove = tryy ;
walkplane = P_CheckSlopeWalk ( mo , xmove , ymove ) ;
if ( ! P_TryMove ( mo , mo - > X ( ) + xmove , mo - > Y ( ) + ymove , true , walkplane ) )
{
xmove = tryx , ymove = 0 ;
walkplane = P_CheckSlopeWalk ( mo , xmove , ymove ) ;
P_TryMove ( mo , mo - > X ( ) + xmove , mo - > Y ( ) + ymove , true , walkplane ) ;
}
return ;
}
// fudge a bit to make sure it doesn't hit
bestslidefrac - = FRACUNIT / 32 ;
if ( bestslidefrac > 0 )
{
newx = FixedMul ( tryx , bestslidefrac ) ;
newy = FixedMul ( tryy , bestslidefrac ) ;
// [BL] We need to abandon this function if we end up going through a teleporter
const fixed_t startvelx = mo - > velx ;
const fixed_t startvely = mo - > vely ;
// killough 3/15/98: Allow objects to drop off ledges
if ( ! P_TryMove ( mo , mo - > X ( ) + newx , mo - > Y ( ) + newy , true ) )
goto stairstep ;
if ( mo - > velx ! = startvelx | | mo - > vely ! = startvely )
return ;
}
// Now continue along the wall.
bestslidefrac = FRACUNIT - ( bestslidefrac + FRACUNIT / 32 ) ; // remainder
if ( bestslidefrac > FRACUNIT )
bestslidefrac = FRACUNIT ;
else if ( bestslidefrac < = 0 )
return ;
tryx = tmxmove = FixedMul ( tryx , bestslidefrac ) ;
tryy = tmymove = FixedMul ( tryy , bestslidefrac ) ;
HitSlideLine ( bestslideline ) ; // clip the moves
mo - > velx = tmxmove * numsteps ;
mo - > vely = tmymove * numsteps ;
// killough 10/98: affect the bobbing the same way (but not voodoo dolls)
if ( mo - > player & & mo - > player - > mo = = mo )
{
if ( abs ( mo - > player - > velx ) > abs ( mo - > velx ) )
mo - > player - > velx = mo - > velx ;
if ( abs ( mo - > player - > vely ) > abs ( mo - > vely ) )
mo - > player - > vely = mo - > vely ;
}
walkplane = P_CheckSlopeWalk ( mo , tmxmove , tmymove ) ;
// killough 3/15/98: Allow objects to drop off ledges
if ( ! P_TryMove ( mo , mo - > X ( ) + tmxmove , mo - > Y ( ) + tmymove , true , walkplane ) )
{
goto retry ;
}
}
void P_SlideMove ( AActor * mo , fixed_t tryx , fixed_t tryy , int numsteps )
{
FSlide slide ;
slide . SlideMove ( mo , tryx , tryy , numsteps ) ;
}
//============================================================================
//
// P_CheckSlopeWalk
//
//============================================================================
const secplane_t * P_CheckSlopeWalk ( AActor * actor , fixed_t & xmove , fixed_t & ymove )
{
static secplane_t copyplane ;
if ( actor - > flags & MF_NOGRAVITY )
{
return NULL ;
}
fixedvec3 pos = actor - > PosRelative ( actor - > floorsector ) ;
const secplane_t * plane = & actor - > floorsector - > floorplane ;
fixed_t planezhere = plane - > ZatPoint ( pos ) ;
for ( unsigned int i = 0 ; i < actor - > floorsector - > e - > XFloor . ffloors . Size ( ) ; i + + )
{
F3DFloor * rover = actor - > floorsector - > e - > XFloor . ffloors [ i ] ;
if ( ! ( rover - > flags & FF_SOLID ) | | ! ( rover - > flags & FF_EXISTS ) ) continue ;
fixed_t thisplanez = rover - > top . plane - > ZatPoint ( pos ) ;
if ( thisplanez > planezhere & & thisplanez < = actor - > Z ( ) + actor - > MaxStepHeight )
{
copyplane = * rover - > top . plane ;
if ( copyplane . c < 0 ) copyplane . FlipVert ( ) ;
plane = & copyplane ;
planezhere = thisplanez ;
}
}
if ( actor - > floorsector ! = actor - > Sector )
{
for ( unsigned int i = 0 ; i < actor - > Sector - > e - > XFloor . ffloors . Size ( ) ; i + + )
{
F3DFloor * rover = actor - > Sector - > e - > XFloor . ffloors [ i ] ;
if ( ! ( rover - > flags & FF_SOLID ) | | ! ( rover - > flags & FF_EXISTS ) ) continue ;
fixed_t thisplanez = rover - > top . plane - > ZatPoint ( actor ) ;
if ( thisplanez > planezhere & & thisplanez < = actor - > Z ( ) + actor - > MaxStepHeight )
{
copyplane = * rover - > top . plane ;
if ( copyplane . c < 0 ) copyplane . FlipVert ( ) ;
plane = & copyplane ;
planezhere = thisplanez ;
}
}
}
if ( actor - > floorsector ! = actor - > Sector )
{
// this additional check prevents sliding on sloped dropoffs
if ( planezhere > actor - > floorz + 4 * FRACUNIT )
return NULL ;
}
if ( actor - > Z ( ) - planezhere > FRACUNIT )
{ // not on floor
return NULL ;
}
if ( ( plane - > a | plane - > b ) ! = 0 )
{
fixed_t destx , desty ;
fixed_t t ;
destx = actor - > X ( ) + xmove ;
desty = actor - > Y ( ) + ymove ;
t = TMulScale16 ( plane - > a , destx , plane - > b , desty , plane - > c , actor - > Z ( ) ) + plane - > d ;
if ( t < 0 )
{ // Desired location is behind (below) the plane
// (i.e. Walking up the plane)
if ( plane - > c < STEEPSLOPE )
{ // Can't climb up slopes of ~45 degrees or more
if ( actor - > flags & MF_NOCLIP )
{
return ( actor - > floorsector = = actor - > Sector ) ? plane : NULL ;
}
else
{
const msecnode_t * node ;
bool dopush = true ;
if ( plane - > c > STEEPSLOPE * 2 / 3 )
{
for ( node = actor - > touching_sectorlist ; node ; node = node - > m_tnext )
{
sector_t * sec = node - > m_sector ;
if ( sec - > floorplane . c > = STEEPSLOPE )
{
fixedvec3 pos = actor - > PosRelative ( sec ) ;
pos . x + = xmove ;
pos . y + = ymove ;
if ( sec - > floorplane . ZatPoint ( pos ) > = actor - > Z ( ) - actor - > MaxStepHeight )
{
dopush = false ;
break ;
}
}
}
}
if ( dopush )
{
xmove = actor - > velx = plane - > a * 2 ;
ymove = actor - > vely = plane - > b * 2 ;
}
return ( actor - > floorsector = = actor - > Sector ) ? plane : NULL ;
}
}
// Slide the desired location along the plane's normal
// so that it lies on the plane's surface
destx - = FixedMul ( plane - > a , t ) ;
desty - = FixedMul ( plane - > b , t ) ;
xmove = destx - actor - > X ( ) ;
ymove = desty - actor - > Y ( ) ;
return ( actor - > floorsector = = actor - > Sector ) ? plane : NULL ;
}
else if ( t > 0 )
{ // Desired location is in front of (above) the plane
if ( planezhere = = actor - > Z ( ) )
{ // Actor's current spot is on/in the plane, so walk down it
// Same principle as walking up, except reversed
destx + = FixedMul ( plane - > a , t ) ;
desty + = FixedMul ( plane - > b , t ) ;
xmove = destx - actor - > X ( ) ;
ymove = desty - actor - > Y ( ) ;
return ( actor - > floorsector = = actor - > Sector ) ? plane : NULL ;
}
}
}
return NULL ;
}
//============================================================================
//
// PTR_BounceTraverse
//
//============================================================================
bool FSlide : : BounceTraverse ( fixed_t startx , fixed_t starty , fixed_t endx , fixed_t endy )
{
FLineOpening open ;
FPathTraverse it ( startx , starty , endx , endy , PT_ADDLINES ) ;
intercept_t * in ;
while ( ( in = it . Next ( ) ) )
{
line_t * li ;
if ( ! in - > isaline )
{
Printf ( " PTR_BounceTraverse: not a line? " ) ;
continue ;
}
li = in - > d . line ;
assert ( ( ( size_t ) li - ( size_t ) lines ) % sizeof ( line_t ) = = 0 ) ;
if ( li - > flags & ML_BLOCKEVERYTHING )
{
goto bounceblocking ;
}
if ( ! ( li - > flags & ML_TWOSIDED ) | | ! li - > backsector )
{
if ( P_PointOnLineSide ( slidemo - > X ( ) , slidemo - > Y ( ) , li ) )
continue ; // don't hit the back side
goto bounceblocking ;
}
2016-03-02 23:58:25 +00:00
P_LineOpening ( open , slidemo , li , it . InterceptPoint ( in ) ) ; // set openrange, opentop, openbottom
2016-03-01 15:47:10 +00:00
if ( open . range < slidemo - > height )
goto bounceblocking ; // doesn't fit
if ( open . top - slidemo - > Z ( ) < slidemo - > height )
goto bounceblocking ; // mobj is too high
if ( open . bottom > slidemo - > Z ( ) )
goto bounceblocking ; // mobj is too low
continue ; // this line doesn't block movement
// the line does block movement, see if it is closer than best so far
bounceblocking :
if ( in - > frac < bestslidefrac )
{
secondslidefrac = bestslidefrac ;
secondslideline = bestslideline ;
bestslidefrac = in - > frac ;
bestslideline = li ;
}
return false ; // stop
}
return true ;
}
//============================================================================
//
// P_BounceWall
//
//============================================================================
bool FSlide : : BounceWall ( AActor * mo )
{
fixed_t leadx , leady ;
int side ;
angle_t lineangle , moveangle , deltaangle ;
fixed_t movelen ;
line_t * line ;
if ( ! ( mo - > BounceFlags & BOUNCE_Walls ) )
{
return false ;
}
slidemo = mo ;
//
// trace along the three leading corners
//
if ( mo - > velx > 0 )
{
leadx = mo - > X ( ) + mo - > radius ;
}
else
{
leadx = mo - > X ( ) - mo - > radius ;
}
if ( mo - > vely > 0 )
{
leady = mo - > Y ( ) + mo - > radius ;
}
else
{
leady = mo - > Y ( ) - mo - > radius ;
}
bestslidefrac = FRACUNIT + 1 ;
bestslideline = mo - > BlockingLine ;
if ( BounceTraverse ( leadx , leady , leadx + mo - > velx , leady + mo - > vely ) & & mo - > BlockingLine = = NULL )
{ // Could not find a wall, so bounce off the floor/ceiling instead.
fixed_t floordist = mo - > Z ( ) - mo - > floorz ;
fixed_t ceildist = mo - > ceilingz - mo - > Z ( ) ;
if ( floordist < = ceildist )
{
mo - > FloorBounceMissile ( mo - > Sector - > floorplane ) ;
return true ;
}
else
{
mo - > FloorBounceMissile ( mo - > Sector - > ceilingplane ) ;
return true ;
}
}
line = bestslideline ;
if ( line - > special = = Line_Horizon )
{
mo - > SeeSound = 0 ; // it might make a sound otherwise
mo - > Destroy ( ) ;
return true ;
}
// The amount of bounces is limited
if ( mo - > bouncecount > 0 & & - - mo - > bouncecount = = 0 )
{
if ( mo - > flags & MF_MISSILE )
P_ExplodeMissile ( mo , line , NULL ) ;
else
mo - > Die ( NULL , NULL ) ;
return true ;
}
side = P_PointOnLineSide ( mo - > X ( ) , mo - > Y ( ) , line ) ;
lineangle = R_PointToAngle2 ( 0 , 0 , line - > dx , line - > dy ) ;
if ( side = = 1 )
{
lineangle + = ANG180 ;
}
moveangle = R_PointToAngle2 ( 0 , 0 , mo - > velx , mo - > vely ) ;
deltaangle = ( 2 * lineangle ) - moveangle ;
mo - > angle = deltaangle ;
deltaangle > > = ANGLETOFINESHIFT ;
movelen = fixed_t ( sqrt ( double ( mo - > velx ) * mo - > velx + double ( mo - > vely ) * mo - > vely ) ) ;
movelen = FixedMul ( movelen , mo - > wallbouncefactor ) ;
FBoundingBox box ( mo - > X ( ) , mo - > Y ( ) , mo - > radius ) ;
if ( box . BoxOnLineSide ( line ) = = - 1 )
{
fixedvec3 pos = mo - > Vec3Offset (
FixedMul ( mo - > radius , finecosine [ deltaangle ] ) ,
FixedMul ( mo - > radius , finesine [ deltaangle ] ) , 0 ) ;
mo - > SetOrigin ( pos , true ) ;
}
if ( movelen < FRACUNIT )
{
movelen = 2 * FRACUNIT ;
}
mo - > velx = FixedMul ( movelen , finecosine [ deltaangle ] ) ;
mo - > vely = FixedMul ( movelen , finesine [ deltaangle ] ) ;
if ( mo - > BounceFlags & BOUNCE_UseBounceState )
{
FState * bouncestate = mo - > FindState ( NAME_Bounce , NAME_Wall ) ;
if ( bouncestate ! = NULL )
{
mo - > SetState ( bouncestate ) ;
}
}
return true ;
}
bool P_BounceWall ( AActor * mo )
{
FSlide slide ;
return slide . BounceWall ( mo ) ;
}
//==========================================================================
//
//
//
//==========================================================================
extern FRandom pr_bounce ;
bool P_BounceActor ( AActor * mo , AActor * BlockingMobj , bool ontop )
{
//Don't go through all of this if the actor is reflective and wants things to pass through them.
if ( BlockingMobj & & ( ( BlockingMobj - > flags2 & MF2_REFLECTIVE ) & & ( BlockingMobj - > flags7 & MF7_THRUREFLECT ) ) ) return true ;
if ( mo & & BlockingMobj & & ( ( mo - > BounceFlags & BOUNCE_AllActors )
| | ( ( mo - > flags & MF_MISSILE ) & & ( ! ( mo - > flags2 & MF2_RIP )
| | ( BlockingMobj - > flags5 & MF5_DONTRIP )
| | ( ( mo - > flags6 & MF6_NOBOSSRIP ) & & ( BlockingMobj - > flags2 & MF2_BOSS ) ) ) & & ( BlockingMobj - > flags2 & MF2_REFLECTIVE ) )
| | ( ( BlockingMobj - > player = = NULL ) & & ( ! ( BlockingMobj - > flags3 & MF3_ISMONSTER ) ) ) ) )
{
if ( mo - > bouncecount > 0 & & - - mo - > bouncecount = = 0 ) return false ;
if ( mo - > flags7 & MF7_HITTARGET ) mo - > target = BlockingMobj ;
if ( mo - > flags7 & MF7_HITMASTER ) mo - > master = BlockingMobj ;
if ( mo - > flags7 & MF7_HITTRACER ) mo - > tracer = BlockingMobj ;
if ( ! ontop )
{
fixed_t speed ;
angle_t angle = BlockingMobj - > AngleTo ( mo ) + ANGLE_1 * ( ( pr_bounce ( ) % 16 ) - 8 ) ;
speed = P_AproxDistance ( mo - > velx , mo - > vely ) ;
speed = FixedMul ( speed , mo - > wallbouncefactor ) ; // [GZ] was 0.75, using wallbouncefactor seems more consistent
mo - > angle = angle ;
angle > > = ANGLETOFINESHIFT ;
mo - > velx = FixedMul ( speed , finecosine [ angle ] ) ;
mo - > vely = FixedMul ( speed , finesine [ angle ] ) ;
mo - > PlayBounceSound ( true ) ;
if ( mo - > BounceFlags & BOUNCE_UseBounceState )
{
FName names [ ] = { NAME_Bounce , NAME_Actor , NAME_Creature } ;
FState * bouncestate ;
int count = 2 ;
if ( ( BlockingMobj - > flags & MF_SHOOTABLE ) & & ! ( BlockingMobj - > flags & MF_NOBLOOD ) )
{
count = 3 ;
}
bouncestate = mo - > FindState ( count , names ) ;
if ( bouncestate ! = NULL )
{
mo - > SetState ( bouncestate ) ;
}
}
}
else
{
fixed_t dot = mo - > velz ;
if ( mo - > BounceFlags & ( BOUNCE_HereticType | BOUNCE_MBF ) )
{
mo - > velz - = MulScale15 ( FRACUNIT , dot ) ;
if ( ! ( mo - > BounceFlags & BOUNCE_MBF ) ) // Heretic projectiles die, MBF projectiles don't.
{
mo - > flags | = MF_INBOUNCE ;
mo - > SetState ( mo - > FindState ( NAME_Death ) ) ;
mo - > flags & = ~ MF_INBOUNCE ;
return false ;
}
else
{
mo - > velz = FixedMul ( mo - > velz , mo - > bouncefactor ) ;
}
}
else // Don't run through this for MBF-style bounces
{
// The reflected velocity keeps only about 70% of its original speed
mo - > velz = FixedMul ( mo - > velz - MulScale15 ( FRACUNIT , dot ) , mo - > bouncefactor ) ;
}
mo - > PlayBounceSound ( true ) ;
if ( mo - > BounceFlags & BOUNCE_MBF ) // Bring it to rest below a certain speed
{
if ( abs ( mo - > velz ) < ( fixed_t ) ( mo - > Mass * mo - > GetGravity ( ) / 64 ) )
mo - > velz = 0 ;
}
else if ( mo - > BounceFlags & ( BOUNCE_AutoOff | BOUNCE_AutoOffFloorOnly ) )
{
if ( ! ( mo - > flags & MF_NOGRAVITY ) & & ( mo - > velz < 3 * FRACUNIT ) )
mo - > BounceFlags & = ~ BOUNCE_TypeMask ;
}
}
return true ;
}
return false ;
}
//============================================================================
//
// Aiming
//
//============================================================================
2016-03-03 12:31:21 +00:00
CVAR ( Bool , aimdebug , false , 0 )
2016-03-02 19:44:02 +00:00
struct AimTarget : public FTranslatedLineTarget
{
angle_t pitch ;
fixed_t frac ;
void Clear ( )
{
memset ( this , 0 , sizeof ( * this ) ) ;
frac = FIXED_MAX ;
}
} ;
2016-03-01 15:47:10 +00:00
struct aim_t
{
2016-03-02 19:44:02 +00:00
enum
{
aim_up = 1 ,
aim_down = 2
} ;
2016-03-01 15:47:10 +00:00
fixed_t aimpitch ;
fixed_t attackrange ;
fixed_t shootz ; // Height if not aiming up or down
2016-03-02 19:44:02 +00:00
fixed_t limitz ; // height limit for portals to avoid bad setups
2016-03-01 15:47:10 +00:00
AActor * shootthing ;
AActor * friender ; // actor to check friendliness again
2016-03-02 19:44:02 +00:00
AActor * aimtarget ; // if we want to aim at precisely this target.
2016-03-01 15:47:10 +00:00
fixed_t toppitch , bottompitch ;
2016-03-02 19:44:02 +00:00
AimTarget linetarget ;
AimTarget thing_friend , thing_other ;
2016-03-01 15:47:10 +00:00
int flags ;
sector_t * lastsector ;
secplane_t * lastfloorplane ;
secplane_t * lastceilingplane ;
2016-03-02 19:44:02 +00:00
int aimdir ;
fixedvec3 startpos ;
fixedvec2 aimtrace ;
fixed_t startfrac ;
2016-03-01 15:47:10 +00:00
bool crossedffloors ;
2016-03-02 19:44:02 +00:00
bool unlinked ;
2016-03-01 15:47:10 +00:00
2016-03-02 19:44:02 +00:00
// Creates a clone of this structure with the basic info copied.
aim_t Clone ( )
{
aim_t cloned ;
cloned . aimtrace = aimtrace ;
cloned . aimpitch = aimpitch ;
cloned . aimtarget = aimtarget ;
cloned . attackrange = attackrange ;
cloned . shootthing = shootthing ;
cloned . friender = friender ;
cloned . shootz = shootz ;
cloned . unlinked = unlinked ;
cloned . flags = flags ;
return cloned ;
}
// Crosing a line portal does not require a recursive call. We can just alter the current set of data
void CrossLinePortal ( line_t * line )
{
}
2016-03-01 15:47:10 +00:00
2016-03-02 19:44:02 +00:00
//============================================================================
//
// SetResult
//
//============================================================================
2016-03-01 15:47:10 +00:00
2016-03-02 19:44:02 +00:00
void SetResult ( AimTarget & res , fixed_t frac , AActor * th , fixed_t pitch )
{
if ( res . frac > frac )
{
res . linetarget = th ;
res . pitch = pitch ;
res . angleFromSource = R_PointToAngle2 ( startpos . x , startpos . y , th - > X ( ) , th - > Y ( ) ) ;
res . unlinked = unlinked ;
res . frac = frac ;
}
}
2016-03-01 15:47:10 +00:00
2016-03-02 19:44:02 +00:00
void SetResult ( AimTarget & res , AimTarget & set )
{
if ( res . frac > set . frac )
{
res = set ;
}
}
2016-03-01 15:47:10 +00:00
2016-03-02 19:44:02 +00:00
//============================================================================
//
// Result
//
//============================================================================
2016-03-01 15:47:10 +00:00
2016-03-02 19:44:02 +00:00
AimTarget * Result ( )
2016-03-01 15:47:10 +00:00
{
2016-03-02 19:44:02 +00:00
AimTarget * result = & linetarget ;
if ( result - > linetarget = = NULL )
{
if ( thing_other . linetarget ! = NULL )
{
result = & thing_other ;
}
else if ( thing_friend . linetarget ! = NULL )
{
result = & thing_friend ;
}
}
return result ;
}
2016-03-01 15:47:10 +00:00
2016-03-02 19:44:02 +00:00
//============================================================================
//
// AimTraverse3DFloors
//
//============================================================================
bool AimTraverse3DFloors ( const divline_t & trace , intercept_t * in , int frontflag , int * planestocheck )
{
sector_t * nextsector ;
secplane_t * nexttopplane , * nextbottomplane ;
line_t * li = in - > d . line ;
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nextsector = NULL ;
nexttopplane = nextbottomplane = NULL ;
* planestocheck = aimdir ;
if ( li - > backsector = = NULL ) return true ; // shouldn't really happen but crashed once for me...
if ( li - > frontsector - > e - > XFloor . ffloors . Size ( ) | | li - > backsector - > e - > XFloor . ffloors . Size ( ) )
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{
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F3DFloor * rover ;
int highpitch , lowpitch ;
fixed_t trX = trace . x + FixedMul ( trace . dx , in - > frac ) ;
fixed_t trY = trace . y + FixedMul ( trace . dy , in - > frac ) ;
fixed_t dist = FixedMul ( attackrange , in - > frac ) ;
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// 3D floor check. This is not 100% accurate but normally sufficient when
// combined with a final sight check
for ( int i = 1 ; i < = 2 ; i + + )
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{
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sector_t * s = i = = 1 ? li - > frontsector : li - > backsector ;
for ( unsigned k = 0 ; k < s - > e - > XFloor . ffloors . Size ( ) ; k + + )
{
crossedffloors = true ;
rover = s - > e - > XFloor . ffloors [ k ] ;
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if ( ( rover - > flags & FF_SHOOTTHROUGH ) | | ! ( rover - > flags & FF_EXISTS ) ) continue ;
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fixed_t ff_bottom = rover - > bottom . plane - > ZatPoint ( trX , trY ) ;
fixed_t ff_top = rover - > top . plane - > ZatPoint ( trX , trY ) ;
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highpitch = - ( int ) R_PointToAngle2 ( 0 , shootz , dist , ff_top ) ;
lowpitch = - ( int ) R_PointToAngle2 ( 0 , shootz , dist , ff_bottom ) ;
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if ( highpitch < = toppitch )
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{
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// blocks completely
if ( lowpitch > = bottompitch ) return false ;
// blocks upper edge of view
if ( lowpitch > toppitch )
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{
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toppitch = lowpitch ;
if ( frontflag ! = i - 1 )
{
nexttopplane = rover - > bottom . plane ;
* planestocheck & = ~ aim_up ;
}
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}
}
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else if ( lowpitch > = bottompitch )
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{
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// blocks lower edge of view
if ( highpitch < bottompitch )
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{
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bottompitch = highpitch ;
if ( frontflag ! = i - 1 )
{
nextbottomplane = rover - > top . plane ;
* planestocheck & = ~ aim_down ;
}
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}
}
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// trace is leaving a sector with a 3d-floor
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if ( frontflag = = i - 1 )
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{
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if ( s = = lastsector )
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{
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// upper slope intersects with this 3d-floor
if ( rover - > bottom . plane = = lastceilingplane & & lowpitch > toppitch )
{
toppitch = lowpitch ;
}
// lower slope intersects with this 3d-floor
if ( rover - > top . plane = = lastfloorplane & & highpitch < bottompitch )
{
bottompitch = highpitch ;
}
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}
}
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if ( toppitch > = bottompitch ) return false ; // stop
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}
}
}
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lastsector = nextsector ;
lastceilingplane = nexttopplane ;
lastfloorplane = nextbottomplane ;
return true ;
}
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//============================================================================
//
// traverses a sector portal
//
//============================================================================
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void EnterSectorPortal ( int position , fixed_t frac , sector_t * entersec , fixed_t newtoppitch , fixed_t newbottompitch )
{
AActor * portal = entersec - > SkyBoxes [ position ] ;
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if ( position = = sector_t : : ceiling & & portal - > threshold < limitz ) return ;
else if ( position = = sector_t : : floor & & portal - > threshold > limitz ) return ;
aim_t newtrace = Clone ( ) ;
newtrace . toppitch = newtoppitch ;
newtrace . bottompitch = newbottompitch ;
newtrace . aimdir = position = = sector_t : : ceiling ? aim_t : : aim_up : aim_t : : aim_down ;
newtrace . startpos = { startpos . x + portal - > scaleX , startpos . y + portal - > scaleY , startpos . z } ;
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newtrace . startfrac = frac + FixedDiv ( FRACUNIT , attackrange ) ; // this is to skip the transition line to the portal which would produce a bogus opening
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newtrace . lastsector = P_PointInSector ( newtrace . startpos . x + FixedMul ( aimtrace . x , newtrace . startfrac ) , newtrace . startpos . y + FixedMul ( aimtrace . y , newtrace . startfrac ) ) ;
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newtrace . limitz = portal - > threshold ;
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if ( aimdebug )
Printf ( " -----Entering %s portal from sector %d to sector %d \n " , position ? " ceiling " : " floor " , lastsector - > sectornum , newtrace . lastsector - > sectornum ) ;
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newtrace . AimTraverse ( ) ;
SetResult ( linetarget , newtrace . linetarget ) ;
SetResult ( thing_friend , newtrace . thing_friend ) ;
SetResult ( thing_other , newtrace . thing_other ) ;
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if ( aimdebug )
Printf ( " -----Exiting %s portal \n " , position ? " ceiling " : " floor " ) ;
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}
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//============================================================================
//
// traverses a line portal
// simply calling PortalRelocate does not work here because more needs to be set up
//
//============================================================================
void EnterLinePortal ( line_t * li , fixed_t frac )
{
aim_t newtrace = Clone ( ) ;
FLinePortal * port = li - > getPortal ( ) ;
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if ( port - > mType ! = PORTT_LINKED & & ( flags & ALF_PORTALRESTRICT ) ) return ;
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newtrace . toppitch = toppitch ;
newtrace . bottompitch = bottompitch ;
newtrace . aimdir = aimdir ;
newtrace . unlinked = ( port - > mType ! = PORTT_LINKED ) ;
newtrace . startpos = startpos ;
newtrace . aimtrace = aimtrace ;
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P_TranslatePortalXY ( li , newtrace . startpos . x , newtrace . startpos . y ) ;
P_TranslatePortalZ ( li , newtrace . startpos . z ) ;
P_TranslatePortalVXVY ( li , newtrace . aimtrace . x , newtrace . aimtrace . y ) ;
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newtrace . startfrac = frac + FixedDiv ( FRACUNIT , attackrange ) ; // this is to skip the transition line to the portal which would produce a bogus opening
fixed_t x = newtrace . startpos . x + FixedMul ( newtrace . aimtrace . x , newtrace . startfrac ) ;
fixed_t y = newtrace . startpos . y + FixedMul ( newtrace . aimtrace . y , newtrace . startfrac ) ;
newtrace . lastsector = P_PointInSector ( x , y ) ;
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P_TranslatePortalZ ( li , limitz ) ;
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if ( aimdebug )
Printf ( " -----Entering line portal from sector %d to sector %d \n " , lastsector - > sectornum , newtrace . lastsector - > sectornum ) ;
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newtrace . AimTraverse ( ) ;
SetResult ( linetarget , newtrace . linetarget ) ;
SetResult ( thing_friend , newtrace . thing_friend ) ;
SetResult ( thing_other , newtrace . thing_other ) ;
}
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//============================================================================
//
// PTR_AimTraverse
// Sets linetaget and aimpitch when a target is aimed at.
//
//============================================================================
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void AimTraverse ( )
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{
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// for smart aiming
linetarget . Clear ( ) ;
thing_friend . Clear ( ) ;
thing_other . Clear ( ) ;
crossedffloors = lastsector - > e - > XFloor . ffloors . Size ( ) ! = 0 ;
lastfloorplane = lastceilingplane = NULL ;
// check the initial sector for 3D-floors and portals
bool ceilingportalstate = ( aimdir & aim_t : : aim_up ) & & toppitch < 0 & & ! lastsector - > PortalBlocksMovement ( sector_t : : ceiling ) ;
bool floorportalstate = ( aimdir & aim_t : : aim_down ) & & bottompitch > 0 & & ! lastsector - > PortalBlocksMovement ( sector_t : : floor ) ;
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for ( auto rover : lastsector - > e - > XFloor . ffloors )
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{
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if ( ( rover - > flags & FF_SHOOTTHROUGH ) | | ! ( rover - > flags & FF_EXISTS ) ) continue ;
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fixed_t bottomz = rover - > bottom . plane - > ZatPoint ( startpos ) ;
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if ( bottomz > = startpos . z + shootthing - > height )
{
lastceilingplane = rover - > bottom . plane ;
// no ceiling portal if below a 3D floor
ceilingportalstate = false ;
}
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2016-03-02 19:44:02 +00:00
bottomz = rover - > top . plane - > ZatPoint ( startpos ) ;
if ( bottomz < = startpos . z )
{
lastfloorplane = rover - > top . plane ;
// no floor portal if above a 3D floor
floorportalstate = false ;
}
}
if ( ceilingportalstate ) EnterSectorPortal ( sector_t : : ceiling , 0 , lastsector , toppitch , MIN ( 0 , bottompitch ) ) ;
if ( floorportalstate ) EnterSectorPortal ( sector_t : : floor , 0 , lastsector , MAX ( 0 , toppitch ) , bottompitch ) ;
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FPathTraverse it ( startpos . x , startpos . y , aimtrace . x , aimtrace . y , PT_ADDLINES | PT_ADDTHINGS | PT_COMPATIBLE | PT_DELTA , startfrac ) ;
intercept_t * in ;
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2016-03-03 12:31:21 +00:00
if ( aimdebug )
Printf ( " Start AimTraverse, start = %f,%f,%f, vect = %f,%f,%f \n " ,
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startpos . x / 65536. , startpos . y / 65536. , startpos . z / 65536. ,
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aimtrace . x / 65536. , aimtrace . y / 65536. ) ;
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while ( ( in = it . Next ( ) ) )
{
line_t * li ;
AActor * th ;
fixed_t pitch ;
fixed_t thingtoppitch ;
fixed_t thingbottompitch ;
fixed_t dist ;
int thingpitch ;
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2016-03-02 19:44:02 +00:00
if ( linetarget . linetarget ! = NULL & & in - > frac > linetarget . frac ) return ; // we already found something better in another portal section.
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2016-03-02 19:44:02 +00:00
if ( in - > isaline )
{
li = in - > d . line ;
int frontflag = P_PointOnLineSidePrecise ( startpos . x , startpos . y , li ) ;
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2016-03-03 12:31:21 +00:00
if ( aimdebug )
Printf ( " Found line %d: toppitch = %f, bottompitch = %f \n " , int ( li - lines ) , ANGLE2DBL ( toppitch ) , ANGLE2DBL ( bottompitch ) ) ;
2016-03-01 15:47:10 +00:00
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if ( li - > isLinePortal ( ) & & frontflag = = 0 )
{
EnterLinePortal ( li , in - > frac ) ;
return ;
}
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if ( ! ( li - > flags & ML_TWOSIDED ) | | ( li - > flags & ML_BLOCKEVERYTHING ) )
return ; // stop
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// Crosses a two sided line.
// A two sided line will restrict the possible target ranges.
FLineOpening open ;
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P_LineOpening ( open , NULL , li , it . InterceptPoint ( in ) , FIXED_MIN , 0 , FFCF_NODROPOFF ) ;
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2016-03-02 19:44:02 +00:00
// The following code assumes that portals on the front of the line have already been processed.
if ( open . range < = 0 | | open . bottom > = open . top )
return ;
dist = FixedMul ( attackrange , in - > frac ) ;
if ( open . bottom ! = FIXED_MIN )
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{
2016-03-02 19:44:02 +00:00
pitch = - ( int ) R_PointToAngle2 ( 0 , shootz , dist , open . bottom ) ;
if ( pitch < bottompitch ) bottompitch = pitch ;
}
if ( open . top ! = FIXED_MAX )
{
pitch = - ( int ) R_PointToAngle2 ( 0 , shootz , dist , open . top ) ;
if ( pitch > toppitch ) toppitch = pitch ;
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}
2016-03-02 19:44:02 +00:00
if ( toppitch > = bottompitch )
return ;
int planestocheck ;
if ( ! AimTraverse3DFloors ( it . Trace ( ) , in , frontflag , & planestocheck ) )
return ;
2016-03-03 12:31:21 +00:00
if ( aimdebug )
Printf ( " After line %d: toppitch = %f, bottompitch = %f, planestocheck = %d \n " , int ( li - lines ) , ANGLE2DBL ( toppitch ) , ANGLE2DBL ( bottompitch ) , planestocheck ) ;
2016-03-02 19:44:02 +00:00
sector_t * entersec = frontflag ? li - > frontsector : li - > backsector ;
sector_t * exitsec = frontflag ? li - > backsector : li - > frontsector ;
2016-03-02 21:26:47 +00:00
lastsector = entersec ;
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// check portal in backsector when aiming up/downward is possible, the line doesn't have portals on both sides and there's actually a portal in the backsector
if ( ( planestocheck & aim_up ) & & toppitch < 0 & & open . top ! = FIXED_MAX & & ! entersec - > PortalBlocksMovement ( sector_t : : ceiling ) )
{
EnterSectorPortal ( sector_t : : ceiling , in - > frac , entersec , toppitch , MIN ( 0 , bottompitch ) ) ;
}
if ( ( planestocheck & aim_down ) & & bottompitch > 0 & & open . bottom ! = FIXED_MIN & & ! entersec - > PortalBlocksMovement ( sector_t : : floor ) )
{
EnterSectorPortal ( sector_t : : floor , in - > frac , entersec , MAX ( 0 , toppitch ) , bottompitch ) ;
}
continue ; // shot continues
2016-03-01 15:47:10 +00:00
}
2016-03-02 19:44:02 +00:00
// shoot a thing
th = in - > d . thing ;
if ( th = = shootthing )
continue ; // can't shoot self
2016-03-01 15:47:10 +00:00
2016-03-02 19:44:02 +00:00
if ( aimtarget ! = NULL & & th ! = aimtarget )
continue ; // only care about target, and you're not it
// If we want to start a conversation anything that has one should be
// found, regardless of other settings.
if ( ! ( flags & ALF_CHECKCONVERSATION ) | | th - > Conversation = = NULL )
2016-03-01 15:47:10 +00:00
{
2016-03-02 19:44:02 +00:00
if ( ! ( flags & ALF_CHECKNONSHOOTABLE ) ) // For info CCMD, ignore stuff about GHOST and SHOOTABLE flags
2016-03-01 15:47:10 +00:00
{
2016-03-02 19:44:02 +00:00
if ( ! ( th - > flags & MF_SHOOTABLE ) )
continue ; // corpse or something
// check for physical attacks on a ghost
if ( ( th - > flags3 & MF3_GHOST ) & &
shootthing - > player & & // [RH] Be sure shootthing is a player
shootthing - > player - > ReadyWeapon & &
( shootthing - > player - > ReadyWeapon - > flags2 & MF2_THRUGHOST ) )
{
continue ;
}
2016-03-01 15:47:10 +00:00
}
}
2016-03-02 19:44:02 +00:00
dist = FixedMul ( attackrange , in - > frac ) ;
// Don't autoaim certain special actors
if ( ! cl_doautoaim & & th - > flags6 & MF6_NOTAUTOAIMED )
{
continue ;
}
// we must do one last check whether the trace has crossed a 3D floor
if ( lastsector = = th - > Sector & & th - > Sector - > e - > XFloor . ffloors . Size ( ) )
2016-03-01 15:47:10 +00:00
{
2016-03-02 19:44:02 +00:00
if ( lastceilingplane )
2016-03-01 15:47:10 +00:00
{
2016-03-02 19:44:02 +00:00
fixed_t ff_top = lastceilingplane - > ZatPoint ( th ) ;
fixed_t pitch = - ( int ) R_PointToAngle2 ( 0 , shootz , dist , ff_top ) ;
// upper slope intersects with this 3d-floor
if ( pitch > toppitch )
{
toppitch = pitch ;
}
}
if ( lastfloorplane )
{
fixed_t ff_bottom = lastfloorplane - > ZatPoint ( th ) ;
fixed_t pitch = - ( int ) R_PointToAngle2 ( 0 , shootz , dist , ff_bottom ) ;
// lower slope intersects with this 3d-floor
if ( pitch < bottompitch )
{
bottompitch = pitch ;
}
2016-03-01 15:47:10 +00:00
}
}
2016-03-02 19:44:02 +00:00
// check angles to see if the thing can be aimed at
2016-03-01 15:47:10 +00:00
2016-03-02 19:44:02 +00:00
thingtoppitch = - ( int ) R_PointToAngle2 ( 0 , shootz , dist , th - > Z ( ) + th - > height ) ;
2016-03-01 15:47:10 +00:00
2016-03-02 19:44:02 +00:00
if ( thingtoppitch > bottompitch )
continue ; // shot over the thing
2016-03-01 15:47:10 +00:00
2016-03-02 19:44:02 +00:00
thingbottompitch = - ( int ) R_PointToAngle2 ( 0 , shootz , dist , th - > Z ( ) ) ;
2016-03-01 15:47:10 +00:00
2016-03-02 19:44:02 +00:00
if ( thingbottompitch < toppitch )
continue ; // shot under the thing
2016-03-01 15:47:10 +00:00
2016-03-02 19:44:02 +00:00
if ( crossedffloors )
2016-03-01 15:47:10 +00:00
{
2016-03-02 19:44:02 +00:00
// if 3D floors were in the way do an extra visibility check for safety
2016-03-02 23:40:48 +00:00
if ( ! unlinked & & ! P_CheckSight ( shootthing , th , SF_IGNOREVISIBILITY | SF_IGNOREWATERBOUNDARY ) )
2016-03-01 15:47:10 +00:00
{
2016-03-02 19:44:02 +00:00
// the thing can't be seen so we can safely exclude its range from our aiming field
if ( thingtoppitch < toppitch )
{
if ( thingbottompitch > toppitch ) toppitch = thingbottompitch ;
}
else if ( thingbottompitch > bottompitch )
{
if ( thingtoppitch < bottompitch ) bottompitch = thingtoppitch ;
}
if ( toppitch < bottompitch ) continue ;
else return ;
2016-03-01 15:47:10 +00:00
}
}
2016-03-02 19:44:02 +00:00
// this thing can be hit!
if ( thingtoppitch < toppitch )
thingtoppitch = toppitch ;
2016-03-01 15:47:10 +00:00
2016-03-02 19:44:02 +00:00
if ( thingbottompitch > bottompitch )
thingbottompitch = bottompitch ;
2016-03-01 15:47:10 +00:00
2016-03-02 19:44:02 +00:00
thingpitch = thingtoppitch / 2 + thingbottompitch / 2 ;
2016-03-01 15:47:10 +00:00
2016-03-02 19:44:02 +00:00
if ( flags & ALF_CHECK3D )
2016-03-01 15:47:10 +00:00
{
2016-03-02 19:44:02 +00:00
// We need to do a 3D distance check here because this is nearly always used in
// combination with P_LineAttack. P_LineAttack uses 3D distance but FPathTraverse
// only 2D. This causes some problems with Hexen's weapons that use different
// attack modes based on distance to target
fixed_t cosine = finecosine [ thingpitch > > ANGLETOFINESHIFT ] ;
if ( cosine ! = 0 )
2016-03-01 15:47:10 +00:00
{
2016-03-02 19:44:02 +00:00
fixed_t d3 = FixedDiv ( FixedMul ( P_AproxDistance ( it . Trace ( ) . dx , it . Trace ( ) . dy ) , in - > frac ) , cosine ) ;
if ( d3 > attackrange )
{
return ;
}
2016-03-01 15:47:10 +00:00
}
}
2016-03-02 19:44:02 +00:00
if ( ( flags & ALF_NOFRIENDS ) & & th - > IsFriend ( friender ) & & aimtarget = = NULL )
2016-03-01 15:47:10 +00:00
{
2016-03-02 19:44:02 +00:00
continue ;
2016-03-01 15:47:10 +00:00
}
2016-03-02 19:44:02 +00:00
else if ( sv_smartaim ! = 0 & & ! ( flags & ALF_FORCENOSMART ) & & aimtarget = = NULL )
2016-03-01 15:47:10 +00:00
{
2016-03-02 19:44:02 +00:00
// try to be a little smarter about what to aim at!
// In particular avoid autoaiming at friends and barrels.
if ( th - > IsFriend ( friender ) )
2016-03-01 15:47:10 +00:00
{
2016-03-02 19:44:02 +00:00
if ( sv_smartaim < 2 )
{
// friends don't aim at friends (except players), at least not first
2016-03-05 00:23:27 +00:00
if ( aimdebug )
Printf ( " Hit friend %s at %f,%f,%f \n " , th - > GetClass ( ) - > TypeName . GetChars ( ) , th - > X ( ) / 65536. , th - > Y ( ) / 65536. , th - > Z ( ) / 65536. ) ;
2016-03-02 19:44:02 +00:00
SetResult ( thing_friend , in - > frac , th , thingpitch ) ;
}
}
else if ( ! ( th - > flags3 & MF3_ISMONSTER ) & & th - > player = = NULL )
{
if ( sv_smartaim < 3 )
{
// don't autoaim at barrels and other shootable stuff unless no monsters have been found
2016-03-03 12:31:21 +00:00
if ( aimdebug )
Printf ( " Hit other %s at %f,%f,%f \n " , th - > GetClass ( ) - > TypeName . GetChars ( ) , th - > X ( ) / 65536. , th - > Y ( ) / 65536. , th - > Z ( ) / 65536. ) ;
2016-03-02 19:44:02 +00:00
SetResult ( thing_other , in - > frac , th , thingpitch ) ;
}
}
else
{
2016-03-03 12:31:21 +00:00
if ( aimdebug )
Printf ( " Hit target %s at %f,%f,%f \n " , th - > GetClass ( ) - > TypeName . GetChars ( ) , th - > X ( ) / 65536. , th - > Y ( ) / 65536. , th - > Z ( ) / 65536. ) ;
2016-03-02 19:44:02 +00:00
SetResult ( linetarget , in - > frac , th , thingpitch ) ;
return ;
2016-03-01 15:47:10 +00:00
}
}
else
{
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if ( aimdebug )
Printf ( " Hit target %s at %f,%f,%f \n " , th - > GetClass ( ) - > TypeName . GetChars ( ) , th - > X ( ) / 65536. , th - > Y ( ) / 65536. , th - > Z ( ) / 65536. ) ;
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SetResult ( linetarget , in - > frac , th , thingpitch ) ;
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return ;
}
}
}
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} ;
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//============================================================================
//
// P_AimLineAttack
//
//============================================================================
fixed_t P_AimLineAttack ( AActor * t1 , angle_t angle , fixed_t distance , FTranslatedLineTarget * pLineTarget , fixed_t vrange ,
int flags , AActor * target , AActor * friender )
{
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fixed_t shootz = t1 - > Z ( ) + ( t1 - > height > > 1 ) - t1 - > floorclip ;
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if ( t1 - > player ! = NULL )
{
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shootz + = FixedMul ( t1 - > player - > mo - > AttackZOffset , t1 - > player - > crouchfactor ) ;
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}
else
{
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shootz + = 8 * FRACUNIT ;
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}
// can't shoot outside view angles
if ( vrange = = 0 )
{
if ( t1 - > player = = NULL | | ! level . IsFreelookAllowed ( ) )
{
vrange = ANGLE_1 * 35 ;
}
else
{
// [BB] Disable autoaim on weapons with WIF_NOAUTOAIM.
AWeapon * weapon = t1 - > player - > ReadyWeapon ;
if ( weapon & & ( weapon - > WeaponFlags & WIF_NOAUTOAIM ) )
{
vrange = ANGLE_1 / 2 ;
}
else
{
// 35 degrees is approximately what Doom used. You cannot have a
// vrange of 0 degrees, because then toppitch and bottompitch will
// be equal, and PTR_AimTraverse will never find anything to shoot at
// if it crosses a line.
vrange = clamp ( t1 - > player - > userinfo . GetAimDist ( ) , ANGLE_1 / 2 , ANGLE_1 * 35 ) ;
}
}
}
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aim_t aim ;
aim . flags = flags ;
aim . shootthing = t1 ;
aim . friender = ( friender = = NULL ) ? t1 : friender ;
aim . aimdir = aim_t : : aim_up | aim_t : : aim_down ;
aim . startpos = t1 - > Pos ( ) ;
aim . aimtrace = Vec2Angle ( distance , angle ) ;
aim . limitz = aim . shootz = shootz ;
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aim . toppitch = t1 - > pitch - vrange ;
aim . bottompitch = t1 - > pitch + vrange ;
aim . attackrange = distance ;
aim . aimpitch = t1 - > pitch ;
aim . lastsector = t1 - > Sector ;
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aim . startfrac = 0 ;
aim . unlinked = false ;
aim . aimtarget = target ;
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aim . AimTraverse ( ) ;
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AimTarget * result = aim . Result ( ) ;
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if ( pLineTarget )
{
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* pLineTarget = * result ;
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}
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return result - > linetarget ? result - > pitch : t1 - > pitch ;
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}
//==========================================================================
//
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// Helper stuff for P_LineAttack
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//
//==========================================================================
struct Origin
{
AActor * Caller ;
bool hitGhosts ;
bool hitSameSpecies ;
} ;
static ETraceStatus CheckForActor ( FTraceResults & res , void * userdata )
{
if ( res . HitType ! = TRACE_HitActor )
{
return TRACE_Stop ;
}
Origin * data = ( Origin * ) userdata ;
// check for physical attacks on spectrals
if ( res . Actor - > flags4 & MF4_SPECTRAL )
{
return TRACE_Skip ;
}
if ( data - > hitSameSpecies & & res . Actor - > GetSpecies ( ) = = data - > Caller - > GetSpecies ( ) )
{
return TRACE_Skip ;
}
if ( data - > hitGhosts & & res . Actor - > flags3 & MF3_GHOST )
{
return TRACE_Skip ;
}
return TRACE_Stop ;
}
//==========================================================================
//
// P_LineAttack
//
// if damage == 0, it is just a test trace that will leave linetarget set
//
//==========================================================================
AActor * P_LineAttack ( AActor * t1 , angle_t angle , fixed_t distance ,
int pitch , int damage , FName damageType , PClassActor * pufftype , int flags , FTranslatedLineTarget * victim , int * actualdamage )
{
fixed_t vx , vy , vz , shootz ;
FTraceResults trace ;
Origin TData ;
TData . Caller = t1 ;
angle_t srcangle = angle ;
int srcpitch = pitch ;
bool killPuff = false ;
AActor * puff = NULL ;
int pflag = 0 ;
int puffFlags = ( flags & LAF_ISMELEEATTACK ) ? PF_MELEERANGE : 0 ;
if ( flags & LAF_NORANDOMPUFFZ )
puffFlags | = PF_NORANDOMZ ;
if ( victim ! = NULL )
{
memset ( victim , 0 , sizeof ( * victim ) ) ;
}
if ( actualdamage ! = NULL )
{
* actualdamage = 0 ;
}
angle > > = ANGLETOFINESHIFT ;
pitch = ( angle_t ) ( pitch ) > > ANGLETOFINESHIFT ;
vx = FixedMul ( finecosine [ pitch ] , finecosine [ angle ] ) ;
vy = FixedMul ( finecosine [ pitch ] , finesine [ angle ] ) ;
vz = - finesine [ pitch ] ;
shootz = t1 - > Z ( ) - t1 - > floorclip + ( t1 - > height > > 1 ) ;
if ( t1 - > player ! = NULL )
{
shootz + = FixedMul ( t1 - > player - > mo - > AttackZOffset , t1 - > player - > crouchfactor ) ;
if ( damageType = = NAME_Melee | | damageType = = NAME_Hitscan )
{
// this is coming from a weapon attack function which needs to transfer information to the obituary code,
// We need to preserve this info from the damage type because the actual damage type can get overridden by the puff
pflag = DMG_PLAYERATTACK ;
}
}
else
{
shootz + = 8 * FRACUNIT ;
}
// We need to check the defaults of the replacement here
AActor * puffDefaults = GetDefaultByType ( pufftype - > GetReplacement ( ) ) ;
TData . hitGhosts = ( t1 - > player ! = NULL & &
t1 - > player - > ReadyWeapon ! = NULL & &
( t1 - > player - > ReadyWeapon - > flags2 & MF2_THRUGHOST ) ) | |
( puffDefaults & & ( puffDefaults - > flags2 & MF2_THRUGHOST ) ) ;
TData . hitSameSpecies = ( puffDefaults & & ( puffDefaults - > flags6 & MF6_MTHRUSPECIES ) ) ;
// if the puff uses a non-standard damage type, this will override default, hitscan and melee damage type.
// All other explicitly passed damage types (currenty only MDK) will be preserved.
if ( ( damageType = = NAME_None | | damageType = = NAME_Melee | | damageType = = NAME_Hitscan ) & &
puffDefaults ! = NULL & & puffDefaults - > DamageType ! = NAME_None )
{
damageType = puffDefaults - > DamageType ;
}
int tflags ;
if ( puffDefaults ! = NULL & & puffDefaults - > flags6 & MF6_NOTRIGGER ) tflags = TRACE_NoSky ;
else tflags = TRACE_NoSky | TRACE_Impact ;
if ( ! Trace ( t1 - > X ( ) , t1 - > Y ( ) , shootz , t1 - > Sector , vx , vy , vz , distance ,
MF_SHOOTABLE , ML_BLOCKEVERYTHING | ML_BLOCKHITSCAN , t1 , trace ,
tflags , CheckForActor , & TData ) )
{ // hit nothing
if ( puffDefaults = = NULL )
{
}
else if ( puffDefaults - > ActiveSound )
{ // Play miss sound
S_Sound ( t1 , CHAN_WEAPON , puffDefaults - > ActiveSound , 1 , ATTN_NORM ) ;
}
if ( puffDefaults ! = NULL & & puffDefaults - > flags3 & MF3_ALWAYSPUFF )
{ // Spawn the puff anyway
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puff = P_SpawnPuff ( t1 , pufftype , trace . HitPos , trace . SrcAngleToTarget , trace . SrcAngleToTarget , 2 , puffFlags ) ;
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}
else
{
return NULL ;
}
}
else
{
if ( trace . HitType ! = TRACE_HitActor )
{
// position a bit closer for puffs
if ( trace . HitType ! = TRACE_HitWall | | trace . Line - > special ! = Line_Horizon )
{
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fixedvec2 pos = P_GetOffsetPosition ( trace . HitPos . x , trace . HitPos . y , - trace . HitVector . x * 4 , - trace . HitVector . y * 4 ) ;
puff = P_SpawnPuff ( t1 , pufftype , pos . x , pos . y , trace . HitPos . z - trace . HitVector . z * 4 , trace . SrcAngleToTarget ,
trace . SrcAngleToTarget - ANGLE_90 , 0 , puffFlags ) ;
puff - > radius = 1 ;
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}
// [RH] Spawn a decal
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if ( trace . HitType = = TRACE_HitWall & & trace . Line - > special ! = Line_Horizon & & ! trace . Line - > isVisualPortal ( ) & & ! ( flags & LAF_NOIMPACTDECAL ) & & ! ( puffDefaults - > flags7 & MF7_NODECAL ) )
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{
// [TN] If the actor or weapon has a decal defined, use that one.
if ( t1 - > DecalGenerator ! = NULL | |
( t1 - > player ! = NULL & & t1 - > player - > ReadyWeapon ! = NULL & & t1 - > player - > ReadyWeapon - > DecalGenerator ! = NULL ) )
{
// [ZK] If puff has FORCEDECAL set, do not use the weapon's decal
if ( puffDefaults - > flags7 & MF7_FORCEDECAL & & puff ! = NULL & & puff - > DecalGenerator )
SpawnShootDecal ( puff , trace ) ;
else
SpawnShootDecal ( t1 , trace ) ;
}
// Else, look if the bulletpuff has a decal defined.
else if ( puff ! = NULL & & puff - > DecalGenerator )
{
SpawnShootDecal ( puff , trace ) ;
}
else
{
SpawnShootDecal ( t1 , trace ) ;
}
}
else if ( puff ! = NULL & &
trace . CrossedWater = = NULL & &
trace . Sector - > heightsec = = NULL & &
trace . HitType = = TRACE_HitFloor )
{
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P_HitWater ( puff , trace . Sector , trace . HitPos ) ;
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}
}
else
{
bool bloodsplatter = ( t1 - > flags5 & MF5_BLOODSPLATTER ) | |
( t1 - > player ! = NULL & & t1 - > player - > ReadyWeapon ! = NULL & &
( t1 - > player - > ReadyWeapon - > WeaponFlags & WIF_AXEBLOOD ) ) ;
bool axeBlood = ( t1 - > player ! = NULL & &
t1 - > player - > ReadyWeapon ! = NULL & &
( t1 - > player - > ReadyWeapon - > WeaponFlags & WIF_AXEBLOOD ) ) ;
// Hit a thing, so it could be either a puff or blood
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fixedvec3 bleedpos = trace . HitPos ;
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// position a bit closer for puffs/blood if using compatibility mode.
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if ( i_compatflags & COMPATF_HITSCAN )
{
fixedvec2 ofs = P_GetOffsetPosition ( bleedpos . x , bleedpos . y , - 10 * trace . HitVector . x , - 10 * trace . HitVector . y ) ;
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bleedpos . x = ofs . x ;
bleedpos . y = ofs . y ;
bleedpos . z - = - 10 * trace . HitVector . z ;
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}
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// Spawn bullet puffs or blood spots, depending on target type.
if ( ( puffDefaults ! = NULL & & puffDefaults - > flags3 & MF3_PUFFONACTORS ) | |
( trace . Actor - > flags & MF_NOBLOOD ) | |
( trace . Actor - > flags2 & ( MF2_INVULNERABLE | MF2_DORMANT ) ) )
{
if ( ! ( trace . Actor - > flags & MF_NOBLOOD ) )
puffFlags | = PF_HITTHINGBLEED ;
// We must pass the unreplaced puff type here
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puff = P_SpawnPuff ( t1 , pufftype , bleedpos , trace . SrcAngleToTarget , trace . SrcAngleToTarget - ANGLE_90 , 2 , puffFlags | PF_HITTHING , trace . Actor ) ;
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}
// Allow puffs to inflict poison damage, so that hitscans can poison, too.
if ( puffDefaults ! = NULL & & puffDefaults - > PoisonDamage > 0 & & puffDefaults - > PoisonDuration ! = INT_MIN )
{
P_PoisonMobj ( trace . Actor , puff ? puff : t1 , t1 , puffDefaults - > PoisonDamage , puffDefaults - > PoisonDuration , puffDefaults - > PoisonPeriod , puffDefaults - > PoisonDamageType ) ;
}
// [GZ] If MF6_FORCEPAIN is set, we need to call P_DamageMobj even if damage is 0!
// Note: The puff may not yet be spawned here so we must check the class defaults, not the actor.
int newdam = damage ;
if ( damage | | ( puffDefaults ! = NULL & & ( ( puffDefaults - > flags6 & MF6_FORCEPAIN ) | | ( puffDefaults - > flags7 & MF7_CAUSEPAIN ) ) ) )
{
int dmgflags = DMG_INFLICTOR_IS_PUFF | pflag ;
// Allow MF5_PIERCEARMOR on a weapon as well.
if ( t1 - > player ! = NULL & & ( dmgflags & DMG_PLAYERATTACK ) & & t1 - > player - > ReadyWeapon ! = NULL & &
t1 - > player - > ReadyWeapon - > flags5 & MF5_PIERCEARMOR )
{
dmgflags | = DMG_NO_ARMOR ;
}
if ( puff = = NULL )
{
// Since the puff is the damage inflictor we need it here
// regardless of whether it is displayed or not.
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puff = P_SpawnPuff ( t1 , pufftype , bleedpos , 0 , 0 , 2 , puffFlags | PF_HITTHING | PF_TEMPORARY ) ;
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killPuff = true ;
}
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newdam = P_DamageMobj ( trace . Actor , puff ? puff : t1 , t1 , damage , damageType , dmgflags | DMG_USEANGLE , trace . SrcAngleToTarget ) ;
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if ( actualdamage ! = NULL )
{
* actualdamage = newdam ;
}
}
if ( ! ( puffDefaults ! = NULL & & puffDefaults - > flags3 & MF3_BLOODLESSIMPACT ) )
{
if ( ! bloodsplatter & & ! axeBlood & &
! ( trace . Actor - > flags & MF_NOBLOOD ) & &
! ( trace . Actor - > flags2 & ( MF2_INVULNERABLE | MF2_DORMANT ) ) )
{
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P_SpawnBlood ( bleedpos , trace . SrcAngleToTarget , newdam > 0 ? newdam : damage , trace . Actor ) ;
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}
if ( damage )
{
if ( bloodsplatter | | axeBlood )
{
if ( ! ( trace . Actor - > flags & MF_NOBLOOD ) & &
! ( trace . Actor - > flags2 & ( MF2_INVULNERABLE | MF2_DORMANT ) ) )
{
if ( axeBlood )
{
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P_BloodSplatter2 ( bleedpos , trace . Actor ) ;
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}
if ( pr_lineattack ( ) < 192 )
{
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P_BloodSplatter ( bleedpos , trace . Actor ) ;
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}
}
}
// [RH] Stick blood to walls
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P_TraceBleed ( newdam > 0 ? newdam : damage , trace . HitPos ,
trace . Actor , trace . SrcAngleToTarget , srcpitch ) ;
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}
}
if ( victim ! = NULL )
{
victim - > linetarget = trace . Actor ;
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victim - > angleFromSource = trace . SrcAngleToTarget ;
victim - > unlinked = trace . unlinked ;
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}
}
if ( trace . Crossed3DWater | | trace . CrossedWater )
{
if ( puff = = NULL )
{ // Spawn puff just to get a mass for the splash
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puff = P_SpawnPuff ( t1 , pufftype , trace . HitPos , 0 , 0 , 2 , puffFlags | PF_HITTHING | PF_TEMPORARY ) ;
2016-03-01 15:47:10 +00:00
killPuff = true ;
}
2016-03-06 20:58:36 +00:00
SpawnDeepSplash ( t1 , trace , puff ) ;
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}
}
if ( killPuff & & puff ! = NULL )
{
puff - > Destroy ( ) ;
puff = NULL ;
}
return puff ;
}
AActor * P_LineAttack ( AActor * t1 , angle_t angle , fixed_t distance ,
int pitch , int damage , FName damageType , FName pufftype , int flags , FTranslatedLineTarget * victim , int * actualdamage )
{
PClassActor * type = PClass : : FindActor ( pufftype ) ;
if ( type = = NULL )
{
if ( victim ! = NULL )
{
memset ( victim , 0 , sizeof ( * victim ) ) ;
}
Printf ( " Attempt to spawn unknown actor type '%s' \n " , pufftype . GetChars ( ) ) ;
return NULL ;
}
else
{
return P_LineAttack ( t1 , angle , distance , pitch , damage , damageType , type , flags , victim , actualdamage ) ;
}
}
//==========================================================================
//
// P_LinePickActor
//
//==========================================================================
AActor * P_LinePickActor ( AActor * t1 , angle_t angle , fixed_t distance , int pitch ,
ActorFlags actorMask , DWORD wallMask )
{
fixed_t vx , vy , vz , shootz ;
angle > > = ANGLETOFINESHIFT ;
pitch = ( angle_t ) ( pitch ) > > ANGLETOFINESHIFT ;
vx = FixedMul ( finecosine [ pitch ] , finecosine [ angle ] ) ;
vy = FixedMul ( finecosine [ pitch ] , finesine [ angle ] ) ;
vz = - finesine [ pitch ] ;
shootz = t1 - > Z ( ) - t1 - > floorclip + ( t1 - > height > > 1 ) ;
if ( t1 - > player ! = NULL )
{
shootz + = FixedMul ( t1 - > player - > mo - > AttackZOffset , t1 - > player - > crouchfactor ) ;
}
else
{
shootz + = 8 * FRACUNIT ;
}
FTraceResults trace ;
Origin TData ;
TData . Caller = t1 ;
TData . hitGhosts = true ;
if ( Trace ( t1 - > X ( ) , t1 - > Y ( ) , shootz , t1 - > Sector , vx , vy , vz , distance ,
2016-03-03 15:33:42 +00:00
actorMask , wallMask , t1 , trace , TRACE_NoSky | TRACE_PortalRestrict , CheckForActor , & TData ) )
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{
if ( trace . HitType = = TRACE_HitActor )
{
return trace . Actor ;
}
}
return NULL ;
}
//==========================================================================
//
//
//
//==========================================================================
void P_TraceBleed ( int damage , fixed_t x , fixed_t y , fixed_t z , AActor * actor , angle_t angle , int pitch )
{
if ( ! cl_bloodsplats )
return ;
const char * bloodType = " BloodSplat " ;
int count ;
int noise ;
if ( ( actor - > flags & MF_NOBLOOD ) | |
( actor - > flags5 & MF5_NOBLOODDECALS ) | |
( actor - > flags2 & ( MF2_INVULNERABLE | MF2_DORMANT ) ) | |
( actor - > player & & actor - > player - > cheats & CF_GODMODE ) )
{
return ;
}
if ( damage < 15 )
{ // For low damages, there is a chance to not spray blood at all
if ( damage < = 10 )
{
if ( pr_tracebleed ( ) < 160 )
{
return ;
}
}
count = 1 ;
noise = 18 ;
}
else if ( damage < 25 )
{
count = 2 ;
noise = 19 ;
}
else
{ // For high damages, there is a chance to spray just one big glob of blood
if ( pr_tracebleed ( ) < 24 )
{
bloodType = " BloodSmear " ;
count = 1 ;
noise = 20 ;
}
else
{
count = 3 ;
noise = 20 ;
}
}
for ( ; count ; - - count )
{
FTraceResults bleedtrace ;
angle_t bleedang = ( angle + ( ( pr_tracebleed ( ) - 128 ) < < noise ) ) > > ANGLETOFINESHIFT ;
angle_t bleedpitch = ( angle_t ) ( pitch + ( ( pr_tracebleed ( ) - 128 ) < < noise ) ) > > ANGLETOFINESHIFT ;
fixed_t vx = FixedMul ( finecosine [ bleedpitch ] , finecosine [ bleedang ] ) ;
fixed_t vy = FixedMul ( finecosine [ bleedpitch ] , finesine [ bleedang ] ) ;
fixed_t vz = - finesine [ bleedpitch ] ;
if ( Trace ( x , y , z , actor - > Sector ,
vx , vy , vz , 172 * FRACUNIT , 0 , ML_BLOCKEVERYTHING , actor ,
bleedtrace , TRACE_NoSky ) )
{
if ( bleedtrace . HitType = = TRACE_HitWall )
{
PalEntry bloodcolor = actor - > GetBloodColor ( ) ;
if ( bloodcolor ! = 0 )
{
bloodcolor . r > > = 1 ; // the full color is too bright for blood decals
bloodcolor . g > > = 1 ;
bloodcolor . b > > = 1 ;
bloodcolor . a = 1 ;
}
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DImpactDecal : : StaticCreate ( bloodType , bleedtrace . HitPos ,
bleedtrace . Line - > sidedef [ bleedtrace . Side ] , bleedtrace . ffloor , bloodcolor ) ;
2016-03-01 15:47:10 +00:00
}
}
}
}
void P_TraceBleed ( int damage , AActor * target , angle_t angle , int pitch )
{
P_TraceBleed ( damage , target - > X ( ) , target - > Y ( ) , target - > Z ( ) + target - > height / 2 ,
target , angle , pitch ) ;
}
//==========================================================================
//
//
//
//==========================================================================
void P_TraceBleed ( int damage , AActor * target , AActor * missile )
{
int pitch ;
if ( target = = NULL | | missile - > flags3 & MF3_BLOODLESSIMPACT )
{
return ;
}
if ( missile - > velz ! = 0 )
{
double aim ;
aim = atan ( ( double ) missile - > velz / ( double ) target - > AproxDistance ( missile ) ) ;
pitch = - ( int ) ( aim * ANGLE_180 / PI ) ;
}
else
{
pitch = 0 ;
}
P_TraceBleed ( damage , target - > X ( ) , target - > Y ( ) , target - > Z ( ) + target - > height / 2 ,
target , missile - > AngleTo ( target ) ,
pitch ) ;
}
//==========================================================================
//
//
//
//==========================================================================
void P_TraceBleed ( int damage , FTranslatedLineTarget * t , AActor * puff )
{
if ( t - > linetarget = = NULL | | puff - > flags3 & MF3_BLOODLESSIMPACT )
{
return ;
}
fixed_t randpitch = ( pr_tracebleed ( ) - 128 ) < < 16 ;
P_TraceBleed ( damage , t - > linetarget - > X ( ) , t - > linetarget - > Y ( ) , t - > linetarget - > Z ( ) + t - > linetarget - > height / 2 ,
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t - > linetarget , t - > angleFromSource , 0 ) ;
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}
//==========================================================================
//
//
//
//==========================================================================
void P_TraceBleed ( int damage , AActor * target )
{
if ( target ! = NULL )
{
fixed_t one = pr_tracebleed ( ) < < 24 ;
fixed_t two = ( pr_tracebleed ( ) - 128 ) < < 16 ;
P_TraceBleed ( damage , target - > X ( ) , target - > Y ( ) , target - > Z ( ) + target - > height / 2 ,
target , one , two ) ;
}
}
//==========================================================================
//
// [RH] Rail gun stuffage
//
//==========================================================================
struct SRailHit
{
AActor * HitActor ;
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fixedvec3 HitPos ;
angle_t HitAngle ;
2016-03-01 15:47:10 +00:00
} ;
struct RailData
{
AActor * Caller ;
TArray < SRailHit > RailHits ;
bool StopAtOne ;
bool StopAtInvul ;
bool ThruSpecies ;
} ;
static ETraceStatus ProcessRailHit ( FTraceResults & res , void * userdata )
{
RailData * data = ( RailData * ) userdata ;
if ( res . HitType ! = TRACE_HitActor )
{
return TRACE_Stop ;
}
// Invulnerable things completely block the shot
if ( data - > StopAtInvul & & res . Actor - > flags2 & MF2_INVULNERABLE )
{
return TRACE_Stop ;
}
// Skip actors with the same species if the puff has MTHRUSPECIES.
if ( data - > ThruSpecies & & res . Actor - > GetSpecies ( ) = = data - > Caller - > GetSpecies ( ) )
{
return TRACE_Skip ;
}
// Save this thing for damaging later, and continue the trace
SRailHit newhit ;
newhit . HitActor = res . Actor ;
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newhit . HitPos = res . HitPos ;
newhit . HitAngle = res . SrcAngleToTarget ;
if ( i_compatflags & COMPATF_HITSCAN )
{
fixedvec2 ofs = P_GetOffsetPosition ( newhit . HitPos . x , newhit . HitPos . y , - 10 * res . HitVector . x , - 10 * res . HitVector . y ) ;
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newhit . HitPos . x = ofs . x ;
newhit . HitPos . y = ofs . y ;
newhit . HitPos . z - = - 10 * res . HitVector . z ;
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}
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data - > RailHits . Push ( newhit ) ;
return data - > StopAtOne ? TRACE_Stop : TRACE_Continue ;
}
//==========================================================================
//
//
//
//==========================================================================
void P_RailAttack ( AActor * source , int damage , int offset_xy , fixed_t offset_z , int color1 , int color2 , double maxdiff , int railflags , PClassActor * puffclass , angle_t angleoffset , angle_t pitchoffset , fixed_t distance , int duration , double sparsity , double drift , PClassActor * spawnclass , int SpiralOffset )
{
fixed_t vx , vy , vz ;
angle_t angle , pitch ;
TVector3 < double > start , end ;
FTraceResults trace ;
fixed_t shootz ;
if ( puffclass = = NULL )
{
puffclass = PClass : : FindActor ( NAME_BulletPuff ) ;
}
pitch = ( ( angle_t ) ( - source - > pitch ) + pitchoffset ) > > ANGLETOFINESHIFT ;
angle = ( source - > angle + angleoffset ) > > ANGLETOFINESHIFT ;
vx = FixedMul ( finecosine [ pitch ] , finecosine [ angle ] ) ;
vy = FixedMul ( finecosine [ pitch ] , finesine [ angle ] ) ;
vz = finesine [ pitch ] ;
shootz = source - > Z ( ) - source - > floorclip + ( source - > height > > 1 ) + offset_z ;
if ( ! ( railflags & RAF_CENTERZ ) )
{
if ( source - > player ! = NULL )
{
shootz + = FixedMul ( source - > player - > mo - > AttackZOffset , source - > player - > crouchfactor ) ;
}
else
{
shootz + = 8 * FRACUNIT ;
}
}
angle = ( ( source - > angle + angleoffset ) - ANG90 ) > > ANGLETOFINESHIFT ;
fixedvec2 xy = source - > Vec2Offset ( offset_xy * finecosine [ angle ] , offset_xy * finesine [ angle ] ) ;
RailData rail_data ;
rail_data . Caller = source ;
rail_data . StopAtOne = ! ! ( railflags & RAF_NOPIERCE ) ;
start . X = FIXED2DBL ( xy . x ) ;
start . Y = FIXED2DBL ( xy . y ) ;
start . Z = FIXED2DBL ( shootz ) ;
int flags ;
assert ( puffclass ! = NULL ) ; // Because we set it to a default above
AActor * puffDefaults = GetDefaultByType ( puffclass - > GetReplacement ( ) ) ; //Contains all the flags such as FOILINVUL, etc.
flags = ( puffDefaults - > flags6 & MF6_NOTRIGGER ) ? 0 : TRACE_PCross | TRACE_Impact ;
rail_data . StopAtInvul = ( puffDefaults - > flags3 & MF3_FOILINVUL ) ? false : true ;
rail_data . ThruSpecies = ( puffDefaults - > flags6 & MF6_MTHRUSPECIES ) ? true : false ;
Trace ( xy . x , xy . y , shootz , source - > Sector , vx , vy , vz ,
distance , MF_SHOOTABLE , ML_BLOCKEVERYTHING , source , trace ,
flags , ProcessRailHit , & rail_data ) ;
// Hurt anything the trace hit
unsigned int i ;
FName damagetype = ( puffDefaults = = NULL | | puffDefaults - > DamageType = = NAME_None ) ? FName ( NAME_Railgun ) : puffDefaults - > DamageType ;
// used as damage inflictor
AActor * thepuff = NULL ;
if ( puffclass ! = NULL ) thepuff = Spawn ( puffclass , source - > Pos ( ) , ALLOW_REPLACE ) ;
for ( i = 0 ; i < rail_data . RailHits . Size ( ) ; i + + )
{
bool spawnpuff ;
bool bleed = false ;
int puffflags = PF_HITTHING ;
AActor * hitactor = rail_data . RailHits [ i ] . HitActor ;
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fixedvec3 & hitpos = rail_data . RailHits [ i ] . HitPos ;
angle_t hitangle = rail_data . RailHits [ i ] . HitAngle ;
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if ( ( hitactor - > flags & MF_NOBLOOD ) | |
( hitactor - > flags2 & MF2_DORMANT | | ( ( hitactor - > flags2 & MF2_INVULNERABLE ) & & ! ( puffDefaults - > flags3 & MF3_FOILINVUL ) ) ) )
{
spawnpuff = ( puffclass ! = NULL ) ;
}
else
{
spawnpuff = ( puffclass ! = NULL & & puffDefaults - > flags3 & MF3_ALWAYSPUFF ) ;
puffflags | = PF_HITTHINGBLEED ; // [XA] Allow for puffs to jump to XDeath state.
if ( ! ( puffDefaults - > flags3 & MF3_BLOODLESSIMPACT ) )
{
bleed = true ;
}
}
if ( spawnpuff )
{
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P_SpawnPuff ( source , puffclass , hitpos , trace . SrcAngleToTarget , trace . SrcAngleToTarget - ANGLE_90 , 1 , puffflags , hitactor ) ;
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}
int dmgFlagPass = DMG_INFLICTOR_IS_PUFF ;
if ( puffDefaults ! = NULL ) // is this even possible?
{
if ( puffDefaults - > PoisonDamage > 0 & & puffDefaults - > PoisonDuration ! = INT_MIN )
{
P_PoisonMobj ( hitactor , thepuff ? thepuff : source , source , puffDefaults - > PoisonDamage , puffDefaults - > PoisonDuration , puffDefaults - > PoisonPeriod , puffDefaults - > PoisonDamageType ) ;
}
if ( puffDefaults - > flags3 & MF3_FOILINVUL ) dmgFlagPass | = DMG_FOILINVUL ;
if ( puffDefaults - > flags7 & MF7_FOILBUDDHA ) dmgFlagPass | = DMG_FOILBUDDHA ;
}
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int newdam = P_DamageMobj ( hitactor , thepuff ? thepuff : source , source , damage , damagetype , dmgFlagPass | DMG_USEANGLE , hitangle ) ;
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if ( bleed )
{
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P_SpawnBlood ( hitpos , hitangle , newdam > 0 ? newdam : damage , hitactor ) ;
P_TraceBleed ( newdam > 0 ? newdam : damage , hitpos , hitactor , source - > angle , pitch ) ;
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}
}
// Spawn a decal or puff at the point where the trace ended.
if ( trace . HitType = = TRACE_HitWall )
{
AActor * puff = NULL ;
if ( puffclass ! = NULL & & puffDefaults - > flags3 & MF3_ALWAYSPUFF )
{
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puff = P_SpawnPuff ( source , puffclass , trace . HitPos , trace . SrcAngleToTarget , trace . SrcAngleToTarget - ANGLE_90 , 1 , 0 ) ;
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if ( puff & & ( trace . Line ! = NULL ) & & ( trace . Line - > special = = Line_Horizon ) & & ! ( puff - > flags3 & MF3_SKYEXPLODE ) )
puff - > Destroy ( ) ;
}
if ( puff ! = NULL & & puffDefaults - > flags7 & MF7_FORCEDECAL & & puff - > DecalGenerator )
SpawnShootDecal ( puff , trace ) ;
else
SpawnShootDecal ( source , trace ) ;
}
if ( trace . HitType = = TRACE_HitFloor | | trace . HitType = = TRACE_HitCeiling )
{
AActor * puff = NULL ;
if ( puffclass ! = NULL & & puffDefaults - > flags3 & MF3_ALWAYSPUFF )
{
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puff = P_SpawnPuff ( source , puffclass , trace . HitPos , trace . SrcAngleToTarget , trace . SrcAngleToTarget - ANGLE_90 , 1 , 0 ) ;
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if ( puff & & ! ( puff - > flags3 & MF3_SKYEXPLODE ) & &
( ( ( trace . HitType = = TRACE_HitFloor ) & & ( puff - > floorpic = = skyflatnum ) ) | |
( ( trace . HitType = = TRACE_HitCeiling ) & & ( puff - > ceilingpic = = skyflatnum ) ) ) )
{
puff - > Destroy ( ) ;
}
}
}
if ( thepuff ! = NULL )
{
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if ( trace . Crossed3DWater | | trace . CrossedWater )
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{
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SpawnDeepSplash ( source , trace , thepuff ) ;
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}
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else if ( trace . HitType = = TRACE_HitFloor & & trace . Sector - > heightsec = = NULL )
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{
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P_HitWater ( thepuff , trace . Sector , trace . HitPos ) ;
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}
thepuff - > Destroy ( ) ;
}
// Draw the slug's trail.
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end . X = FIXED2DBL ( trace . HitPos . x ) ;
end . Y = FIXED2DBL ( trace . HitPos . y ) ;
end . Z = FIXED2DBL ( trace . HitPos . z ) ;
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P_DrawRailTrail ( source , start , end , color1 , color2 , maxdiff , railflags , spawnclass , source - > angle + angleoffset , duration , sparsity , drift , SpiralOffset ) ;
}
//==========================================================================
//
// [RH] P_AimCamera
//
//==========================================================================
CVAR ( Float , chase_height , - 8.f , CVAR_ARCHIVE | CVAR_GLOBALCONFIG )
CVAR ( Float , chase_dist , 90.f , CVAR_ARCHIVE | CVAR_GLOBALCONFIG )
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void P_AimCamera ( AActor * t1 , fixed_t & CameraX , fixed_t & CameraY , fixed_t & CameraZ , sector_t * & CameraSector , bool & unlinked )
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{
fixed_t distance = ( fixed_t ) ( clamp < double > ( chase_dist , 0 , 30000 ) * FRACUNIT ) ;
angle_t angle = ( t1 - > angle - ANG180 ) > > ANGLETOFINESHIFT ;
angle_t pitch = ( angle_t ) ( t1 - > pitch ) > > ANGLETOFINESHIFT ;
FTraceResults trace ;
fixed_t vx , vy , vz , sz ;
vx = FixedMul ( finecosine [ pitch ] , finecosine [ angle ] ) ;
vy = FixedMul ( finecosine [ pitch ] , finesine [ angle ] ) ;
vz = finesine [ pitch ] ;
sz = t1 - > Z ( ) - t1 - > floorclip + t1 - > height + ( fixed_t ) ( clamp < double > ( chase_height , - 1000 , 1000 ) * FRACUNIT ) ;
if ( Trace ( t1 - > X ( ) , t1 - > Y ( ) , sz , t1 - > Sector ,
vx , vy , vz , distance , 0 , 0 , NULL , trace ) & &
trace . Distance > 10 * FRACUNIT )
{
// Position camera slightly in front of hit thing
fixed_t dist = trace . Distance - 5 * FRACUNIT ;
CameraX = t1 - > X ( ) + FixedMul ( vx , dist ) ;
CameraY = t1 - > Y ( ) + FixedMul ( vy , dist ) ;
CameraZ = sz + FixedMul ( vz , dist ) ;
}
else
{
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CameraX = trace . HitPos . x ;
CameraY = trace . HitPos . y ;
CameraZ = trace . HitPos . z ;
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}
CameraSector = trace . Sector ;
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unlinked = trace . unlinked ;
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}
//==========================================================================
//
// P_TalkFacing
//
// Looks for something within 5.625 degrees left or right of the player
// to talk to.
//
//==========================================================================
bool P_TalkFacing ( AActor * player )
{
static const int angleofs [ ] = { 0 , ANGLE_90 > > 4 , - ANGLE_90 > > 4 } ;
FTranslatedLineTarget t ;
for ( int angle : angleofs )
{
P_AimLineAttack ( player , player - > angle + angle , TALKRANGE , & t , ANGLE_1 * 35 , ALF_FORCENOSMART | ALF_CHECKCONVERSATION | ALF_PORTALRESTRICT ) ;
if ( t . linetarget ! = NULL )
{
if ( t . linetarget - > health > 0 & & // Dead things can't talk.
t . linetarget - > flags4 & MF4_INCOMBAT & & // Fighting things don't talk either.
t . linetarget - > Conversation ! = NULL )
{
// Give the NPC a chance to play a brief animation
t . linetarget - > ConversationAnimation ( 0 ) ;
P_StartConversation ( t . linetarget , player , true , true ) ;
return true ;
}
return false ;
}
}
return false ;
}
//==========================================================================
//
// USE LINES
//
//==========================================================================
bool P_UseTraverse ( AActor * usething , fixed_t startx , fixed_t starty , fixed_t endx , fixed_t endy , bool & foundline )
{
FPathTraverse it ( startx , starty , endx , endy , PT_ADDLINES | PT_ADDTHINGS ) ;
intercept_t * in ;
fixedvec3 xpos = { startx , starty , usething - > Z ( ) } ;
while ( ( in = it . Next ( ) ) )
{
// [RH] Check for things to talk with or use a puzzle item on
if ( ! in - > isaline )
{
if ( usething = = in - > d . thing )
continue ;
// Check thing
// Check for puzzle item use or USESPECIAL flag
// Extended to use the same activationtype mechanism as BUMPSPECIAL does
if ( in - > d . thing - > flags5 & MF5_USESPECIAL | | in - > d . thing - > special = = UsePuzzleItem )
{
if ( P_ActivateThingSpecial ( in - > d . thing , usething ) )
return true ;
}
continue ;
}
if ( it . PortalRelocate ( in , PT_ADDLINES | PT_ADDTHINGS , & xpos ) )
{
continue ;
}
FLineOpening open ;
if ( in - > d . line - > special = = 0 | | ! ( in - > d . line - > activation & ( SPAC_Use | SPAC_UseThrough | SPAC_UseBack ) ) )
{
blocked :
if ( in - > d . line - > flags & ( ML_BLOCKEVERYTHING | ML_BLOCKUSE ) )
{
open . range = 0 ;
}
else
{
2016-03-02 23:58:25 +00:00
P_LineOpening ( open , NULL , in - > d . line , it . InterceptPoint ( in ) ) ;
2016-03-01 15:47:10 +00:00
}
if ( open . range < = 0 | |
( in - > d . line - > special ! = 0 & & ( i_compatflags & COMPATF_USEBLOCKING ) ) )
{
// [RH] Give sector a chance to intercept the use
sector_t * sec ;
sec = usething - > Sector ;
if ( sec - > SecActTarget & & sec - > SecActTarget - > TriggerAction ( usething , SECSPAC_Use ) )
{
return true ;
}
sec = P_PointOnLineSide ( xpos . x , xpos . y , in - > d . line ) = = 0 ?
in - > d . line - > frontsector : in - > d . line - > backsector ;
if ( sec ! = NULL & & sec - > SecActTarget & &
sec - > SecActTarget - > TriggerAction ( usething , SECSPAC_UseWall ) )
{
return true ;
}
if ( usething - > player )
{
S_Sound ( usething , CHAN_VOICE , " *usefail " , 1 , ATTN_IDLE ) ;
}
return true ; // can't use through a wall
}
foundline = true ;
continue ; // not a special line, but keep checking
}
if ( P_PointOnLineSide ( xpos . x , xpos . y , in - > d . line ) = = 1 )
{
if ( ! ( in - > d . line - > activation & SPAC_UseBack ) )
{
// [RH] continue traversal for two-sided lines
//return in->d.line->backsector != NULL; // don't use back side
goto blocked ; // do a proper check for back sides of triggers
}
else
{
P_ActivateLine ( in - > d . line , usething , 1 , SPAC_UseBack , & xpos ) ;
return true ;
}
}
else
{
if ( ( in - > d . line - > activation & ( SPAC_Use | SPAC_UseThrough | SPAC_UseBack ) ) = = SPAC_UseBack )
{
goto blocked ; // Line cannot be used from front side so treat it as a non-trigger line
}
P_ActivateLine ( in - > d . line , usething , 0 , SPAC_Use , & xpos ) ;
//WAS can't use more than one special line in a row
//jff 3/21/98 NOW multiple use allowed with enabling line flag
//[RH] And now I've changed it again. If the line is of type
// SPAC_USE, then it eats the use. Everything else passes
// it through, including SPAC_USETHROUGH.
if ( i_compatflags & COMPATF_USEBLOCKING )
{
if ( in - > d . line - > activation & SPAC_UseThrough ) continue ;
else return true ;
}
else
{
if ( ! ( in - > d . line - > activation & SPAC_Use ) ) continue ;
else return true ;
}
}
}
return false ;
}
//==========================================================================
//
// Returns false if a "oof" sound should be made because of a blocking
// linedef. Makes 2s middles which are impassable, as well as 2s uppers
// and lowers which block the player, cause the sound effect when the
// player tries to activate them. Specials are excluded, although it is
// assumed that all special linedefs within reach have been considered
// and rejected already (see P_UseLines).
//
// by Lee Killough
//
//==========================================================================
bool P_NoWayTraverse ( AActor * usething , fixed_t startx , fixed_t starty , fixed_t endx , fixed_t endy )
{
FPathTraverse it ( startx , starty , endx , endy , PT_ADDLINES ) ;
intercept_t * in ;
while ( ( in = it . Next ( ) ) )
{
line_t * ld = in - > d . line ;
FLineOpening open ;
// [GrafZahl] de-obfuscated. Was I the only one who was unable to make sense out of
// this convoluted mess?
if ( ld - > special ) continue ;
if ( ld - > isLinePortal ( ) ) return false ;
if ( ld - > flags & ( ML_BLOCKING | ML_BLOCKEVERYTHING | ML_BLOCK_PLAYERS ) ) return true ;
2016-03-02 23:58:25 +00:00
P_LineOpening ( open , NULL , ld , it . InterceptPoint ( in ) ) ;
2016-03-01 15:47:10 +00:00
if ( open . range < = 0 | |
open . bottom > usething - > Z ( ) + usething - > MaxStepHeight | |
open . top < usething - > Top ( ) ) return true ;
}
return false ;
}
//==========================================================================
//
// P_UseLines
//
// Looks for special lines in front of the player to activate
//
//==========================================================================
CVAR ( Int , userange , 0 , 0 ) ;
void P_UseLines ( player_t * player )
{
bool foundline = false ;
// If the player is transitioning a portal, use the group that is at its vertical center.
fixedvec2 start = player - > mo - > GetPortalTransition ( player - > mo - > height / 2 ) ;
// [NS] Now queries the Player's UseRange.
fixedvec2 end = start + Vec2Angle ( userange > 0 ? fixed_t ( userange < < FRACBITS ) : player - > mo - > UseRange , player - > mo - > angle ) ;
// old code:
//
// P_PathTraverse ( x1, y1, x2, y2, PT_ADDLINES, PTR_UseTraverse );
//
// This added test makes the "oof" sound work on 2s lines -- killough:
if ( ! P_UseTraverse ( player - > mo , start . x , start . y , end . x , end . y , foundline ) )
{ // [RH] Give sector a chance to eat the use
sector_t * sec = player - > mo - > Sector ;
int spac = SECSPAC_Use ;
if ( foundline ) spac | = SECSPAC_UseWall ;
if ( ( ! sec - > SecActTarget | | ! sec - > SecActTarget - > TriggerAction ( player - > mo , spac ) ) & &
P_NoWayTraverse ( player - > mo , start . x , start . y , end . x , end . y ) )
{
S_Sound ( player - > mo , CHAN_VOICE , " *usefail " , 1 , ATTN_IDLE ) ;
}
}
}
//==========================================================================
//
// P_UsePuzzleItem
//
// Returns true if the puzzle item was used on a line or a thing.
//
//==========================================================================
bool P_UsePuzzleItem ( AActor * PuzzleItemUser , int PuzzleItemType )
{
int angle ;
fixed_t x1 , y1 , x2 , y2 , usedist ;
angle = PuzzleItemUser - > angle > > ANGLETOFINESHIFT ;
x1 = PuzzleItemUser - > X ( ) ;
y1 = PuzzleItemUser - > Y ( ) ;
// [NS] If it's a Player, get their UseRange.
if ( PuzzleItemUser - > player )
usedist = PuzzleItemUser - > player - > mo - > UseRange ;
else
usedist = USERANGE ;
x2 = x1 + FixedMul ( usedist , finecosine [ angle ] ) ;
y2 = y1 + FixedMul ( usedist , finesine [ angle ] ) ;
FPathTraverse it ( x1 , y1 , x2 , y2 , PT_ADDLINES | PT_ADDTHINGS ) ;
intercept_t * in ;
while ( ( in = it . Next ( ) ) )
{
AActor * mobj ;
FLineOpening open ;
if ( in - > isaline )
{ // Check line
if ( in - > d . line - > special ! = UsePuzzleItem )
{
2016-03-02 23:58:25 +00:00
P_LineOpening ( open , NULL , in - > d . line , it . InterceptPoint ( in ) ) ;
2016-03-01 15:47:10 +00:00
if ( open . range < = 0 )
{
return false ; // can't use through a wall
}
continue ;
}
if ( P_PointOnLineSide ( PuzzleItemUser - > X ( ) , PuzzleItemUser - > Y ( ) , in - > d . line ) = = 1 )
{ // Don't use back sides
return false ;
}
if ( PuzzleItemType ! = in - > d . line - > args [ 0 ] )
{ // Item type doesn't match
return false ;
}
int args [ 3 ] = { in - > d . line - > args [ 2 ] , in - > d . line - > args [ 3 ] , in - > d . line - > args [ 4 ] } ;
P_StartScript ( PuzzleItemUser , in - > d . line , in - > d . line - > args [ 1 ] , NULL , args , 3 , ACS_ALWAYS ) ;
in - > d . line - > special = 0 ;
return true ;
}
// Check thing
mobj = in - > d . thing ;
if ( mobj - > special ! = UsePuzzleItem )
{ // Wrong special
continue ;
}
if ( PuzzleItemType ! = mobj - > args [ 0 ] )
{ // Item type doesn't match
continue ;
}
int args [ 3 ] = { mobj - > args [ 2 ] , mobj - > args [ 3 ] , mobj - > args [ 4 ] } ;
P_StartScript ( PuzzleItemUser , NULL , mobj - > args [ 1 ] , NULL , args , 3 , ACS_ALWAYS ) ;
mobj - > special = 0 ;
return true ;
}
return false ;
}
//==========================================================================
//
// RADIUS ATTACK
//
//
//==========================================================================
// [RH] Damage scale to apply to thing that shot the missile.
static float selfthrustscale ;
CUSTOM_CVAR ( Float , splashfactor , 1.f , CVAR_SERVERINFO )
{
if ( self < = 0.f )
self = 1.f ;
else
selfthrustscale = 1.f / self ;
}
//==========================================================================
//
// P_RadiusAttack
// Source is the creature that caused the explosion at spot.
//
//==========================================================================
void P_RadiusAttack ( AActor * bombspot , AActor * bombsource , int bombdamage , int bombdistance , FName bombmod ,
int flags , int fulldamagedistance )
{
if ( bombdistance < = 0 )
return ;
fulldamagedistance = clamp < int > ( fulldamagedistance , 0 , bombdistance - 1 ) ;
double bombdistancefloat = 1.f / ( double ) ( bombdistance - fulldamagedistance ) ;
double bombdamagefloat = ( double ) bombdamage ;
2016-03-07 00:02:48 +00:00
FPortalGroupArray grouplist ;
2016-03-07 00:48:13 +00:00
FMultiBlockThingsIterator it ( grouplist , bombspot - > X ( ) , bombspot - > Y ( ) , bombspot - > Z ( ) - ( bombdistance < < FRACBITS ) , bombspot - > height + ( ( bombdistance * 2 ) < < FRACBITS ) , bombdistance ) ;
2016-03-07 00:02:48 +00:00
FMultiBlockThingsIterator : : CheckResult cres ;
2016-03-01 15:47:10 +00:00
if ( flags & RADF_SOURCEISSPOT )
{ // The source is actually the same as the spot, even if that wasn't what we received.
bombsource = bombspot ;
}
2016-03-07 00:02:48 +00:00
while ( ( it . Next ( & cres ) ) )
2016-03-01 15:47:10 +00:00
{
2016-03-07 00:02:48 +00:00
AActor * thing = cres . thing ;
2016-03-01 15:47:10 +00:00
// Vulnerable actors can be damaged by radius attacks even if not shootable
// Used to emulate MBF's vulnerability of non-missile bouncers to explosions.
if ( ! ( ( thing - > flags & MF_SHOOTABLE ) | | ( thing - > flags6 & MF6_VULNERABLE ) ) )
continue ;
// Boss spider and cyborg and Heretic's ep >= 2 bosses
// take no damage from concussion.
if ( thing - > flags3 & MF3_NORADIUSDMG & & ! ( bombspot - > flags4 & MF4_FORCERADIUSDMG ) )
continue ;
if ( ! ( flags & RADF_HURTSOURCE ) & & ( thing = = bombsource | | thing = = bombspot ) )
{ // don't damage the source of the explosion
continue ;
}
// a much needed option: monsters that fire explosive projectiles cannot
// be hurt by projectiles fired by a monster of the same type.
// Controlled by the DONTHARMCLASS and DONTHARMSPECIES flags.
if ( ( bombsource & & ! thing - > player ) // code common to both checks
& & ( // Class check first
( ( bombsource - > flags4 & MF4_DONTHARMCLASS ) & & ( thing - > GetClass ( ) = = bombsource - > GetClass ( ) ) )
| | // Nigh-identical species check second
( ( bombsource - > flags6 & MF6_DONTHARMSPECIES ) & & ( thing - > GetSpecies ( ) = = bombsource - > GetSpecies ( ) ) )
)
) continue ;
// Barrels always use the original code, since this makes
// them far too "active." BossBrains also use the old code
// because some user levels require they have a height of 16,
// which can make them near impossible to hit with the new code.
if ( ( flags & RADF_NODAMAGE ) | | ! ( ( bombspot - > flags5 | thing - > flags5 ) & MF5_OLDRADIUSDMG ) )
{
// [RH] New code. The bounding box only covers the
// height of the thing and not the height of the map.
double points ;
double len ;
fixed_t dx , dy ;
double boxradius ;
fixedvec2 vec = bombspot - > Vec2To ( thing ) ;
dx = abs ( vec . x ) ;
dy = abs ( vec . y ) ;
boxradius = double ( thing - > radius ) ;
// The damage pattern is square, not circular.
len = double ( dx > dy ? dx : dy ) ;
if ( bombspot - > Z ( ) < thing - > Z ( ) | | bombspot - > Z ( ) > = thing - > Top ( ) )
{
double dz ;
if ( bombspot - > Z ( ) > thing - > Z ( ) )
{
dz = double ( bombspot - > Z ( ) - thing - > Top ( ) ) ;
}
else
{
dz = double ( thing - > Z ( ) - bombspot - > Z ( ) ) ;
}
if ( len < = boxradius )
{
len = dz ;
}
else
{
len - = boxradius ;
len = sqrt ( len * len + dz * dz ) ;
}
}
else
{
len - = boxradius ;
if ( len < 0.f )
len = 0.f ;
}
len / = FRACUNIT ;
len = clamp < double > ( len - ( double ) fulldamagedistance , 0 , len ) ;
points = bombdamagefloat * ( 1.f - len * bombdistancefloat ) ;
if ( thing = = bombsource )
{
points = points * splashfactor ;
}
points * = thing - > GetClass ( ) - > RDFactor / ( float ) FRACUNIT ;
// points and bombdamage should be the same sign
if ( ( ( points * bombdamage ) > 0 ) & & P_CheckSight ( thing , bombspot , SF_IGNOREVISIBILITY | SF_IGNOREWATERBOUNDARY ) )
{ // OK to damage; target is in direct path
double velz ;
double thrust ;
int damage = abs ( ( int ) points ) ;
int newdam = damage ;
if ( ! ( flags & RADF_NODAMAGE ) )
newdam = P_DamageMobj ( thing , bombspot , bombsource , damage , bombmod ) ;
else if ( thing - > player = = NULL & & ( ! ( flags & RADF_NOIMPACTDAMAGE ) & & ! ( thing - > flags7 & MF7_DONTTHRUST ) ) )
thing - > flags2 | = MF2_BLASTED ;
if ( ! ( thing - > flags & MF_ICECORPSE ) )
{
if ( ! ( flags & RADF_NODAMAGE ) & & ! ( bombspot - > flags3 & MF3_BLOODLESSIMPACT ) )
P_TraceBleed ( newdam > 0 ? newdam : damage , thing , bombspot ) ;
if ( ( flags & RADF_NODAMAGE ) | | ! ( bombspot - > flags2 & MF2_NODMGTHRUST ) )
{
if ( bombsource = = NULL | | ! ( bombsource - > flags2 & MF2_NODMGTHRUST ) )
{
if ( ! ( thing - > flags7 & MF7_DONTTHRUST ) )
{
thrust = points * 0.5f / ( double ) thing - > Mass ;
if ( bombsource = = thing )
{
thrust * = selfthrustscale ;
}
velz = ( double ) ( thing - > Z ( ) + ( thing - > height > > 1 ) - bombspot - > Z ( ) ) * thrust ;
if ( bombsource ! = thing )
{
velz * = 0.5f ;
}
else
{
velz * = 0.8f ;
}
angle_t ang = bombspot - > AngleTo ( thing ) > > ANGLETOFINESHIFT ;
thing - > velx + = fixed_t ( finecosine [ ang ] * thrust ) ;
thing - > vely + = fixed_t ( finesine [ ang ] * thrust ) ;
if ( ! ( flags & RADF_NODAMAGE ) )
thing - > velz + = ( fixed_t ) velz ; // this really doesn't work well
}
}
}
}
}
}
else
{
// [RH] Old code just for barrels
fixed_t dx , dy , dist ;
fixedvec2 vec = bombspot - > Vec2To ( thing ) ;
dx = abs ( vec . x ) ;
dy = abs ( vec . y ) ;
dist = dx > dy ? dx : dy ;
dist = ( dist - thing - > radius ) > > FRACBITS ;
if ( dist < 0 )
dist = 0 ;
if ( dist > = bombdistance )
continue ; // out of range
if ( P_CheckSight ( thing , bombspot , SF_IGNOREVISIBILITY | SF_IGNOREWATERBOUNDARY ) )
{ // OK to damage; target is in direct path
dist = clamp < int > ( dist - fulldamagedistance , 0 , dist ) ;
int damage = Scale ( bombdamage , bombdistance - dist , bombdistance ) ;
damage = ( int ) ( ( double ) damage * splashfactor ) ;
damage = Scale ( damage , thing - > GetClass ( ) - > RDFactor , FRACUNIT ) ;
if ( damage > 0 )
{
int newdam = P_DamageMobj ( thing , bombspot , bombsource , damage , bombmod ) ;
P_TraceBleed ( newdam > 0 ? newdam : damage , thing , bombspot ) ;
}
}
}
}
}
//==========================================================================
//
// SECTOR HEIGHT CHANGING
// After modifying a sector's floor or ceiling height,
// call this routine to adjust the positions
// of all things that touch the sector.
//
// If anything doesn't fit anymore, true will be returned.
//
// [RH] If crushchange is non-negative, they will take the
// specified amount of damage as they are being crushed.
// If crushchange is negative, you should set the sector
// height back the way it was and call P_ChangeSector()
// again to undo the changes.
// Note that this is very different from the original
// true/false usage of crushchange! If you want regular
// DOOM crushing behavior set crushchange to 10 or -1
// if no crushing is desired.
//
//==========================================================================
struct FChangePosition
{
sector_t * sector ;
int moveamt ;
int crushchange ;
bool nofit ;
bool movemidtex ;
} ;
TArray < AActor * > intersectors ;
EXTERN_CVAR ( Int , cl_bloodtype )
//=============================================================================
//
// P_AdjustFloorCeil
//
//=============================================================================
bool P_AdjustFloorCeil ( AActor * thing , FChangePosition * cpos )
{
ActorFlags2 flags2 = thing - > flags2 & MF2_PASSMOBJ ;
FCheckPosition tm ;
if ( ( thing - > flags2 & MF2_PASSMOBJ ) & & ( thing - > flags3 & MF3_ISMONSTER ) )
{
tm . FromPMove = true ;
}
if ( cpos - > movemidtex )
{
// From Eternity:
// ALL things must be treated as PASSMOBJ when moving
// 3DMidTex lines, otherwise you get stuck in them.
thing - > flags2 | = MF2_PASSMOBJ ;
}
bool isgood = P_CheckPosition ( thing , thing - > X ( ) , thing - > Y ( ) , tm ) ;
thing - > floorz = tm . floorz ;
thing - > ceilingz = tm . ceilingz ;
thing - > dropoffz = tm . dropoffz ; // killough 11/98: remember dropoffs
thing - > floorpic = tm . floorpic ;
thing - > floorterrain = tm . floorterrain ;
thing - > floorsector = tm . floorsector ;
thing - > ceilingpic = tm . ceilingpic ;
thing - > ceilingsector = tm . ceilingsector ;
// restore the PASSMOBJ flag but leave the other flags alone.
thing - > flags2 = ( thing - > flags2 & ~ MF2_PASSMOBJ ) | flags2 ;
return isgood ;
}
//=============================================================================
//
// P_FindAboveIntersectors
//
//=============================================================================
void P_FindAboveIntersectors ( AActor * actor )
{
if ( actor - > flags & MF_NOCLIP )
return ;
if ( ! ( actor - > flags & MF_SOLID ) )
return ;
2016-03-06 23:17:52 +00:00
FPortalGroupArray check ;
FMultiBlockThingsIterator it ( check , actor ) ;
FMultiBlockThingsIterator : : CheckResult cres ;
while ( it . Next ( & cres ) )
2016-03-01 15:47:10 +00:00
{
2016-03-06 23:17:52 +00:00
AActor * thing = cres . thing ;
fixed_t blockdist = actor - > radius + thing - > radius ;
if ( abs ( actor - > X ( ) - cres . position . x ) > = blockdist | | abs ( actor - > Y ( ) - cres . position . y ) > = blockdist )
2016-03-01 15:47:10 +00:00
continue ;
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2016-03-01 15:47:10 +00:00
if ( ! ( thing - > flags & MF_SOLID ) )
{ // Can't hit thing
continue ;
}
if ( thing - > flags & ( MF_SPECIAL ) )
{ // [RH] Corpses and specials don't block moves
continue ;
}
if ( thing - > flags & ( MF_CORPSE ) )
{ // Corpses need a few more checks
if ( ! ( actor - > flags & MF_ICECORPSE ) )
continue ;
}
if ( thing = = actor )
{ // Don't clip against self
continue ;
}
if ( ! ( ( thing - > flags2 | actor - > flags2 ) & MF2_PASSMOBJ ) & & ! ( ( thing - > flags3 | actor - > flags3 ) & MF3_ISMONSTER ) )
{
// Don't bother if both things don't have MF2_PASSMOBJ set and aren't monsters.
// These things would always block each other which in nearly every situation is
// not what is wanted here.
continue ;
}
if ( thing - > Z ( ) > = actor - > Z ( ) & &
thing - > Z ( ) < = actor - > Top ( ) )
{ // Thing intersects above the base
intersectors . Push ( thing ) ;
}
}
}
//=============================================================================
//
// P_FindBelowIntersectors
//
//=============================================================================
void P_FindBelowIntersectors ( AActor * actor )
{
if ( actor - > flags & MF_NOCLIP )
return ;
if ( ! ( actor - > flags & MF_SOLID ) )
return ;
2016-03-06 23:17:52 +00:00
FPortalGroupArray check ;
FMultiBlockThingsIterator it ( check , actor ) ;
FMultiBlockThingsIterator : : CheckResult cres ;
while ( it . Next ( & cres ) )
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{
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AActor * thing = cres . thing ;
fixed_t blockdist = actor - > radius + thing - > radius ;
if ( abs ( actor - > X ( ) - cres . position . x ) > = blockdist | | abs ( actor - > Y ( ) - cres . position . y ) > = blockdist )
2016-03-01 15:47:10 +00:00
continue ;
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2016-03-01 15:47:10 +00:00
if ( ! ( thing - > flags & MF_SOLID ) )
{ // Can't hit thing
continue ;
}
if ( thing - > flags & ( MF_SPECIAL ) )
{ // [RH] Corpses and specials don't block moves
continue ;
}
if ( thing - > flags & ( MF_CORPSE ) )
{ // Corpses need a few more checks
if ( ! ( actor - > flags & MF_ICECORPSE ) )
continue ;
}
if ( thing = = actor )
{ // Don't clip against self
continue ;
}
if ( ! ( ( thing - > flags2 | actor - > flags2 ) & MF2_PASSMOBJ ) & & ! ( ( thing - > flags3 | actor - > flags3 ) & MF3_ISMONSTER ) )
{
// Don't bother if both things don't have MF2_PASSMOBJ set and aren't monsters.
// These things would always block each other which in nearly every situation is
// not what is wanted here.
continue ;
}
if ( thing - > Top ( ) < = actor - > Top ( ) & &
thing - > Top ( ) > actor - > Z ( ) )
{ // Thing intersects below the base
intersectors . Push ( thing ) ;
}
}
}
//=============================================================================
//
// P_DoCrunch
//
//=============================================================================
void P_DoCrunch ( AActor * thing , FChangePosition * cpos )
{
if ( ! ( thing & & thing - > Grind ( true ) & & cpos ) ) return ;
cpos - > nofit = true ;
if ( ( cpos - > crushchange > 0 ) & & ! ( level . maptime & 3 ) )
{
int newdam = P_DamageMobj ( thing , NULL , NULL , cpos - > crushchange , NAME_Crush ) ;
// spray blood in a random direction
if ( ! ( thing - > flags2 & ( MF2_INVULNERABLE | MF2_DORMANT ) ) )
{
if ( ! ( thing - > flags & MF_NOBLOOD ) )
{
PalEntry bloodcolor = thing - > GetBloodColor ( ) ;
PClassActor * bloodcls = thing - > GetBloodType ( ) ;
P_TraceBleed ( newdam > 0 ? newdam : cpos - > crushchange , thing ) ;
if ( bloodcls ! = NULL )
{
AActor * mo ;
mo = Spawn ( bloodcls , thing - > PosPlusZ ( thing - > height / 2 ) , ALLOW_REPLACE ) ;
mo - > velx = pr_crunch . Random2 ( ) < < 12 ;
mo - > vely = pr_crunch . Random2 ( ) < < 12 ;
if ( bloodcolor ! = 0 & & ! ( mo - > flags2 & MF2_DONTTRANSLATE ) )
{
mo - > Translation = TRANSLATION ( TRANSLATION_Blood , bloodcolor . a ) ;
}
if ( ! ( cl_bloodtype < = 1 ) ) mo - > renderflags | = RF_INVISIBLE ;
}
angle_t an ;
an = ( M_Random ( ) - 128 ) < < 24 ;
if ( cl_bloodtype > = 1 )
{
P_DrawSplash2 ( 32 , thing - > X ( ) , thing - > Y ( ) , thing - > Z ( ) + thing - > height / 2 , an , 2 , bloodcolor ) ;
}
}
if ( thing - > CrushPainSound ! = 0 & & ! S_GetSoundPlayingInfo ( thing , thing - > CrushPainSound ) )
{
S_Sound ( thing , CHAN_VOICE , thing - > CrushPainSound , 1.f , ATTN_NORM ) ;
}
}
}
// keep checking (crush other things)
return ;
}
//=============================================================================
//
// P_PushUp
//
// Returns 0 if thing fits, 1 if ceiling got in the way, or 2 if something
// above it didn't fit.
//=============================================================================
int P_PushUp ( AActor * thing , FChangePosition * cpos )
{
unsigned int firstintersect = intersectors . Size ( ) ;
unsigned int lastintersect ;
int mymass = thing - > Mass ;
if ( thing - > Top ( ) > thing - > ceilingz )
{
return 1 ;
}
// [GZ] Skip thing intersect test for THRUACTORS things.
if ( thing - > flags2 & MF2_THRUACTORS )
return 0 ;
P_FindAboveIntersectors ( thing ) ;
lastintersect = intersectors . Size ( ) ;
for ( ; firstintersect < lastintersect ; firstintersect + + )
{
AActor * intersect = intersectors [ firstintersect ] ;
// [GZ] Skip this iteration for THRUSPECIES things
// Should there be MF2_THRUGHOST / MF3_GHOST checks there too for consistency?
// Or would that risk breaking established behavior? THRUGHOST, like MTHRUSPECIES,
// is normally for projectiles which would have exploded by now anyway...
if ( thing - > flags6 & MF6_THRUSPECIES & & thing - > GetSpecies ( ) = = intersect - > GetSpecies ( ) )
continue ;
if ( ( thing - > flags & MF_MISSILE ) & & ( intersect - > flags2 & MF2_REFLECTIVE ) & & ( intersect - > flags7 & MF7_THRUREFLECT ) )
continue ;
if ( ! ( intersect - > flags2 & MF2_PASSMOBJ ) | |
( ! ( intersect - > flags3 & MF3_ISMONSTER ) & & intersect - > Mass > mymass ) | |
( intersect - > flags4 & MF4_ACTLIKEBRIDGE )
)
{
// Can't push bridges or things more massive than ourself
return 2 ;
}
fixed_t oldz ;
oldz = intersect - > Z ( ) ;
P_AdjustFloorCeil ( intersect , cpos ) ;
intersect - > SetZ ( thing - > Top ( ) + 1 ) ;
if ( P_PushUp ( intersect , cpos ) )
{ // Move blocked
P_DoCrunch ( intersect , cpos ) ;
intersect - > SetZ ( oldz ) ;
return 2 ;
}
}
2016-03-06 23:17:52 +00:00
thing - > CheckPortalTransition ( true ) ;
2016-03-01 15:47:10 +00:00
return 0 ;
}
//=============================================================================
//
// P_PushDown
//
// Returns 0 if thing fits, 1 if floor got in the way, or 2 if something
// below it didn't fit.
//=============================================================================
int P_PushDown ( AActor * thing , FChangePosition * cpos )
{
unsigned int firstintersect = intersectors . Size ( ) ;
unsigned int lastintersect ;
int mymass = thing - > Mass ;
if ( thing - > Z ( ) < = thing - > floorz )
{
return 1 ;
}
P_FindBelowIntersectors ( thing ) ;
lastintersect = intersectors . Size ( ) ;
for ( ; firstintersect < lastintersect ; firstintersect + + )
{
AActor * intersect = intersectors [ firstintersect ] ;
if ( ! ( intersect - > flags2 & MF2_PASSMOBJ ) | |
( ! ( intersect - > flags3 & MF3_ISMONSTER ) & & intersect - > Mass > mymass ) | |
( intersect - > flags4 & MF4_ACTLIKEBRIDGE )
)
{
// Can't push bridges or things more massive than ourself
return 2 ;
}
fixed_t oldz = intersect - > Z ( ) ;
P_AdjustFloorCeil ( intersect , cpos ) ;
if ( oldz > thing - > Z ( ) - intersect - > height )
{ // Only push things down, not up.
intersect - > SetZ ( thing - > Z ( ) - intersect - > height ) ;
if ( P_PushDown ( intersect , cpos ) )
{ // Move blocked
P_DoCrunch ( intersect , cpos ) ;
intersect - > SetZ ( oldz ) ;
return 2 ;
}
}
}
2016-03-06 23:17:52 +00:00
thing - > CheckPortalTransition ( true ) ;
2016-03-01 15:47:10 +00:00
return 0 ;
}
//=============================================================================
//
// PIT_FloorDrop
//
//=============================================================================
void PIT_FloorDrop ( AActor * thing , FChangePosition * cpos )
{
fixed_t oldfloorz = thing - > floorz ;
fixed_t oldz = thing - > Z ( ) ;
P_AdjustFloorCeil ( thing , cpos ) ;
if ( oldfloorz = = thing - > floorz ) return ;
if ( thing - > flags4 & MF4_ACTLIKEBRIDGE ) return ; // do not move bridge things
if ( thing - > velz = = 0 & &
( ! ( thing - > flags & MF_NOGRAVITY ) | |
( thing - > Z ( ) = = oldfloorz & & ! ( thing - > flags & MF_NOLIFTDROP ) ) ) )
{
fixed_t oldz = thing - > Z ( ) ;
if ( ( thing - > flags & MF_NOGRAVITY ) | | ( thing - > flags5 & MF5_MOVEWITHSECTOR ) | |
( ( ( cpos - > sector - > Flags & SECF_FLOORDROP ) | | cpos - > moveamt < 9 * FRACUNIT )
& & thing - > Z ( ) - thing - > floorz < = cpos - > moveamt ) )
{
thing - > SetZ ( thing - > floorz ) ;
P_CheckFakeFloorTriggers ( thing , oldz ) ;
}
}
else if ( ( thing - > Z ( ) ! = oldfloorz & & ! ( thing - > flags & MF_NOLIFTDROP ) ) )
{
fixed_t oldz = thing - > Z ( ) ;
if ( ( thing - > flags & MF_NOGRAVITY ) & & ( thing - > flags6 & MF6_RELATIVETOFLOOR ) )
{
thing - > AddZ ( - oldfloorz + thing - > floorz ) ;
P_CheckFakeFloorTriggers ( thing , oldz ) ;
}
}
if ( thing - > player & & thing - > player - > mo = = thing )
{
//thing->player->viewz += thing->Z() - oldz;
}
}
//=============================================================================
//
// PIT_FloorRaise
//
//=============================================================================
void PIT_FloorRaise ( AActor * thing , FChangePosition * cpos )
{
fixed_t oldfloorz = thing - > floorz ;
fixed_t oldz = thing - > Z ( ) ;
P_AdjustFloorCeil ( thing , cpos ) ;
if ( oldfloorz = = thing - > floorz ) return ;
// Move things intersecting the floor up
if ( thing - > Z ( ) < = thing - > floorz )
{
if ( thing - > flags4 & MF4_ACTLIKEBRIDGE )
{
cpos - > nofit = true ;
return ; // do not move bridge things
}
intersectors . Clear ( ) ;
thing - > SetZ ( thing - > floorz ) ;
}
else
{
if ( ( thing - > flags & MF_NOGRAVITY ) & & ( thing - > flags6 & MF6_RELATIVETOFLOOR ) )
{
intersectors . Clear ( ) ;
thing - > AddZ ( - oldfloorz + thing - > floorz ) ;
}
else return ;
}
switch ( P_PushUp ( thing , cpos ) )
{
default :
P_CheckFakeFloorTriggers ( thing , oldz ) ;
break ;
case 1 :
P_DoCrunch ( thing , cpos ) ;
P_CheckFakeFloorTriggers ( thing , oldz ) ;
break ;
case 2 :
P_DoCrunch ( thing , cpos ) ;
thing - > SetZ ( oldz ) ;
break ;
}
if ( thing - > player & & thing - > player - > mo = = thing )
{
thing - > player - > viewz + = thing - > Z ( ) - oldz ;
}
}
//=============================================================================
//
// PIT_CeilingLower
//
//=============================================================================
void PIT_CeilingLower ( AActor * thing , FChangePosition * cpos )
{
bool onfloor ;
fixed_t oldz = thing - > Z ( ) ;
onfloor = thing - > Z ( ) < = thing - > floorz ;
P_AdjustFloorCeil ( thing , cpos ) ;
if ( thing - > Top ( ) > thing - > ceilingz )
{
if ( thing - > flags4 & MF4_ACTLIKEBRIDGE )
{
cpos - > nofit = true ;
return ; // do not move bridge things
}
intersectors . Clear ( ) ;
fixed_t oldz = thing - > Z ( ) ;
if ( thing - > ceilingz - thing - > height > = thing - > floorz )
{
thing - > SetZ ( thing - > ceilingz - thing - > height ) ;
}
else
{
thing - > SetZ ( thing - > floorz ) ;
}
switch ( P_PushDown ( thing , cpos ) )
{
case 2 :
// intentional fall-through
case 1 :
if ( onfloor )
thing - > SetZ ( thing - > floorz ) ;
P_DoCrunch ( thing , cpos ) ;
P_CheckFakeFloorTriggers ( thing , oldz ) ;
break ;
default :
P_CheckFakeFloorTriggers ( thing , oldz ) ;
break ;
}
}
if ( thing - > player & & thing - > player - > mo = = thing )
{
thing - > player - > viewz + = thing - > Z ( ) - oldz ;
}
}
//=============================================================================
//
// PIT_CeilingRaise
//
//=============================================================================
void PIT_CeilingRaise ( AActor * thing , FChangePosition * cpos )
{
bool isgood = P_AdjustFloorCeil ( thing , cpos ) ;
fixed_t oldz = thing - > Z ( ) ;
if ( thing - > flags4 & MF4_ACTLIKEBRIDGE ) return ; // do not move bridge things
// For DOOM compatibility, only move things that are inside the floor.
// (or something else?) Things marked as hanging from the ceiling will
// stay where they are.
if ( thing - > Z ( ) < thing - > floorz & &
thing - > Top ( ) > = thing - > ceilingz - cpos - > moveamt & &
! ( thing - > flags & MF_NOLIFTDROP ) )
{
fixed_t oldz = thing - > Z ( ) ;
thing - > SetZ ( thing - > floorz ) ;
if ( thing - > Top ( ) > thing - > ceilingz )
{
thing - > SetZ ( thing - > ceilingz - thing - > height ) ;
}
P_CheckFakeFloorTriggers ( thing , oldz ) ;
}
else if ( ( thing - > flags2 & MF2_PASSMOBJ ) & & ! isgood & & thing - > Top ( ) < thing - > ceilingz )
{
AActor * onmobj ;
if ( ! P_TestMobjZ ( thing , true , & onmobj ) & & onmobj - > Z ( ) < = thing - > Z ( ) )
{
thing - > SetZ ( MIN ( thing - > ceilingz - thing - > height , onmobj - > Top ( ) ) ) ;
}
}
if ( thing - > player & & thing - > player - > mo = = thing )
{
thing - > player - > viewz + = thing - > Z ( ) - oldz ;
}
}
//=============================================================================
//
// P_ChangeSector [RH] Was P_CheckSector in BOOM
//
// jff 3/19/98 added to just check monsters on the periphery
// of a moving sector instead of all in bounding box of the
// sector. Both more accurate and faster.
//
//=============================================================================
bool P_ChangeSector ( sector_t * sector , int crunch , int amt , int floorOrCeil , bool isreset )
{
FChangePosition cpos ;
void ( * iterator ) ( AActor * , FChangePosition * ) ;
void ( * iterator2 ) ( AActor * , FChangePosition * ) = NULL ;
msecnode_t * n ;
cpos . nofit = false ;
cpos . crushchange = crunch ;
cpos . moveamt = abs ( amt ) ;
cpos . movemidtex = false ;
cpos . sector = sector ;
// Also process all sectors that have 3D floors transferred from the
// changed sector.
if ( sector - > e - > XFloor . attached . Size ( ) & & floorOrCeil ! = 2 )
{
unsigned i ;
sector_t * sec ;
// Use different functions for the four different types of sector movement.
// for 3D-floors the meaning of floor and ceiling is inverted!!!
if ( floorOrCeil = = 1 )
{
iterator = ( amt > = 0 ) ? PIT_FloorRaise : PIT_FloorDrop ;
}
else
{
iterator = ( amt > = 0 ) ? PIT_CeilingRaise : PIT_CeilingLower ;
}
for ( i = 0 ; i < sector - > e - > XFloor . attached . Size ( ) ; i + + )
{
sec = sector - > e - > XFloor . attached [ i ] ;
P_Recalculate3DFloors ( sec ) ; // Must recalculate the 3d floor and light lists
// no thing checks for attached sectors because of heightsec
if ( sec - > heightsec = = sector ) continue ;
for ( n = sec - > touching_thinglist ; n ; n = n - > m_snext ) n - > visited = false ;
do
{
for ( n = sec - > touching_thinglist ; n ; n = n - > m_snext )
{
if ( ! n - > visited )
{
n - > visited = true ;
if ( ! ( n - > m_thing - > flags & MF_NOBLOCKMAP ) | | //jff 4/7/98 don't do these
( n - > m_thing - > flags5 & MF5_MOVEWITHSECTOR ) )
{
iterator ( n - > m_thing , & cpos ) ;
}
break ;
}
}
} while ( n ) ;
sec - > CheckPortalPlane ( ! floorOrCeil ) ;
}
}
P_Recalculate3DFloors ( sector ) ; // Must recalculate the 3d floor and light lists
// [RH] Use different functions for the four different types of sector
// movement.
switch ( floorOrCeil )
{
case 0 :
// floor
iterator = ( amt < 0 ) ? PIT_FloorDrop : PIT_FloorRaise ;
break ;
case 1 :
// ceiling
iterator = ( amt < 0 ) ? PIT_CeilingLower : PIT_CeilingRaise ;
break ;
case 2 :
// 3dmidtex
// This must check both floor and ceiling
iterator = ( amt < 0 ) ? PIT_FloorDrop : PIT_FloorRaise ;
iterator2 = ( amt < 0 ) ? PIT_CeilingLower : PIT_CeilingRaise ;
cpos . movemidtex = true ;
break ;
default :
// invalid
assert ( floorOrCeil > 0 & & floorOrCeil < 2 ) ;
return false ;
}
// killough 4/4/98: scan list front-to-back until empty or exhausted,
// restarting from beginning after each thing is processed. Avoids
// crashes, and is sure to examine all things in the sector, and only
// the things which are in the sector, until a steady-state is reached.
// Things can arbitrarily be inserted and removed and it won't mess up.
//
// killough 4/7/98: simplified to avoid using complicated counter
// Mark all things invalid
for ( n = sector - > touching_thinglist ; n ; n = n - > m_snext )
n - > visited = false ;
do
{
for ( n = sector - > touching_thinglist ; n ; n = n - > m_snext ) // go through list
{
if ( ! n - > visited ) // unprocessed thing found
{
n - > visited = true ; // mark thing as processed
if ( ! ( n - > m_thing - > flags & MF_NOBLOCKMAP ) | | //jff 4/7/98 don't do these
( n - > m_thing - > flags5 & MF5_MOVEWITHSECTOR ) )
{
iterator ( n - > m_thing , & cpos ) ; // process it
if ( iterator2 ! = NULL ) iterator2 ( n - > m_thing , & cpos ) ;
}
break ; // exit and start over
}
}
} while ( n ) ; // repeat from scratch until all things left are marked valid
if ( floorOrCeil ! = 2 ) sector - > CheckPortalPlane ( floorOrCeil ) ; // check for portal obstructions after everything is done.
if ( ! cpos . nofit & & ! isreset /* && sector->MoreFlags & (SECF_UNDERWATERMASK)*/ )
{
// If this is a control sector for a deep water transfer, all actors in affected
// sectors need to have their waterlevel information updated and if applicable,
// execute appropriate sector actions.
// Only check if the sector move was successful.
TArray < sector_t * > & secs = sector - > e - > FakeFloor . Sectors ;
for ( unsigned i = 0 ; i < secs . Size ( ) ; i + + )
{
sector_t * s = secs [ i ] ;
for ( n = s - > touching_thinglist ; n ; n = n - > m_snext )
n - > visited = false ;
do
{
for ( n = s - > touching_thinglist ; n ; n = n - > m_snext ) // go through list
{
if ( ! n - > visited & & n - > m_thing - > Sector = = s ) // unprocessed thing found
{
n - > visited = true ; // mark thing as processed
n - > m_thing - > UpdateWaterLevel ( n - > m_thing - > Z ( ) , false ) ;
P_CheckFakeFloorTriggers ( n - > m_thing , n - > m_thing - > Z ( ) - amt ) ;
}
}
} while ( n ) ; // repeat from scratch until all things left are marked valid
}
}
return cpos . nofit ;
}
//=============================================================================
// phares 3/21/98
//
// Maintain a freelist of msecnode_t's to reduce memory allocs and frees.
//=============================================================================
msecnode_t * headsecnode = NULL ;
//=============================================================================
//
// P_GetSecnode
//
// Retrieve a node from the freelist. The calling routine
// should make sure it sets all fields properly.
//
//=============================================================================
msecnode_t * P_GetSecnode ( )
{
msecnode_t * node ;
if ( headsecnode )
{
node = headsecnode ;
headsecnode = headsecnode - > m_snext ;
}
else
{
node = ( msecnode_t * ) M_Malloc ( sizeof ( * node ) ) ;
}
return node ;
}
//=============================================================================
//
// P_PutSecnode
//
// Returns a node to the freelist.
//
//=============================================================================
void P_PutSecnode ( msecnode_t * node )
{
node - > m_snext = headsecnode ;
headsecnode = node ;
}
//=============================================================================
// phares 3/16/98
//
// P_AddSecnode
//
// Searches the current list to see if this sector is
// already there. If not, it adds a sector node at the head of the list of
// sectors this object appears in. This is called when creating a list of
// nodes that will get linked in later. Returns a pointer to the new node.
//
//=============================================================================
msecnode_t * P_AddSecnode ( sector_t * s , AActor * thing , msecnode_t * nextnode )
{
msecnode_t * node ;
if ( s = = 0 )
{
I_FatalError ( " AddSecnode of 0 for %s \n " , thing - > GetClass ( ) - > TypeName . GetChars ( ) ) ;
}
node = nextnode ;
while ( node )
{
if ( node - > m_sector = = s ) // Already have a node for this sector?
{
node - > m_thing = thing ; // Yes. Setting m_thing says 'keep it'.
return nextnode ;
}
node = node - > m_tnext ;
}
// Couldn't find an existing node for this sector. Add one at the head
// of the list.
node = P_GetSecnode ( ) ;
// killough 4/4/98, 4/7/98: mark new nodes unvisited.
node - > visited = 0 ;
node - > m_sector = s ; // sector
node - > m_thing = thing ; // mobj
node - > m_tprev = NULL ; // prev node on Thing thread
node - > m_tnext = nextnode ; // next node on Thing thread
if ( nextnode )
nextnode - > m_tprev = node ; // set back link on Thing
// Add new node at head of sector thread starting at s->touching_thinglist
node - > m_sprev = NULL ; // prev node on sector thread
node - > m_snext = s - > touching_thinglist ; // next node on sector thread
if ( s - > touching_thinglist )
node - > m_snext - > m_sprev = node ;
s - > touching_thinglist = node ;
return node ;
}
//=============================================================================
//
// P_DelSecnode
//
// Deletes a sector node from the list of
// sectors this object appears in. Returns a pointer to the next node
// on the linked list, or NULL.
//
//=============================================================================
msecnode_t * P_DelSecnode ( msecnode_t * node )
{
msecnode_t * tp ; // prev node on thing thread
msecnode_t * tn ; // next node on thing thread
msecnode_t * sp ; // prev node on sector thread
msecnode_t * sn ; // next node on sector thread
if ( node )
{
// Unlink from the Thing thread. The Thing thread begins at
// sector_list and not from AActor->touching_sectorlist.
tp = node - > m_tprev ;
tn = node - > m_tnext ;
if ( tp )
tp - > m_tnext = tn ;
if ( tn )
tn - > m_tprev = tp ;
// Unlink from the sector thread. This thread begins at
// sector_t->touching_thinglist.
sp = node - > m_sprev ;
sn = node - > m_snext ;
if ( sp )
sp - > m_snext = sn ;
else
node - > m_sector - > touching_thinglist = sn ;
if ( sn )
sn - > m_sprev = sp ;
// Return this node to the freelist
P_PutSecnode ( node ) ;
return tn ;
}
return NULL ;
} // phares 3/13/98
//=============================================================================
//
// P_DelSector_List
//
// Deletes the sector_list and NULLs it.
//
//=============================================================================
void P_DelSector_List ( )
{
if ( sector_list ! = NULL )
{
P_DelSeclist ( sector_list ) ;
sector_list = NULL ;
}
}
//=============================================================================
//
// P_DelSeclist
//
// Delete an entire sector list
//
//=============================================================================
void P_DelSeclist ( msecnode_t * node )
{
while ( node )
node = P_DelSecnode ( node ) ;
}
//=============================================================================
// phares 3/14/98
//
// P_CreateSecNodeList
//
// Alters/creates the sector_list that shows what sectors the object resides in
//
//=============================================================================
void P_CreateSecNodeList ( AActor * thing , fixed_t x , fixed_t y )
{
msecnode_t * node ;
// First, clear out the existing m_thing fields. As each node is
// added or verified as needed, m_thing will be set properly. When
// finished, delete all nodes where m_thing is still NULL. These
// represent the sectors the Thing has vacated.
node = sector_list ;
while ( node )
{
node - > m_thing = NULL ;
node = node - > m_tnext ;
}
FBoundingBox box ( thing - > X ( ) , thing - > Y ( ) , thing - > radius ) ;
FBlockLinesIterator it ( box ) ;
line_t * ld ;
while ( ( ld = it . Next ( ) ) )
{
if ( box . Right ( ) < = ld - > bbox [ BOXLEFT ] | |
box . Left ( ) > = ld - > bbox [ BOXRIGHT ] | |
box . Top ( ) < = ld - > bbox [ BOXBOTTOM ] | |
box . Bottom ( ) > = ld - > bbox [ BOXTOP ] )
continue ;
if ( box . BoxOnLineSide ( ld ) ! = - 1 )
continue ;
// This line crosses through the object.
// Collect the sector(s) from the line and add to the
// sector_list you're examining. If the Thing ends up being
// allowed to move to this position, then the sector_list
// will be attached to the Thing's AActor at touching_sectorlist.
sector_list = P_AddSecnode ( ld - > frontsector , thing , sector_list ) ;
// Don't assume all lines are 2-sided, since some Things
// like MT_TFOG are allowed regardless of whether their radius takes
// them beyond an impassable linedef.
// killough 3/27/98, 4/4/98:
// Use sidedefs instead of 2s flag to determine two-sidedness.
if ( ld - > backsector )
sector_list = P_AddSecnode ( ld - > backsector , thing , sector_list ) ;
}
// Add the sector of the (x,y) point to sector_list.
sector_list = P_AddSecnode ( thing - > Sector , thing , sector_list ) ;
// Now delete any nodes that won't be used. These are the ones where
// m_thing is still NULL.
node = sector_list ;
while ( node )
{
if ( node - > m_thing = = NULL )
{
if ( node = = sector_list )
sector_list = node - > m_tnext ;
node = P_DelSecnode ( node ) ;
}
else
{
node = node - > m_tnext ;
}
}
}
//==========================================================================
//
//
//
//==========================================================================
void SpawnShootDecal ( AActor * t1 , const FTraceResults & trace )
{
FDecalBase * decalbase = NULL ;
if ( t1 - > player ! = NULL & & t1 - > player - > ReadyWeapon ! = NULL )
{
decalbase = t1 - > player - > ReadyWeapon - > GetDefault ( ) - > DecalGenerator ;
}
else
{
decalbase = t1 - > DecalGenerator ;
}
if ( decalbase ! = NULL )
{
DImpactDecal : : StaticCreate ( decalbase - > GetDecal ( ) ,
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trace . HitPos , trace . Line - > sidedef [ trace . Side ] , trace . ffloor ) ;
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}
}
//==========================================================================
//
//
//
//==========================================================================
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static void SpawnDeepSplash ( AActor * t1 , const FTraceResults & trace , AActor * puff )
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{
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const fixedvec3 * hitpos ;
if ( trace . Crossed3DWater )
{
hitpos = & trace . Crossed3DWaterPos ;
}
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else if ( trace . CrossedWater & & trace . CrossedWater - > heightsec )
{
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hitpos = & trace . CrossedWaterPos ;
2016-03-01 15:47:10 +00:00
}
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else return ;
P_HitWater ( puff ! = NULL ? puff : t1 , P_PointInSector ( hitpos - > x , hitpos - > y ) , * hitpos ) ;
2016-03-01 15:47:10 +00:00
}
//=============================================================================
//
// P_ActivateThingSpecial
//
// Handles the code for things activated by death, USESPECIAL or BUMPSPECIAL
//
//=============================================================================
bool P_ActivateThingSpecial ( AActor * thing , AActor * trigger , bool death )
{
bool res = false ;
// Target switching mechanism
if ( thing - > activationtype & THINGSPEC_ThingTargets ) thing - > target = trigger ;
if ( thing - > activationtype & THINGSPEC_TriggerTargets ) trigger - > target = thing ;
// State change mechanism. The thing needs to be not dead and to have at least one of the relevant flags
if ( ! death & & ( thing - > activationtype & ( THINGSPEC_Activate | THINGSPEC_Deactivate | THINGSPEC_Switch ) ) )
{
// If a switchable thing does not know whether it should be activated
// or deactivated, the default is to activate it.
if ( ( thing - > activationtype & THINGSPEC_Switch )
& & ! ( thing - > activationtype & ( THINGSPEC_Activate | THINGSPEC_Deactivate ) ) )
{
thing - > activationtype | = THINGSPEC_Activate ;
}
// Can it be activated?
if ( thing - > activationtype & THINGSPEC_Activate )
{
thing - > activationtype & = ~ THINGSPEC_Activate ; // Clear flag
if ( thing - > activationtype & THINGSPEC_Switch ) // Set other flag if switching
thing - > activationtype | = THINGSPEC_Deactivate ;
thing - > Activate ( trigger ) ;
res = true ;
}
// If not, can it be deactivated?
else if ( thing - > activationtype & THINGSPEC_Deactivate )
{
thing - > activationtype & = ~ THINGSPEC_Deactivate ; // Clear flag
if ( thing - > activationtype & THINGSPEC_Switch ) // Set other flag if switching
thing - > activationtype | = THINGSPEC_Activate ;
thing - > Deactivate ( trigger ) ;
res = true ;
}
}
// Run the special, if any
if ( thing - > special )
{
res = ! ! P_ExecuteSpecial ( thing - > special , NULL ,
// TriggerActs overrides the level flag, which only concerns thing activated by death
( ( ( death & & level . flags & LEVEL_ACTOWNSPECIAL & & ! ( thing - > activationtype & THINGSPEC_TriggerActs ) )
| | ( thing - > activationtype & THINGSPEC_ThingActs ) ) // Who triggers?
? thing : trigger ) ,
false , thing - > args [ 0 ] , thing - > args [ 1 ] , thing - > args [ 2 ] , thing - > args [ 3 ] , thing - > args [ 4 ] ) ;
// Clears the special if it was run on thing's death or if flag is set.
if ( death | | ( thing - > activationtype & THINGSPEC_ClearSpecial & & res ) ) thing - > special = 0 ;
}
// Returns the result
return res ;
}