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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.
//
// DESCRIPTION: none
// Implements special effects:
// Texture animation, height or lighting changes
// according to adjacent sectors, respective
// utility functions, etc.
//
//-----------------------------------------------------------------------------
# ifndef __P_SPEC__
# define __P_SPEC__
# include "dsectoreffect.h"
# include "doomdata.h"
# include "r_state.h"
class FScanner ;
struct level_info_t ;
//jff 2/23/98 identify the special classes that can share sectors
typedef enum
{
floor_special ,
ceiling_special ,
lighting_special ,
} special_e ;
// killough 3/7/98: Add generalized scroll effects
class DScroller : public DThinker
{
DECLARE_CLASS ( DScroller , DThinker )
HAS_OBJECT_POINTERS
public :
enum EScrollType
{
sc_side ,
sc_floor ,
sc_ceiling ,
sc_carry ,
sc_carry_ceiling , // killough 4/11/98: carry objects hanging on ceilings
} ;
enum EScrollPos
{
scw_top = 1 ,
scw_mid = 2 ,
scw_bottom = 4 ,
scw_all = 7 ,
} ;
DScroller ( EScrollType type , fixed_t dx , fixed_t dy , int control , int affectee , int accel , int scrollpos = scw_all ) ;
DScroller ( fixed_t dx , fixed_t dy , const line_t * l , int control , int accel , int scrollpos = scw_all ) ;
void Destroy ( ) ;
void Serialize ( FArchive & arc ) ;
void Tick ( ) ;
bool AffectsWall ( int wallnum ) const { return m_Type = = sc_side & & m_Affectee = = wallnum ; }
int GetWallNum ( ) const { return m_Type = = sc_side ? m_Affectee : - 1 ; }
void SetRate ( fixed_t dx , fixed_t dy ) { m_dx = dx ; m_dy = dy ; }
bool IsType ( EScrollType type ) const { return type = = m_Type ; }
int GetAffectee ( ) const { return m_Affectee ; }
int GetScrollParts ( ) const { return m_Parts ; }
protected :
EScrollType m_Type ; // Type of scroll effect
fixed_t m_dx , m_dy ; // (dx,dy) scroll speeds
int m_Affectee ; // Number of affected sidedef, sector, tag, or whatever
int m_Control ; // Control sector (-1 if none) used to control scrolling
fixed_t m_LastHeight ; // Last known height of control sector
fixed_t m_vdx , m_vdy ; // Accumulated velocity if accelerative
int m_Accel ; // Whether it's accelerative
int m_Parts ; // Which parts of a sidedef are being scrolled?
TObjPtr < DInterpolation > m_Interpolations [ 3 ] ;
private :
DScroller ( ) ;
} ;
// Factor to scale scrolling effect into mobj-carrying properties = 3/32.
// (This is so scrolling floors and objects on them can move at same speed.)
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enum { _f_CARRYFACTOR = ( 3 * FRACUNIT > > 5 ) } ;
const double CARRYFACTOR = 3 / 32. ;
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// phares 3/20/98: added new model of Pushers for push/pull effects
class DPusher : public DThinker
{
DECLARE_CLASS ( DPusher , DThinker )
HAS_OBJECT_POINTERS
public :
enum EPusher
{
p_push ,
p_pull ,
p_wind ,
p_current
} ;
DPusher ( ) ;
DPusher ( EPusher type , line_t * l , int magnitude , int angle , AActor * source , int affectee ) ;
void Serialize ( FArchive & arc ) ;
int CheckForSectorMatch ( EPusher type , int tag ) ;
void ChangeValues ( int magnitude , int angle )
{
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DAngle ang = angle * ( 360. / 256. ) ;
m_PushVec = ang . ToVector ( magnitude ) ;
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m_Magnitude = magnitude ;
}
void Tick ( ) ;
protected :
EPusher m_Type ;
TObjPtr < AActor > m_Source ; // Point source if point pusher
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DVector2 m_PushVec ;
double m_Magnitude ; // Vector strength for point pusher
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double m_Radius ; // Effective radius for point pusher
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int m_Affectee ; // Number of affected sector
friend bool PIT_PushThing ( AActor * thing ) ;
} ;
bool PIT_PushThing ( AActor * thing ) ;
// Define values for map objects
# define MO_TELEPORTMAN 14
// Flags for P_SectorDamage
# define DAMAGE_PLAYERS 1
# define DAMAGE_NONPLAYERS 2
# define DAMAGE_IN_AIR 4
# define DAMAGE_SUBCLASSES_PROTECT 8
// [RH] If a deathmatch game, checks to see if noexit is enabled.
// If so, it kills the player and returns false. Otherwise,
// it returns true, and the player is allowed to live.
bool CheckIfExitIsGood ( AActor * self , level_info_t * info ) ;
// at map load
void P_InitSectorSpecial ( sector_t * sector , int special , bool nothinkers ) ;
void P_SpawnSpecials ( void ) ;
// every tic
void P_UpdateSpecials ( void ) ;
// when needed
bool P_ActivateLine ( line_t * ld , AActor * mo , int side , int activationType , fixedvec3 * optpos = NULL ) ;
bool P_TestActivateLine ( line_t * ld , AActor * mo , int side , int activationType , fixedvec3 * optpos = NULL ) ;
bool P_PredictLine ( line_t * ld , AActor * mo , int side , int activationType ) ;
void P_PlayerInSpecialSector ( player_t * player , sector_t * sector = NULL ) ;
void P_PlayerOnSpecialFlat ( player_t * player , int floorType ) ;
void P_SectorDamage ( int tag , int amount , FName type , PClassActor * protectClass , int flags ) ;
void P_SetSectorFriction ( int tag , int amount , bool alterFlag ) ;
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double FrictionToMoveFactor ( double friction ) ;
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void P_GiveSecret ( AActor * actor , bool printmessage , bool playsound , int sectornum ) ;
//
// getSide()
// Will return a side_t*
// given the number of the current sector,
// the line number, and the side (0/1) that you want.
//
inline side_t * getSide ( int currentSector , int line , int side )
{
return ( sectors [ currentSector ] . lines [ line ] ) - > sidedef [ side ] ;
}
//
// getSector()
// Will return a sector_t*
// given the number of the current sector,
// the line number and the side (0/1) that you want.
//
inline sector_t * getSector ( int currentSector , int line , int side )
{
return ( sectors [ currentSector ] . lines [ line ] ) - > sidedef [ side ] - > sector ;
}
//
// twoSided()
// Given the sector number and the line number,
// it will tell you whether the line is two-sided or not.
//
inline int twoSided ( int sector , int line )
{
return ( sectors [ sector ] . lines [ line ] ) - > flags & ML_TWOSIDED ;
}
//
// getNextSector()
// Return sector_t * of sector next to current.
// NULL if not two-sided line
//
inline sector_t * getNextSector ( line_t * line , const sector_t * sec )
{
if ( ! ( line - > flags & ML_TWOSIDED ) )
return NULL ;
return line - > frontsector = = sec ?
( line - > backsector ! = sec ? line - > backsector : NULL ) :
line - > frontsector ;
}
# include "p_tags.h"
//
// P_LIGHTS
//
class DLighting : public DSectorEffect
{
DECLARE_CLASS ( DLighting , DSectorEffect )
public :
DLighting ( sector_t * sector ) ;
protected :
DLighting ( ) ;
} ;
class DFireFlicker : public DLighting
{
DECLARE_CLASS ( DFireFlicker , DLighting )
public :
DFireFlicker ( sector_t * sector ) ;
DFireFlicker ( sector_t * sector , int upper , int lower ) ;
void Serialize ( FArchive & arc ) ;
void Tick ( ) ;
protected :
int m_Count ;
int m_MaxLight ;
int m_MinLight ;
private :
DFireFlicker ( ) ;
} ;
class DFlicker : public DLighting
{
DECLARE_CLASS ( DFlicker , DLighting )
public :
DFlicker ( sector_t * sector , int upper , int lower ) ;
void Serialize ( FArchive & arc ) ;
void Tick ( ) ;
protected :
int m_Count ;
int m_MaxLight ;
int m_MinLight ;
private :
DFlicker ( ) ;
} ;
class DLightFlash : public DLighting
{
DECLARE_CLASS ( DLightFlash , DLighting )
public :
DLightFlash ( sector_t * sector ) ;
DLightFlash ( sector_t * sector , int min , int max ) ;
void Serialize ( FArchive & arc ) ;
void Tick ( ) ;
protected :
int m_Count ;
int m_MaxLight ;
int m_MinLight ;
int m_MaxTime ;
int m_MinTime ;
private :
DLightFlash ( ) ;
} ;
class DStrobe : public DLighting
{
DECLARE_CLASS ( DStrobe , DLighting )
public :
DStrobe ( sector_t * sector , int utics , int ltics , bool inSync ) ;
DStrobe ( sector_t * sector , int upper , int lower , int utics , int ltics ) ;
void Serialize ( FArchive & arc ) ;
void Tick ( ) ;
protected :
int m_Count ;
int m_MinLight ;
int m_MaxLight ;
int m_DarkTime ;
int m_BrightTime ;
private :
DStrobe ( ) ;
} ;
class DGlow : public DLighting
{
DECLARE_CLASS ( DGlow , DLighting )
public :
DGlow ( sector_t * sector ) ;
void Serialize ( FArchive & arc ) ;
void Tick ( ) ;
protected :
int m_MinLight ;
int m_MaxLight ;
int m_Direction ;
private :
DGlow ( ) ;
} ;
// [RH] Glow from Light_Glow and Light_Fade specials
class DGlow2 : public DLighting
{
DECLARE_CLASS ( DGlow2 , DLighting )
public :
DGlow2 ( sector_t * sector , int start , int end , int tics , bool oneshot ) ;
void Serialize ( FArchive & arc ) ;
void Tick ( ) ;
protected :
int m_Start ;
int m_End ;
int m_MaxTics ;
int m_Tics ;
bool m_OneShot ;
private :
DGlow2 ( ) ;
} ;
// [RH] Phased light thinker
class DPhased : public DLighting
{
DECLARE_CLASS ( DPhased , DLighting )
public :
DPhased ( sector_t * sector ) ;
DPhased ( sector_t * sector , int baselevel , int phase ) ;
void Serialize ( FArchive & arc ) ;
void Tick ( ) ;
protected :
BYTE m_BaseLevel ;
BYTE m_Phase ;
private :
DPhased ( ) ;
DPhased ( sector_t * sector , int baselevel ) ;
int PhaseHelper ( sector_t * sector , int index , int light , sector_t * prev ) ;
} ;
# define GLOWSPEED 8
# define STROBEBRIGHT 5
# define FASTDARK 15
# define SLOWDARK TICRATE
void EV_StartLightFlickering ( int tag , int upper , int lower ) ;
void EV_StartLightStrobing ( int tag , int upper , int lower , int utics , int ltics ) ;
void EV_StartLightStrobing ( int tag , int utics , int ltics ) ;
void EV_TurnTagLightsOff ( int tag ) ;
void EV_LightTurnOn ( int tag , int bright ) ;
void EV_LightTurnOnPartway ( int tag , fixed_t frac ) ; // killough 10/98
void EV_LightChange ( int tag , int value ) ;
void EV_StopLightEffect ( int tag ) ;
void P_SpawnGlowingLight ( sector_t * sector ) ;
void EV_StartLightGlowing ( int tag , int upper , int lower , int tics ) ;
void EV_StartLightFading ( int tag , int value , int tics ) ;
//
// P_SWITCH
//
# define BUTTONTIME TICRATE // 1 second, in ticks.
bool P_ChangeSwitchTexture ( side_t * side , int useAgain , BYTE special , bool * quest = NULL ) ;
bool P_CheckSwitchRange ( AActor * user , line_t * line , int sideno , fixedvec3 * optpos = NULL ) ;
//
// P_PLATS
//
class DPlat : public DMovingFloor
{
DECLARE_CLASS ( DPlat , DMovingFloor )
public :
enum EPlatState
{
up ,
down ,
waiting ,
in_stasis
} ;
enum EPlatType
{
platPerpetualRaise ,
platDownWaitUpStay ,
platDownWaitUpStayStone ,
platUpWaitDownStay ,
platUpNearestWaitDownStay ,
platDownByValue ,
platUpByValue ,
platUpByValueStay ,
platRaiseAndStay ,
platToggle ,
platDownToNearestFloor ,
platDownToLowestCeiling ,
platRaiseAndStayLockout ,
} ;
void Serialize ( FArchive & arc ) ;
void Tick ( ) ;
bool IsLift ( ) const { return m_Type = = platDownWaitUpStay | | m_Type = = platDownWaitUpStayStone ; }
protected :
DPlat ( sector_t * sector ) ;
fixed_t m_Speed ;
fixed_t m_Low ;
fixed_t m_High ;
int m_Wait ;
int m_Count ;
EPlatState m_Status ;
EPlatState m_OldStatus ;
int m_Crush ;
int m_Tag ;
EPlatType m_Type ;
void PlayPlatSound ( const char * sound ) ;
void Reactivate ( ) ;
void Stop ( ) ;
private :
DPlat ( ) ;
friend bool EV_DoPlat ( int tag , line_t * line , EPlatType type ,
int height , int speed , int delay , int lip , int change ) ;
friend void EV_StopPlat ( int tag ) ;
friend void P_ActivateInStasis ( int tag ) ;
} ;
bool EV_DoPlat ( int tag , line_t * line , DPlat : : EPlatType type ,
int height , int speed , int delay , int lip , int change ) ;
void EV_StopPlat ( int tag ) ;
void P_ActivateInStasis ( int tag ) ;
//
// [RH]
// P_PILLAR
//
class DPillar : public DMover
{
DECLARE_CLASS ( DPillar , DMover )
HAS_OBJECT_POINTERS
public :
enum EPillar
{
pillarBuild ,
pillarOpen
} ;
DPillar ( sector_t * sector , EPillar type , fixed_t speed , fixed_t height ,
fixed_t height2 , int crush , bool hexencrush ) ;
void Serialize ( FArchive & arc ) ;
void Tick ( ) ;
void Destroy ( ) ;
protected :
EPillar m_Type ;
fixed_t m_FloorSpeed ;
fixed_t m_CeilingSpeed ;
fixed_t m_FloorTarget ;
fixed_t m_CeilingTarget ;
int m_Crush ;
bool m_Hexencrush ;
TObjPtr < DInterpolation > m_Interp_Ceiling ;
TObjPtr < DInterpolation > m_Interp_Floor ;
private :
DPillar ( ) ;
} ;
bool EV_DoPillar ( DPillar : : EPillar type , line_t * line , int tag ,
fixed_t speed , fixed_t height , fixed_t height2 , int crush , bool hexencrush ) ;
//
// P_DOORS
//
class DDoor : public DMovingCeiling
{
DECLARE_CLASS ( DDoor , DMovingCeiling )
public :
enum EVlDoor
{
doorClose ,
doorOpen ,
doorRaise ,
doorWaitRaise ,
doorCloseWaitOpen ,
doorWaitClose ,
} ;
DDoor ( sector_t * sector ) ;
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DDoor ( sector_t * sec , EVlDoor type , fixed_t speed , int delay , int lightTag , int topcountdown ) ;
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void Serialize ( FArchive & arc ) ;
void Tick ( ) ;
protected :
EVlDoor m_Type ;
fixed_t m_TopDist ;
fixed_t m_BotDist , m_OldFloorDist ;
vertex_t * m_BotSpot ;
fixed_t m_Speed ;
// 1 = up, 0 = waiting at top, -1 = down
int m_Direction ;
// tics to wait at the top
int m_TopWait ;
// (keep in case a door going down is reset)
// when it reaches 0, start going down
int m_TopCountdown ;
int m_LightTag ;
void DoorSound ( bool raise , class DSeqNode * curseq = NULL ) const ;
friend bool EV_DoDoor ( DDoor : : EVlDoor type , line_t * line , AActor * thing ,
int tag , int speed , int delay , int lock ,
int lightTag , bool boomgen , int topcountdown ) ;
private :
DDoor ( ) ;
} ;
bool EV_DoDoor ( DDoor : : EVlDoor type , line_t * line , AActor * thing ,
int tag , int speed , int delay , int lock ,
int lightTag , bool boomgen = false , int topcountdown = 0 ) ;
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inline bool EV_DoDoor ( DDoor : : EVlDoor type , line_t * line , AActor * thing ,
int tag , double speed , int delay , int lock ,
int lightTag , bool boomgen = false , int topcountdown = 0 )
{
return EV_DoDoor ( type , line , thing , tag , FLOAT2FIXED ( speed ) , delay , lock , lightTag , boomgen , topcountdown ) ;
}
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class DAnimatedDoor : public DMovingCeiling
{
DECLARE_CLASS ( DAnimatedDoor , DMovingCeiling )
public :
DAnimatedDoor ( sector_t * sector ) ;
DAnimatedDoor ( sector_t * sec , line_t * line , int speed , int delay , FDoorAnimation * anim ) ;
void Serialize ( FArchive & arc ) ;
void Tick ( ) ;
bool StartClosing ( ) ;
protected :
line_t * m_Line1 , * m_Line2 ;
int m_Frame ;
FDoorAnimation * m_DoorAnim ;
int m_Timer ;
fixed_t m_BotDist ;
int m_Status ;
enum
{
Opening ,
Waiting ,
Closing ,
Dead
} ;
int m_Speed ;
int m_Delay ;
bool m_SetBlocking1 , m_SetBlocking2 ;
friend bool EV_SlidingDoor ( line_t * line , AActor * thing , int tag , int speed , int delay ) ;
private :
DAnimatedDoor ( ) ;
} ;
bool EV_SlidingDoor ( line_t * line , AActor * thing , int tag , int speed , int delay ) ;
//
// P_CEILNG
//
// [RH] Changed these
class DCeiling : public DMovingCeiling
{
DECLARE_CLASS ( DCeiling , DMovingCeiling )
public :
enum ECeiling
{
ceilLowerByValue ,
ceilRaiseByValue ,
ceilMoveToValue ,
ceilLowerToHighestFloor ,
ceilLowerInstant ,
ceilRaiseInstant ,
ceilCrushAndRaise ,
ceilLowerAndCrush ,
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ceil_placeholder ,
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ceilCrushRaiseAndStay ,
ceilRaiseToNearest ,
ceilLowerToLowest ,
ceilLowerToFloor ,
// The following are only used by Generic_Ceiling
ceilRaiseToHighest ,
ceilLowerToHighest ,
ceilRaiseToLowest ,
ceilLowerToNearest ,
ceilRaiseToHighestFloor ,
ceilRaiseToFloor ,
ceilRaiseByTexture ,
ceilLowerByTexture ,
genCeilingChg0 ,
genCeilingChgT ,
genCeilingChg
} ;
DCeiling ( sector_t * sec ) ;
DCeiling ( sector_t * sec , fixed_t speed1 , fixed_t speed2 , int silent ) ;
void Serialize ( FArchive & arc ) ;
void Tick ( ) ;
static DCeiling * Create ( sector_t * sec , DCeiling : : ECeiling type , line_t * line , int tag ,
fixed_t speed , fixed_t speed2 , fixed_t height ,
int crush , int silent , int change , bool hexencrush ) ;
protected :
ECeiling m_Type ;
fixed_t m_BottomHeight ;
fixed_t m_TopHeight ;
fixed_t m_Speed ;
fixed_t m_Speed1 ; // [RH] dnspeed of crushers
fixed_t m_Speed2 ; // [RH] upspeed of crushers
int m_Crush ;
bool m_Hexencrush ;
int m_Silent ;
int m_Direction ; // 1 = up, 0 = waiting, -1 = down
// [RH] Need these for BOOM-ish transferring ceilings
FTextureID m_Texture ;
secspecial_t m_NewSpecial ;
// ID
int m_Tag ;
int m_OldDirection ;
void PlayCeilingSound ( ) ;
private :
DCeiling ( ) ;
friend bool EV_CeilingCrushStop ( int tag ) ;
friend void P_ActivateInStasisCeiling ( int tag ) ;
} ;
bool EV_DoCeiling ( DCeiling : : ECeiling type , line_t * line ,
int tag , fixed_t speed , fixed_t speed2 , fixed_t height ,
int crush , int silent , int change , bool hexencrush ) ;
bool EV_CeilingCrushStop ( int tag ) ;
void P_ActivateInStasisCeiling ( int tag ) ;
//
// P_FLOOR
//
class DFloor : public DMovingFloor
{
DECLARE_CLASS ( DFloor , DMovingFloor )
public :
enum EFloor
{
floorLowerToLowest ,
floorLowerToNearest ,
floorLowerToHighest ,
floorLowerByValue ,
floorRaiseByValue ,
floorRaiseToHighest ,
floorRaiseToNearest ,
floorRaiseAndCrush ,
floorRaiseAndCrushDoom ,
floorCrushStop ,
floorLowerInstant ,
floorRaiseInstant ,
floorMoveToValue ,
floorRaiseToLowestCeiling ,
floorRaiseByTexture ,
floorLowerAndChange ,
floorRaiseAndChange ,
floorRaiseToLowest ,
floorRaiseToCeiling ,
floorLowerToLowestCeiling ,
floorLowerByTexture ,
floorLowerToCeiling ,
donutRaise ,
buildStair ,
waitStair ,
resetStair ,
// Not to be used as parameters to EV_DoFloor()
genFloorChg0 ,
genFloorChgT ,
genFloorChg
} ;
// [RH] Changed to use Hexen-ish specials
enum EStair
{
buildUp ,
buildDown
} ;
enum EStairType
{
stairUseSpecials = 1 ,
stairSync = 2
} ;
DFloor ( sector_t * sec ) ;
void Serialize ( FArchive & arc ) ;
void Tick ( ) ;
protected :
EFloor m_Type ;
int m_Crush ;
bool m_Hexencrush ;
int m_Direction ;
secspecial_t m_NewSpecial ;
FTextureID m_Texture ;
fixed_t m_FloorDestDist ;
fixed_t m_Speed ;
// [RH] New parameters used to reset and delay stairs
int m_ResetCount ;
int m_OrgDist ;
int m_Delay ;
int m_PauseTime ;
int m_StepTime ;
int m_PerStepTime ;
void StartFloorSound ( ) ;
void SetFloorChangeType ( sector_t * sec , int change ) ;
friend bool EV_BuildStairs ( int tag , DFloor : : EStair type , line_t * line ,
fixed_t stairsize , fixed_t speed , int delay , int reset , int igntxt ,
int usespecials ) ;
friend bool EV_DoFloor ( DFloor : : EFloor floortype , line_t * line , int tag ,
fixed_t speed , fixed_t height , int crush , int change , bool hexencrush , bool hereticlower ) ;
friend bool EV_FloorCrushStop ( int tag ) ;
friend bool EV_DoDonut ( int tag , line_t * line , fixed_t pillarspeed , fixed_t slimespeed ) ;
private :
DFloor ( ) ;
} ;
bool EV_BuildStairs ( int tag , DFloor : : EStair type , line_t * line ,
fixed_t stairsize , fixed_t speed , int delay , int reset , int igntxt ,
int usespecials ) ;
bool EV_DoFloor ( DFloor : : EFloor floortype , line_t * line , int tag ,
fixed_t speed , fixed_t height , int crush , int change , bool hexencrush , bool hereticlower = false ) ;
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inline bool EV_DoFloor ( DFloor : : EFloor floortype , line_t * line , int tag ,
double speed , double height , int crush , int change , bool hexencrush , bool hereticlower = false )
{
return EV_DoFloor ( floortype , line , tag , FLOAT2FIXED ( speed ) , FLOAT2FIXED ( height ) , crush , change , hexencrush , hereticlower ) ;
}
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bool EV_FloorCrushStop ( int tag ) ;
bool EV_DoDonut ( int tag , line_t * line , fixed_t pillarspeed , fixed_t slimespeed ) ;
class DElevator : public DMover
{
DECLARE_CLASS ( DElevator , DMover )
HAS_OBJECT_POINTERS
public :
enum EElevator
{
elevateUp ,
elevateDown ,
elevateCurrent ,
// [RH] For FloorAndCeiling_Raise/Lower
elevateRaise ,
elevateLower
} ;
DElevator ( sector_t * sec ) ;
void Destroy ( ) ;
void Serialize ( FArchive & arc ) ;
void Tick ( ) ;
protected :
EElevator m_Type ;
int m_Direction ;
fixed_t m_FloorDestDist ;
fixed_t m_CeilingDestDist ;
fixed_t m_Speed ;
TObjPtr < DInterpolation > m_Interp_Ceiling ;
TObjPtr < DInterpolation > m_Interp_Floor ;
void StartFloorSound ( ) ;
friend bool EV_DoElevator ( line_t * line , DElevator : : EElevator type , fixed_t speed ,
fixed_t height , int tag ) ;
private :
DElevator ( ) ;
} ;
bool EV_DoElevator ( line_t * line , DElevator : : EElevator type , fixed_t speed ,
fixed_t height , int tag ) ;
class DWaggleBase : public DMover
{
DECLARE_CLASS ( DWaggleBase , DMover )
HAS_OBJECT_POINTERS
public :
DWaggleBase ( sector_t * sec ) ;
void Serialize ( FArchive & arc ) ;
protected :
fixed_t m_OriginalDist ;
fixed_t m_Accumulator ;
fixed_t m_AccDelta ;
fixed_t m_TargetScale ;
fixed_t m_Scale ;
fixed_t m_ScaleDelta ;
int m_Ticker ;
int m_State ;
TObjPtr < DInterpolation > m_Interpolation ;
friend bool EV_StartWaggle ( int tag , line_t * line , int height , int speed ,
int offset , int timer , bool ceiling ) ;
void DoWaggle ( bool ceiling ) ;
void Destroy ( ) ;
DWaggleBase ( ) ;
} ;
bool EV_StartWaggle ( int tag , line_t * line , int height , int speed ,
int offset , int timer , bool ceiling ) ;
class DFloorWaggle : public DWaggleBase
{
DECLARE_CLASS ( DFloorWaggle , DWaggleBase )
public :
DFloorWaggle ( sector_t * sec ) ;
void Tick ( ) ;
private :
DFloorWaggle ( ) ;
} ;
class DCeilingWaggle : public DWaggleBase
{
DECLARE_CLASS ( DCeilingWaggle , DWaggleBase )
public :
DCeilingWaggle ( sector_t * sec ) ;
void Tick ( ) ;
private :
DCeilingWaggle ( ) ;
} ;
//jff 3/15/98 pure texture/type change for better generalized support
enum EChange
{
trigChangeOnly ,
numChangeOnly ,
} ;
bool EV_DoChange ( line_t * line , EChange changetype , int tag ) ;
//
// P_TELEPT
//
enum
{
TELF_DESTFOG = 1 ,
TELF_SOURCEFOG = 2 ,
TELF_KEEPORIENTATION = 4 ,
TELF_KEEPVELOCITY = 8 ,
TELF_KEEPHEIGHT = 16 ,
} ;
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//Spawns teleport fog. Pass the actor to pluck TeleFogFromType and TeleFogToType. 'from' determines if this is the fog to spawn at the old position (true) or new (false).
void P_SpawnTeleportFog ( AActor * mobj , const DVector3 & pos , bool beforeTele = true , bool setTarget = false ) ;
void P_SpawnTeleportFog ( AActor * mobj , fixed_t x , fixed_t y , fixed_t z , bool beforeTele = true , bool setTarget = false ) = delete ;
inline void P_SpawnTeleportFog ( AActor * mobj , const fixedvec3 & pos , bool beforeTele = true , bool setTarget = false ) = delete ;
inline void P_SpawnTeleportFog ( AActor * mobj , double x , double y , double z , bool beforeTele = true , bool setTarget = false ) = delete ;
/*
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{
P_SpawnTeleportFog ( mobj , FLOAT2FIXED ( x ) , FLOAT2FIXED ( y ) , FLOAT2FIXED ( z ) , beforeTele , setTarget ) ;
}
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*/
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bool P_Teleport ( AActor * thing , fixed_t x , fixed_t y , fixed_t z , DAngle angle , int flags ) ; // bool useFog, bool sourceFog, bool keepOrientation, bool haltVelocity = true, bool keepHeight = false
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inline bool P_Teleport ( AActor * thing , const DVector3 & pos , DAngle angle , int flags )
{
return P_Teleport ( thing , FLOAT2FIXED ( pos . X ) , FLOAT2FIXED ( pos . Y ) , FLOAT2FIXED ( pos . Z ) , angle , flags ) ;
}
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bool EV_Teleport ( int tid , int tag , line_t * line , int side , AActor * thing , int flags ) ;
bool EV_SilentLineTeleport ( line_t * line , int side , AActor * thing , int id , INTBOOL reverse ) ;
bool EV_TeleportOther ( int other_tid , int dest_tid , bool fog ) ;
bool EV_TeleportGroup ( int group_tid , AActor * victim , int source_tid , int dest_tid , bool moveSource , bool fog ) ;
bool EV_TeleportSector ( int tag , int source_tid , int dest_tid , bool fog , int group_tid ) ;
//
// [RH] ACS (see also p_acs.h)
//
# define ACS_BACKSIDE 1
# define ACS_ALWAYS 2
# define ACS_WANTRESULT 4
# define ACS_NET 8
int P_StartScript ( AActor * who , line_t * where , int script , const char * map , const int * args , int argcount , int flags ) ;
void P_SuspendScript ( int script , const char * map ) ;
void P_TerminateScript ( int script , const char * map ) ;
void P_DoDeferedScripts ( void ) ;
//
// [RH] p_quake.c
//
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bool P_StartQuakeXYZ ( AActor * activator , int tid , int intensityX , int intensityY , int intensityZ , int duration , int damrad , int tremrad , FSoundID quakesfx , int flags , double waveSpeedX , double waveSpeedY , double waveSpeedZ , int falloff , int highpoint ) ;
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bool P_StartQuake ( AActor * activator , int tid , int intensity , int duration , int damrad , int tremrad , FSoundID quakesfx ) ;
# endif