qzdoom-gpl/src/p_things.cpp

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/*
** p_things.cpp
** ACS-accessible thing utilities
**
**---------------------------------------------------------------------------
** Copyright 1998-2007 Randy Heit
** All rights reserved.
**
** Redistribution and use in source and binary forms, with or without
** modification, are permitted provided that the following conditions
** are met:
**
** 1. Redistributions of source code must retain the above copyright
** notice, this list of conditions and the following disclaimer.
** 2. Redistributions in binary form must reproduce the above copyright
** notice, this list of conditions and the following disclaimer in the
** documentation and/or other materials provided with the distribution.
** 3. The name of the author may not be used to endorse or promote products
** derived from this software without specific prior written permission.
**
** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
**---------------------------------------------------------------------------
**
*/
#include "doomtype.h"
#include "p_local.h"
#include "info.h"
#include "s_sound.h"
#include "doomstat.h"
#include "m_random.h"
#include "c_console.h"
#include "c_dispatch.h"
#include "a_sharedglobal.h"
#include "gi.h"
#include "templates.h"
#include "g_level.h"
#include "v_text.h"
#include "i_system.h"
#include "d_player.h"
#include "r_utility.h"
#include "p_spec.h"
#include "math/cmath.h"
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#include "actorptrselect.h"
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// Set of spawnable things for the Thing_Spawn and Thing_Projectile specials.
FClassMap SpawnableThings;
static FRandom pr_leadtarget ("LeadTarget");
bool P_Thing_Spawn (int tid, AActor *source, int type, DAngle angle, bool fog, int newtid)
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{
int rtn = 0;
PClassActor *kind;
AActor *spot, *mobj;
FActorIterator iterator (tid);
kind = P_GetSpawnableType(type);
if (kind == NULL)
return false;
// Handle decorate replacements.
kind = kind->GetReplacement();
if ((GetDefaultByType(kind)->flags3 & MF3_ISMONSTER) &&
((dmflags & DF_NO_MONSTERS) || (level.flags2 & LEVEL2_NOMONSTERS)))
return false;
if (tid == 0)
{
spot = source;
}
else
{
spot = iterator.Next();
}
while (spot != NULL)
{
mobj = Spawn (kind, spot->Pos(), ALLOW_REPLACE);
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if (mobj != NULL)
{
ActorFlags2 oldFlags2 = mobj->flags2;
mobj->flags2 |= MF2_PASSMOBJ;
if (P_TestMobjLocation (mobj))
{
rtn++;
mobj->Angles.Yaw = (angle != 1000000. ? angle : spot->Angles.Yaw);
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if (fog)
{
P_SpawnTeleportFog(mobj, spot->Pos(), false, true);
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}
if (mobj->flags & MF_SPECIAL)
mobj->flags |= MF_DROPPED; // Don't respawn
mobj->tid = newtid;
mobj->AddToHash ();
mobj->flags2 = oldFlags2;
}
else
{
// If this is a monster, subtract it from the total monster
// count, because it already added to it during spawning.
mobj->ClearCounters();
mobj->Destroy ();
}
}
spot = iterator.Next();
}
return rtn != 0;
}
// [BC] Added
// [RH] Fixed
bool P_MoveThing(AActor *source, const DVector3 &pos, bool fog)
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{
DVector3 old = source->Pos();
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source->SetOrigin (pos, true);
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if (P_TestMobjLocation (source))
{
if (fog)
{
P_SpawnTeleportFog(source, pos, false, true);
P_SpawnTeleportFog(source, old, true, true);
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}
source->ClearInterpolation();
if (source == players[consoleplayer].camera)
{
R_ResetViewInterpolation();
}
return true;
}
else
{
source->SetOrigin (old, true);
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return false;
}
}
bool P_Thing_Move (int tid, AActor *source, int mapspot, bool fog)
{
AActor *target;
if (tid != 0)
{
FActorIterator iterator1(tid);
source = iterator1.Next();
}
FActorIterator iterator2 (mapspot);
target = iterator2.Next ();
if (source != NULL && target != NULL)
{
return P_MoveThing(source, target->Pos(), fog);
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}
return false;
}
bool P_Thing_Projectile (int tid, AActor *source, int type, const char *type_name, DAngle angle,
double speed, double vspeed, int dest, AActor *forcedest, int gravity, int newtid,
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bool leadTarget)
{
int rtn = 0;
PClassActor *kind;
AActor *spot, *mobj, *targ = forcedest;
FActorIterator iterator (tid);
int defflags3;
if (type_name == NULL)
{
kind = P_GetSpawnableType(type);
}
else
{
kind = PClass::FindActor(type_name);
}
if (kind == NULL)
{
return false;
}
// Handle decorate replacements.
kind = kind->GetReplacement();
defflags3 = GetDefaultByType(kind)->flags3;
if ((defflags3 & MF3_ISMONSTER) &&
((dmflags & DF_NO_MONSTERS) || (level.flags2 & LEVEL2_NOMONSTERS)))
return false;
if (tid == 0)
{
spot = source;
}
else
{
spot = iterator.Next();
}
while (spot != NULL)
{
FActorIterator tit (dest);
if (dest == 0 || (targ = tit.Next()))
{
do
{
double z = spot->Z();
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if (defflags3 & MF3_FLOORHUGGER)
{
z = ONFLOORZ;
}
else if (defflags3 & MF3_CEILINGHUGGER)
{
z = ONCEILINGZ;
}
else if (z != ONFLOORZ)
{
z -= spot->Floorclip;
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}
mobj = Spawn (kind, spot->PosAtZ(z), ALLOW_REPLACE);
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if (mobj)
{
mobj->tid = newtid;
mobj->AddToHash ();
P_PlaySpawnSound(mobj, spot);
if (gravity)
{
mobj->flags &= ~MF_NOGRAVITY;
if (!(mobj->flags3 & MF3_ISMONSTER) && gravity == 1)
{
mobj->Gravity = 1./8;
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}
}
else
{
mobj->flags |= MF_NOGRAVITY;
}
mobj->target = spot;
if (targ != NULL)
{
DVector3 aim = mobj->Vec3To(targ);
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aim.Z += targ->Height / 2;
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if (leadTarget && speed > 0 && !targ->Vel.isZero())
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{
// Aiming at the target's position some time in the future
// is basically just an application of the law of sines:
// a/sin(A) = b/sin(B)
// Thanks to all those on the notgod phorum for helping me
// with the math. I don't think I would have thought of using
// trig alone had I been left to solve it by myself.
DVector3 tvel = targ->Vel;
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if (!(targ->flags & MF_NOGRAVITY) && targ->waterlevel < 3)
{ // If the target is subject to gravity and not underwater,
// assume that it isn't moving vertically. Thanks to gravity,
// even if we did consider the vertical component of the target's
// velocity, we would still miss more often than not.
tvel.Z = 0.0;
if (targ->Vel.X == 0 && targ->Vel.Y == 0)
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{
goto nolead;
}
}
double dist = aim.Length();
double targspeed = tvel.Length();
double ydotx = -aim | tvel;
double a = g_acos (clamp (ydotx / targspeed / dist, -1.0, 1.0));
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double multiplier = double(pr_leadtarget.Random2())*0.1/255+1.1;
double sinb = -clamp (targspeed*multiplier * g_sin(a) / speed, -1.0, 1.0);
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// Use the cross product of two of the triangle's sides to get a
// rotation vector.
DVector3 rv(tvel ^ aim);
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// The vector must be normalized.
rv.MakeUnit();
// Now combine the rotation vector with angle b to get a rotation matrix.
DMatrix3x3 rm(rv, g_cos(g_asin(sinb)), sinb);
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// And multiply the original aim vector with the matrix to get a
// new aim vector that leads the target.
DVector3 aimvec = rm * aim;
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// And make the projectile follow that vector at the desired speed.
mobj->Vel = aimvec * (speed / dist);
mobj->AngleFromVel();
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}
else
{
nolead:
mobj->Angles.Yaw = mobj->AngleTo(targ);
mobj->Vel = aim.Resized (speed);
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}
if (mobj->flags2 & MF2_SEEKERMISSILE)
{
mobj->tracer = targ;
}
}
else
{
mobj->Angles.Yaw = angle;
mobj->VelFromAngle(speed);
mobj->Vel.Z = vspeed;
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}
// Set the missile's speed to reflect the speed it was spawned at.
if (mobj->flags & MF_MISSILE)
{
mobj->Speed = mobj->VelToSpeed();
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}
// Hugger missiles don't have any vertical velocity
if (mobj->flags3 & (MF3_FLOORHUGGER|MF3_CEILINGHUGGER))
{
mobj->Vel.Z = 0;
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}
if (mobj->flags & MF_SPECIAL)
{
mobj->flags |= MF_DROPPED;
}
if (mobj->flags & MF_MISSILE)
{
if (P_CheckMissileSpawn (mobj, spot->radius))
{
rtn = true;
}
}
else if (!P_TestMobjLocation (mobj))
{
// If this is a monster, subtract it from the total monster
// count, because it already added to it during spawning.
mobj->ClearCounters();
mobj->Destroy ();
}
else
{
// It spawned fine.
rtn = 1;
}
}
} while (dest != 0 && (targ = tit.Next()));
}
spot = iterator.Next();
}
return rtn != 0;
}
int P_Thing_Damage (int tid, AActor *whofor0, int amount, FName type)
{
FActorIterator iterator (tid);
int count = 0;
AActor *actor;
actor = (tid == 0 ? whofor0 : iterator.Next());
while (actor)
{
AActor *next = tid == 0 ? NULL : iterator.Next ();
if (actor->flags & MF_SHOOTABLE)
{
if (amount > 0)
{
P_DamageMobj (actor, NULL, whofor0, amount, type);
}
else if (actor->health < actor->SpawnHealth())
{
actor->health -= amount;
if (actor->health > actor->SpawnHealth())
{
actor->health = actor->SpawnHealth();
}
if (actor->player != NULL)
{
actor->player->health = actor->health;
}
}
count++;
}
actor = next;
}
return count;
}
void P_RemoveThing(AActor * actor)
{
// Don't remove live players.
if (actor->player == NULL || actor != actor->player->mo)
{
// Don't also remove owned inventory items
if (actor->IsKindOf(RUNTIME_CLASS(AInventory)) && static_cast<AInventory*>(actor)->Owner != NULL) return;
// be friendly to the level statistics. ;)
actor->ClearCounters();
actor->Destroy ();
}
}
bool P_Thing_Raise(AActor *thing, AActor *raiser)
{
FState * RaiseState = thing->GetRaiseState();
if (RaiseState == NULL)
{
return true; // monster doesn't have a raise state
}
AActor *info = thing->GetDefault ();
thing->Vel.X = thing->Vel.Y = 0;
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// [RH] Check against real height and radius
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double oldheight = thing->Height;
double oldradius = thing->radius;
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ActorFlags oldflags = thing->flags;
thing->flags |= MF_SOLID;
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thing->Height = info->Height; // [RH] Use real height
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thing->radius = info->radius; // [RH] Use real radius
if (!P_CheckPosition (thing, thing->Pos()))
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{
thing->flags = oldflags;
thing->radius = oldradius;
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thing->Height = oldheight;
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return false;
}
S_Sound (thing, CHAN_BODY, "vile/raise", 1, ATTN_IDLE);
thing->Revive();
if (raiser != NULL)
{
// Let's copy the friendliness of the one who raised it.
thing->CopyFriendliness(raiser, false);
}
thing->SetState (RaiseState);
return true;
}
bool P_Thing_CanRaise(AActor *thing)
{
FState * RaiseState = thing->GetRaiseState();
if (RaiseState == NULL)
{
return false;
}
AActor *info = thing->GetDefault();
// Check against real height and radius
ActorFlags oldflags = thing->flags;
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double oldheight = thing->Height;
double oldradius = thing->radius;
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thing->flags |= MF_SOLID;
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thing->Height = info->Height;
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thing->radius = info->radius;
bool check = P_CheckPosition (thing, thing->Pos());
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// Restore checked properties
thing->flags = oldflags;
thing->radius = oldradius;
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thing->Height = oldheight;
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if (!check)
{
return false;
}
return true;
}
void P_Thing_SetVelocity(AActor *actor, const DVector3 &vec, bool add, bool setbob)
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{
if (actor != NULL)
{
if (!add)
{
actor->Vel.Zero();
if (actor->player != NULL) actor->player->Vel.Zero();
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}
actor->Vel += vec;
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if (setbob && actor->player != NULL)
{
actor->player->Vel += vec.XY();
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}
}
}
PClassActor *P_GetSpawnableType(int spawnnum)
{
if (spawnnum < 0)
{ // A named arg from a UDMF map
FName spawnname = FName(ENamedName(-spawnnum));
if (spawnname.IsValidName())
{
return PClass::FindActor(spawnname);
}
}
else
{ // A numbered arg from a Hexen or UDMF map
PClassActor **type = SpawnableThings.CheckKey(spawnnum);
if (type != NULL)
{
return *type;
}
}
return NULL;
}
struct MapinfoSpawnItem
{
FName classname; // DECORATE is read after MAPINFO so we do not have the actual classes available here yet.
// These are for error reporting. We must store the file information because it's no longer available when these items get resolved.
FString filename;
int linenum;
};
typedef TMap<int, MapinfoSpawnItem> SpawnMap;
static SpawnMap SpawnablesFromMapinfo;
static SpawnMap ConversationIDsFromMapinfo;
static int SpawnableSort(const void *a, const void *b)
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{
return (*((FClassMap::Pair **)a))->Key - (*((FClassMap::Pair **)b))->Key;
}
static void DumpClassMap(FClassMap &themap)
{
FClassMap::Iterator it(themap);
FClassMap::Pair *pair, **allpairs;
int i = 0;
// Sort into numerical order, since their arrangement in the map can
// be in an unspecified order.
allpairs = new FClassMap::Pair *[themap.CountUsed()];
while (it.NextPair(pair))
{
allpairs[i++] = pair;
}
qsort(allpairs, i, sizeof(*allpairs), SpawnableSort);
for (int j = 0; j < i; ++j)
{
pair = allpairs[j];
Printf ("%d %s\n", pair->Key, pair->Value->TypeName.GetChars());
}
delete[] allpairs;
}
CCMD(dumpspawnables)
{
DumpClassMap(SpawnableThings);
}
CCMD (dumpconversationids)
{
DumpClassMap(StrifeTypes);
}
static void ParseSpawnMap(FScanner &sc, SpawnMap & themap, const char *descript)
{
TMap<int, bool> defined;
int error = 0;
MapinfoSpawnItem editem;
editem.filename = sc.ScriptName;
while (true)
{
if (sc.CheckString("}")) return;
else if (sc.CheckNumber())
{
int ednum = sc.Number;
sc.MustGetStringName("=");
sc.MustGetString();
bool *def = defined.CheckKey(ednum);
if (def != NULL)
{
sc.ScriptMessage("%s %d defined more than once", descript, ednum);
error++;
}
else if (ednum < 0)
{
sc.ScriptMessage("%s must be positive, got %d", descript, ednum);
error++;
}
defined[ednum] = true;
editem.classname = sc.String;
themap.Insert(ednum, editem);
}
else
{
sc.ScriptError("Number expected");
}
}
if (error > 0)
{
sc.ScriptError("%d errors encountered in %s definition", error, descript);
}
}
void FMapInfoParser::ParseSpawnNums()
{
ParseOpenBrace();
ParseSpawnMap(sc, SpawnablesFromMapinfo, "Spawn number");
}
void FMapInfoParser::ParseConversationIDs()
{
ParseOpenBrace();
ParseSpawnMap(sc, ConversationIDsFromMapinfo, "Conversation ID");
}
void InitClassMap(FClassMap &themap, SpawnMap &thedata)
{
themap.Clear();
SpawnMap::Iterator it(thedata);
SpawnMap::Pair *pair;
int error = 0;
while (it.NextPair(pair))
{
PClassActor *cls = NULL;
if (pair->Value.classname != NAME_None)
{
cls = PClass::FindActor(pair->Value.classname);
if (cls == NULL)
{
Printf(TEXTCOLOR_RED "Script error, \"%s\" line %d:\nUnknown actor class %s\n",
pair->Value.filename.GetChars(), pair->Value.linenum, pair->Value.classname.GetChars());
error++;
}
themap.Insert(pair->Key, cls);
}
else
{
themap.Remove(pair->Key);
}
}
if (error > 0)
{
I_Error("%d unknown actor classes found", error);
}
thedata.Clear(); // we do not need this any longer
}
void InitSpawnablesFromMapinfo()
{
InitClassMap(SpawnableThings, SpawnablesFromMapinfo);
InitClassMap(StrifeTypes, ConversationIDsFromMapinfo);
}
int P_Thing_CheckInputNum(player_t *p, int inputnum)
{
int renum = 0;
if (p)
{
switch (inputnum)
{
case INPUT_OLDBUTTONS: renum = p->original_oldbuttons; break;
case INPUT_BUTTONS: renum = p->original_cmd.buttons; break;
case INPUT_PITCH: renum = p->original_cmd.pitch; break;
case INPUT_YAW: renum = p->original_cmd.yaw; break;
case INPUT_ROLL: renum = p->original_cmd.roll; break;
case INPUT_FORWARDMOVE: renum = p->original_cmd.forwardmove; break;
case INPUT_SIDEMOVE: renum = p->original_cmd.sidemove; break;
case INPUT_UPMOVE: renum = p->original_cmd.upmove; break;
case MODINPUT_OLDBUTTONS: renum = p->oldbuttons; break;
case MODINPUT_BUTTONS: renum = p->cmd.ucmd.buttons; break;
case MODINPUT_PITCH: renum = p->cmd.ucmd.pitch; break;
case MODINPUT_YAW: renum = p->cmd.ucmd.yaw; break;
case MODINPUT_ROLL: renum = p->cmd.ucmd.roll; break;
case MODINPUT_FORWARDMOVE: renum = p->cmd.ucmd.forwardmove; break;
case MODINPUT_SIDEMOVE: renum = p->cmd.ucmd.sidemove; break;
case MODINPUT_UPMOVE: renum = p->cmd.ucmd.upmove; break;
default: renum = 0; break;
}
}
return renum;
}
int P_Thing_CheckProximity(AActor *self, PClass *classname, double distance, int count, int flags, int ptr, bool counting)
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{
AActor *ref = COPY_AAPTR(self, ptr);
// We need these to check out.
if (!ref || !classname || distance <= 0)
return 0;
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int counter = 0;
int result = 0;
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double closer = distance, farther = 0, current = distance;
const bool ptrWillChange = !!(flags & (CPXF_SETTARGET | CPXF_SETMASTER | CPXF_SETTRACER));
const bool ptrDistPref = !!(flags & (CPXF_CLOSEST | CPXF_FARTHEST));
TThinkerIterator<AActor> it;
AActor *mo, *dist = nullptr;
// [MC] Process of elimination, I think, will get through this as quickly and
// efficiently as possible.
while ((mo = it.Next()))
{
if (mo == ref) //Don't count self.
continue;
// no unmorphed versions of currently morphed players.
if (mo->flags & MF_UNMORPHED)
continue;
// Check inheritance for the classname. Taken partly from CheckClass DECORATE function.
if (flags & CPXF_ANCESTOR)
{
if (!(mo->IsKindOf(classname)))
continue;
}
// Otherwise, just check for the regular class name.
else if (classname != mo->GetClass())
continue;
// [MC]Make sure it's in range and respect the desire for Z or not. The function forces it to use
// Z later for ensuring CLOSEST and FARTHEST flags are respected perfectly.
// Ripped from sphere checking in A_RadiusGive (along with a number of things).
if ((ref->Distance2D(mo) < distance &&
((flags & CPXF_NOZ) ||
((ref->Z() > mo->Z() && ref->Z() - mo->Top() < distance) ||
(ref->Z() <= mo->Z() && mo->Z() - ref->Top() < distance)))))
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{
if ((flags & CPXF_CHECKSIGHT) && !(P_CheckSight(mo, ref, SF_IGNOREVISIBILITY | SF_IGNOREWATERBOUNDARY)))
continue;
if (ptrWillChange)
{
current = ref->Distance2D(mo);
if ((flags & CPXF_CLOSEST) && (current < closer))
{
dist = mo;
closer = current; // This actor's closer. Set the new standard.
}
else if ((flags & CPXF_FARTHEST) && (current > farther))
{
dist = mo;
farther = current;
}
else if (!dist)
dist = mo; // Just get the first one and call it quits if there's nothing selected.
}
if (mo->flags6 & MF6_KILLED)
{
if (!(flags & (CPXF_COUNTDEAD | CPXF_DEADONLY)))
continue;
}
else
{
if (flags & CPXF_DEADONLY)
continue;
}
counter++;
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// Abort if the number of matching classes nearby is greater, we have obviously succeeded in our goal.
// Don't abort if calling the counting version CheckProximity non-action function.
if (!counting && counter > count)
{
result = (flags & (CPXF_LESSOREQUAL | CPXF_EXACT)) ? 0 : 1;
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// However, if we have one SET* flag and either the closest or farthest flags, keep the function going.
if (ptrWillChange && ptrDistPref)
continue;
else
break;
}
}
}
if (ptrWillChange && dist != 0)
{
if (flags & CPXF_SETONPTR)
{
if (flags & CPXF_SETTARGET) ref->target = dist;
if (flags & CPXF_SETMASTER) ref->master = dist;
if (flags & CPXF_SETTRACER) ref->tracer = dist;
}
else
{
if (flags & CPXF_SETTARGET) self->target = dist;
if (flags & CPXF_SETMASTER) self->master = dist;
if (flags & CPXF_SETTRACER) self->tracer = dist;
}
}
if (!counting)
{
if (counter == count)
result = 1;
else if (counter < count)
result = !!((flags & CPXF_LESSOREQUAL) && !(flags & CPXF_EXACT)) ? 1 : 0;
}
return counting ? counter : result;
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}
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int P_Thing_Warp(AActor *caller, AActor *reference, double xofs, double yofs, double zofs, DAngle angle, int flags, double heightoffset, double radiusoffset, DAngle pitch)
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{
if (flags & WARPF_MOVEPTR)
{
AActor *temp = reference;
reference = caller;
caller = temp;
}
DVector3 old = caller->Pos();
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int oldpgroup = caller->Sector->PortalGroup;
zofs += reference->Height * heightoffset;
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if (!(flags & WARPF_ABSOLUTEANGLE))
{
angle += (flags & WARPF_USECALLERANGLE) ? caller->Angles.Yaw: reference->Angles.Yaw;
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}
const double rad = radiusoffset * reference->radius;
const double s = angle.Sin();
const double c = angle.Cos();
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if (!(flags & WARPF_ABSOLUTEPOSITION))
{
if (!(flags & WARPF_ABSOLUTEOFFSET))
{
double xofs1 = xofs;
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// (borrowed from A_SpawnItemEx, assumed workable)
// in relative mode negative y values mean 'left' and positive ones mean 'right'
// This is the inverse orientation of the absolute mode!
xofs = xofs1 * c + yofs * s;
yofs = xofs1 * s - yofs * c;
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}
if (flags & WARPF_TOFLOOR)
{
// set correct xy
// now the caller's floorz should be appropriate for the assigned xy-position
// assigning position again with.
// extra unlink, link and environment calculation
caller->SetOrigin(reference->Vec3Offset(xofs + rad * c, yofs + rad * s, 0.), true);
// The two-step process is important.
caller->SetZ(caller->floorz + zofs);
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}
else
{
caller->SetOrigin(reference->Vec3Offset(xofs + rad * c, yofs + rad * s, zofs), true);
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}
}
else // [MC] The idea behind "absolute" is meant to be "absolute". Override everything, just like A_SpawnItemEx's.
{
caller->SetOrigin(xofs + rad * c, yofs + rad * s, zofs, true);
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if (flags & WARPF_TOFLOOR)
{
caller->SetZ(caller->floorz + zofs);
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}
}
if ((flags & WARPF_NOCHECKPOSITION) || P_TestMobjLocation(caller))
{
if (flags & WARPF_TESTONLY)
{
caller->SetOrigin(old, true);
}
else
{
caller->Angles.Yaw = angle;
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if (flags & WARPF_COPYPITCH)
caller->SetPitch(reference->Angles.Pitch, false);
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if (pitch != 0)
caller->SetPitch(caller->Angles.Pitch + pitch, false);
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if (flags & WARPF_COPYVELOCITY)
{
caller->Vel = reference->Vel;
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}
if (flags & WARPF_STOP)
{
caller->Vel.Zero();
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}
// this is no fun with line portals
if (flags & WARPF_WARPINTERPOLATION)
{
// This just translates the movement but doesn't change the vector
DVector3 displacedold = old + Displacements.getOffset(oldpgroup, caller->Sector->PortalGroup);
caller->Prev += caller->Pos() - displacedold;
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caller->PrevPortalGroup = caller->Sector->PortalGroup;
}
else if (flags & WARPF_COPYINTERPOLATION)
{
// Map both positions of the reference actor to the current portal group
DVector3 displacedold = old + Displacements.getOffset(reference->PrevPortalGroup, caller->Sector->PortalGroup);
DVector3 displacedref = old + Displacements.getOffset(reference->Sector->PortalGroup, caller->Sector->PortalGroup);
caller->Prev = caller->Pos() + displacedold - displacedref;
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caller->PrevPortalGroup = caller->Sector->PortalGroup;
}
else if (!(flags & WARPF_INTERPOLATE))
{
caller->ClearInterpolation();
}
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if ((flags & WARPF_BOB) && (reference->flags2 & MF2_FLOATBOB))
{
caller->AddZ(reference->GetBobOffset());
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}
P_TryMove(caller, caller->Pos(), false);
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}
return true;
}
caller->SetOrigin(old, true);
return false;
}