gzdoom/wadsrc/static/zscript/actor.txt

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class Actor : Thinker native
{
const DEFAULT_HEALTH = 1000;
Default
{
Scale 1;
Health DEFAULT_HEALTH;
Reactiontime 8;
Radius 20;
Height 16;
Mass 100;
RenderStyle 'Normal';
Alpha 1;
MinMissileChance 200;
MeleeRange 64 - 20;
MaxDropoffHeight 24;
MaxStepHeight 24;
BounceFactor 0.7;
WallBounceFactor 0.75;
BounceCount -1;
FloatSpeed 4;
FloatBobPhase -1; // randomly initialize by default
Gravity 1;
Friction 1;
DamageFactor 1.0; // damage multiplier as target of damage.
DamageMultiply 1.0; // damage multiplier as source of damage.
PushFactor 0.25;
WeaveIndexXY 0;
WeaveIndexZ 16;
DesignatedTeam 255;
PainType "Normal";
DeathType "Normal";
TeleFogSourceType "TeleportFog";
TeleFogDestType 'TeleportFog';
RipperLevel 0;
RipLevelMin 0;
RipLevelMax 0;
DefThreshold 100;
BloodType "Blood", "BloodSplatter", "AxeBlood";
ExplosionDamage 128;
MissileHeight 32;
SpriteAngle 0;
SpriteRotation 0;
StencilColor "00 00 00";
VisibleAngles 0, 0;
VisiblePitch 0, 0;
DefaultStateUsage SUF_ACTOR|SUF_OVERLAY;
}
// Functions
bool IsPointerEqual(int ptr_select1, int ptr_select2)
{
return GetPointer(ptr_select1) == GetPointer(ptr_select2);
}
static double BobSin(double fb)
{
return sin(fb * (180./32)) * 8;
}
native static readonly<Actor> GetDefaultByType(class<Actor> cls);
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native static float deltaangle(float ang1, float ang2);
native static float absangle(float ang1, float ang2);
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native static float GetDefaultSpeed(class<Actor> type);
native void RemoveFromHash();
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native float GetBobOffset(float frac = 0);
native void SetDamage(int dmg);
native static bool isDehState(state st);
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native double Distance2D(Actor other);
native void SetOrigin(vector3 newpos, bool moving);
native void SetXYZ(vector3 newpos);
native Actor GetPointer(int aaptr);
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native void FaceMovementDirection();
- fixed: State labels were resolved in the calling function's context instead of the called function one's. This could cause problems with functions that take states as parameters but use them to set them internally instead of passing them through the A_Jump interface back to the caller, like A_Chase or A_LookEx. This required some quite significant refactoring because the entire state resolution logic had been baked into the compiler which turned out to be a major maintenance problem. Fixed this by adding a new builtin type 'statelabel'. This is an opaque identifier representing a state, with the actual data either directly encoded into the number for single label state or an index into a state information table. The state resolution is now the task of the called function as it should always have remained. Note, that this required giving back the 'action' qualifier to most state jumping functions. - refactored most A_Jump checkers to a two stage setup with a pure checker that returns a boolean and a scripted A_Jump wrapper, for some simpler checks the checker function was entirely omitted and calculated inline in the A_Jump function. It is strongly recommended to use the boolean checkers unless using an inline function invocation in a state as they lead to vastly clearer code and offer more flexibility. - let Min() and Max() use the OP_MIN and OP_MAX opcodes. Although these were present, these function were implemented using some grossly inefficient branching tests. - the DECORATE 'state' cast kludge will now actually call ResolveState because a state label is not a state and needs conversion.
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native Actor AimTarget();
native static Actor Spawn(class<Actor> type, vector3 pos = (0,0,0), int replace = NO_REPLACE);
native Actor SpawnMissile(Actor dest, class<Actor> type, Actor owner = null);
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native Actor SpawnMissileZ (double z, Actor dest, class<Actor> type);
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native Actor SpawnMissileAngleZSpeed (double z, class<Actor> type, float angle, double vz, double speed, Actor owner = null, bool checkspawn = true);
native void A_Light(int extralight);
void A_Light0() { A_Light(0); }
void A_Light1() { A_Light(1); }
void A_Light2() { A_Light(2); }
void A_LightInverse() { A_Light(0x80000000); }
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native Actor OldSpawnMissile(Actor dest, class<Actor> type, Actor owner = null);
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native Actor SpawnPuff(class<Actor> pufftype, vector3 pos, float hitdir, float particledir, int updown, int flags = 0, Actor vict = null);
native void TraceBleed(int damage, Actor missile);
native bool CheckMeleeRange();
native int DamageMobj(Actor inflictor, Actor source, int damage, Name mod, int flags = 0, double angle = 0);
native double AimLineAttack(double angle, double distance, out FTranslatedLineTarget pLineTarget = null, double vrange = 0., int flags = 0, Actor target = null, Actor friender = null);
native Actor, int LineAttack(double angle, double distance, double pitch, int damage, Name damageType, class<Actor> pufftype, int flags = 0, out FTranslatedLineTarget victim = null);
native bool CheckSight(Actor target, int flags = 0);
native bool HitFriend();
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native bool MonsterMove();
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native bool TryMove(vector2 newpos, int dropoff);
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native void NewChaseDir();
native bool CheckMissileRange();
native bool SetState(state st, bool nofunction = false);
- fixed: State labels were resolved in the calling function's context instead of the called function one's. This could cause problems with functions that take states as parameters but use them to set them internally instead of passing them through the A_Jump interface back to the caller, like A_Chase or A_LookEx. This required some quite significant refactoring because the entire state resolution logic had been baked into the compiler which turned out to be a major maintenance problem. Fixed this by adding a new builtin type 'statelabel'. This is an opaque identifier representing a state, with the actual data either directly encoded into the number for single label state or an index into a state information table. The state resolution is now the task of the called function as it should always have remained. Note, that this required giving back the 'action' qualifier to most state jumping functions. - refactored most A_Jump checkers to a two stage setup with a pure checker that returns a boolean and a scripted A_Jump wrapper, for some simpler checks the checker function was entirely omitted and calculated inline in the A_Jump function. It is strongly recommended to use the boolean checkers unless using an inline function invocation in a state as they lead to vastly clearer code and offer more flexibility. - let Min() and Max() use the OP_MIN and OP_MAX opcodes. Although these were present, these function were implemented using some grossly inefficient branching tests. - the DECORATE 'state' cast kludge will now actually call ResolveState because a state label is not a state and needs conversion.
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native state FindState(statelabel st); // do we need exact later?
bool SetStateLabel(statelabel st, bool nofunction = false) { return SetState(FindState(st), nofunction); }
native action state ResolveState(statelabel st); // this one, unlike FindState, is context aware.
native void LinkToWorld();
native void UnlinkFromWorld();
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native bool CanSeek(Actor target);
native double AngleTo(Actor target, bool absolute = false);
native void AddZ(float zadd, bool moving = true);
native void SetZ(float z);
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native vector3 Vec3Offset(float x, float y, float z, bool absolute = false);
native vector3 Vec3Angle(float length, float angle, float z = 0, bool absolute = false);
native vector3 Vec2OffsetZ(float x, float y, float atz, bool absolute = false);
native void VelFromAngle(float speed = 0, float angle = 0);
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native void Thrust(float speed = 0, float angle = 0);
native bool isFriend(Actor other);
native void AdjustFloorClip();
native DropItem GetDropItems();
native void CopyFriendliness (Actor other, bool changeTarget, bool resetHealth = true);
native bool LookForPlayers(bool allaround);
native bool TeleportMove(Vector3 pos, bool telefrag, bool modifyactor = true);
native double DistanceBySpeed(Actor other, double speed);
native name GetSpecies();
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native void PlayActiveSound();
// DECORATE compatible functions
native bool CheckClass(class<Actor> checkclass, int ptr_select = AAPTR_DEFAULT, bool match_superclass = false);
native int CountInv(class<Inventory> itemtype, int ptr_select = AAPTR_DEFAULT);
native float GetDistance(bool checkz, int ptr = AAPTR_TARGET);
native float GetAngle(int flags, int ptr = AAPTR_DEFAULT);
native float GetZAt(float px = 0, float py = 0, float angle = 0, int flags = 0, int pick_pointer = AAPTR_DEFAULT);
native int GetSpawnHealth();
native int GetGibHealth();
native float GetCrouchFactor(int ptr = AAPTR_PLAYER1);
native float GetCVar(string cvar);
native int GetPlayerInput(int inputnum, int ptr = AAPTR_DEFAULT);
native int CountProximity(class<Actor> classname, float distance, int flags = 0, int ptr = AAPTR_DEFAULT);
native float GetSpriteAngle(int ptr = AAPTR_DEFAULT);
native float GetSpriteRotation(int ptr = AAPTR_DEFAULT);
native int GetMissileDamage(int mask, int add, int ptr = AAPTR_DEFAULT);
action native int OverlayID();
action native float OverlayX(int layer = 0);
action native float OverlayY(int layer = 0);
// DECORATE setters - it probably makes more sense to set these values directly now...
void A_SetMass(int newmass) { mass = newmass; }
void A_SetInvulnerable() { bInvulnerable = true; }
void A_UnSetInvulnerable() { bInvulnerable = false; }
void A_SetReflective() { bReflective = true; }
void A_UnSetReflective() { bReflective = false; }
void A_SetReflectiveInvulnerable() { bInvulnerable = true; bReflective = true; }
void A_UnSetReflectiveInvulnerable() { bInvulnerable = false; bReflective = false; }
void A_SetShootable() { bShootable = true; bNonShootable = false; }
void A_UnSetShootable() { bShootable = false; bNonShootable = true; }
void A_NoGravity() { bNoGravity = true; }
void A_Gravity() { bNoGravity = false; Gravity = 1; }
void A_LowGravity() { bNoGravity = false; Gravity = 0.125; }
void A_SetGravity(float newgravity) { gravity = clamp(newgravity, 0., 10.); }
void A_SetFloorClip() { bFloorClip = true; AdjustFloorClip(); }
void A_UnSetFloorClip() { bFloorClip = false; FloorClip = 0; }
void A_HideThing() { bInvisible = true; }
void A_UnHideThing() { bInvisible = false; }
void A_SetArg(int arg, int val) { if (arg >= 0 && arg < 5) args[arg] = val; }
void A_Turn(float turn = 0) { angle += turn; }
void A_SetDamageType(name newdamagetype) { damagetype = newdamagetype; }
void A_SetSolid() { bSolid = true; }
void A_UnsetSolid() { bSolid = false; }
void A_SetFloat() { bFloat = true; }
void A_UnsetFloat() { bFloat = false; }
void A_SetFloatBobPhase(int bob) { if (bob >= 0 && bob <= 63) FloatBobPhase = bob; }
void A_SetRipperLevel(int level) { RipperLevel = level; }
void A_SetRipMin(int minimum) { RipLevelMin = minimum; }
void A_SetRipMax(int maximum) { RipLevelMax = maximum; }
void A_ScreamAndUnblock() { A_Scream(); A_NoBlocking(); }
void A_ActiveAndUnblock() { A_ActiveSound(); A_NoBlocking(); }
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//---------------------------------------------------------------------------
//
// FUNC P_SpawnMissileAngle
//
// Returns NULL if the missile exploded immediately, otherwise returns
// a mobj_t pointer to the missile.
//
//---------------------------------------------------------------------------
Actor SpawnMissileAngle (class<Actor> type, float angle, double vz)
{
return SpawnMissileAngleZSpeed (pos.z + 32 + GetBobOffset(), type, angle, vz, GetDefaultSpeed (type));
}
Actor SpawnMissileAngleZ (double z, class<Actor> type, double angle, double vz)
{
return SpawnMissileAngleZSpeed (z, type, angle, vz, GetDefaultSpeed (type));
}
void A_SetScale(float scalex, float scaley = 0, int ptr = AAPTR_DEFAULT, bool usezero = false)
{
Actor aptr = GetPointer(ptr);
if (aptr)
{
aptr.Scale.X = scalex;
aptr.Scale.Y = scaley != 0 || usezero? scaley : scalex; // use scalex here, too, if only one parameter.
}
}
void A_SetSpeed(float speed, int ptr = AAPTR_DEFAULT)
{
Actor aptr = GetPointer(ptr);
if (aptr) aptr.Speed = speed;
}
void A_SetFloatSpeed(float speed, int ptr = AAPTR_DEFAULT)
{
Actor aptr = GetPointer(ptr);
if (aptr) aptr.FloatSpeed = speed;
}
void A_SetPainThreshold(int threshold, int ptr = AAPTR_DEFAULT)
{
Actor aptr = GetPointer(ptr);
if (aptr) aptr.PainThreshold = threshold;
}
bool A_SetSpriteAngle(float angle = 0, int ptr = AAPTR_DEFAULT)
{
Actor aptr = GetPointer(ptr);
if (!aptr) return false;
aptr.SpriteAngle = angle;
return true;
}
bool A_SetSpriteRotation(float angle = 0, int ptr = AAPTR_DEFAULT)
{
Actor aptr = GetPointer(ptr);
if (!aptr) return false;
aptr.SpriteRotation = angle;
return true;
}
deprecated void A_FaceConsolePlayer(float MaxTurnAngle = 0) {}
void A_SetSpecial(int spec, int arg0 = 0, int arg1 = 0, int arg2 = 0, int arg3 = 0, int arg4 = 0)
{
special = spec;
args[0] = arg0;
args[1] = arg1;
args[2] = arg2;
args[3] = arg3;
args[4] = arg4;
}
void A_ClearTarget()
{
target = null;
lastheard = null;
lastenemy = null;
}
void A_ChangeLinkFlags(int blockmap = FLAG_NO_CHANGE, int sector = FLAG_NO_CHANGE)
{
UnlinkFromWorld();
if (blockmap != FLAG_NO_CHANGE) bNoBlockmap = blockmap;
if (sector != FLAG_NO_CHANGE) bNoSector = sector;
LinkToWorld();
}
// killough 11/98: kill an object
void A_Die(name damagetype = "none")
{
DamageMobj(null, null, health, damagetype, DMG_FORCED);
}
void SpawnDirt (double radius)
{
class<Actor> dtype;
switch (random[Dirt](0, 5))
{
case 0: dtype = "Dirt1"; break;
case 1: dtype = "Dirt2"; break;
case 2: dtype = "Dirt3"; break;
case 3: dtype = "Dirt4"; break;
case 4: dtype = "Dirt5"; break;
default: dtype = "Dirt6"; break;
}
double zo = random[Dirt]() / 128. + 1;
Vector3 pos = Vec3Angle(radius, random[Dirt]() * (360./256), zo);
Actor mo = Spawn (dtype, pos, ALLOW_REPLACE);
if (mo)
{
mo.Vel.Z = random[Dirt]() / 64.;
}
}
//
// A_SinkMobj
// Sink a mobj incrementally into the floor
//
bool SinkMobj (double speed)
{
if (Floorclip < Height)
{
Floorclip += speed;
return false;
}
return true;
}
//
// A_RaiseMobj
// Raise a mobj incrementally from the floor to
//
bool RaiseMobj (double speed)
{
// Raise a mobj from the ground
if (Floorclip > 0)
{
Floorclip -= speed;
if (Floorclip <= 0)
{
Floorclip = 0;
return true;
}
else
{
return false;
}
}
return true;
}
native void A_Face(Actor faceto, float max_turn = 0, float max_pitch = 270, float ang_offset = 0, float pitch_offset = 0, int flags = 0, float z_ofs = 0);
void A_FaceTarget(float max_turn = 0, float max_pitch = 270, float ang_offset = 0, float pitch_offset = 0, int flags = 0, float z_ofs = 0)
{
A_Face(target, max_turn, max_pitch, ang_offset, pitch_offset, flags, z_ofs);
}
void A_FaceTracer(float max_turn = 0, float max_pitch = 270, float ang_offset = 0, float pitch_offset = 0, int flags = 0, float z_ofs = 0)
{
A_Face(tracer, max_turn, max_pitch, ang_offset, pitch_offset, flags, z_ofs);
}
void A_FaceMaster(float max_turn = 0, float max_pitch = 270, float ang_offset = 0, float pitch_offset = 0, int flags = 0, float z_ofs = 0)
{
A_Face(master, max_turn, max_pitch, ang_offset, pitch_offset, flags, z_ofs);
}
// Action functions
// Meh, MBF redundant functions. Only for DeHackEd support.
native bool A_LineEffect(int boomspecial = 0, int tag = 0);
// End of MBF redundant functions.
native void A_MonsterRail();
native void A_BFGSpray(class<Actor> spraytype = "BFGExtra", int numrays = 40, int damagecount = 15, float angle = 90, float distance = 16*64, float vrange = 32, int damage = 0, int flags = 0);
native void A_Pain();
native void A_NoBlocking(bool drop = true);
void A_Fall() { A_NoBlocking(); }
native void A_XScream();
native void A_Look();
- fixed: State labels were resolved in the calling function's context instead of the called function one's. This could cause problems with functions that take states as parameters but use them to set them internally instead of passing them through the A_Jump interface back to the caller, like A_Chase or A_LookEx. This required some quite significant refactoring because the entire state resolution logic had been baked into the compiler which turned out to be a major maintenance problem. Fixed this by adding a new builtin type 'statelabel'. This is an opaque identifier representing a state, with the actual data either directly encoded into the number for single label state or an index into a state information table. The state resolution is now the task of the called function as it should always have remained. Note, that this required giving back the 'action' qualifier to most state jumping functions. - refactored most A_Jump checkers to a two stage setup with a pure checker that returns a boolean and a scripted A_Jump wrapper, for some simpler checks the checker function was entirely omitted and calculated inline in the A_Jump function. It is strongly recommended to use the boolean checkers unless using an inline function invocation in a state as they lead to vastly clearer code and offer more flexibility. - let Min() and Max() use the OP_MIN and OP_MAX opcodes. Although these were present, these function were implemented using some grossly inefficient branching tests. - the DECORATE 'state' cast kludge will now actually call ResolveState because a state label is not a state and needs conversion.
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native void A_Chase(statelabel melee = null, statelabel missile = null, int flags = 0);
native void A_Scream();
native void A_VileChase();
native void A_BossDeath();
native void A_Detonate();
native bool A_CallSpecial(int special, int arg1=0, int arg2=0, int arg3=0, int arg4=0, int arg5=0);
native void A_M_Saw(sound fullsound = "weapons/sawfull", sound hitsound = "weapons/sawhit", int damage = 2, class<Actor> pufftype = "BulletPuff");
native void A_ActiveSound();
native void A_FastChase();
native void A_FreezeDeath();
native void A_FreezeDeathChunks();
native void A_GenericFreezeDeath();
native void A_IceGuyDie();
native void A_CStaffMissileSlither();
native void A_PlayerScream();
native void A_SkullPop(class<PlayerChunk> skulltype = "BloodySkull");
native void A_CheckPlayerDone();
native void A_Wander(int flags = 0);
native void A_Look2();
native void A_TossGib();
native void A_SentinelBob();
native void A_SentinelRefire();
native void A_Tracer2();
native void A_SetShadow();
native void A_ClearShadow();
native void A_GetHurt();
native void A_TurretLook();
native void A_KlaxonBlare();
native void A_Countdown();
native void A_AlertMonsters(float maxdist = 0, int flags = 0);
native void A_ClearSoundTarget();
native void A_CheckTerrain();
deprecated native void A_MissileAttack();
deprecated native void A_MeleeAttack();
deprecated native void A_ComboAttack();
deprecated native void A_BulletAttack();
native void A_WolfAttack(int flags = 0, sound whattoplay = "weapons/pistol", float snipe = 1.0, int maxdamage = 64, int blocksize = 128, int pointblank = 2, int longrange = 4, float runspeed = 160.0, class<Actor> pufftype = "BulletPuff");
native void A_PlaySound(sound whattoplay = "weapons/pistol", int slot = CHAN_BODY, float volume = 1.0, bool looping = false, float attenuation = ATTN_NORM, bool local = false);
deprecated void A_PlayWeaponSound(sound whattoplay) { A_PlaySound(whattoplay, CHAN_WEAPON); }
native void A_FLoopActiveSound();
native void A_LoopActiveSound();
native void A_StopSound(int slot = CHAN_VOICE); // Bad default but that's what is originally was...
deprecated native void A_PlaySoundEx(sound whattoplay, name slot, bool looping = false, int attenuation = 0);
deprecated native void A_StopSoundEx(name slot);
native void A_SeekerMissile(int threshold, int turnmax, int flags = 0, int chance = 50, int distance = 10);
- fixed: State labels were resolved in the calling function's context instead of the called function one's. This could cause problems with functions that take states as parameters but use them to set them internally instead of passing them through the A_Jump interface back to the caller, like A_Chase or A_LookEx. This required some quite significant refactoring because the entire state resolution logic had been baked into the compiler which turned out to be a major maintenance problem. Fixed this by adding a new builtin type 'statelabel'. This is an opaque identifier representing a state, with the actual data either directly encoded into the number for single label state or an index into a state information table. The state resolution is now the task of the called function as it should always have remained. Note, that this required giving back the 'action' qualifier to most state jumping functions. - refactored most A_Jump checkers to a two stage setup with a pure checker that returns a boolean and a scripted A_Jump wrapper, for some simpler checks the checker function was entirely omitted and calculated inline in the A_Jump function. It is strongly recommended to use the boolean checkers unless using an inline function invocation in a state as they lead to vastly clearer code and offer more flexibility. - let Min() and Max() use the OP_MIN and OP_MAX opcodes. Although these were present, these function were implemented using some grossly inefficient branching tests. - the DECORATE 'state' cast kludge will now actually call ResolveState because a state label is not a state and needs conversion.
2016-11-14 13:12:27 +00:00
native action state A_Jump(int chance, statelabel label, ...);
native void A_CustomMissile(class<Actor> missiletype, float spawnheight = 32, float spawnofs_xy = 0, float angle = 0, int flags = 0, float pitch = 0, int ptr = AAPTR_TARGET);
native void A_CustomBulletAttack(float spread_xy, float spread_z, int numbullets, int damageperbullet, class<Actor> pufftype = "BulletPuff", float range = 0, int flags = 0, int ptr = AAPTR_TARGET, class<Actor> missile = null, float Spawnheight = 32, float Spawnofs_xy = 0);
native void A_CustomRailgun(int damage, int spawnofs_xy = 0, color color1 = 0, color color2 = 0, int flags = 0, int aim = 0, float maxdiff = 0, class<Actor> pufftype = "BulletPuff", float spread_xy = 0, float spread_z = 0, float range = 0, int duration = 0, float sparsity = 1.0, float driftspeed = 1.0, class<Actor> spawnclass = null, float spawnofs_z = 0, int spiraloffset = 270, int limit = 0);
native bool A_SetInventory(class<Inventory> itemtype, int amount, int ptr = AAPTR_DEFAULT, bool beyondMax = false);
native bool A_GiveInventory(class<Inventory> itemtype, int amount = 0, int giveto = AAPTR_DEFAULT);
native bool A_TakeInventory(class<Inventory> itemtype, int amount = 0, int flags = 0, int giveto = AAPTR_DEFAULT);
action native bool A_SpawnItem(class<Actor> itemtype = "Unknown", float distance = 0, float zheight = 0, bool useammo = true, bool transfer_translation = false);
native bool A_SpawnItemEx(class<Actor> itemtype, float xofs = 0, float yofs = 0, float zofs = 0, float xvel = 0, float yvel = 0, float zvel = 0, float angle = 0, int flags = 0, int failchance = 0, int tid=0);
native void A_Print(string whattoprint, float time = 0, name fontname = "none");
native void A_PrintBold(string whattoprint, float time = 0, name fontname = "none");
native void A_Log(string whattoprint);
native void A_LogInt(int whattoprint);
native void A_LogFloat(float whattoprint);
native void A_SetTranslucent(float alpha, int style = 0);
native void A_SetRenderStyle(float alpha, int style);
native void A_FadeIn(float reduce = 0.1, int flags = 0);
native void A_FadeOut(float reduce = 0.1, int flags = 1); //bool remove == true
native void A_FadeTo(float target, float amount = 0.1, int flags = 0);
native void A_SpawnDebris(class<Actor> spawntype, bool transfer_translation = false, float mult_h = 1, float mult_v = 1);
native void A_SpawnParticle(color color1, int flags = 0, int lifetime = 35, float size = 1, float angle = 0, float xoff = 0, float yoff = 0, float zoff = 0, float velx = 0, float vely = 0, float velz = 0, float accelx = 0, float accely = 0, float accelz = 0, float startalphaf = 1, float fadestepf = -1, float sizestep = 0);
native void A_ExtChase(bool usemelee, bool usemissile, bool playactive = true, bool nightmarefast = false);
native void A_DropInventory(class<Inventory> itemtype);
native void A_SetBlend(color color1, float alpha, int tics, color color2 = 0);
deprecated native void A_ChangeFlag(string flagname, bool value);
native void A_ChangeCountFlags(int kill = FLAG_NO_CHANGE, int item = FLAG_NO_CHANGE, int secret = FLAG_NO_CHANGE);
native void A_RaiseMaster(bool copy = 0);
native void A_RaiseChildren(bool copy = 0);
native void A_RaiseSiblings(bool copy = 0);
deprecated native void A_BasicAttack(int meleedamage, sound meleesound, class<actor> missiletype, float missileheight);
action native bool A_ThrowGrenade(class<Actor> itemtype, float zheight = 0, float xyvel = 0, float zvel = 0, bool useammo = true);
native void A_Weave(int xspeed, int yspeed, float xdist, float ydist);
- fixed: State labels were resolved in the calling function's context instead of the called function one's. This could cause problems with functions that take states as parameters but use them to set them internally instead of passing them through the A_Jump interface back to the caller, like A_Chase or A_LookEx. This required some quite significant refactoring because the entire state resolution logic had been baked into the compiler which turned out to be a major maintenance problem. Fixed this by adding a new builtin type 'statelabel'. This is an opaque identifier representing a state, with the actual data either directly encoded into the number for single label state or an index into a state information table. The state resolution is now the task of the called function as it should always have remained. Note, that this required giving back the 'action' qualifier to most state jumping functions. - refactored most A_Jump checkers to a two stage setup with a pure checker that returns a boolean and a scripted A_Jump wrapper, for some simpler checks the checker function was entirely omitted and calculated inline in the A_Jump function. It is strongly recommended to use the boolean checkers unless using an inline function invocation in a state as they lead to vastly clearer code and offer more flexibility. - let Min() and Max() use the OP_MIN and OP_MAX opcodes. Although these were present, these function were implemented using some grossly inefficient branching tests. - the DECORATE 'state' cast kludge will now actually call ResolveState because a state label is not a state and needs conversion.
2016-11-14 13:12:27 +00:00
action native state, bool A_Teleport(statelabel teleportstate = null, class<SpecialSpot> targettype = "BossSpot", class<Actor> fogtype = "TeleportFog", int flags = 0, float mindist = 0, float maxdist = 128, int ptr = AAPTR_DEFAULT);
action native state, bool A_Warp(int ptr_destination, float xofs = 0, float yofs = 0, float zofs = 0, float angle = 0, int flags = 0, statelabel success_state = null, float heightoffset = 0, float radiusoffset = 0, float pitch = 0);
- fixed: State labels were resolved in the calling function's context instead of the called function one's. This could cause problems with functions that take states as parameters but use them to set them internally instead of passing them through the A_Jump interface back to the caller, like A_Chase or A_LookEx. This required some quite significant refactoring because the entire state resolution logic had been baked into the compiler which turned out to be a major maintenance problem. Fixed this by adding a new builtin type 'statelabel'. This is an opaque identifier representing a state, with the actual data either directly encoded into the number for single label state or an index into a state information table. The state resolution is now the task of the called function as it should always have remained. Note, that this required giving back the 'action' qualifier to most state jumping functions. - refactored most A_Jump checkers to a two stage setup with a pure checker that returns a boolean and a scripted A_Jump wrapper, for some simpler checks the checker function was entirely omitted and calculated inline in the A_Jump function. It is strongly recommended to use the boolean checkers unless using an inline function invocation in a state as they lead to vastly clearer code and offer more flexibility. - let Min() and Max() use the OP_MIN and OP_MAX opcodes. Although these were present, these function were implemented using some grossly inefficient branching tests. - the DECORATE 'state' cast kludge will now actually call ResolveState because a state label is not a state and needs conversion.
2016-11-14 13:12:27 +00:00
native void A_CountdownArg(int argnum, statelabel targstate = null);
native state A_MonsterRefire(int chance, statelabel label);
native void A_LookEx(int flags = 0, float minseedist = 0, float maxseedist = 0, float maxheardist = 0, float fov = 0, statelabel label = null);
native void A_Recoil(float xyvel);
native bool A_GiveToTarget(class<Inventory> itemtype, int amount = 0, int forward_ptr = AAPTR_DEFAULT);
native bool A_TakeFromTarget(class<Inventory> itemtype, int amount = 0, int flags = 0, int forward_ptr = AAPTR_DEFAULT);
native int A_RadiusGive(class<Inventory> itemtype, float distance, int flags, int amount = 0, class<Actor> filter = null, name species = "None", float mindist = 0, int limit = 0);
native void A_CustomMeleeAttack(int damage = 0, sound meleesound = "", sound misssound = "", name damagetype = "none", bool bleed = true);
native void A_CustomComboAttack(class<Actor> missiletype, float spawnheight, int damage, sound meleesound = "", name damagetype = "none", bool bleed = true);
native void A_Burst(class<Actor> chunktype);
action native void A_Blast(int flags = 0, float strength = 255, float radius = 255, float speed = 20, class<Actor> blasteffect = "BlastEffect", sound blastsound = "BlastRadius");
native void A_RadiusThrust(int force = 128, int distance = -1, int flags = RTF_AFFECTSOURCE, int fullthrustdistance = 0);
native void A_RadiusDamageSelf(int damage = 128, float distance = 128, int flags = 0, class<Actor> flashtype = null);
native int A_Explode(int damage = -1, int distance = -1, int flags = XF_HURTSOURCE, bool alert = false, int fulldamagedistance = 0, int nails = 0, int naildamage = 10, class<Actor> pufftype = "BulletPuff", name damagetype = "none");
native void A_Stop();
native void A_Respawn(int flags = 1);
native void A_QueueCorpse();
native void A_DeQueueCorpse();
native void A_ClearLastHeard();
native bool A_SelectWeapon(class<Weapon> whichweapon, int flags = 0);
action native void A_Punch();
native void A_Feathers();
native void A_ClassBossHealth();
native void A_ShootGun();
native void A_RocketInFlight();
native void A_Bang4Cloud();
native void A_DropFire();
native void A_GiveQuestItem(int itemno);
native void A_RemoveForcefield();
native void A_DropWeaponPieces(class<Actor> p1, class<Actor> p2, class<Actor> p3);
native void A_PigPain ();
native void A_SetAngle(float angle = 0, int flags = 0, int ptr = AAPTR_DEFAULT);
native void A_SetPitch(float pitch, int flags = 0, int ptr = AAPTR_DEFAULT);
native void A_SetRoll(float roll, int flags = 0, int ptr = AAPTR_DEFAULT);
native void A_ScaleVelocity(float scale, int ptr = AAPTR_DEFAULT);
native void A_ChangeVelocity(float x = 0, float y = 0, float z = 0, int flags = 0, int ptr = AAPTR_DEFAULT);
deprecated native void A_SetUserVar(name varname, int value);
deprecated native void A_SetUserArray(name varname, int index, int value);
deprecated native void A_SetUserVarFloat(name varname, float value);
deprecated native void A_SetUserArrayFloat(name varname, int index, float value);
native void A_Quake(int intensity, int duration, int damrad, int tremrad, sound sfx = "world/quake");
native void A_QuakeEx(int intensityX, int intensityY, int intensityZ, int duration, int damrad, int tremrad, sound sfx = "world/quake", int flags = 0, float mulWaveX = 1, float mulWaveY = 1, float mulWaveZ = 1, int falloff = 0, int highpoint = 0, float rollIntensity = 0, float rollWave = 0);
action native void A_SetTics(int tics);
native void A_DropItem(class<Actor> item, int dropamount = -1, int chance = 256);
native void A_DamageSelf(int amount, name damagetype = "none", int flags = 0, class<Actor> filter = null, name species = "None", int src = AAPTR_DEFAULT, int inflict = AAPTR_DEFAULT);
native void A_DamageTarget(int amount, name damagetype = "none", int flags = 0, class<Actor> filter = null, name species = "None", int src = AAPTR_DEFAULT, int inflict = AAPTR_DEFAULT);
native void A_DamageMaster(int amount, name damagetype = "none", int flags = 0, class<Actor> filter = null, name species = "None", int src = AAPTR_DEFAULT, int inflict = AAPTR_DEFAULT);
native void A_DamageTracer(int amount, name damagetype = "none", int flags = 0, class<Actor> filter = null, name species = "None", int src = AAPTR_DEFAULT, int inflict = AAPTR_DEFAULT);
native void A_DamageChildren(int amount, name damagetype = "none", int flags = 0, class<Actor> filter = null, name species = "None", int src = AAPTR_DEFAULT, int inflict = AAPTR_DEFAULT);
native void A_DamageSiblings(int amount, name damagetype = "none", int flags = 0, class<Actor> filter = null, name species = "None", int src = AAPTR_DEFAULT, int inflict = AAPTR_DEFAULT);
native void A_KillTarget(name damagetype = "none", int flags = 0, class<Actor> filter = null, name species = "None", int src = AAPTR_DEFAULT, int inflict = AAPTR_DEFAULT);
native void A_KillMaster(name damagetype = "none", int flags = 0, class<Actor> filter = null, name species = "None", int src = AAPTR_DEFAULT, int inflict = AAPTR_DEFAULT);
native void A_KillTracer(name damagetype = "none", int flags = 0, class<Actor> filter = null, name species = "None", int src = AAPTR_DEFAULT, int inflict = AAPTR_DEFAULT);
native void A_KillChildren(name damagetype = "none", int flags = 0, class<Actor> filter = null, name species = "None", int src = AAPTR_DEFAULT, int inflict = AAPTR_DEFAULT);
native void A_KillSiblings(name damagetype = "none", int flags = 0, class<Actor> filter = null, name species = "None", int src = AAPTR_DEFAULT, int inflict = AAPTR_DEFAULT);
native void A_RemoveTarget(int flags = 0, class<Actor> filter = null, name species = "None");
native void A_RemoveMaster(int flags = 0, class<Actor> filter = null, name species = "None");
native void A_RemoveTracer(int flags = 0, class<Actor> filter = null, name species = "None");
native void A_RemoveChildren(bool removeall = false, int flags = 0, class<Actor> filter = null, name species = "None");
native void A_RemoveSiblings(bool removeall = false, int flags = 0, class<Actor> filter = null, name species = "None");
native void A_Remove(int removee, int flags = 0, class<Actor> filter = null, name species = "None");
native int A_GiveToChildren(class<Inventory> itemtype, int amount = 0);
native int A_GiveToSiblings(class<Inventory> itemtype, int amount = 0);
native int A_TakeFromChildren(class<Inventory> itemtype, int amount = 0);
native int A_TakeFromSiblings(class<Inventory> itemtype, int amount = 0);
native void A_SetTeleFog(class<Actor> oldpos, class<Actor> newpos);
native void A_SwapTeleFog();
native void A_SetHealth(int health, int ptr = AAPTR_DEFAULT);
native void A_ResetHealth(int ptr = AAPTR_DEFAULT);
native void A_SetSpecies(name species, int ptr = AAPTR_DEFAULT);
native void A_SetChaseThreshold(int threshold, bool def = false, int ptr = AAPTR_DEFAULT);
native bool A_FaceMovementDirection(float offset = 0, float anglelimit = 0, float pitchlimit = 0, int flags = 0, int ptr = AAPTR_DEFAULT);
native int A_ClearOverlays(int sstart = 0, int sstop = 0, bool safety = true);
native bool A_CopySpriteFrame(int from, int to, int flags = 0);
native bool A_SetVisibleRotation(float anglestart = 0, float angleend = 0, float pitchstart = 0, float pitchend = 0, int flags = 0, int ptr = AAPTR_DEFAULT);
native void A_SetTranslation(string transname);
native void A_RearrangePointers(int newtarget, int newmaster = AAPTR_DEFAULT, int newtracer = AAPTR_DEFAULT, int flags=0);
native void A_TransferPointer(int ptr_source, int ptr_recepient, int sourcefield, int recepientfield=AAPTR_DEFAULT, int flags=0);
native void A_CopyFriendliness(int ptr_source = AAPTR_MASTER);
- fixed: State labels were resolved in the calling function's context instead of the called function one's. This could cause problems with functions that take states as parameters but use them to set them internally instead of passing them through the A_Jump interface back to the caller, like A_Chase or A_LookEx. This required some quite significant refactoring because the entire state resolution logic had been baked into the compiler which turned out to be a major maintenance problem. Fixed this by adding a new builtin type 'statelabel'. This is an opaque identifier representing a state, with the actual data either directly encoded into the number for single label state or an index into a state information table. The state resolution is now the task of the called function as it should always have remained. Note, that this required giving back the 'action' qualifier to most state jumping functions. - refactored most A_Jump checkers to a two stage setup with a pure checker that returns a boolean and a scripted A_Jump wrapper, for some simpler checks the checker function was entirely omitted and calculated inline in the A_Jump function. It is strongly recommended to use the boolean checkers unless using an inline function invocation in a state as they lead to vastly clearer code and offer more flexibility. - let Min() and Max() use the OP_MIN and OP_MAX opcodes. Although these were present, these function were implemented using some grossly inefficient branching tests. - the DECORATE 'state' cast kludge will now actually call ResolveState because a state label is not a state and needs conversion.
2016-11-14 13:12:27 +00:00
action native bool A_Overlay(int layer, statelabel start = null, bool nooverride = false);
native void A_WeaponOffset(float wx = 0, float wy = 32, int flags = 0);
action native void A_OverlayOffset(int layer = PSP_WEAPON, float wx = 0, float wy = 32, int flags = 0);
action native void A_OverlayFlags(int layer, int flags, bool set);
int ACS_NamedExecute(name script, int mapnum=0, int arg1=0, int arg2=0, int arg3=0)
{
return ACS_Execute(-int(script), mapnum, arg1, arg2, arg3);
}
int ACS_NamedSuspend(name script, int mapnum=0)
{
return ACS_Suspend(-int(script), mapnum);
}
int ACS_NamedTerminate(name script, int mapnum=0)
{
return ACS_Terminate(-int(script), mapnum);
}
int ACS_NamedLockedExecute(name script, int mapnum=0, int arg1=0, int arg2=0, int lock=0)
{
return ACS_LockedExecute(-int(script), mapnum, arg1, arg2, lock);
}
int ACS_NamedLockedExecuteDoor(name script, int mapnum=0, int arg1=0, int arg2=0, int lock=0)
{
return ACS_LockedExecuteDoor(-int(script), mapnum, arg1, arg2, lock);
}
int ACS_NamedExecuteWithResult(name script, int arg1=0, int arg2=0, int arg3=0, int arg4=0)
{
return ACS_ExecuteWithResult(-int(script), arg1, arg2, arg3, arg4);
}
int ACS_NamedExecuteAlways(name script, int mapnum=0, int arg1=0, int arg2=0, int arg3=0)
{
return ACS_ExecuteAlways(-int(script), mapnum, arg1, arg2, arg3);
}
States(Actor, Overlay, Weapon, Item)
{
Spawn:
TNT1 A -1;
Stop;
Null:
TNT1 A 1;
Stop;
GenericFreezeDeath:
// Generic freeze death frames. Woo!
#### # 5 A_GenericFreezeDeath;
---- A 1 A_FreezeDeathChunks;
Wait;
GenericCrush:
POL5 A -1;
Stop;
}
// Internal functions
deprecated private native int __decorate_internal_int__(int i);
deprecated private native bool __decorate_internal_bool__(bool b);
deprecated private native float __decorate_internal_float__(float f);
}