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gzdoom/wadsrc/static/zscript/events.txt
Christoph Oelckers 3acd9c8116 Made all virtual base functions for the event handler scripted 
This was by far the largest block of native virtuals, and they were only native to be able to allow checking if the event was implemented for the current handler. This can easily be done by looking at the byte code, just like VMCall also does but in turn it removes more than half of the existing native virtuals from the interface.
2018-11-29 18:46:28 +01:00

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struct RenderEvent native ui version("2.4")
{
native readonly Vector3 ViewPos;
native readonly double ViewAngle;
native readonly double ViewPitch;
native readonly double ViewRoll;
native readonly double FracTic;
native readonly Actor Camera;
}
struct WorldEvent native play version("2.4")
{
// for loaded/unloaded
native readonly bool IsSaveGame;
// this will be true if we are re-entering the hub level.
native readonly bool IsReopen;
// for thingspawned/thingdied/thingdestroyed
native readonly Actor Thing;
// for thingdied. can be null
native readonly Actor Inflictor;
// for thingdamaged, line/sector damaged
native readonly int Damage;
native readonly Actor DamageSource;
native readonly Name DamageType;
native readonly EDmgFlags DamageFlags;
native readonly double DamageAngle;
// for line(pre)activated
native readonly Line ActivatedLine;
native readonly int ActivationType;
native bool ShouldActivate;
// for line/sector damaged
native readonly SectorPart DamageSectorPart;
native readonly Line DamageLine;
native readonly Sector DamageSector;
native readonly int DamageLineSide;
native readonly vector3 DamagePosition;
native readonly bool DamageIsRadius;
native int NewDamage;
}
struct PlayerEvent native play version("2.4")
{
// this is the player number that caused the event.
// note: you can get player struct from this by using players[e.PlayerNumber]
native readonly int PlayerNumber;
// this will be true if we are re-entering the hub level.
native readonly bool IsReturn;
}
struct UiEvent native ui version("2.4")
{
// d_gui.h
enum EGUIEvent
{
Type_None,
Type_KeyDown,
Type_KeyRepeat,
Type_KeyUp,
Type_Char,
Type_FirstMouseEvent, // ?
Type_MouseMove,
Type_LButtonDown,
Type_LButtonUp,
Type_LButtonClick,
Type_MButtonDown,
Type_MButtonUp,
Type_MButtonClick,
Type_RButtonDown,
Type_RButtonUp,
Type_RButtonClick,
Type_WheelUp,
Type_WheelDown,
Type_WheelRight, // ???
Type_WheelLeft, // ???
Type_BackButtonDown, // ???
Type_BackButtonUp, // ???
Type_FwdButtonDown, // ???
Type_FwdButtonUp, // ???
Type_LastMouseEvent
}
// for KeyDown, KeyRepeat, KeyUp
enum ESpecialGUIKeys
{
Key_PgDn = 1,
Key_PgUp = 2,
Key_Home = 3,
Key_End = 4,
Key_Left = 5,
Key_Right = 6,
Key_Alert = 7, // ASCII bell
Key_Backspace = 8, // ASCII
Key_Tab = 9, // ASCII
Key_LineFeed = 10, // ASCII
Key_Down = 10,
Key_VTab = 11, // ASCII
Key_Up = 11,
Key_FormFeed = 12, // ASCII
Key_Return = 13, // ASCII
Key_F1 = 14,
Key_F2 = 15,
Key_F3 = 16,
Key_F4 = 17,
Key_F5 = 18,
Key_F6 = 19,
Key_F7 = 20,
Key_F8 = 21,
Key_F9 = 22,
Key_F10 = 23,
Key_F11 = 24,
Key_F12 = 25,
Key_Del = 26,
Key_Escape = 27, // ASCII
Key_Free1 = 28,
Key_Free2 = 29,
Key_Back = 30, // browser back key
Key_CEscape = 31 // color escape
}
//
native readonly EGUIEvent Type;
//
native readonly String KeyString;
native readonly int KeyChar;
//
native readonly int MouseX;
native readonly int MouseY;
//
native readonly bool IsShift;
native readonly bool IsCtrl;
native readonly bool IsAlt;
}
struct InputEvent native play version("2.4")
{
enum EGenericEvent
{
Type_None,
Type_KeyDown,
Type_KeyUp,
Type_Mouse,
Type_GUI, // unused, kept for completeness
Type_DeviceChange
}
// ew.
enum EDoomInputKeys
{
Key_Pause = 0xc5, // DIK_PAUSE
Key_RightArrow = 0xcd, // DIK_RIGHT
Key_LeftArrow = 0xcb, // DIK_LEFT
Key_UpArrow = 0xc8, // DIK_UP
Key_DownArrow = 0xd0, // DIK_DOWN
Key_Escape = 0x01, // DIK_ESCAPE
Key_Enter = 0x1c, // DIK_RETURN
Key_Space = 0x39, // DIK_SPACE
Key_Tab = 0x0f, // DIK_TAB
Key_F1 = 0x3b, // DIK_F1
Key_F2 = 0x3c, // DIK_F2
Key_F3 = 0x3d, // DIK_F3
Key_F4 = 0x3e, // DIK_F4
Key_F5 = 0x3f, // DIK_F5
Key_F6 = 0x40, // DIK_F6
Key_F7 = 0x41, // DIK_F7
Key_F8 = 0x42, // DIK_F8
Key_F9 = 0x43, // DIK_F9
Key_F10 = 0x44, // DIK_F10
Key_F11 = 0x57, // DIK_F11
Key_F12 = 0x58, // DIK_F12
Key_Grave = 0x29, // DIK_GRAVE
Key_Backspace = 0x0e, // DIK_BACK
Key_Equals = 0x0d, // DIK_EQUALS
Key_Minus = 0x0c, // DIK_MINUS
Key_LShift = 0x2A, // DIK_LSHIFT
Key_LCtrl = 0x1d, // DIK_LCONTROL
Key_LAlt = 0x38, // DIK_LMENU
Key_RShift = Key_LSHIFT,
Key_RCtrl = Key_LCTRL,
Key_RAlt = Key_LALT,
Key_Ins = 0xd2, // DIK_INSERT
Key_Del = 0xd3, // DIK_DELETE
Key_End = 0xcf, // DIK_END
Key_Home = 0xc7, // DIK_HOME
Key_PgUp = 0xc9, // DIK_PRIOR
Key_PgDn = 0xd1, // DIK_NEXT
Key_Mouse1 = 0x100,
Key_Mouse2 = 0x101,
Key_Mouse3 = 0x102,
Key_Mouse4 = 0x103,
Key_Mouse5 = 0x104,
Key_Mouse6 = 0x105,
Key_Mouse7 = 0x106,
Key_Mouse8 = 0x107,
Key_FirstJoyButton = 0x108,
Key_Joy1 = (Key_FirstJoyButton+0),
Key_Joy2 = (Key_FirstJoyButton+1),
Key_Joy3 = (Key_FirstJoyButton+2),
Key_Joy4 = (Key_FirstJoyButton+3),
Key_Joy5 = (Key_FirstJoyButton+4),
Key_Joy6 = (Key_FirstJoyButton+5),
Key_Joy7 = (Key_FirstJoyButton+6),
Key_Joy8 = (Key_FirstJoyButton+7),
Key_LastJoyButton = 0x187,
Key_JoyPOV1_Up = 0x188,
Key_JoyPOV1_Right = 0x189,
Key_JoyPOV1_Down = 0x18a,
Key_JoyPOV1_Left = 0x18b,
Key_JoyPOV2_Up = 0x18c,
Key_JoyPOV3_Up = 0x190,
Key_JoyPOV4_Up = 0x194,
Key_MWheelUp = 0x198,
Key_MWheelDown = 0x199,
Key_MWheelRight = 0x19A,
Key_MWheelLeft = 0x19B,
Key_JoyAxis1Plus = 0x19C,
Key_JoyAxis1Minus = 0x19D,
Key_JoyAxis2Plus = 0x19E,
Key_JoyAxis2Minus = 0x19F,
Key_JoyAxis3Plus = 0x1A0,
Key_JoyAxis3Minus = 0x1A1,
Key_JoyAxis4Plus = 0x1A2,
Key_JoyAxis4Minus = 0x1A3,
Key_JoyAxis5Plus = 0x1A4,
Key_JoyAxis5Minus = 0x1A5,
Key_JoyAxis6Plus = 0x1A6,
Key_JoyAxis6Minus = 0x1A7,
Key_JoyAxis7Plus = 0x1A8,
Key_JoyAxis7Minus = 0x1A9,
Key_JoyAxis8Plus = 0x1AA,
Key_JoyAxis8Minus = 0x1AB,
Num_JoyAxisButtons = 8,
Key_Pad_LThumb_Right = 0x1AC,
Key_Pad_LThumb_Left = 0x1AD,
Key_Pad_LThumb_Down = 0x1AE,
Key_Pad_LThumb_Up = 0x1AF,
Key_Pad_RThumb_Right = 0x1B0,
Key_Pad_RThumb_Left = 0x1B1,
Key_Pad_RThumb_Down = 0x1B2,
Key_Pad_RThumb_Up = 0x1B3,
Key_Pad_DPad_Up = 0x1B4,
Key_Pad_DPad_Down = 0x1B5,
Key_Pad_DPad_Left = 0x1B6,
Key_Pad_DPad_Right = 0x1B7,
Key_Pad_Start = 0x1B8,
Key_Pad_Back = 0x1B9,
Key_Pad_LThumb = 0x1BA,
Key_Pad_RThumb = 0x1BB,
Key_Pad_LShoulder = 0x1BC,
Key_Pad_RShoulder = 0x1BD,
Key_Pad_LTrigger = 0x1BE,
Key_Pad_RTrigger = 0x1BF,
Key_Pad_A = 0x1C0,
Key_Pad_B = 0x1C1,
Key_Pad_X = 0x1C2,
Key_Pad_Y = 0x1C3,
Num_Keys = 0x1C4
}
//
native readonly EGenericEvent Type;
//
native readonly int KeyScan; // as in EDoomInputKeys enum
native readonly String KeyString;
native readonly int KeyChar; // ASCII char (if any)
//
native readonly int MouseX;
native readonly int MouseY;
}
struct ConsoleEvent native version("2.4")
{
// for net events, this will be the activator.
// for UI events, this is always -1, and you need to check if level is loaded and use players[consoleplayer].
native readonly int Player;
// this is the name and args as specified in SendNetworkEvent or event/netevent CCMDs
native readonly String Name;
native readonly int Args[3];
// this will be true if the event is fired from the console by event/netevent CCMD
native readonly bool IsManual;
}
struct ReplaceEvent native version("2.4")
{
native readonly Class<Actor> Replacee;
native Class<Actor> Replacement;
native bool IsFinal;
}
class StaticEventHandler : Object native play version("2.4")
{
// static event handlers CAN register other static event handlers.
// unlike EventHandler.Create that will not create them.
clearscope static native StaticEventHandler Find(Class<StaticEventHandler> type); // just for convenience. who knows.
// these are called when the handler gets registered or unregistered
// you can set Order/IsUiProcessor here.
virtual void OnRegister() {}
virtual void OnUnregister() {}
// actual handlers are here
virtual void WorldLoaded(WorldEvent e) {}
virtual void WorldUnloaded(WorldEvent e) {}
virtual void WorldThingSpawned(WorldEvent e) {}
virtual void WorldThingDied(WorldEvent e) {}
virtual void WorldThingRevived(WorldEvent e) {}
virtual void WorldThingDamaged(WorldEvent e) {}
virtual void WorldThingDestroyed(WorldEvent e) {}
virtual void WorldLinePreActivated(WorldEvent e) {}
virtual void WorldLineActivated(WorldEvent e) {}
virtual void WorldSectorDamaged(WorldEvent e) {}
virtual void WorldLineDamaged(WorldEvent e) {}
virtual void WorldLightning(WorldEvent e) {} // for the sake of completeness.
virtual void WorldTick() {}
//
//virtual ui void RenderFrame(RenderEvent e) {}
virtual ui void RenderOverlay(RenderEvent e) {}
//
virtual void PlayerEntered(PlayerEvent e) {}
virtual void PlayerRespawned(PlayerEvent e) {}
virtual void PlayerDied(PlayerEvent e) {}
virtual void PlayerDisconnected(PlayerEvent e) {}
//
virtual ui bool UiProcess(UiEvent e) { return false; }
virtual ui bool InputProcess(InputEvent e) { return false; }
virtual ui void UiTick() {}
virtual ui void PostUiTick() {}
//
virtual ui void ConsoleProcess(ConsoleEvent e) {}
virtual void NetworkProcess(ConsoleEvent e) {}
//
virtual void CheckReplacement(ReplaceEvent e) {}
//
virtual void NewGame() {}
// this value will be queried on Register() to decide the relative order of this handler to every other.
// this is most useful in UI systems.
// default is 0.
native readonly int Order;
native void SetOrder(int order);
// this value will be queried on user input to decide whether to send UiProcess to this handler.
native bool IsUiProcessor;
// this value determines whether mouse input is required.
native bool RequireMouse;
}
class EventHandler : StaticEventHandler native version("2.4")
{
clearscope static native StaticEventHandler Find(class<StaticEventHandler> type);
clearscope static native void SendNetworkEvent(String name, int arg1 = 0, int arg2 = 0, int arg3 = 0);
}
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