Model Config: Difference between revisions

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m (Changed the line 'this animate ['ModelClassName',1];' to 'statement = "this animate ['AnimClassName',1];"; // executed when action triggered' in class UserActions in the example of config.cpp model.cpp relationship)
m (Added tailRotorHFullyDestroyed)
Line 454: Line 454:
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|RotorHFullyDestroyed (A3) || 0 by default, 1 if the main rotor has been destroyed by impact || Helicopter
|RotorHFullyDestroyed (A3) || 0 by default, 1 if the main rotor has been destroyed by impact || Helicopter
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|tailRotorHFullyDestroyed (A3) || 0 by default, 1 if the tail rotor has been destroyed by impact || Helicopter
|-  
|-  
|altSurface(A3) || ? || ?
|altSurface(A3) || ? || ?

Revision as of 11:09, 3 November 2014

Description

The model configuration file (model cfg for short) is the interface between a (P3D) model and the program.
It is a look-up table which is processed during the binarization process, to tell the program what the various sections of the model are, which skeleton it uses and how it is animated.

This system is more flexible than the one previously used, because all the information is stored for the model and not for the object class in the main configuration file. This means that several object classes can use the same model and don't have to define the animations for this model seperately.

A goal of the system is to seperate the configuration of models into a designer and an artist part.
This is done by the introduction of a class AnimationSources in the main configuration file (the designer part) and the continuing use of the class Animations in the model cfg (the artist part).

Most models will be able to inherit definitions from basic definitions on higher levels in the data hierarchy. An example hierarchy is described and illustrated below.

p:\ofp2\vehicles\model.cfg - Defines a class Default.
p:\ofp2\vehicles\land\wheeled\model.cfg - Defines a class Car.
p:\ofp2\vehicles\land\wheeled\landrover\model.cfg - Defines a class LandRover.

p:\ofp2\vehicles\land\wheeled\landrover\lr6x6_3 - In the model is a property config=LandRover (this feature is not implemented and may never be).
p:\ofp2\vehicles\land\wheeled\landrover\lr6x6_mg240 - Has a LR6x6_MG240.cfg, which inherits from class LandRover and adds definitions for a turret.


Sample tree hierarchy


Notes

At this stage the file is parsed during the binarization of a model and animations can be played in the program with user actions. Eventually they can be previewed using the Buldozer viewer.

The model cfg follows a set of naming conventions. There can be several model cfg files, named by default model.cfg, named after the folder name or named after a specific model. In the case that both a model.cfg and <foldername>.cfg are present, only the latter is parsed. The <modelname>.cfg is parsed alongside of the other model cfg files and therefore the model can be seen as an additional level in the hierarchy.

When we have an example folder called humr with a model called hmmwv.p3d, we can use the following names: model.cfg or humr.cfg and next to that a hmmwv.cfg.

In the future a model may support a named property called config, which tells the model which class in the model cfg to use. There is some doubt whether this feature will be implemented though.

There are model cfg files that do not relate directly to a specific model, but are used for the generic base class definitions, such as class Default.

The functionality of the animations has been extended, allowing to do in scripting what was done before using RTM animations. In addition, animation controllers were introduced, which allow for the control of different animations at the same time. This opens up possibilities like having several turrets on a tank.

The model cfg and main configuration file (where classes cfgModels, cfgSkeletons and Animations were previously defined) operate together to smooth the change from the old to the new system. When a model cfg and the main configuration file both define the same model, the model cfg takes precedence.


Segments

cfgModels

This segment defines all properties of each model. The class names correspond to the model name.
Here you define which sections the model has, which skeleton it uses and its animations.

//Declare base classes
class CarAnimations 
{
   class IndicatorSpeed;
};

class CfgModels
{
   class Car; //Declare base class.

   class Vodnik: Car 
   {
      sectionsInherit = "Car"; //Inherit all sections from class Car.
                               //Add new section.
      sections[] =
      {
         "section1"
      };
      skeletonName = "Vodnik"; //Use the Vodnik skeleton.
		
      class Animations: CarAnimations //Inherit from generic animations.
      {
         class IndicatorSpeed: IndicatorSpeed //Redefine the maximum value
         {                                    //for the speed indicator.
            maxValue = 40;
         };
      };
   };
};


cfgSkeletons

This segment defines the skeleton for the model and the bones that it uses.

class CfgSkeletons 
{ 
   class Car; //Define base class.

   class Vodnik: Car
   {
      skeletonInherit = "Car"; //Inherit all bones from class Car.
      skeletonBones[] =        //Add two new bones. The movement
      {                        //of bone2 is linked to bone1.
         "bone1", ""
         "bone2", "bone1"
      };
      pivotsModel = ""; // Location of pivot points (local axes) for hierarchical animation. (A2 only)
      isDiscrete = 1; /// 1 stands for discrete skinning values (0 or 100 % for each vertex of every selection), 0 stands for non-discrete (each vertex may have different skinning values for selections - animations have just partial effect on that vertex)
   };
};

Animations

This segment is part of class cfgModels and defines all animations used by the model.

class Animations 
{
   class FrontWheelR
   {
      type = "rotationX"; //The type of animation.
      source = "wheel";   //The controller that provides input.
      selection = "pravy predni"; //The name of the skeleton bone used.
      axis = "";                  //The name of the axis in the model.
      memory = true; //Is the axis defined in the memory level of the
                     //model or not?
      sourceAddress = "loop"; //Does the animation loop or not?
      minValue = 0; //The minimum value of the motion range.
                    //i.e. The controller input when animation phase is 0.
      maxValue = 1; //The maximum value of the motion range.
                    //i.e. The controller input when animation phase is 1.
      angle0 = 0;   //The starting angle of this animation, where the
                    //animation phase is 0.
      angle1 = "rad -360"; //The ending angle of this animation,
   };                      //where the animation phase is 1.
};


Animation sources

source= is the controller that provides the data to the animation phase. It is declared in in cfgModels.ModelName.class Animations{...}. Inbuilt controllers are listed below. Custom controllers (source=user) can be constructed in config.cpp using cfgVehicles.ModelName.class AnimationSources{...} together with cfgVehicles.ModelName.class UserActions{...}

Controller names marked by * are freely defined by vehicle turret configs. The values here show the names commonly used for ArmA vehicles.

Name Description Simulation Classes
altBaro The baro altitude. Aircraft
altRadar The radar altitude. Aircraft
cyclicAside rotor mast machinery (or rotor) animations based on cyclic controls Helicopter
cyclicForward rotor mast machinery (or rotor) animations based on cyclic controls Helicopter
gear The vehicle's gear. Aircraft
horizonBank The banking angle of the vehicle. Aircraft
horizonDive The diving angle of the vehicle. Aircraft
vertSpeed The vertical speed. Aircraft
aileron The main aileron control surfaces. Airplane
aileronB The bottom speed brake as opening ailerons. Airplane
aileronT The top speed brake as opening ailerons. Airplane
aoa The Angle Of Attack. Airplane
elevator The elevators. Airplane
flap The flaps. Airplane
rotor The rotors. Airplane
rudder The rudder. Airplane
speedBrake The speed brake. Airplane
direction The orientation of the vehicle. Any
fuel The fuel level. Any
oil IndicatorOilTemp ?
gmeter The G-forces. Any
rpm The rpm of the vehicle. Used in rpm indicators. Any(except Ship)
speed The speed of the vehicle. Used in speed indicators. (WARNING: 'maxValue' and 'minValue' should be in meters per second) Any
time Timer-based input. Any
clockHour
The current time in hours. Any (including e.g. Weapon)
clockMinute The current time in minutes. Derived from clockHour. Any (including e.g. Weapon)
clockSecond The current time in seconds. Moves discreetly every second and independently from clockHour. Any (including e.g. Weapon)
damage Current damage level (0=healthy, 1=destroyed) Any
user User defined (script driven) animation Any
direct Like user, but immediate, no smooth transition. Any
pedals The pedals. Bicycle
damper The suspension of the vehicle. Currently only works with type translationY. Car, Tank, Aircraft, Motorcycle
FrontDamper The suspension of the front wheels of the vehicle. Car?
BackDamper The suspension of the back wheels of the vehicle. Car?
drivingWheel The orientation of the steering wheel. Used for the steering wheel and steered wheels. Car, Ship, Motorcycle
*mainGun The main gun. Car, Tank, Helicopter, Ship
*mainTurret The main turret. Car, Tank, Helicopter, Ship
wheel Normal wheels that turn based on moving forward. Car, Airplane, Motorcycle
noseWheelTurn Airplane
compassArrow The arrow. Compass
compassCover The cover. Compass
compassPointer The pointer. Compass
rotorH The 'horizontal' rotor. Helicopter
rotorV The 'vertical' rotor. Helicopter
rotorHDive Tilt of the 'horizontal' rotor. Helicopter
rotorVDive Tilt of the 'vertical' rotor. Helicopter
support The support stand. Motorcycle
*hatchCommander The commander hatch. Tank
hatchDriver The driver hatch. Tank
*hatchGunner The gunner hatch. Tank
*obsGun The observer or commander gun. Tank
*obsTurret The observer or commander turret. Tank
reload The movement when reloading. Weapon
revolving The movement when firing. Weapon
isempty The animation to hold the bolt open when the weapon is empty. Weapon
turretDir The orientation of the turret. Tank
wheelL The left track wheels. Tank
wheelR The right track wheels. Tank
scudLauncher Phase of scudlaunch. Scud
flag Runs from 0 to 1 as flag is taken from flagpole. Flagcarrier
airspeedIndicatorRTD speed / maxSpeed RTD helicopter
altBaroRTD altitude in meters RTD helicopter
vertSpeedRTD vertical speed / max speed RTD helicopter
attitudeBankRTD radians RTD helicopter
attitudeDiveRTD radians RTD helicopter
skidRTD speed / helicopter >> maxSpeed RTD helicopter
altRadarRTD altitude above ground in meters RTD helicopter
rpm1RTD engine 1 rmp / designed max rpm RTD helicopter
rpm2RTD engine 2 rmp / designed max rpm RTD helicopter
rpm3RTD engine 3 rmp / designed max rpm RTD helicopter
temp1RTD engine 1 temperature / helicopter >> DamagePropertiesRTD >> maxEngineTemperature RTD helicopter
temp2RTD engine 2 temperature / helicopter >> DamagePropertiesRTD >> maxEngineTemperature RTD helicopter
temp3RTD engine 3 temperature / helicopter >> DamagePropertiesRTD >> maxEngineTemperature RTD helicopter
torqueRTD torque / helicopter >> DamagePropertiesRTD >> maxTorque RTD helicopter
mainRotorRPMRTD Main Rotor RPM / designed max RPM RTD helicopter
tailRotorRPMRTD Tail Rotor RPM / designed max RPM RTD helicopter
collectiveRTD collective (0, -1) RTD helicopter
rudderRTD Pedals (-1, 1) RTD helicopter
throttleRTD1 (0, 1) RTD helicopter
throttleRTD2 (0, 1) RTD helicopter
throttleRTD3 (0, 1) RTD helicopter
torqueEng1RTD (0, 1) RTD helicopter
torqueEng2RTD (0, 1) RTD helicopter
torqueEng3RTD (0, 1) RTD helicopter
IsEmptyNoReload (A3) 1 when empty and not reloading magazine Weapon
reloadMagazine (A3) Phase of magazine reload. 0 at the beginning and 1 at reloadTime. Weapon
ammoRandom (A3) Random value changing with every shoot fired from given magazine. Weapon
zeroing (A3) Current position in discreteDistance array for given muzzle. Weapon
zeroing2 (A3) Current position in discreteDistance array for second muzzle. Weapon
hasOptics (A3) Binary value of weapon having active optics in its TOP slot. Weapon
hasAccessory (A3) Binary value of weapon having active accessory item. Weapon
hasSuppressor (A3) Binary value of weapon having active muzzle item. Weapon
hasMagazine (A3) Binary value of weapon having active magazine. Weapon
weaponMode (A3) Current position in modes[] array of a weapon. Useful for fire selector switches etc. Weapon
weaponMuzzle (A3) Current position in muzzles[] array of a weapon. Useful for ladder sights that deploy when grenade launcher muzzle is selected. Weapon
isSelected (A3) Returns if the weapon is currently selected. Weapon
Throttle (A3) How much is the throttle used (0-1) Transport
Brake (A3) How much is the brake used (0-0.5) Transport
maxHoldsterValue (A3) holdsterAnimValue of currently selected weapon Transport
RotorHFullyDestroyed (A3) 0 by default, 1 if the main rotor has been destroyed by impact Helicopter
tailRotorHFullyDestroyed (A3) 0 by default, 1 if the tail rotor has been destroyed by impact Helicopter
altSurface(A3) ? ?
collisionLights(A3) Position lights ?
CollisionLightRed_source(A3) ? ?
CollisionLightWhite_source(A3) ? ?
CollisionLightGreen_source(A3) ? ?
Animation types

This table outlines the Animation Types you can use for an animation class.


Type Description
rotation Circular motion.
rotationX Idem, but locked to the X axis.
rotationY Idem, but locked to the Y axis.
rotationZ Idem, but locked to the Z axis.
translation Motion along one axis.
translationX Idem, but locked to the X axis.
translationY
Idem, but locked to the Y axis.
translationZ Idem, but locked to the Z axis.
hide Hide once given threshold is reached
direct Rotation and/or translation (without using selection in model as axis)
Animation Properties

This table outlines the properties (or entries) that each defined animation class expects to be present based on the animation type that is specified.

Eg. If you specify a an animation type of 'rotationX' you must specify the animation properties 'angle0' and 'angle1'.


Property Description Animation Type
source Controller used for input. Any
selection Skeleton bone. Any
axis
Model axis. Any
begin
Starting point of an oriented model axis.
This can be used in combination with end instead of axis.
Any
end
Ending point of an oriented model axis.
This can be used in combination with begin instead of axis.
Any
memory Optional (default is true). Axis in memory level or not? Any
animPeriod Time in seconds for one animation cycle.
Only used by user controllers.
Any
minValue Minimum value of the motion range. i.e. Controller input when the animation phase is 0. Any
maxValue Maxmimum value of the motion range. i.e. Controller input when the animation phase is 1. Any
minPhase Minimum phase of the animation.i.e.
Animation phase when the controller value is 0.
Any
maxPhase Maxmimum value of the motion range.i.e.
Animation phase when the controller value is 1.
Any
sourceAddress Does the animation loop or not? This can be any of three different values: clamp (default), loop or mirror. Any
angle0 Starting angle of this animation, where the animation phase is 0. Rotations
angle1 Ending angle of this animation, where the animation phase is 1. Rotations
offset0 Starting offset of this animation, where the animation phase is 1. Translations
offset1 Ending offset of this animation, where the animation phase is 1. Translations
hideValue Threshold for hiding Hide
unHideValue (A3 only) Threshold for unhiding Hide
axisPos[] Position of axis in model space Direct
axisDir[] Direction of axis (vector) Direct
angle Angle of rotation in degrees! Direct
axisOffset Used for translation Direct

AnimationSources

This is not part of the model cfg, but part of the main configuration file. This class allows you to define new user controllers or modify selected properties of existing controllers.

Defining custom controllers makes it possible to use one custom controller for several different animations. If an animation does not define the source parameter, the program looks for a custom controller defined in this class with the same name.

It is also possible to override an existing controller using this class, but be extremely careful in this case. The custom controller will hide the original one, leaving the latter inaccessible. Overriding is done using the :: notation in the source parameter as can be seen in the third example.


class AnimationSources
{
   class MachineGun
   {
      source = "reload"; //The controller used for the definition of
                         //this controller.
      weapon = MachineGun25W; //In the specific case of using the reload
   };                         //controller, the weapon class name.
};
class AnimationSources
{
   //Used by animations called Door1, which don't define the source
   //parameter or by animations that define source = Door1;.
   class Door1 
   {
      source = "user"; //The controller is defined as a user animation.
      animPeriod = 1;  //The animation period used for this controller.
      initPhase=1;     //Initial phase when object is created.
   };
};
class AnimationSources
{
   class wheel
   {
      source = "::wheel"; //Overriding the existing wheel controller.
   };
};

config.cpp model.cfg relationship

Below is the class name relationship between the two for a user, (or modified), source. Poetic licence used

class cfgModels
{
 class NameOfP3d
 {
  class Animations
  {
   class ModelClassName
   {
    selection=BoneName;
    source=AnimClassName; //optional
    source=user;          //optional. default AnimClassName==ModelClassName
   };
  };
 };
};
class cfgvehicles
{
 class ModelName
 {
   class AnimationSources
   {
    class AnimClassName
    {
     AnimPeriod=1;             // mandatory. in seconds. 
     source = "user";          // optional. default=user
     InitPhase=1;              // optional (default =0)
     weapon = WeaponClassName; // only for source=reload;
    };
  };
  class UserActions
  {
    class MeaninglessName
    {
      ......
      onlyforplayer = true/false;        //mandatory
      statement = "this animate ['AnimClassName',1];"; // executed when action triggered
    };
  };
 };
};
  • most constructions avoid confusion: AnimClassName==ModelClassName==BoneName
  • the word 'user' in both cfg and cpp appears to be, a) redundant, b) the default

Example

You can find a howto for the CfgModels (a working attack helicopter) here as well as a howto on cfgModels & cfgSkeletons with additional description and examples here.