Scripting: Conventions – Arma Reforger
Jump to navigation
Jump to search
Lou Montana (talk | contribs) m (Fix Doxygen link) |
Lou Montana (talk | contribs) m (Fix example) |
||
Line 213: | Line 213: | ||
<enforce> | <enforce> | ||
[ | [EntityEditorProps("GameScripted/SomeFolder", "Description of this component", "255 0 0 255", true, true, "", "box", "-0.25 -0.25 -0.25", "0.25 0.25 0.25", "0 0 0 0")] | ||
class SCR_SomeComponentClass | class SCR_SomeComponentClass | ||
{ | { |
Revision as of 20:43, 15 June 2023
Tag
To prevent conflict with other scripts all classes, and global functions must be distinguished by a Tag.
Bohemia Interactive scripts have been prefixed with SCR_. A mod developer must choose their own tag and not use one already taken by Bohemia Interactive or another developer.
When modding any class, all methods and variables within that modded class must also be distinguished by the same unique tag to prevent conflict.
File/Class
- File should be called TAG_MyObject.c
- A component must end with "component": TAG_ExampleComponent.c
- An entity must end with "entity': TAG_ExampleEntity.c
- Class should be called the same (without file extension):
- class TAG_MyObject
- class TAG_ExampleComponent
- class TAG_ExampleEntity
- Enum:
- name must be prefixed with a capital E, e.g TAG_EMyEnum
- values use all capital letters with words separated by underscores, e.g TAG_EMyEnum.VALUE_1
- The file should be located in the scripts
\Game directory - The use of plural is prohibited at the end of combined keywords: e.g TAG_NotificationsComponent → TAG_NotificationComponent
Method
- Functions/Methods naming uses PascalCase, e.g:
- Parameters are named with camelCase, e.g:
Variable
- Member variables are prefixed with m_, a one-letter type prefix for specific types (see Value types), and use PascalCase, e.g:
- Global variables are prefixed with g_.
- Static variables are prefixed with s_ (constants are not), eventually a one-letter type prefix, and use PascalCase, e.g
- Local variables and arguments (method parameters) use camelCase, e.g:
- Constant values use all capital letters with words separated by underscores (uppercase snake casing), e.g:
Script
General
- Curly braces must always be on a new line - Enforce Script uses Allman style
- Variables and functions should be protected whenever possible (respecting OOP black box principle) unless they are intended to be exposed
- Getters/Setters: variables should be made protected and accessed through getters and setters (entry methods getting/setting the value)
class SCR_HumanComponent : ScriptComponent
{
private int m_iAge;
void SetAge(int age)
{
m_iAge = age;
PrintFormat("Age of instance %1 is now %2", this, m_iAge);
}
int GetAge()
{
return m_iAge;
}
}
Spacing
- Tabs are used for indentation - they are set to a size of 4 spaces in Script Editor
- A space is used before and after:
- a binary operator
- a foreach colon
- a class' inheritance colon
- A space is used after:
- if, for, foreach, switch, while keywords
- a for semicolon
- Spaces are used inside parentheses but not around their content
class SCR_HumanComponent : ScriptComponent
{
if (true)
{
}
for (int i = 0; i < 10; i++)
{
}
foreach (string item : stringArray)
{
}
switch (value)
{
case 42:
break;
}
while (true)
{
}
}
Method
- All methods must be separated using this sequence of characters: two slashes followed by 96 dashes (see Example)//------------------------------------------------------------------------------------------------
- Documentation must be done with Doxygen support in mind, using the
/ /! syntax (see Example) - Methods should be sorted in the following order (top to bottom):
- General methods
- EOnFrame
- EOnInit
- Constructor
- Destructor
//! A scripted entity
class SCR_ScriptedEntity : GenericEntity
{
//------------------------------------------------------------------------------------------------
//! Get the normalized direction vector at position A pointing to B
//! \param vectorA First position, direction origin
//! \param vectorB Second position, direction goal
//! \return The direction from A to B as a normalized vector
private vector GetNormalizedDirection(vector vectorA, vector vectorB)
{
vector dir = vectorB - vectorA;
return dir.Normalized();
}
//------------------------------------------------------------------------------------------------
//! Frame
override void EOnFrame(IEntity owner, float timeSlice)
{
vector direction = GetNormalizedDirection(owner.GetOrigin(), vector.Zero);
Print("OnFrame was called! Direction: " + direction);
}
//------------------------------------------------------------------------------------------------
//! Init
override void EOnInit(IEntity owner)
{
Print("Init was called!");
}
//------------------------------------------------------------------------------------------------
//! Constructor
void SCR_ScriptedEntity(IEntitySource src, IEntity parent)
{
SetEventMask(EntityEvent.INIT | EntityEvent.FRAME | EntityEvent.CONTACT);
SetFlags(EntityFlags.ACTIVE, true);
}
//------------------------------------------------------------------------------------------------
//! Destructor
void ~SCR_ScriptedEntity()
{
Print("Destructing SCR_ScriptedEntity");
}
}
Miscellaneous
- class instanciation with the new keyword must use parentheses:SCR_Class myClass = new SCR_Class(); // correct SCR_Class myClass = new SCR_Class; // wrong
- same with arrays:
Modability
Example
[EntityEditorProps("GameScripted/SomeFolder", "Description of this component", "255 0 0 255", true, true, "", "box", "-0.25 -0.25 -0.25", "0.25 0.25 0.25", "0 0 0 0")]
class SCR_SomeComponentClass
{
}
SCR_SomeComponentClass SCR_SomeComponentSource;
//! Flags used for an entity to define its currently active components.
enum SomeFlags
{
MESH = 1,
BODY = 2,
HIERARCHY = 4
NET = 8
}
//! A brief explanation of what this component does.
//! The explanation can be spread across multiple lines.
//! This should help with quickly understanding the script's purpose.
class SCR_SomeComponent : ScriptComponent
{
//! Defines the minimum distance (in metres) for this object to render. If below this value, object will be culled.
const float RENDER_DISTANCE_MINIMUM = 10;
//! Defines the maximum distance (in metres) for this object to render. If above this value, object will be culled.
const float RENDER_DISTANCE_MAXIMUM = 100;
//! Defines the maximum distance at which this object will be rendered in metres.
[Attribute("30.0", UIWidgets.Slider, "The maximum distance at which this object will be rendered in metres.", "0 120 0.1")]
private float m_fRenderDistance;
//! Maximum count of children that can be spawned at any time. If the limit is exceeded no more children are spawned.
[Attribute("100.0", UIWidgets.EditBox, "Maximum count of children that can be spawned at any time. If the limit is exceeded no more children are spawned.", "0 500 1")]
private int m_iMaximumChildCount;
//! The offset of this object in metres.
private vector m_vPositionOffset = "0 0 0";
//! A public variable
float m_fSomethingPublic = 3.2;
//! A public vector
vector m_vOtherPublic = "1 2 3";
//------------------------------------------------------------------------------------------------
//! Returns the render distance of this object (metres).
float GetRenderDistance()
{
return m_fRenderDistance;
}
//------------------------------------------------------------------------------------------------
//! Set the render distance of this object.
//! \param renderDistance Distance in metres. Is clamped between RENDER_DISTANCE_MINIMUM and RENDER_DISTANCE_MAXIMUM.
void SetRenderDistance(float renderDistance)
{
m_fRenderDistance = Math.Clamp(renderDistance, RENDER_DISTANCE_MINIMUM, RENDER_DISTANCE_MAXIMUM);
}
//------------------------------------------------------------------------------------------------
//! Prints hello to the debug console. Private function, not exposed to outside classes.
private void SayHello()
{
string localString = "Hello!";
Print(localString);
}
//------------------------------------------------------------------------------------------------
//! Compare two integers, return the larger one. (Don't mind the silly documentation, mind the syntax)
//! \param a First parameter to be compared with the second one
//! \param b Second parameter to be compared with the first one
//! \return Returns true if a is equal to b, false otherwise.
bool IsEqual(int a, int b)
{
// can be simplified to "return a == b;"
if (a == b)
return true;
else
return false;
}
//------------------------------------------------------------------------------------------------
override void EOnInit(IEntity owner)
{
Print("Initialized some component!");
}
//------------------------------------------------------------------------------------------------
void SCR_SomeComponent(IEntityComponentSource src, IEntity ent, IEntity parent)
{
ent.SetEventMask(EntityEvent.INIT);
// If offset is 0, no need to update
if (m_vPositionOffset != "0 0 0")
{
// Get current transformation matrix, add the position offset and update transformation.
vector mat[4];
ent.GetTransform(mat);
mat[3] = mat[3] + m_vPositionOffset;
ent.SetTransform(mat);
}
}
//------------------------------------------------------------------------------------------------
void ~SCR_SomeComponent()
{
}
}