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An entity’s '''Think()''' function is the root gateway for executing its code without the need of [[inputs]]. It is called once on spawn, with any subsequent calls decided by the programmer. This page describes the functions needed to set up an automated "think loop".
{{LanguageBar}}
[[File:Entity init.png|right|130px|The Source engine entity initialization process.]]


{{note|Think functions should usually be added to the entity's [[DATADESC]] with <code>DEFINE_THINKFUNC</code>, to prevent changes in behaviour when restoring a saved game.}}
'''Think functions''' allow entities to schedule code to be run in the future. By constantly rescheduling thinks, automated loops can be created that make an entity autonomous.


{{tip|Use [[#ClientThink()|ClientThink()]] to have an entity think exactly once per frame.}}
== Scheduling ==
<code>SetNextThink()</code> is used to configure when an entity should next think. It accepts a [[float]] value.


=== SetNextThink() ===
<source lang=cpp style="background:initial">
void CMyEntity::Spawn()
{
BaseClass::Spawn();
SetNextThink( gpGlobals->curtime ); // Think now
}


*Defines when the entity next automatically thinks.
void CMyEntity::Think()
*Accepts a [[Wikipedia:Floating point|floating point]] value.
{
* New values override old.
BaseClass::Think(); // Always do this if you override Think()


void CMyEntity::Think()
Msg( "I think, therefore I am.\n" );
{
SetNextThink( gpGlobals->curtime + 1 ); // Think again in 1 second
Msg( "I think, therefore I am.\n" );
}
SetNextThink( gpGlobals->curtime + 1.0f ); // Think again in 1.0 seconds
</source>
}
 
Notice the use of <tt>gpGlobals->curtime</tt> to make the value passed relative to the time of execution.
{{tip|<code>SetNextThink(-1)</code> will cancel any future thinks. This is better than <tt>SetNextThink(NULL)</tt>, because <tt>TICK_NEVER_THINK</tt> is -1.}}
 
== New Think Functions ==
An entity can have any number of additional think functions. To register a new one:
# Ensure the function is <tt>void</tt>.
# Add it to the entity's [[DATADESC]] with <tt>DEFINE_THINKFUNC()</tt>.
# Call <code>SetThink()</code> and pass a pointer to the function (see example below).
# Ensure <code>DECLARE_DATADESC();</code> is in your class.
 
<source lang=cpp>
BEGIN_DATADESC( CMyEntity )
DEFINE_THINKFUNC( MyThink ), // Register new think function
END_DATADESC()
 
void CMyEntity::Spawn()
{
BaseClass::Spawn();
SetThink( &CMyEntity::MyThink ); // Pass a function pointer
SetNextThink(gpGlobals->curtime);
}
 
void CMyEntity::MyThink()
{
Msg( "I think, therefore I am.\n" );
SetNextThink( gpGlobals->curtime + 1 );
}
</source>
 
Splitting your think code into different functions makes it easy to switch an entity between modes of operation.
{{tip|<code>SetThink()</code> can be called from within a think function, too. The next call will be to the new function.}}


This code causes the entity to print a message to the console once per second. Note the use of <code>gpGlobals->curtime</code>, which returns the time of execution, and <code>f</code>, which tells the C++ compiler that we are submitting a floating-point value and not an [[Wikipedia: Integer (computer science)|integer]].
== Using Contexts ==
It is possible to schedule any number of think functions side-by-side with "think contexts." To create a new context:
# Call <code>RegisterThinkContext([[string]] ContextName)</code>
# Call <code>SetContextThink([[void]]* Function, float NextThinkTime, string ContextName)</code>
# For subsequent thinks, call <code>SetNextThink(float NextThinkTime, string ContextName)</code>


{{tip|<code>SetNextThink( 0 )</code> or <code>SetNextThink( null )</code> will pause automatic thinking.}}
<source lang=cpp>
BEGIN_DATADESC( CMyEntity )
DEFINE_THINKFUNC( ContextThink ),
END_DATADESC()


=== SetThink() ===
void CMyEntity::Spawn()
{
SetNextThink( gpGlobals->curtime ); // Default think loop - no context
RegisterThinkContext( "TestContext" );
SetContextThink( &CMyEntity::ContextThink, gpGlobals->curtime, "TestContext" );
}


*Changes the active automatic think function
void CMyEntity::Think()
*Accepts a function [[Wikipedia: Pointer (computing)|pointer]]: add ‘&’ before the name and omit its closing parentheses.
{
* New values override old.
BaseClass::Think();


void CMyEntity::Think()
Msg( "Think\n" );
{
SetNextThink( gpGlobals->curtime + .1 );
Msg( "I think, therefore I am.\n" );
}
SetThink( &CMyEntity::Think2 ); // Think with this function next
SetNextThink( gpGlobals->curtime + 1.0f );
}
void CMyEntity::Think2()
{
Msg( "Variety is the spice of life.\n" );
SetThink( &CMyEntity::Think ); // Think with this function next
SetNextThink( gpGlobals->curtime + 1.0f );
}


This code switches thinking between two functions. A real-world application is to change an entity between various life stages: consider [http://forums.gamedesign.net/viewtopic.php?t=3702 a buildable gun turret]. One think function would run while it waits to be unpackaged, another while it is being built, another while it is active, and a fourth when it dies. Creating think functions for each discrete stage increases code stability and aids debugging.
void CMyEntity::ContextThink()
{
Msg( "Context think\n" );
SetNextThink(gpGlobals->curtime + .2, "TestContext" );
}
</source>


=== GetLastThink() ===
This creates two simultaneous think loops, both writing to the console at different rates.
{{tip|Creating a new context is a great way to delay function calls to the future without upsetting existing think loops.}}


A utility function that returns the time of the entity’s last think as a floating point value.
== Utilities ==
These should be self-explanatory:


float dt = gpGlobals->curtime - GetLastThink();
<source lang=cpp>
SetAltitude( m_flAltitude + m_flBarnaclePullSpeed * dt ); // Change tongue altitude
float GetLastThink()
float GetNextThink()
int GetLastThinkTick()
int GetNextThinkTick()
</source>


[[Image:Barnacle.jpg|right|50px|npc_barnacle]]
[[File:Barnacle.jpg|right|50px|link=npc_barnacle]]


This real-world think code for [[npc_barnacle]] modulates the speed of tongue movement, even if the frequency of thinking changes. <code>dt</code> is short for “delta time”.
The <code>GetLast</code> functions are useful for controlling the rate at which something occurs.
This think code from {{ent|npc_barnacle}} modulates the speed of tongue movement, even if the frequency of thinking changes:


{{note|For smooth animation this code would need to be executed every frame. This is exactly what happens, until the barnacle is no longer in the [[PVS]] and the rate is slowed down – thus requiring the above modulation.}}
<source lang=cpp>
float dt = gpGlobals->curtime - GetLastThink(); // dt is "delta time"
SetAltitude( m_flAltitude + m_flBarnaclePullSpeed * dt ); // Change tongue altitude
</source>


===  ClientThink()  ===
For its non-[[skeletal]] animation to be smooth, this code would need to be executed every frame. This is exactly what happens, until the barnacle is no longer in the player's [[PVS]] and the rate is slowed down—thus requiring the above code.


Thinking can also occur on the client, but its effects are limited. Additionally, only one think function is supported for each entity.
==<tt>ClientThink()</tt>==
Thinking can also occur on the client, but its effects are limited. Only one think function is supported for each entity.


  void C_MyEntity::ClientThink()
  <span style="color:blue;">void</span> C_MyEntity::ClientThink()
  {
  {
  Msg( "Don't put anything [[expensive]] in this function!\n" );
  Msg( <span style="color:brown;">"Don't put anything [[expensive]] in this function!\n"</span> );
  SetNextClientThink( CLIENT_THINK_ALWAYS ); // Think every frame
  SetNextClientThink( CLIENT_THINK_ALWAYS ); <span style="color:green;">// Think every frame</span>
  }
  }


Line 70: Line 127:
* Visual effects / particles
* Visual effects / particles
* VGUI screen interaction
* VGUI screen interaction
* Modifying player speed (calculated on the client as well as server to avoid lag)
* Modifying player speed (done on the client as well as server to avoid [[prediction]] errors)
* Striders’ legs snapping ropes (disabled by default)
* Striders’ legs snapping ropes (disabled by default)


==== SetNextClientThink() ====
<code>SetNextClientThink()</code> is used to schedule <code>ClientThink()</code>. There are two special values it accepts:


Used to re-fire <code>ClientThink()</code>. In addition to normal float values, it accepts:
; <tt>CLIENT_THINK_ALWAYS</tt>: Think on the client once every frame. Use with caution! {{tip|Use <code>gpGlobals->frametime</code> to regulate speed.}}
 
; <tt>CLIENT_THINK_NEVER</tt>: Pause all automated client thinking.
;CLIENT_THINK_ALWAYS
:Think on the client once every frame. Use with caution!
:''Replaces Simulate().''
;CLIENT_THINK_NEVER
:Pause all automated client thinking.


[[Category:AI]]
[[Category:Functions]]
[[Category:Programming]]
[[Category:Programming]]
[[Category:Functions]]

Latest revision as of 00:54, 24 August 2024

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The Source engine entity initialization process.

Think functions allow entities to schedule code to be run in the future. By constantly rescheduling thinks, automated loops can be created that make an entity autonomous.

Scheduling

SetNextThink() is used to configure when an entity should next think. It accepts a float value. 

void CMyEntity::Spawn()
{
	BaseClass::Spawn();
	SetNextThink( gpGlobals->curtime ); // Think now
}

void CMyEntity::Think()
{
	BaseClass::Think(); // Always do this if you override Think()

	Msg( "I think, therefore I am.\n" );
	SetNextThink( gpGlobals->curtime + 1 ); // Think again in 1 second
}

Notice the use of gpGlobals->curtime to make the value passed relative to the time of execution.

Tip.pngTip:SetNextThink(-1) will cancel any future thinks. This is better than SetNextThink(NULL), because TICK_NEVER_THINK is -1.

New Think Functions

An entity can have any number of additional think functions. To register a new one:

  1. Ensure the function is void.
  2. Add it to the entity's DATADESC with DEFINE_THINKFUNC().
  3. Call SetThink() and pass a pointer to the function (see example below).
  4. Ensure DECLARE_DATADESC(); is in your class.
BEGIN_DATADESC( CMyEntity )
	DEFINE_THINKFUNC( MyThink ), // Register new think function
END_DATADESC()

void CMyEntity::Spawn()
{
	BaseClass::Spawn();
	SetThink( &CMyEntity::MyThink ); // Pass a function pointer
	SetNextThink(gpGlobals->curtime);
}

void CMyEntity::MyThink()
{
	Msg( "I think, therefore I am.\n" );
	SetNextThink( gpGlobals->curtime + 1 );
}

Splitting your think code into different functions makes it easy to switch an entity between modes of operation.

Tip.pngTip:SetThink() can be called from within a think function, too. The next call will be to the new function.

Using Contexts

It is possible to schedule any number of think functions side-by-side with "think contexts." To create a new context:

  1. Call RegisterThinkContext(string ContextName)
  2. Call SetContextThink(void* Function, float NextThinkTime, string ContextName)
  3. For subsequent thinks, call SetNextThink(float NextThinkTime, string ContextName)
BEGIN_DATADESC( CMyEntity )
	DEFINE_THINKFUNC( ContextThink ),
END_DATADESC()

void CMyEntity::Spawn()
{
	SetNextThink( gpGlobals->curtime ); // Default think loop - no context 
	
	RegisterThinkContext( "TestContext" );
	SetContextThink( &CMyEntity::ContextThink, gpGlobals->curtime, "TestContext" );
}

void CMyEntity::Think()
{
	BaseClass::Think();

	Msg( "Think\n" );
	SetNextThink( gpGlobals->curtime + .1 );
}

void CMyEntity::ContextThink()
{
	Msg( "Context think\n" );
	SetNextThink(gpGlobals->curtime + .2, "TestContext" );
}

This creates two simultaneous think loops, both writing to the console at different rates.

Tip.pngTip:Creating a new context is a great way to delay function calls to the future without upsetting existing think loops.

Utilities

These should be self-explanatory: 

float	GetLastThink()
float	GetNextThink()
int	GetLastThinkTick()
int	GetNextThinkTick()
Barnacle.jpg

The GetLast functions are useful for controlling the rate at which something occurs. This think code from npc_barnacle modulates the speed of tongue movement, even if the frequency of thinking changes: 

float dt = gpGlobals->curtime - GetLastThink(); // dt is "delta time"
SetAltitude( m_flAltitude + m_flBarnaclePullSpeed * dt ); // Change tongue altitude

For its non-skeletal animation to be smooth, this code would need to be executed every frame. This is exactly what happens, until the barnacle is no longer in the player's PVS and the rate is slowed down—thus requiring the above code.

ClientThink()

Thinking can also occur on the client, but its effects are limited. Only one think function is supported for each entity. 

void C_MyEntity::ClientThink()
{
	Msg( "Don't put anything expensive in this function!\n" );
	SetNextClientThink( CLIENT_THINK_ALWAYS ); // Think every frame
}

Some examples of client-side thinking are:

  • Visual effects / particles
  • VGUI screen interaction
  • Modifying player speed (done on the client as well as server to avoid prediction errors)
  • Striders’ legs snapping ropes (disabled by default)

SetNextClientThink() is used to schedule ClientThink(). There are two special values it accepts:

CLIENT_THINK_ALWAYS
Think on the client once every frame. Use with caution!
Tip.pngTip:Use gpGlobals->frametime to regulate speed.
CLIENT_THINK_NEVER
Pause all automated client thinking.
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