Execute function in functions php

Execute function in functions php

PHP supports the concept of variable functions. This means that if a variable name has parentheses appended to it, PHP will look for a function with the same name as whatever the variable evaluates to, and will attempt to execute it. Among other things, this can be used to implement callbacks, function tables, and so forth.

Variable functions won’t work with language constructs such as echo , print , unset() , isset() , empty() , include , require and the like. Utilize wrapper functions to make use of any of these constructs as variable functions.

Example #1 Variable function example

function bar ( $arg = » )
echo «In bar(); argument was ‘ $arg ‘.
\n» ;
>

// This is a wrapper function around echo
function echoit ( $string )
echo $string ;
>

$func = ‘foo’ ;
$func (); // This calls foo()

$func = ‘bar’ ;
$func ( ‘test’ ); // This calls bar()

$func = ‘echoit’ ;
$func ( ‘test’ ); // This calls echoit()
?>

Object methods can also be called with the variable functions syntax.

Example #2 Variable method example

class Foo
function Variable ()
$name = ‘Bar’ ;
$this -> $name (); // This calls the Bar() method
>

function Bar ()
echo «This is Bar» ;
>
>

$foo = new Foo ();
$funcname = «Variable» ;
$foo -> $funcname (); // This calls $foo->Variable()

When calling static methods, the function call is stronger than the static property operator:

Example #3 Variable method example with static properties

class Foo
static $variable = ‘static property’ ;
static function Variable ()
echo ‘Method Variable called’ ;
>
>

echo Foo :: $variable ; // This prints ‘static property’. It does need a $variable in this scope.
$variable = «Variable» ;
Foo :: $variable (); // This calls $foo->Variable() reading $variable in this scope.

Example #4 Complex callables

$func = array( «Foo» , «bar» );
$func (); // prints «bar»
$func = array(new Foo , «baz» );
$func (); // prints «baz»
$func = «Foo::bar» ;
$func (); // prints «bar»
?>

See Also

User Contributed Notes 6 notes

While the documentation suggests that the use of a constant is similar to the use of a variable, there is an exception regarding variable functions. You cannot use a constant as the function name to call a variable function.

const DEBUGME =’func’;
function func($s)

DEBUGME(‘abc’); // results in a syntax error

$call = DEBUGME;
$call(‘abc’); // does the job

But you can use a constant as an argument to a function. Here’s a simple workaround when you need to call a variable constant function:

function dynamic($what, $with)
$what($with);
>
dynamic(DEBUGME, ‘abc’);

This makes sense to me to hide API’s and/or long (complicated) static calls.
Enjoy!

List of functions that accept variable arguments.
array_diff_assoc ()
array_diff_key ()
array_diff_uassoc ()
array()
array_intersect_ukey ()
array_map ()
array_merge ()
array_merge_recursive ()
array_multisort ()
array_push ()
array_replace ()
array_replace_recursive ()
array_unshift ()
call_user_func ()
call_user_method ()
compact ()
dba_open ()
dba_popen ()
echo()
forward_static_call ()
fprintf ()
fscanf ()
httprequestpool_construct ()
ibase_execute ()
ibase_set_event_handler ()
ibase_wait_event ()
isset()
list()
maxdb_stmt_bind_param ()
maxdb_stmt_bind_result ()
mb_convert_variables ()
newt_checkbox_tree_add_item ()
newt_grid_h_close_stacked ()
newt_grid_h_stacked ()
newt_grid_v_close_stacked ()
newt_grid_v_stacked ()
newt_win_choice ()
newt_win_entries ()
newt_win_menu ()
newt_win_message ()
newt_win_ternary ()
pack ()
printf ()
register_shutdown_function ()
register_tick_function ()
session_register ()
setlocale ()
sprintf ()
sscanf ()
unset()
var_dump ()
w32api_deftype ()
w32api_init_dtype ()
w32api_invoke_function ()
wddx_add_vars ()
wddx_serialize_vars ()
?>

/*
You might have found yourself at this php variable functions page because, like me, you wanted to pass functions
around like objects to client objects as you can in JavaScript. The issue I ran into was although
I could call a function using a variable like this » $v(); «. I could not do it like this » $obj->p() » where
‘p’ is a property containing the name of the method to call. Did not want to save my property off to a variable prior
to making my call: » $v = $obj->p; $v(); «; even if one finds a way, the below applies.

I credit this expanded work to this person: tatarynowicz at gmail dot com;
without them I would not have gotten here.
*/
interface iface_dynamic_members //Use of this interface enables type-hinting for objects that implement it.
public function __call ( $name , $args );
public function __set ( $name , $value );
public function quietly_fail (): bool ;
>
trait trait_has_dynamic_members //Implementing these magic methods in the form of a trait, frees the client object up
//so it can still inherit from a parent-class.
public function __call ( $name , $args ) if ( is_callable ( $this -> $name )) return call_user_func ( $this -> $name , $args );
>
else //Your dynamic-membered object can declare itself as willing to ignore non-existent method calls or not.
if( $this -> quietly_fail ()=== true ) echo ‘Method does not exist, but I do not mind.’ ;
>else echo ‘Method does not exist, I consider this a bug.’ ;
>
>
>
public function __set ( $name , $value ) $this -> $name = is_callable ( $value ) ? $value -> bindTo ( $this , $this ): $value ; //Assignment using ternary operator.
>
>
abstract class MBR_ATTR //A class full of attributes that objects can take on; abstract since not to be instantiated (If I could make it «final» as well, I would).
public static function is_a_walker ( iface_dynamic_members $obj , ? string $walker_type = ‘normal pace’ ) $obj -> walker_type = $walker_type ;
$obj -> walker_walk = function() return «I am walking < $this ->walker_type > .» ;
>;
>
public static function is_a_runner ( iface_dynamic_members $obj , string $runner_type ) $obj -> runner_type = $runner_type ;
$obj -> runner_run = function() return «I am running < $this ->runner_type > .» ;
>;
self :: is_a_walker ( $obj ); //If can run, also can walk.
>
>
class cls_partly_dynamic implements iface_dynamic_members use trait_has_dynamic_members ;
public function quietly_fail (): bool return true ;
>
>
// Report all errors except E_NOTICE
error_reporting ( E_ALL & ~ E_NOTICE ); //Enable all error-reporting except notices.
//—-
//config runner object.
$obj_runner = new cls_partly_dynamic ();
MBR_ATTR :: is_a_runner ( $obj_runner , ‘fast’ );
$obj_runner -> runner_type = ‘a bit slow’ ;
//—-
//config walker object.
$obj_walker = new cls_partly_dynamic ();
MBR_ATTR :: is_a_walker ( $obj_walker , ‘slow’ );
$obj_walker -> walker_type = ‘super fast’ ;
//—-
//Do stuff.
echo ‘walker in action. ‘ . ‘
‘ ;
echo $obj_walker -> walker_walk () . ‘
‘ ;
echo ‘
‘ ;
echo ‘runner in action. ‘ . ‘
‘ ;
echo $obj_runner -> walker_walk () . ‘
‘ ;
echo $obj_runner -> runner_run () . ‘
‘ ;
echo $obj_runner -> xxx () . ‘
‘ ; //Try calling a non-existent method.
//I would agree that the above approach/technique is not always ideal, particulary due to the loss of code-completion in your
//IDE of choice; I would tend to use this approach for dynamic-programming in response to the user dictating processing steps via a UI.
?>

If you are here looking for a function reference, this is NOT how to do it:

function func1 ()< echo "hell0 1" ;>
$choice = func1 ; // no quotes
?>

It works, but $choice is not what you might think, a reference to a function. It is simply the name of the function as a string, written without (!) quotes.

It’s the same as
$choice = «func1» ; // with quotes
?>

You can do echo gettype($choice) to confirm.

So calling
$choice ()
?>
is a variable-function for both cases, calling it by its name, not by reference.

Go via an assigned anonymous function to get a reference to the function:
$func1 = function()< echo "hell0 1" ;>
$func1 = function()< echo "hell0 2" ;>
?>

Now you can pass around the function like a first class object
$choice = $func1 ;
?>
or
$choice = $func2 ;
?>
and call it
$choice ();
?>

If you want to pass around a class method, use the «Complex callables» from the manual, above. It’s a call by name (not a reference), but since you can include the object you can still get the flexibility you want:

class C <
function k () < echo "inside k" ;>
function j ()< echo "inside j" ; return array( $this , "k" );>>;
?>

You can use $this as the object in the first element of the array.
$c = new C ;
$c -> k ();
inside k

$func = $c -> j ();
inside j
?>
And now, le moment supreme:
$func ();
inside k
?>

A small, but helpful note. If you are trying to call a static function from a different namespace, you must use the fully qualified namespace, even if they have the same top level namespace(s). For example if you have the following class to call:

namespace Project \ TestClass ;
class Test static function funcToCall () return «test» ;
>
>
?>
You must call it as:
namespace Project \ OtherTestClass ;
class OtherTest static function callOtherFunc () $func = ‘\Project\TestClass::funcToCall’ ;
$func ();
>
>
?>
and not:
class OtherTest static function callOtherFunc () $func = ‘TestClass::funcToCall’ ;
$func ();
>
>
?>

static bar method works with statically or non statically wherese non static method could not work statically

//non static method
class myCls public function foo () echo «foo function» ;
>
static public function bar () echo «static bar function» ;

$a = new myCls ;
$myf = «foo» ;
$a -> $myf (); //works
echo «\n» ;

$a = [new myCls , «foo» ]; //works
$a ();
echo «\n» ;
//$a = [«myCls»,»foo»];//fatal error
//$a();
echo «\n» ;
//$a = «myCls::foo»;//fatal error
//$a();
echo «\n» ;

//static method called with statically or nonstatically
$b = new myCls ;
$myf = «bar» ;
$b -> $myf (); //works
echo «\n» ;

$b = [new myCls , «bar» ]; //works
$b ();
echo «\n» ;

$b = «myCls::bar» ; //works
$b ();
echo «\n» ;

$b = [ «myCls» , «bar» ]; //works
$b ();
echo «\n» ;

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