Default argument

In computer programming, a default argument is an argument to a function that a programmer is not required to specify. In most programming languages, functions may take one or more arguments. Usually, each argument must be specified in full (this is the case in the C programming language[1]). Later languages (for example, in C++) allow the programmer to specify default arguments that always have a value, even if one is not specified when calling the function.

Default arguments in C++

Consider the following function declaration:

 int my_func(int a, int b, int c=12);

This function takes three arguments, of which the last one has a default of twelve. The programmer may call this function in two ways:

 result = my_func(1, 2, 3);
 result = my_func(1, 2);

In the first case the value for the argument called c is specified as normal. In the second case, the argument is omitted, and the default value of 12 will be used instead.

There is no means to know if the argument has been specified by the caller or if the default value was used.

The above-mentioned method is especially useful when one wants to set default criteria so that the function can be called with or without parameters. Consider the following:

void printToScreen(istream &input = cin)
{
    // this outputs any input to the screen
    cout << input;
}

The function call:

 printToScreen();

will by default print input from the keyboard to the screen. As this is the most commonly used behaviour it makes sense not to specify

printToScreen(cin);

on the other hand any parameter of type istream can now be passed to the same function and the function will print to screen from the source specified as the parameter to the function. Consider:

printToScreen(fileName);

where fileName is a file that has been opened to read via ifstream's open function call.

Default argumets' values in virtual methods are taken from type of the pointer and implemetation is taken from the type of the object. In this example the output will be 1 Derived:

class Base
{
	public: virtual void foo(int x=1) {
		std::cout << x << " Base";
	}
};

class Derived : public Base
{
	public: void foo(int x=2) override {
		std::cout << x << " Derived";
	}
};

int main () {
	Base* x = new Derived;
	x->foo(); // "1 Derived"
	return 0;
}

Overloaded methods

Some other languages, like Java, do not have default arguments. However, the same behaviour can be simulated by using method overloading to create overloaded methods of the same name, which take different numbers of arguments; and the versions with fewer arguments simply call the versions with more arguments, with the default arguments as the missing arguments:

int MyFunc(int a, int b) { return MyFunc(a, b, 12); }
int MyFunc(int a, int b, int c) { /* main implementation here */ }

Evaluation

For every function call default argument values must be passed to the called function. This leads to some code bloat - in contrast to function overloads.

If a default argument is not simply a literal, but an expression, there is a choice of when the expression is evaluated – once for the entire program (at parse time, compile time, or execution time), or once per function call, at call time.

Python is a notable language that evaluates expressions in default arguments once, at module load time. If evaluation per function call is desired, it can be replicated by having the default argument be a sentinel value, such as None in Python, and then in the first line of the function, checking for the sentinel value and assigning to expression if found, which ensures expression evaluation.

For example, to have a default argument evaluated to the current time in Python, the following may be used:

 import datetime
 def f(a, b=None):
     b = b or datetime.datetime.now()

Extent

Generally a default argument will behave identically to an argument passed by parameter or a local variable declared at the start of the function, and have the same scope and extent (lifetime) as a parameter or other local variable, namely an automatic variable which is deallocated on function termination.

In other cases a default argument may instead be statically allocated. If the variable is mutable, it will then retain its value across function calls, as with a static variable.

This behavior is found in Python for mutable types (such as lists). As with evaluation, in order to ensure the same extent as a local variable, one can use a sentinel value, as in this example:

 def f(a, b=None):
     b = b or []

References

This article is issued from Wikipedia - version of the 5/6/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.