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I'm reading Gilles Dowek's Principles of Programming Languanges:

He says that it's also possible to declare a variable without giving it an initial value and also that we must be careful not to use a variable which has been declared without an initial value and that has not been assigned a value. This produces an error.

Note: The book's author mentions the possibility of declaring variables without an initial value on Java.

So, why is this declaration of variables valid? When am I going to use it?

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I believe the answer is different from language to language. –  Simon André Forsberg Dec 9 '12 at 14:02
    
Yes, it is. The author of the book mentions that this feature is valid in Java, I'll edit the post. –  Vÿska Dec 9 '12 at 14:07
1  
Good question. I wonder what the rationale is? –  xagyg Dec 9 '12 at 14:20

6 Answers 6

up vote 1 down vote accepted

There are many different reasons for many different languages.

MEMORY
When you declare a variable, you want some memory to hold the variable in. This involves asking the kernel of the operating system for memory, or some kind of monitoring program which keeps track of memory. In short, this can be an expensive operation.Hence, in many cases, it is desirable to allocate all the memory required for the object at the same time, and then assign whatever value has to be assigned to it later. This way, you can increase the performance of the program in the critical parts. This use case is common enough that a feature allowing declaration without initialization is allowed. However, good practices assert that in all other cases you should initialize the variable while assigning.

Think of the memory allocation as a bureaucracy. There is too much paper work. So, if you know you are going to use a large amount of memory later, you ask for a large amount of memory upfront in one single transaction, rather than asking the kernel each next time.

EXPENSIVE INITIALIZATION
This point is very similar to the above point. Suppose you have a 1 million times 1 million array. Initializing such an array is an expensive procedure. To do so with defaults would be stupidity, and hence, such a feature, where memory is allocated and then used as needed.

In here, its like you are buying a huge amount of lego blocks to construct something, but you want to buy them in shapes of the default spiderman. The shopkeeper or you would have to extra hard to get them in shapes of spiderman when you are anyway going to reshape them later.

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For example, you could have something like this:

int i;
if (first_condition)
    i = 1;
elseif (second_condition)
    i = 2;
else
    i = 0;

Your variable would need to be declared outside the if for it to be used later, but its value is fixed inside the if conditions.

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Something like:

//declare without giving value.
int i;

//set value
i=9;
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This is not my question, my question is: Why is it possible to declare a variable without an initial value if it's going to have an error? –  Vÿska Dec 9 '12 at 14:05
    
Not everything will give error... Like int i; will give 0. But if you do User user; Then later String s = user.address; It give you error –  user903772 Dec 9 '12 at 14:07
    
@user903772 local variables are not initialised to anything, they are undefined ... "Local variables are slightly different; the compiler never assigns a default value to an uninitialized local variable. If you cannot initialize your local variable where it is declared, make sure to assign it a value before you attempt to use it. Accessing an uninitialized local variable will result in a compile-time error." –  xagyg Dec 9 '12 at 14:16

You can declare an empty var for instance in a validation script,

$error='';
if(empty($_POST['first_name']{
$error=$error."You did not enter a name";

}

like this, but I would only use it if the code immediately after it redeclared it, as above, so that it wouldn't get 'mislaid'.

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If you really look at what happens when you declare a variable and initialize it (assign an initial value), you will see that down at machine instruction level, or byte code for Java there is a significant amount of computational power being used in both these steps.

  1. declaring the variable means allocating memory, creating an instance of asked type, etc etc
  2. Then initializing that location of memory, again requires more processing to move the default value to the allocated memory location, like filling it with 0s if the default value is 0. (Note: when random memory location is allocated to a variable that memory could contain any pattern, left there by a previous value)

So if user unknowingly use a variable without first giving it an acceptable value for its type, then there could be an error if the value which was there was not correct.

So if a language forces you to initialize a variable (or does so by itself) at declaration then it reduces chances for an error down the line, but it may be wasting processing power for something you didn't really want.

On the other hand, if it allows you to declare a variable without initializing it, it gives you the control and may be saving some computing power for you but open the chances for an error. (Assume you have a scenario where your initial value for the varible depends on some other conditions, which are going to consider and assign the variable accordingly. In such case initializing the var at declaration could be just waste processing power).

Languages decide which path they want to take, mostly depend on what they consider their power is.

if it is about giving the programmer a chance to have control, and make highly optimized programs then they will usually allow declaring vars without initializing, in addition to more stuff.

But if the language is about forcing to programmer to write more error free programs it would take the other path.

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If Java were to require that fields of a class object must always be written before they were read, this would require that either

  • The constructor of a class object must write to all fields of that object, including ones which would code would never read without having written them a second time later on; this would be both ugly and inefficient.

  • Every field must be able to hold a never been written value which is different from any other value that can be written to it.

  • The compiler would have to solve the Halting Problem to determine whether a field could be read without having been written.

  • The language must accept the possibility that a field will be read without user code having written it.

Of these possible choices, #4 is the least evil. To avoid undefined behavior, Java defines the behavior of reading a field that has never been written: it will contain a default value for its type.

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