18

First of all, I'm fairly new to Java, so sorry if this question is utterly simple.

The thing is: I have a String[] s made by splitting a String in which every item is a number. I want to cast the items of s into a int[] n.

s[0] contains the number of items that n will hold, effectively s.length-1. I'm trying to do this using a foreach loop:

int[] n;
for(String num: s){
    //if(n is not initialized){
        n = new int[(int) num];
        continue;
    }
    n[n.length] = (int) num;
}

Now, I realize that I could use something like this:

int[] n = new int[(int) s[0]];
for(int i=1; i < s.length; i++){
    n[i-1] = (int) s[i];
}

But I'm sure that I will be faced with that "if n is not initialized initialize it" problem in the future.

2
  • If s[0] is "effectively s.length-1", why include it at all? Why not just let the length of s represent itself?
    – CPerkins
    Apr 12, 2010 at 18:01
  • I agree, but have no control over that input. :) Apr 12, 2010 at 18:28

9 Answers 9

12

You can't cast a String to an int. Java is strongly typed, and there is no implicit type conversion like you might find in a scripting language.

To convert a String to an int, use an explicit conversion, like Integer.parseInt(String).

All member variables and elements of arrays are initialized with a default value. For int types, the value is 0. For reference types (any subtype of Object), the default value is null. Local variables don't get a default value, but the compiler analyzes the code to ensure that a value is assigned before the variable is read. If not, the code will not compile.

I think what you want is something like this:

int[] n = new int[Integer.parseInt(s[0]);
for (int idx = 0; idx < n; ++idx)
  n[idx] = Integer.parseInt(s[idx + 1]);
6
  • The part about reference types should be "reference types (any subtype of Object)", because Object[] is not a subclass of Object, but it is a subtype. Apr 12, 2010 at 15:25
  • Thanks, after playing a bit with it I found that I had to do new Integer(s) to cast it. Apr 12, 2010 at 15:27
  • 2
    @Javier: again: that's not "casting", that's "converting". Apr 12, 2010 at 15:29
  • 5
    @Javier new Integer(String) is not a great API to use in most cases. If you want an Integer object, use Integer.valueOf(String) instead. This will minimize the number of distinct objects created. In this case, if you want a primitive int, use the parseInt method, which avoids creating the Integer object altogether.
    – erickson
    Apr 12, 2010 at 15:30
  • @erickson Thanks a lot, that's great advise! @Joachim thanks for the clarification, I come from a dynamic type background, so I don't fully understand the difference. Apr 12, 2010 at 15:35
12

You can't check if a variable is initialized in your code, because by definition reading from a variable that might not have been initialized leads to a compile-time error.

You can initialize the variable to null and check for that value if your variable is not a primitive type and null is not a valid value after the initialization.

In the specific example the second code you showed would definitely be cleaner.

0
2
int[] n = null;
for(String num: s){
    if(n == null){
        n = new int[(int) num];
        continue;
    }
    n[n.length] = (int) num;
}
4
  • Thanks. I didn't know I could assign null to any type of variable. Apr 12, 2010 at 15:29
  • @Javier: only to variable/fields of reference types. So everything but int, boolean, char, short, long, float, double. Reference types include Integer, int[], and an infinite number of other possibilities. Apr 13, 2010 at 2:19
  • @polygenelubricants thanks for the clarification, so it's everything but the native types, right? Apr 13, 2010 at 14:01
  • @Javier: Native has a different meaning in Java terminology. These 8 (I forgot to mention byte in above comment) types are called the "primitive" types. See JLS 4.2 java.sun.com/docs/books/jls/third_edition/html/… (and 4.3 for Reference types). Apr 13, 2010 at 14:06
1

If you initialize your variables or objects to null prior to using them,

String myVar1 = null;
Person bobby = null;

You could comparing the variable or object to not null,

if (myVar != null) {
  // myVar has a value.
}
2
  • 1
    only if it had initially and explicitly been initialized to null OR it is an object/class member
    – Yaneeve
    Apr 12, 2010 at 15:25
  • I had edited my answer, I should have been more clearer with my direction. Apr 12, 2010 at 15:30
1

You might want to take a look at the other datastructures in the collections framework.

-> http://java.sun.com/developer/onlineTraining/collections/Collection.html

ArrayList is a reasonable good alternative to arrays

1

Only thing you can do is check against null. If your code is within a method, it will not compile if you don't initialize. So if it compiles and run you know it is initialized to at least null and then do the null checking.

1

As others have noted, the closest thing to a "right way" to do this is to initialize the array to null.

On other points:

"n[n.length]" will throw an "index out of bounds" exception. Arrays have elements ranging from 0 to length-1. In any case, I think what you intended to say in the first case was "n[0]" and in the second was "n[i]".

Storing the size of an array in the first element is probably a bad idea. It can be done for an int array, but it would be messy in a String array and it wouldn't work at all for a boolean array. Even in the int case, you're now mixing two very different things in the same data structure, which is likely to be confusing. If the array size is fixed, "length" holds the size anyway. If the array size is variable and you're thinking that you're going to create an array big enough and then store the amount you actually use, you are better off using ArrayList, which handles dynamic-size arrays cleanly.

2
  • Thanks for your answer. Yeah, I got to the n.length always returning x, I didn't understand java's implementation of length, now that I see it, it makes a lot of sense, after all I initialized it with x elements, so n.length should always return x. And yeah I agree, storing the size in the first element is messy, but I have no control over that (I'm coding some exercises, and that's the expected input) Apr 12, 2010 at 17:50
  • Ah, non-sensical requirements again lead to non-sensical design. Reminds me of an economics class I took in college. One chapter in the textbook talked about sunk costs and made the point that sunk costs are irrelevant to future plans. At the end of the chapter there was an exercise that said, "Suppose you get a job and your boss says, 'I don't care what they told you in economics class! I want you to factor in all our sunk costs or you're fired!' Are sunk costs now irrelevant to you?"
    – Jay
    Apr 14, 2010 at 13:31
0

I ran into this issue, checking if an int has been initialized. In my program, it was possible that it was initialized to 0, so checking if (int i = 0) wouldn't do much good.

As a solution/work-around, I created a boolean variable that is set when the int is initialized. Hope this helps.

-1

You can check for null:

int[] n;
for(String num: s){
    if(n == null) {
        n = new int[(int) num];
    }
    n[n.length] = (int) num;
}

Note that this can only happen if n is a class member. If it is a local variable, the compiler will not let you do anything with it without it being initialized.

1
  • 4
    This won't compile: local variables are not set to null by default. (additionally there's the problem with the int-casting that won't work as @erickson noted). Apr 12, 2010 at 15:27

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