Let me first highlight three different ways for similar purpose.
length -- arrays (int[], double[], String[]) -- to know the length of the arrays
length() -- String related Object (String, StringBuilder, etc) -- to know the length of the String
size() -- Collection Object (ArrayList, Set, etc) -- to know the size of the Collection
Now forget about length() consider just length and size().
length is not a method, so it completely makes sense that it will not work on objects. It only works on arrays.
size() its name describes it better and as it is a method, it will be used in the case of those objects who work with collection (collection frameworks) as I said up there.
Now come to length():
String is not a primitive array (so we can't use .length) and also not a Collection (so we cant use .size()) that's why we also need a different one which is length() (keep the differences and serve the purpose).
As answer to Why?
I find it useful, easy to remember and use and friendly.
So as we know 2D arrays have to indices. I want to change the second index. So the first indices point to knew indices. For example: a points to 1, 2,3. But i want to change it to 4,5,6.
Was there a point of time when array.length is a O(N) operation in Java
Are 32-Bit indices of arrays a theoretical limitation?
How to get array list size in java jsp?
Does Java ArrayList implement an array or list abstract data type?
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Let me first highlight three different ways for similar purpose.
length -- arrays (int[], double[], String[]) -- to know the length of the arrays
length() -- String related Object (String, StringBuilder, etc) -- to know the length of the String
size() -- Collection Object (ArrayList, Set, etc) -- to know the size of the Collection
Now forget about length() consider just length and size().
length is not a method, so it completely makes sense that it will not work on objects. It only works on arrays.
size() its name describes it better and as it is a method, it will be used in the case of those objects who work with collection (collection frameworks) as I said up there.
Now come to length():
String is not a primitive array (so we can't use .length) and also not a Collection (so we cant use .size()) that's why we also need a different one which is length() (keep the differences and serve the purpose).
As answer to Why?
I find it useful, easy to remember and use and friendly.
A bit simplified you can think of it as arrays being a special case and not ordinary classes (a bit like primitives, but not). String and all the collections are classes, hence the methods to get size, length or similar things.
I guess the reason at the time of the design was performance. If they created it today they had probably come up with something like array-backed collection classes instead.
If anyone is interested, here is a small snippet of code to illustrate the difference between the two in generated code, first the source:
public class LengthTest {
public static void main(String[] args) {
int[] array = {12,1,4};
String string = "Hoo";
System.out.println(array.length);
System.out.println(string.length());
}
}
Cutting a way the not so important part of the byte code, running javap -c on the class results in the following for the two last lines:
20: getstatic #3; //Field java/lang/System.out:Ljava/io/PrintStream;
23: aload_1
24: arraylength
25: invokevirtual #4; //Method java/io/PrintStream.println:(I)V
28: getstatic #3; //Field java/lang/System.out:Ljava/io/PrintStream;
31: aload_2
32: invokevirtual #5; //Method java/lang/String.length:()I
35: invokevirtual #4; //Method java/io/PrintStream.println:(I)V
In the first case (20-25) the code just asks the JVM for the size of the array (in JNI this would have been a call to GetArrayLength()) whereas in the String case (28-35) it needs to do a method call to get the length.
In the mid 1990s, without good JITs and stuff, it would have killed performance totally to only have the java.util.Vector (or something similar) and not a language construct which didn't really behave like a class but was fast. They could of course have masked the property as a method call and handled it in the compiler but I think it would have been even more confusing to have a method on something that isn't a real class.
So I remember my professor back in college tell me that in Java array.length is an O(N) operation, since the implementation would need to go through the array to count everything. That is why I should keep the array length in a variable so that I only call array.length once.
Recently this was brought up in a conversation, and I looked it up. Array.length is a O(1) operation since the length is just a property. My professor was old, so perhaps back in the day, it was a true statement?
Edit: there might be a chance that I misremembered, and it was arraylist. Though arraylist.length should still be O(1), unless it wasn't at some point?
(If it's wrong here, I'll remove this post)
Arrays in Java can be adressed only with 32-bit indices, that means the maximum size of an array is around 2*109 elements. This is maybe inherited from the beginnings of java in 32-bit. Now we have 64-bit. So we could create bigger arrays and access them with a long.
But do you ever have a problem, that your data is so big, it doesn't fit into a array with 2*109 elements or is it a theoretical limit and has no influence on normal enterprise/scientific code?