Integer i = 3; i = i + 1; Integer j = i; j = i + j;
How many objects are created as a result of the statements in the sample code above and why? Is there any IDE in which we can see how many objects are created (maybe in a debug mode)?
The answer, surprisingly, is zero.
Your code creates references to these existing objects.
The strictly correct answer is that the number of
Two things to note:
Even the javadoc for
If we examine the Java SE source code for
1 - It could be 256 if execution of the above code triggers class initialization for
2 - It could be even more, if the cache is larger than the JVM spec requires. The cache size can be increased via a JVM option in some versions of Java.
3 - In addition to the platform's general approach to implementing boxing, a compiler could spot that some or all of the computation could be done at compile time or optimized it away entirely.
4 - Such code could trigger either lazy or eager initialization of the integer cache.
First of all: The answer you are looking for is
But let's go a bit deeper. As Stephen menthioned it depends on the time you execute it. Because the cache is actually lazy initialized.
If you look at the documentation of java.lang.Integer.IntegerCache:
This means that if it is the first time you call any Integer you actually create:
From the second time on you call them, you create 0 Objects.
Things get more funny once you make the numbers a bit higher. E.g. by the following example:
Valid options here are: 0, 1 or any number between 1629 to 2147483776 (this time only counting the created Integer-values. Why? The answer is given in the next sentence of Integer-Cache definition:
So you actually can vary the size of the cache which is implemented.
Which means you can reach for above line:
Keep in mind: This is only guaranteed on Oracle / Open JDK (i checked Version 7 and 8)
As you can see the completely correct answer is not so easy to get. But just saying
PS: using the menthoned parameter can make the following statement true:
The compiler unboxes the
What if you start with a larger number whose instances will not be cached (e.g.,
(Or, maybe it's still zero, or maybe it's millions. Remember that compilers and virtual machines are allowed to rewrite code for performance or implementation reasons, so long as its behavior is not otherwise changed. So it could delete the above code entirely if you don't use the result. Or if you try to print
You can debug the Integer.valueOf(int i) method to find out it by yourself. This method is called by the autoboxing process by the compiler.