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what the difference between the float and integer data type when the size is same in java?

As you probably know, both of these types are 32-bits.int can hold only integer numbers, whereas float also supports floating point numbers (as the type names suggest).

How is it possible then that the max value of int is 231, and the max value of float is 3.4*1038, while both of them are 32 bits?

I think that int's max value capacity should be higher than the float because it doesn't save memory for the floating number and accepts only integer numbers. I'll be glad for an explanation in that case.

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marked as duplicate by Kazekage Gaara, Daniel Fischer, AakashM, MSalters, Michael Berkowski Jun 22 '12 at 18:48

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Where are you getting the max floating point value of 3.4 * 10 ^ 38 from? –  Chris Dargis Jun 22 '12 at 14:46
The precision of the float for large numbers is much lower than an int. –  assylias Jun 22 '12 at 14:46
Hmm... You say "floating numbers" as if it's obvious to you what that means, but is it? –  Benjamin Lindley Jun 22 '12 at 14:46
Obligatory link: docs.oracle.com/cd/E19957-01/806-3568/ncg_goldberg.html –  Robᵩ Jun 22 '12 at 15:04
Imagine you have an int value which represents a price in cents and another int value which represents a price in dollars. The question is; how can the amount in dollars be more than the amount in cents? If you can answer that question, you have answered your own. ;) –  Peter Lawrey Jun 22 '12 at 15:21

4 Answers 4

up vote 22 down vote accepted

Your intuition quite rightly tells you that there can be no more information content in one than the other, because they both have 32 bits. But that doesn't mean we can't use those bits to represent different values.

Suppose I invent two new datatypes, uint4 and foo4. uint4 uses 4 bits to represent an integer, in the standard binary representation, so we have

bits   value
0000       0
0001       1
0010       2
1111      15

But foo4 uses 4 bits to represent these values:

bits   value
0000       0
0001      42
0010     -97
0011       1
1110      pi
1111       e

Now foo4 has a much wider range of values than uint4, despite having the same number of bits! How? Because there are some uint4 values that can't be represented by foo4, so those 'slots' in the bit mapping are available for other values.

It is the same for int and float - they can both store values from a set of 232 values, just different sets of 232 values.

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Very interesting, easy to understand(though not technical) explanation. I like it. –  Benjamin Lindley Jun 22 '12 at 14:57
very nice explanation –  Mayur Jun 23 '12 at 7:00
Great explanation on the bit structure of floats: youtube.com/… –  mowwwalker Jun 23 '12 at 7:11

A float might store a higher number value, but it will not be precise even on digits before the decimal dot. Consider the following example:

float a = 123456789012345678901234567890f; //30 digits
Console.WriteLine(a);  // 1.234568E+29

Notice that barely any precision is kept.

An integer on the other hand will always precisely store any number within its range of values.

For the sake of comparison, let's look at a double precision floating point number:

double a = 123456789012345678901234567890d; //30 digits
Console.WriteLine(a); // 1.23456789012346E+29

Notice that roughly twice as much significant digits are preserved.

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The hint is in the "floating" part of "floating point". What you say basically assumes fixed point. A floating point number does not "reserve space" for the digits after the decimal point - it has a limited number of digits (23 binary) and remembers what power of two to multiply it by.

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These are based on IEEE754 floating point specification, that is why it is possible. Please read this documentation. It is not just about how many bits.

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