In Java, we can convert an int to float implicitly, which may result in loss of precision as shown in the example code below.

public class Test {
    public  static void main(String [] args) {
        int intVal = 2147483647;
        System.out.println("integer value is " + intVal);
        double doubleVal = intVal;
        System.out.println("double value is " + doubleVal);
        float floatVal = intVal;
        System.out.println("float value is " + floatVal);

The output is

integer value is 2147483647
double value is 2.147483647E9
float value is 2.14748365E9

What is the reason behind allowing implicit conversion of int to float, when there is a loss of precision?


You are probably wondering:

Why is this an implicit conversion when there is a loss of information? Shouldn't this be an explicit conversion?

And you of course have a good point. But the language designers decided that if the target type has a range large enough then an implicit conversion is allowed, even though there may be a loss of precision. Note that it is the range that is important, not the precision. A float has a greater range than an int, so it is an implicit conversion.

The Java specification says the following:

A widening conversion of an int or a long value to float, or of a long value to double, may result in loss of precision - that is, the result may lose some of the least significant bits of the value. In this case, the resulting floating-point value will be a correctly rounded version of the integer value, using IEEE 754 round-to-nearest mode.

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  • Any idea why 32-bit float is considered wider than 64-bit long? – Peter Lawrey Aug 10 '12 at 21:10
  • 2
    @PeterLawrey: A float has a range of -3.4e+38 to 3.4e+38 (approx). A long has a range of -9.2e18 to -9.2e18. Since the float has the larger range, it is wider. – Mark Byers Aug 10 '12 at 21:19
  • Thats probably the thinking. The problem I have is when you pass a long to a method which takes a float by accident it can turn 64-bits of precision into 24-bit :P – Peter Lawrey Aug 11 '12 at 6:20
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    So, does that implies that explicit casting is needed only when there is a loss of range(width) in the conversion and not precision? – KRiSHNA Aug 11 '12 at 7:03
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    @PeterLawrey: Java wanted to have a simple "ranking" of types, and allow everything of a lower-ranked type to be implicitly convertible to anything of a higher-ranked type. That decision compels many (IMHO unfortunate) other decisions, such as having compilers reject float f=1.0/10.0; (which, if allowed, would have exactly one plausible meaning which would fit perfectly with programmer intent) while allowing the most-likely-erroneous double d=1.0f/10.0f; (whose meaning is likely not what the programmer intended). – supercat Feb 10 '14 at 22:00

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