Chapter 5. Numbers
Introduction
Numbers are basic to just about any computation. They’re used for array indices, temperatures, salaries, ratings, and an infinite variety of things. Yet they’re not as simple as they seem. With floating-point numbers, how accurate is accurate? With random numbers, how random is random? With strings that should contain a number, what actually constitutes a number?
Java has several built-in or “primitive” types that can be used to represent numbers, summarized in Table 5-1 with their “wrapper” (object) types, as well as some numeric types that do not represent primitive types. Note that unlike languages such as C or Perl, which don’t specify the size or precision of numeric types, Java—with its goal of portability—specifies these exactly and states that they are the same on all platforms.
| Built-in type | Object wrapper | Size of built-in (bits) | Contents |
|
| 8 | Signed integer |
|
| 16 | Signed integer |
|
| 32 | Signed integer |
|
| 64 | Signed integer |
|
| 32 | IEEE-754 floating point |
|
| 64 | IEEE-754 floating point |
|
| 16 | Unsigned Unicode character |
n/a | BigInteger | unlimited | Arbitrary-size immutable integer value |
n/a | BigDecimal | unlimited | Arbitrary-size-and-precision immutable floating-point value |
As you can see, Java provides a numeric type for just about any purpose. There are four sizes of signed integers for representing various sizes of whole numbers. There are two sizes of floating-point numbers to approximate real numbers. There ...
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