(Created page with "'''Binary literal''' is an integer whose value is represented in the source code using the binary number system. Binary literals are a feature supported in many progra...") |
|||
Line 1: | Line 1: | ||
− | '''Binary literal''' is an [[integer]] whose value is represented in the source code using the [[binary number system]]. Binary literals are a feature supported in many programming languages such as [[Java]], [[D]] and [[Python]] as well as | + | '''Binary literal''' is an [[integer]] whose value is represented in the source code using the [[binary number system]]. Binary literals are a feature supported in many programming languages such as [[Java]], [[D]] and [[Python]] as well as a compiler extension in [[C++]] and [[C]]. Binary literals typically start with '''0b''' or '''0B''' followed by a series of binary digits. |
== Java == | == Java == |
Revision as of 02:04, 9 December 2013
Binary literal is an integer whose value is represented in the source code using the binary number system. Binary literals are a feature supported in many programming languages such as Java, D and Python as well as a compiler extension in C++ and C. Binary literals typically start with 0b or 0B followed by a series of binary digits.
Contents
Java
Starting with Java 7, binary literals are possible to be expressed using the 0b or 0B prefix. For example:
//an octet value
byte b = (byte)0b00010101;
//a 32-bit integer value
int i = 0b001101010110101010001111011101;
int i2 = 0b1110;
Python
Starting with Python 2.6, binary literals support was added via the "0b" and "0B" prefixes.[1]
Lisp
Lisp supports binary literals to represent integers and rational values via the #b prefix, for example:
#b10111
; rational values
#b1110/1111
C++ and C
Binary literals already exist in the C++ and C languages in the form of non-standard compiler extensions[2]. They are prefixed with 0b or 0B followed by a series or binary digits. Binary literals have also been proposed[3] as a core language addition in C++14.