Regina 7.0 Calculation Engine
Static Public Member Functions | Static Public Attributes | List of all members
regina::BitManipulator< T > Class Template Reference

An optimised class for bitwise analysis and manipulation of native data types. More...

#include <utilities/bitmanip.h>

Inheritance diagram for regina::BitManipulator< T >:
regina::BitManipulatorByType< T > regina::BitManipulatorBySize< T, size >

Static Public Member Functions

static int firstBit (T x)
 Returns the index of the first true bit in the given integer, or -1 if the given integer is zero. More...
 
static int lastBit (T x)
 Returns the index of the last true bit in the given integer, or -1 if the given integer is zero. More...
 
static T nextPermutation (T x)
 Returns the next largest integer with the same number of true bits as x. More...
 
static int bits (T x)
 Returns the number of bits that are set to 1 in the given integer. More...
 

Static Public Attributes

static constexpr bool specialised
 Indicates whether this class is a template specialisation of BitManipulator with extra optimisations. More...
 

Detailed Description

template<typename T>
class regina::BitManipulator< T >

An optimised class for bitwise analysis and manipulation of native data types.

The class BitManipulator<T> is used to manipulate an integer of type T as a sequence of bits. Here T must be an unsigned native integer type such as unsigned char, unsigned int, or unsigned long long.

Whilst BitManipulator has a generic implementation, all or most native types T have template specialisations that are carefully optimised (precisely what gets specialised depends upon properties of the compiler).

Precondition
Type T is an unsigned integral numeric type whose size in bits is a power of two.
Python
For Python users, the class BitManipulator represents the C++ type BitManipulator<unsigned long>. In particular, you should be aware that BitManipulator is designed specifically to work with native C++ integer types, and cannot handle Python's arbitrary-precision integers. It is up to you to ensure that any Python integers that you pass into the BitManipulator routines are small enough to fit inside a C++ unsigned long.

Member Function Documentation

◆ bits()

template<typename T , unsigned size = sizeof(T)>
static int regina::BitManipulatorBySize< T, size >::bits ( x)
inlinestaticinherited

Returns the number of bits that are set to 1 in the given integer.

Parameters
xthe integer of type T to examine.
Returns
the number of bits that are set.

◆ firstBit()

template<typename T >
static int regina::BitManipulator< T >::firstBit ( x)
inlinestatic

Returns the index of the first true bit in the given integer, or -1 if the given integer is zero.

Bits are indexed from 0 upwards, starting at the least significant bit.

Parameters
xthe integer of type T to examine.
Returns
the position of the first true bit, or -1 if there are no true bits.

◆ lastBit()

template<typename T >
static int regina::BitManipulator< T >::lastBit ( x)
inlinestatic

Returns the index of the last true bit in the given integer, or -1 if the given integer is zero.

Bits are indexed from 0 upwards, starting at the least significant bit.

Parameters
xthe integer of type T to examine.
Returns
the position of the last true bit, or -1 if there are no true bits.

◆ nextPermutation()

template<typename T >
static T regina::BitManipulatorByType< T >::nextPermutation ( x)
inlinestaticinherited

Returns the next largest integer with the same number of true bits as x.

If x is the largest such integer (i.e., x is of the form 111...1000...0), then this routine returns 0.

Parameters
xthe integer of type T to examine.
Returns
the next largrst integer with the same number of true bits, or 0 if this is the largest such integer.

Member Data Documentation

◆ specialised

template<typename T >
constexpr bool regina::BitManipulator< T >::specialised
staticconstexpr
Initial value:
=
static constexpr bool specialised
Indicates whether this class is a template specialisation of BitManipulatorBySize with extra optimisa...
Definition: bitmanip.h:195
static constexpr bool specialised
Indicates whether this class is a template specialisation of BitManipulatorByType with extra optimisa...
Definition: bitmanip.h:75

Indicates whether this class is a template specialisation of BitManipulator with extra optimisations.

This compile-time constant is set to false for the generic implementation of BitManipulator, and true for all specialisations.


The documentation for this class was generated from the following file:

Copyright © 1999-2021, The Regina development team
This software is released under the GNU General Public License, with some additional permissions; see the source code for details.
For further information, or to submit a bug or other problem, please contact Ben Burton (bab@maths.uq.edu.au).