@GwtCompatible(emulated=true) public final class LongMath extends Object
long
. Where possible, methods are defined and
named analogously to their BigInteger
counterparts.
The implementations of many methods in this class are based on material from Henry S. Warren, Jr.'s Hacker's Delight, (Addison Wesley, 2002).
Similar functionality for int
and for BigInteger
can be found in IntMath
and BigIntegerMath
respectively. For other common operations on long
values, see Longs
.
Modifier and Type | Method and Description |
---|---|
static long |
binomial(int n,
int k)
Returns
n choose k , also known as the binomial coefficient of n and
k , or Long.MAX_VALUE if the result does not fit in a long . |
static long |
ceilingPowerOfTwo(long x)
Returns the smallest power of two greater than or equal to
x . |
static long |
checkedAdd(long a,
long b)
Returns the sum of
a and b , provided it does not overflow. |
static long |
checkedMultiply(long a,
long b)
Returns the product of
a and b , provided it does not overflow. |
static long |
checkedPow(long b,
int k)
Returns the
b to the k th power, provided it does not overflow. |
static long |
checkedSubtract(long a,
long b)
Returns the difference of
a and b , provided it does not overflow. |
static long |
divide(long p,
long q,
RoundingMode mode)
Returns the result of dividing
p by q , rounding using the specified RoundingMode . |
static long |
factorial(int n)
Returns
n! , that is, the product of the first n positive integers, 1 if
n == 0 , or Long.MAX_VALUE if the result does not fit in a long . |
static long |
floorPowerOfTwo(long x)
Returns the largest power of two less than or equal to
x . |
static long |
gcd(long a,
long b)
Returns the greatest common divisor of
a, b . |
static boolean |
isPowerOfTwo(long x)
Returns
true if x represents a power of two. |
static boolean |
isPrime(long n)
Returns
true if n is a prime number: an integer greater
than one that cannot be factored into a product of smaller positive integers. |
static int |
log10(long x,
RoundingMode mode)
Returns the base-10 logarithm of
x , rounded according to the specified rounding mode. |
static int |
log2(long x,
RoundingMode mode)
Returns the base-2 logarithm of
x , rounded according to the specified rounding mode. |
static long |
mean(long x,
long y)
Returns the arithmetic mean of
x and y , rounded toward negative infinity. |
static int |
mod(long x,
int m)
Returns
x mod m , a non-negative value less than m . |
static long |
mod(long x,
long m)
Returns
x mod m , a non-negative value less than m . |
static long |
pow(long b,
int k)
Returns
b to the k th power. |
static long |
saturatedAdd(long a,
long b)
Returns the sum of
a and b unless it would overflow or underflow in which case
Long.MAX_VALUE or Long.MIN_VALUE is returned, respectively. |
static long |
saturatedMultiply(long a,
long b)
Returns the product of
a and b unless it would overflow or underflow in which
case Long.MAX_VALUE or Long.MIN_VALUE is returned, respectively. |
static long |
saturatedPow(long b,
int k)
Returns the
b to the k th power, unless it would overflow or underflow in which
case Long.MAX_VALUE or Long.MIN_VALUE is returned, respectively. |
static long |
saturatedSubtract(long a,
long b)
Returns the difference of
a and b unless it would overflow or underflow in
which case Long.MAX_VALUE or Long.MIN_VALUE is returned, respectively. |
static long |
sqrt(long x,
RoundingMode mode)
Returns the square root of
x , rounded with the specified rounding mode. |
@Beta public static long ceilingPowerOfTwo(long x)
x
. This is equivalent to
checkedPow(2, log2(x, CEILING))
.IllegalArgumentException
- if x <= 0
ArithmeticException
- of the next-higher power of two is not representable as a long
, i.e. when x > 2^62
@Beta public static long floorPowerOfTwo(long x)
x
. This is equivalent to checkedPow(2, log2(x, FLOOR))
.IllegalArgumentException
- if x <= 0
public static boolean isPowerOfTwo(long x)
true
if x
represents a power of two.
This differs from Long.bitCount(x) == 1
, because Long.bitCount(Long.MIN_VALUE) == 1
, but Long.MIN_VALUE
is not a power of two.
public static int log2(long x, RoundingMode mode)
x
, rounded according to the specified rounding mode.IllegalArgumentException
- if x <= 0
ArithmeticException
- if mode
is RoundingMode.UNNECESSARY
and x
is not a power of two@GwtIncompatible public static int log10(long x, RoundingMode mode)
x
, rounded according to the specified rounding mode.IllegalArgumentException
- if x <= 0
ArithmeticException
- if mode
is RoundingMode.UNNECESSARY
and x
is not a power of ten@GwtIncompatible public static long pow(long b, int k)
b
to the k
th power. Even if the result overflows, it will be equal to
BigInteger.valueOf(b).pow(k).longValue()
. This implementation runs in O(log k)
time.IllegalArgumentException
- if k < 0
@GwtIncompatible public static long sqrt(long x, RoundingMode mode)
x
, rounded with the specified rounding mode.IllegalArgumentException
- if x < 0
ArithmeticException
- if mode
is RoundingMode.UNNECESSARY
and sqrt(x)
is not an integer@GwtIncompatible public static long divide(long p, long q, RoundingMode mode)
p
by q
, rounding using the specified RoundingMode
.ArithmeticException
- if q == 0
, or if mode == UNNECESSARY
and a
is not an integer multiple of b
@GwtIncompatible public static int mod(long x, int m)
x mod m
, a non-negative value less than m
. This differs from x %
m
, which might be negative.
For example:
mod(7, 4) == 3
mod(-7, 4) == 1
mod(-1, 4) == 3
mod(-8, 4) == 0
mod(8, 4) == 0
ArithmeticException
- if m <= 0
@GwtIncompatible public static long mod(long x, long m)
x mod m
, a non-negative value less than m
. This differs from x %
m
, which might be negative.
For example:
mod(7, 4) == 3
mod(-7, 4) == 1
mod(-1, 4) == 3
mod(-8, 4) == 0
mod(8, 4) == 0
ArithmeticException
- if m <= 0
public static long gcd(long a, long b)
a, b
. Returns 0
if a == 0 && b ==
0
.IllegalArgumentException
- if a < 0
or b < 0
@GwtIncompatible public static long checkedAdd(long a, long b)
a
and b
, provided it does not overflow.ArithmeticException
- if a + b
overflows in signed long
arithmetic@GwtIncompatible public static long checkedSubtract(long a, long b)
a
and b
, provided it does not overflow.ArithmeticException
- if a - b
overflows in signed long
arithmetic@GwtIncompatible public static long checkedMultiply(long a, long b)
a
and b
, provided it does not overflow.ArithmeticException
- if a * b
overflows in signed long
arithmetic@GwtIncompatible public static long checkedPow(long b, int k)
b
to the k
th power, provided it does not overflow.ArithmeticException
- if b
to the k
th power overflows in signed long
arithmetic@Beta public static long saturatedAdd(long a, long b)
a
and b
unless it would overflow or underflow in which case
Long.MAX_VALUE
or Long.MIN_VALUE
is returned, respectively.@Beta public static long saturatedSubtract(long a, long b)
a
and b
unless it would overflow or underflow in
which case Long.MAX_VALUE
or Long.MIN_VALUE
is returned, respectively.@Beta public static long saturatedMultiply(long a, long b)
a
and b
unless it would overflow or underflow in which
case Long.MAX_VALUE
or Long.MIN_VALUE
is returned, respectively.@Beta public static long saturatedPow(long b, int k)
b
to the k
th power, unless it would overflow or underflow in which
case Long.MAX_VALUE
or Long.MIN_VALUE
is returned, respectively.@GwtIncompatible public static long factorial(int n)
n!
, that is, the product of the first n
positive integers, 1
if
n == 0
, or Long.MAX_VALUE
if the result does not fit in a long
.IllegalArgumentException
- if n < 0
public static long binomial(int n, int k)
n
choose k
, also known as the binomial coefficient of n
and
k
, or Long.MAX_VALUE
if the result does not fit in a long
.IllegalArgumentException
- if n < 0
, k < 0
, or k > n
public static long mean(long x, long y)
x
and y
, rounded toward negative infinity. This
method is resilient to overflow.@GwtIncompatible @Beta public static boolean isPrime(long n)
true
if n
is a prime number: an integer greater
than one that cannot be factored into a product of smaller positive integers.
Returns false
if n
is zero, one, or a composite number (one which can be
factored into smaller positive integers).
To test larger numbers, use BigInteger.isProbablePrime(int)
.
IllegalArgumentException
- if n
is negativeCopyright © 2010–2017. All rights reserved.