Class BigInteger

java.lang.Object
java.lang.Number
java.math.BigInteger
All Implemented Interfaces:
Serializable, Comparable<BigInteger>

public class BigInteger extends Number implements Comparable<BigInteger>
Immutable arbitrary-precision integers. All operations behave as if BigIntegers were represented in two's-complement notation (like Java's primitive integer types). BigInteger provides analogues to all of Java's primitive integer operators, and all relevant methods from java.lang.Math. Additionally, BigInteger provides operations for modular arithmetic, GCD calculation, primality testing, prime generation, bit manipulation, and a few other miscellaneous operations.

Semantics of arithmetic operations exactly mimic those of Java's integer arithmetic operators, as defined in The Java Language Specification. For example, division by zero throws an ArithmeticException, and division of a negative by a positive yields a negative (or zero) remainder.

Semantics of shift operations extend those of Java's shift operators to allow for negative shift distances. A right-shift with a negative shift distance results in a left shift, and vice-versa. The unsigned right shift operator (>>>) is omitted since this operation only makes sense for a fixed sized word and not for a representation conceptually having an infinite number of leading virtual sign bits.

Semantics of bitwise logical operations exactly mimic those of Java's bitwise integer operators. The binary operators (and, or, xor) implicitly perform sign extension on the shorter of the two operands prior to performing the operation.

Comparison operations perform signed integer comparisons, analogous to those performed by Java's relational and equality operators.

Modular arithmetic operations are provided to compute residues, perform exponentiation, and compute multiplicative inverses. These methods always return a non-negative result, between 0 and (modulus - 1), inclusive.

Bit operations operate on a single bit of the two's-complement representation of their operand. If necessary, the operand is sign-extended so that it contains the designated bit. None of the single-bit operations can produce a BigInteger with a different sign from the BigInteger being operated on, as they affect only a single bit, and the arbitrarily large abstraction provided by this class ensures that conceptually there are infinitely many "virtual sign bits" preceding each BigInteger.

For the sake of brevity and clarity, pseudo-code is used throughout the descriptions of BigInteger methods. The pseudo-code expression (i + j) is shorthand for "a BigInteger whose value is that of the BigInteger i plus that of the BigInteger j." The pseudo-code expression (i == j) is shorthand for "true if and only if the BigInteger i represents the same value as the BigInteger j." Other pseudo-code expressions are interpreted similarly.

All methods and constructors in this class throw NullPointerException when passed a null object reference for any input parameter. BigInteger must support values in the range -2Integer.MAX_VALUE (exclusive) to +2Integer.MAX_VALUE (exclusive) and may support values outside of that range. An ArithmeticException is thrown when a BigInteger constructor or method would generate a value outside of the supported range. The range of probable prime values is limited and may be less than the full supported positive range of BigInteger. The range must be at least 1 to 2500000000.

API Note:
As BigInteger values are arbitrary precision integers, the algorithmic complexity of the methods of this class varies and may be superlinear in the size of the input. For example, a method like intValue() would be expected to run in O(1), that is constant time, since with the current internal representation only a fixed-size component of the BigInteger needs to be accessed to perform the conversion to int. In contrast, a method like not() would be expected to run in O(n) time where n is the size of the BigInteger in bits, that is, to run in time proportional to the size of the input. For multiplying two BigInteger values of size n, a naive multiplication algorithm would run in time O(n2) and theoretical results indicate a multiplication algorithm for numbers using this category of representation must run in at least O(n log n). Common multiplication algorithms between the bounds of the naive and theoretical cases include the Karatsuba multiplication (O(n1.585)) and 3-way Toom-Cook multiplication (O(n1.465)).

A particular implementation of multiply is free to switch between different algorithms for different inputs, such as to improve actual running time to produce the product by using simpler algorithms for smaller inputs even if the simpler algorithm has a larger asymptotic complexity.

Operations may also allocate and compute on intermediate results, potentially those allocations may be as large as in proportion to the running time of the algorithm.

Users of BigInteger concerned with bounding the running time or space of operations can screen out BigInteger values above a chosen magnitude.

Implementation Note:
In the reference implementation, BigInteger constructors and operations throw ArithmeticException when the result is out of the supported range of -2Integer.MAX_VALUE (exclusive) to +2Integer.MAX_VALUE (exclusive).
See Java Language Specification:
4.2.2 Integer Operations
Since:
1.1
See Also:
  • Field Summary

    Fields
    Modifier and Type
    Field
    Description
    static final BigInteger
    The BigInteger constant one.
    static final BigInteger
    The BigInteger constant ten.
    static final BigInteger
    The BigInteger constant two.
    static final BigInteger
    The BigInteger constant zero.
  • Constructor Summary

    Constructors
    Constructor
    Description
    BigInteger(byte[] val)
    Translates a byte array containing the two's-complement binary representation of a BigInteger into a BigInteger.
    BigInteger(byte[] val, int off, int len)
    Translates a byte sub-array containing the two's-complement binary representation of a BigInteger into a BigInteger.
    BigInteger(int signum, byte[] magnitude)
    Translates the sign-magnitude representation of a BigInteger into a BigInteger.
    BigInteger(int signum, byte[] magnitude, int off, int len)
    Translates the sign-magnitude representation of a BigInteger into a BigInteger.
    BigInteger(int bitLength, int certainty, Random rnd)
    Constructs a randomly generated positive BigInteger that is probably prime, with the specified bitLength.
    BigInteger(int numBits, Random rnd)
    Constructs a randomly generated BigInteger, uniformly distributed over the range 0 to (2numBits - 1), inclusive.
    Translates the decimal String representation of a BigInteger into a BigInteger.
    BigInteger(String val, int radix)
    Translates the String representation of a BigInteger in the specified radix into a BigInteger.
  • Method Summary

    Modifier and Type
    Method
    Description
    abs()
    Returns a BigInteger whose value is the absolute value of this BigInteger.
    Returns a BigInteger whose value is (this + val).
    Returns a BigInteger whose value is (this & val).
    Returns a BigInteger whose value is (this & ~val).
    int
    Returns the number of bits in the two's complement representation of this BigInteger that differ from its sign bit.
    int
    Returns the number of bits in the minimal two's-complement representation of this BigInteger, excluding a sign bit.
    byte
    Converts this BigInteger to a byte, checking for lost information.
    clearBit(int n)
    Returns a BigInteger whose value is equivalent to this BigInteger with the designated bit cleared.
    int
    Compares this BigInteger with the specified BigInteger.
    Returns a BigInteger whose value is (this / val).
    Returns an array of two BigIntegers containing (this / val) followed by (this % val).
    double
    Converts this BigInteger to a double.
    boolean
    Compares this BigInteger with the specified Object for equality.
    flipBit(int n)
    Returns a BigInteger whose value is equivalent to this BigInteger with the designated bit flipped.
    float
    Converts this BigInteger to a float.
    Returns a BigInteger whose value is the greatest common divisor of abs(this) and abs(val).
    int
    Returns the index of the rightmost (lowest-order) one bit in this BigInteger (the number of zero bits to the right of the rightmost one bit).
    int
    Returns the hash code for this BigInteger.
    int
    Converts this BigInteger to an int.
    int
    Converts this BigInteger to an int, checking for lost information.
    boolean
    isProbablePrime(int certainty)
    Returns true if this BigInteger is probably prime, false if it's definitely composite.
    long
    Converts this BigInteger to a long.
    long
    Converts this BigInteger to a long, checking for lost information.
    Returns the maximum of this BigInteger and val.
    Returns the minimum of this BigInteger and val.
    Returns a BigInteger whose value is (this mod m).
    Returns a BigInteger whose value is (this-1 mod m).
    Returns a BigInteger whose value is (thisexponent mod m).
    Returns a BigInteger whose value is (this * val).
    Returns a BigInteger whose value is (-this).
    Returns the first integer greater than this BigInteger that is probably prime.
    not()
    Returns a BigInteger whose value is (~this).
    Returns a BigInteger whose value is (this | val).
    Returns a BigInteger whose value is (this * val).
    pow(int exponent)
    Returns a BigInteger whose value is (thisexponent).
    static BigInteger
    probablePrime(int bitLength, Random rnd)
    Returns a positive BigInteger that is probably prime, with the specified bitLength.
    Returns a BigInteger whose value is (this % val).
    setBit(int n)
    Returns a BigInteger whose value is equivalent to this BigInteger with the designated bit set.
    shiftLeft(int n)
    Returns a BigInteger whose value is (this << n).
    shiftRight(int n)
    Returns a BigInteger whose value is (this >> n).
    short
    Converts this BigInteger to a short, checking for lost information.
    int
    Returns the signum function of this BigInteger.
    Returns the integer square root of this BigInteger.
    Returns an array of two BigIntegers containing the integer square root s of this and its remainder this - s*s, respectively.
    Returns a BigInteger whose value is (this - val).
    boolean
    testBit(int n)
    Returns true if and only if the designated bit is set.
    byte[]
    Returns a byte array containing the two's-complement representation of this BigInteger.
    Returns the decimal String representation of this BigInteger.
    toString(int radix)
    Returns the String representation of this BigInteger in the given radix.
    static BigInteger
    valueOf(long val)
    Returns a BigInteger whose value is equal to that of the specified long.
    Returns a BigInteger whose value is (this ^ val).

    Methods inherited from class java.lang.Number

    byteValue, shortValue

    Methods inherited from class java.lang.Object

    clone, finalize, getClass, notify, notifyAll, wait, wait, wait
  • Field Details

    • ZERO

      public static final BigInteger ZERO
      The BigInteger constant zero.
      Since:
      1.2
    • ONE

      public static final BigInteger ONE
      The BigInteger constant one.
      Since:
      1.2
    • TWO

      public static final BigInteger TWO
      The BigInteger constant two.
      Since:
      9
    • TEN

      public static final BigInteger TEN
      The BigInteger constant ten.
      Since:
      1.5
  • Constructor Details

    • BigInteger

      public BigInteger(byte[] val, int off, int len)
      Translates a byte sub-array containing the two's-complement binary representation of a BigInteger into a BigInteger. The sub-array is specified via an offset into the array and a length. The sub-array is assumed to be in big-endian byte-order: the most significant byte is the element at index off. The val array is assumed to be unchanged for the duration of the constructor call. An IndexOutOfBoundsException is thrown if the length of the array val is non-zero and either off is negative, len is negative, or off+len is greater than the length of val.
      Parameters:
      val - byte array containing a sub-array which is the big-endian two's-complement binary representation of a BigInteger.
      off - the start offset of the binary representation.
      len - the number of bytes to use.
      Throws:
      NumberFormatException - val is zero bytes long.
      IndexOutOfBoundsException - if the provided array offset and length would cause an index into the byte array to be negative or greater than or equal to the array length.
      Since:
      9
    • BigInteger

      public BigInteger(byte[] val)
      Translates a byte array containing the two's-complement binary representation of a BigInteger into a BigInteger. The input array is assumed to be in big-endian byte-order: the most significant byte is in the zeroth element. The val array is assumed to be unchanged for the duration of the constructor call.
      Parameters:
      val - big-endian two's-complement binary representation of a BigInteger.
      Throws:
      NumberFormatException - val is zero bytes long.
    • BigInteger

      public BigInteger(int signum, byte[] magnitude, int off, int len)
      Translates the sign-magnitude representation of a BigInteger into a BigInteger. The sign is represented as an integer signum value: -1 for negative, 0 for zero, or 1 for positive. The magnitude is a sub-array of a byte array in big-endian byte-order: the most significant byte is the element at index off. A zero value of the length len is permissible, and will result in a BigInteger value of 0, whether signum is -1, 0 or 1. The magnitude array is assumed to be unchanged for the duration of the constructor call. An IndexOutOfBoundsException is thrown if the length of the array magnitude is non-zero and either off is negative, len is negative, or off+len is greater than the length of magnitude.
      Parameters:
      signum - signum of the number (-1 for negative, 0 for zero, 1 for positive).
      magnitude - big-endian binary representation of the magnitude of the number.
      off - the start offset of the binary representation.
      len - the number of bytes to use.
      Throws:
      NumberFormatException - signum is not one of the three legal values (-1, 0, and 1), or signum is 0 and magnitude contains one or more non-zero bytes.
      IndexOutOfBoundsException - if the provided array offset and length would cause an index into the byte array to be negative or greater than or equal to the array length.
      Since:
      9
    • BigInteger

      public BigInteger(int signum, byte[] magnitude)
      Translates the sign-magnitude representation of a BigInteger into a BigInteger. The sign is represented as an integer signum value: -1 for negative, 0 for zero, or 1 for positive. The magnitude is a byte array in big-endian byte-order: the most significant byte is the zeroth element. A zero-length magnitude array is permissible, and will result in a BigInteger value of 0, whether signum is -1, 0 or 1. The magnitude array is assumed to be unchanged for the duration of the constructor call.
      Parameters:
      signum - signum of the number (-1 for negative, 0 for zero, 1 for positive).
      magnitude - big-endian binary representation of the magnitude of the number.
      Throws:
      NumberFormatException - signum is not one of the three legal values (-1, 0, and 1), or signum is 0 and magnitude contains one or more non-zero bytes.
    • BigInteger

      public BigInteger(String val, int radix)
      Translates the String representation of a BigInteger in the specified radix into a BigInteger. The String representation consists of an optional minus or plus sign followed by a sequence of one or more digits in the specified radix. The character-to-digit mapping is provided by Character.digit. The String may not contain any extraneous characters (whitespace, for example).
      Parameters:
      val - String representation of BigInteger.
      radix - radix to be used in interpreting val.
      Throws:
      NumberFormatException - val is not a valid representation of a BigInteger in the specified radix, or radix is outside the range from Character.MIN_RADIX to Character.MAX_RADIX, inclusive.
    • BigInteger

      public BigInteger(String val)
      Translates the decimal String representation of a BigInteger into a BigInteger. The String representation consists of an optional minus or plus sign followed by a sequence of one or more decimal digits. The character-to-digit mapping is provided by Character.digit. The String may not contain any extraneous characters (whitespace, for example).
      Parameters:
      val - decimal String representation of BigInteger.
      Throws:
      NumberFormatException - val is not a valid representation of a BigInteger.
    • BigInteger

      public BigInteger(int numBits, Random rnd)
      Constructs a randomly generated BigInteger, uniformly distributed over the range 0 to (2numBits - 1), inclusive. The uniformity of the distribution assumes that a fair source of random bits is provided in rnd. Note that this constructor always constructs a non-negative BigInteger.
      Parameters:
      numBits - maximum bitLength of the new BigInteger.
      rnd - source of randomness to be used in computing the new BigInteger.
      Throws:
      IllegalArgumentException - numBits is negative.
      See Also:
    • BigInteger

      public BigInteger(int bitLength, int certainty, Random rnd)
      Constructs a randomly generated positive BigInteger that is probably prime, with the specified bitLength.
      API Note:
      It is recommended that the probablePrime method be used in preference to this constructor unless there is a compelling need to specify a certainty.
      Parameters:
      bitLength - bitLength of the returned BigInteger.
      certainty - a measure of the uncertainty that the caller is willing to tolerate. The probability that the new BigInteger represents a prime number will exceed (1 - 1/2certainty). The execution time of this constructor is proportional to the value of this parameter.
      rnd - source of random bits used to select candidates to be tested for primality.
      Throws:
      ArithmeticException - bitLength < 2 or bitLength is too large.
      See Also:
  • Method Details

    • probablePrime

      public static BigInteger probablePrime(int bitLength, Random rnd)
      Returns a positive BigInteger that is probably prime, with the specified bitLength. The probability that a BigInteger returned by this method is composite does not exceed 2-100.
      Parameters:
      bitLength - bitLength of the returned BigInteger.
      rnd - source of random bits used to select candidates to be tested for primality.
      Returns:
      a BigInteger of bitLength bits that is probably prime
      Throws:
      ArithmeticException - bitLength < 2 or bitLength is too large.
      Since:
      1.4
      See Also:
    • nextProbablePrime

      public BigInteger nextProbablePrime()
      Returns the first integer greater than this BigInteger that is probably prime. The probability that the number returned by this method is composite does not exceed 2-100. This method will never skip over a prime when searching: if it returns p, there is no prime q such that this < q < p.
      Implementation Note:
      Due to the nature of the underlying algorithm, and depending on the size of this, this method could consume a large amount of memory, up to exhaustion of available heap space, or could run for a long time.
      Returns:
      the first integer greater than this BigInteger that is probably prime.
      Throws:
      ArithmeticException - this < 0 or this is too large.
      Since:
      1.5
    • valueOf

      public static BigInteger valueOf(long val)
      Returns a BigInteger whose value is equal to that of the specified long.
      API Note:
      This static factory method is provided in preference to a (long) constructor because it allows for reuse of frequently used BigIntegers.
      Parameters:
      val - value of the BigInteger to return.
      Returns:
      a BigInteger with the specified value.
    • add

      public BigInteger add(BigInteger val)
      Returns a BigInteger whose value is (this + val).
      Parameters:
      val - value to be added to this BigInteger.
      Returns:
      this + val
    • subtract

      public BigInteger subtract(BigInteger val)
      Returns a BigInteger whose value is (this - val).
      Parameters:
      val - value to be subtracted from this BigInteger.
      Returns:
      this - val
    • multiply

      public BigInteger multiply(BigInteger val)
      Returns a BigInteger whose value is (this * val).
      Implementation Note:
      An implementation may offer better algorithmic performance when val == this.
      Parameters:
      val - value to be multiplied by this BigInteger.
      Returns:
      this * val
    • parallelMultiply

      public BigInteger parallelMultiply(BigInteger val)
      Returns a BigInteger whose value is (this * val). When both this and val are large, typically in the thousands of bits, parallel multiply might be used. This method returns the exact same mathematical result as multiply(java.math.BigInteger).
      Implementation Note:
      This implementation may offer better algorithmic performance when val == this., Compared to multiply(java.math.BigInteger), an implementation's parallel multiplication algorithm would typically use more CPU resources to compute the result faster, and may do so with a slight increase in memory consumption.
      Parameters:
      val - value to be multiplied by this BigInteger.
      Returns:
      this * val
      Since:
      19
      See Also:
    • divide

      public BigInteger divide(BigInteger val)
      Returns a BigInteger whose value is (this / val).
      Parameters:
      val - value by which this BigInteger is to be divided.
      Returns:
      this / val
      Throws:
      ArithmeticException - if val is zero.
    • divideAndRemainder

      public BigInteger[] divideAndRemainder(BigInteger val)
      Returns an array of two BigIntegers containing (this / val) followed by (this % val).
      Parameters:
      val - value by which this BigInteger is to be divided, and the remainder computed.
      Returns:
      an array of two BigIntegers: the quotient (this / val) is the initial element, and the remainder (this % val) is the final element.
      Throws:
      ArithmeticException - if val is zero.
    • remainder

      public BigInteger remainder(BigInteger val)
      Returns a BigInteger whose value is (this % val).
      Parameters:
      val - value by which this BigInteger is to be divided, and the remainder computed.
      Returns:
      this % val
      Throws:
      ArithmeticException - if val is zero.
    • pow

      public BigInteger pow(int exponent)
      Returns a BigInteger whose value is (thisexponent). Note that exponent is an integer rather than a BigInteger.
      Parameters:
      exponent - exponent to which this BigInteger is to be raised.
      Returns:
      thisexponent
      Throws:
      ArithmeticException - exponent is negative. (This would cause the operation to yield a non-integer value.)
    • sqrt

      public BigInteger sqrt()
      Returns the integer square root of this BigInteger. The integer square root of the corresponding mathematical integer n is the largest mathematical integer s such that s*s <= n. It is equal to the value of floor(sqrt(n)), where sqrt(n) denotes the real square root of n treated as a real. Note that the integer square root will be less than the real square root if the latter is not representable as an integral value.
      Returns:
      the integer square root of this
      Throws:
      ArithmeticException - if this is negative. (The square root of a negative integer val is (i * sqrt(-val)) where i is the imaginary unit and is equal to sqrt(-1).)
      Since:
      9
    • sqrtAndRemainder

      public BigInteger[] sqrtAndRemainder()
      Returns an array of two BigIntegers containing the integer square root s of this and its remainder this - s*s, respectively.
      Returns:
      an array of two BigIntegers with the integer square root at offset 0 and the remainder at offset 1
      Throws:
      ArithmeticException - if this is negative. (The square root of a negative integer val is (i * sqrt(-val)) where i is the imaginary unit and is equal to sqrt(-1).)
      Since:
      9
      See Also:
    • gcd

      public BigInteger gcd(BigInteger val)
      Returns a BigInteger whose value is the greatest common divisor of abs(this) and abs(val). Returns 0 if this == 0 && val == 0.
      Parameters:
      val - value with which the GCD is to be computed.
      Returns:
      GCD(abs(this), abs(val))
    • abs

      public BigInteger abs()
      Returns a BigInteger whose value is the absolute value of this BigInteger.
      Returns:
      abs(this)
    • negate

      public BigInteger negate()
      Returns a BigInteger whose value is (-this).
      Returns:
      -this
    • signum

      public int signum()
      Returns the signum function of this BigInteger.
      Returns:
      -1, 0 or 1 as the value of this BigInteger is negative, zero or positive.
    • mod

      public BigInteger mod(BigInteger m)
      Returns a BigInteger whose value is (this mod m). This method differs from remainder in that it always returns a non-negative BigInteger.
      Parameters:
      m - the modulus.
      Returns:
      this mod m
      Throws:
      ArithmeticException - m ≤ 0
      See Also:
    • modPow

      public BigInteger modPow(BigInteger exponent, BigInteger m)
      Returns a BigInteger whose value is (thisexponent mod m). (Unlike pow, this method permits negative exponents.)
      Parameters:
      exponent - the exponent.
      m - the modulus.
      Returns:
      thisexponent mod m
      Throws:
      ArithmeticException - m ≤ 0 or the exponent is negative and this BigInteger is not relatively prime to m.
      See Also:
    • modInverse

      public BigInteger modInverse(BigInteger m)
      Returns a BigInteger whose value is (this-1 mod m).
      Parameters:
      m - the modulus.
      Returns:
      this-1 mod m.
      Throws:
      ArithmeticException - m ≤ 0, or this BigInteger has no multiplicative inverse mod m (that is, this BigInteger is not relatively prime to m).
    • shiftLeft

      public BigInteger shiftLeft(int n)
      Returns a BigInteger whose value is (this << n). The shift distance, n, may be negative, in which case this method performs a right shift. (Computes floor(this * 2n).)
      Parameters:
      n - shift distance, in bits.
      Returns:
      this << n
      See Also:
    • shiftRight

      public BigInteger shiftRight(int n)
      Returns a BigInteger whose value is (this >> n). Sign extension is performed. The shift distance, n, may be negative, in which case this method performs a left shift. (Computes floor(this / 2n).)
      Parameters:
      n - shift distance, in bits.
      Returns:
      this >> n
      See Also:
    • and

      public BigInteger and(BigInteger val)
      Returns a BigInteger whose value is (this & val). (This method returns a negative BigInteger if and only if this and val are both negative.)
      Parameters:
      val - value to be AND'ed with this BigInteger.
      Returns:
      this & val
    • or

      public BigInteger or(BigInteger val)
      Returns a BigInteger whose value is (this | val). (This method returns a negative BigInteger if and only if either this or val is negative.)
      Parameters:
      val - value to be OR'ed with this BigInteger.
      Returns:
      this | val
    • xor

      public BigInteger xor(BigInteger val)
      Returns a BigInteger whose value is (this ^ val). (This method returns a negative BigInteger if and only if exactly one of this and val are negative.)
      Parameters:
      val - value to be XOR'ed with this BigInteger.
      Returns:
      this ^ val
    • not

      public BigInteger not()
      Returns a BigInteger whose value is (~this). (This method returns a negative value if and only if this BigInteger is non-negative.)
      Returns:
      ~this
    • andNot

      public BigInteger andNot(BigInteger val)
      Returns a BigInteger whose value is (this & ~val). This method, which is equivalent to and(val.not()), is provided as a convenience for masking operations. (This method returns a negative BigInteger if and only if this is negative and val is positive.)
      Parameters:
      val - value to be complemented and AND'ed with this BigInteger.
      Returns:
      this & ~val
    • testBit

      public boolean testBit(int n)
      Returns true if and only if the designated bit is set. (Computes ((this & (1<<n)) != 0).)
      Parameters:
      n - index of bit to test.
      Returns:
      true if and only if the designated bit is set.
      Throws:
      ArithmeticException - n is negative.
    • setBit

      public BigInteger setBit(int n)
      Returns a BigInteger whose value is equivalent to this BigInteger with the designated bit set. (Computes (this | (1<<n)).)
      Parameters:
      n - index of bit to set.
      Returns:
      this | (1<<n)
      Throws:
      ArithmeticException - n is negative.
    • clearBit

      public BigInteger clearBit(int n)
      Returns a BigInteger whose value is equivalent to this BigInteger with the designated bit cleared. (Computes (this & ~(1<<n)).)
      Parameters:
      n - index of bit to clear.
      Returns:
      this & ~(1<<n)
      Throws:
      ArithmeticException - n is negative.
    • flipBit

      public BigInteger flipBit(int n)
      Returns a BigInteger whose value is equivalent to this BigInteger with the designated bit flipped. (Computes (this ^ (1<<n)).)
      Parameters:
      n - index of bit to flip.
      Returns:
      this ^ (1<<n)
      Throws:
      ArithmeticException - n is negative.
    • getLowestSetBit

      public int getLowestSetBit()
      Returns the index of the rightmost (lowest-order) one bit in this BigInteger (the number of zero bits to the right of the rightmost one bit). Returns -1 if this BigInteger contains no one bits. (Computes (this == 0? -1 : log2(this & -this)).)
      Returns:
      index of the rightmost one bit in this BigInteger.
    • bitLength

      public int bitLength()
      Returns the number of bits in the minimal two's-complement representation of this BigInteger, excluding a sign bit. For positive BigIntegers, this is equivalent to the number of bits in the ordinary binary representation. For zero this method returns 0. (Computes (ceil(log2(this < 0 ? -this : this+1))).)
      Returns:
      number of bits in the minimal two's-complement representation of this BigInteger, excluding a sign bit.
    • bitCount

      public int bitCount()
      Returns the number of bits in the two's complement representation of this BigInteger that differ from its sign bit. This method is useful when implementing bit-vector style sets atop BigIntegers.
      Returns:
      number of bits in the two's complement representation of this BigInteger that differ from its sign bit.
    • isProbablePrime

      public boolean isProbablePrime(int certainty)
      Returns true if this BigInteger is probably prime, false if it's definitely composite. If certainty is ≤ 0, true is returned.
      Implementation Note:
      Due to the nature of the underlying primality test algorithm, and depending on the size of this and certainty, this method could consume a large amount of memory, up to exhaustion of available heap space, or could run for a long time.
      Parameters:
      certainty - a measure of the uncertainty that the caller is willing to tolerate: if the call returns true the probability that this BigInteger is prime exceeds (1 - 1/2certainty). The execution time of this method is proportional to the value of this parameter.
      Returns:
      true if this BigInteger is probably prime, false if it's definitely composite.
      Throws:
      ArithmeticException - this is too large.
    • compareTo

      public int compareTo(BigInteger val)
      Compares this BigInteger with the specified BigInteger. This method is provided in preference to individual methods for each of the six boolean comparison operators (<, ==, >, >=, !=, <=). The suggested idiom for performing these comparisons is: (x.compareTo(y) <op> 0), where <op> is one of the six comparison operators.
      Specified by:
      compareTo in interface Comparable<BigInteger>
      Parameters:
      val - BigInteger to which this BigInteger is to be compared.
      Returns:
      -1, 0 or 1 as this BigInteger is numerically less than, equal to, or greater than val.
    • equals

      public boolean equals(Object x)
      Compares this BigInteger with the specified Object for equality.
      Overrides:
      equals in class Object
      Parameters:
      x - Object to which this BigInteger is to be compared.
      Returns:
      true if and only if the specified Object is a BigInteger whose value is numerically equal to this BigInteger.
      See Also:
    • min

      public BigInteger min(BigInteger val)
      Returns the minimum of this BigInteger and val.
      Parameters:
      val - value with which the minimum is to be computed.
      Returns:
      the BigInteger whose value is the lesser of this BigInteger and val. If they are equal, either may be returned.
    • max

      public BigInteger max(BigInteger val)
      Returns the maximum of this BigInteger and val.
      Parameters:
      val - value with which the maximum is to be computed.
      Returns:
      the BigInteger whose value is the greater of this and val. If they are equal, either may be returned.
    • hashCode

      public int hashCode()
      Returns the hash code for this BigInteger.
      Overrides:
      hashCode in class Object
      Returns:
      the hash code for this BigInteger
      See Also:
    • toString

      public String toString(int radix)
      Returns the String representation of this BigInteger in the given radix. If the radix is outside the range from Character.MIN_RADIX to Character.MAX_RADIX inclusive, it will default to 10 (as is the case for Integer.toString). The digit-to-character mapping provided by Character.forDigit is used, and a minus sign is prepended if appropriate. (This representation is compatible with the (String, int) constructor.)
      Parameters:
      radix - radix of the String representation.
      Returns:
      String representation of this BigInteger in the given radix.
      See Also:
    • toString

      public String toString()
      Returns the decimal String representation of this BigInteger. The digit-to-character mapping provided by Character.forDigit is used, and a minus sign is prepended if appropriate. (This representation is compatible with the (String) constructor, and allows for String concatenation with Java's + operator.)
      Overrides:
      toString in class Object
      Returns:
      decimal String representation of this BigInteger.
      See Also:
    • toByteArray

      public byte[] toByteArray()
      Returns a byte array containing the two's-complement representation of this BigInteger. The byte array will be in big-endian byte-order: the most significant byte is in the zeroth element. The array will contain the minimum number of bytes required to represent this BigInteger, including at least one sign bit, which is (ceil((this.bitLength() + 1)/8)). (This representation is compatible with the (byte[]) constructor.)
      Returns:
      a byte array containing the two's-complement representation of this BigInteger.
      See Also:
    • intValue

      public int intValue()
      Converts this BigInteger to an int. This conversion is analogous to a narrowing primitive conversion from long to int as defined in The Java Language Specification: if this BigInteger is too big to fit in an int, only the low-order 32 bits are returned. Note that this conversion can lose information about the overall magnitude of the BigInteger value as well as return a result with the opposite sign.
      Specified by:
      intValue in class Number
      Returns:
      this BigInteger converted to an int.
      See Java Language Specification:
      5.1.3 Narrowing Primitive Conversion
      See Also:
    • longValue

      public long longValue()
      Converts this BigInteger to a long. This conversion is analogous to a narrowing primitive conversion from long to int as defined in The Java Language Specification: if this BigInteger is too big to fit in a long, only the low-order 64 bits are returned. Note that this conversion can lose information about the overall magnitude of the BigInteger value as well as return a result with the opposite sign.
      Specified by:
      longValue in class Number
      Returns:
      this BigInteger converted to a long.
      See Java Language Specification:
      5.1.3 Narrowing Primitive Conversion
      See Also:
    • floatValue

      public float floatValue()
      Converts this BigInteger to a float. This conversion is similar to the narrowing primitive conversion from double to float as defined in The Java Language Specification: if this BigInteger has too great a magnitude to represent as a float, it will be converted to Float.NEGATIVE_INFINITY or Float.POSITIVE_INFINITY as appropriate. Note that even when the return value is finite, this conversion can lose information about the precision of the BigInteger value.
      Specified by:
      floatValue in class Number
      Returns:
      this BigInteger converted to a float.
      See Java Language Specification:
      5.1.3 Narrowing Primitive Conversion
    • doubleValue

      public double doubleValue()
      Converts this BigInteger to a double. This conversion is similar to the narrowing primitive conversion from double to float as defined in The Java Language Specification: if this BigInteger has too great a magnitude to represent as a double, it will be converted to Double.NEGATIVE_INFINITY or Double.POSITIVE_INFINITY as appropriate. Note that even when the return value is finite, this conversion can lose information about the precision of the BigInteger value.
      Specified by:
      doubleValue in class Number
      Returns:
      this BigInteger converted to a double.
      See Java Language Specification:
      5.1.3 Narrowing Primitive Conversion
    • longValueExact

      public long longValueExact()
      Converts this BigInteger to a long, checking for lost information. If the value of this BigInteger is out of the range of the long type, then an ArithmeticException is thrown.
      Returns:
      this BigInteger converted to a long.
      Throws:
      ArithmeticException - if the value of this will not exactly fit in a long.
      Since:
      1.8
      See Also:
    • intValueExact

      public int intValueExact()
      Converts this BigInteger to an int, checking for lost information. If the value of this BigInteger is out of the range of the int type, then an ArithmeticException is thrown.
      Returns:
      this BigInteger converted to an int.
      Throws:
      ArithmeticException - if the value of this will not exactly fit in an int.
      Since:
      1.8
      See Also:
    • shortValueExact

      public short shortValueExact()
      Converts this BigInteger to a short, checking for lost information. If the value of this BigInteger is out of the range of the short type, then an ArithmeticException is thrown.
      Returns:
      this BigInteger converted to a short.
      Throws:
      ArithmeticException - if the value of this will not exactly fit in a short.
      Since:
      1.8
      See Also:
    • byteValueExact

      public byte byteValueExact()
      Converts this BigInteger to a byte, checking for lost information. If the value of this BigInteger is out of the range of the byte type, then an ArithmeticException is thrown.
      Returns:
      this BigInteger converted to a byte.
      Throws:
      ArithmeticException - if the value of this will not exactly fit in a byte.
      Since:
      1.8
      See Also: