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std.bigint
Arbitrary-precision ('bignum') arithmetic.
Performance is optimized for numbers below ~1000 decimal digits.
For X86 machines, highly optimised assembly routines are used.
The following algorithms are currently implemented:
- Karatsuba multiplication
- Squaring is optimized independently of multiplication
- Divide-and-conquer division
- Binary exponentiation
License:
Authors:
Don Clugston
Source std/bigint.d
- struct
BigInt
; - A struct representing an arbitrary precision integer.All arithmetic operations are supported, except unsigned shift right (>>>). Bitwise operations (|, &, ^, ~) are supported, and behave as if BigInt was an infinite length 2's complement number. BigInt implements value semantics using copy-on-write. This means that assignment is cheap, but operations such as x++ will cause heap allocation. (But note that for most bigint operations, heap allocation is inevitable anyway.)Examples:
BigInt a = "9588669891916142"; BigInt b = "7452469135154800"; auto c = a * b; writeln(c); // BigInt("71459266416693160362545788781600") auto d = b * a; writeln(d); // BigInt("71459266416693160362545788781600") writeln(d); // c d = c * BigInt("794628672112"); writeln(d); // BigInt("56783581982794522489042432639320434378739200") auto e = c + d; writeln(e); // BigInt("56783581982865981755459125799682980167520800") auto f = d + c; writeln(f); // e auto g = f - c; writeln(g); // d g = f - d; writeln(g); // c e = 12345678; g = c + e; auto h = g / b; auto i = g % b; writeln(h); // a writeln(i); // e BigInt j = "-0x9A56_57f4_7B83_AB78"; BigInt k = j; j ^^= 11; writeln(k^^11); // j
- this(Range)(Range
s
)
if (isBidirectionalRange!Range && isSomeChar!(ElementType!Range) && !isInfinite!Range && !isNarrowString!Range);
pure this(Range)(Ranges
)
if (isNarrowString!Range); - Construct a BigInt from a decimal or hexadecimal string. The number must be in the form of a decimal or hex literal. It may have a leading + or - sign, followed by 0x or 0X if hexadecimal. Underscores are permitted in any location after the 0x and/or the sign of the number.Parameters:
Range s
a finite bidirectional range of any character type Throws:std.conv.ConvException if the string doesn't represent a valid number - this(Range)(bool
isNegative
, Rangemagnitude
)
if (isInputRange!Range && isUnsigned!(ElementType!Range) && (hasLength!Range || isForwardRange!Range) && !isInfinite!Range); - Construct a BigInt from a sign and a magnitude.The magnitude is an input range of unsigned integers that satisfies either std.range.primitives.hasLength or std.range.primitives.isForwardRange. The first (leftmost) element of the magnitude is considered the most significant.Parameters:
bool isNegative
true for negative, false for non-negative (ignored when magnitude is zero) Range magnitude
a finite range of unsigned integers Examples:ubyte[] magnitude = [1, 2, 3, 4, 5, 6]; auto b1 = BigInt(false, magnitude); writeln(cast(long)b1); // 0x01_02_03_04_05_06L auto b2 = BigInt(true, magnitude); writeln(cast(long)b2); // -0x01_02_03_04_05_06L
- pure nothrow @safe this(T)(T
x
)
if (isIntegral!T); - Construct a BigInt from a built-in integral type.Examples:
ulong data = 1_000_000_000_000; auto bigData = BigInt(data); writeln(bigData); // BigInt("1_000_000_000_000")
- pure nothrow @safe this(T)(T
x
)
if (is(immutable(T) == immutable(BigInt))); - Construct a BigInt from another BigInt.Examples:
const(BigInt) b1 = BigInt("1_234_567_890"); BigInt b2 = BigInt(b1); writeln(b2); // BigInt("1_234_567_890")
- pure nothrow @safe BigInt
opAssign
(T)(Tx
)
if (isIntegral!T); - Assignment from built-in integer types.Examples:
auto b = BigInt("123"); b = 456; writeln(b); // BigInt("456")
- pure @nogc @safe BigInt
opAssign
(T : BigInt)(Tx
); - Assignment from another BigInt.Examples:
auto b1 = BigInt("123"); auto b2 = BigInt("456"); b2 = b1; writeln(b2); // BigInt("123")
- pure nothrow @safe BigInt
opOpAssign
(string op, T)(Ty
)
if ((op == "+" || op == "-" || op == "*" || op == "/" || op == "%" || op == ">>" || op == "<<" || op == "^^" || op == "|" || op == "&" || op == "^") && isIntegral!T); - Implements assignment operators from built-in integers of the form BigInt op= integer.Examples:
auto b = BigInt("1_000_000_000"); b += 12345; writeln(b); // BigInt("1_000_012_345") b /= 5; writeln(b); // BigInt("200_002_469")
- pure nothrow @safe BigInt
opOpAssign
(string op, T)(Ty
)
if ((op == "+" || op == "-" || op == "*" || op == "|" || op == "&" || op == "^" || op == "/" || op == "%") && is(T : BigInt)); - Implements assignment operators of the form BigInt op= BigInt.Examples:
auto x = BigInt("123"); auto y = BigInt("321"); x += y; writeln(x); // BigInt("444")
- const pure nothrow @safe BigInt
opBinary
(string op, T)(Ty
)
if ((op == "+" || op == "*" || op == "-" || op == "|" || op == "&" || op == "^" || op == "/" || op == "%") && is(T : BigInt)); - Implements binary operators between BigInts.Examples:
auto x = BigInt("123"); auto y = BigInt("456"); BigInt z = x * y; writeln(z); // BigInt("56088")
- const pure nothrow @safe BigInt
opBinary
(string op, T)(Ty
)
if ((op == "+" || op == "*" || op == "-" || op == "/" || op == "|" || op == "&" || op == "^" || op == ">>" || op == "<<" || op == "^^") && isIntegral!T); - Implements binary operators between BigInt's and built-in integers.Examples:
auto x = BigInt("123"); x *= 300; writeln(x); // BigInt("36900")
- const pure nothrow @safe auto
opBinary
(string op, T)(Ty
)
if (op == "%" && isIntegral!T); - Implements a narrowing remainder operation with built-in integer types.This binary operator returns a narrower, built-in integer type where applicable, according to the following table.
BigInt % uint → long BigInt % long → long BigInt % ulong → BigInt BigInt % other type → int Examples:auto x = BigInt("1_000_000_500"); long l = 1_000_000L; ulong ul = 2_000_000UL; int i = 500_000; short s = 30_000; assert(is(typeof(x % l) == long) && x % l == 500L); assert(is(typeof(x % ul) == BigInt) && x % ul == BigInt(500)); assert(is(typeof(x % i) == int) && x % i == 500); assert(is(typeof(x % s) == int) && x % s == 10500);
- const pure nothrow @safe BigInt
opBinaryRight
(string op, T)(Ty
)
if ((op == "+" || op == "*" || op == "|" || op == "&" || op == "^") && isIntegral!T);
const pure nothrow @safe BigIntopBinaryRight
(string op, T)(Ty
)
if (op == "-" && isIntegral!T);
const pure nothrow @safe TopBinaryRight
(string op, T)(Tx
)
if ((op == "%" || op == "/") && isIntegral!T); - Implements operators with built-in integers on the left-hand side and BigInt on the right-hand side.Examples:
auto x = BigInt("100"); BigInt y = 123 + x; writeln(y); // BigInt("223") BigInt z = 123 - x; writeln(z); // BigInt("23") // Dividing a built-in integer type by BigInt always results in // something that fits in a built-in type, so the built-in type is // returned, not BigInt. assert(is(typeof(1000 / x) == int)); writeln(1000 / x); // 10
- const pure nothrow @safe BigInt
opUnary
(string op)()
if (op == "+" || op == "-" || op == "~");
pure nothrow @safe BigIntopUnary
(string op)()
if (op == "++" || op == "--"); - Implements BigInt unary operators.Examples:
auto x = BigInt("1234"); writeln(-x); // BigInt("-1234") ++x; writeln(x); // BigInt("1235")
- const pure @nogc @safe bool
opEquals
()(auto ref const BigInty
);
const pure nothrow @nogc @safe boolopEquals
(T)(const Ty
)
if (isIntegral!T);
const pure nothrow @nogc boolopEquals
(T)(const Ty
)
if (isFloatingPoint!T); - Implements BigInt equality test with other BigInt's and built-in numeric types.Examples:
// Note that when comparing a BigInt to a float or double the // full precision of the BigInt is always considered, unlike // when comparing an int to a float or a long to a double. assert(BigInt(123456789) != cast(float) 123456789);
- const pure nothrow @nogc @safe T
opCast
(T : bool)(); - Implements casting to bool.Examples:
// Non-zero values are regarded as true auto x = BigInt("1"); auto y = BigInt("10"); assert(x); assert(y); // Zero value is regarded as false auto z = BigInt("0"); assert(!z);
- const pure @safe T
opCast
(T : ulong)(); - Implements casting to integer types.Throws:std.conv.ConvOverflowException if the number exceeds the target type's range.Examples:
import std.conv : to, ConvOverflowException; import std.exception : assertThrown; writeln(BigInt("0").to!int); // 0 writeln(BigInt("0").to!ubyte); // 0 writeln(BigInt("255").to!ubyte); // 255 assertThrown!ConvOverflowException(BigInt("256").to!ubyte); assertThrown!ConvOverflowException(BigInt("-1").to!ubyte);
- const nothrow @nogc @safe T
opCast
(T)()
if (isFloatingPoint!T); - Implements casting to floating point types.Examples:
assert(cast(float) BigInt("35540592535949172786332045140593475584") == 35540592535949172786332045140593475584.0f); assert(cast(double) BigInt("35540601499647381470685035515422441472") == 35540601499647381470685035515422441472.0); assert(cast(real) BigInt("35540601499647381470685035515422441472") == 35540601499647381470685035515422441472.0L); writeln(cast(float)BigInt("-0x1345_6780_0000_0000_0000_0000_0000")); // -0x1.3456_78p+108f // -0x1.3456_78ab_cdefp+108 writeln(cast(double)BigInt("-0x1345_678a_bcde_f000_0000_0000_0000")); // -0x1.3456_78ab_cdefp+108L writeln(cast(real)BigInt("-0x1345_678a_bcde_f000_0000_0000_0000"));
Examples:Rounding when casting to floating point// BigInts whose values cannot be exactly represented as float/double/real // are rounded when cast to float/double/real. When cast to float or // double or 64-bit real the rounding is strictly defined. When cast // to extended-precision real the rounding rules vary by environment. // BigInts that fall somewhere between two non-infinite floats/doubles // are rounded to the closer value when cast to float/double. writeln(cast(float)BigInt(0x1aaa_aae7)); // 0x1.aaa_aaep+28f writeln(cast(float)BigInt(0x1aaa_aaff)); // 0x1.aaa_ab0p+28f writeln(cast(float)BigInt(-0x1aaa_aae7)); // -0x1.aaaaaep+28f writeln(cast(float)BigInt(-0x1aaa_aaff)); // -0x1.aaaab0p+28f writeln(cast(double)BigInt(0x1aaa_aaaa_aaaa_aa77)); // 0x1.aaa_aaaa_aaaa_aa00p+60 writeln(cast(double)BigInt(0x1aaa_aaaa_aaaa_aaff)); // 0x1.aaa_aaaa_aaaa_ab00p+60 writeln(cast(double)BigInt(-0x1aaa_aaaa_aaaa_aa77)); // -0x1.aaa_aaaa_aaaa_aa00p+60 writeln(cast(double)BigInt(-0x1aaa_aaaa_aaaa_aaff)); // -0x1.aaa_aaaa_aaaa_ab00p+60 // BigInts that fall exactly between two non-infinite floats/doubles // are rounded away from zero when cast to float/double. (Note that // in most environments this is NOT the same rounding rule rule used // when casting int/long to float/double.) writeln(cast(float)BigInt(0x1aaa_aaf0)); // 0x1.aaa_ab0p+28f writeln(cast(float)BigInt(-0x1aaa_aaf0)); // -0x1.aaaab0p+28f writeln(cast(double)BigInt(0x1aaa_aaaa_aaaa_aa80)); // 0x1.aaa_aaaa_aaaa_ab00p+60 writeln(cast(double)BigInt(-0x1aaa_aaaa_aaaa_aa80)); // -0x1.aaa_aaaa_aaaa_ab00p+60 // BigInts that are bounded on one side by the largest positive or // most negative finite float/double and on the other side by infinity // or -infinity are rounded as if in place of infinity was the value // `2^^(T.max_exp)` when cast to float/double. // float.infinity writeln(cast(float)BigInt("999_999_999_999_999_999_999_999_999_999_999_999_999")); // -float.infinity writeln(cast(float)BigInt("-999_999_999_999_999_999_999_999_999_999_999_999_999")); assert(cast(double) BigInt("999_999_999_999_999_999_999_999_999_999_999_999_999") < double.infinity); assert(cast(real) BigInt("999_999_999_999_999_999_999_999_999_999_999_999_999") < real.infinity);
- const pure nothrow @nogc T
opCast
(T)()
if (is(immutable(T) == immutable(BigInt))); - Implements casting to/from qualified BigInt's.
Warning Casting to/from const or immutable may break type system guarantees. Use with care.
Examples:const(BigInt) x = BigInt("123"); BigInt y = cast() x; // cast away const writeln(y); // x
- const pure nothrow @nogc @safe int
opCmp
(ref const BigInty
);
const pure nothrow @nogc @safe intopCmp
(T)(const Ty
)
if (isIntegral!T);
const nothrow @nogc @safe intopCmp
(T)(const Ty
)
if (isFloatingPoint!T);
const pure nothrow @nogc @safe intopCmp
(T : BigInt)(const Ty
); - Implements 3-way comparisons of BigInt with BigInt or BigInt with built-in numeric types.Examples:
auto x = BigInt("100"); auto y = BigInt("10"); int z = 50; const int w = 200; assert(y < x); assert(x > z); assert(z > y); assert(x < w);
Examples:auto x = BigInt("0x1abc_de80_0000_0000_0000_0000_0000_0000"); BigInt y = x - 1; BigInt z = x + 1; double d = 0x1.abcde8p124; assert(y < d); assert(z > d); assert(x >= d && x <= d); // Note that when comparing a BigInt to a float or double the // full precision of the BigInt is always considered, unlike // when comparing an int to a float or a long to a double. assert(BigInt(123456789) < cast(float) 123456789);
- const pure nothrow @nogc @safe long
toLong
(); - Returns:The value of this BigInt as a long, or long.max/long.min if outside the representable range.Examples:
auto b = BigInt("12345"); long l = b.toLong(); writeln(l); // 12345
- const pure nothrow @nogc @safe int
toInt
(); - Returns:The value of this BigInt as an int, or int.max/int.min if outside the representable range.Examples:
auto big = BigInt("5_000_000"); auto i = big.toInt(); writeln(i); // 5_000_000 // Numbers that are too big to fit into an int will be clamped to int.max. auto tooBig = BigInt("5_000_000_000"); i = tooBig.toInt(); writeln(i); // int.max
- const pure nothrow @nogc @property @safe size_t
uintLength
(); - Number of significant uints which are used in storing this number. The absolute value of this BigInt is always < 232*uintLength
- const pure nothrow @nogc @property @safe size_t
ulongLength
(); - Number of significant ulongs which are used in storing this number. The absolute value of this BigInt is always < 264*ulongLength
- const void
toString
(Writer)(ref scope Writersink
, stringformatString
);
const voidtoString
(Writer)(ref scope Writersink
, ref scope const FormatSpec!charf
);
const voidtoString
(scope void delegate(const(char)[])sink
, stringformatString
);
const voidtoString
(scope void delegate(const(char)[])sink
, ref scope const FormatSpec!charf
); - Convert the BigInt to string, passing it to the given sink.Parameters:
Writer sink
An OutputRange for accepting possibly piecewise segments of the formatted string. string formatString
A format string specifying the output format. Available output formats: "d" Decimal "o" Octal "x" Hexadecimal, lower case "X" Hexadecimal, upper case "s" Default formatting (same as "d") null Default formatting (same as "d") Examples:toString
is rarely directly invoked; the usual way of using it is via std.format.format:import std.format : format; auto x = BigInt("1_000_000"); x *= 12345; writeln(format("%d", x)); // "12345000000" writeln(format("%x", x)); // "2_dfd1c040" writeln(format("%X", x)); // "2_DFD1C040" writeln(format("%o", x)); // "133764340100"
- const pure nothrow @nogc @safe size_t
toHash
(); - Returns:A unique hash of the BigInt's value suitable for use in a hash table.Examples:
toHash
is rarely directly invoked; it is implicitly used when BigInt is used as the key of an associative array.string[BigInt] aa; aa[BigInt(123)] = "abc"; aa[BigInt(456)] = "def"; writeln(aa[BigInt(123)]); // "abc" writeln(aa[BigInt(456)]); // "def"
- const T
getDigit
(T = ulong)(size_tn
)
if (is(T == ulong) || is(T == uint)); - Gets the nth number in the underlying representation that makes up the whole BigInt.Parameters:
T the type to view the underlying representation as size_t n
The nth number to retrieve. Must be less than ulongLength or uintLength with respect to T. Returns:The nth ulong in the representation of this BigInt.Examples:auto a = BigInt("1000"); writeln(a.ulongLength()); // 1 writeln(a.getDigit(0)); // 1000 writeln(a.uintLength()); // 1 writeln(a.getDigit!uint(0)); // 1000 auto b = BigInt("2_000_000_000_000_000_000_000_000_000"); writeln(b.ulongLength()); // 2 writeln(b.getDigit(0)); // 4584946418820579328 writeln(b.getDigit(1)); // 108420217 writeln(b.uintLength()); // 3 writeln(b.getDigit!uint(0)); // 3489660928 writeln(b.getDigit!uint(1)); // 1067516025 writeln(b.getDigit!uint(2)); // 108420217
- pure nothrow @safe string
toDecimalString
(const(BigInt)x
); - Parameters:
const(BigInt) x
The BigInt to convert to a decimal string. Returns:A string that represents the BigInt as a decimal number.Examples:auto x = BigInt("123"); x *= 1000; x += 456; auto xstr = x.toDecimalString(); writeln(xstr); // "123456"
- @safe string
toHex
(const(BigInt)x
); - Parameters:
const(BigInt) x
The BigInt to convert to a hexadecimal string. Returns:A string that represents the BigInt as a hexadecimal (base 16) number in upper case.Examples:auto x = BigInt("123"); x *= 1000; x += 456; auto xstr = x.toHex(); writeln(xstr); // "1E240"
- Unsigned!T
absUnsign
(T)(Tx
)
if (isIntegral!T); - Returns the absolute value of x converted to the corresponding unsigned type.Parameters:
T x
The integral value to return the absolute value of. Returns:The absolute value of x.Examples:writeln((-1).absUnsign); // 1 writeln(1.absUnsign); // 1
- pure nothrow @safe void
divMod
(const BigIntdividend
, const BigIntdivisor
, out BigIntquotient
, out BigIntremainder
); - Finds the quotient and remainder for the given dividend and divisor in one operation.Parameters:Examples:
auto a = BigInt(123); auto b = BigInt(25); BigInt q, r; divMod(a, b, q, r); writeln(q); // 4 writeln(r); // 23 writeln(q * b + r); // a
- pure nothrow @safe BigInt
powmod
(BigIntbase
, BigIntexponent
, BigIntmodulus
); - Fast power modulus calculation for BigInt operands.Parameters:Returns:The power modulus value of (base ^ exponent) % modulus.Examples:for powmod
BigInt base = BigInt("123456789012345678901234567890"); BigInt exponent = BigInt("1234567890123456789012345678901234567"); BigInt modulus = BigInt("1234567"); BigInt result = powmod(base, exponent, modulus); writeln(result); // 359079
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