/** Arbitrary precision arithmetic ('bignum') for processors with no asm support * * All functions operate on arrays of uints, stored LSB first. * If there is a destination array, it will be the first parameter. * Currently, all of these functions are subject to change, and are * intended for internal use only. * This module is intended only to assist development of high-speed routines * on currently unsupported processors. * The X86 asm version is about 30 times faster than the D version (DMD). */ /* Copyright Don Clugston 2008 - 2010. * Distributed under the Boost Software License, Version 1.0. * (See accompanying file LICENSE_1_0.txt or copy at * http://www.boost.org/LICENSE_1_0.txt) */ module std.internal.math.biguintnoasm; nothrow: @safe: public: alias BigDigit = uint; // A Bignum is an array of BigDigits. // Limits for when to switch between multiplication algorithms. enum int KARATSUBALIMIT = 10; // Minimum value for which Karatsuba is worthwhile. enum int KARATSUBASQUARELIMIT = 12; // Minimum value for which square Karatsuba is worthwhile /** Multi-byte addition or subtraction * dest[] = src1[] + src2[] + carry (0 or 1). * or dest[] = src1[] - src2[] - carry (0 or 1). * Returns carry or borrow (0 or 1). * Set op == '+' for addition, '-' for subtraction. */ uint multibyteAddSub(char op)(uint[] dest, const(uint) [] src1, const (uint) [] src2, uint carry) pure @nogc @safe { ulong c = carry; for (size_t i = 0; i < src2.length; ++i) { static if (op=='+') c = c + src1[i] + src2[i]; else c = cast(ulong) src1[i] - src2[i] - c; dest[i] = cast(uint) c; c = (c > 0xFFFF_FFFF); } return cast(uint) c; } @safe unittest { uint [] a = new uint[40]; uint [] b = new uint[40]; uint [] c = new uint[40]; for (size_t i = 0; i < a.length; ++i) { if (i&1) a[i]=cast(uint)(0x8000_0000 + i); else a[i]=cast(uint) i; b[i]= 0x8000_0003; } c[19]=0x3333_3333; uint carry = multibyteAddSub!('+')(c[0 .. 18], b[0 .. 18], a[0 .. 18], 0); assert(c[0]==0x8000_0003); assert(c[1]==4); assert(c[19]==0x3333_3333); // check for overrun assert(carry == 1); for (size_t i = 0; i < a.length; ++i) { a[i] = b[i] = c[i] = 0; } a[8]=0x048D159E; b[8]=0x048D159E; a[10]=0x1D950C84; b[10]=0x1D950C84; a[5] =0x44444444; carry = multibyteAddSub!('-')(a[0 .. 12], a[0 .. 12], b[0 .. 12], 0); assert(a[11] == 0); for (size_t i = 0; i < 10; ++i) if (i != 5) assert(a[i] == 0); for (size_t q = 3; q < 36; ++q) { for (size_t i = 0; i< a.length; ++i) { a[i] = b[i] = c[i] = 0; } a[q-2]=0x040000; b[q-2]=0x040000; carry = multibyteAddSub!('-')(a[0 .. q], a[0 .. q], b[0 .. q], 0); assert(a[q-2]==0); } } /** dest[] += carry, or dest[] -= carry. * op must be '+' or '-' * Returns final carry or borrow (0 or 1) */ uint multibyteIncrementAssign(char op)(uint[] dest, uint carry) pure @nogc @safe { static if (op=='+') { ulong c = carry; c += dest[0]; dest[0] = cast(uint) c; if (c <= 0xFFFF_FFFF) return 0; for (size_t i = 1; i < dest.length; ++i) { ++dest[i]; if (dest[i] != 0) return 0; } return 1; } else { ulong c = carry; c = dest[0] - c; dest[0] = cast(uint) c; if (c <= 0xFFFF_FFFF) return 0; for (size_t i = 1; i < dest.length; ++i) { --dest[i]; if (dest[i] != 0xFFFF_FFFF) return 0; } return 1; } } /** dest[] = src[] << numbits * numbits must be in the range 1 .. 31 */ uint multibyteShl(uint [] dest, const(uint) [] src, uint numbits) pure @nogc @safe { ulong c = 0; for (size_t i = 0; i < dest.length; ++i) { c += (cast(ulong)(src[i]) << numbits); dest[i] = cast(uint) c; c >>>= 32; } return cast(uint) c; } /** dest[] = src[] >> numbits * numbits must be in the range 1 .. 31 */ void multibyteShr(uint [] dest, const(uint) [] src, uint numbits) pure @nogc @safe { ulong c = 0; for (ptrdiff_t i = dest.length; i != 0; --i) { c += (src[i-1] >>numbits) + (cast(ulong)(src[i-1]) << (64 - numbits)); dest[i-1] = cast(uint) c; c >>>= 32; } } @safe unittest { uint [] aa = [0x1222_2223, 0x4555_5556, 0x8999_999A, 0xBCCC_CCCD, 0xEEEE_EEEE]; multibyteShr(aa[0..$-2], aa, 4); assert(aa[0] == 0x6122_2222 && aa[1] == 0xA455_5555 && aa[2] == 0x0899_9999); assert(aa[3] == 0xBCCC_CCCD); aa = [0x1222_2223, 0x4555_5556, 0x8999_999A, 0xBCCC_CCCD, 0xEEEE_EEEE]; multibyteShr(aa[0..$-1], aa, 4); assert(aa[0] == 0x6122_2222 && aa[1] == 0xA455_5555 && aa[2] == 0xD899_9999 && aa[3] == 0x0BCC_CCCC); aa = [0xF0FF_FFFF, 0x1222_2223, 0x4555_5556, 0x8999_999A, 0xBCCC_CCCD, 0xEEEE_EEEE]; multibyteShl(aa[1 .. 4], aa[1..$], 4); assert(aa[0] == 0xF0FF_FFFF && aa[1] == 0x2222_2230 && aa[2]==0x5555_5561 && aa[3]==0x9999_99A4 && aa[4]==0x0BCCC_CCCD); } /** dest[] = src[] * multiplier + carry. * Returns carry. */ uint multibyteMul(uint[] dest, const(uint)[] src, uint multiplier, uint carry) pure @nogc @safe { assert(dest.length == src.length); ulong c = carry; for (size_t i = 0; i < src.length; ++i) { c += cast(ulong)(src[i]) * multiplier; dest[i] = cast(uint) c; c>>=32; } return cast(uint) c; } @safe unittest { uint [] aa = [0xF0FF_FFFF, 0x1222_2223, 0x4555_5556, 0x8999_999A, 0xBCCC_CCCD, 0xEEEE_EEEE]; multibyteMul(aa[1 .. 4], aa[1 .. 4], 16, 0); assert(aa[0] == 0xF0FF_FFFF && aa[1] == 0x2222_2230 && aa[2]==0x5555_5561 && aa[3]==0x9999_99A4 && aa[4]==0x0BCCC_CCCD); } /** * dest[] += src[] * multiplier + carry(0 .. FFFF_FFFF). * Returns carry out of MSB (0 .. FFFF_FFFF). */ uint multibyteMulAdd(char op)(uint [] dest, const(uint)[] src, uint multiplier, uint carry) pure @nogc @safe { assert(dest.length == src.length); ulong c = carry; for (size_t i = 0; i < src.length; ++i) { static if (op=='+') { c += cast(ulong)(multiplier) * src[i] + dest[i]; dest[i] = cast(uint) c; c >>= 32; } else { c += cast(ulong) multiplier * src[i]; ulong t = cast(ulong) dest[i] - cast(uint) c; dest[i] = cast(uint) t; c = cast(uint)((c >> 32) - (t >> 32)); } } return cast(uint) c; } @safe unittest { uint [] aa = [0xF0FF_FFFF, 0x1222_2223, 0x4555_5556, 0x8999_999A, 0xBCCC_CCCD, 0xEEEE_EEEE]; uint [] bb = [0x1234_1234, 0xF0F0_F0F0, 0x00C0_C0C0, 0xF0F0_F0F0, 0xC0C0_C0C0]; multibyteMulAdd!('+')(bb[1..$-1], aa[1..$-2], 16, 5); assert(bb[0] == 0x1234_1234 && bb[4] == 0xC0C0_C0C0); assert(bb[1] == 0x2222_2230 + 0xF0F0_F0F0 + 5 && bb[2] == 0x5555_5561 + 0x00C0_C0C0 + 1 && bb[3] == 0x9999_99A4 + 0xF0F0_F0F0 ); } /** Sets result = result[0 .. left.length] + left * right It is defined in this way to allow cache-efficient multiplication. This function is equivalent to: ---- for (size_t i = 0; i< right.length; ++i) { dest[left.length + i] = multibyteMulAdd(dest[i .. left.length+i], left, right[i], 0); } ---- */ void multibyteMultiplyAccumulate(uint [] dest, const(uint)[] left, const(uint) [] right) pure @nogc @safe { for (size_t i = 0; i < right.length; ++i) { dest[left.length + i] = multibyteMulAdd!('+')(dest[i .. left.length+i], left, right[i], 0); } } /** dest[] /= divisor. * overflow is the initial remainder, and must be in the range 0 .. divisor-1. */ uint multibyteDivAssign(uint [] dest, uint divisor, uint overflow) pure @nogc @safe { ulong c = cast(ulong) overflow; for (ptrdiff_t i = dest.length-1; i >= 0; --i) { c = (c << 32) + cast(ulong)(dest[i]); uint q = cast(uint)(c/divisor); c -= divisor * q; dest[i] = q; } return cast(uint) c; } @safe unittest { uint [] aa = new uint[101]; for (uint i = 0; i < aa.length; ++i) aa[i] = 0x8765_4321 * (i+3); uint overflow = multibyteMul(aa, aa, 0x8EFD_FCFB, 0x33FF_7461); uint r = multibyteDivAssign(aa, 0x8EFD_FCFB, overflow); for (uint i=0; i>=32) + dest[2*i+1]; dest[2*i+1] = cast(uint) c; c >>= 32; } } // Does half a square multiply. (square = diagonal + 2*triangle) void multibyteTriangleAccumulate(uint[] dest, const(uint)[] x) pure @nogc @safe { // x[0]*x[1...$] + x[1]*x[2..$] + ... + x[$-2]x[$-1..$] dest[x.length] = multibyteMul(dest[1 .. x.length], x[1..$], x[0], 0); if (x.length < 4) { if (x.length == 3) { ulong c = cast(ulong)(x[$-1]) * x[$-2] + dest[2*x.length-3]; dest[2*x.length - 3] = cast(uint) c; c >>= 32; dest[2*x.length - 2] = cast(uint) c; } return; } for (size_t i = 2; i < x.length - 2; ++i) { dest[i-1+ x.length] = multibyteMulAdd!('+')( dest[i+i-1 .. i+x.length-1], x[i..$], x[i-1], 0); } // Unroll the last two entries, to reduce loop overhead: ulong c = cast(ulong)(x[$-3]) * x[$-2] + dest[2*x.length-5]; dest[2*x.length-5] = cast(uint) c; c >>= 32; c += cast(ulong)(x[$-3]) * x[$-1] + dest[2*x.length-4]; dest[2*x.length-4] = cast(uint) c; c >>= 32; c += cast(ulong)(x[$-1]) * x[$-2]; dest[2*x.length-3] = cast(uint) c; c >>= 32; dest[2*x.length-2] = cast(uint) c; } void multibyteSquare(BigDigit[] result, const(BigDigit) [] x) pure @nogc @safe { multibyteTriangleAccumulate(result, x); result[$-1] = multibyteShl(result[1..$-1], result[1..$-1], 1); // mul by 2 result[0] = 0; multibyteAddDiagonalSquares(result, x); }