/* ============================================================================== This file is part of the juce_core module of the JUCE library. Copyright (c) 2015 - ROLI Ltd. Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ------------------------------------------------------------------------------ NOTE! This permissive ISC license applies ONLY to files within the juce_core module! All other JUCE modules are covered by a dual GPL/commercial license, so if you are using any other modules, be sure to check that you also comply with their license. For more details, visit www.juce.com ============================================================================== */ namespace { inline uint32 bitToMask (const int bit) noexcept { return (uint32) 1 << (bit & 31); } inline size_t bitToIndex (const int bit) noexcept { return (size_t) (bit >> 5); } inline size_t sizeNeededToHold (int highestBit) noexcept { return (size_t) (highestBit >> 5) + 1; } inline int highestBitInInt (uint32 n) noexcept { jassert (n != 0); // (the built-in functions may not work for n = 0) #if JUCE_GCC || JUCE_CLANG return 31 - __builtin_clz (n); #elif JUCE_MSVC unsigned long highest; _BitScanReverse (&highest, n); return (int) highest; #else n |= (n >> 1); n |= (n >> 2); n |= (n >> 4); n |= (n >> 8); n |= (n >> 16); return countBitsInInt32 (n >> 1); #endif } } //============================================================================== BigInteger::BigInteger() : allocatedSize (numPreallocatedInts), highestBit (-1), negative (false) { for (int i = 0; i < numPreallocatedInts; ++i) preallocated[i] = 0; } BigInteger::BigInteger (const int32 value) : allocatedSize (numPreallocatedInts), highestBit (31), negative (value < 0) { preallocated[0] = (uint32) std::abs (value); for (int i = 1; i < numPreallocatedInts; ++i) preallocated[i] = 0; highestBit = getHighestBit(); } BigInteger::BigInteger (const uint32 value) : allocatedSize (numPreallocatedInts), highestBit (31), negative (false) { preallocated[0] = value; for (int i = 1; i < numPreallocatedInts; ++i) preallocated[i] = 0; highestBit = getHighestBit(); } BigInteger::BigInteger (int64 value) : allocatedSize (numPreallocatedInts), highestBit (63), negative (value < 0) { if (value < 0) value = -value; preallocated[0] = (uint32) value; preallocated[1] = (uint32) (value >> 32); for (int i = 2; i < numPreallocatedInts; ++i) preallocated[i] = 0; highestBit = getHighestBit(); } BigInteger::BigInteger (const BigInteger& other) : allocatedSize (other.allocatedSize), highestBit (other.getHighestBit()), negative (other.negative) { if (allocatedSize > numPreallocatedInts) heapAllocation.malloc (allocatedSize); memcpy (getValues(), other.getValues(), sizeof (uint32) * allocatedSize); } #if JUCE_COMPILER_SUPPORTS_MOVE_SEMANTICS BigInteger::BigInteger (BigInteger&& other) noexcept : heapAllocation (static_cast&&> (other.heapAllocation)), allocatedSize (other.allocatedSize), highestBit (other.highestBit), negative (other.negative) { memcpy (preallocated, other.preallocated, sizeof (preallocated)); } BigInteger& BigInteger::operator= (BigInteger&& other) noexcept { heapAllocation = static_cast&&> (other.heapAllocation); memcpy (preallocated, other.preallocated, sizeof (preallocated)); allocatedSize = other.allocatedSize; highestBit = other.highestBit; negative = other.negative; return *this; } #endif BigInteger::~BigInteger() { } void BigInteger::swapWith (BigInteger& other) noexcept { for (int i = 0; i < numPreallocatedInts; ++i) std::swap (preallocated[i], other.preallocated[i]); heapAllocation.swapWith (other.heapAllocation); std::swap (allocatedSize, other.allocatedSize); std::swap (highestBit, other.highestBit); std::swap (negative, other.negative); } BigInteger& BigInteger::operator= (const BigInteger& other) { if (this != &other) { highestBit = other.getHighestBit(); allocatedSize = (size_t) jmax ((size_t) numPreallocatedInts, sizeNeededToHold (highestBit)); if (allocatedSize <= numPreallocatedInts) heapAllocation.free(); else heapAllocation.malloc (allocatedSize); memcpy (getValues(), other.getValues(), sizeof (uint32) * allocatedSize); negative = other.negative; } return *this; } uint32* BigInteger::getValues() const noexcept { jassert (heapAllocation != nullptr || allocatedSize <= numPreallocatedInts); return heapAllocation != nullptr ? heapAllocation : (uint32*) preallocated; } uint32* BigInteger::ensureSize (const size_t numVals) { if (numVals > allocatedSize) { size_t oldSize = allocatedSize; allocatedSize = ((numVals + 2) * 3) / 2; if (heapAllocation == nullptr) { heapAllocation.calloc (allocatedSize); memcpy (heapAllocation, preallocated, sizeof (uint32) * numPreallocatedInts); } else { heapAllocation.realloc (allocatedSize); for (uint32* values = getValues(); oldSize < allocatedSize; ++oldSize) values[oldSize] = 0; } } return getValues(); } //============================================================================== bool BigInteger::operator[] (const int bit) const noexcept { return bit <= highestBit && bit >= 0 && ((getValues() [bitToIndex (bit)] & bitToMask (bit)) != 0); } int BigInteger::toInteger() const noexcept { const int n = (int) (getValues()[0] & 0x7fffffff); return negative ? -n : n; } int64 BigInteger::toInt64() const noexcept { const uint32* values = getValues(); const int64 n = (((int64) (values[1] & 0x7fffffff)) << 32) | values[0]; return negative ? -n : n; } BigInteger BigInteger::getBitRange (int startBit, int numBits) const { BigInteger r; numBits = jmin (numBits, getHighestBit() + 1 - startBit); uint32* const destValues = r.ensureSize (sizeNeededToHold (numBits)); r.highestBit = numBits; for (int i = 0; numBits > 0;) { destValues[i++] = getBitRangeAsInt (startBit, (int) jmin (32, numBits)); numBits -= 32; startBit += 32; } r.highestBit = r.getHighestBit(); return r; } uint32 BigInteger::getBitRangeAsInt (const int startBit, int numBits) const noexcept { if (numBits > 32) { jassertfalse; // use getBitRange() if you need more than 32 bits.. numBits = 32; } numBits = jmin (numBits, highestBit + 1 - startBit); if (numBits <= 0) return 0; const size_t pos = bitToIndex (startBit); const int offset = startBit & 31; const int endSpace = 32 - numBits; const uint32* values = getValues(); uint32 n = ((uint32) values [pos]) >> offset; if (offset > endSpace) n |= ((uint32) values [pos + 1]) << (32 - offset); return n & (((uint32) 0xffffffff) >> endSpace); } void BigInteger::setBitRangeAsInt (const int startBit, int numBits, uint32 valueToSet) { if (numBits > 32) { jassertfalse; numBits = 32; } for (int i = 0; i < numBits; ++i) { setBit (startBit + i, (valueToSet & 1) != 0); valueToSet >>= 1; } } //============================================================================== void BigInteger::clear() noexcept { heapAllocation.free(); allocatedSize = numPreallocatedInts; highestBit = -1; negative = false; for (int i = 0; i < numPreallocatedInts; ++i) preallocated[i] = 0; } void BigInteger::setBit (const int bit) { if (bit >= 0) { if (bit > highestBit) { ensureSize (sizeNeededToHold (bit)); highestBit = bit; } getValues() [bitToIndex (bit)] |= bitToMask (bit); } } void BigInteger::setBit (const int bit, const bool shouldBeSet) { if (shouldBeSet) setBit (bit); else clearBit (bit); } void BigInteger::clearBit (const int bit) noexcept { if (bit >= 0 && bit <= highestBit) { getValues() [bitToIndex (bit)] &= ~bitToMask (bit); if (bit == highestBit) highestBit = getHighestBit(); } } void BigInteger::setRange (int startBit, int numBits, const bool shouldBeSet) { while (--numBits >= 0) setBit (startBit++, shouldBeSet); } void BigInteger::insertBit (const int bit, const bool shouldBeSet) { if (bit >= 0) shiftBits (1, bit); setBit (bit, shouldBeSet); } //============================================================================== bool BigInteger::isZero() const noexcept { return getHighestBit() < 0; } bool BigInteger::isOne() const noexcept { return getHighestBit() == 0 && ! negative; } bool BigInteger::isNegative() const noexcept { return negative && ! isZero(); } void BigInteger::setNegative (const bool neg) noexcept { negative = neg; } void BigInteger::negate() noexcept { negative = (! negative) && ! isZero(); } #if JUCE_MSVC && ! defined (__INTEL_COMPILER) #pragma intrinsic (_BitScanReverse) #endif int BigInteger::countNumberOfSetBits() const noexcept { int total = 0; const uint32* values = getValues(); for (int i = (int) sizeNeededToHold (highestBit); --i >= 0;) total += countNumberOfBits (values[i]); return total; } int BigInteger::getHighestBit() const noexcept { const uint32* values = getValues(); for (int i = (int) bitToIndex (highestBit); i >= 0; --i) if (uint32 n = values[i]) return highestBitInInt (n) + (i << 5); return -1; } int BigInteger::findNextSetBit (int i) const noexcept { const uint32* values = getValues(); for (; i <= highestBit; ++i) if ((values [bitToIndex (i)] & bitToMask (i)) != 0) return i; return -1; } int BigInteger::findNextClearBit (int i) const noexcept { const uint32* values = getValues(); for (; i <= highestBit; ++i) if ((values [bitToIndex (i)] & bitToMask (i)) == 0) break; return i; } //============================================================================== BigInteger& BigInteger::operator+= (const BigInteger& other) { if (this == &other) return operator+= (BigInteger (other)); if (other.isNegative()) return operator-= (-other); if (isNegative()) { if (compareAbsolute (other) < 0) { BigInteger temp (*this); temp.negate(); *this = other; *this -= temp; } else { negate(); *this -= other; negate(); } } else { highestBit = jmax (highestBit, other.highestBit) + 1; const size_t numInts = sizeNeededToHold (highestBit); uint32* const values = ensureSize (numInts); const uint32* const otherValues = other.getValues(); int64 remainder = 0; for (size_t i = 0; i < numInts; ++i) { remainder += values[i]; if (i < other.allocatedSize) remainder += otherValues[i]; values[i] = (uint32) remainder; remainder >>= 32; } jassert (remainder == 0); highestBit = getHighestBit(); } return *this; } BigInteger& BigInteger::operator-= (const BigInteger& other) { if (this == &other) { clear(); return *this; } if (other.isNegative()) return operator+= (-other); if (isNegative()) { negate(); *this += other; negate(); return *this; } if (compareAbsolute (other) < 0) { BigInteger temp (other); swapWith (temp); *this -= temp; negate(); return *this; } const size_t numInts = sizeNeededToHold (getHighestBit()); const size_t maxOtherInts = sizeNeededToHold (other.getHighestBit()); jassert (numInts >= maxOtherInts); uint32* const values = getValues(); const uint32* const otherValues = other.getValues(); int64 amountToSubtract = 0; for (size_t i = 0; i < numInts; ++i) { if (i < maxOtherInts) amountToSubtract += (int64) otherValues[i]; if (values[i] >= amountToSubtract) { values[i] = (uint32) (values[i] - amountToSubtract); amountToSubtract = 0; } else { const int64 n = ((int64) values[i] + (((int64) 1) << 32)) - amountToSubtract; values[i] = (uint32) n; amountToSubtract = 1; } } highestBit = getHighestBit(); return *this; } BigInteger& BigInteger::operator*= (const BigInteger& other) { if (this == &other) return operator*= (BigInteger (other)); int n = getHighestBit(); int t = other.getHighestBit(); const bool wasNegative = isNegative(); setNegative (false); BigInteger total; total.highestBit = n + t + 1; uint32* const totalValues = total.ensureSize (sizeNeededToHold (total.highestBit) + 1); n >>= 5; t >>= 5; BigInteger m (other); m.setNegative (false); const uint32* const mValues = m.getValues(); const uint32* const values = getValues(); for (int i = 0; i <= t; ++i) { uint32 c = 0; for (int j = 0; j <= n; ++j) { uint64 uv = (uint64) totalValues[i + j] + (uint64) values[j] * (uint64) mValues[i] + (uint64) c; totalValues[i + j] = (uint32) uv; c = uv >> 32; } totalValues[i + n + 1] = c; } total.highestBit = total.getHighestBit(); total.setNegative (wasNegative ^ other.isNegative()); swapWith (total); return *this; } void BigInteger::divideBy (const BigInteger& divisor, BigInteger& remainder) { if (this == &divisor) return divideBy (BigInteger (divisor), remainder); jassert (this != &remainder); // (can't handle passing itself in to get the remainder) const int divHB = divisor.getHighestBit(); const int ourHB = getHighestBit(); if (divHB < 0 || ourHB < 0) { // division by zero remainder.clear(); clear(); } else { const bool wasNegative = isNegative(); swapWith (remainder); remainder.setNegative (false); clear(); BigInteger temp (divisor); temp.setNegative (false); int leftShift = ourHB - divHB; temp <<= leftShift; while (leftShift >= 0) { if (remainder.compareAbsolute (temp) >= 0) { remainder -= temp; setBit (leftShift); } if (--leftShift >= 0) temp >>= 1; } negative = wasNegative ^ divisor.isNegative(); remainder.setNegative (wasNegative); } } BigInteger& BigInteger::operator/= (const BigInteger& other) { BigInteger remainder; divideBy (other, remainder); return *this; } BigInteger& BigInteger::operator|= (const BigInteger& other) { if (this == &other) return *this; // this operation doesn't take into account negative values.. jassert (isNegative() == other.isNegative()); if (other.highestBit >= 0) { uint32* const values = ensureSize (sizeNeededToHold (other.highestBit)); const uint32* const otherValues = other.getValues(); int n = (int) bitToIndex (other.highestBit) + 1; while (--n >= 0) values[n] |= otherValues[n]; if (other.highestBit > highestBit) highestBit = other.highestBit; highestBit = getHighestBit(); } return *this; } BigInteger& BigInteger::operator&= (const BigInteger& other) { if (this == &other) return *this; // this operation doesn't take into account negative values.. jassert (isNegative() == other.isNegative()); uint32* const values = getValues(); const uint32* const otherValues = other.getValues(); int n = (int) allocatedSize; while (n > (int) other.allocatedSize) values[--n] = 0; while (--n >= 0) values[n] &= otherValues[n]; if (other.highestBit < highestBit) highestBit = other.highestBit; highestBit = getHighestBit(); return *this; } BigInteger& BigInteger::operator^= (const BigInteger& other) { if (this == &other) { clear(); return *this; } // this operation will only work with the absolute values jassert (isNegative() == other.isNegative()); if (other.highestBit >= 0) { uint32* const values = ensureSize (sizeNeededToHold (other.highestBit)); const uint32* const otherValues = other.getValues(); int n = (int) bitToIndex (other.highestBit) + 1; while (--n >= 0) values[n] ^= otherValues[n]; if (other.highestBit > highestBit) highestBit = other.highestBit; highestBit = getHighestBit(); } return *this; } BigInteger& BigInteger::operator%= (const BigInteger& divisor) { BigInteger remainder; divideBy (divisor, remainder); swapWith (remainder); return *this; } BigInteger& BigInteger::operator++() { return operator+= (1); } BigInteger& BigInteger::operator--() { return operator-= (1); } BigInteger BigInteger::operator++ (int) { const BigInteger old (*this); operator+= (1); return old; } BigInteger BigInteger::operator-- (int) { const BigInteger old (*this); operator-= (1); return old; } BigInteger BigInteger::operator-() const { BigInteger b (*this); b.negate(); return b; } BigInteger BigInteger::operator+ (const BigInteger& other) const { BigInteger b (*this); return b += other; } BigInteger BigInteger::operator- (const BigInteger& other) const { BigInteger b (*this); return b -= other; } BigInteger BigInteger::operator* (const BigInteger& other) const { BigInteger b (*this); return b *= other; } BigInteger BigInteger::operator/ (const BigInteger& other) const { BigInteger b (*this); return b /= other; } BigInteger BigInteger::operator| (const BigInteger& other) const { BigInteger b (*this); return b |= other; } BigInteger BigInteger::operator& (const BigInteger& other) const { BigInteger b (*this); return b &= other; } BigInteger BigInteger::operator^ (const BigInteger& other) const { BigInteger b (*this); return b ^= other; } BigInteger BigInteger::operator% (const BigInteger& other) const { BigInteger b (*this); return b %= other; } BigInteger BigInteger::operator<< (const int numBits) const { BigInteger b (*this); return b <<= numBits; } BigInteger BigInteger::operator>> (const int numBits) const { BigInteger b (*this); return b >>= numBits; } BigInteger& BigInteger::operator<<= (const int numBits) { shiftBits (numBits, 0); return *this; } BigInteger& BigInteger::operator>>= (const int numBits) { shiftBits (-numBits, 0); return *this; } //============================================================================== int BigInteger::compare (const BigInteger& other) const noexcept { const bool isNeg = isNegative(); if (isNeg == other.isNegative()) { const int absComp = compareAbsolute (other); return isNeg ? -absComp : absComp; } return isNeg ? -1 : 1; } int BigInteger::compareAbsolute (const BigInteger& other) const noexcept { const int h1 = getHighestBit(); const int h2 = other.getHighestBit(); if (h1 > h2) return 1; if (h1 < h2) return -1; const uint32* const values = getValues(); const uint32* const otherValues = other.getValues(); for (int i = (int) bitToIndex (h1); i >= 0; --i) if (values[i] != otherValues[i]) return values[i] > otherValues[i] ? 1 : -1; return 0; } bool BigInteger::operator== (const BigInteger& other) const noexcept { return compare (other) == 0; } bool BigInteger::operator!= (const BigInteger& other) const noexcept { return compare (other) != 0; } bool BigInteger::operator< (const BigInteger& other) const noexcept { return compare (other) < 0; } bool BigInteger::operator<= (const BigInteger& other) const noexcept { return compare (other) <= 0; } bool BigInteger::operator> (const BigInteger& other) const noexcept { return compare (other) > 0; } bool BigInteger::operator>= (const BigInteger& other) const noexcept { return compare (other) >= 0; } //============================================================================== void BigInteger::shiftLeft (int bits, const int startBit) { if (startBit > 0) { for (int i = highestBit; i >= startBit; --i) setBit (i + bits, (*this) [i]); while (--bits >= 0) clearBit (bits + startBit); } else { uint32* const values = ensureSize (sizeNeededToHold (highestBit + bits)); const size_t wordsToMove = bitToIndex (bits); size_t numOriginalInts = bitToIndex (highestBit); highestBit += bits; if (wordsToMove > 0) { for (int i = (int) numOriginalInts; i >= 0; --i) values[(size_t) i + wordsToMove] = values[i]; for (size_t j = 0; j < wordsToMove; ++j) values[j] = 0; bits &= 31; } if (bits != 0) { const int invBits = 32 - bits; for (size_t i = bitToIndex (highestBit); i > wordsToMove; --i) values[i] = (values[i] << bits) | (values[i - 1] >> invBits); values[wordsToMove] = values[wordsToMove] << bits; } highestBit = getHighestBit(); } } void BigInteger::shiftRight (int bits, const int startBit) { if (startBit > 0) { for (int i = startBit; i <= highestBit; ++i) setBit (i, (*this) [i + bits]); highestBit = getHighestBit(); } else { if (bits > highestBit) { clear(); } else { const size_t wordsToMove = bitToIndex (bits); size_t top = 1 + bitToIndex (highestBit) - wordsToMove; highestBit -= bits; uint32* const values = getValues(); if (wordsToMove > 0) { size_t i; for (i = 0; i < top; ++i) values[i] = values[i + wordsToMove]; for (i = 0; i < wordsToMove; ++i) values[top + i] = 0; bits &= 31; } if (bits != 0) { const int invBits = 32 - bits; --top; for (size_t i = 0; i < top; ++i) values[i] = (values[i] >> bits) | (values[i + 1] << invBits); values[top] = (values[top] >> bits); } highestBit = getHighestBit(); } } } void BigInteger::shiftBits (int bits, const int startBit) { if (highestBit >= 0) { if (bits < 0) shiftRight (-bits, startBit); else if (bits > 0) shiftLeft (bits, startBit); } } //============================================================================== static BigInteger simpleGCD (BigInteger* m, BigInteger* n) { while (! m->isZero()) { if (n->compareAbsolute (*m) > 0) std::swap (m, n); *m -= *n; } return *n; } BigInteger BigInteger::findGreatestCommonDivisor (BigInteger n) const { BigInteger m (*this); while (! n.isZero()) { if (std::abs (m.getHighestBit() - n.getHighestBit()) <= 16) return simpleGCD (&m, &n); BigInteger temp2; m.divideBy (n, temp2); m.swapWith (n); n.swapWith (temp2); } return m; } void BigInteger::exponentModulo (const BigInteger& exponent, const BigInteger& modulus) { *this %= modulus; BigInteger exp (exponent); exp %= modulus; if (modulus.getHighestBit() <= 32 || modulus % 2 == 0) { BigInteger a (*this); const int n = exp.getHighestBit(); for (int i = n; --i >= 0;) { *this *= *this; if (exp[i]) *this *= a; if (compareAbsolute (modulus) >= 0) *this %= modulus; } } else { const int Rfactor = modulus.getHighestBit() + 1; BigInteger R (1); R.shiftLeft (Rfactor, 0); BigInteger R1, m1, g; g.extendedEuclidean (modulus, R, m1, R1); if (! g.isOne()) { BigInteger a (*this); for (int i = exp.getHighestBit(); --i >= 0;) { *this *= *this; if (exp[i]) *this *= a; if (compareAbsolute (modulus) >= 0) *this %= modulus; } } else { BigInteger am (((*this) * R) % modulus); BigInteger xm (am); BigInteger um (R % modulus); for (int i = exp.getHighestBit(); --i >= 0;) { xm.montgomeryMultiplication (xm, modulus, m1, Rfactor); if (exp[i]) xm.montgomeryMultiplication (am, modulus, m1, Rfactor); } xm.montgomeryMultiplication (1, modulus, m1, Rfactor); swapWith (xm); } } } void BigInteger::montgomeryMultiplication (const BigInteger& other, const BigInteger& modulus, const BigInteger& modulusp, const int k) { *this *= other; BigInteger t (*this); setRange (k, highestBit - k + 1, false); *this *= modulusp; setRange (k, highestBit - k + 1, false); *this *= modulus; *this += t; shiftRight (k, 0); if (compare (modulus) >= 0) *this -= modulus; else if (isNegative()) *this += modulus; } void BigInteger::extendedEuclidean (const BigInteger& a, const BigInteger& b, BigInteger& x, BigInteger& y) { BigInteger p(a), q(b), gcd(1); Array tempValues; while (! q.isZero()) { tempValues.add (p / q); gcd = q; q = p % q; p = gcd; } x.clear(); y = 1; for (int i = 1; i < tempValues.size(); ++i) { const BigInteger& v = tempValues.getReference (tempValues.size() - i - 1); if ((i & 1) != 0) x += y * v; else y += x * v; } if (gcd.compareAbsolute (y * b - x * a) != 0) { x.negate(); x.swapWith (y); x.negate(); } swapWith (gcd); } void BigInteger::inverseModulo (const BigInteger& modulus) { if (modulus.isOne() || modulus.isNegative()) { clear(); return; } if (isNegative() || compareAbsolute (modulus) >= 0) *this %= modulus; if (isOne()) return; if (findGreatestCommonDivisor (modulus) != 1) { clear(); // not invertible! return; } BigInteger a1 (modulus), a2 (*this); BigInteger b1 (modulus), b2 (1); while (! a2.isOne()) { BigInteger temp1, multiplier (a1); multiplier.divideBy (a2, temp1); temp1 = a2; temp1 *= multiplier; BigInteger temp2 (a1); temp2 -= temp1; a1 = a2; a2 = temp2; temp1 = b2; temp1 *= multiplier; temp2 = b1; temp2 -= temp1; b1 = b2; b2 = temp2; } while (b2.isNegative()) b2 += modulus; b2 %= modulus; swapWith (b2); } //============================================================================== OutputStream& JUCE_CALLTYPE operator<< (OutputStream& stream, const BigInteger& value) { return stream << value.toString (10); } String BigInteger::toString (const int base, const int minimumNumCharacters) const { String s; BigInteger v (*this); if (base == 2 || base == 8 || base == 16) { const int bits = (base == 2) ? 1 : (base == 8 ? 3 : 4); static const char hexDigits[] = "0123456789abcdef"; for (;;) { const uint32 remainder = v.getBitRangeAsInt (0, bits); v >>= bits; if (remainder == 0 && v.isZero()) break; s = String::charToString ((juce_wchar) (uint8) hexDigits [remainder]) + s; } } else if (base == 10) { const BigInteger ten (10); BigInteger remainder; for (;;) { v.divideBy (ten, remainder); if (remainder.isZero() && v.isZero()) break; s = String (remainder.getBitRangeAsInt (0, 8)) + s; } } else { jassertfalse; // can't do the specified base! return String(); } s = s.paddedLeft ('0', minimumNumCharacters); return isNegative() ? "-" + s : s; } void BigInteger::parseString (StringRef text, const int base) { clear(); String::CharPointerType t (text.text.findEndOfWhitespace()); setNegative (*t == (juce_wchar) '-'); if (base == 2 || base == 8 || base == 16) { const int bits = (base == 2) ? 1 : (base == 8 ? 3 : 4); for (;;) { const juce_wchar c = t.getAndAdvance(); const int digit = CharacterFunctions::getHexDigitValue (c); if (((uint32) digit) < (uint32) base) { *this <<= bits; *this += digit; } else if (c == 0) { break; } } } else if (base == 10) { const BigInteger ten ((uint32) 10); for (;;) { const juce_wchar c = t.getAndAdvance(); if (c >= '0' && c <= '9') { *this *= ten; *this += (int) (c - '0'); } else if (c == 0) { break; } } } } MemoryBlock BigInteger::toMemoryBlock() const { const int numBytes = (getHighestBit() + 8) >> 3; MemoryBlock mb ((size_t) numBytes); const uint32* const values = getValues(); for (int i = 0; i < numBytes; ++i) mb[i] = (char) ((values[i / 4] >> ((i & 3) * 8)) & 0xff); return mb; } void BigInteger::loadFromMemoryBlock (const MemoryBlock& data) { const size_t numBytes = data.getSize(); const size_t numInts = 1 + (numBytes / sizeof (uint32)); uint32* const values = ensureSize (numInts); for (int i = 0; i < (int) numInts - 1; ++i) values[i] = (uint32) ByteOrder::littleEndianInt (addBytesToPointer (data.getData(), sizeof (uint32) * (size_t) i)); values[numInts - 1] = 0; for (int i = (int) (numBytes & ~3u); i < (int) numBytes; ++i) this->setBitRangeAsInt (i << 3, 8, (uint32) data [i]); highestBit = (int) numBytes * 8; highestBit = getHighestBit(); } //============================================================================== void writeLittleEndianBitsInBuffer (void* buffer, uint32 startBit, uint32 numBits, uint32 value) noexcept { jassert (buffer != nullptr); jassert (numBits > 0 && numBits <= 32); jassert (numBits == 32 || (value >> numBits) == 0); uint8* data = static_cast (buffer) + startBit / 8; if (const uint32 offset = (startBit & 7)) { const uint32 bitsInByte = 8 - offset; const uint8 current = *data; if (bitsInByte >= numBits) { *data = (uint8) ((current & ~(((1u << numBits) - 1u) << offset)) | (value << offset)); return; } *data++ = current ^ (uint8) (((value << offset) ^ current) & (((1u << bitsInByte) - 1u) << offset)); numBits -= bitsInByte; value >>= bitsInByte; } while (numBits >= 8) { *data++ = (uint8) value; value >>= 8; numBits -= 8; } if (numBits > 0) *data = (uint8) ((*data & (0xff << numBits)) | value); } uint32 readLittleEndianBitsInBuffer (const void* buffer, uint32 startBit, uint32 numBits) noexcept { jassert (buffer != nullptr); jassert (numBits > 0 && numBits <= 32); uint32 result = 0; uint32 bitsRead = 0; const uint8* data = static_cast (buffer) + startBit / 8; if (const uint32 offset = (startBit & 7)) { const uint32 bitsInByte = 8 - offset; result = (*data >> offset); if (bitsInByte >= numBits) return result & ((1u << numBits) - 1u); numBits -= bitsInByte; bitsRead += bitsInByte; ++data; } while (numBits >= 8) { result |= (((uint32) *data++) << bitsRead); bitsRead += 8; numBits -= 8; } if (numBits > 0) result |= ((*data & ((1u << numBits) - 1u)) << bitsRead); return result; } //============================================================================== //============================================================================== #if JUCE_UNIT_TESTS class BigIntegerTests : public UnitTest { public: BigIntegerTests() : UnitTest ("BigInteger") {} static BigInteger getBigRandom (Random& r) { BigInteger b; while (b < 2) r.fillBitsRandomly (b, 0, r.nextInt (150) + 1); return b; } void runTest() override { { beginTest ("BigInteger"); Random r = getRandom(); expect (BigInteger().isZero()); expect (BigInteger(1).isOne()); for (int j = 10000; --j >= 0;) { BigInteger b1 (getBigRandom(r)), b2 (getBigRandom(r)); BigInteger b3 = b1 + b2; expect (b3 > b1 && b3 > b2); expect (b3 - b1 == b2); expect (b3 - b2 == b1); BigInteger b4 = b1 * b2; expect (b4 > b1 && b4 > b2); expect (b4 / b1 == b2); expect (b4 / b2 == b1); expect (((b4 << 1) >> 1) == b4); expect (((b4 << 10) >> 10) == b4); expect (((b4 << 100) >> 100) == b4); // TODO: should add tests for other ops (although they also get pretty well tested in the RSA unit test) BigInteger b5; b5.loadFromMemoryBlock (b3.toMemoryBlock()); expect (b3 == b5); } } { beginTest ("Bit setting"); Random r = getRandom(); static uint8 test[2048]; for (int j = 100000; --j >= 0;) { uint32 offset = static_cast (r.nextInt (200) + 10); uint32 num = static_cast (r.nextInt (32) + 1); uint32 value = static_cast (r.nextInt()); if (num < 32) value &= ((1u << num) - 1); auto old1 = readLittleEndianBitsInBuffer (test, offset - 6, 6); auto old2 = readLittleEndianBitsInBuffer (test, offset + num, 6); writeLittleEndianBitsInBuffer (test, offset, num, value); auto result = readLittleEndianBitsInBuffer (test, offset, num); expect (result == value); expect (old1 == readLittleEndianBitsInBuffer (test, offset - 6, 6)); expect (old2 == readLittleEndianBitsInBuffer (test, offset + num, 6)); } } } }; static BigIntegerTests bigIntegerTests; #endif