Java Code Examples for com.google.common.primitives.UnsignedLongs#remainder()
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com.google.common.primitives.UnsignedLongs#remainder() .
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Example 1
Source File: LongMath.java From codebuff with BSD 2-Clause "Simplified" License | 6 votes |
@Override long mulMod(long a, long b, long m) { long aHi = a >>> 32; // < 2^31 long bHi = b >>> 32; // < 2^31 long aLo = a & 0xFFFFFFFFL; // < 2^32 long bLo = b & 0xFFFFFFFFL; // < 2^32 /* * a * b == aHi * bHi * 2^64 + (aHi * bLo + aLo * bHi) * 2^32 + aLo * bLo. * == (aHi * bHi * 2^32 + aHi * bLo + aLo * bHi) * 2^32 + aLo * bLo * * We carry out this computation in modular arithmetic. Since times2ToThe32Mod accepts any * unsigned long, we don't have to do a mod on every operation, only when intermediate * results can exceed 2^63. */ long result = times2ToThe32Mod(aHi * bHi /* < 2^62 */, m); // < m < 2^63 result += aHi * bLo; // aHi * bLo < 2^63, result < 2^64 if (result < 0) { result = UnsignedLongs.remainder(result, m); } // result < 2^63 again result += aLo * bHi; // aLo * bHi < 2^63, result < 2^64 result = times2ToThe32Mod(result, m); // result < m < 2^63 return plusMod(result, UnsignedLongs.remainder(aLo * bLo /* < 2^64 */, m), m); }
Example 2
Source File: LongMath.java From codebuff with BSD 2-Clause "Simplified" License | 6 votes |
@Override long squareMod(long a, long m) { long aHi = a >>> 32; // < 2^31 long aLo = a & 0xFFFFFFFFL; // < 2^32 /* * a^2 == aHi^2 * 2^64 + aHi * aLo * 2^33 + aLo^2 * == (aHi^2 * 2^32 + aHi * aLo * 2) * 2^32 + aLo^2 * We carry out this computation in modular arithmetic. Since times2ToThe32Mod accepts any * unsigned long, we don't have to do a mod on every operation, only when intermediate * results can exceed 2^63. */ long result = times2ToThe32Mod(aHi * aHi /* < 2^62 */, m); // < m < 2^63 long hiLo = aHi * aLo * 2; if (hiLo < 0) { hiLo = UnsignedLongs.remainder(hiLo, m); } // hiLo < 2^63 result += hiLo; // result < 2^64 result = times2ToThe32Mod(result, m); // result < m < 2^63 return plusMod(result, UnsignedLongs.remainder(aLo * aLo /* < 2^64 */, m), m); }
Example 3
Source File: LongMath.java From codebuff with BSD 2-Clause "Simplified" License | 6 votes |
@Override long mulMod(long a, long b, long m) { long aHi = a >>> 32; // < 2^31 long bHi = b >>> 32; // < 2^31 long aLo = a & 0xFFFFFFFFL; // < 2^32 long bLo = b & 0xFFFFFFFFL; // < 2^32 /* * a * b == aHi * bHi * 2^64 + (aHi * bLo + aLo * bHi) * 2^32 + aLo * bLo. * == (aHi * bHi * 2^32 + aHi * bLo + aLo * bHi) * 2^32 + aLo * bLo * * We carry out this computation in modular arithmetic. Since times2ToThe32Mod accepts any * unsigned long, we don't have to do a mod on every operation, only when intermediate * results can exceed 2^63. */ long result = times2ToThe32Mod(aHi * bHi /* < 2^62 */, m); // < m < 2^63 result += aHi * bLo; // aHi * bLo < 2^63, result < 2^64 if (result < 0) { result = UnsignedLongs.remainder(result, m); } // result < 2^63 again result += aLo * bHi; // aLo * bHi < 2^63, result < 2^64 result = times2ToThe32Mod(result, m); // result < m < 2^63 return plusMod(result, UnsignedLongs.remainder(aLo * bLo /* < 2^64 */, m), m); }
Example 4
Source File: LongMath.java From codebuff with BSD 2-Clause "Simplified" License | 6 votes |
@Override long squareMod(long a, long m) { long aHi = a >>> 32; // < 2^31 long aLo = a & 0xFFFFFFFFL; // < 2^32 /* * a^2 == aHi^2 * 2^64 + aHi * aLo * 2^33 + aLo^2 * == (aHi^2 * 2^32 + aHi * aLo * 2) * 2^32 + aLo^2 * We carry out this computation in modular arithmetic. Since times2ToThe32Mod accepts any * unsigned long, we don't have to do a mod on every operation, only when intermediate * results can exceed 2^63. */ long result = times2ToThe32Mod(aHi * aHi /* < 2^62 */, m); // < m < 2^63 long hiLo = aHi * aLo * 2; if (hiLo < 0) { hiLo = UnsignedLongs.remainder(hiLo, m); } // hiLo < 2^63 result += hiLo; // result < 2^64 result = times2ToThe32Mod(result, m); // result < m < 2^63 return plusMod(result, UnsignedLongs.remainder(aLo * aLo /* < 2^64 */, m), m); }
Example 5
Source File: LongMath.java From codebuff with BSD 2-Clause "Simplified" License | 6 votes |
@Override long mulMod(long a, long b, long m) { long aHi = a >>> 32; // < 2^31 long bHi = b >>> 32; // < 2^31 long aLo = a & 0xFFFFFFFFL; // < 2^32 long bLo = b & 0xFFFFFFFFL; // < 2^32 /* * a * b == aHi * bHi * 2^64 + (aHi * bLo + aLo * bHi) * 2^32 + aLo * bLo. * == (aHi * bHi * 2^32 + aHi * bLo + aLo * bHi) * 2^32 + aLo * bLo * * We carry out this computation in modular arithmetic. Since times2ToThe32Mod accepts any * unsigned long, we don't have to do a mod on every operation, only when intermediate * results can exceed 2^63. */ long result = times2ToThe32Mod(aHi * bHi /* < 2^62 */, m); // < m < 2^63 result += aHi * bLo; // aHi * bLo < 2^63, result < 2^64 if (result < 0) { result = UnsignedLongs.remainder(result, m); } // result < 2^63 again result += aLo * bHi; // aLo * bHi < 2^63, result < 2^64 result = times2ToThe32Mod(result, m); // result < m < 2^63 return plusMod(result, UnsignedLongs.remainder(aLo * bLo /* < 2^64 */, m), m); }
Example 6
Source File: LongMath.java From codebuff with BSD 2-Clause "Simplified" License | 6 votes |
@Override long squareMod(long a, long m) { long aHi = a >>> 32; // < 2^31 long aLo = a & 0xFFFFFFFFL; // < 2^32 /* * a^2 == aHi^2 * 2^64 + aHi * aLo * 2^33 + aLo^2 * == (aHi^2 * 2^32 + aHi * aLo * 2) * 2^32 + aLo^2 * We carry out this computation in modular arithmetic. Since times2ToThe32Mod accepts any * unsigned long, we don't have to do a mod on every operation, only when intermediate * results can exceed 2^63. */ long result = times2ToThe32Mod(aHi * aHi /* < 2^62 */, m); // < m < 2^63 long hiLo = aHi * aLo * 2; if (hiLo < 0) { hiLo = UnsignedLongs.remainder(hiLo, m); } // hiLo < 2^63 result += hiLo; // result < 2^64 result = times2ToThe32Mod(result, m); // result < m < 2^63 return plusMod(result, UnsignedLongs.remainder(aLo * aLo /* < 2^64 */, m), m); }
Example 7
Source File: LongMath.java From codebuff with BSD 2-Clause "Simplified" License | 6 votes |
@Override long mulMod(long a, long b, long m) { long aHi = a >>> 32; // < 2^31 long bHi = b >>> 32; // < 2^31 long aLo = a & 0xFFFFFFFFL; // < 2^32 long bLo = b & 0xFFFFFFFFL; // < 2^32 /* * a * b == aHi * bHi * 2^64 + (aHi * bLo + aLo * bHi) * 2^32 + aLo * bLo. * == (aHi * bHi * 2^32 + aHi * bLo + aLo * bHi) * 2^32 + aLo * bLo * * We carry out this computation in modular arithmetic. Since times2ToThe32Mod accepts any * unsigned long, we don't have to do a mod on every operation, only when intermediate * results can exceed 2^63. */ long result = times2ToThe32Mod(aHi * bHi /* < 2^62 */, m); // < m < 2^63 result += aHi * bLo; // aHi * bLo < 2^63, result < 2^64 if (result < 0) { result = UnsignedLongs.remainder(result, m); } // result < 2^63 again result += aLo * bHi; // aLo * bHi < 2^63, result < 2^64 result = times2ToThe32Mod(result, m); // result < m < 2^63 return plusMod(result, UnsignedLongs.remainder(aLo * bLo /* < 2^64 */, m), m); }
Example 8
Source File: LongMath.java From codebuff with BSD 2-Clause "Simplified" License | 6 votes |
@Override long squareMod(long a, long m) { long aHi = a >>> 32; // < 2^31 long aLo = a & 0xFFFFFFFFL; // < 2^32 /* * a^2 == aHi^2 * 2^64 + aHi * aLo * 2^33 + aLo^2 * == (aHi^2 * 2^32 + aHi * aLo * 2) * 2^32 + aLo^2 * We carry out this computation in modular arithmetic. Since times2ToThe32Mod accepts any * unsigned long, we don't have to do a mod on every operation, only when intermediate * results can exceed 2^63. */ long result = times2ToThe32Mod(aHi * aHi /* < 2^62 */, m); // < m < 2^63 long hiLo = aHi * aLo * 2; if (hiLo < 0) { hiLo = UnsignedLongs.remainder(hiLo, m); } // hiLo < 2^63 result += hiLo; // result < 2^64 result = times2ToThe32Mod(result, m); // result < m < 2^63 return plusMod(result, UnsignedLongs.remainder(aLo * aLo /* < 2^64 */, m), m); }
Example 9
Source File: LongMath.java From codebuff with BSD 2-Clause "Simplified" License | 6 votes |
@Override long squareMod(long a, long m) { long aHi = a >>> 32; // < 2^31 long aLo = a & 0xFFFFFFFFL; // < 2^32 /* * a^2 == aHi^2 * 2^64 + aHi * aLo * 2^33 + aLo^2 * == (aHi^2 * 2^32 + aHi * aLo * 2) * 2^32 + aLo^2 * We carry out this computation in modular arithmetic. Since times2ToThe32Mod accepts any * unsigned long, we don't have to do a mod on every operation, only when intermediate * results can exceed 2^63. */ long result = times2ToThe32Mod(aHi * aHi /* < 2^62 */, m); // < m < 2^63 long hiLo = aHi * aLo * 2; if (hiLo < 0) { hiLo = UnsignedLongs.remainder(hiLo, m); } // hiLo < 2^63 result += hiLo; // result < 2^64 result = times2ToThe32Mod(result, m); // result < m < 2^63 return plusMod( result, UnsignedLongs.remainder(aLo * aLo /* < 2^64 */, m), m); }
Example 10
Source File: LongMath.java From codebuff with BSD 2-Clause "Simplified" License | 5 votes |
/** * Returns (a * 2^32) mod m. a may be any unsigned long. */ private long times2ToThe32Mod(long a, long m) { int remainingPowersOf2 = 32; do { int shift = Math.min(remainingPowersOf2, Long.numberOfLeadingZeros(a)); // shift is either the number of powers of 2 left to multiply a by, or the biggest shift // possible while keeping a in an unsigned long. a = UnsignedLongs.remainder(a << shift, m); remainingPowersOf2 -= shift; } while (remainingPowersOf2 > 0); return a; }
Example 11
Source File: LongMath.java From codebuff with BSD 2-Clause "Simplified" License | 5 votes |
/** * Returns (a * 2^32) mod m. a may be any unsigned long. */ private long times2ToThe32Mod(long a, long m) { int remainingPowersOf2 = 32; do { int shift = Math.min(remainingPowersOf2, Long.numberOfLeadingZeros(a)); // shift is either the number of powers of 2 left to multiply a by, or the biggest shift // possible while keeping a in an unsigned long. a = UnsignedLongs.remainder(a << shift, m); remainingPowersOf2 -= shift; } while (remainingPowersOf2 > 0); return a; }
Example 12
Source File: LongMath.java From codebuff with BSD 2-Clause "Simplified" License | 5 votes |
/** * Returns (a * 2^32) mod m. a may be any unsigned long. */ private long times2ToThe32Mod(long a, long m) { int remainingPowersOf2 = 32; do { int shift = Math.min(remainingPowersOf2, Long.numberOfLeadingZeros(a)); // shift is either the number of powers of 2 left to multiply a by, or the biggest shift // possible while keeping a in an unsigned long. a = UnsignedLongs.remainder(a << shift, m); remainingPowersOf2 -= shift; } while (remainingPowersOf2 > 0); return a; }
Example 13
Source File: LongMath.java From codebuff with BSD 2-Clause "Simplified" License | 5 votes |
/** * Returns (a * 2^32) mod m. a may be any unsigned long. */ private long times2ToThe32Mod(long a, long m) { int remainingPowersOf2 = 32; do { int shift = Math.min(remainingPowersOf2, Long.numberOfLeadingZeros(a)); // shift is either the number of powers of 2 left to multiply a by, or the biggest shift // possible while keeping a in an unsigned long. a = UnsignedLongs.remainder(a << shift, m); remainingPowersOf2 -= shift; } while (remainingPowersOf2 > 0); return a; }
Example 14
Source File: LongMath.java From codebuff with BSD 2-Clause "Simplified" License | 5 votes |
/** * Returns (a * 2^32) mod m. a may be any unsigned long. */ private long times2ToThe32Mod(long a, long m) { int remainingPowersOf2 = 32; do { int shift = Math.min(remainingPowersOf2, Long.numberOfLeadingZeros(a)); // shift is either the number of powers of 2 left to multiply a by, or the biggest shift // possible while keeping a in an unsigned long. a = UnsignedLongs.remainder(a << shift, m); remainingPowersOf2 -= shift; } while (remainingPowersOf2 > 0); return a; }
Example 15
Source File: LongMath.java From codebuff with BSD 2-Clause "Simplified" License | 5 votes |
@Override long mulMod(long a, long b, long m) { long aHi = a >>> 32; // < 2^31 long bHi = b >>> 32; // < 2^31 long aLo = a & 0xFFFFFFFFL; // < 2^32 long bLo = b & 0xFFFFFFFFL; // < 2^32 /* * a * b == aHi * bHi * 2^64 + (aHi * bLo + aLo * bHi) * 2^32 + aLo * bLo. * == (aHi * bHi * 2^32 + aHi * bLo + aLo * bHi) * 2^32 + aLo * bLo * * We carry out this computation in modular arithmetic. Since times2ToThe32Mod accepts any * unsigned long, we don't have to do a mod on every operation, only when intermediate * results can exceed 2^63. */ long result = times2ToThe32Mod(aHi * bHi /* < 2^62 */, m); // < m < 2^63 result += aHi * bLo; // aHi * bLo < 2^63, result < 2^64 if (result < 0) { result = UnsignedLongs.remainder(result, m); } // result < 2^63 again result += aLo * bHi; // aLo * bHi < 2^63, result < 2^64 result = times2ToThe32Mod(result, m); // result < m < 2^63 return plusMod( result, UnsignedLongs.remainder(aLo * bLo /* < 2^64 */, m), m); }