# Tag Info

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The residue after division by three is going to either be .00, .33, or .67. You should be able to determine which of those three values is appropriate. I'm not sure how you will want to have your collection store things, however, given that the numerical types that support fractions won't be able to hold your result, unless you want to define a "big ...

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Another option is to use UnsignedLongs from the Google guava-libraries (which have lots of other goodies as well): String s = UnsignedLongs.toString( -1L, Character.MAX_RADIX ); and long l = UnsignedLongs.parseUnsignedLong( "2jsu3j", 36 ); Added to the benchmark from +EugeneRetunsky (see below) this gives the following times on my machine: BigInteger ...

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One thing that should be worth considering (beside using BitSet) is using different granularity. Therefore you use a shorter bit set where each bit 'guards' multiple real bits. This way you would not need to have millions of bits per user in ram. A simple way to achieve this is having a smaller bit set like n/32 and do something like this: boolean ...

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BigInteger uses the factory method pattern to create new instances with more meaningful method names. The factory method also allows the JVM to reuse the same instance of commonly reusable values (such as 1) to save memory. By the way, you CAN use the new keyword to construct new instances but the constructors take many parameters or Strings which may be ...

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This is because the BigInteger.valueOf method is a static factory method. That means that the method itself is simply used to create individual instances of BigInteger. This link gives a good description of when to use static methods: Java: when to use static methods

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This is a static factory method, which returns an instance of BigInteger. public static BigInteger valueOf(long val) { if (val == 0) return ZERO; if (val > 0 && val <= MAX_CONSTANT) return posConst[(int) val]; else if (val < 0 && val >= -MAX_CONSTANT) return ...

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That is a static factory method. A static method which is used to create and return a new object. So you can create a static method that internally calls new operation

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That's called a factory method. A static method that creates and returns a new object for you. They're handy when you have loads of ways of creating objects but don't really want to overload the method signature too much (i.e. have loads of different constructors)

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A common practice of calculating the deterninat of huge matrices is the use an LUP decomposition. In this case, the decerminant can be calculated with following ideas: {L, U, P} = LUP(A) sign = -1 ^ 'number of permutations in P' det(A) = diagonalProduct(U) * sign This is how big math packages do that. You should probably implement LU by yourself.

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Assuming that the methods that you're using are efficient, I don't see a faster way to do this, but I'm no expert. Of course, you could consolidate your code to: BigInteger v1 = (y.modPow(r,p)).multiply(r.modPow(s,p)).mod(p) but that's the exact same as your code.

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I've posted this as a comment but I think this could actually solve your problem so I'm posting it as an answer as well. You can use this package: http://math.nist.gov/javanumerics/jama/

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How is this ? e = 116505013962726356794269846667188147473899121100449069443844506823885859211073843523906823741034558875724969276233769835502344452366515593952571468651971447660633083078837371793388842846199643249996094940742465135064478448126948741186882484457847959126808512823416166517945252986434515406363102297514031583117 e.to_s.each_char do |c| # ...

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Better option is use SQLQuery#addScalar than casting to Long or BigDecimal. Here is modified query that returns count column as Long Query query = session .createSQLQuery("SELECT COUNT(*) as count FROM SpyPath WHERE DATE(time)>=DATE_SUB(CURDATE(),INTERVAL 6 DAY) ...

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Largest positive number allowed in Javascript is 1.79E+308. You have taken a number(10466511635124471), which is greater than the larget +ve number.May be this is the reason to get the answer as 10466511635124472.

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Javascript does not have any support for big integers. It uses 64 bit float to store the number,precision,sign and exponent. A good practice is to use string representations of these numbers : alert("10466511635124471"); Notice this JSON response from Facebook graph api : All the reasonably numbers which would be smaller than 32 bit integers are still ...

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This is to do with the nature of IEEE754 double-precision 64-bit floating point math1 (all compliant JavaScript implementations use this form of IEEE arithmetic) -- your number 10 466 511 635 124 471 is larger than the highest positive integer that is representable as consecutive numbers, which is 253 (9 007 199 254 740 992). The 64 bits of a number in ...

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Yeah it happens ,Read this you will understand http://www.exploringbinary.com/print-precision-of-floating-point-integers-varies-too/

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Random rnd = new SecureRandom(); System.out.println(BigInteger.probablePrime(bitLength, rnd)); The probability that a BigInteger returned by method probablePrime() is composite does not exceed 2^-100.

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