diff options
author | Tim King <taking@cs.nyu.edu> | 2012-02-15 21:52:16 +0000 |
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committer | Tim King <taking@cs.nyu.edu> | 2012-02-15 21:52:16 +0000 |
commit | 9a0a59d5c85c4a1d2469f43e9d2b433e156810ba (patch) | |
tree | ba66b1c5cdeec062ce4144a463ec0b61a83e3cc6 /src/util/integer_gmp_imp.h | |
parent | 093fa1757392e7bfc18493f2daa87ff540aeea86 (diff) |
This commit merges into trunk the branch branches/arithmetic/integers2 from r2650 to r2779.
- This excludes revision 2777. This revision had some strange performance implications and was delaying the merge.
- This includes the new DioSolver. The DioSolver can discover conflicts, produce substitutions, and produce cuts.
- The DioSolver can be disabled at command line using --disable-dio-solver.
- This includes a number of changes to the arithmetic normal form.
- The Integer class features a number of new number theoretic function.
- This commit includes a few rather loud warning. I will do my best to take care of them today.
Diffstat (limited to 'src/util/integer_gmp_imp.h')
-rw-r--r-- | src/util/integer_gmp_imp.h | 118 |
1 files changed, 108 insertions, 10 deletions
diff --git a/src/util/integer_gmp_imp.h b/src/util/integer_gmp_imp.h index 16ca8313b..161666df5 100644 --- a/src/util/integer_gmp_imp.h +++ b/src/util/integer_gmp_imp.h @@ -135,20 +135,82 @@ public: return *this; } - Integer operator/(const Integer& y) const { - return Integer( d_value / y.d_value ); + /** + * Return this*(2^pow). + */ + Integer multiplyByPow2(uint32_t pow) const{ + mpz_class result; + mpz_mul_2exp(result.get_mpz_t(), d_value.get_mpz_t(), pow); + return Integer( result ); } - Integer& operator/=(const Integer& y) { - d_value /= y.d_value; - return *this; + + /** See GMP Documentation. */ + Integer extractBitRange(uint32_t bitCount, uint32_t low) const { + // bitCount = high-low+1 + uint32_t high = low + bitCount-1; + //— Function: void mpz_fdiv_r_2exp (mpz_t r, mpz_t n, mp_bitcnt_t b) + mpz_class rem, div; + mpz_fdiv_r_2exp(rem.get_mpz_t(), d_value.get_mpz_t(), high+1); + mpz_fdiv_q_2exp(div.get_mpz_t(), rem.get_mpz_t(), low); + + return Integer(div); } - Integer operator%(const Integer& y) const { - return Integer( d_value % y.d_value ); + /** + * Returns the floor(this / y) + */ + Integer floorDivideQuotient(const Integer& y) const { + mpz_class q; + mpz_fdiv_q(q.get_mpz_t(), d_value.get_mpz_t(), y.d_value.get_mpz_t()); + return Integer( q ); } - Integer& operator%=(const Integer& y) { - d_value %= y.d_value; - return *this; + + /** + * Returns r == this - floor(this/y)*y + */ + Integer floorDivideRemainder(const Integer& y) const { + mpz_class r; + mpz_fdiv_r(r.get_mpz_t(), d_value.get_mpz_t(), y.d_value.get_mpz_t()); + return Integer( r ); + } + + /** + * Computes a floor quoient and remainder for x divided by y. + */ + static void floorQR(Integer& q, Integer& r, const Integer& x, const Integer& y) { + mpz_fdiv_qr(q.d_value.get_mpz_t(), r.d_value.get_mpz_t(), x.d_value.get_mpz_t(), y.d_value.get_mpz_t()); + } + + /** + * Returns the ceil(this / y) + */ + Integer ceilingDivideQuotient(const Integer& y) const { + mpz_class q; + mpz_cdiv_q(q.get_mpz_t(), d_value.get_mpz_t(), y.d_value.get_mpz_t()); + return Integer( q ); + } + + /** + * Returns the ceil(this / y) + */ + Integer ceilingDivideRemainder(const Integer& y) const { + mpz_class r; + mpz_cdiv_r(r.get_mpz_t(), d_value.get_mpz_t(), y.d_value.get_mpz_t()); + return Integer( r ); + } + + /** + * If y divides *this, then exactQuotient returns (this/y) + */ + Integer exactQuotient(const Integer& y) const { + Assert(y.divides(*this)); + mpz_class q; + mpz_divexact(q.get_mpz_t(), d_value.get_mpz_t(), y.d_value.get_mpz_t()); + return Integer( q ); + } + + int sgn() const { + return mpz_sgn(d_value.get_mpz_t()); } /** @@ -172,6 +234,24 @@ public: } /** + * Return the least common multiple of this integer with another. + */ + Integer lcm(const Integer& y) const { + mpz_class result; + mpz_lcm(result.get_mpz_t(), d_value.get_mpz_t(), y.d_value.get_mpz_t()); + return Integer(result); + } + + /** + * All non-zero integers z, z.divide(0) + * ! zero.divides(zero) + */ + bool divides(const Integer& y) const { + int res = mpz_divisible_p(y.d_value.get_mpz_t(), d_value.get_mpz_t()); + return res != 0; + } + + /** * Return the absolute value of this integer. */ Integer abs() const { @@ -217,6 +297,24 @@ public: return mpz_tstbit(d_value.get_mpz_t(), n); } + /** + * If x != 0, returns the smallest n s.t. 2^{n-1} <= abs(x) < 2^{n}. + * If x == 0, returns 1. + */ + size_t length() const { + if(sgn() == 0){ + return 1; + }else{ + return mpz_sizeinbase(d_value.get_mpz_t(),2); + } + } + + static void extendedGcd(Integer& g, Integer& s, Integer& t, const Integer& a, const Integer& b){ + //mpz_gcdext (mpz_t g, mpz_t s, mpz_t t, mpz_t a, mpz_t b); + mpz_gcdext (g.d_value.get_mpz_t(), s.d_value.get_mpz_t(), t.d_value.get_mpz_t(), a.d_value.get_mpz_t(), b.d_value.get_mpz_t()); + } + + friend class CVC4::Rational; };/* class Integer */ |