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My Project
UNKNOWN_GIT_VERSION
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#include <coeffs_test.h>
Definition at line 356 of file coeffs_test.h.
◆ simple()
◆ test_GF()
void CoeffsTestSuite::test_GF |
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◆ test_GF_toobig()
void CoeffsTestSuite::test_GF_toobig |
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◆ test_LC()
void CoeffsTestSuite::test_LC |
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◆ test_LR()
void CoeffsTestSuite::test_LR |
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◆ test_Q()
void CoeffsTestSuite::test_Q |
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◆ test_Q_special()
void CoeffsTestSuite::test_Q_special |
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Definition at line 477 of file coeffs_test.h.
482 clog << (
"Test: could not get this coeff. domain" );
486 if (
cf->cfCoeffWrite !=
NULL )
488 clog <<
"Coeff-domain: " << endl;
◆ test_R()
void CoeffsTestSuite::test_R |
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◆ test_Z()
void CoeffsTestSuite::test_Z |
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◆ test_Z2m2()
void CoeffsTestSuite::test_Z2m2 |
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◆ test_Z2m4()
void CoeffsTestSuite::test_Z2m4 |
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◆ test_Z2m8()
void CoeffsTestSuite::test_Z2m8 |
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◆ test_Zn3()
void CoeffsTestSuite::test_Zn3 |
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◆ test_Zp101()
void CoeffsTestSuite::test_Zp101 |
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The documentation for this class was generated from the following file:
only used if HAVE_RINGS is defined
#define TS_ASSERT_DIFFERS(x, y)
BOOLEAN Test(const n_coeffType type, void *p=NULLp)
Creation data needed for finite fields.
complex floating point (GMP) numbers
only used if HAVE_RINGS is defined
static FORCE_INLINE void n_Delete(number *p, const coeffs r)
delete 'p'
coeffs nInitChar(n_coeffType t, void *parameter)
one-time initialisations for new coeffs in case of an error return NULL
real floating point (GMP) numbers
static FORCE_INLINE void n_CoeffWrite(const coeffs r, BOOLEAN details=TRUE)
output the coeff description
only used if HAVE_RINGS is defined
static FORCE_INLINE number n_Mult(number a, number b, const coeffs r)
return the product of 'a' and 'b', i.e., a*b
static FORCE_INLINE number n_Init(long i, const coeffs r)
a number representing i in the given coeff field/ring r
single prescision (6,6) real numbers
static FORCE_INLINE long n_Int(number &n, const coeffs r)
conversion of n to an int; 0 if not possible in Z/pZ: the representing int lying in (-p/2 ....
void simple(const n_coeffType _type)
static FORCE_INLINE number n_Div(number a, number b, const coeffs r)
return the quotient of 'a' and 'b', i.e., a/b; raises an error if 'b' is not invertible in r exceptio...
#define n_Test(a, r)
BOOLEAN n_Test(number a, const coeffs r)