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CnOCRService/Lib/site-packages/sympy/polys/domains/gmpyintegerring.py

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  1. """Implementation of :class:`GMPYIntegerRing` class. """
  4. from sympy.polys.domains.groundtypes import (
  5. GMPYInteger, SymPyInteger,
  6. factorial as gmpy_factorial,
  7. gmpy_gcdex, gmpy_gcd, gmpy_lcm, sqrt as gmpy_sqrt,
  8. )
  9. from sympy.polys.domains.integerring import IntegerRing
  10. from sympy.polys.polyerrors import CoercionFailed
  11. from sympy.utilities import public
  13. @public
  14. class GMPYIntegerRing(IntegerRing):
  15. """Integer ring based on GMPY's ``mpz`` type.
  17. This will be the implementation of :ref:`ZZ` if ``gmpy`` or ``gmpy2`` is
  18. installed. Elements will be of type ``gmpy.mpz``.
  19. """
  21. dtype = GMPYInteger
  22. zero = dtype(0)
  23. one = dtype(1)
  24. tp = type(one)
  25. alias = 'ZZ_gmpy'
  27. def __init__(self):
  28. """Allow instantiation of this domain. """
  30. def to_sympy(self, a):
  31. """Convert ``a`` to a SymPy object. """
  32. return SymPyInteger(int(a))
  34. def from_sympy(self, a):
  35. """Convert SymPy's Integer to ``dtype``. """
  36. if a.is_Integer:
  37. return GMPYInteger(a.p)
  38. elif a.is_Float and int(a) == a:
  39. return GMPYInteger(int(a))
  40. else:
  41. raise CoercionFailed("expected an integer, got %s" % a)
  43. def from_FF_python(K1, a, K0):
  44. """Convert ``ModularInteger(int)`` to GMPY's ``mpz``. """
  45. return GMPYInteger(a.to_int())
  47. def from_ZZ_python(K1, a, K0):
  48. """Convert Python's ``int`` to GMPY's ``mpz``. """
  49. return GMPYInteger(a)
  51. def from_QQ(K1, a, K0):
  52. """Convert Python's ``Fraction`` to GMPY's ``mpz``. """
  53. if a.denominator == 1:
  54. return GMPYInteger(a.numerator)
  56. def from_QQ_python(K1, a, K0):
  57. """Convert Python's ``Fraction`` to GMPY's ``mpz``. """
  58. if a.denominator == 1:
  59. return GMPYInteger(a.numerator)
  61. def from_FF_gmpy(K1, a, K0):
  62. """Convert ``ModularInteger(mpz)`` to GMPY's ``mpz``. """
  63. return a.to_int()
  65. def from_ZZ_gmpy(K1, a, K0):
  66. """Convert GMPY's ``mpz`` to GMPY's ``mpz``. """
  67. return a
  69. def from_QQ_gmpy(K1, a, K0):
  70. """Convert GMPY ``mpq`` to GMPY's ``mpz``. """
  71. if a.denominator == 1:
  72. return a.numerator
  74. def from_RealField(K1, a, K0):
  75. """Convert mpmath's ``mpf`` to GMPY's ``mpz``. """
  76. p, q = K0.to_rational(a)
  78. if q == 1:
  79. return GMPYInteger(p)
  81. def from_GaussianIntegerRing(K1, a, K0):
  82. if a.y == 0:
  83. return a.x
  85. def gcdex(self, a, b):
  86. """Compute extended GCD of ``a`` and ``b``. """
  87. h, s, t = gmpy_gcdex(a, b)
  88. return s, t, h
  90. def gcd(self, a, b):
  91. """Compute GCD of ``a`` and ``b``. """
  92. return gmpy_gcd(a, b)
  94. def lcm(self, a, b):
  95. """Compute LCM of ``a`` and ``b``. """
  96. return gmpy_lcm(a, b)
  98. def sqrt(self, a):
  99. """Compute square root of ``a``. """
  100. return gmpy_sqrt(a)
  102. def factorial(self, a):
  103. """Compute factorial of ``a``. """
  104. return gmpy_factorial(a)