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Python ZZ.poly_ring方法代码示例

本文整理汇总了Python中sympy.polys.domains.ZZ.poly_ring方法的典型用法代码示例。如果您正苦于以下问题:Python ZZ.poly_ring方法的具体用法?Python ZZ.poly_ring怎么用?Python ZZ.poly_ring使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在sympy.polys.domains.ZZ的用法示例。


在下文中一共展示了ZZ.poly_ring方法的5个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。

示例1: test_Domain__unify

# 需要导入模块: from sympy.polys.domains import ZZ [as 别名]
# 或者: from sympy.polys.domains.ZZ import poly_ring [as 别名]
def test_Domain__unify():
    assert ZZ.unify(ZZ) == ZZ
    assert QQ.unify(QQ) == QQ

    assert ZZ.unify(QQ) == QQ
    assert QQ.unify(ZZ) == QQ

    assert EX.unify(EX) == EX

    assert ZZ.unify(EX) == EX
    assert QQ.unify(EX) == EX
    assert EX.unify(ZZ) == EX
    assert EX.unify(QQ) == EX

    assert ZZ.poly_ring('x').unify(EX) == EX
    assert ZZ.frac_field('x').unify(EX) == EX
    assert EX.unify(ZZ.poly_ring('x')) == EX
    assert EX.unify(ZZ.frac_field('x')) == EX

    assert ZZ.poly_ring('x','y').unify(EX) == EX
    assert ZZ.frac_field('x','y').unify(EX) == EX
    assert EX.unify(ZZ.poly_ring('x','y')) == EX
    assert EX.unify(ZZ.frac_field('x','y')) == EX

    assert QQ.poly_ring('x').unify(EX) == EX
    assert QQ.frac_field('x').unify(EX) == EX
    assert EX.unify(QQ.poly_ring('x')) == EX
    assert EX.unify(QQ.frac_field('x')) == EX

    assert QQ.poly_ring('x','y').unify(EX) == EX
    assert QQ.frac_field('x','y').unify(EX) == EX
    assert EX.unify(QQ.poly_ring('x','y')) == EX
    assert EX.unify(QQ.frac_field('x','y')) == EX

    assert ZZ.poly_ring('x').unify(ZZ) == ZZ.poly_ring('x')
    assert ZZ.poly_ring('x').unify(QQ) == QQ.poly_ring('x')
    assert QQ.poly_ring('x').unify(ZZ) == QQ.poly_ring('x')
    assert QQ.poly_ring('x').unify(QQ) == QQ.poly_ring('x')

    assert ZZ.unify(ZZ.poly_ring('x')) == ZZ.poly_ring('x')
    assert QQ.unify(ZZ.poly_ring('x')) == QQ.poly_ring('x')
    assert ZZ.unify(QQ.poly_ring('x')) == QQ.poly_ring('x')
    assert QQ.unify(QQ.poly_ring('x')) == QQ.poly_ring('x')

    assert ZZ.poly_ring('x','y').unify(ZZ) == ZZ.poly_ring('x','y')
    assert ZZ.poly_ring('x','y').unify(QQ) == QQ.poly_ring('x','y')
    assert QQ.poly_ring('x','y').unify(ZZ) == QQ.poly_ring('x','y')
    assert QQ.poly_ring('x','y').unify(QQ) == QQ.poly_ring('x','y')

    assert ZZ.unify(ZZ.poly_ring('x','y')) == ZZ.poly_ring('x','y')
    assert QQ.unify(ZZ.poly_ring('x','y')) == QQ.poly_ring('x','y')
    assert ZZ.unify(QQ.poly_ring('x','y')) == QQ.poly_ring('x','y')
    assert QQ.unify(QQ.poly_ring('x','y')) == QQ.poly_ring('x','y')

    assert ZZ.frac_field('x').unify(ZZ) == ZZ.frac_field('x')
    assert ZZ.frac_field('x').unify(QQ) == EX # QQ.frac_field('x')
    assert QQ.frac_field('x').unify(ZZ) == EX # QQ.frac_field('x')
    assert QQ.frac_field('x').unify(QQ) == QQ.frac_field('x')

    assert ZZ.unify(ZZ.frac_field('x')) == ZZ.frac_field('x')
    assert QQ.unify(ZZ.frac_field('x')) == EX # QQ.frac_field('x')
    assert ZZ.unify(QQ.frac_field('x')) == EX # QQ.frac_field('x')
    assert QQ.unify(QQ.frac_field('x')) == QQ.frac_field('x')

    assert ZZ.frac_field('x','y').unify(ZZ) == ZZ.frac_field('x','y')
    assert ZZ.frac_field('x','y').unify(QQ) == EX # QQ.frac_field('x','y')
    assert QQ.frac_field('x','y').unify(ZZ) == EX # QQ.frac_field('x','y')
    assert QQ.frac_field('x','y').unify(QQ) == QQ.frac_field('x','y')

    assert ZZ.unify(ZZ.frac_field('x','y')) == ZZ.frac_field('x','y')
    assert QQ.unify(ZZ.frac_field('x','y')) == EX # QQ.frac_field('x','y')
    assert ZZ.unify(QQ.frac_field('x','y')) == EX # QQ.frac_field('x','y')
    assert QQ.unify(QQ.frac_field('x','y')) == QQ.frac_field('x','y')

    assert ZZ.poly_ring('x').unify(ZZ.poly_ring('x')) == ZZ.poly_ring('x')
    assert ZZ.poly_ring('x').unify(QQ.poly_ring('x')) == QQ.poly_ring('x')
    assert QQ.poly_ring('x').unify(ZZ.poly_ring('x')) == QQ.poly_ring('x')
    assert QQ.poly_ring('x').unify(QQ.poly_ring('x')) == QQ.poly_ring('x')

    assert ZZ.poly_ring('x','y').unify(ZZ.poly_ring('x')) == ZZ.poly_ring('x','y')
    assert ZZ.poly_ring('x','y').unify(QQ.poly_ring('x')) == QQ.poly_ring('x','y')
    assert QQ.poly_ring('x','y').unify(ZZ.poly_ring('x')) == QQ.poly_ring('x','y')
    assert QQ.poly_ring('x','y').unify(QQ.poly_ring('x')) == QQ.poly_ring('x','y')

    assert ZZ.poly_ring('x').unify(ZZ.poly_ring('x','y')) == ZZ.poly_ring('x','y')
    assert ZZ.poly_ring('x').unify(QQ.poly_ring('x','y')) == QQ.poly_ring('x','y')
    assert QQ.poly_ring('x').unify(ZZ.poly_ring('x','y')) == QQ.poly_ring('x','y')
    assert QQ.poly_ring('x').unify(QQ.poly_ring('x','y')) == QQ.poly_ring('x','y')

    assert ZZ.poly_ring('x','y').unify(ZZ.poly_ring('x','z')) == ZZ.poly_ring('x','y','z')
    assert ZZ.poly_ring('x','y').unify(QQ.poly_ring('x','z')) == QQ.poly_ring('x','y','z')
    assert QQ.poly_ring('x','y').unify(ZZ.poly_ring('x','z')) == QQ.poly_ring('x','y','z')
    assert QQ.poly_ring('x','y').unify(QQ.poly_ring('x','z')) == QQ.poly_ring('x','y','z')

    assert ZZ.frac_field('x').unify(ZZ.frac_field('x')) == ZZ.frac_field('x')
    assert ZZ.frac_field('x').unify(QQ.frac_field('x')) == QQ.frac_field('x')
    assert QQ.frac_field('x').unify(ZZ.frac_field('x')) == QQ.frac_field('x')
    assert QQ.frac_field('x').unify(QQ.frac_field('x')) == QQ.frac_field('x')

    assert ZZ.frac_field('x','y').unify(ZZ.frac_field('x')) == ZZ.frac_field('x','y')
#.........这里部分代码省略.........
开发者ID:Jerryy,项目名称:sympy,代码行数:103,代码来源:test_domains.py

示例2: test_PolynomialRing__init

# 需要导入模块: from sympy.polys.domains import ZZ [as 别名]
# 或者: from sympy.polys.domains.ZZ import poly_ring [as 别名]
def test_PolynomialRing__init():
    R, = ring("", ZZ)
    assert ZZ.poly_ring() == R.to_domain()
开发者ID:Lenqth,项目名称:sympy,代码行数:5,代码来源:test_domains.py

示例3: test_PolynomialRing__init

# 需要导入模块: from sympy.polys.domains import ZZ [as 别名]
# 或者: from sympy.polys.domains.ZZ import poly_ring [as 别名]
def test_PolynomialRing__init():
    raises(GeneratorsNeeded, lambda: ZZ.poly_ring())
开发者ID:JustinL42,项目名称:sympy,代码行数:4,代码来源:test_domains.py

示例4: test_Domain_unify_composite

# 需要导入模块: from sympy.polys.domains import ZZ [as 别名]
# 或者: from sympy.polys.domains.ZZ import poly_ring [as 别名]
def test_Domain_unify_composite():
    assert unify(ZZ.poly_ring(x), ZZ) == ZZ.poly_ring(x)
    assert unify(ZZ.poly_ring(x), QQ) == QQ.poly_ring(x)
    assert unify(QQ.poly_ring(x), ZZ) == QQ.poly_ring(x)
    assert unify(QQ.poly_ring(x), QQ) == QQ.poly_ring(x)

    assert unify(ZZ, ZZ.poly_ring(x)) == ZZ.poly_ring(x)
    assert unify(QQ, ZZ.poly_ring(x)) == QQ.poly_ring(x)
    assert unify(ZZ, QQ.poly_ring(x)) == QQ.poly_ring(x)
    assert unify(QQ, QQ.poly_ring(x)) == QQ.poly_ring(x)

    assert unify(ZZ.poly_ring(x, y), ZZ) == ZZ.poly_ring(x, y)
    assert unify(ZZ.poly_ring(x, y), QQ) == QQ.poly_ring(x, y)
    assert unify(QQ.poly_ring(x, y), ZZ) == QQ.poly_ring(x, y)
    assert unify(QQ.poly_ring(x, y), QQ) == QQ.poly_ring(x, y)

    assert unify(ZZ, ZZ.poly_ring(x, y)) == ZZ.poly_ring(x, y)
    assert unify(QQ, ZZ.poly_ring(x, y)) == QQ.poly_ring(x, y)
    assert unify(ZZ, QQ.poly_ring(x, y)) == QQ.poly_ring(x, y)
    assert unify(QQ, QQ.poly_ring(x, y)) == QQ.poly_ring(x, y)

    assert unify(ZZ.frac_field(x), ZZ) == ZZ.frac_field(x)
    assert unify(ZZ.frac_field(x), QQ) == QQ.frac_field(x)
    assert unify(QQ.frac_field(x), ZZ) == QQ.frac_field(x)
    assert unify(QQ.frac_field(x), QQ) == QQ.frac_field(x)

    assert unify(ZZ, ZZ.frac_field(x)) == ZZ.frac_field(x)
    assert unify(QQ, ZZ.frac_field(x)) == QQ.frac_field(x)
    assert unify(ZZ, QQ.frac_field(x)) == QQ.frac_field(x)
    assert unify(QQ, QQ.frac_field(x)) == QQ.frac_field(x)

    assert unify(ZZ.frac_field(x, y), ZZ) == ZZ.frac_field(x, y)
    assert unify(ZZ.frac_field(x, y), QQ) == QQ.frac_field(x, y)
    assert unify(QQ.frac_field(x, y), ZZ) == QQ.frac_field(x, y)
    assert unify(QQ.frac_field(x, y), QQ) == QQ.frac_field(x, y)

    assert unify(ZZ, ZZ.frac_field(x, y)) == ZZ.frac_field(x, y)
    assert unify(QQ, ZZ.frac_field(x, y)) == QQ.frac_field(x, y)
    assert unify(ZZ, QQ.frac_field(x, y)) == QQ.frac_field(x, y)
    assert unify(QQ, QQ.frac_field(x, y)) == QQ.frac_field(x, y)

    assert unify(ZZ.poly_ring(x), ZZ.poly_ring(x)) == ZZ.poly_ring(x)
    assert unify(ZZ.poly_ring(x), QQ.poly_ring(x)) == QQ.poly_ring(x)
    assert unify(QQ.poly_ring(x), ZZ.poly_ring(x)) == QQ.poly_ring(x)
    assert unify(QQ.poly_ring(x), QQ.poly_ring(x)) == QQ.poly_ring(x)

    assert unify(ZZ.poly_ring(x, y), ZZ.poly_ring(x)) == ZZ.poly_ring(x, y)
    assert unify(ZZ.poly_ring(x, y), QQ.poly_ring(x)) == QQ.poly_ring(x, y)
    assert unify(QQ.poly_ring(x, y), ZZ.poly_ring(x)) == QQ.poly_ring(x, y)
    assert unify(QQ.poly_ring(x, y), QQ.poly_ring(x)) == QQ.poly_ring(x, y)

    assert unify(ZZ.poly_ring(x), ZZ.poly_ring(x, y)) == ZZ.poly_ring(x, y)
    assert unify(ZZ.poly_ring(x), QQ.poly_ring(x, y)) == QQ.poly_ring(x, y)
    assert unify(QQ.poly_ring(x), ZZ.poly_ring(x, y)) == QQ.poly_ring(x, y)
    assert unify(QQ.poly_ring(x), QQ.poly_ring(x, y)) == QQ.poly_ring(x, y)

    assert unify(ZZ.poly_ring(x, y), ZZ.poly_ring(x, z)) == ZZ.poly_ring(x, y, z)
    assert unify(ZZ.poly_ring(x, y), QQ.poly_ring(x, z)) == QQ.poly_ring(x, y, z)
    assert unify(QQ.poly_ring(x, y), ZZ.poly_ring(x, z)) == QQ.poly_ring(x, y, z)
    assert unify(QQ.poly_ring(x, y), QQ.poly_ring(x, z)) == QQ.poly_ring(x, y, z)

    assert unify(ZZ.frac_field(x), ZZ.frac_field(x)) == ZZ.frac_field(x)
    assert unify(ZZ.frac_field(x), QQ.frac_field(x)) == QQ.frac_field(x)
    assert unify(QQ.frac_field(x), ZZ.frac_field(x)) == QQ.frac_field(x)
    assert unify(QQ.frac_field(x), QQ.frac_field(x)) == QQ.frac_field(x)

    assert unify(ZZ.frac_field(x, y), ZZ.frac_field(x)) == ZZ.frac_field(x, y)
    assert unify(ZZ.frac_field(x, y), QQ.frac_field(x)) == QQ.frac_field(x, y)
    assert unify(QQ.frac_field(x, y), ZZ.frac_field(x)) == QQ.frac_field(x, y)
    assert unify(QQ.frac_field(x, y), QQ.frac_field(x)) == QQ.frac_field(x, y)

    assert unify(ZZ.frac_field(x), ZZ.frac_field(x, y)) == ZZ.frac_field(x, y)
    assert unify(ZZ.frac_field(x), QQ.frac_field(x, y)) == QQ.frac_field(x, y)
    assert unify(QQ.frac_field(x), ZZ.frac_field(x, y)) == QQ.frac_field(x, y)
    assert unify(QQ.frac_field(x), QQ.frac_field(x, y)) == QQ.frac_field(x, y)

    assert unify(ZZ.frac_field(x, y), ZZ.frac_field(x, z)) == ZZ.frac_field(x, y, z)
    assert unify(ZZ.frac_field(x, y), QQ.frac_field(x, z)) == QQ.frac_field(x, y, z)
    assert unify(QQ.frac_field(x, y), ZZ.frac_field(x, z)) == QQ.frac_field(x, y, z)
    assert unify(QQ.frac_field(x, y), QQ.frac_field(x, z)) == QQ.frac_field(x, y, z)

    assert unify(ZZ.poly_ring(x), ZZ.frac_field(x)) == ZZ.frac_field(x)
    assert unify(ZZ.poly_ring(x), QQ.frac_field(x)) == ZZ.frac_field(x)
    assert unify(QQ.poly_ring(x), ZZ.frac_field(x)) == ZZ.frac_field(x)
    assert unify(QQ.poly_ring(x), QQ.frac_field(x)) == QQ.frac_field(x)

    assert unify(ZZ.poly_ring(x, y), ZZ.frac_field(x)) == ZZ.frac_field(x, y)
    assert unify(ZZ.poly_ring(x, y), QQ.frac_field(x)) == ZZ.frac_field(x, y)
    assert unify(QQ.poly_ring(x, y), ZZ.frac_field(x)) == ZZ.frac_field(x, y)
    assert unify(QQ.poly_ring(x, y), QQ.frac_field(x)) == QQ.frac_field(x, y)

    assert unify(ZZ.poly_ring(x), ZZ.frac_field(x, y)) == ZZ.frac_field(x, y)
    assert unify(ZZ.poly_ring(x), QQ.frac_field(x, y)) == ZZ.frac_field(x, y)
    assert unify(QQ.poly_ring(x), ZZ.frac_field(x, y)) == ZZ.frac_field(x, y)
    assert unify(QQ.poly_ring(x), QQ.frac_field(x, y)) == QQ.frac_field(x, y)

    assert unify(ZZ.poly_ring(x, y), ZZ.frac_field(x, z)) == ZZ.frac_field(x, y, z)
    assert unify(ZZ.poly_ring(x, y), QQ.frac_field(x, z)) == ZZ.frac_field(x, y, z)
    assert unify(QQ.poly_ring(x, y), ZZ.frac_field(x, z)) == ZZ.frac_field(x, y, z)
    assert unify(QQ.poly_ring(x, y), QQ.frac_field(x, z)) == QQ.frac_field(x, y, z)
#.........这里部分代码省略.........
开发者ID:Lenqth,项目名称:sympy,代码行数:103,代码来源:test_domains.py

示例5: test_Domain__unify

# 需要导入模块: from sympy.polys.domains import ZZ [as 别名]
# 或者: from sympy.polys.domains.ZZ import poly_ring [as 别名]
def test_Domain__unify():
    assert ZZ.unify(ZZ) == ZZ
    assert QQ.unify(QQ) == QQ

    assert ZZ.unify(QQ) == QQ
    assert QQ.unify(ZZ) == QQ

    assert EX.unify(EX) == EX

    assert ZZ.unify(EX) == EX
    assert QQ.unify(EX) == EX
    assert EX.unify(ZZ) == EX
    assert EX.unify(QQ) == EX

    assert ZZ.poly_ring(x).unify(EX) == EX
    assert ZZ.frac_field(x).unify(EX) == EX
    assert EX.unify(ZZ.poly_ring(x)) == EX
    assert EX.unify(ZZ.frac_field(x)) == EX

    assert ZZ.poly_ring(x, y).unify(EX) == EX
    assert ZZ.frac_field(x, y).unify(EX) == EX
    assert EX.unify(ZZ.poly_ring(x, y)) == EX
    assert EX.unify(ZZ.frac_field(x, y)) == EX

    assert QQ.poly_ring(x).unify(EX) == EX
    assert QQ.frac_field(x).unify(EX) == EX
    assert EX.unify(QQ.poly_ring(x)) == EX
    assert EX.unify(QQ.frac_field(x)) == EX

    assert QQ.poly_ring(x, y).unify(EX) == EX
    assert QQ.frac_field(x, y).unify(EX) == EX
    assert EX.unify(QQ.poly_ring(x, y)) == EX
    assert EX.unify(QQ.frac_field(x, y)) == EX

    assert ZZ.poly_ring(x).unify(ZZ) == ZZ.poly_ring(x)
    assert ZZ.poly_ring(x).unify(QQ) == QQ.poly_ring(x)
    assert QQ.poly_ring(x).unify(ZZ) == QQ.poly_ring(x)
    assert QQ.poly_ring(x).unify(QQ) == QQ.poly_ring(x)

    assert ZZ.unify(ZZ.poly_ring(x)) == ZZ.poly_ring(x)
    assert QQ.unify(ZZ.poly_ring(x)) == QQ.poly_ring(x)
    assert ZZ.unify(QQ.poly_ring(x)) == QQ.poly_ring(x)
    assert QQ.unify(QQ.poly_ring(x)) == QQ.poly_ring(x)

    assert ZZ.poly_ring(x, y).unify(ZZ) == ZZ.poly_ring(x, y)
    assert ZZ.poly_ring(x, y).unify(QQ) == QQ.poly_ring(x, y)
    assert QQ.poly_ring(x, y).unify(ZZ) == QQ.poly_ring(x, y)
    assert QQ.poly_ring(x, y).unify(QQ) == QQ.poly_ring(x, y)

    assert ZZ.unify(ZZ.poly_ring(x, y)) == ZZ.poly_ring(x, y)
    assert QQ.unify(ZZ.poly_ring(x, y)) == QQ.poly_ring(x, y)
    assert ZZ.unify(QQ.poly_ring(x, y)) == QQ.poly_ring(x, y)
    assert QQ.unify(QQ.poly_ring(x, y)) == QQ.poly_ring(x, y)

    assert ZZ.frac_field(x).unify(ZZ) == ZZ.frac_field(x)
    assert ZZ.frac_field(x).unify(QQ) == EX  # QQ.frac_field(x)
    assert QQ.frac_field(x).unify(ZZ) == EX  # QQ.frac_field(x)
    assert QQ.frac_field(x).unify(QQ) == QQ.frac_field(x)

    assert ZZ.unify(ZZ.frac_field(x)) == ZZ.frac_field(x)
    assert QQ.unify(ZZ.frac_field(x)) == EX  # QQ.frac_field(x)
    assert ZZ.unify(QQ.frac_field(x)) == EX  # QQ.frac_field(x)
    assert QQ.unify(QQ.frac_field(x)) == QQ.frac_field(x)

    assert ZZ.frac_field(x, y).unify(ZZ) == ZZ.frac_field(x, y)
    assert ZZ.frac_field(x, y).unify(QQ) == EX  # QQ.frac_field(x,y)
    assert QQ.frac_field(x, y).unify(ZZ) == EX  # QQ.frac_field(x,y)
    assert QQ.frac_field(x, y).unify(QQ) == QQ.frac_field(x, y)

    assert ZZ.unify(ZZ.frac_field(x, y)) == ZZ.frac_field(x, y)
    assert QQ.unify(ZZ.frac_field(x, y)) == EX  # QQ.frac_field(x,y)
    assert ZZ.unify(QQ.frac_field(x, y)) == EX  # QQ.frac_field(x,y)
    assert QQ.unify(QQ.frac_field(x, y)) == QQ.frac_field(x, y)

    assert ZZ.poly_ring(x).unify(ZZ.poly_ring(x)) == ZZ.poly_ring(x)
    assert ZZ.poly_ring(x).unify(QQ.poly_ring(x)) == QQ.poly_ring(x)
    assert QQ.poly_ring(x).unify(ZZ.poly_ring(x)) == QQ.poly_ring(x)
    assert QQ.poly_ring(x).unify(QQ.poly_ring(x)) == QQ.poly_ring(x)

    assert ZZ.poly_ring(x, y).unify(ZZ.poly_ring(x)) == ZZ.poly_ring(x, y)
    assert ZZ.poly_ring(x, y).unify(QQ.poly_ring(x)) == QQ.poly_ring(x, y)
    assert QQ.poly_ring(x, y).unify(ZZ.poly_ring(x)) == QQ.poly_ring(x, y)
    assert QQ.poly_ring(x, y).unify(QQ.poly_ring(x)) == QQ.poly_ring(x, y)

    assert ZZ.poly_ring(x).unify(ZZ.poly_ring(x, y)) == ZZ.poly_ring(x, y)
    assert ZZ.poly_ring(x).unify(QQ.poly_ring(x, y)) == QQ.poly_ring(x, y)
    assert QQ.poly_ring(x).unify(ZZ.poly_ring(x, y)) == QQ.poly_ring(x, y)
    assert QQ.poly_ring(x).unify(QQ.poly_ring(x, y)) == QQ.poly_ring(x, y)

    assert ZZ.poly_ring(x, y).unify(ZZ.poly_ring(x, z)) == ZZ.poly_ring(x, y, z)
    assert ZZ.poly_ring(x, y).unify(QQ.poly_ring(x, z)) == QQ.poly_ring(x, y, z)
    assert QQ.poly_ring(x, y).unify(ZZ.poly_ring(x, z)) == QQ.poly_ring(x, y, z)
    assert QQ.poly_ring(x, y).unify(QQ.poly_ring(x, z)) == QQ.poly_ring(x, y, z)

    assert ZZ.frac_field(x).unify(ZZ.frac_field(x)) == ZZ.frac_field(x)
    assert ZZ.frac_field(x).unify(QQ.frac_field(x)) == QQ.frac_field(x)
    assert QQ.frac_field(x).unify(ZZ.frac_field(x)) == QQ.frac_field(x)
    assert QQ.frac_field(x).unify(QQ.frac_field(x)) == QQ.frac_field(x)

    assert ZZ.frac_field(x, y).unify(ZZ.frac_field(x)) == ZZ.frac_field(x, y)
#.........这里部分代码省略.........
开发者ID:Acebulf,项目名称:sympy,代码行数:103,代码来源:test_domains.py


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