Ejemplo n.º 1
0
def test_qexpr_commutative():
    q1 = QExpr(x)
    q2 = QExpr(y)
    assert q1.is_commutative is False
    assert q2.is_commutative is False
    assert q1 * q2 != q2 * q1

    q = QExpr._new_rawargs(0, 1, HilbertSpace())
    assert q.is_commutative is False
Ejemplo n.º 2
0
def test_qexpr_new():
    q = QExpr(0)
    assert q.label == (0, )
    assert q.hilbert_space == HilbertSpace()
    assert q.is_commutative is False

    q = QExpr(0, 1)
    assert q.label == (Integer(0), Integer(1))

    q = QExpr._new_rawargs(HilbertSpace(), Integer(0), Integer(1))
    assert q.label == (Integer(0), Integer(1))
    assert q.hilbert_space == HilbertSpace()
Ejemplo n.º 3
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def test_qexpr():
    q = QExpr('q')
    assert str(q) == 'q'
    assert pretty(q) == 'q'
    assert upretty(q) == u'q'
    assert latex(q) == r'q'
    sT(q, "QExpr(Symbol('q'))")
Ejemplo n.º 4
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def test_qexpr():
    q = QExpr("q")
    assert str(q) == "q"
    assert pretty(q) == "q"
    assert upretty(q) == u"q"
    assert latex(q) == r"q"
    sT(q, "QExpr(Symbol('q'))")
Ejemplo n.º 5
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def test_qexpr_commutative():
    q1 = QExpr(x)
    q2 = QExpr(y)
    assert q1.is_commutative is False
    assert q2.is_commutative is False
    assert q1*q2 != q2*q1

    q = QExpr._new_rawargs(0, 1, HilbertSpace())
    assert q.is_commutative is False
Ejemplo n.º 6
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def test_qexpr_new():
    q = QExpr(0)
    assert q.label == (0,)
    assert q.hilbert_space == HilbertSpace()
    assert q.is_commutative is False

    q = QExpr(0, 1)
    assert q.label == (Integer(0), Integer(1))

    q = QExpr._new_rawargs(HilbertSpace(), Integer(0), Integer(1))
    assert q.label == (Integer(0), Integer(1))
    assert q.hilbert_space == HilbertSpace()
Ejemplo n.º 7
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 def _eval_args(cls, args):
     args = QExpr._eval_args(args)
     if len(args) != 3:
         raise ValueError('3 Euler angles required, got: %r' % args)
     return args
Ejemplo n.º 8
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 def _eval_args(cls, args):
     args = QExpr._eval_args(args)
     if len(args) == 1:
         return args
     else:
         raise ValueError("Too many arguments")
Ejemplo n.º 9
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 def _eval_args(cls, args):
     args = QExpr._eval_args(args)
     if len(args) != 3:
         raise ValueError("3 Euler angles required, got: %r" % args)
     return args
Ejemplo n.º 10
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def test_sympy__physics__quantum__qexpr__QExpr():
    from sympy.physics.quantum.qexpr import QExpr
    assert _test_args(QExpr(0))
Ejemplo n.º 11
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Archivo: qft.py Proyecto: Aang/sympy 
 def _eval_args(cls, args):
     # Fall back to this, because Gate._eval_args assumes that args is
     # all targets and can't contain duplicates.
     return QExpr._eval_args(args)
Ejemplo n.º 12
0
Archivo: qft.py Proyecto: ness01/sympy 
 def _eval_args(cls, args):
     # Fall back to this, because Gate._eval_args assumes that args is
     # all targets and can't contain duplicates.
     return QExpr._eval_args(args)
Ejemplo n.º 13
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 def _eval_args(cls, args):
     args = QExpr._eval_args(args)
     if len(args) == 1:
         return args
     else:
         raise ValueError("Too many arguments")
Ejemplo n.º 14
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def test_qexpr_subs():
    q1 = QExpr(x, y)
    assert q1.subs(x, y) == QExpr(y, y)
    assert q1.subs({x: 1, y: 2}) == QExpr(1, 2)
Ejemplo n.º 15
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def test_qexpr_commutative_free_symbols():
    q1 = QExpr(x)
    assert q1.free_symbols.pop().is_commutative is False

    q2 = QExpr("q2")
    assert q2.free_symbols.pop().is_commutative is False
Ejemplo n.º 16
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def test_qexpr_subs():
    q1 = QExpr(x, y)
    assert q1.subs(x, y) == QExpr(y, y)
    assert q1.subs({x: 1, y: 2}) == QExpr(1, 2)