def test_draw_transform_ascii(self):
"""Test circuit drawing when using ASCII characters"""
from pennylane import numpy as anp
x = anp.array(0.1, requires_grad=True)
y = anp.array([0.2, 0.3], requires_grad=True)
z = anp.array(0.4, requires_grad=True)
dev = qml.device("default.qubit", wires=2)
@qnode(dev, interface="autograd")
def circuit(p1, p2, **kwargs):
qml.RX(p1, wires=0)
qml.RY(p2[0] * p2[1], wires=1)
qml.RX(kwargs["p3"], wires=0)
qml.CNOT(wires=[0, 1])
return qml.expval(qml.PauliZ(0) @ qml.PauliX(1))
result = draw(circuit, charset="ascii")(p1=x, p2=y, p3=z)
expected = """\
0: --RX(0.1)---RX(0.4)--+C--+| <Z @ X>
1: --RY(0.06)-----------+X--+| <Z @ X>
"""
assert result == expected
def test_draw_transform(self):
"""Test circuit drawing"""
from pennylane import numpy as anp
x = anp.array(0.1, requires_grad=True)
y = anp.array([0.2, 0.3], requires_grad=True)
z = anp.array(0.4, requires_grad=True)
dev = qml.device("default.qubit", wires=2)
@qnode(dev, interface="autograd")
def circuit(p1, p2=y, **kwargs):
qml.RX(p1, wires=0)
qml.RY(p2[0] * p2[1], wires=1)
qml.RX(kwargs["p3"], wires=0)
qml.CNOT(wires=[0, 1])
return qml.expval(qml.PauliZ(0) @ qml.PauliX(1))
result = draw(circuit)(p1=x, p3=z)
expected = """\
0: ──RX(0.1)───RX(0.4)──╭C──╭┤ ⟨Z ⊗ X⟩
1: ──RY(0.06)───────────╰X──╰┤ ⟨Z ⊗ X⟩
"""
assert result == expected
