def test_latex_to_image() -> None:
    # TODO: Double check this circuit is correct
    circ = qf.addition_circuit(
        ["a[0]", "a[1]", "a[2]", "a[3]"],
        ["b[0]", "b[1]", "b[2]", "b[3]"],
        ["cin", "cout"],
    )
    order = [
        "cin",
        "a[0]",
        "b[0]",
        "a[1]",
        "b[1]",
        "a[2]",
        "b[2]",
        "a[3]",
        "b[3]",
        "cout",
    ]
    # order = ['cin', 'a0', 'a1', 'a2', 'a3', 'b0', 'b1', 'b2', 'b3','cout']

    latex = qf.circuit_to_latex(circ, order)

    qf.latex_to_image(latex)
    if os.environ.get("QF_VIZTEST"):
        qf.latex_to_image(latex).show()
def test_gate3_to_diagrams() -> None:
    circ = qf.Circuit()
    circ += qf.CCNot(0, 1, 2)
    circ += qf.CCNot(0, 2, 1)
    circ += qf.CSwap(0, 1, 2)
    circ += qf.CSwap(1, 0, 2)
    circ += qf.CCZ(0, 1, 2)
    circ += qf.CCiX(0, 1, 2)
    circ += qf.CCNot(0, 1, 2)**0.25
    circ += qf.Deutsch(0.25, 0, 1, 2)

    circ += qf.CV(1, 0)
    circ += qf.CV_H(1, 0)

    print()

    diag = qf.circuit_to_diagram(circ)
    print(diag)
    diag = qf.circuit_to_diagram(circ, use_unicode=False)
    print(diag)

    latex = qf.circuit_to_latex(circ)

    if os.environ.get("QF_VIZTEST"):
        qf.latex_to_image(latex).show()
def test_gates_to_latex():
    circ = qf.Circuit()

    circ += qf.I(7)
    circ += qf.X(0)
    circ += qf.Y(1)
    circ += qf.Z(2)
    circ += qf.H(3)
    circ += qf.S(4)
    circ += qf.T(5)
    circ += qf.S_H(6)
    circ += qf.T_H(7)

    circ += qf.RX(-0.5*pi, 0)
    circ += qf.RY(0.5*pi, 1)
    circ += qf.RZ((1/3)*pi, 1)
    circ += qf.RY(0.222, 1)

    circ += qf.TX(0.5, 0)
    circ += qf.TY(0.5, 1)
    circ += qf.TZ(0.4, 1)

    circ += qf.TZ(0.47276, 1)
    # Gate with cunning hack
    gate = qf.RZ(0.4, 1)
    gate.params['theta'] = qf.Parameter('\\theta')
    circ += gate

    circ += qf.CNOT(1, 2)
    circ += qf.CNOT(2, 1)
    circ += qf.CZ(1, 3)
    circ += qf.SWAP(1, 5)
    circ += qf.ISWAP(4, 2)

    # circ += qf.Barrier(0, 1, 2, 3, 4, 5, 6)  # Not yet supported

    circ += qf.CCNOT(1, 2, 3)
    circ += qf.CSWAP(4, 5, 6)

    circ += qf.P0(0)
    circ += qf.P1(1)

    circ += qf.Reset(2)
    circ += qf.Reset(4, 5, 6)

    circ += qf.H(4)
    # circ += qf.Reset()    # FIXME. Should fail with clear error message

    circ += qf.XX(0.25, 1, 3)
    circ += qf.YY(0.75, 1, 3)
    circ += qf.ZZ(1/3, 3, 1)

    circ += qf.Measure(0)

    latex = qf.circuit_to_latex(circ)

    print(latex)
def test_stdgates_latex_to_image(gatename: str) -> None:
    if gatename not in qf.LATEX_GATESET:
        print("Latex not supported:", gatename)
        return
    gatet = qf.StdGate.cv_stdgates[gatename]
    gate = _randomize_gate(gatet)
    circ = qf.Circuit(gate)
    latex = qf.circuit_to_latex(circ)
    img = qf.latex_to_image(latex)
    if os.environ.get("QF_VIZTEST"):
        img.show()
def test_render_latex():
    # TODO: Double check this circuit is correct
    circ = qf.addition_circuit(['a[0]', 'a[1]', 'a[2]', 'a[3]'],
                               ['b[0]', 'b[1]', 'b[2]', 'b[3]'],
                               ['cin', 'cout'])
    order = ['cin', 'a[0]', 'b[0]', 'a[1]', 'b[1]', 'a[2]', 'b[2]', 'a[3]',
             'b[3]', 'cout']
    # order = ['cin', 'a0', 'a1', 'a2', 'a3', 'b0', 'b1', 'b2', 'b3','cout']

    latex = qf.circuit_to_latex(circ, order)

    qf.render_latex(latex)
def test_gate2_to_diagrams() -> None:
    circ = qf.Circuit()

    circ += qf.CNot(0, 1)
    circ += qf.CZ(0, 1)
    circ += qf.CV(0, 1)
    circ += qf.CV_H(0, 1)
    circ += qf.CH(0, 1)
    circ += qf.Swap(0, 1)
    circ += qf.ISwap(0, 1)

    circ += qf.CNot(0, 2)
    circ += qf.CZ(0, 2)
    circ += qf.CV(0, 2)
    circ += qf.CV_H(0, 2)
    circ += qf.CH(0, 2)
    circ += qf.Swap(0, 2)
    circ += qf.ISwap(0, 2)

    circ += qf.CNot(2, 1)
    circ += qf.CZ(2, 1)
    circ += qf.CV(2, 1)
    circ += qf.CV_H(2, 1)
    circ += qf.CH(2, 1)
    circ += qf.Swap(2, 1)
    circ += qf.ISwap(2, 1)

    print()

    diag = qf.circuit_to_diagram(circ)
    print(diag)

    diag = qf.circuit_to_diagram(circ, use_unicode=False)
    print(diag)

    latex = qf.circuit_to_latex(circ)

    if os.environ.get("QF_VIZTEST"):
        qf.latex_to_image(latex).show()
Exemple #7
0
def test_pyquil_to_latex():
    prog = pyquil.Program(BELL_STATE_MEASURE)
    circ = qf.forest.pyquil_to_circuit(prog)
    latex = qf.circuit_to_latex(circ)
    img = qf.render_latex(latex)
    assert img is not None
def test_visualize_circuit() -> None:
    circ = qf.Circuit()

    circ += qf.I(7)
    circ += qf.X(0)
    circ += qf.Y(1)
    circ += qf.Z(2)
    circ += qf.H(3)
    circ += qf.S(4)
    circ += qf.T(5)
    circ += qf.S_H(6)
    circ += qf.T_H(7)

    circ += qf.Rx(-0.5 * pi, 0)
    circ += qf.Ry(0.5 * pi, 4)
    circ += qf.Rz((1 / 3) * pi, 5)
    circ += qf.Ry(0.222, 6)

    circ += qf.XPow(0.5, 0)
    circ += qf.YPow(0.5, 2)
    circ += qf.ZPow(0.4, 2)
    circ += qf.HPow(0.5, 3)
    circ += qf.ZPow(0.47276, 1)

    # Gate with symbolic parameter
    #  gate = qf.Rz(Symbol('\\theta'), 1)
    # circ += gate

    circ += qf.CNot(1, 2)
    circ += qf.CNot(2, 1)
    # circ += qf.IDEN(*range(8))
    circ += qf.ISwap(4, 2)
    circ += qf.ISwap(6, 5)
    circ += qf.CZ(1, 3)
    circ += qf.Swap(1, 5)

    # circ += qf.Barrier(0, 1, 2, 3, 4, 5, 6)  # Not yet supported in latex

    circ += qf.CCNot(1, 2, 3)
    circ += qf.CSwap(4, 5, 6)

    circ += qf.P0(0)
    circ += qf.P1(1)

    circ += qf.Reset(2)
    circ += qf.Reset(4, 5, 6)

    circ += qf.H(4)

    circ += qf.XX(0.25, 1, 4)
    circ += qf.XX(0.25, 1, 2)
    circ += qf.YY(0.75, 1, 3)
    circ += qf.ZZ(1 / 3, 3, 1)

    circ += qf.CPhase(0, 0, 1)
    circ += qf.CPhase(pi * 1 / 2, 0, 4)

    circ += qf.Can(1 / 3, 1 / 2, 1 / 2, 0, 1)
    circ += qf.Can(1 / 3, 1 / 2, 1 / 2, 2, 4)
    circ += qf.Can(1 / 3, 1 / 2, 1 / 2, 6, 5)

    # circ += qf.Measure(0)
    # circ += qf.Measure(1, 1)

    circ += qf.PSwap(pi / 2, 6, 7)

    circ += qf.Ph(1 / 4, 7)

    circ += qf.CH(1, 6)

    circ += qf.visualization.NoWire([0, 1, 2])
    # circ += qf.visualization.NoWire(4, 1, 2)

    if os.environ.get("QF_VIZTEST"):
        print()
        print(qf.circuit_to_diagram(circ))

    qf.circuit_to_diagram(circ)

    qf.circuit_to_latex(circ)
    qf.circuit_to_latex(circ, package="qcircuit")
    qf.circuit_to_latex(circ, package="quantikz")

    qf.circuit_to_diagram(circ)
    qf.circuit_to_diagram(circ, use_unicode=False)

    latex = qf.circuit_to_latex(circ, package="qcircuit")
    print(latex)
    if os.environ.get("QF_VIZTEST"):
        qf.latex_to_image(latex).show()

    latex = qf.circuit_to_latex(circ, package="quantikz")
    print(latex)

    if os.environ.get("QF_VIZTEST"):
        qf.latex_to_image(latex).show()
def test_circuit_to_latex_error() -> None:
    circ = qf.Circuit([qf.RandomGate([0, 1, 2])])
    with pytest.raises(NotImplementedError):
        qf.circuit_to_latex(circ)
def test_circuit_to_latex() -> None:
    qf.circuit_to_latex(qf.ghz_circuit(range(15)))
    sys.exit()

if shutil.which('pdftocairo') is None:
    print('Failed: External dependency `pdftocairo` not found. '
          'Install `poppler`.')
    sys.exit()

# Display Bell state preparation
qf.circuit_to_image(qf.ghz_circuit([0, 1])).show()

# 4-qubit GHZ state preparation
qf.circuit_to_image(qf.ghz_circuit([0, 1, 2, 3])).show()

# 4-qubit ripple add
circ = qf.addition_circuit(['a[0]', 'a[1]', 'a[2]', 'a[3]'],
                           ['b[0]', 'b[1]', 'b[2]', 'b[3]'],
                           ['cin', 'cout'])
order = ['cin', 'a[0]', 'b[0]', 'a[1]', 'b[1]', 'a[2]', 'b[2]', 'a[3]',
         'b[3]', 'cout']
latex = qf.circuit_to_latex(circ, order)
img = qf.render_latex(latex)
img.show()

# Visualize pyquil protoquil programs
prog = Program()
prog = prog.inst(Z(0))
prog = prog.inst(CNOT(0, 1))
prog = prog.inst(CZ(0, 1))
prog = prog.inst(CCNOT(0, 1, 2))
qf.forest.pyquil_to_image(prog).show()
def test_circuit_to_latex_error():
    circ = qf.Circuit([qf.CPHASE01(0.4, 0, 1)])
    with pytest.raises(NotImplementedError):
        qf.circuit_to_latex(circ)