Esempio n. 1
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def CNOT(savefile="cnot.png"):
    drawer = MPLDrawer(n_wires=2, n_layers=2)

    drawer.CNOT(0, (0, 1))

    options = {"color": "indigo", "linewidth": 4}
    drawer.CNOT(1, (1, 0), options=options)
    plt.savefig(folder / savefile)
    plt.close()
Esempio n. 2
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    def test_CNOT(self):
        """Tests the CNOT method"""

        drawer = MPLDrawer(1, 3)

        drawer.CNOT(0, (0, 1))

        ctrl_line = drawer.ax.lines[3]
        assert ctrl_line.get_data() == ((0, 0), (0, 1))

        center_line = drawer.ax.lines[4]
        assert center_line.get_data() == ((0, 0), (0.7, 1.3))

        ctrl_circle = drawer.ax.patches[0]
        target_circle = drawer.ax.patches[1]

        assert ctrl_circle.center == (0, 0)
        assert ctrl_circle.width == 0.2

        assert target_circle.center == (0, 1)
        assert target_circle.width == 0.6
        assert target_circle.get_facecolor() == to_rgba(
            plt.rcParams["axes.facecolor"])
        assert to_rgba(plt.rcParams["lines.color"]) == to_rgba(
            target_circle.get_edgecolor())
        plt.close()
Esempio n. 3
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def integration_formatted(savefile="example_formatted.png"):

    wire_options = {"color": "indigo", "linewidth": 4}
    drawer = MPLDrawer(n_wires=2, n_layers=4, wire_options=wire_options)

    label_options = {"fontsize": "x-large", "color": "indigo"}
    drawer.label(["0", "a"], text_options=label_options)

    box_options = {"facecolor": "lightcoral", "edgecolor": "maroon", "linewidth": 5}
    text_options = {"fontsize": "xx-large", "color": "maroon"}
    drawer.box_gate(layer=0, wires=0, text="Z", box_options=box_options, text_options=text_options)

    swap_options = {"linewidth": 4, "color": "darkgreen"}
    drawer.SWAP(layer=1, wires=(0, 1), options=swap_options)

    ctrl_options = {"linewidth": 4, "color": "teal"}
    drawer.CNOT(layer=2, wires=(0, 1), options=ctrl_options)
    drawer.ctrl(layer=3, wires=(0, 1), options=ctrl_options)

    measure_box = {"facecolor": "white", "edgecolor": "indigo"}
    measure_lines = {"edgecolor": "indigo", "facecolor": "plum", "linewidth": 2}
    for wire in range(2):
        drawer.measure(layer=4, wires=wire, box_options=measure_box, lines_options=measure_lines)

    drawer.fig.suptitle("My Circuit", fontsize="xx-large")

    plt.savefig(folder / savefile)
    plt.close()
Esempio n. 4
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def integration(style="default", savefile="example_basic.png"):
    use_style(style)
    drawer = MPLDrawer(n_wires=5, n_layers=6)

    drawer.label(["0", "a", r"$|\Psi\rangle$", r"$|\theta\rangle$", "aux"])

    drawer.box_gate(0, [0, 1, 2, 3, 4], "Entangling Layers")
    drawer.box_gate(1, [0, 2, 3], "U(θ)")

    drawer.box_gate(1, 4, "Z")

    drawer.SWAP(2, (3,4))
    drawer.CNOT(2, (0, 2))

    drawer.ctrl(3, [1, 3], control_values=[True, False])
    drawer.box_gate(
        layer=3, wires=2, text="H", box_options={"zorder": 4}, text_options={"zorder": 5}
    )

    drawer.ctrl(4, [1, 2])

    drawer.measure(5, 0)

    drawer.fig.suptitle("My Circuit", fontsize="xx-large")
    plt.savefig(folder / savefile)
    plt.style.use("default")
    plt.close()
Esempio n. 5
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    def test_CNOT_control_values(self):
        """Tests the ``control_values`` keyword for CNOT."""

        drawer = MPLDrawer(1, 3)

        drawer.CNOT(0, (0, 1, 2), control_values=[True, False])

        ctrl_circ1 = drawer.ax.patches[0]
        ctrl_circ2 = drawer.ax.patches[1]

        # first should be a closed in circle
        assert ctrl_circ1.get_facecolor() == to_rgba(
            plt.rcParams["lines.color"])
        # second facecolor should match the background
        assert ctrl_circ2.get_facecolor() == to_rgba(
            plt.rcParams["axes.facecolor"])
Esempio n. 6
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    def test_CNOT_color(self):
        drawer = MPLDrawer(1, 3)
        rgba_red = (1, 0, 0, 1)
        drawer.CNOT(0, (0, 1), options={"color": rgba_red})

        ctrl_line = drawer.ax.lines[3]
        assert ctrl_line.get_color() == rgba_red

        center_line = drawer.ax.lines[4]
        assert center_line.get_color() == rgba_red

        ctrl_circle = drawer.ax.patches[0]
        assert ctrl_circle.get_facecolor() == rgba_red

        target_circle = drawer.ax.patches[1]
        assert target_circle.get_edgecolor() == rgba_red

        plt.close()
Esempio n. 7
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def integration_rcParams(savefile="example_rcParams.png"):
    plt.rcParams['patch.facecolor'] = 'mistyrose'
    plt.rcParams['patch.edgecolor'] = 'maroon'
    plt.rcParams['text.color'] = 'maroon'
    plt.rcParams['font.weight'] = 'bold'
    plt.rcParams['patch.linewidth'] = 4
    plt.rcParams['patch.force_edgecolor'] = True
    plt.rcParams['lines.color'] = 'indigo'
    plt.rcParams['lines.linewidth'] = 5
    plt.rcParams['figure.facecolor'] = 'ghostwhite'

    drawer = MPLDrawer(n_wires=5, n_layers=5)

    drawer = MPLDrawer(n_wires=5, n_layers=6)

    drawer.label(["0", "a", r"$|\Psi\rangle$", r"$|\theta\rangle$", "aux"])

    drawer.box_gate(0, [0, 1, 2, 3, 4], "Entangling Layers")
    drawer.box_gate(1, [0, 2, 3], "U(θ)")

    drawer.box_gate(1, 4, "Z")

    drawer.SWAP(2, (3,4))
    drawer.CNOT(2, (0, 2))

    drawer.ctrl(3, [1, 3], control_values=[True, False])
    drawer.box_gate(
        layer=3, wires=2, text="H", box_options={"zorder": 4}, text_options={"zorder": 5}
    )

    drawer.ctrl(4, [1, 2])

    drawer.measure(5, 0)

    drawer.fig.suptitle("My Circuit", fontsize="xx-large")

    plt.savefig(folder / savefile)
    plt.style.use("default")
    plt.close()