Esempio n. 1
0
    def plot(self, roll, gz):
        """ Plot the GZ curve.

        Position arguments:
        roll -- List of roll angles (in degrees).
        gz -- List of GZ values (in meters).
        """
        try:
            from FreeCAD.Plot import Plot
        except ImportError:
            try:
                from freecad.plot import Plot
            except ImportError:
                msg = QtGui.QApplication.translate(
                    "ship_console",
                    "Plot module is disabled, so I cannot perform the plot",
                    None)
                FreeCAD.Console.PrintWarning(msg + '\n')
                return True
        plt = Plot.figure('GZ')
        self.plt = plt

        gz_plot = Plot.plot(roll, gz, 'GZ curve')
        gz_plot.line.set_linestyle('-')
        gz_plot.line.set_linewidth(1.0)
        gz_plot.line.set_color((0.0, 0.0, 0.0))
        self.gz = gz_plot

        ax = Plot.axes()
        Plot.xlabel(r'$\phi \; [\mathrm{deg}]$')
        Plot.ylabel(r'$GZ \; [\mathrm{m}]$')
        ax.xaxis.label.set_fontsize(20)
        ax.yaxis.label.set_fontsize(20)

        Plot.grid(True)
        plt.update()
        return False
Esempio n. 2
0
    def plot(self, x, y, disp, xcb, ship):
        """ Perform the areas curve plot.
        @param x X coordinates.
        @param y Transversal areas.
        @param disp Ship displacement.
        @param xcb Buoyancy center length.
        @param ship Active ship instance.
        @return True if error happens.
        """
        try:
            from FreeCAD.Plot import Plot
        except ImportError:
            try:
                from freecad.plot import Plot
            except ImportError:
                msg = QtGui.QApplication.translate("ship_console",
                                                   "Plot module is disabled",
                                                   None)
                FreeCAD.Console.PrintWarning(msg + '\n')
                return True

        areas = Plot.plot(x, y, 'Transversal areas')
        areas.line.set_linestyle('-')
        areas.line.set_linewidth(2.0)
        areas.line.set_color((0.0, 0.0, 0.0))
        # Get perpendiculars data
        Lpp = ship.Length.getValueAs('m').Value
        FPx = 0.5 * Lpp
        APx = -0.5 * Lpp
        maxArea = max(y)
        # Plot perpendiculars
        FP = Plot.plot([FPx, FPx], [0.0, maxArea])
        FP.line.set_linestyle('-')
        FP.line.set_linewidth(1.0)
        FP.line.set_color((0.0, 0.0, 0.0))
        AP = Plot.plot([APx, APx], [0.0, maxArea])
        AP.line.set_linestyle('-')
        AP.line.set_linewidth(1.0)
        AP.line.set_color((0.0, 0.0, 0.0))
        # Add annotations for prependiculars
        ax = Plot.axes()
        ax.annotate('AP', xy=(APx + 0.01 * Lpp, 0.01 * maxArea), size=15)
        ax.annotate('AP', xy=(APx + 0.01 * Lpp, 0.95 * maxArea), size=15)
        ax.annotate('FP', xy=(FPx + 0.01 * Lpp, 0.01 * maxArea), size=15)
        ax.annotate('FP', xy=(FPx + 0.01 * Lpp, 0.95 * maxArea), size=15)
        # Add some additional data
        addInfo = ("$XCB = {0} \\; \\mathrm{{m}}$\n"
                   "$Area_{{max}} = {1} \\; \\mathrm{{m}}^2$\n"
                   "$\\bigtriangleup = {2} \\; \\mathrm{{tons}}$".format(
                       xcb.getValueAs("m").Value, maxArea,
                       disp.getValueAs("kg").Value / 1000.0))
        ax.text(0.0,
                0.01 * maxArea,
                addInfo,
                verticalalignment='bottom',
                horizontalalignment='center',
                fontsize=20)
        # Write axes titles
        Plot.xlabel(r'$x \; \mathrm{m}$')
        Plot.ylabel(r'$Area \; \mathrm{m}^2$')
        ax.xaxis.label.set_fontsize(20)
        ax.yaxis.label.set_fontsize(20)
        # Show grid
        Plot.grid(True)
        # End
        return False