Example #1
0
    def onNew(self):
        """Executed when new axes must be created."""
        # Ensure that we can work
        plt = Plot.getPlot()
        if not plt:
            self.updateUI()
            return
        # Get again all the subwidgets (to avoid PySide Pitfalls)
        mw = self.getMainWindow()
        form = mw.findChild(QtGui.QWidget, "TaskPanel")
        form.axId = self.widget(QtGui.QSpinBox, "axesIndex")

        Plot.addNewAxes()
        form.axId.setValue(len(plt.axesList) - 1)
        plt.update()
Example #2
0
    def plotVolume(self):
        """ Perform volumetric hydrostatics.
        @return True if error happens.
        """
        try:
            from freecad.plot import Plot
            plt = Plot.figure('Volume')
        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

        # Generate the set of axes
        Plot.grid(True)
        for i in range(0, 3):
            ax = Plot.addNewAxes()
            # Y axis can be placed at right
            ax.yaxis.tick_right()
            ax.spines['right'].set_color((0.0, 0.0, 0.0))
            ax.spines['left'].set_color('none')
            ax.yaxis.set_ticks_position('right')
            ax.yaxis.set_label_position('right')
            # And X axis can be placed at bottom
            for loc, spine in ax.spines.items():
                if loc in ['bottom', 'top']:
                    spine.set_position(('outward', (i + 1) * 35))
            Plot.grid(True)

        disp = []
        draft = []
        warea = []
        t1cm = []
        xcb = []
        for i in range(len(self.points)):
            disp.append(self.points[i].disp.getValueAs("kg").Value / 1000.0)
            draft.append(self.points[i].draft.getValueAs("m").Value)
            warea.append(self.points[i].wet.getValueAs("m^2").Value)
            t1cm.append(self.points[i].mom.getValueAs("kg*m").Value / 1000.0)
            xcb.append(self.points[i].xcb.getValueAs("m").Value)

        axes = Plot.axesList()
        for ax in axes:
            ax.set_position([0.1, 0.2, 0.8, 0.75])

        plt.axes = axes[0]
        serie = Plot.plot(draft, disp, r'$T$')
        serie.line.set_linestyle('-')
        serie.line.set_linewidth(2.0)
        serie.line.set_color((0.0, 0.0, 0.0))
        Plot.xlabel(r'$T \; \left[ \mathrm{m} \right]$')
        Plot.ylabel(r'$\bigtriangleup \; \left[ \mathrm{tons} \right]$')
        plt.axes.xaxis.label.set_fontsize(15)
        plt.axes.yaxis.label.set_fontsize(15)
        plt.axes = axes[1]
        serie = Plot.plot(warea, disp, r'Wetted area')
        serie.line.set_linestyle('-')
        serie.line.set_linewidth(2.0)
        serie.line.set_color((1.0, 0.0, 0.0))
        Plot.xlabel(r'$Wetted \; area \; \left[ \mathrm{m}^2 \right]$')
        Plot.ylabel(r'$\bigtriangleup \; \left[ \mathrm{tons} \right]$')
        plt.axes.xaxis.label.set_fontsize(15)
        plt.axes.yaxis.label.set_fontsize(15)
        plt.axes = axes[2]
        serie = Plot.plot(t1cm, disp, r'Moment to trim 1cm')
        serie.line.set_linestyle('-')
        serie.line.set_linewidth(2.0)
        serie.line.set_color((0.0, 0.0, 1.0))
        Plot.xlabel(r'$Moment \; to \; trim \; 1 \mathrm{cm} \; \left['
                    r' \mathrm{tons} \; \times \; \mathrm{m} \right]$')
        plt.axes.xaxis.label.set_fontsize(15)
        plt.axes.yaxis.label.set_fontsize(15)
        plt.axes = axes[3]
        serie = Plot.plot(xcb, disp, r'$XCB$')
        serie.line.set_linestyle('-')
        serie.line.set_linewidth(2.0)
        serie.line.set_color((0.2, 0.8, 0.2))
        Plot.xlabel(r'$XCB \; \left[ \mathrm{m} \right]$')
        plt.axes.xaxis.label.set_fontsize(15)
        plt.axes.yaxis.label.set_fontsize(15)

        Plot.legend(True)
        plt.update()
        return False
Example #3
0
    def plotCoeffs(self):
        """ Perform stability hydrostatics.
        @return True if error happens.
        """
        # Create plot
        try:
            from freecad.plot import Plot
            plt = Plot.figure('Coefficients')
        except ImportError:
            return True

        # Generate the set of axes
        Plot.grid(True)
        for i in range(0, 3):
            ax = Plot.addNewAxes()
            # Y axis can be placed at right
            ax.yaxis.tick_right()
            ax.spines['right'].set_color((0.0, 0.0, 0.0))
            ax.spines['left'].set_color('none')
            ax.yaxis.set_ticks_position('right')
            ax.yaxis.set_label_position('right')
            # And X axis can be placed at bottom
            for loc, spine in ax.spines.items():
                if loc in ['bottom', 'top']:
                    spine.set_position(('outward', (i + 1) * 35))
            Plot.grid(True)

        disp = []
        draft = []
        cb = []
        cf = []
        cm = []
        for i in range(len(self.points)):
            disp.append(self.points[i].disp.getValueAs("kg").Value / 1000.0)
            draft.append(self.points[i].draft.getValueAs("m").Value)
            cb.append(self.points[i].Cb)
            cf.append(self.points[i].Cf)
            cm.append(self.points[i].Cm)

        axes = Plot.axesList()
        for ax in axes:
            ax.set_position([0.1, 0.2, 0.8, 0.75])

        plt.axes = axes[0]
        serie = Plot.plot(draft, disp, r'$T$')
        serie.line.set_linestyle('-')
        serie.line.set_linewidth(2.0)
        serie.line.set_color((0.0, 0.0, 0.0))
        Plot.xlabel(r'$T \; \left[ \mathrm{m} \right]$')
        Plot.ylabel(r'$\bigtriangleup \; \left[ \mathrm{tons} \right]$')
        plt.axes.xaxis.label.set_fontsize(15)
        plt.axes.yaxis.label.set_fontsize(15)
        plt.axes = axes[1]
        serie = Plot.plot(cb, disp, r'$Cb$')
        serie.line.set_linestyle('-')
        serie.line.set_linewidth(2.0)
        serie.line.set_color((1.0, 0.0, 0.0))
        Plot.xlabel(r'$Cb$ (Block coefficient)')
        Plot.ylabel(r'$\bigtriangleup \; \left[ \mathrm{tons} \right]$')
        plt.axes.xaxis.label.set_fontsize(15)
        plt.axes.yaxis.label.set_fontsize(15)
        plt.axes = axes[2]
        serie = Plot.plot(cf, disp, r'$Cf$')
        serie.line.set_linestyle('-')
        serie.line.set_linewidth(2.0)
        serie.line.set_color((0.0, 0.0, 1.0))
        Plot.xlabel(r'$Cf$ (floating area coefficient)')
        plt.axes.xaxis.label.set_fontsize(15)
        plt.axes.yaxis.label.set_fontsize(15)
        plt.axes = axes[3]
        serie = Plot.plot(cm, disp, r'$Cm$')
        serie.line.set_linestyle('-')
        serie.line.set_linewidth(2.0)
        serie.line.set_color((0.2, 0.8, 0.2))
        Plot.xlabel(r'$Cm$  (Main section coefficient)')
        plt.axes.xaxis.label.set_fontsize(15)
        plt.axes.yaxis.label.set_fontsize(15)

        Plot.legend(True)
        plt.update()
        return False
Example #4
0
    def plotStability(self):
        """ Perform stability hydrostatics.
        @return True if error happens.
        """
        try:
            from freecad.plot import Plot
            plt = Plot.figure('Stability')
        except ImportError:
            return True

        # Generate the sets of axes
        Plot.grid(True)
        for i in range(0, 3):
            ax = Plot.addNewAxes()
            # Y axis can be placed at right
            ax.yaxis.tick_right()
            ax.spines['right'].set_color((0.0, 0.0, 0.0))
            ax.spines['left'].set_color('none')
            ax.yaxis.set_ticks_position('right')
            ax.yaxis.set_label_position('right')
            # And X axis can be placed at bottom
            for loc, spine in ax.spines.items():
                if loc in ['bottom', 'top']:
                    spine.set_position(('outward', (i + 1) * 35))
            Plot.grid(True)

        disp = []
        draft = []
        farea = []
        kbt = []
        bmt = []
        for i in range(len(self.points)):
            disp.append(self.points[i].disp.getValueAs("kg").Value / 1000.0)
            draft.append(self.points[i].draft.getValueAs("m").Value)
            farea.append(self.points[i].farea.getValueAs("m^2").Value)
            kbt.append(self.points[i].KBt.getValueAs("m").Value)
            bmt.append(self.points[i].BMt.getValueAs("m").Value)

        axes = Plot.axesList()
        for ax in axes:
            ax.set_position([0.1, 0.2, 0.8, 0.75])

        plt.axes = axes[0]
        serie = Plot.plot(draft, disp, r'$T$')
        serie.line.set_linestyle('-')
        serie.line.set_linewidth(2.0)
        serie.line.set_color((0.0, 0.0, 0.0))
        Plot.xlabel(r'$T \; \left[ \mathrm{m} \right]$')
        Plot.ylabel(r'$\bigtriangleup \; \left[ \mathrm{tons} \right]$')
        plt.axes.xaxis.label.set_fontsize(15)
        plt.axes.yaxis.label.set_fontsize(15)
        plt.axes = axes[1]
        serie = Plot.plot(farea, disp, r'Floating area')
        serie.line.set_linestyle('-')
        serie.line.set_linewidth(2.0)
        serie.line.set_color((1.0, 0.0, 0.0))
        Plot.xlabel(r'$Floating \; area \; \left[ \mathrm{m}^2 \right]$')
        Plot.ylabel(r'$\bigtriangleup \; \left[ \mathrm{tons} \right]$')
        plt.axes.xaxis.label.set_fontsize(15)
        plt.axes.yaxis.label.set_fontsize(15)
        plt.axes = axes[2]
        serie = Plot.plot(kbt, disp, r'$KB_T$')
        serie.line.set_linestyle('-')
        serie.line.set_linewidth(2.0)
        serie.line.set_color((0.0, 0.0, 1.0))
        Plot.xlabel(r'$KB_T \; \left[ \mathrm{m} \right]$')
        plt.axes.xaxis.label.set_fontsize(15)
        plt.axes.yaxis.label.set_fontsize(15)
        plt.axes = axes[3]
        serie = Plot.plot(bmt, disp, r'$BM_T$')
        serie.line.set_linestyle('-')
        serie.line.set_linewidth(2.0)
        serie.line.set_color((0.2, 0.8, 0.2))
        Plot.xlabel(r'$BM_T \; \left[ \mathrm{m} \right]$')
        plt.axes.xaxis.label.set_fontsize(15)
        plt.axes.yaxis.label.set_fontsize(15)

        Plot.legend(True)
        plt.update()
        return False
Example #5
0
    def plot(self, l, z, v, tank):
        """ Perform the areas curve plot.
        @param l Percentages of filling level.
        @param z Level z coordinates.
        @param v Volume of fluid.
        @param tank Active tank instance.
        @return True if error happens.
        """
        try:
            from freecad.plot import Plot
            plt = Plot.figure('Capacity curve')
        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

        # Plot the volume as a function of the level percentage
        vols = Plot.plot(l, v, 'Capacity')
        vols.line.set_linestyle('-')
        vols.line.set_linewidth(2.0)
        vols.line.set_color((0.0, 0.0, 0.0))
        Plot.xlabel(r'$\mathrm{level}$')
        Plot.ylabel(r'$V \; [\mathrm{m}^3]$')
        plt.axes.xaxis.label.set_fontsize(20)
        plt.axes.yaxis.label.set_fontsize(20)
        Plot.grid(True)

        # Special percentage formatter for the x axis
        fmt = '%.0f%%'
        xticks = mtick.FormatStrFormatter(fmt)
        plt.axes.xaxis.set_major_formatter(xticks)

        # Now duplicate the axes
        ax = Plot.addNewAxes()
        # Y axis can be placed at right
        ax.yaxis.tick_right()
        ax.spines['right'].set_color((0.0, 0.0, 0.0))
        ax.spines['left'].set_color('none')
        ax.yaxis.set_ticks_position('right')
        ax.yaxis.set_label_position('right')
        # And X axis can be placed at top
        ax.xaxis.tick_top()
        ax.spines['top'].set_color((0.0, 0.0, 1.0))
        ax.spines['bottom'].set_color('none')
        ax.xaxis.set_ticks_position('top')
        ax.xaxis.set_label_position('top')

        # Plot the volume as a function of the level z coordinate
        vols = Plot.plot(z, v, 'level')
        vols.line.set_linestyle('-')
        vols.line.set_linewidth(2.0)
        vols.line.set_color((0.0, 0.0, 1.0))
        Plot.xlabel(r'$z \; [\mathrm{m}]$')
        Plot.ylabel(r'$V \; [\mathrm{m}^3]$')
        ax.xaxis.label.set_fontsize(20)
        ax.yaxis.label.set_fontsize(20)
        ax.xaxis.label.set_color((0.0, 0.0, 1.0))
        ax.tick_params(axis='x', colors=(0.0, 0.0, 1.0))
        Plot.grid(True)

        # End
        plt.update()
        return False