示例#1
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    def __init__(self, glider_3d, config=None):
        self.glider_3d = glider_3d
        self.config = self.DefaultConfig(config)

        self.panels = Layout()
        self.dribs = collections.OrderedDict()
        self.straps = collections.OrderedDict()
        self.ribs = []
        self._cellplotmakers = dict()
示例#2
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    def _repr_svg_(self):
        da = Layout()
        for cell_no in range(self.cell_no):
            points = [
                self.get_point(cell_no, 0),
                self.get_point(cell_no, 1),
                self.get_point(cell_no + 1, 1),
                self.get_point(cell_no + 1, 0)
            ]
            points.append(points[0])
            da.parts.append(PlotPart(marks=[points]))

        return da._repr_svg_()
示例#3
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    def get_all_grouped(self):
        # create x-raster
        for rib in self.ribs:
            rib.rotate(90, radians=False)

        panels = self.panels
        ribs = Layout.stack_row(self.ribs, self.config.patterns_align_dist_x)
        dribs = Layout.stack_row(self.dribs.values(),
                                 self.config.patterns_align_dist_x)
        straps = Layout.stack_row(self.straps.values(),
                                  self.config.patterns_align_dist_x)

        panels_grouped = panels.copy().group_materials()
        ribs_grouped = ribs.group_materials()
        dribs_grouped = dribs.group_materials()
        straps_grouped = straps.group_materials()

        panels_border = panels.draw_border(append=False)
        ribs_border = ribs.draw_border(append=False)
        dribs_border = dribs.draw_border(append=False)
        straps_border = straps.draw_border(append=False)

        for material_name, layout in panels_grouped.items():
            layout.parts.append(panels_border.copy())
            layout.add_text("panels_" + material_name)

        for material_name, layout in ribs_grouped.items():
            layout.parts.append(ribs_border.copy())
            layout.add_text("ribs_" + material_name)

        for material_name, layout in dribs_grouped.items():
            layout.parts.append(dribs_border.copy())
            layout.add_text("dribs_" + material_name)

        for material_name, layout in straps_grouped.items():
            layout.parts.append(straps_border.copy())
            layout.add_text("straps_" + material_name)

        panels.add_text("panels_all")

        all_layouts = [panels]
        all_layouts += panels_grouped.values()
        all_layouts += ribs_grouped.values()
        all_layouts += dribs_grouped.values()
        all_layouts += straps_grouped.values()

        return Layout.stack_column(all_layouts, 0.01, center_x=False)
示例#4
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    def get_panels(self):
        self.panels.clear()
        panels_upper = []
        panels_lower = []
        panels = []

        for cell in self.glider_3d.cells:
            pm = self._get_cellplotmaker(cell)
            lower = pm.get_panels_lower()
            upper = pm.get_panels_upper()
            panels_lower.append(lower)
            panels_upper.append(upper)
            panels.append([])

        if self.config.layout_seperate_panels:
            layout_lower = Layout.stack_row(panels_lower,
                                            self.config.patterns_align_dist_x)
            layout_lower.rotate(180, radians=False)
            layout_upper = Layout.stack_row(panels_upper,
                                            self.config.patterns_align_dist_x)

            self.panels = Layout.stack_row([layout_lower, layout_upper],
                                           2 *
                                           self.config.patterns_align_dist_x,
                                           draw_grid=True)

        else:
            height = 0

            for cell in self.glider_3d.cells:
                lower = self._get_cellplotmaker(cell).get_panels_lower()
                #lower.rotate(180, radians=False)
                upper = self._get_cellplotmaker(cell).get_panels_upper()
                height = max(height, lower.height)
                panels_lower.append(lower)
                panels_upper.append(upper)
                print("jodolo")

            height += self.config.patterns_align_dist_y

            self.panels = Layout.stack_grid([panels_upper, panels_lower],
                                            self.config.patterns_align_dist_x,
                                            self.config.patterns_align_dist_y)

        return self.panels
示例#5
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 def get_all_parts(self):
     parts = []
     for cell in self.panels.values():
         parts += [p.copy() for p in cell]
     for rib in self.ribs:
         parts.append(rib.copy())
     for dribs in self.dribs.values():
         parts += [p.copy() for p in dribs]
     return Layout(parts)
示例#6
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 def __init__(self, glider_2d, glider_3d=None, drawing=None):
     super(ShapePlot, self).__init__()
     self.glider_2d = glider_2d
     self.glider_3d = glider_3d or glider_2d.get_glider_3d()
     self.drawing = drawing or Layout()
示例#7
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    def unwrap(self, outdir, glider=None):
        def fn(filename):
            return os.path.join(outdir, filename)

        subprocess.call("mkdir -p {}".format(outdir), shell=True)

        if self.config.profile_numpoints:
            self.glider_2d.num_profile = self.config.profile_numpoints

        glider = glider or self.glider_2d.get_glider_3d()

        drawings = self._get_sketches(outdir, glider)

        if self.config.complete_glider:
            glider_complete = glider.copy_complete()
            glider_complete.rename_parts()
            plots = PlotMaker(glider_complete, config=self.config)
            glider_complete.lineset.iterate_target_length()
        else:
            plots = PlotMaker(glider, config=self.config)
            glider.lineset.iterate_target_length()
            
        plots.unwrap()
        all_patterns = plots.get_all_grouped()

        # with open(fn("patterns.json"), "w") as outfile:
        #     jsonify.dump(plots, outfile)

        designs = Layout.stack_column(drawings, self.config.patterns_align_dist_y)
        all_patterns.append_left(designs, distance=self.config.patterns_align_dist_x*2)

        print("export patterns")

        all_patterns.scale(1000)
        all_patterns.export_svg(fn("plots_all.svg"))
        all_patterns.export_dxf(fn("plots_all_dxf2000.dxf"))
        all_patterns.export_dxf(fn("plots_all_dxf2007.dxf"), "AC1021")
        all_patterns.export_ntv(fn("plots_all.ntv"))



        # ribs = packer.pack_parts(parts["ribs"].parts, sheet_size=sheet_size)
        # panels = packer.pack_parts(parts["panels"].parts, sheet_size=sheet_size)

        # for sheet_no, sheet in enumerate(ribs):
        #     openglider.plots.create_svg(sheet, fn("ribs_{}".format(sheet_no)))
        # for sheet_no, sheet in enumerate(panels):
        #     openglider.plots.create_svg(sheet, fn("panels_{}".format(sheet_no)))

        # sketches = openglider.plots.sketches.get_all_plots(self.glider_2d, glider)
        #
        # for sketch_name in ("design_upper", "design_lower"):
        #     sketch = sketches.pop(sketch_name)
        #     sketch.drawing.scale_a4()
        #     sketch.drawing.export_svg(fn(sketch_name+".svg"), add_styles=True)
        #
        # for sketch_name, sketch in sketches.items():
        #     sketch.drawing.scale_a4()
        #     sketch.drawing.export_svg(fn(sketch_name+".svg"), add_styles=False)

        print("output spreadsheets")
        excel = openglider.plots.spreadsheets.get_glider_data(glider)
        excel.saveas(os.path.join(outdir, "data.ods"))
示例#8
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class PlotMaker(object):
    CellPlotMaker = CellPlotMaker
    RibPlot = RibPlot
    DefaultConfig = OtherPatternConfig

    def __init__(self, glider_3d, config=None):
        self.glider_3d = glider_3d
        self.config = self.DefaultConfig(config)

        self.panels = Layout()
        self.dribs = collections.OrderedDict()
        self.straps = collections.OrderedDict()
        self.ribs = []
        self._cellplotmakers = dict()

    def __json__(self):
        return {
            "glider3d": self.glider_3d,
            "config": self.config,
            "panels": self.panels,
            #"dribs": self.dribs,
            "ribs": self.ribs
        }

    @classmethod
    def __from_json__(cls, dct):
        ding = cls(dct["glider3d"], dct["config"])
        ding.panels = dct["panels"]
        ding.ribs = dct["ribs"]
        # ding.dribs = dct["dribs"]

        return ding

    def _get_cellplotmaker(self, cell):
        if cell not in self._cellplotmakers:
            self._cellplotmakers[cell] = self.CellPlotMaker(
                cell, self.glider_3d.attachment_points, self.config)

        return self._cellplotmakers[cell]

    def get_panels(self):
        self.panels.clear()
        panels_upper = []
        panels_lower = []
        panels = []

        for cell in self.glider_3d.cells:
            pm = self._get_cellplotmaker(cell)
            lower = pm.get_panels_lower()
            upper = pm.get_panels_upper()
            panels_lower.append(lower)
            panels_upper.append(upper)
            panels.append([])

        if self.config.layout_seperate_panels:
            layout_lower = Layout.stack_row(panels_lower,
                                            self.config.patterns_align_dist_x)
            layout_lower.rotate(180, radians=False)
            layout_upper = Layout.stack_row(panels_upper,
                                            self.config.patterns_align_dist_x)

            self.panels = Layout.stack_row([layout_lower, layout_upper],
                                           2 *
                                           self.config.patterns_align_dist_x,
                                           draw_grid=True)

        else:
            height = 0

            for cell in self.glider_3d.cells:
                lower = self._get_cellplotmaker(cell).get_panels_lower()
                #lower.rotate(180, radians=False)
                upper = self._get_cellplotmaker(cell).get_panels_upper()
                height = max(height, lower.height)
                panels_lower.append(lower)
                panels_upper.append(upper)
                print("jodolo")

            height += self.config.patterns_align_dist_y

            self.panels = Layout.stack_grid([panels_upper, panels_lower],
                                            self.config.patterns_align_dist_x,
                                            self.config.patterns_align_dist_y)

        return self.panels

    def get_ribs(self, rotate=False):
        from openglider.glider.rib.rib import SingleSkinRib
        self.ribs = []
        for rib in self.glider_3d.ribs:
            if isinstance(rib, SingleSkinRib):
                rib_plot = SingleSkinRibPlot(rib)
            else:
                rib_plot = RibPlot(rib, self.config)

            rib_plot.flatten(self.glider_3d)
            if rotate:
                rib_plot.plotpart.rotate(90, radians=False)
            self.ribs.append(rib_plot.plotpart)

    def get_dribs(self):
        self.dribs.clear()
        for cell in self.glider_3d.cells:
            # missing attachmentpoints []
            dribs = self._get_cellplotmaker(cell).get_dribs()
            self.dribs[cell] = dribs

        return self.dribs

    def get_straps(self):
        self.straps.clear()
        for cell in self.glider_3d.cells:
            # missing attachmentpoints []
            straps = self._get_cellplotmaker(cell).get_straps()
            self.straps[cell] = straps

        return self.straps

    def get_all_grouped(self):
        # create x-raster
        for rib in self.ribs:
            rib.rotate(90, radians=False)

        panels = self.panels
        ribs = Layout.stack_row(self.ribs, self.config.patterns_align_dist_x)
        dribs = Layout.stack_row(self.dribs.values(),
                                 self.config.patterns_align_dist_x)
        straps = Layout.stack_row(self.straps.values(),
                                  self.config.patterns_align_dist_x)

        panels_grouped = panels.copy().group_materials()
        ribs_grouped = ribs.group_materials()
        dribs_grouped = dribs.group_materials()
        straps_grouped = straps.group_materials()

        panels_border = panels.draw_border(append=False)
        ribs_border = ribs.draw_border(append=False)
        dribs_border = dribs.draw_border(append=False)
        straps_border = straps.draw_border(append=False)

        for material_name, layout in panels_grouped.items():
            layout.parts.append(panels_border.copy())
            layout.add_text("panels_" + material_name)

        for material_name, layout in ribs_grouped.items():
            layout.parts.append(ribs_border.copy())
            layout.add_text("ribs_" + material_name)

        for material_name, layout in dribs_grouped.items():
            layout.parts.append(dribs_border.copy())
            layout.add_text("dribs_" + material_name)

        for material_name, layout in straps_grouped.items():
            layout.parts.append(straps_border.copy())
            layout.add_text("straps_" + material_name)

        panels.add_text("panels_all")

        all_layouts = [panels]
        all_layouts += panels_grouped.values()
        all_layouts += ribs_grouped.values()
        all_layouts += dribs_grouped.values()
        all_layouts += straps_grouped.values()

        return Layout.stack_column(all_layouts, 0.01, center_x=False)

    def unwrap(self):
        self.get_panels()
        self.get_ribs()
        self.get_dribs()
        self.get_straps()
        return self

    def get_all_parts(self):
        parts = []
        for cell in self.panels.values():
            parts += [p.copy() for p in cell]
        for rib in self.ribs:
            parts.append(rib.copy())
        for dribs in self.dribs.values():
            parts += [p.copy() for p in dribs]
        return Layout(parts)