Exemplo n.º 1
0
def read_step_file_with_names_colors(filename):
    """ Returns list of tuples (topods_shape, label, color)
    Use OCAF.
    """
    if not os.path.isfile(filename):
        raise FileNotFoundError("%s not found." % filename)
    # the list:
    output_shapes = {}

    # create an handle to a document
    doc = TDocStd_Document(TCollection_ExtendedString("pythonocc-doc"))

    # Get root assembly
    shape_tool = XCAFDoc_DocumentTool_ShapeTool(doc.Main())
    color_tool = XCAFDoc_DocumentTool_ColorTool(doc.Main())
    #layer_tool = XCAFDoc_DocumentTool_LayerTool(doc.Main())
    #mat_tool = XCAFDoc_DocumentTool_MaterialTool(doc.Main())

    step_reader = STEPCAFControl_Reader()
    step_reader.SetColorMode(True)
    step_reader.SetLayerMode(True)
    step_reader.SetNameMode(True)
    step_reader.SetMatMode(True)
    step_reader.SetGDTMode(True)

    status = step_reader.ReadFile(filename)
    if status == IFSelect_RetDone:
        step_reader.Transfer(doc)

    locs = []

    def _get_sub_shapes(lab, loc):
        #global cnt, lvl
        #cnt += 1
        #print("\n[%d] level %d, handling LABEL %s\n" % (cnt, lvl, _get_label_name(lab)))
        #print()
        #print(lab.DumpToString())
        #print()
        #print("Is Assembly    :", shape_tool.IsAssembly(lab))
        #print("Is Free        :", shape_tool.IsFree(lab))
        #print("Is Shape       :", shape_tool.IsShape(lab))
        #print("Is Compound    :", shape_tool.IsCompound(lab))
        #print("Is Component   :", shape_tool.IsComponent(lab))
        #print("Is SimpleShape :", shape_tool.IsSimpleShape(lab))
        #print("Is Reference   :", shape_tool.IsReference(lab))

        #users = TDF_LabelSequence()
        #users_cnt = shape_tool.GetUsers(lab, users)
        #print("Nr Users       :", users_cnt)

        l_subss = TDF_LabelSequence()
        shape_tool.GetSubShapes(lab, l_subss)
        #print("Nb subshapes   :", l_subss.Length())
        l_comps = TDF_LabelSequence()
        shape_tool.GetComponents(lab, l_comps)
        #print("Nb components  :", l_comps.Length())
        #print()
        name = lab.GetLabelName()
        print("Name :", name)

        if shape_tool.IsAssembly(lab):
            l_c = TDF_LabelSequence()
            shape_tool.GetComponents(lab, l_c)
            for i in range(l_c.Length()):
                label = l_c.Value(i + 1)
                if shape_tool.IsReference(label):
                    #print("\n########  reference label :", label)
                    label_reference = TDF_Label()
                    shape_tool.GetReferredShape(label, label_reference)
                    loc = shape_tool.GetLocation(label)
                    #print("    loc          :", loc)
                    #trans = loc.Transformation()
                    #print("    tran form    :", trans.Form())
                    #rot = trans.GetRotation()
                    #print("    rotation     :", rot)
                    #print("    X            :", rot.X())
                    #print("    Y            :", rot.Y())
                    #print("    Z            :", rot.Z())
                    #print("    W            :", rot.W())
                    #tran = trans.TranslationPart()
                    #print("    translation  :", tran)
                    #print("    X            :", tran.X())
                    #print("    Y            :", tran.Y())
                    #print("    Z            :", tran.Z())

                    locs.append(loc)
                    #print(">>>>")
                    #lvl += 1
                    _get_sub_shapes(label_reference, loc)
                    #lvl -= 1
                    #print("<<<<")
                    locs.pop()

        elif shape_tool.IsSimpleShape(lab):
            #print("\n########  simpleshape label :", lab)
            shape = shape_tool.GetShape(lab)
            #print("    all ass locs   :", locs)

            loc = TopLoc_Location()
            for l in locs:
                #print("    take loc       :", l)
                loc = loc.Multiplied(l)

            #trans = loc.Transformation()
            #print("    FINAL loc    :")
            #print("    tran form    :", trans.Form())
            #rot = trans.GetRotation()
            #print("    rotation     :", rot)
            #print("    X            :", rot.X())
            #print("    Y            :", rot.Y())
            #print("    Z            :", rot.Z())
            #print("    W            :", rot.W())
            #tran = trans.TranslationPart()
            #print("    translation  :", tran)
            #print("    X            :", tran.X())
            #print("    Y            :", tran.Y())
            #print("    Z            :", tran.Z())
            c = Quantity_Color(0.5, 0.5, 0.5,
                               Quantity_TOC_RGB)  # default color
            colorSet = False
            if (color_tool.GetInstanceColor(shape, 0, c)
                    or color_tool.GetInstanceColor(shape, 1, c)
                    or color_tool.GetInstanceColor(shape, 2, c)):
                color_tool.SetInstanceColor(shape, 0, c)
                color_tool.SetInstanceColor(shape, 1, c)
                color_tool.SetInstanceColor(shape, 2, c)
                colorSet = True
                n = c.Name(c.Red(), c.Green(), c.Blue())
                print('    instance color Name & RGB: ', c, n, c.Red(),
                      c.Green(), c.Blue())

            if not colorSet:
                if (color_tool.GetColor(lab, 0, c)
                        or color_tool.GetColor(lab, 1, c)
                        or color_tool.GetColor(lab, 2, c)):

                    color_tool.SetInstanceColor(shape, 0, c)
                    color_tool.SetInstanceColor(shape, 1, c)
                    color_tool.SetInstanceColor(shape, 2, c)

                    n = c.Name(c.Red(), c.Green(), c.Blue())
                    print('    shape color Name & RGB: ', c, n, c.Red(),
                          c.Green(), c.Blue())

            shape_disp = BRepBuilderAPI_Transform(
                shape, loc.Transformation()).Shape()
            if not shape_disp in output_shapes:
                output_shapes[shape_disp] = [lab.GetLabelName(), c]
            for i in range(l_subss.Length()):
                lab_subs = l_subss.Value(i + 1)
                #print("\n########  simpleshape subshape label :", lab)
                shape_sub = shape_tool.GetShape(lab_subs)

                c = Quantity_Color(0.5, 0.5, 0.5,
                                   Quantity_TOC_RGB)  # default color
                colorSet = False
                if (color_tool.GetInstanceColor(shape_sub, 0, c)
                        or color_tool.GetInstanceColor(shape_sub, 1, c)
                        or color_tool.GetInstanceColor(shape_sub, 2, c)):
                    color_tool.SetInstanceColor(shape_sub, 0, c)
                    color_tool.SetInstanceColor(shape_sub, 1, c)
                    color_tool.SetInstanceColor(shape_sub, 2, c)
                    colorSet = True
                    n = c.Name(c.Red(), c.Green(), c.Blue())
                    print('    instance color Name & RGB: ', c, n, c.Red(),
                          c.Green(), c.Blue())

                if not colorSet:
                    if (color_tool.GetColor(lab_subs, 0, c)
                            or color_tool.GetColor(lab_subs, 1, c)
                            or color_tool.GetColor(lab_subs, 2, c)):
                        color_tool.SetInstanceColor(shape, 0, c)
                        color_tool.SetInstanceColor(shape, 1, c)
                        color_tool.SetInstanceColor(shape, 2, c)

                        n = c.Name(c.Red(), c.Green(), c.Blue())
                        print('    shape color Name & RGB: ', c, n, c.Red(),
                              c.Green(), c.Blue())
                shape_to_disp = BRepBuilderAPI_Transform(
                    shape_sub, loc.Transformation()).Shape()
                # position the subshape to display
                if not shape_to_disp in output_shapes:
                    output_shapes[shape_to_disp] = [lab_subs.GetLabelName(), c]

    def _get_shapes():
        labels = TDF_LabelSequence()
        shape_tool.GetFreeShapes(labels)
        #global cnt
        #cnt += 1

        print()
        print("Number of shapes at root :", labels.Length())
        print()
        for i in range(labels.Length()):
            root_item = labels.Value(i + 1)
            _get_sub_shapes(root_item, None)

    _get_shapes()
    return output_shapes
Exemplo n.º 2
0
    def OCC_read_file(self, filename):
        #######################################################################
        ## HR 14/7/20
        ## All python-occ intialisation for 3D view
        ## Adapted from src/Extend/DataExchange.py script from python-occ, here:
        ## https://github.com/tpaviot/pythonocc-core

        # Changed to odict to allow direct mapping to step_dict (see later)
        output_shapes = odict()

        # Create an handle to a document
        doc = TDocStd_Document(TCollection_ExtendedString("pythonocc-doc"))

        # Get root assembly
        shape_tool = XCAFDoc_DocumentTool_ShapeTool(doc.Main())
        color_tool = XCAFDoc_DocumentTool_ColorTool(doc.Main())
        #layer_tool = XCAFDoc_DocumentTool_LayerTool(doc.Main())
        #mat_tool = XCAFDoc_DocumentTool_MaterialTool(doc.Main())

        step_reader = STEPCAFControl_Reader()
        step_reader.SetColorMode(True)
        step_reader.SetLayerMode(True)
        step_reader.SetNameMode(True)
        step_reader.SetMatMode(True)
        step_reader.SetGDTMode(True)

        status = step_reader.ReadFile(filename)
        if status == IFSelect_RetDone:
            step_reader.Transfer(doc)
            print('Transfer done')

        locs = []

        def _get_sub_shapes(lab, loc):

            l_subss = TDF_LabelSequence()
            shape_tool.GetSubShapes(lab, l_subss)
            #print("Nb subshapes   :", l_subss.Length())
            l_comps = TDF_LabelSequence()
            shape_tool.GetComponents(lab, l_comps)
            #print("Nb components  :", l_comps.Length())
            #print()
            name = lab.GetLabelName()
            print("Name :", name)

            if shape_tool.IsAssembly(lab):
                l_c = TDF_LabelSequence()
                shape_tool.GetComponents(lab, l_c)
                for i in range(l_c.Length()):
                    label = l_c.Value(i + 1)
                    if shape_tool.IsReference(label):
                        label_reference = TDF_Label()
                        shape_tool.GetReferredShape(label, label_reference)
                        loc = shape_tool.GetLocation(label)

                        locs.append(loc)
                        _get_sub_shapes(label_reference, loc)
                        locs.pop()

            elif shape_tool.IsSimpleShape(lab):
                shape = shape_tool.GetShape(lab)

                loc = TopLoc_Location()
                for l in locs:
                    loc = loc.Multiplied(l)

                c = Quantity_Color(0.5, 0.5, 0.5,
                                   Quantity_TOC_RGB)  # default color
                colorSet = False
                if (color_tool.GetInstanceColor(shape, 0, c)
                        or color_tool.GetInstanceColor(shape, 1, c)
                        or color_tool.GetInstanceColor(shape, 2, c)):
                    color_tool.SetInstanceColor(shape, 0, c)
                    color_tool.SetInstanceColor(shape, 1, c)
                    color_tool.SetInstanceColor(shape, 2, c)
                    colorSet = True
                    n = c.Name(c.Red(), c.Green(), c.Blue())
                    print('    Instance color Name & RGB: ', c, n, c.Red(),
                          c.Green(), c.Blue())

                if not colorSet:
                    if (color_tool.GetColor(lab, 0, c)
                            or color_tool.GetColor(lab, 1, c)
                            or color_tool.GetColor(lab, 2, c)):
                        color_tool.SetInstanceColor(shape, 0, c)
                        color_tool.SetInstanceColor(shape, 1, c)
                        color_tool.SetInstanceColor(shape, 2, c)

                        n = c.Name(c.Red(), c.Green(), c.Blue())
                        print('    Shape color Name & RGB: ', c, n, c.Red(),
                              c.Green(), c.Blue())

                shape_disp = BRepBuilderAPI_Transform(
                    shape, loc.Transformation()).Shape()
                if not shape_disp in output_shapes:
                    output_shapes[shape_disp] = [lab.GetLabelName(), c]

                for i in range(l_subss.Length()):
                    lab_subs = l_subss.Value(i + 1)
                    shape_sub = shape_tool.GetShape(lab_subs)

                    c = Quantity_Color(0.5, 0.5, 0.5,
                                       Quantity_TOC_RGB)  # default color
                    colorSet = False
                    if (color_tool.GetInstanceColor(shape_sub, 0, c)
                            or color_tool.GetInstanceColor(shape_sub, 1, c)
                            or color_tool.GetInstanceColor(shape_sub, 2, c)):
                        color_tool.SetInstanceColor(shape_sub, 0, c)
                        color_tool.SetInstanceColor(shape_sub, 1, c)
                        color_tool.SetInstanceColor(shape_sub, 2, c)
                        colorSet = True
                        n = c.Name(c.Red(), c.Green(), c.Blue())
                        print('    Instance color Name & RGB: ', c, n, c.Red(),
                              c.Green(), c.Blue())

                    if not colorSet:
                        if (color_tool.GetColor(lab_subs, 0, c)
                                or color_tool.GetColor(lab_subs, 1, c)
                                or color_tool.GetColor(lab_subs, 2, c)):
                            color_tool.SetInstanceColor(shape, 0, c)
                            color_tool.SetInstanceColor(shape, 1, c)
                            color_tool.SetInstanceColor(shape, 2, c)

                            n = c.Name(c.Red(), c.Green(), c.Blue())
                            print('    Shape color Name & RGB: ', c, n,
                                  c.Red(), c.Green(), c.Blue())
                    shape_to_disp = BRepBuilderAPI_Transform(
                        shape_sub, loc.Transformation()).Shape()

                    # position the subshape to display
                    if not shape_to_disp in output_shapes:
                        output_shapes[shape_to_disp] = [
                            lab_subs.GetLabelName(), c
                        ]

        def _get_shapes():
            labels = TDF_LabelSequence()
            shape_tool.GetFreeShapes(labels)

            print("Number of shapes at root: ", labels.Length())
            for i in range(labels.Length()):
                root_item = labels.Value(i + 1)
                print('Root item: ', root_item)
                _get_sub_shapes(root_item, None)

        # HR 15/7/20
        #
        # Want to link existing node IDs from create_tree() with OCC
        # First try: assume file-read order is same for both...
        # ...and also OCC only gets "simple parts", i.e. leaves...
        # ...which is corrected for below
        #
        # MUST CORRECT IN FUTURE TO BE SINGLE FILE-READ METHOD...
        # ...FOR BOTH GRAPH AND OCC/SHAPE DATA

        _get_shapes()
        self.shapes = output_shapes
        # return self.output_shapes
        # Get all TopoDS_Solid objects in OCC dict
        OCC_list = [
            k for k in self.shapes.keys() if type(k) in self.topo_types
        ]
        # Get all leaves in step_dict (could also just get list from leaves method)
        tree_list = [k for k in self.step_dict.keys() if k in self.leaves]

        # Map master IDs to OCC objects
        self.OCC_dict = dict(zip(tree_list, OCC_list))