Пример #1
0
def add_common_door_prompts(assembly):
    if assembly.door_type == 'BASE':
        door_type = 0
    if assembly.door_type == 'TALL':
        door_type = 1
    if assembly.door_type == 'UPPER':
        door_type = 2

    assembly.add_prompt(name="Door Thickness",
                        prompt_type='DISTANCE',
                        value=unit.inch(.75),
                        tab_index=1)
    assembly.add_prompt(name="Pull Location",
                        prompt_type='COMBOBOX',
                        items=['BASE', 'TALL', 'UPPER'],
                        value=door_type,
                        tab_index=1,
                        columns=3)
    assembly.add_prompt(name="Pull From Edge",
                        prompt_type='DISTANCE',
                        value=unit.inch(1.5),
                        tab_index=0)
    assembly.add_prompt(name="Pull From Top",
                        prompt_type='DISTANCE',
                        value=unit.inch(1.5),
                        tab_index=0)
    assembly.add_prompt(name="Pull From Bottom",
                        prompt_type='DISTANCE',
                        value=unit.inch(1.5),
                        tab_index=0)
    assembly.add_prompt(name="Pull From Floor",
                        prompt_type='DISTANCE',
                        value=unit.inch(40),
                        tab_index=0)
Пример #2
0
 def draw(self):
     self.create_assembly()
     ass_obj = self.add_object(file_path = self.appliance_path)
     ass_obj.set_name(get_file_name(self.appliance_path))
     self.obj_x.empty_draw_size = unit.inch(1)
     self.obj_y.empty_draw_size = unit.inch(1)
     self.obj_z.empty_draw_size = unit.inch(1)      
Пример #3
0
 def position_wall(self,p):
     x = p[0] - self.starting_point[0]
     y = p[1] - self.starting_point[1]
     
     if math.fabs(x) > math.fabs(y):
         if x > 0:
             self.wall.obj_bp.rotation_euler.z = math.radians(0)
         else:
             self.wall.obj_bp.rotation_euler.z = math.radians(180)
         if self.typed_value == "":
             self.wall.obj_x.location.x = math.fabs(x)
         else:
             value = eval(self.typed_value)
             if bpy.context.scene.unit_settings.system == 'METRIC':
                 self.wall.obj_x.location.x = unit.millimeter(float(value))
             else:
                 self.wall.obj_x.location.x = unit.inch(float(value))
         
     if math.fabs(y) > math.fabs(x):
         if y > 0:
             self.wall.obj_bp.rotation_euler.z = math.radians(90)
         else:
             self.wall.obj_bp.rotation_euler.z = math.radians(-90)
         if self.typed_value == "":
             self.wall.obj_x.location.x = math.fabs(y)
         else:
             value = eval(self.typed_value)
             if bpy.context.scene.unit_settings.system == 'METRIC':
                 self.wall.obj_x.location.x = unit.millimeter(float(value))
             else:
                 self.wall.obj_x.location.x = unit.inch(float(value))
Пример #4
0
 def __init__(self):
     self.category_name = "Appliances"
     self.assembly_name = "Refrigerator"
     self.width = unit.inch(36)
     self.height = unit.inch(84)
     self.depth = unit.inch(27)
     self.appliance_path = os.path.join(WALL_APPLIANCE_PATH,"Professional Refrigerator Generic.blend")
Пример #5
0
 def __init__(self):
     self.category_name = "Appliances"
     self.assembly_name = "Range"
     self.width = unit.inch(30)
     self.height = unit.inch(42)
     self.depth = unit.inch(28)
     self.appliance_path = os.path.join(WALL_APPLIANCE_PATH,"Professional Gas Range Generic.blend")
Пример #6
0
def add_corner_carcass_with_base_assembly(product,cabinet_type="Base",pie_cut=True):
    product.add_prompt(name="Left Cabinet Depth",prompt_type='DISTANCE',value=unit.inch(24),tab_index=0)
    product.add_prompt(name="Right Cabinet Depth",prompt_type='DISTANCE',value=unit.inch(24),tab_index=0)
    product.add_prompt(name="Base Inset Rear Left",prompt_type='CHECKBOX',value= False,tab_index=0)
    product.add_prompt(name="Base Inset Rear Right",prompt_type='CHECKBOX',value= False,tab_index=0)
    
    Product_Width = product.get_var('dim_x','Product_Width')
    Product_Height = product.get_var('dim_z','Product_Height')
    Product_Depth = product.get_var('dim_y','Product_Depth')    
    Toe_Kick_Height = product.get_var('Toe Kick Height')  
    Toe_Kick_Setback = product.get_var('Toe Kick Setback')  
    Base_Inset_Front = product.get_var('Base Inset Front')  
    Base_Inset_Left = product.get_var('Base Inset Left')  
    Base_Inset_Right = product.get_var('Base Inset Right')  
    Left_Cabinet_Depth = product.get_var('Left Cabinet Depth')  
    Right_Cabinet_Depth = product.get_var('Right Cabinet Depth')  
    Base_Inset_Rear_Left = product.get_var('Base Inset Rear Left')  
    Base_Inset_Rear_Right = product.get_var('Base Inset Rear Right')  
    
    carcass = product.add_assembly(PIE_CUT_CORNER_CARCASS if pie_cut else DIAGONAL_CORNER_CARCASS)
    carcass.x_loc(value = 0)
    carcass.y_loc(value = 0)
    if cabinet_type == "Base":
        carcass.z_loc('Toe_Kick_Height',[Toe_Kick_Height])
    if cabinet_type == "Upper":
        carcass.z_loc('Product_Height',[Product_Height])
    carcass.x_rot(value = 0)
    carcass.y_rot(value = 0)
    carcass.z_rot(value = 0)
    carcass.x_dim('Product_Width',[Product_Width])
    carcass.y_dim('Product_Depth',[Product_Depth])
    if cabinet_type == "Base":
        carcass.z_dim('Product_Height-Toe_Kick_Height',[Product_Height,Toe_Kick_Height])
    if cabinet_type == "Upper":
        carcass.z_dim('fabs(Product_Height)',[Product_Height])
    carcass.set_material_pointers(EXPOSED_EXTERIOR_SURFACE,EXTERIOR)
    carcass.set_material_pointers(EXPOSED_INTERIOR_SURFACE,INTERIOR)
    carcass.set_material_pointers(EXPOSED_EXTERIOR_SURFACE,LEFT_EXTERIOR)
    carcass.set_material_pointers(EXPOSED_EXTERIOR_SURFACE,RIGHT_EXTERIOR)
    carcass.set_material_pointers(EXPOSED_EXTERIOR_EDGE,EDGES)
    carcass.prompt('Left Depth','Left_Cabinet_Depth',[Left_Cabinet_Depth])
    carcass.prompt('Right Depth','Right_Cabinet_Depth',[Right_Cabinet_Depth])
    
    if cabinet_type == "Base":
        base_assembly = product.add_assembly(PIE_CUT_BASE_ASSEMBLY if pie_cut else DIAGONAL_BASE_ASSEMBLY)
        base_assembly.x_loc('IF(Base_Inset_Rear_Left,Toe_Kick_Setback,0)',[Base_Inset_Rear_Left,Toe_Kick_Setback])
        base_assembly.y_loc('IF(Base_Inset_Rear_Right,-Toe_Kick_Setback,0)',[Base_Inset_Rear_Right,Toe_Kick_Setback])
        base_assembly.z_loc(value = 0)
        base_assembly.x_rot(value = 0)
        base_assembly.y_rot(value = 0)
        base_assembly.z_rot(value = 0)
        base_assembly.x_dim('Product_Width-IF(Base_Inset_Rear_Left,Toe_Kick_Setback,0)-IF(Base_Inset_Right,Toe_Kick_Setback,0)',[Product_Width,Base_Inset_Rear_Left,Base_Inset_Right,Toe_Kick_Setback])
        base_assembly.y_dim('Product_Depth+IF(Base_Inset_Rear_Right,Toe_Kick_Setback,0)+IF(Base_Inset_Left,Toe_Kick_Setback,0)',[Product_Depth,Base_Inset_Rear_Right,Base_Inset_Left,Toe_Kick_Setback])
        base_assembly.z_dim('Toe_Kick_Height',[Toe_Kick_Height])
        base_assembly.material("Exposed_Exterior_Surface")
        base_assembly.set_material_pointers(EXPOSED_EXTERIOR_SURFACE,EXTERIOR)
        base_assembly.set_material_pointers(EXPOSED_EXTERIOR_SURFACE,LEFT_EXTERIOR)
        base_assembly.set_material_pointers(EXPOSED_EXTERIOR_SURFACE,RIGHT_EXTERIOR)
        base_assembly.prompt('Left Depth','Left_Cabinet_Depth-IF(Base_Inset_Front,Toe_Kick_Setback,0)-IF(Base_Inset_Rear_Left,Toe_Kick_Setback,0)',[Left_Cabinet_Depth,Base_Inset_Front,Base_Inset_Rear_Left,Toe_Kick_Setback])
        base_assembly.prompt('Right Depth','Right_Cabinet_Depth-IF(Base_Inset_Front,Toe_Kick_Setback,0)-IF(Base_Inset_Rear_Right,Toe_Kick_Setback,0)',[Right_Cabinet_Depth,Base_Inset_Front,Base_Inset_Rear_Right,Toe_Kick_Setback])
Пример #7
0
    def draw_product_size(self, layout):
        row = layout.row()
        box = row.box()
        col = box.column(align=True)

        row1 = col.row(align=True)
        if self.object_has_driver(self.product.obj_x):
            row1.label(
                'Width: ' +
                str(unit.inch(math.fabs(self.product.obj_x.location.x))))
        else:
            row1.label('Width:')
            row1.prop(self, 'width', text="")
            row1.prop(self.product.obj_x, 'hide', text="")

        row1 = col.row(align=True)
        if self.object_has_driver(self.product.obj_z):
            row1.label(
                'Height: ' +
                str(unit.inch(math.fabs(self.product.obj_z.location.z))))
        else:
            row1.label('Height:')
            row1.prop(self, 'height', text="")
            row1.prop(self.product.obj_z, 'hide', text="")

        row1 = col.row(align=True)
        if self.object_has_driver(self.product.obj_y):
            row1.label(
                'Depth: ' +
                str(unit.inch(math.fabs(self.product.obj_y.location.y))))
        else:
            row1.label('Depth:')
            row1.prop(self, 'depth', text="")
            row1.prop(self.product.obj_y, 'hide', text="")
Пример #8
0
    def draw_product_size(self,layout):
        row = layout.row()
        box = row.box()
        col = box.column(align=True)

        row1 = col.row(align=True)
        if self.object_has_driver(self.product.obj_x):
            row1.label('Width: ' + str(unit.inch(math.fabs(self.product.obj_x.location.x))))
        else:
            row1.label('Width:')
            row1.prop(self,'width',text="")
            row1.prop(self.product.obj_x,'hide',text="")
        
        row1 = col.row(align=True)
        if self.object_has_driver(self.product.obj_z):
            row1.label('Height: ' + str(unit.inch(math.fabs(self.product.obj_z.location.z))))
        else:
            row1.label('Height:')
            row1.prop(self,'height',text="")
            row1.prop(self.product.obj_z,'hide',text="")
        
        row1 = col.row(align=True)
        if self.object_has_driver(self.product.obj_y):
            row1.label('Depth: ' + str(unit.inch(math.fabs(self.product.obj_y.location.y))))
        else:
            row1.label('Depth:')
            row1.prop(self,'depth',text="")
            row1.prop(self.product.obj_y,'hide',text="")
Пример #9
0
class OPS_add_assembly(Operator):
    bl_idname = "fd_assembly.add_assembly"
    bl_label = "Empty Assembly"
    bl_description = "This operator adds a new empty assembly to the scene."
    bl_options = {'UNDO'}

    assembly_size = FloatVectorProperty(name="Group Size",
                                        default=(unit.inch(24), unit.inch(24),
                                                 unit.inch(24)))

    @classmethod
    def poll(cls, context):
        return True

    def execute(self, context):
        group = fd_types.Assembly()
        group.create_assembly()
        group.obj_x.location.x = self.assembly_size[0]
        group.obj_y.location.y = self.assembly_size[1]
        group.obj_z.location.z = self.assembly_size[2]
        group.build_cage()
        bpy.ops.object.select_all(action='DESELECT')
        group.obj_bp.select = True
        context.scene.objects.active = group.obj_bp
        return {'FINISHED'}
Пример #10
0
    def sink_drop(self, context, event):
        selected_point, selected_obj = utils.get_selection_point(
            context, event)
        bpy.ops.object.select_all(action='DESELECT')
        sel_product_bp = utils.get_bp(selected_obj, 'PRODUCT')
        sel_assembly_bp = utils.get_assembly_bp(selected_obj)

        if sel_product_bp and sel_assembly_bp:
            product = fd_types.Assembly(sel_product_bp)
            if product:
                product_depth = math.fabs(product.obj_y.location.y)
                assembly_depth = math.fabs(self.assembly.obj_y.location.y)
                self.assembly.obj_bp.parent = product.obj_bp
                if product.obj_z.location.z < 0:
                    self.assembly.obj_bp.location.z = unit.inch(
                        1.5)  #SUSPENDED CABINETS
                else:
                    self.assembly.obj_bp.location.z = product.obj_z.location.z + unit.inch(
                        1.5)  #BASE CABINETS
                self.assembly.obj_bp.location.y = -math.fabs(
                    product_depth - assembly_depth) / 2
                self.assembly.obj_bp.location.x = product.obj_x.location.x / 2 - self.assembly.obj_x.location.x / 2

            if event.type == 'LEFTMOUSE' and event.value == 'PRESS':
                self.assign_boolean(selected_obj)
                utils.set_wireframe(self.assembly.obj_bp, False)
                bpy.context.window.cursor_set('DEFAULT')
                bpy.ops.object.select_all(action='DESELECT')
                context.scene.objects.active = self.assembly.obj_bp
                self.assembly.obj_bp.select = True
                return {'FINISHED'}

        return {'RUNNING_MODAL'}
Пример #11
0
    def execute(self, context):
        largest_x = 0
        largest_y = 0
        smallest_x = 0
        smallest_y = 0
        wall_groups = []
        height = 0
        for obj in context.visible_objects:
            if obj.mv.type == 'BPWALL':
                wall_groups.append(fd_types.Wall(obj))

        for group in wall_groups:
            start_point = (group.obj_bp.matrix_world[0][3],
                           group.obj_bp.matrix_world[1][3], 0)
            end_point = (group.obj_x.matrix_world[0][3],
                         group.obj_x.matrix_world[1][3], 0)
            height = group.obj_z.location.z

            if start_point[0] > largest_x:
                largest_x = start_point[0]
            if start_point[1] > largest_y:
                largest_y = start_point[1]
            if start_point[0] < smallest_x:
                smallest_x = start_point[0]
            if start_point[1] < smallest_y:
                smallest_y = start_point[1]
            if end_point[0] > largest_x:
                largest_x = end_point[0]
            if end_point[1] > largest_y:
                largest_y = end_point[1]
            if end_point[0] < smallest_x:
                smallest_x = end_point[0]
            if end_point[1] < smallest_y:
                smallest_y = end_point[1]

        x = (math.fabs(largest_x) - math.fabs(smallest_x)) / 2
        y = (math.fabs(largest_y) - math.fabs(smallest_y)) / 2
        z = height - unit.inch(.01)

        width = math.fabs(smallest_y) + math.fabs(largest_y)
        length = math.fabs(largest_x) + math.fabs(smallest_x)
        if width == 0:
            width = unit.inch(-48)
        if length == 0:
            length = unit.inch(-48)

        bpy.ops.object.lamp_add(type='AREA')
        obj_lamp = context.active_object
        obj_lamp.location.x = x
        obj_lamp.location.y = y
        obj_lamp.location.z = z
        obj_lamp.data.shape = 'RECTANGLE'
        obj_lamp.data.size = length + unit.inch(20)
        obj_lamp.data.size_y = width + unit.inch(20)
        for node in obj_lamp.data.node_tree.nodes:
            if node.type == 'EMISSION':
                node.inputs[1].default_value = max(
                    unit.meter_to_active_unit(largest_x),
                    unit.meter_to_active_unit(largest_y))
        return {'FINISHED'}
Пример #12
0
    def draw(self):
        self.create_assembly()
        assembly = self.add_assembly(file_path=self.appliance_path)
        assembly.set_name(get_file_name(self.appliance_path))
        self.width = assembly.obj_x.location.x
        self.height = assembly.obj_z.location.z
        self.depth = -assembly.obj_y.location.y
        assembly.assign_material("Chrome", MATERIAL_FILE, "Chrome")
        assembly.assign_material("Stainless Steel", MATERIAL_FILE,
                                 "Stainless Steel")
        assembly.assign_material("Black Anodized Metal", MATERIAL_FILE,
                                 "Black Anodized Metal")

        dim_x = self.get_var("dim_x")
        dim_z = self.get_var("dim_z")
        dim_y = self.get_var("dim_y")

        if self.add_countertop:
            self.add_tab(name="Counter Top Options", tab_type='VISIBLE')
            self.add_prompt(name="Countertop Overhang Front",
                            prompt_type='DISTANCE',
                            value=unit.inch(1),
                            tab_index=0)
            self.add_prompt(name="Countertop Overhang Back",
                            prompt_type='DISTANCE',
                            value=unit.inch(0),
                            tab_index=0)
            self.add_prompt(name="Countertop Overhang Left",
                            prompt_type='DISTANCE',
                            value=unit.inch(0),
                            tab_index=0)
            self.add_prompt(name="Countertop Overhang Right",
                            prompt_type='DISTANCE',
                            value=unit.inch(0),
                            tab_index=0)
            Countertop_Overhang_Front = self.get_var(
                'Countertop Overhang Front')
            Countertop_Overhang_Left = self.get_var('Countertop Overhang Left')
            Countertop_Overhang_Right = self.get_var(
                'Countertop Overhang Right')
            Countertop_Overhang_Back = self.get_var('Countertop Overhang Back')

            ctop = cabinet_countertops.PRODUCT_Straight_Countertop()
            ctop.draw()
            ctop.obj_bp.mv.type_group = 'INSERT'
            ctop.obj_bp.parent = self.obj_bp
            ctop.x_loc('-Countertop_Overhang_Left', [Countertop_Overhang_Left])
            ctop.y_loc('Countertop_Overhang_Back', [Countertop_Overhang_Back])
            ctop.z_loc('dim_z', [dim_z])
            ctop.x_rot(value=0)
            ctop.y_rot(value=0)
            ctop.z_rot(value=0)
            ctop.x_dim(
                'dim_x+Countertop_Overhang_Left+Countertop_Overhang_Right',
                [dim_x, Countertop_Overhang_Left, Countertop_Overhang_Right])
            ctop.y_dim(
                'dim_y-Countertop_Overhang_Front-Countertop_Overhang_Back',
                [dim_y, Countertop_Overhang_Front, Countertop_Overhang_Back])
            ctop.z_dim(value=unit.inch(4))
 def __init__(self):
     self.library_name = "Countertops"
     self.category_name = "Countertops"
     self.assembly_name = "Straight Countertop"
     self.width = unit.inch(30)
     self.height = unit.inch(5.5)
     self.depth = unit.inch(24)
     self.height_above_floor = unit.inch(34.1)
Пример #14
0
 def __init__(self):
     self.category_name = "Appliances"
     self.assembly_name = "Dishwasher"
     self.width = unit.inch(24)
     self.height = unit.inch(34)
     self.depth = unit.inch(23)
     self.appliance_path = os.path.join(WALL_APPLIANCE_PATH,"Professional Dishwasher Generic.blend")
     self.add_countertop = True
Пример #15
0
 def __init__(self):
     self.library_name = "Countertops"
     self.category_name = "Countertops"
     self.assembly_name = "Straight Countertop"
     self.width = unit.inch(30)
     self.height = unit.inch(5.5)
     self.depth = unit.inch(24)
     self.height_above_floor = unit.inch(34.1)
Пример #16
0
 def __init__(self):
     self.category_name = "Appliances"
     self.assembly_name = "Range Hood"
     self.width = unit.inch(30)
     self.height = unit.inch(14)
     self.depth = unit.inch(12.5)
     self.appliance_path = os.path.join(WALL_APPLIANCE_PATH,"Wall Mounted Range Hood 01.blend")
     self.height_above_floor = unit.inch(60)
 def __init__(self):
     self.category_name = "Standard"
     self.assembly_name = "Rollouts"
     self.carcass_type = "Base"
     self.width = unit.inch(18)
     self.height = unit.inch(34)
     self.depth = unit.inch(23)
     self.rollout_qty = 2
 def __init__(self):
     self.category_name = "Standard"
     self.assembly_name = "Divisions"
     self.carcass_type = "Base"
     self.width = unit.inch(18)
     self.height = unit.inch(34)
     self.depth = unit.inch(23)
     self.shelf_qty = 1
 def draw(self):
     self.create_assembly()
     ass_obj = self.add_object(file_path = self.appliance_path)
     ass_obj.set_name(get_file_name(self.appliance_path))
     self.obj_x.empty_draw_size = unit.inch(1)
     self.obj_y.empty_draw_size = unit.inch(1)
     self.obj_z.empty_draw_size = unit.inch(1)      
     
Пример #20
0
    def execute(self, context):
        largest_x = 0
        largest_y = 0
        smallest_x = 0
        smallest_y = 0
        wall_groups = []
        height = 0
        for obj in context.visible_objects:
            if obj.mv.type == 'BPWALL':
                wall_groups.append(fd_types.Wall(obj))
            
        for group in wall_groups:
            start_point = (group.obj_bp.matrix_world[0][3],group.obj_bp.matrix_world[1][3],0)
            end_point = (group.obj_x.matrix_world[0][3],group.obj_x.matrix_world[1][3],0)
            height = group.obj_z.location.z
            
            if start_point[0] > largest_x:
                largest_x = start_point[0]
            if start_point[1] > largest_y:
                largest_y = start_point[1]
            if start_point[0] < smallest_x:
                smallest_x = start_point[0]
            if start_point[1] < smallest_y:
                smallest_y = start_point[1]
            if end_point[0] > largest_x:
                largest_x = end_point[0]
            if end_point[1] > largest_y:
                largest_y = end_point[1]
            if end_point[0] < smallest_x:
                smallest_x = end_point[0]
            if end_point[1] < smallest_y:
                smallest_y = end_point[1]

        x = (math.fabs(largest_x) - math.fabs(smallest_x))/2
        y = (math.fabs(largest_y) - math.fabs(smallest_y))/2
        z = height - unit.inch(.01)
        
        width = math.fabs(smallest_y) + math.fabs(largest_y)
        length = math.fabs(largest_x) + math.fabs(smallest_x)
        if width == 0:
            width = unit.inch(-48)
        if length == 0:
            length = unit.inch(-48)

        bpy.ops.object.lamp_add(type = 'AREA')
        obj_lamp = context.active_object
        obj_lamp.location.x = x
        obj_lamp.location.y = y
        obj_lamp.location.z = z
        obj_lamp.data.shape = 'RECTANGLE'
        obj_lamp.data.size = length + unit.inch(20)
        obj_lamp.data.size_y = math.fabs(width) + unit.inch(20)
        for node in obj_lamp.data.node_tree.nodes:
            if node.type == 'EMISSION':
                node.inputs[1].default_value = max(unit.meter_to_active_unit(largest_x),
                                                   unit.meter_to_active_unit(largest_y))
        return {'FINISHED'}
 def __init__(self):
     self.library_name = "Countertops"
     self.category_name = "Countertops"
     self.assembly_name = "Diagonal Corner Countertop"
     self.placement_type = "Corner"
     self.corner_type = "Diagonal"
     self.width = unit.inch(36)
     self.height = unit.inch(5.5)
     self.depth = unit.inch(36)
     self.height_above_floor = unit.inch(34.1)           
Пример #22
0
 def __init__(self):
     self.library_name = "Countertops"
     self.category_name = "Countertops"
     self.assembly_name = "Diagonal Corner Countertop"
     self.placement_type = "Corner"
     self.corner_type = "Diagonal"
     self.width = unit.inch(36)
     self.height = unit.inch(5.5)
     self.depth = unit.inch(36)
     self.height_above_floor = unit.inch(34.1)
Пример #23
0
 def add_text(self, context, assembly):
     bpy.ops.object.text_add()
     text = context.active_object
     text.parent = assembly.obj_bp
     text.location.x = unit.inch(-2)
     text.location.z = unit.inch(-10)
     text.rotation_euler.x = math.radians(90)
     text.data.size = .1
     text.data.body = assembly.obj_bp.mv.name_object
     text.data.align_x = 'RIGHT'
     text.data.font = self.font        
Пример #24
0
 def __init__(self):
     self.category_name = "Windows"
     self.assembly_name = "Triple Window Georgian"
     self.width = unit.inch(64)
     self.height = unit.inch(48)
     self.depth = DEFAULT_DEPTH
     self.height_above_floor = HEIGHT_ABOVE_FLOOR
     
     self.window_frame = "Window_Frame_Triple.blend"
     self.window_divider = "Window_Divider_Georgian.blend"
     self.window_blinds = ""                
Пример #25
0
 def add_text(self, context, assembly):
     bpy.ops.object.text_add()
     text = context.active_object
     text.parent = assembly.obj_bp
     text.location.x = unit.inch(-2)
     text.location.z = unit.inch(-10)
     text.rotation_euler.x = math.radians(90)
     text.data.size = .1
     text.data.body = assembly.obj_bp.mv.name_object
     text.data.align_x = 'RIGHT'
     text.data.font = self.font
Пример #26
0
    def __init__(self):
        self.category_name = "Windows"
        self.assembly_name = "Triple Window Georgian"
        self.width = unit.inch(64)
        self.height = unit.inch(48)
        self.depth = DEFAULT_DEPTH
        self.height_above_floor = HEIGHT_ABOVE_FLOOR

        self.window_frame = "Window_Frame_Triple.blend"
        self.window_divider = "Window_Divider_Georgian.blend"
        self.window_blinds = ""
Пример #27
0
def add_blind_panel(product, side="Left", cabinet_type="Base"):
    product.add_prompt(name="Blind Panel Width",
                       prompt_type='DISTANCE',
                       value=unit.inch(23),
                       tab_index=1)
    product.add_prompt(name="Blind Panel Reveal",
                       prompt_type='DISTANCE',
                       value=unit.inch(3),
                       tab_index=1)
    product.add_prompt(name="Blind Panel Thickness",
                       prompt_type='DISTANCE',
                       value=unit.inch(.75),
                       tab_index=2)

    Product_Width = product.get_var('dim_x', 'Product_Width')
    Product_Height = product.get_var('dim_z', 'Product_Height')
    Product_Depth = product.get_var('dim_y', 'Product_Depth')
    Toe_Kick_Height = product.get_var('Toe Kick Height')
    Material_Thickness = product.get_var('Material_Thickness')
    Blind_Panel_Width = product.get_var('Blind Panel Width')
    Blind_Panel_Reveal = product.get_var('Blind Panel Reveal')

    blind_panel = product.add_assembly(PART_WITH_EDGEBANDING)
    blind_panel.set_name("Right Filler")
    if side == "Left":
        blind_panel.x_loc('Material_Thickness', [Material_Thickness])
    else:
        blind_panel.x_loc(
            'Product_Width-Material_Thickness-Blind_Panel_Width-Blind_Panel_Reveal',
            [
                Product_Width, Material_Thickness, Blind_Panel_Width,
                Blind_Panel_Reveal
            ])
    blind_panel.y_loc('Product_Depth', [Product_Depth])
    if cabinet_type == "Base":
        blind_panel.z_loc('Toe_Kick_Height+Material_Thickness',
                          [Toe_Kick_Height, Material_Thickness])
    if cabinet_type == "Upper":
        blind_panel.z_loc('Product_Height+Material_Thickness',
                          [Product_Height, Material_Thickness])
    blind_panel.x_rot(value=0)
    blind_panel.y_rot(value=-90)
    blind_panel.z_rot(value=-90)
    if cabinet_type == "Base":
        blind_panel.x_dim(
            'Product_Height-Toe_Kick_Height-Material_Thickness*2',
            [Product_Height, Toe_Kick_Height, Material_Thickness])
    if cabinet_type == "Upper":
        blind_panel.x_dim('fabs(Product_Height)-Material_Thickness*2',
                          [Product_Height, Material_Thickness])
    blind_panel.y_dim('Blind_Panel_Width+Blind_Panel_Reveal',
                      [Blind_Panel_Width, Blind_Panel_Reveal])
    blind_panel.z_dim(value=unit.inch(.75))
    blind_panel.set_material_pointers(EXPOSED_EXTERIOR_SURFACE)
Пример #28
0
    def draw(self):
        self.create_assembly()
        self.obj_bp.mv.dont_export = True
            
        self.add_tab(name='Main Options', tab_type='VISIBLE')
        self.add_tab(name='Formulas', tab_type='HIDDEN')
        
        self.add_prompt(name="Open Door", prompt_type='PERCENTAGE', value=0, tab_index=0)
        self.add_prompt(name="Frame Width", prompt_type='DISTANCE', value=unit.inch(3.25), tab_index=1)
        self.add_prompt(name="Panel Depth",prompt_type='DISTANCE',value=unit.inch(1.75), tab_index=1)
        
        Width = self.get_var('dim_x','Width')
        Height = self.get_var('dim_z','Height')
        Depth = self.get_var('dim_y','Depth')
        Open_Door = self.get_var('Open Door')
        Frame_Width = self.get_var('Frame Width')
        Panel_Depth = self.get_var('Panel Depth')

        door_frame = self.add_assembly(os.path.join(DOOR_FRAME_PATH,self.door_frame))
        door_frame.set_name("Door Frame")
        door_frame.x_dim('Width', [Width])
        door_frame.y_dim('Depth', [Depth])
        door_frame.z_dim('Height', [Height])
        door_frame.assign_material("Frame", MATERIAL_FILE, "White")   
        
        door_panel = self.add_assembly(os.path.join(DOOR_PANEL,self.door_panel))
        door_panel.set_name("Door Panel")
        door_panel.y_loc('Depth*0.5+Panel_Depth*0.5', [Depth, Panel_Depth])
        door_panel.z_dim('Height-INCH(3.25)', [Height])
        door_panel.prompt('No Hardware', value=True)
        
        if not self.double_door:
            door_panel.x_loc('Frame_Width-Open_Door*(Width-Frame_Width*2)', [Width, Frame_Width, Open_Door])
            door_panel.x_dim('(Width-Frame_Width*2)', [Width, Frame_Width])
        else:
            door_panel.x_loc('Frame_Width-Open_Door*((Width-Frame_Width*2)*0.5)', [Width, Frame_Width, Open_Door])
            door_panel.x_dim('(Width-Frame_Width*2)*0.5', [Width, Frame_Width])
        
        door_panel.assign_material("Door", MATERIAL_FILE, "White")
        door_panel.assign_material("Glass", MATERIAL_FILE, "Glass")
        
        if self.double_door:
            door_panel_right = self.add_assembly(os.path.join(DOOR_PANEL,self.door_panel))
            door_panel_right.set_name("Door Panel Right")
            door_panel_right.x_loc('Width*0.5+(Open_Door*(Width*0.5-Frame_Width))',
                                   [Width, Frame_Width, Open_Door])
            door_panel_right.y_loc('Depth*0.5+Panel_Depth*0.5', [Depth, Panel_Depth])
            door_panel_right.x_dim('(Width-Frame_Width*2)*0.5',[Width, Frame_Width])
            door_panel_right.z_dim('Height-INCH(3.25)', [Height])
            door_panel_right.prompt('No Hardware', value=True)
            door_panel_right.assign_material("Door", MATERIAL_FILE, "White")   
            door_panel_right.assign_material("Glass", MATERIAL_FILE, "Glass")
                
        self.update()
Пример #29
0
def add_corner_fillers(product):
    product.add_prompt(name="Left Side Wall Filler",
                       prompt_type='DISTANCE',
                       value=0,
                       tab_index=0,
                       export=True)
    product.add_prompt(name="Right Side Wall Filler",
                       prompt_type='DISTANCE',
                       value=0,
                       tab_index=0,
                       export=True)

    Product_Width = product.get_var('dim_x', 'Product_Width')
    Product_Height = product.get_var('dim_z', 'Product_Height')
    Product_Depth = product.get_var('dim_y', 'Product_Depth')
    Toe_Kick_Height = product.get_var('Toe Kick Height')
    Left_Side_Wall_Filler = product.get_var('Left Side Wall Filler')
    Right_Side_Wall_Filler = product.get_var('Right Side Wall Filler')
    Left_Cabinet_Depth = product.get_var('Left Cabinet Depth')
    Right_Cabinet_Depth = product.get_var('Right Cabinet Depth')

    left_filler = product.add_assembly(PART_WITH_EDGEBANDING)
    left_filler.set_name("Left Filler")
    left_filler.x_loc('Left_Cabinet_Depth', [Left_Cabinet_Depth])
    left_filler.y_loc('Product_Depth-Left_Side_Wall_Filler',
                      [Product_Depth, Left_Side_Wall_Filler])
    left_filler.z_loc('Toe_Kick_Height', [Toe_Kick_Height])
    left_filler.x_rot(value=0)
    left_filler.y_rot(value=-90)
    left_filler.z_rot(value=0)
    left_filler.x_dim('Product_Height-Toe_Kick_Height',
                      [Product_Height, Toe_Kick_Height])
    left_filler.y_dim('Left_Side_Wall_Filler', [Left_Side_Wall_Filler])
    left_filler.z_dim(value=unit.inch(.75))
    left_filler.set_material_pointers(EXPOSED_EXTERIOR_SURFACE)
    left_filler.prompt('Hide', 'IF(Left_Side_Wall_Filler==0,True,False)',
                       [Left_Side_Wall_Filler])

    right_filler = product.add_assembly(PART_WITH_EDGEBANDING)
    right_filler.set_name("Right Filler")
    right_filler.x_loc('Product_Width', [Product_Width])
    right_filler.y_loc('-Right_Cabinet_Depth', [Right_Cabinet_Depth])
    right_filler.z_loc('Toe_Kick_Height', [Toe_Kick_Height])
    right_filler.x_rot(value=0)
    right_filler.y_rot(value=-90)
    right_filler.z_rot(value=-90)
    right_filler.x_dim('Product_Height-Toe_Kick_Height',
                       [Product_Height, Toe_Kick_Height])
    right_filler.y_dim('Right_Side_Wall_Filler', [Right_Side_Wall_Filler])
    right_filler.z_dim(value=unit.inch(.75))
    right_filler.set_material_pointers(EXPOSED_EXTERIOR_SURFACE)
    right_filler.prompt('Hide', 'IF(Right_Side_Wall_Filler==0,True,False)',
                        [Right_Side_Wall_Filler])
Пример #30
0
def add_product_width_dimension(product):
    Product_Width = product.get_var('dim_x','Product_Width')
    
    vdim_x = fd_types.Dimension()
    vdim_x.parent(product.obj_bp)
    if product.mirror_z:
        vdim_x.start_z(value = unit.inch(5))
    else:
        vdim_x.start_z(value = -unit.inch(5))
    if product.carcass.carcass_type == 'Upper':
        vdim_x.start_y(value = unit.inch(8))
    else:
        vdim_x.start_y(value = unit.inch(3))
    vdim_x.end_x('Product_Width',[Product_Width])
Пример #31
0
def add_product_width_dimension(product):
    Product_Width = product.get_var('dim_x', 'Product_Width')

    vdim_x = fd_types.Dimension()
    vdim_x.parent(product.obj_bp)
    if product.mirror_z:
        vdim_x.start_z(value=unit.inch(5))
    else:
        vdim_x.start_z(value=-unit.inch(5))
    if product.carcass.carcass_type == 'Upper':
        vdim_x.start_y(value=unit.inch(8))
    else:
        vdim_x.start_y(value=unit.inch(3))
    vdim_x.end_x('Product_Width', [Product_Width])
def add_common_door_prompts(assembly):
    door_type = 0 #SET DEFAULT
    if assembly.door_type == 'BASE':
        door_type = 0
    if assembly.door_type == 'TALL':
        door_type = 1     
    if assembly.door_type == 'UPPER':
        door_type = 2
    
    assembly.add_prompt(name="Door Thickness",prompt_type='DISTANCE',value=unit.inch(.75),tab_index=1)
    assembly.add_prompt(name="Pull Location",prompt_type='COMBOBOX',items=['BASE','TALL','UPPER'],value=door_type,tab_index=1,columns=3)
    assembly.add_prompt(name="Pull From Edge",prompt_type='DISTANCE',value=unit.inch(1.5),tab_index=0)
    assembly.add_prompt(name="Pull From Top",prompt_type='DISTANCE',value=unit.inch(1.5),tab_index=0)
    assembly.add_prompt(name="Pull From Bottom",prompt_type='DISTANCE',value=unit.inch(1.5),tab_index=0)
    assembly.add_prompt(name="Pull From Floor",prompt_type='DISTANCE',value=unit.inch(40),tab_index=0)
Пример #33
0
    def create_elv_view_scene(self, context, wall):
        bpy.ops.scene.new('INVOKE_DEFAULT', type='EMPTY')
        wall_group = bpy.data.groups.new(wall.obj_bp.mv.name_object)

        new_scene = context.scene
        new_scene.name = wall_group.name
        new_scene.mv.name_scene = wall.obj_bp.mv.name_object
        new_scene.mv.elevation_img_name = wall.obj_bp.name
        new_scene.mv.plan_view_scene = False
        new_scene.mv.elevation_scene = True

        self.group_children(wall_group, wall.obj_bp)
        wall_mesh = utils.create_cube_mesh(
            wall.obj_bp.mv.name_object,
            (wall.obj_x.location.x, wall.obj_y.location.y,
             wall.obj_z.location.z))
        wall_mesh.parent = wall.obj_bp
        wall_group.objects.link(wall_mesh)

        instance = bpy.data.objects.new(
            wall.obj_bp.mv.name_object + " " + "Instance", None)
        new_scene.objects.link(instance)
        instance.dupli_type = 'GROUP'
        instance.dupli_group = wall_group

        new_scene.world = self.main_scene.world

        self.link_dims_to_scene(new_scene, wall.obj_bp)

        bpy.ops.object.text_add()

        text = context.active_object
        text.parent = wall.obj_bp
        text.location.x = unit.inch(-2)
        text.location.z = unit.inch(-10)
        text.rotation_euler.x = math.radians(90)
        text.data.size = .1
        text.data.body = wall.obj_bp.mv.name_object
        text.data.align = 'RIGHT'
        text.data.font = self.font

        camera = self.create_camera(new_scene)
        camera.rotation_euler.x = math.radians(90.0)
        camera.rotation_euler.z = wall.obj_bp.rotation_euler.z
        bpy.ops.object.select_all(action='DESELECT')
        wall_mesh.select = True
        bpy.ops.view3d.camera_to_view_selected()
        camera.data.ortho_scale += self.pv_pad
Пример #34
0
def create_cabinet(product):
    product.create_assembly()
    product.obj_bp.lm_basic_cabinets.is_cabinet = True
    product.obj_bp.lm_basic_cabinets.cabinet_shape = 'RECTANGLE'
    product.add_tab(name='Carcass Options',tab_type='VISIBLE')
    product.add_tab(name='Formulas',tab_type='HIDDEN')
    product.add_prompt(name="Material_Thickness",prompt_type='DISTANCE',value= unit.inch(.75),lock=True,tab_index=1)
    def sink_drop(self,context,event):
        selected_point, selected_obj = utils.get_selection_point(context,event)
        bpy.ops.object.select_all(action='DESELECT')
        sel_product_bp = utils.get_bp(selected_obj,'PRODUCT')
        sel_assembly_bp = utils.get_assembly_bp(selected_obj)

        if sel_product_bp and sel_assembly_bp:
            product = fd_types.Assembly(sel_product_bp)
            if product:
                product_depth = math.fabs(product.obj_y.location.y)
                assembly_depth = math.fabs(self.assembly.obj_y.location.y)
                self.assembly.obj_bp.parent = product.obj_bp
                self.assembly.obj_bp.location.z = product.obj_z.location.z + unit.inch(1.5)
                self.assembly.obj_bp.location.y = -math.fabs(product_depth-assembly_depth)/2
                self.assembly.obj_bp.location.x = product.obj_x.location.x/2 - self.assembly.obj_x.location.x/2

            if event.type == 'LEFTMOUSE' and event.value == 'PRESS':
                self.assign_boolean(selected_obj)
                utils.set_wireframe(self.assembly.obj_bp,False)
                bpy.context.window.cursor_set('DEFAULT')
                bpy.ops.object.select_all(action='DESELECT')
                context.scene.objects.active = self.assembly.obj_bp
                self.assembly.obj_bp.select = True
                return {'FINISHED'}
        
        return {'RUNNING_MODAL'}
Пример #36
0
    def execute(self, context):
        obj_bp = utils.get_assembly_bp(context.active_object)

        #NOTE: Since Mesh hooks are maintained by object name
        #      You cannot have two emptyhooks with the same name.       
        for child in obj_bp.children:
            if child.type == 'EMPTY' and self.use_as_mesh_hook and child.mv.use_as_mesh_hook and child.mv.name_object == self.empty_name:
                bpy.ops.fd_general.error('INVOKE_DEFAULT',Message="A hook with that name already exists.")
                return {'CANCELLED'}
            
        #NOTE: Since Mesh hooks are maintained by object name
        #      These names are reserved the the visible prompts of the group
        if self.use_as_mesh_hook:
            if self.empty_name in {'Dimension X','Dimension Y','Dimension Z'}:
                bpy.ops.fd_general.error('INVOKE_DEFAULT',Message="That hook name are reserved for visible prompts")
                return {'CANCELLED'}
        
        bpy.ops.object.empty_add()
        obj_empty = context.active_object

        if obj_empty:
            obj_empty.empty_draw_size = unit.inch(1)
            obj_empty.mv.name_object = self.empty_name
            obj_empty.mv.use_as_mesh_hook = self.use_as_mesh_hook
            if obj_bp:
                obj_empty.parent = obj_bp
            
            context.scene.objects.active = obj_empty
            update_vector_groups(obj_bp)
            bpy.ops.fd_assembly.load_active_assembly_objects(object_name=obj_bp.name)
        return {'FINISHED'}
def add_adj_shelf_machining(part,insert):
    
    Width = insert.get_var('dim_x','Width')
    Height = insert.get_var('dim_z','Height')
    Depth = insert.get_var('dim_y','Depth')
    Part_Width = part.get_var('dim_y','Part_Width')
    Part_Z_Loc = part.get_var('loc_z','Part_Z_Loc')
    Adj_Shelf_Setback = insert.get_var("Adj Shelf Setback")
    Space_From_Front = insert.get_var("Space From Front")
    Space_From_Rear = insert.get_var("Space From Rear")
    Space_From_Top = insert.get_var("Space From Top")
    Space_From_Bottom = insert.get_var("Space From Bottom")
    Shelf_Hole_Spacing = insert.get_var("Shelf Hole Spacing")
    Shelf_Clip_Gap = insert.get_var("Shelf Clip Gap")
    Adj_Shelf_Qty = insert.get_var("Adj Shelf Qty")
    
    tokens = []
    tokens.append(part.add_machine_token('Left Shelf Drilling' ,'SHELF','3'))
    tokens.append(part.add_machine_token('Right Shelf Drilling' ,'SHELF','4'))

    for token in tokens:
        token[1].add_driver(token[0],'space_from_bottom','Part_Z_Loc-Space_From_Bottom',[Part_Z_Loc,Space_From_Bottom])
        token[1].add_driver(token[0],'dim_to_first_row','Space_From_Front',[Space_From_Front])
        token[1].face_bore_depth = unit.inch(.5)
        token[1].add_driver(token[0],'space_from_top','Height-Part_Z_Loc-Space_From_Top',[Height,Part_Z_Loc,Space_From_Top])
        token[1].add_driver(token[0],'dim_to_second_row','fabs(Part_Width)-Space_From_Rear',[Part_Width,Space_From_Rear])
        token[1].face_bore_dia = 5
        token[1].shelf_hole_spacing = unit.millimeter(32)
        token[1].add_driver(token[0],'shelf_clip_gap','Shelf_Clip_Gap',[Shelf_Clip_Gap])
        token[1].reverse_direction = False
Пример #38
0
    def execute(self, context):
        largest_x = 0
        largest_y = 0
        smallest_x = 0
        smallest_y = 0
        wall_groups = []
        for obj in context.visible_objects:
            if obj.mv.type == 'BPWALL':
                wall_groups.append(fd_types.Wall(obj))

        for group in wall_groups:
            start_point = (group.obj_bp.matrix_world[0][3],
                           group.obj_bp.matrix_world[1][3], 0)
            end_point = (group.obj_x.matrix_world[0][3],
                         group.obj_x.matrix_world[1][3], 0)

            if start_point[0] > largest_x:
                largest_x = start_point[0]
            if start_point[1] > largest_y:
                largest_y = start_point[1]
            if start_point[0] < smallest_x:
                smallest_x = start_point[0]
            if start_point[1] < smallest_y:
                smallest_y = start_point[1]
            if end_point[0] > largest_x:
                largest_x = end_point[0]
            if end_point[1] > largest_y:
                largest_y = end_point[1]
            if end_point[0] < smallest_x:
                smallest_x = end_point[0]
            if end_point[1] < smallest_y:
                smallest_y = end_point[1]

        loc = (smallest_x, smallest_y, 0)
        width = math.fabs(smallest_y) + math.fabs(largest_y)
        length = math.fabs(largest_x) + math.fabs(smallest_x)
        if width == 0:
            width = unit.inch(-48)
        if length == 0:
            length = unit.inch(-48)
        obj_plane = utils.create_floor_mesh('Floor', (length, width, 0.0))
        obj_plane.location = loc

        #SET CONTEXT
        context.scene.objects.active = obj_plane

        return {'FINISHED'}
Пример #39
0
 def execute(self, context):
     bpy.ops.object.camera_add(view_align=False)
     camera = context.active_object
     bpy.ops.view3d.camera_to_view()
     camera.data.clip_start = unit.inch(1)
     camera.data.clip_end = 9999
     camera.data.ortho_scale = 200.0
     return {'FINISHED'}
Пример #40
0
 def execute(self, context):
     bpy.ops.object.camera_add(view_align=False)
     camera = context.active_object
     bpy.ops.view3d.camera_to_view()
     camera.data.clip_start = unit.inch(1)
     camera.data.clip_end = 9999
     camera.data.ortho_scale = 200.0
     return {'FINISHED'}
Пример #41
0
    def execute(self, context):
        largest_x = 0
        largest_y = 0
        smallest_x = 0
        smallest_y = 0
        wall_groups = []
        for obj in context.visible_objects:
            if obj.mv.type == 'BPWALL':
                wall_groups.append(fd_types.Wall(obj))
            
        for group in wall_groups:
            start_point = (group.obj_bp.matrix_world[0][3],group.obj_bp.matrix_world[1][3],0)
            end_point = (group.obj_x.matrix_world[0][3],group.obj_x.matrix_world[1][3],0)

            if start_point[0] > largest_x:
                largest_x = start_point[0]
            if start_point[1] > largest_y:
                largest_y = start_point[1]
            if start_point[0] < smallest_x:
                smallest_x = start_point[0]
            if start_point[1] < smallest_y:
                smallest_y = start_point[1]
            if end_point[0] > largest_x:
                largest_x = end_point[0]
            if end_point[1] > largest_y:
                largest_y = end_point[1]
            if end_point[0] < smallest_x:
                smallest_x = end_point[0]
            if end_point[1] < smallest_y:
                smallest_y = end_point[1]

        loc = (smallest_x , smallest_y,0)
        width = math.fabs(smallest_y) + math.fabs(largest_y)
        length = math.fabs(largest_x) + math.fabs(smallest_x)
        if width == 0:
            width = unit.inch(-48)
        if length == 0:
            length = unit.inch(-48)
        obj_plane = utils.create_floor_mesh('Floor',(length,width,0.0))
        obj_plane.location = loc
        
        #SET CONTEXT
        context.scene.objects.active = obj_plane
        
        return {'FINISHED'}
    def add_common_prompts(self):
        self.add_tab(name='Interior Options',tab_type='VISIBLE')
        self.add_tab(name='Formulas',tab_type='HIDDEN')

        self.add_prompt(name="Division Qty",prompt_type='QUANTITY',value=2,tab_index=0)
        self.add_prompt(name="Division Setback",prompt_type='DISTANCE',value=unit.inch(0.25),tab_index=0)
        self.add_prompt(name="Adj Shelf Rows",prompt_type='QUANTITY',value=2,tab_index=0)
        self.add_prompt(name="Fixed Shelf Rows",prompt_type='QUANTITY',value=0,tab_index=0)
        
        self.add_prompt(name="Division Thickness",prompt_type='DISTANCE',value=unit.inch(0.75),tab_index=1)
        self.add_prompt(name="Shelf Setback",prompt_type='DISTANCE',value=unit.inch(0.25),tab_index=1)
        self.add_prompt(name="Shelf Holes Space From Bottom",prompt_type='DISTANCE',value=unit.inch(2.5),tab_index=1)
        self.add_prompt(name="Shelf Holes Space From Top",prompt_type='DISTANCE',value=unit.inch(0),tab_index=1)
        self.add_prompt(name="Shelf Holes Front Setback",prompt_type='DISTANCE',value=unit.inch(0),tab_index=1)
        self.add_prompt(name="Shelf Holes Rear Setback",prompt_type='DISTANCE',value=unit.inch(0),tab_index=1)
        self.add_prompt(name="Adjustable Shelf Thickness",prompt_type='DISTANCE',value=unit.inch(0.75),tab_index=1)
        self.add_prompt(name="Fixed Shelf Thickness",prompt_type='DISTANCE',value=unit.inch(0.75),tab_index=1)
        self.add_prompt(name="Shelf Clip Gap",prompt_type='DISTANCE',value=unit.inch(0.125),tab_index=1)
        self.add_prompt(name="Shelf Hole Spacing",prompt_type='DISTANCE',value=unit.inch(1.25),tab_index=1)
        self.add_prompt(name="Shelf Pin Quantity",prompt_type='QUANTITY',value=0,tab_index=1)
        
        sgi = self.get_var('cabinetlib.spec_group_index','sgi')
        Adj_Shelf_Rows = self.get_var('Adj Shelf Rows')
        Division_Qty = self.get_var('Division Qty')
        
        self.prompt('Shelf Pin Quantity','(Adj_Shelf_Rows*Division_Qty)*4',[Adj_Shelf_Rows,Division_Qty])
        self.prompt('Division Thickness','THICKNESS(sgi,"Cabinet_Division' + self.open_name +'")',[sgi])
        self.prompt('Fixed Shelf Thickness','THICKNESS(sgi,"Cabinet_Shelf' + self.open_name +'")',[sgi])
        self.prompt('Adjustable Shelf Thickness','THICKNESS(sgi,"Cabinet_Shelf' + self.open_name +'")',[sgi])
Пример #43
0
 def __init__(self):
     self.category_name = "Windows"
     self.assembly_name = "Sliding Window Marginal Borders"
     self.width = unit.inch(64)
     self.height = DEFAULT_HEIGHT
     self.depth = DEFAULT_DEPTH
     self.height_above_floor = HEIGHT_ABOVE_FLOOR
     
     self.window_frame = "Window_Frame_Sliding.blend"
     self.window_divider = "Window_Divider_Border.blend"
     self.window_blinds = ""            
Пример #44
0
def create_cabinet(product):
    product.create_assembly()
    product.obj_bp.lm_basic_cabinets.is_cabinet = True
    product.obj_bp.lm_basic_cabinets.cabinet_shape = 'RECTANGLE'
    product.add_tab(name='Carcass Options', tab_type='VISIBLE')
    product.add_tab(name='Formulas', tab_type='HIDDEN')
    product.add_prompt(name="Material_Thickness",
                       prompt_type='DISTANCE',
                       value=unit.inch(.75),
                       lock=True,
                       tab_index=1)
Пример #45
0
    def __init__(self):
        self.category_name = "Windows"
        self.assembly_name = "Hung Window 4 Lites"
        self.width = DEFAULT_WIDTH
        self.height = unit.inch(48)
        self.depth = DEFAULT_DEPTH
        self.height_above_floor = HEIGHT_ABOVE_FLOOR

        self.window_frame = "Window_Frame_Hung.blend"
        self.window_divider = "Window_Divider_4_Lites.blend"
        self.window_blinds = ""
Пример #46
0
 def __init__(self):
     self.category_name = "Windows"
     self.assembly_name = "Hung Window 4 Lites"
     self.width = DEFAULT_WIDTH
     self.height = unit.inch(48)
     self.depth = DEFAULT_DEPTH
     self.height_above_floor = HEIGHT_ABOVE_FLOOR
     
     self.window_frame = "Window_Frame_Hung.blend"
     self.window_divider = "Window_Divider_4_Lites.blend"
     self.window_blinds = ""   
Пример #47
0
    def __init__(self):
        self.category_name = "Windows"
        self.assembly_name = "Sliding Window Marginal Borders"
        self.width = unit.inch(64)
        self.height = DEFAULT_HEIGHT
        self.depth = DEFAULT_DEPTH
        self.height_above_floor = HEIGHT_ABOVE_FLOOR

        self.window_frame = "Window_Frame_Sliding.blend"
        self.window_divider = "Window_Divider_Border.blend"
        self.window_blinds = ""
Пример #48
0
def add_corner_countertop(product,pie_cut=True):
    product.add_prompt(name="Countertop Overhang Front",prompt_type='DISTANCE',value=unit.inch(1),tab_index=0)
    product.add_prompt(name="Countertop Overhang Left Back",prompt_type='DISTANCE',value=unit.inch(0),tab_index=0)
    product.add_prompt(name="Countertop Overhang Right Back",prompt_type='DISTANCE',value=unit.inch(0),tab_index=0)
    product.add_prompt(name="Countertop Overhang Left",prompt_type='DISTANCE',value=unit.inch(0),tab_index=0)
    product.add_prompt(name="Countertop Overhang Right",prompt_type='DISTANCE',value=unit.inch(0),tab_index=0)
    Countertop_Overhang_Front = product.get_var('Countertop Overhang Front')
    Countertop_Overhang_Left = product.get_var('Countertop Overhang Left')
    Countertop_Overhang_Right = product.get_var('Countertop Overhang Right')
    Countertop_Overhang_Left_Back = product.get_var('Countertop Overhang Left Back')
    Countertop_Overhang_Right_Back = product.get_var('Countertop Overhang Right Back')
    Left_Side_Wall_Filler = product.get_var('Left Side Wall Filler')
    Right_Side_Wall_Filler = product.get_var('Right Side Wall Filler')
    Left_Cabinet_Depth = product.get_var('Left Cabinet Depth')
    Right_Cabinet_Depth = product.get_var('Right Cabinet Depth')
    
    Width = product.get_var("dim_x","Width")
    Height = product.get_var("dim_z","Height")
    Depth = product.get_var("dim_y","Depth")
    
    if pie_cut:
        ctop = cabinet_countertops.PRODUCT_Notched_Corner_Countertop()
    else:
        ctop = cabinet_countertops.PRODUCT_Diagonal_Corner_Countertop()
    ctop.draw()
    ctop.obj_bp.mv.type_group = 'INSERT'
    ctop.obj_bp.parent = product.obj_bp
    ctop.x_loc('-Countertop_Overhang_Left_Back',[Countertop_Overhang_Left_Back])
    ctop.y_loc('Countertop_Overhang_Right_Back',[Countertop_Overhang_Right_Back])
    ctop.z_loc('Height',[Height])
    ctop.x_rot(value = 0)
    ctop.y_rot(value = 0)
    ctop.z_rot(value = 0)
    ctop.x_dim('Width+Countertop_Overhang_Left_Back+Countertop_Overhang_Right+Right_Side_Wall_Filler',
               [Width,Countertop_Overhang_Left_Back,Countertop_Overhang_Right,Right_Side_Wall_Filler])
    ctop.y_dim('Depth-Countertop_Overhang_Right_Back-Countertop_Overhang_Left-Left_Side_Wall_Filler',
               [Depth,Countertop_Overhang_Right_Back,Countertop_Overhang_Left,Left_Side_Wall_Filler])
    ctop.z_dim(value = unit.inch(4))
    ctop.prompt('Left Side Depth',"Left_Cabinet_Depth+Countertop_Overhang_Front+Countertop_Overhang_Left_Back",[Left_Cabinet_Depth,Countertop_Overhang_Front,Countertop_Overhang_Left_Back])
    ctop.prompt('Right Side Depth',"Right_Cabinet_Depth+Countertop_Overhang_Front+Countertop_Overhang_Right_Back",[Right_Cabinet_Depth,Countertop_Overhang_Front,Countertop_Overhang_Right_Back])
    return ctop
Пример #49
0
    def execute(self, context):
        sheets = context.scene.cabinetlib.sheets
        edgebanding = context.scene.cabinetlib.edgebanding
#         products = context.scene.cabinetlib.products
        
        for sheet in sheets:
            sheets.remove(0)
        
        for edgeband in edgebanding:
            edgebanding.remove(0)
            
#         for product in products:
#             products.remove(0)
        
        for obj in context.visible_objects:
            if obj.cabinetlib.type_mesh == 'CUTPART':
                mat_name = utils.get_material_name(obj)
                if mat_name not in sheets:
                    mat = sheets.add()
                    mat.thickness = utils.get_part_thickness(obj)
                    mat.name = mat_name
                    sheet = mat.sizes.add() 
                    sheet.width = unit.inch(48) #TODO: Make a way set defaults
                    sheet.length = unit.inch(98) #TODO: Make a way set defaults
                    
            if obj.cabinetlib.type_mesh == 'EDGEBANDING':
                pass
            #TODO: Setup edgebanding materials
#                 edge_name = utils.get_edgebanding_name(obj)
#                 if edge_name not in edgebanding:
#                     mat = edgebanding.add()
#                     mat.thickness = utils.get_part_thickness(obj)
#                     mat.name= edge_name
                    
#             if obj.mv.type == 'BPASSEMBLY' and obj.mv.type_group == 'PRODUCT':
#                 product = products.add()
#                 product.name = obj.mv.name_object
#                 product.bp_name = obj.name
        
        return {'FINISHED'}
Пример #50
0
def add_corner_fillers(product):
    product.add_prompt(name="Left Side Wall Filler",prompt_type='DISTANCE',value= 0,tab_index=0,export=True)
    product.add_prompt(name="Right Side Wall Filler",prompt_type='DISTANCE',value= 0,tab_index=0,export=True)
    
    Product_Width = product.get_var('dim_x','Product_Width')
    Product_Height = product.get_var('dim_z','Product_Height')
    Product_Depth = product.get_var('dim_y','Product_Depth')    
    Toe_Kick_Height = product.get_var('Toe Kick Height')  
    Left_Side_Wall_Filler = product.get_var('Left Side Wall Filler')  
    Right_Side_Wall_Filler = product.get_var('Right Side Wall Filler') 
    Left_Cabinet_Depth = product.get_var('Left Cabinet Depth')  
    Right_Cabinet_Depth = product.get_var('Right Cabinet Depth') 
    
    left_filler = product.add_assembly(PART_WITH_EDGEBANDING)
    left_filler.set_name("Left Filler")
    left_filler.x_loc('Left_Cabinet_Depth',[Left_Cabinet_Depth])
    left_filler.y_loc('Product_Depth-Left_Side_Wall_Filler',[Product_Depth,Left_Side_Wall_Filler])
    left_filler.z_loc('Toe_Kick_Height',[Toe_Kick_Height])
    left_filler.x_rot(value = 0)
    left_filler.y_rot(value = -90)
    left_filler.z_rot(value = 0)
    left_filler.x_dim('Product_Height-Toe_Kick_Height',[Product_Height,Toe_Kick_Height])
    left_filler.y_dim('Left_Side_Wall_Filler',[Left_Side_Wall_Filler])
    left_filler.z_dim(value = unit.inch(.75))
    left_filler.set_material_pointers(EXPOSED_EXTERIOR_SURFACE) 
    left_filler.prompt('Hide','IF(Left_Side_Wall_Filler==0,True,False)',[Left_Side_Wall_Filler])
    
    right_filler = product.add_assembly(PART_WITH_EDGEBANDING)
    right_filler.set_name("Right Filler")
    right_filler.x_loc('Product_Width',[Product_Width])
    right_filler.y_loc('-Right_Cabinet_Depth',[Right_Cabinet_Depth])
    right_filler.z_loc('Toe_Kick_Height',[Toe_Kick_Height])
    right_filler.x_rot(value = 0)
    right_filler.y_rot(value = -90)
    right_filler.z_rot(value = -90)
    right_filler.x_dim('Product_Height-Toe_Kick_Height',[Product_Height,Toe_Kick_Height])
    right_filler.y_dim('Right_Side_Wall_Filler',[Right_Side_Wall_Filler])
    right_filler.z_dim(value = unit.inch(.75))
    right_filler.set_material_pointers(EXPOSED_EXTERIOR_SURFACE) 
    right_filler.prompt('Hide','IF(Right_Side_Wall_Filler==0,True,False)',[Right_Side_Wall_Filler])       
Пример #51
0
def add_blind_panel(product,side="Left",cabinet_type="Base"):
    product.add_prompt(name="Blind Panel Width",prompt_type='DISTANCE',value=unit.inch(23),tab_index=1)
    product.add_prompt(name="Blind Panel Reveal",prompt_type='DISTANCE',value=unit.inch(3),tab_index=1)
    product.add_prompt(name="Blind Panel Thickness",prompt_type='DISTANCE',value=unit.inch(.75),tab_index=2)
    
    Product_Width = product.get_var('dim_x','Product_Width')
    Product_Height = product.get_var('dim_z','Product_Height')
    Product_Depth = product.get_var('dim_y','Product_Depth')    
    Toe_Kick_Height = product.get_var('Toe Kick Height')  
    Material_Thickness = product.get_var('Material_Thickness')
    Blind_Panel_Width = product.get_var('Blind Panel Width') 
    Blind_Panel_Reveal = product.get_var('Blind Panel Reveal') 
    
    blind_panel = product.add_assembly(PART_WITH_EDGEBANDING)
    blind_panel.set_name("Right Filler")
    if side == "Left":
        blind_panel.x_loc('Material_Thickness',[Material_Thickness])
    else:
        blind_panel.x_loc('Product_Width-Material_Thickness-Blind_Panel_Width-Blind_Panel_Reveal',
                          [Product_Width,Material_Thickness,Blind_Panel_Width,Blind_Panel_Reveal])
    blind_panel.y_loc('Product_Depth',[Product_Depth])
    if cabinet_type == "Base":
        blind_panel.z_loc('Toe_Kick_Height+Material_Thickness',[Toe_Kick_Height,Material_Thickness])
    if cabinet_type == "Upper":
        blind_panel.z_loc('Product_Height+Material_Thickness',[Product_Height,Material_Thickness])
    blind_panel.x_rot(value = 0)
    blind_panel.y_rot(value = -90)
    blind_panel.z_rot(value = -90)
    if cabinet_type == "Base":
        blind_panel.x_dim('Product_Height-Toe_Kick_Height-Material_Thickness*2',
                          [Product_Height,Toe_Kick_Height,Material_Thickness])
    if cabinet_type == "Upper":
        blind_panel.x_dim('fabs(Product_Height)-Material_Thickness*2',
                          [Product_Height,Material_Thickness])
    blind_panel.y_dim('Blind_Panel_Width+Blind_Panel_Reveal',[Blind_Panel_Width,Blind_Panel_Reveal])
    blind_panel.z_dim(value = unit.inch(.75))
    blind_panel.set_material_pointers(EXPOSED_EXTERIOR_SURFACE) 
    def draw(self):
        self.create_assembly()
        assembly = self.add_assembly(file_path = self.appliance_path)
        assembly.set_name(get_file_name(self.appliance_path))
        self.width = assembly.obj_x.location.x
        self.height = assembly.obj_z.location.z
        self.depth = assembly.obj_y.location.y
        assembly.assign_material("Chrome",MATERIAL_FILE,"Chrome")
        assembly.assign_material("Stainless Steel",MATERIAL_FILE,"Stainless Steel")
        assembly.assign_material("Black Anodized Metal",MATERIAL_FILE,"Black Anodized Metal")
        
        dim_x = self.get_var("dim_x")
        dim_z = self.get_var("dim_z")
        dim_y = self.get_var("dim_y")        
        
        if self.add_countertop:
            self.add_tab(name="Counter Top Options",tab_type='VISIBLE')
            self.add_prompt(name="Countertop Overhang Front",prompt_type='DISTANCE',value=unit.inch(1),tab_index=0)
            self.add_prompt(name="Countertop Overhang Back",prompt_type='DISTANCE',value=unit.inch(0),tab_index=0)
            self.add_prompt(name="Countertop Overhang Left",prompt_type='DISTANCE',value=unit.inch(0),tab_index=0)
            self.add_prompt(name="Countertop Overhang Right",prompt_type='DISTANCE',value=unit.inch(0),tab_index=0)
            Countertop_Overhang_Front = self.get_var('Countertop Overhang Front')
            Countertop_Overhang_Left = self.get_var('Countertop Overhang Left')
            Countertop_Overhang_Right = self.get_var('Countertop Overhang Right')
            Countertop_Overhang_Back = self.get_var('Countertop Overhang Back')
 
            ctop = cabinet_countertops.PRODUCT_Straight_Countertop()
            ctop.draw()
            ctop.obj_bp.mv.type_group = 'INSERT'
            ctop.obj_bp.parent = self.obj_bp
            ctop.x_loc('-Countertop_Overhang_Left',[Countertop_Overhang_Left])
            ctop.y_loc('Countertop_Overhang_Back',[Countertop_Overhang_Back])
            ctop.z_loc('dim_z',[dim_z])
            ctop.x_rot(value = 0)
            ctop.y_rot(value = 0)
            ctop.z_rot(value = 0)
            ctop.x_dim('dim_x+Countertop_Overhang_Left+Countertop_Overhang_Right',[dim_x,Countertop_Overhang_Left,Countertop_Overhang_Right])
            ctop.y_dim('dim_y-Countertop_Overhang_Front-Countertop_Overhang_Back',[dim_y,Countertop_Overhang_Front,Countertop_Overhang_Back])
            ctop.z_dim(value = unit.inch(4))               
Пример #53
0
def add_countertop(product):
    product.add_prompt(name="Add Backsplash",prompt_type='CHECKBOX',value=True,tab_index=0)
    product.add_prompt(name="Add Left Backsplash",prompt_type='CHECKBOX',value=False,tab_index=0)
    product.add_prompt(name="Add Right Backsplash",prompt_type='CHECKBOX',value=False,tab_index=0)
    product.add_prompt(name="Side Splash Setback",prompt_type='DISTANCE',value=unit.inch(2.25),tab_index=0)
    product.add_prompt(name="Countertop Overhang Front",prompt_type='DISTANCE',value=unit.inch(1),tab_index=0)
    product.add_prompt(name="Countertop Overhang Back",prompt_type='DISTANCE',value=unit.inch(0),tab_index=0)
    product.add_prompt(name="Countertop Overhang Left",prompt_type='DISTANCE',value=unit.inch(0),tab_index=0)
    product.add_prompt(name="Countertop Overhang Right",prompt_type='DISTANCE',value=unit.inch(0),tab_index=0)
    Countertop_Overhang_Front = product.get_var('Countertop Overhang Front')
    Countertop_Overhang_Left = product.get_var('Countertop Overhang Left')
    Countertop_Overhang_Right = product.get_var('Countertop Overhang Right')
    Countertop_Overhang_Back = product.get_var('Countertop Overhang Back')
    Left_Side_Wall_Filler = product.get_var('Left Side Wall Filler')
    Right_Side_Wall_Filler = product.get_var('Right Side Wall Filler')
    Add_Backsplash = product.get_var('Add Backsplash')
    Add_Left_Backsplash = product.get_var('Add Left Backsplash')
    Add_Right_Backsplash = product.get_var('Add Right Backsplash')
    Side_Splash_Setback = product.get_var('Side Splash Setback')
    
    Width = product.get_var("dim_x","Width")
    Height = product.get_var("dim_z","Height")
    Depth = product.get_var("dim_y","Depth")
    
    ctop = cabinet_countertops.PRODUCT_Straight_Countertop()
    ctop.draw()
    ctop.obj_bp.mv.type_group = 'INSERT'
    ctop.obj_bp.parent = product.obj_bp
    ctop.x_loc('-Countertop_Overhang_Left-Left_Side_Wall_Filler',[Countertop_Overhang_Left,Left_Side_Wall_Filler])
    ctop.y_loc('Countertop_Overhang_Back',[Countertop_Overhang_Back])
    ctop.z_loc('Height',[Height])
    ctop.x_rot(value = 0)
    ctop.y_rot(value = 0)
    ctop.z_rot(value = 0)
    ctop.x_dim('Width+Countertop_Overhang_Left+Countertop_Overhang_Right+Left_Side_Wall_Filler+Right_Side_Wall_Filler',
               [Width,Countertop_Overhang_Left,Countertop_Overhang_Right,Left_Side_Wall_Filler,Right_Side_Wall_Filler])
    ctop.y_dim('Depth-Countertop_Overhang_Front-Countertop_Overhang_Back',[Depth,Countertop_Overhang_Front,Countertop_Overhang_Back])
    ctop.z_dim(value = unit.inch(4))
    ctop.prompt('Add Backsplash','Add_Backsplash',[Add_Backsplash])
    ctop.prompt('Add Left Backsplash','Add_Left_Backsplash',[Add_Left_Backsplash])
    ctop.prompt('Add Right Backsplash','Add_Right_Backsplash',[Add_Right_Backsplash])
    ctop.prompt('Side Splash Setback','Side_Splash_Setback',[Side_Splash_Setback])
    return ctop
Пример #54
0
    def draw(self):
        self.create_assembly()
        self.obj_bp["ISENTRYDOOR"] = True
        self.obj_bp.mv.dont_export = True
        
        if self.door_panel != "":
            self.add_tab(name='Main Options', tab_type='VISIBLE')
            self.add_tab(name='Formulas', tab_type='HIDDEN')
            self.add_prompt(name="Reverse Swing", prompt_type='CHECKBOX', value=False, tab_index=0)
            self.add_prompt(name="Door Rotation", prompt_type='ANGLE', value=0.0, tab_index=0)
            self.add_prompt(name="Hinge Placement", prompt_type='DISTANCE', value=unit.inch(18.0), tab_index=1)
            
            if self.double_door != True:
                self.add_prompt(name="Door Swing", prompt_type='COMBOBOX', items=["Left Swing", "Right Swing"], value=0, tab_index=0)
        
        Width = self.get_var('dim_x', 'Width')
        Height = self.get_var('dim_z', 'Height')
        Depth = self.get_var('dim_y', 'Depth')
        Door_Rotation = self.get_var('Door Rotation')
        Reverse_Swing = self.get_var("Reverse Swing")
        
        if self.double_door != True:
            Swing = self.get_var('Door Swing')

        door_frame = self.add_assembly(os.path.join(DOOR_FRAME_PATH,self.door_frame))
        door_frame.set_name("Door Frame")
        door_frame.x_dim('Width', [Width])
        door_frame.y_dim('Depth', [Depth])
        door_frame.z_dim('Height', [Height])
        door_frame.assign_material("Frame", MATERIAL_FILE, "White")   
        door_frame.draw_as_hidden_line()
        
        if self.door_panel != "":
            door_panel = self.add_assembly(os.path.join(DOOR_PANEL,self.door_panel))
            door_panel.set_name("Door Panel")
            
            if self.double_door != True:
                door_panel.x_loc('IF(Door_Swing==1,Width-INCH(3),INCH(3))',[Width, Swing])
                door_panel.y_loc('IF(Reverse_Swing,IF(Door_Swing==0,INCH(1.75),0),IF(Door_Swing==0,Depth,Depth-INCH(1.75)))',[Swing, Reverse_Swing, Depth])
                door_panel.z_rot('IF(Door_Swing==1,radians(180)+IF(Reverse_Swing,Door_Rotation,-Door_Rotation),IF(Reverse_Swing,-Door_Rotation,Door_Rotation))',
                                 [Door_Rotation, Swing, Reverse_Swing])
                
            else:
                door_panel.x_loc(value = unit.inch(3))
                door_panel.y_loc('Depth-IF(Reverse_Swing,INCH(4.25),INCH(0))',[Reverse_Swing, Depth])
                door_panel.z_rot('IF(Reverse_Swing,-Door_Rotation,Door_Rotation)',[Door_Rotation, Reverse_Swing])                

            door_panel.x_dim('Width-INCH(6)',[Width])
            door_panel.z_dim('Height-INCH(3.25)',[Height])
            door_panel.assign_material("Door", MATERIAL_FILE, "White")
            door_panel.assign_material("Glass", MATERIAL_FILE, "Glass")
            self.add_hardware(door_panel)
            
            door_handle = self.add_object(DOOR_HANDLE)
            door_handle.obj.parent = door_panel.obj_bp
            door_handle.set_name("Door Handle")
            door_handle.x_loc('Width-INCH(9)',[Width])
            door_handle.y_loc(value = unit.inch(-0.875))
            door_handle.z_loc(value = HANDLE_HEIGHT)
            door_handle.assign_material("Handle Color", MATERIAL_FILE, "Chrome")

        if self.double_door == True:
            door_panel.x_dim('(Width-INCH(6))*0.5',[Width])
            door_handle.x_loc('(Width*0.5)-INCH(6)',[Width])
        
            door_panel_right = self.add_assembly(os.path.join(DOOR_PANEL,self.door_panel))
            door_panel_right.set_name("Door Panel Right")
            door_panel_right.x_loc('Width-INCH(3)',[Width])
            door_panel_right.y_loc('Depth-INCH(1.75)-IF(Reverse_Swing,INCH(4.25),INCH(0))',[Reverse_Swing, Depth])
            door_panel_right.z_rot('radians(180)+IF(Reverse_Swing,Door_Rotation,-Door_Rotation)',[Door_Rotation, Reverse_Swing])
            door_panel_right.x_dim('(Width-INCH(6))*0.5',[Width])
            door_panel_right.z_dim('Height-INCH(3.25)',[Height])     
            door_panel_right.assign_material("Door", MATERIAL_FILE, "White")   
            door_panel_right.assign_material("Glass", MATERIAL_FILE, "Glass")
            self.add_hardware(door_panel_right, no_latch=True)  
                
            Dpr_Width = door_panel_right.get_var('dim_x','Dpr_Width')
            
            door_handle_right = self.add_object(DOOR_HANDLE)
            door_handle_right.set_name("Door Handle Right")
            door_handle_right.obj.parent = door_panel_right.obj_bp
            door_handle_right.x_loc('Dpr_Width-INCH(3)', [Dpr_Width])
            door_handle_right.y_loc(value = unit.inch(-0.875))
            door_handle_right.z_loc(value = HANDLE_HEIGHT)
            door_handle_right.assign_material("Handle Color", MATERIAL_FILE, "Chrome")
                
        self.update()