.. index:: View; internal, View; external, View; ways of displaying pair: View; context .. _advanced-view-concepts: ====================== Advanced View Concepts ====================== The preceding chapters of this Manual give an overview of how to use the View class to quickly construct a simple window for a single HasTraits object. This chapter explores a number of more complex techniques that significantly increase the power and versatility of the View object. * *Internal Views:* Views can be defined as attributes of a HasTraits class; one class can have multiple views. View attributes can be inherited by subclasses. * *External Views:* A view can be defined as a module variable, inline as a function or method argument, or as an attribute of a :term:`Handler`. * *Ways of displaying Views:* You can display a View by calling configure_traits() or edit_traits() on a HasTraits object, or by calling the ui() method on the View object. * *View context:* You can pass a context to any of the methods for displaying views, which is a dictionary of labels and objects. In the default case, this dictionary contains only one object, referenced as 'object', but you can define contexts that contain multiple objects. * *Include objects:* You can use an Include object as a placeholder for view items defined elsewhere. .. index: View; internal .. _internal-views: Internal Views -------------- In the examples thus far, the View objects have been external. That is to say, they have been defined outside the model (HasTraits object or objects) that they are used to display. This approach is in keeping with the separation of the two concepts prescribed by the :term:`MVC` design pattern. There are cases in which it is useful to define a View within a HasTraits class. In particular, it can be useful to associate one or more Views with a particular type of object so that they can be incorporated into other parts of the application with little or no additional programming. Further, a View that is defined within a model class is inherited by any subclasses of that class, a phenomenon called *visual inheritance*. .. _defining-a-default-view: Defining a Default View ``````````````````````` .. index:: default view, View; default It is easy to define a default view for a HasTraits class: simply create a View attribute called **traits_view** for that class. Consider the following variation on Example 3: .. index:: configure_traits(); default view example, default view; example .. index:: examples; default view .. _example-5-using-configure-traits-with-a-default-view-object: .. rubric:: Example 5: Using configure_traits() with a default View object .. literalinclude:: examples/default_traits_view.py :start-at: default_traits_view.py In this example, configure_traits() no longer requires a *view* keyword argument; the **traits_view** attribute is used by default, resulting in the same display as in Figure 3: .. figure:: images/ui_for_ex3.jpg :alt: User interface showing three fields enclosed in a border Figure 5: User interface for Example 5 It is not strictly necessary to call this View attribute **traits_view**. If exactly one View attribute is defined for a HasTraits class, that View is always treated as the default display template for the class. However, if there are multiple View attributes for the class (as discussed in the next section), if one is named 'traits_view', it is always used as the default. .. index:: default_traits_view(); default view method, default view Sometimes, it is necessary to build a view based on the state of the object when it is being built. In such cases, defining the view statically is limiting, so one can override the default_traits_view() method of a HasTraits object. The example above would be implemented as follows: .. _example-5b-using-default-traits-view: .. rubric:: Example 5b: Building a default View object with default_traits_view() .. literalinclude:: examples/default_traits_view2.py :start-at: default_traits_view2.py This pattern can be useful for situations where the layout of GUI elements depends on the state of the object. For instance, to populate the values of a :ref:`checklisteditor` with items read in from a file, it would be useful to build the default view this way. .. index:: View; multiple, multiple Views .. _defining-multiple-views-within-the-model: Defining Multiple Views Within the Model ```````````````````````````````````````` Sometimes it is useful to have more than one pre-defined view for a model class. In the case of the SimpleEmployee class, one might want to have both a "public information" view like the one above and an "all information" view. One can do this by simply adding a second View attribute: .. index:: pair: examples; multiple Views .. _example-6-defining-multiple-view-objects-in-a-hastraits-class: .. rubric:: Example 6: Defining multiple View objects in a HasTraits class .. literalinclude:: examples/multiple_views.py :start-at: multiple_views.py .. index:: traits_view attribute, configure_traits(); view parameter As before, a simple call to configure_traits() for an object of this class produces a window based on the default View (**traits_view**). In order to use the alternate View, use the same syntax as for an external view, except that the View name is specified in single quotes to indicate that it is associated with the object rather than being a module-level variable:: configure_traits(view='all_view'). Note that if more than one View is defined for a model class, you must indicate which one is to be used as the default by naming it ``traits_view``. Otherwise, TraitsUI gives preference to none of them, and instead tries to construct a default View, resulting in a simple alphabetized display as described in :ref:`the-view-and-its-building-blocks`. For this reason, it is usually preferable to name a model's default View traits_view even if there are no other Views; otherwise, simply defining additional Views, even if they are never used, can unexpectedly change the behavior of the GUI. .. index:: View; external .. _separating-model-and-view-external-views: Separating Model and View: External Views ----------------------------------------- In all the preceding examples in this guide, the concepts of model and view have remained closely coupled. In some cases the view has been defined in the model class, as in :ref:`internal-views`; in other cases the configure_traits() method that produces a window from a View has been called from a HasTraits object. However, these strategies are simply conveniences; they are not an intrinsic part of the relationship between model and view in TraitsUI. This section begins to explore how the TraitsUI package truly supports the separation of model and view prescribed by the :term:`MVC` design pattern. An *external* view is one that is defined outside the model classes. In Traits UI, you can define a named View wherever you can define a variable or class attribute. [7]_ A View can even be defined in-line as a function or method argument, for example:: object.configure_traits( view=View( Group( Item(name='a'), Item(name='b'), Item(name='c'), ), ), ) However, this approach is apt to obfuscate the code unless the View is very simple. :ref:`Example 2 ` through :ref:`Example 4 ` demonstrate external Views defined as variables. One advantage of this convention is that the variable name provides an easily accessible "handle" for re-using the View. This technique does not, however, support visual inheritance. A powerful alternative is to define a View within the :term:`controller` (Handler) class that controls the window for that View. [8]_ This technique is described in :ref:`controlling-the-interface-the-handler`. .. index:: View; methods for displaying .. _displaying-a-view: Displaying a View ----------------- TraitsUI provides three methods for creating a window or panel from a View object. The first two, configure_traits() and edit_traits(), are defined on the HasTraits class, which is a superclass of all Traits-based model classes, as well as of Handler and its subclasses. The third method, ui(), is defined on the View class itself. .. index:: configure_traits(); method .. _configure-traits: configure_traits() `````````````````` The configure_traits() method creates a standalone window for a given View object, i.e., it does not require an existing GUI to run in. It is therefore suitable for building command-line functions, as well as providing an accessible tool for the beginning TraitsUI programmer. The configure_traits() method also provides options for saving :term:`trait attribute` values to and restoring them from a file. Refer to the *Traits API Reference* for details. .. index:: edit_traits() .. _edit-traits: edit_traits() ````````````` The edit_traits() method is very similar to configure_traits(), with two major exceptions. First, it is designed to run from within a larger application whose GUI is already defined. Second, it does not provide options for saving data to and restoring data from a file, as it is assumed that these operations are handled elsewhere in the application. .. index:: ui() .. _ui: ui() ```` The View object includes a method called ui(), which performs the actual generation of the window or panel from the View for both edit_traits() and configure_traits(). The ui() method is also available directly through the TraitsUI API; however, using one of the other two methods is usually preferable. [9]_ The ui() method has five keyword parameters: * *kind* * *context* * *handler* * *parent* * *view_elements* The first four are identical in form and function to the corresponding arguments of edit_traits(), except that *context* is not optional; the following section explains why. The fifth argument, *view_elements*, is used only in the context of a call to ui() from a model object method, i.e., from configure_traits() or edit_traits(), Therefore it is irrelevant in the rare cases when ui() is used directly by client code. It contains a dictionary of the named :term:`ViewElement` objects defined for the object whose configure_traits() (or edit_traits()) method was called.. .. index:: context .. _the-view-context: The View Context ---------------- All three of the methods described in :ref:`displaying-a-view` have a *context* parameter. This parameter can be a single object or a dictionary of string/object pairs; the object or objects are the model objects whose traits attributes are to be edited. In general a "context" is a Python dictionary whose keys are strings; the key strings are used to look up the values. In the case of the *context* parameter to the ui() method, the dictionary values are objects. In the special case where only one object is relevant, it can be passed directly instead of wrapping it in a dictionary. When the ui() method is called from configure_traits() or edit_traits() on a HasTraits object, the relevant object is the HasTraits object whose method was called. .. NOTE:: There are some situations in which you may want to override the default context used for a particular HasTraits class. To do this, simpy override the :py:meth:`~.traits.has_traits.HasTraits.trait_context` method on the object. For this reason, you do not need to specify the *context* argument in most calls to configure_traits() or edit_traits(). However, when you call the ui() method on a View object, you *must* specify the *context* parameter, so that the ui() method receives references to the objects whose trait attributes you want to modify. So, if configure_traits() figures out the relevant context for you, why call ui() at all? One answer lies in *multi-object Views*. .. index:: multi-object Views, View; multi-object .. _multi-object-views: Multi-Object Views `````````````````` A multi-object view is any view whose contents depend on multiple "independent" model objects, i.e., objects that are not attributes of one another. For example, suppose you are building a real estate listing application, and want to display a window that shows two properties side by side for a comparison of price and features. This is straightforward in TraitsUI, as the following example shows: .. index:: examples; context, context; examples, examples; multi-object Views .. index:: multi-object Views; examples .. _example-7-using-a-multi-object-view-with-a-context: .. rubric:: Example 7: Using a multi-object view with a context .. literalinclude:: examples/multi_object_view.py :start-at: multi_object_view.py .. FIXME: This is a bit assymmetrical. Can we clean it up without complicating the example overly? The resulting window has the desired appearance: [10]_ .. figure:: images/ui_for_ex7.jpg :alt: UI showing side-by-side groups. Figure 6: User interface for Example 7 For the purposes of this particular example, it makes sense to create a separate Group for each model object, and to use two model objects of the same class. Note, however, that neither is a requirement. .. index:: extended trait names; Item name attribute Notice that the Item definitions in Example 7 use the same type of extended trait attribute syntax as is supported for the on_trait_change() dynamic trait change notification method. In fact, Item **name** attributes can reference any trait attribute that is reachable from an object in the context. This is true regardless of whether the context contains a single object or multiple objects. For example:: Item('object.axle.chassis.serial_number') where `"object"` is the literal name which refers to the top-level object being viewed. (Note that `"object"` is **not** some user-defined attribute name like `"axle"` in this example.) More precisely, `"object"` is the default name, in the view's `context` dictionary, of this top-level viewed object (see :ref:`advanced-view-concepts`). Because an Item can refer only to a single trait, do not use extended trait references that refer to multiple traits, since the behavior of such references is not defined. Also, avoid extended trait references where one of the intermediate objects could be None, because there is no way to obtain a valid reference from None. Refer to the `Traits User Manual `_, in the chapter on trait notification, for details of the extended trait name syntax. .. index:: object: Include .. _include-objects: Include Objects --------------- In addition to the Item and Group class, a third building block class for Views exists in TraitsUI: the Include class. For the sake of completeness, this section gives a brief description of Include objects and their purpose and usage. However, they are not commonly used as of this writing, and should be considered unsupported pending redesign. In essence, an Include object is a placeholder for a named Group or Item object that is specified outside the Group or View in which it appears. For example, the following two definitions, taken together, are equivalent to the third: .. index:: pair: examples; Include .. _example-8-using-an-include-object: .. rubric:: Example 8: Using an Include object :: # This fragment... my_view = View( Group(Item('a'), Item('b')), Include('my_group'), ) # ...plus this fragment... my_group = Group( Item('c'), Item('d'), Item('e'), ) #...are equivalent to this: my_view = View( Group(Item('a'), Item('b')), Group(Item('c'), Item('d'), Item('e')), ) This opens an interesting possibility when a View is part of a model class: any Include objects belonging to that View can be defined differently for different instances or subclasses of that class. This technique is called *view parameterization*. .. rubric:: Footnotes .. [7] Note that although the definition of a View within a HasTraits class has the syntax of a trait attribute definition, the resulting View is not stored as an attribute of the class. .. [8] Assuming there is one; not all GUIs require an explicitly defined Handler. .. [9] One possible exception is the case where a View object is defined as a variable (i.e., outside any class) or within a custom Handler, and is associated more or less equally with multiple model objects; see :ref:`multi-object-views`. .. [10] If the script were designed to run within an existing GUI, it would make sense to replace the last line with ``comp_view.ui(context={'h1': house1, 'h2': house2})``, since neither object particularly dominates the view. However, the examples in this Manual are designed to be fully executable from the Python command line, which is why configure_traits() was used instead.