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Widget Form Validation with Schemas

Simple Widget Form Tutorial

This tutorial introduces you to the widget form system by building a simple application that accepts and displays comments.

The comments are listed on the index page and a link at the bottom of the page directs the user to add a comment. To keep things simple, we’re going to skip the database and just keep track of our comments in memory using a global comments variable.

The comments form itself requires both a name, an email address and a comment to be entered. If input to one of the fields is missing, the form is redisplayed along with a message next to the appropriate field. We’ve tossed in a checkbox field to give an example that widgets also handle values of other type than strings, i.e. booleans, integers etc.

Successfully completing a form adds the comment to the global comments variable and displays a success message on the index page.

Starting the Project

This tutorial starts with a pre-built project. Please download and unpack the provided archive with the complete example project and read the source code along with the tutorial. For a detailed explanation on how to create a new project, please read 20 Minute Wiki Tutorial.

If you’re not already familiar with the basics of what widgets are, and how they work, you’ll probably want to take a look at the widgets overview page.

Intro to Widgets and Forms

The single most common use of Widgets in a TurboGears project is in building forms.

Widgets make form creation really easy, because they address all the important aspects of form handling:

  • Defining which fields the form has
  • Injecting Javascript and CSS for a field if necessary
  • Defining which kind of input each field expects
  • Wrapping the fields into a form
  • Displaying the form
  • Validating form input
  • Displaying validation errors and re-displaying user input

For the purpose of this tutorial, we are interested in two main types of widgets: simple form field widgets – text inputs and checkboxes – and compound widgets like the form itself.

Simple form field widgets generally correspond to the default browser inputs but some, like the date picker, have extra smarts to make your user’s lives easier. You can get an overview of which widgets are available on your install by checking out the widget browser in the toolbox.

Compound widgets, like forms, usually act as containers for fields. In particular, a forms provides layout (Table or List) for it’s fields and is responsible for labels and error display.

There are many other types of standard widgets, and you can create you own custom widgets, but this is a simple widgets tutorial, so we’re keeping it simple. For more information about the widgets framework, you can start reading at the general widgets overview.

Defining the Form

With the introduction out of the way, let’s dive into the code. This is the form field declaration in FormsTutorial/controllers.py:

class CommentFields(widgets.WidgetsList):
    """The WidgetsList defines the fields of the form."""

    name = widgets.TextField(validator=validators.NotEmpty())
    email = widgets.TextField(validator=validators.Email(not_empty=True),
      attrs={'size':30})
    comment = widgets.TextArea(validator=validators.NotEmpty())
    notify = widgets.CheckBox(label="Notify me")

As you can see, the declaration looks quite a bit like a SQLObject class definition. The CommentFields class declares a list of four widgets, all of which are simple widgets corresponding to the similarly named <INPUT> tags in HTML. The first three are required text fields and the email field requires a well-formed email address.

Notice that we have not defined a field widget for the submit button. The TableForm and ListForm widgets take care of this for you by default and you can tweak it using their submit_text argument.

Now the above snippet won’t get you a form as is, it’s just a list of widgets. To build a form, you pass the list of widgets into a form constructor (both TableForm and ListForm are standard widgets) and get a compound form widget:

comment_form = widgets.TableForm(
    fields=CommentFields(),
    action="save"
)

Maybe you can guess what the extra action argument is for: it defines the action attribute of the form element in the generated HTML, which means that submissions from the form will go to http://mysite/save and will be handled by the save method of our controller.

Tip

If, for some reason, you do want to manage the submit button yourself, derive your own widget form class from TableForm or ListForm and overwrite the submit attribute with your own instance of a widgets.SubmitButton.

Interlude: Various Ways to Declare Forms

If you’ve run across some widget code samples elsewhere, the above may look a bit unusual. There are, in fact, two different ways to declare forms. This tutorial uses the declarative syntax, but you can pass a standard Python list of widgets directly to the form constructor:

#example only, not part of the tutorial code

example_form = widgets.TableForm(
    fields=[widgets.TextField(name="test",label="Example")],
)

Widgets declared using a widgets.WidgetList will automatically have their name set to the attribute name but are otherwise exactly as they would be if you created them as a list. When instantiated, the declarative form gets transformed (via some metaclass magic) into a standard Python list, so you can do list-like things before you use the list to create a form:

#example only, not part of the tutorial code

comment_fields2 = CommentFields()
comment_fields2.append(widgets.TextField(name='added'))
comment_form_2 = widgets.TableForm(
    fields=comment_fields2,
    submit_text="Submit Tweaked Form"
)

So why bother with the declarative setup? The declarative syntax provides more space to hang documentation and some think that it looks nicer. It also makes it easy to reuse a particular list of widgets in multiple forms and pages.

Tip

The project structure for this tutorial is intentionally simple, but most developers wind up creating a separate file (think forms.py is like model.py) or even a package to keep their forms organized.

Displaying the Comment Form

Working our way down controllers.py, our first stop is the add method. This method passes the widget form instance comment_form, which we just covered, to the template add.kid:

@expose(template='.templates.add')
def add(self, tg_errors=None):
    """Show the comment form."""

    if tg_errors:
        flash('There was a problem with the form!')
    return dict(form=comment_form)

Tip

You may notice that templates passed to @expose in this example don’t start with “formstutorial”. This is the relative import feature in Kid. Naming your templates this way simplifies project renaming.

We’ll talk about the tg_errors argument later. First, let’s have a look how the form widget is used in the template. Here’s the body contents of formstutorial/templates/add.kid:

<p py:content="form.display(submit_text='Add Comment')">Comment form</p>

Yep, that’s all there is to it.

The display method of a widget instance emits the HTML code to display the form on your page.

Form Display Continued

Now that you know the basics of declaring and instantiating forms, let’s take a closer look at the possibilities you have when you display the form.

The simplest way to display the form, as we just saw, is to call the forms display method:

${form.display()}

It’s also possible to call the instance directly and get the same behavior:

${form()}

For our comment form, this will produce the HTML output similar to the following:

<FORM ACTION="save" NAME="form" METHOD="post">
  <TABLE BORDER="0">
    <TR>
       <TD>
        <LABEL CLASS="fieldlabel" FOR="form_name">Name</LABEL>
        </TD>
        <TD>
          <INPUT CLASS="textfield" TYPE="text" ID="form_name" NAME="name">
        </TD>
      </TR>
      ...
      <TR>
        <TD>
        </TD>
        <TD>
          <INPUT TYPE="submit" CLASS="submitbutton">
        </TD>
      </TR>
    </TABLE>
</FORM>

You can see that the submit button has no value and will therefore be displayed with a language dependant default label because we didn’t set the form’s submit_text.

If you look at the generated FORM element, you’ll also note that its action attribute is set to the value of the action argument, which we specified when we created the form instance.

As a convenience, you can override both the action and submit_text arguments at display time:

${form(action="preview", submit_text='Preview Comment')}

Whether you want to specify action (or submit_text for that matter) when you create the form or when you display it, depends on whether you are reusing the form in another context or not and how closely coupled the form widget and the controller methods handling the form are in your application.

If you want to preset the form field values - for instance to edit already existing data - you pass the form values as the first argument:

${form(data, submit_text='Add Comment')}

You can also explicitly specify it as the value keyword argument:

${form(value=data, submit_text='Add Comment')}

Where data is a dictionary of the form:

data = dict(name='Joe', comment='Hello World', notify=True, ...)

Displaying forms is nice, but it really doesn’t help you out that much. Admittedly, some people write entire toolkits to do just this sort of thing (GWT, Pyjamas), but TurboGears widgets offer you more.

Form Field Validators

Validation ensures that the values you’re getting are the values your method is expecting. Sometimes this is critically important, other times it’s convenient, but quite a bit of time in web programming is traditionally tied up in displaying a form, processing the form, validating it’s values, and – in the event of errors– redisplaying the form with the errors marked. TurboGears widgets were created explicitly to solve this problem.

In practice, you get validation by adding validators to your widget declarations and setting the appropriate decorators on your form handling method. You can get super-fancy and do it other ways if necessary, but we’ll take the simple solutions for simple problems approach here.

#repeat, for convenience

class CommentFields(widgets.WidgetsList):
    """The WidgetsList defines the fields of the form."""

    name = widgets.TextField(validator=validators.NotEmpty())
    email = widgets.TextField(validator=validators.Email(not_empty=True),
      attrs={'size':30})
    comment = widgets.TextArea(validator=validators.NotEmpty())
    notify = widgets.CheckBox(label="Notify me")

If you look at the definition of CommentFields repeated above, you’ll see that there is a validator for each of the first three fields. These validators are part of the turbogears.validators package, which is a thin wrapper around Ian Bicking’s FormEncode project. Since all values in a form are sent as strings, validators will both,

  1. convert the value to the appropriate Python type, and ...
  2. check that the value matches your designated criteria.

Validators perform the two steps together because the value criteria frequently mean little until type conversion has taken place, or vice versa. In our tutorial, no type conversions were needed. But if, for example, your validator requires a numeric input be greater than 5 but your form input was "10", you have to convert the string "10" to the int 10 before a meaningful comparison can be made.

The first and third fields have a validators.NotEmpty validator, which explicitly states that they are required fields. The second field, with a validators.Email validator, is required as well. We explicitly state this by passing a not_empty=True, but adding a validator to the field generally makes that field required. The empty string, for example, is not a valid email address, so the email validator will fail. You can get validation on non-required fields by passing an if_empty="default value" argument to the validator’s constructor.

Form Processing

Turning our attention to the save method:

@expose()
@validate(form=comment_form)
@error_handler(add)
def save(self, name, email, comment, notify=False):
    """Handle submission from the comment form and save the comment."""

    comments.add(name, email, comment)
    if notify:
        flash('Comment added! You will be notified.')
    else:
        flash('Comment added!')
    redirect(url('/'))

Our method itself takes a set of arguments corresponding to the fields in the form. Tracking large numbers of fields is very inconvenient, so it’s common to just use keyword arguments instead:

@expose()
@validate(form=comment_form)
@error_handler(add)
def save(self, **data):
    comments.add(
        data['name'],
        data['email'],
        data['comment'
        data.get('notify', False)
    )
    #...

Using this syntax you get the data as a dictionary and you have to extract the field values from there. The use of .get() above is needed for the notify field, since this is not guaranteed to be included in the data and because there is no validator checking for its presence, while the other fields will be present for sure if there was no validation error.

Note

The form handling strips off the default submit field so that you don’t have to deal with it. If you add your own, it won’t be stripped.

Finally, the flash method displays a confirmation notice on the next page the user is redirected to, which is the index page with the list of comments.

Data Validation

Let’s take another, closer look at the save method. Our interest now lies not in its contents, but rather the decorators. We can see that the method is exposed without a template. It does need to be exposed or CherryPy will raise a 404. The lack of a template is fine because we’re going to redirect the user to another (output-providing) method depending on whether the input is valid or not.

The @validate() decorator extracts the various validators from the form, loops through them, and throws an error if problems are found. We’re glossing over details, but that’s the basic idea.

If @validate() does throw an error, the @error_handler decorator takes care of them. The first argument to @error_handler() is the error handling method. If a validation error occurs, @error_handler will call the error handling method with a tg_errors keyword argument receiving a dictionary of FormEncode validation errors.

In the example, we’re re-using add so that the form will be re-displayed if errors occur. Let’s have a look at the add method again:

@expose(template=".templates.form")
def add(self, tg_errors=None):
    if tg_errors:
        flash("There was a problem with the form!")
    return dict(form=comment_form)

The error handling method, if desired, could look into the tg_errors dictionary to see which fields validation has failed and act accordingly. In practice, most form error handlers simply do what we do here: put up a notification message and display the form showing the validation errors.

How do the errors show up on the form? Magic!

Note

Well, not really magic. The @validate() decorator puts the error dictionary into a request variable. The form checks for that variable at display time and routes errors appropriately if they’re present.

Conclusion

In this tutorial you have learned how to create a simple form widget composed of several form fields. You have seen how the widget is passed to the template, displayed and how submissions from the form are handled in the controller. You have also seen simple validators in action that simplify error handling for forms substantially.

This tutorial only covers basic widget usage. If you’d like to know more, explore the widgets overview and the check out the widget browser in the toolbox.

Download the Example Project

FormsTutorial-1.0.tgz

Note

The code for this example is courtesy of Michele Cella, but the individual files in the project have been updated to reflect changes in TurboGears versions over time and were adapted by various authors with respect to style, design etc.