Warning

Starting from CubicWeb version 4.0 all code related to generating html views has been moved to the Cube cubicweb_web.

If you want to migrate a project from 3.38 to 4.* while still using all the html views you need to both install the cubicweb_web cube AND add it to your dependencies and run add_cube('web').

cubicweb_web can be installed from pypi this way:

pip install cubicweb_web

We don’t plan to maintain the features in cubicweb_web in the long run; we are moving to a full javascript frontend using both cubicweb_api (which exposes a HTTP API) and @cubicweb/client as a frontend javascript toolkit.

In the long run cubicweb_api will be merged inside of CubicWeb.

Examples#

(Automatic) Entity form#

Looking at some cubes available on the cubicweb forge we find some with form manipulation. The following example comes from the the conference cube. It extends the change state form for the case where a Talk entity is getting into submitted state. The goal is to select reviewers for the submitted talk.

from cubicweb.web import formfields as ff, formwidgets as fwdgs
class SendToReviewerStatusChangeView(ChangeStateFormView):
    __select__ = (ChangeStateFormView.__select__ &
                  is_instance('Talk') &
                  rql_condition('X in_state S, S name "submitted"'))

    def get_form(self, entity, transition, **kwargs):
        form = super(SendToReviewerStatusChangeView, self).get_form(entity, transition, **kwargs)
        relation = ff.RelationField(name='reviews', role='object',
                                    eidparam=True,
                                    label=_('select reviewers'),
                                    widget=fwdgs.Select(multiple=True))
        form.append_field(relation)
        return form

Simple extension of a form can be done from within the FormView wrapping the form. FormView instances have a handy get_form method that returns the form to be rendered. Here we add a RelationField to the base state change form.

One notable point is the eidparam argument: it tells both the field and the edit controller that the field is linked to a specific entity.

It is hence entirely possible to add ad-hoc fields that will be processed by some specialized instance of the edit controller.

Ad-hoc fields form#

We want to define a form doing something else than editing an entity. The idea is to propose a form to send an email to entities in a resultset which implements IEmailable. Let’s take a simplified version of what you’ll find in cubicweb.web.views.massmailing.

Here is the source code:

def sender_value(form, field):
    return '%s <%s>' % (form._cw.user.dc_title(), form._cw.user.get_email())

def recipient_choices(form, field):
    return [(e.get_email(), e.eid)
             for e in form.cw_rset.entities()
             if e.get_email()]

def recipient_value(form, field):
    return [e.eid for e in form.cw_rset.entities()
            if e.get_email()]

class MassMailingForm(forms.FieldsForm):
    __regid__ = 'massmailing'

    needs_js = ('cubicweb.widgets.js',)
    domid = 'sendmail'
    action = 'sendmail'

    sender = ff.StringField(widget=TextInput({'disabled': 'disabled'}),
                            label=_('From:'),
                            value=sender_value)

    recipient = ff.StringField(widget=CheckBox(),
                               label=_('Recipients:'),
                               choices=recipient_choices,
                               value=recipients_value)

    subject = ff.StringField(label=_('Subject:'), max_length=256)

    mailbody = ff.StringField(widget=AjaxWidget(wdgtype='TemplateTextField',
                                                inputid='mailbody'))

    form_buttons = [ImgButton('sendbutton', "javascript: $('#sendmail').submit()",
                              _('send email'), 'SEND_EMAIL_ICON'),
                    ImgButton('cancelbutton', "javascript: history.back()",
                              stdmsgs.BUTTON_CANCEL, 'CANCEL_EMAIL_ICON')]

Let’s detail what’s going on up there. Our form will hold four fields:

  • a sender field, which is disabled and will simply contains the user’s name and email

  • a recipients field, which will be displayed as a list of users in the context result set with checkboxes so user can still choose who will receive his mailing by checking or not the checkboxes. By default all of them will be checked since field’s value return a list containing same eids as those returned by the vocabulary function.

  • a subject field, limited to 256 characters (hence we know a TextInput will be used, as explained in StringField)

  • a mailbody field. This field use an ajax widget, defined in cubicweb.widgets.js, and whose definition won’t be shown here. Notice though that we tell this form need this javascript file by using needs_js

Last but not least, we add two buttons control: one to post the form using javascript ($(‘#sendmail’) being the jQuery call to get the element with DOM id set to ‘sendmail’, which is our form DOM id as specified by its domid attribute), another to cancel the form which will go back to the previous page using another javascript call. Also we specify an image to use as button icon as a resource identifier (see Step 1: tired of the default look?) given as last argument to cubicweb.web.formwidgets.ImgButton.

To see this form, we still have to wrap it in a view. This is pretty simple:

class MassMailingFormView(form.FormViewMixIn, EntityView):
    __regid__ = 'massmailing'
    __select__ = is_instance(IEmailable) & authenticated_user()

    def call(self):
        form = self._cw.vreg['forms'].select('massmailing', self._cw,
                                             rset=self.cw_rset)
        form.render(w=self.w)

As you see, we simply define a view with proper selector so it only apply to a result set containing IEmailable entities, and so that only users in the managers or users group can use it. Then in the call() method for this view we simply select the above form and call its .render() method with our output stream as argument.

When this form is submitted, a controller with id ‘sendmail’ will be called (as specified using action). This controller will be responsible to actually send the mail to specified recipients.

Here is what it looks like:

class SendMailController(Controller):
    __regid__ = 'sendmail'
    __select__ = (authenticated_user() &
                  match_form_params('recipient', 'mailbody', 'subject'))

    def publish(self, rset=None):
        body = self._cw.form['mailbody']
        subject = self._cw.form['subject']
        eids = self._cw.form['recipient']
        # eids may be a string if only one recipient was specified
        if isinstance(eids, basestring):
            rset = self._cw.execute('Any X WHERE X eid %(x)s', {'x': eids})
        else:
            rset = self._cw.execute('Any X WHERE X eid in (%s)' % (','.join(eids)))
        recipients = list(rset.entities())
        msg = format_mail({'email' : self._cw.user.get_email(),
                           'name' : self._cw.user.dc_title()},
                          recipients, body, subject)
        if not self._cw.vreg.config.sendmails([(msg, recipients)]):
            msg = self._cw._('could not connect to the SMTP server')
        else:
            msg = self._cw._('emails successfully sent')
        raise Redirect(self._cw.build_url(__message=msg))

The entry point of a controller is the publish method. In that case we simply get back post values in request’s form attribute, get user instances according to eids found in the ‘recipient’ form value, and send email after calling format_mail() to get a proper email message. If we can’t send email or if we successfully sent email, we redirect to the index page with proper message to inform the user.

Also notice that our controller has a selector that deny access to it to anonymous users (we don’t want our instance to be used as a spam relay), but also checks if the expected parameters are specified in forms. That avoids later defensive programming (though it’s not enough to handle all possible error cases).

To conclude our example, suppose we wish a different form layout and that existent renderers are not satisfying (we would check that first of course :). We would then have to define our own renderer:

class MassMailingFormRenderer(formrenderers.FormRenderer):
    __regid__ = 'massmailing'

    def _render_fields(self, fields, w, form):
        w(u'<table class="headersform">')
        for field in fields:
            if field.name == 'mailbody':
                w(u'</table>')
                w(u'<div id="toolbar">')
                w(u'<ul>')
                for button in form.form_buttons:
                    w(u'<li>%s</li>' % button.render(form))
                w(u'</ul>')
                w(u'</div>')
                w(u'<div>')
                w(field.render(form, self))
                w(u'</div>')
            else:
                w(u'<tr>')
                w(u'<td class="hlabel">%s</td>' %
                  self.render_label(form, field))
                w(u'<td class="hvalue">')
                w(field.render(form, self))
                w(u'</td></tr>')

    def render_buttons(self, w, form):
        pass

We simply override the _render_fields and render_buttons method of the base form renderer to arrange fields as we desire it: here we’ll have first a two columns table with label and value of the sender, recipients and subject field (form order respected), then form controls, then a div containing the textarea for the email’s content.

To bind this renderer to our form, we should add to our form definition above:

form_renderer_id = 'massmailing'