Your first Wagtail site¶
Note
This tutorial covers setting up a brand new Wagtail project. If you’d like to add Wagtail to an existing Django project instead, see Integrating Wagtail into a Django project.
Install and run Wagtail¶
Install dependencies¶
Wagtail supports Python 3.7, 3.8, 3.9, 3.10, and 3.11.
To check whether you have an appropriate version of Python 3:
python --version
On Windows (cmd.exe, with the Python Launcher for Windows):
py --version
If this does not return a version number or returns a version lower than 3.7, you will need to install Python 3.
Note
Before installing Wagtail, it is necessary to install the libjpeg and zlib libraries, which provide support for working with JPEG, PNG and GIF images (via the Python Pillow library). The way to do this varies by platform—see Pillow’s platform-specific installation instructions.
Create and activate a virtual environment¶
We recommend using a virtual environment, which isolates installed dependencies from other projects.
This tutorial uses venv
, which is packaged with Python 3.
On Windows (cmd.exe):
py -m venv mysite\env
mysite\env\Scripts\activate.bat
# or:
mysite\env\Scripts\activate
On GNU/Linux or MacOS (bash):
python -m venv mysite/env
source mysite/env/bin/activate
For other shells see the venv
documentation.
Note
If you’re using version control (such as git), mysite
will be the directory for your project.
The env
directory inside of it should be excluded from any version control.
Install Wagtail¶
Use pip, which is packaged with Python, to install Wagtail and its dependencies:
pip install wagtail
Generate your site¶
Wagtail provides a start
command similar to django-admin startproject
.
Running wagtail start mysite
in your project will generate a new mysite
folder with a few Wagtail-specific extras, including
the required project settings,
a “home” app with a blank HomePage
model and basic templates,
and a sample “search” app.
Because the folder mysite
was already created by venv
, run wagtail start
with an additional argument to specify the destination directory:
wagtail start mysite mysite
Note
Generally, in Wagtail, each page type, or content type, is represented by a single app. However, different apps can be aware of each other and access each other’s data. All of the apps need to be registered within the INSTALLED_APPS
section of the settings.py
file. Look at this file to see how the start
command has listed them in there.
Install project dependencies¶
cd mysite
pip install -r requirements.txt
This ensures that you have the relevant versions of Wagtail, Django, and any other dependencies for the project you have just created.
The requirements.txt
file contains all the dependencies needed in order to run the project.
Create the database¶
If you haven’t updated the project settings, this will be a SQLite database file in the project directory.
python manage.py migrate
This command ensures that the tables in your database are matched to the models in your project. Every time you alter your model (for example you may add a field to a model) you will need to run this command in order to update the database.
Create an admin user¶
python manage.py createsuperuser
When logged into the admin site, a superuser has full permissions and is able to view/create/manage the database.
Start the server¶
python manage.py runserver
If everything worked, http://127.0.0.1:8000 will show you a welcome page:
Note
Throughout this tutorial we will use http://127.0.0.1:8000
but depending on your setup, this could be http://localhost:8000/
or a different IP address or port. Please read the console output of manage.py runserver
to determine the correct url for your local site.
You can now access the administrative area at http://127.0.0.1:8000/admin
Extend the HomePage model¶
Out of the box, the “home” app defines a blank HomePage
model in models.py
, along with a migration that creates a homepage and configures Wagtail to use it.
Edit home/models.py
as follows, to add a body
field to the model:
from django.db import models
from wagtail.models import Page
from wagtail.fields import RichTextField
from wagtail.admin.panels import FieldPanel
class HomePage(Page):
body = RichTextField(blank=True)
content_panels = Page.content_panels + [
FieldPanel('body'),
]
body
is defined as RichTextField
, a special Wagtail field. When blank=True
,
it means that this field is not required and can be empty. You
can use any of the Django core fields. content_panels
define the
capabilities and the layout of the editing interface. When you add fields to content_panels
, it enables them to be edited on the Wagtail interface. More on creating Page models.
Run python manage.py makemigrations
(this will create the migrations file), then
python manage.py migrate
(this executes the migrations and updates the database with your model
changes). You must run the above commands each time you make changes to
the model definition.
You can now edit the homepage within the Wagtail admin area (go to Pages, Homepage, then Edit) to see the new body field. Enter some text into the body field, and publish the page by selecting Publish at the bottom of the page editor, rather than Save Draft.
The page template now needs to be updated to reflect the changes made
to the model. Wagtail uses normal Django templates to render each page
type. By default, it will look for a template filename formed from the app and model name,
separating capital letters with underscores (for example HomePage within the ‘home’ app becomes
home/home_page.html
). This template file can exist in any location recognised by
Django’s template rules; conventionally it is placed under a templates
folder within the app.
Edit home/templates/home/home_page.html
to contain the following:
{% extends "base.html" %}
{% load wagtailcore_tags %}
{% block body_class %}template-homepage{% endblock %}
{% block content %}
{{ page.body|richtext }}
{% endblock %}
base.html
refers to a parent template and must always be the first template tag used in a template. Extending from this template saves you from rewriting code and allows pages across your app to share a similar frame (by using block tags in the child template, you are able to override specific content within the parent template).
wagtailcore_tags
must also be loaded at the top of the template and provide additional tags to those provided by Django.
A basic blog¶
We are now ready to create a blog. To do so, run
python manage.py startapp blog
to create a new app in your Wagtail site.
Add the new blog
app to INSTALLED_APPS
in mysite/settings/base.py
.
Blog Index and Posts¶
Lets start with a simple index page for our blog. In blog/models.py
:
from wagtail.models import Page
from wagtail.fields import RichTextField
from wagtail.admin.panels import FieldPanel
class BlogIndexPage(Page):
intro = RichTextField(blank=True)
content_panels = Page.content_panels + [
FieldPanel('intro')
]
Run python manage.py makemigrations
and python manage.py migrate
.
Since the model is called BlogIndexPage
, the default template name
(unless we override it) will be blog_index_page.html
. Django will look for a template whose name matches the name of your Page model within the templates directory in your blog app folder. This default behaviour can be overridden if needed.
To create a template for the BlogIndexPage
model, create a file at the location blog/templates/blog/blog_index_page.html
.
Note
You may need to create the folders templates/blog
within your blog
app folder
In your blog_index_page.html
file enter the following content:
{% extends "base.html" %}
{% load wagtailcore_tags %}
{% block body_class %}template-blogindexpage{% endblock %}
{% block content %}
<h1>{{ page.title }}</h1>
<div class="intro">{{ page.intro|richtext }}</div>
{% for post in page.get_children %}
<h2><a href="{% pageurl post %}">{{ post.title }}</a></h2>
{{ post.specific.intro }}
{{ post.specific.body|richtext }}
{% endfor %}
{% endblock %}
Most of this should be familiar, but we’ll explain get_children
a bit later.
Note the pageurl
tag, which is similar to Django’s url
tag but
takes a Wagtail Page object as an argument.
In the Wagtail admin, go to Pages, then Home.
Add a child page to the Home page by clicking on the “Actions” icon and selecting the option “Add child page”.
Choose “Blog index page” from the list of the page types.
Use “Our Blog” as your page title, make sure it has the slug “blog” on the Promote tab, and publish it.
You should now be able to access the url http://127.0.0.1:8000/blog
on your site
(note how the slug from the Promote tab defines the page URL).
Now we need a model and template for our blog posts. In blog/models.py
:
from django.db import models
from wagtail.models import Page
from wagtail.fields import RichTextField
from wagtail.admin.panels import FieldPanel
from wagtail.search import index
# Keep the definition of BlogIndexPage, and add:
class BlogPage(Page):
date = models.DateField("Post date")
intro = models.CharField(max_length=250)
body = RichTextField(blank=True)
search_fields = Page.search_fields + [
index.SearchField('intro'),
index.SearchField('body'),
]
content_panels = Page.content_panels + [
FieldPanel('date'),
FieldPanel('intro'),
FieldPanel('body'),
]
In the model above, we import index
as this makes the model searchable. You can then list fields that you want to be searchable for the user.
Run python manage.py makemigrations
and python manage.py migrate
.
Create a new template file at the location blog/templates/blog/blog_page.html
. Now add the following content to your newly created blog_page.html
file:
{% extends "base.html" %}
{% load wagtailcore_tags %}
{% block body_class %}template-blogpage{% endblock %}
{% block content %}
<h1>{{ page.title }}</h1>
<p class="meta">{{ page.date }}</p>
<div class="intro">{{ page.intro }}</div>
{{ page.body|richtext }}
<p><a href="{{ page.get_parent.url }}">Return to blog</a></p>
{% endblock %}
Note the use of Wagtail’s built-in get_parent()
method to obtain the
URL of the blog this post is a part of.
Now create a few blog posts as children of BlogIndexPage
.
Be sure to select type “Blog Page” when creating your posts.
Wagtail gives you full control over what kinds of content can be created under various parent content types. By default, any page type can be a child of any other page type.
Publish each blog post when you are done editing.
You should now have the very beginnings of a working blog.
Access the /blog
URL and you should see something like this:
Titles should link to post pages, and a link back to the blog’s homepage should appear in the footer of each post page.
Parents and Children¶
Much of the work you’ll be doing in Wagtail revolves around the concept of hierarchical
“tree” structures consisting of nodes and leaves (see Theory).
In this case, the BlogIndexPage
is a “node” and individual BlogPage
instances
are the “leaves”.
Take another look at the guts of blog_index_page.html
:
{% for post in page.get_children %}
<h2><a href="{% pageurl post %}">{{ post.title }}</a></h2>
{{ post.specific.intro }}
{{ post.specific.body|richtext }}
{% endfor %}
Every “page” in Wagtail can call out to its parent or children
from its own position in the hierarchy. But why do we have to
specify post.specific.intro
rather than post.intro
?
This has to do with the way we defined our model:
class BlogPage(Page):
The get_children()
method gets us a list of instances of the Page
base class.
When we want to reference properties of the instances that inherit from the base class,
Wagtail provides the specific
method that retrieves the actual BlogPage
record.
While the “title” field is present on the base Page
model, “intro” is only present
on the BlogPage
model, so we need .specific
to access it.
To tighten up template code like this, we could use Django’s with
tag:
{% for post in page.get_children %}
{% with post=post.specific %}
<h2><a href="{% pageurl post %}">{{ post.title }}</a></h2>
<p>{{ post.intro }}</p>
{{ post.body|richtext }}
{% endwith %}
{% endfor %}
When you start writing more customised Wagtail code, you’ll find a whole set of QuerySet modifiers to help you navigate the hierarchy.
# Given a page object 'somepage':
MyModel.objects.descendant_of(somepage)
child_of(page) / not_child_of(somepage)
ancestor_of(somepage) / not_ancestor_of(somepage)
parent_of(somepage) / not_parent_of(somepage)
sibling_of(somepage) / not_sibling_of(somepage)
# ... and ...
somepage.get_children()
somepage.get_ancestors()
somepage.get_descendants()
somepage.get_siblings()
For more information, see: Page QuerySet reference
Overriding Context¶
There are a couple of problems with our blog index view:
Blogs generally display content in reverse chronological order
We want to make sure we’re only displaying published content.
To accomplish these things, we need to do more than just grab the index
page’s children in the template. Instead, we’ll want to modify the
QuerySet in the model definition. Wagtail makes this possible via
the overridable get_context()
method. Modify your BlogIndexPage
model like this:
class BlogIndexPage(Page):
intro = RichTextField(blank=True)
def get_context(self, request):
# Update context to include only published posts, ordered by reverse-chron
context = super().get_context(request)
blogpages = self.get_children().live().order_by('-first_published_at')
context['blogpages'] = blogpages
return context
All we’ve done here is retrieve the original context, create a custom QuerySet,
add it to the retrieved context, and return the modified context back to the view.
You’ll also need to modify your blog_index_page.html
template slightly.
Change:
{% for post in page.get_children %}
to {% for post in blogpages %}
Now try unpublishing one of your posts - it should disappear from the blog index page. The remaining posts should now be sorted with the most recently published posts first.
Images¶
Let’s add the ability to attach an image gallery to our blog posts. While it’s possible to simply insert images into the body
rich text field, there are several advantages to setting up our gallery images as a new dedicated object type within the database - this way, you have full control of the layout and styling of the images on the template, rather than having to lay them out in a particular way within the rich text field. It also makes it possible for the images to be used elsewhere, independently of the blog text - for example, displaying a thumbnail on the blog index page.
Add a new BlogPageGalleryImage
model to models.py
:
from django.db import models
# New imports added for ParentalKey, Orderable, InlinePanel
from modelcluster.fields import ParentalKey
from wagtail.models import Page, Orderable
from wagtail.fields import RichTextField
from wagtail.admin.panels import FieldPanel, InlinePanel
from wagtail.search import index
# ... (Keep the definition of BlogIndexPage, and update BlogPage:)
class BlogPage(Page):
date = models.DateField("Post date")
intro = models.CharField(max_length=250)
body = RichTextField(blank=True)
search_fields = Page.search_fields + [
index.SearchField('intro'),
index.SearchField('body'),
]
content_panels = Page.content_panels + [
FieldPanel('date'),
FieldPanel('intro'),
FieldPanel('body'),
InlinePanel('gallery_images', label="Gallery images"),
]
class BlogPageGalleryImage(Orderable):
page = ParentalKey(BlogPage, on_delete=models.CASCADE, related_name='gallery_images')
image = models.ForeignKey(
'wagtailimages.Image', on_delete=models.CASCADE, related_name='+'
)
caption = models.CharField(blank=True, max_length=250)
panels = [
FieldPanel('image'),
FieldPanel('caption'),
]
Run python manage.py makemigrations
and python manage.py migrate
.
There are a few new concepts here, so let’s take them one at a time:
Inheriting from Orderable
adds a sort_order
field to the model, to keep track of the ordering of images in the gallery.
The ParentalKey
to BlogPage
is what attaches the gallery images to a specific page. A ParentalKey
works similarly to a ForeignKey
, but also defines BlogPageGalleryImage
as a “child” of the BlogPage
model, so that it’s treated as a fundamental part of the page in operations like submitting for moderation, and tracking revision history.
image
is a ForeignKey
to Wagtail’s built-in Image
model, where the images themselves are stored. This appears in the page editor as a pop-up interface for choosing an existing image or uploading a new one. This way, we allow an image to exist in multiple galleries - effectively, we’ve created a many-to-many relationship between pages and images.
Specifying on_delete=models.CASCADE
on the foreign key means that if the image is deleted from the system, the gallery entry is deleted as well. (In other situations, it might be appropriate to leave the entry in place - for example, if an “our staff” page included a list of people with headshots, and one of those photos was deleted, we’d rather leave the person in place on the page without a photo. In this case, we’d set the foreign key to blank=True, null=True, on_delete=models.SET_NULL
.)
Finally, adding the InlinePanel
to BlogPage.content_panels
makes the gallery images available on the editing interface for BlogPage
.
Adjust your blog page template to include the images:
{% extends "base.html" %}
{% load wagtailcore_tags wagtailimages_tags %}
{% block body_class %}template-blogpage{% endblock %}
{% block content %}
<h1>{{ page.title }}</h1>
<p class="meta">{{ page.date }}</p>
<div class="intro">{{ page.intro }}</div>
{{ page.body|richtext }}
{% for item in page.gallery_images.all %}
<div style="float: left; margin: 10px">
{% image item.image fill-320x240 %}
<p>{{ item.caption }}</p>
</div>
{% endfor %}
<p><a href="{{ page.get_parent.url }}">Return to blog</a></p>
{% endblock %}
Here we use the {% image %}
tag (which exists in the wagtailimages_tags
library, imported at the top of the template) to insert an <img>
element, with a fill-320x240
parameter to indicate that the image should be resized and cropped to fill a 320x240 rectangle. You can read more about using images in templates in the docs.
Since our gallery images are database objects in their own right, we can now query and re-use them independently of the blog post body. Let’s define a main_image
method, which returns the image from the first gallery item (or None
if no gallery items exist):
class BlogPage(Page):
date = models.DateField("Post date")
intro = models.CharField(max_length=250)
body = RichTextField(blank=True)
def main_image(self):
gallery_item = self.gallery_images.first()
if gallery_item:
return gallery_item.image
else:
return None
search_fields = Page.search_fields + [
index.SearchField('intro'),
index.SearchField('body'),
]
content_panels = Page.content_panels + [
FieldPanel('date'),
FieldPanel('intro'),
FieldPanel('body'),
InlinePanel('gallery_images', label="Gallery images"),
]
This method is now available from our templates. Update blog_index_page.html
to include the main image as a thumbnail alongside each post:
{% load wagtailcore_tags wagtailimages_tags %}
...
{% for post in blogpages %}
{% with post=post.specific %}
<h2><a href="{% pageurl post %}">{{ post.title }}</a></h2>
{% with post.main_image as main_image %}
{% if main_image %}{% image main_image fill-160x100 %}{% endif %}
{% endwith %}
<p>{{ post.intro }}</p>
{{ post.body|richtext }}
{% endwith %}
{% endfor %}
Tagging Posts¶
Let’s say we want to let editors “tag” their posts, so that readers can, for example,
view all bicycle-related content together. For this, we’ll need to invoke
the tagging system bundled with Wagtail, attach it to the BlogPage
model and content panels, and render linked tags on the blog post template.
Of course, we’ll need a working tag-specific URL view as well.
First, alter models.py
once more:
from django.db import models
# New imports added for ClusterTaggableManager, TaggedItemBase, MultiFieldPanel
from modelcluster.fields import ParentalKey
from modelcluster.contrib.taggit import ClusterTaggableManager
from taggit.models import TaggedItemBase
from wagtail.models import Page, Orderable
from wagtail.fields import RichTextField
from wagtail.admin.panels import FieldPanel, InlinePanel, MultiFieldPanel
from wagtail.search import index
# ... (Keep the definition of BlogIndexPage)
class BlogPageTag(TaggedItemBase):
content_object = ParentalKey(
'BlogPage',
related_name='tagged_items',
on_delete=models.CASCADE
)
class BlogPage(Page):
date = models.DateField("Post date")
intro = models.CharField(max_length=250)
body = RichTextField(blank=True)
tags = ClusterTaggableManager(through=BlogPageTag, blank=True)
# ... (Keep the main_image method and search_fields definition)
content_panels = Page.content_panels + [
MultiFieldPanel([
FieldPanel('date'),
FieldPanel('tags'),
], heading="Blog information"),
FieldPanel('intro'),
FieldPanel('body'),
InlinePanel('gallery_images', label="Gallery images"),
]
Run python manage.py makemigrations
and python manage.py migrate
.
Note the new modelcluster
and taggit
imports, the addition of a new
BlogPageTag
model, and the addition of a tags
field on BlogPage
.
We’ve also taken the opportunity to use a MultiFieldPanel
in content_panels
to group the date and tags fields together for readability.
Edit one of your BlogPage
instances, and you should now be able to tag posts:
To render tags on a BlogPage
, add this to blog_page.html
:
{% if page.tags.all.count %}
<div class="tags">
<h3>Tags</h3>
{% for tag in page.tags.all %}
<a href="{% slugurl 'tags' %}?tag={{ tag }}"><button type="button">{{ tag }}</button></a>
{% endfor %}
</div>
{% endif %}
Notice that we’re linking to pages here with the builtin slugurl
tag rather than pageurl
, which we used earlier. The difference is that slugurl
takes a
Page slug (from the Promote tab) as an argument. pageurl
is more commonly used because it
is unambiguous and avoids extra database lookups. But in the case of this loop, the Page object
isn’t readily available, so we fall back on the less-preferred slugurl
tag.
Visiting a blog post with tags should now show a set of linked
buttons at the bottom - one for each tag. However, clicking a button
will get you a 404, since we haven’t yet defined a “tags” view. Add to models.py
:
class BlogTagIndexPage(Page):
def get_context(self, request):
# Filter by tag
tag = request.GET.get('tag')
blogpages = BlogPage.objects.filter(tags__name=tag)
# Update template context
context = super().get_context(request)
context['blogpages'] = blogpages
return context
Note that this Page-based model defines no fields of its own.
Even without fields, subclassing Page
makes it a part of the
Wagtail ecosystem, so that you can give it a title and URL in the
admin, and so that you can manipulate its contents by returning
a QuerySet from its get_context()
method.
Migrate this in, then create a new BlogTagIndexPage
in the admin.
You’ll probably want to create the new page/view as a child of Homepage,
parallel to your Blog index. Give it the slug “tags” on the Promote tab.
Access /tags
and Django will tell you what you probably already knew:
you need to create a template blog/blog_tag_index_page.html
:
{% extends "base.html" %}
{% load wagtailcore_tags %}
{% block content %}
{% if request.GET.tag %}
<h4>Showing pages tagged "{{ request.GET.tag }}"</h4>
{% endif %}
{% for blogpage in blogpages %}
<p>
<strong><a href="{% pageurl blogpage %}">{{ blogpage.title }}</a></strong><br />
<small>Revised: {{ blogpage.latest_revision_created_at }}</small><br />
{% if blogpage.author %}
<p>By {{ blogpage.author.profile }}</p>
{% endif %}
</p>
{% empty %}
No pages found with that tag.
{% endfor %}
{% endblock %}
We’re calling the built-in latest_revision_created_at
field on the Page
model - handy to know this is always available.
We haven’t yet added an “author” field to our BlogPage
model, nor do we have
a Profile model for authors - we’ll leave those as an exercise for the reader.
Clicking the tag button at the bottom of a BlogPost should now render a page something like this:
Categories¶
Let’s add a category system to our blog. Unlike tags, where a page author can bring a tag into existence simply by using it on a page, our categories will be a fixed list, managed by the site owner through a separate area of the admin interface.
First, we define a BlogCategory
model. A category is not a page in its own right, and so we define it as a standard Django models.Model
rather than inheriting from Page
. Wagtail introduces the concept of “snippets” for reusable pieces of content that need to be managed through the admin interface, but do not exist as part of the page tree themselves; a model can be registered as a snippet by adding the @register_snippet
decorator. All the field types we’ve used so far on pages can be used on snippets too - here we’ll give each category an icon image as well as a name. Add to blog/models.py
:
from wagtail.snippets.models import register_snippet
@register_snippet
class BlogCategory(models.Model):
name = models.CharField(max_length=255)
icon = models.ForeignKey(
'wagtailimages.Image', null=True, blank=True,
on_delete=models.SET_NULL, related_name='+'
)
panels = [
FieldPanel('name'),
FieldPanel('icon'),
]
def __str__(self):
return self.name
class Meta:
verbose_name_plural = 'blog categories'
Note
Note that we are using panels
rather than content_panels
here - since snippets generally have no need for fields such as slug or publish date, the editing interface for them is not split into separate ‘content’ / ‘promote’ / ‘settings’ tabs as standard, and so there is no need to distinguish between ‘content panels’ and ‘promote panels’.
Migrate this change by running python manage.py makemigrations
and python manage.py migrate
. Create a few categories through the Snippets area which now appears in the admin menu.
We can now add categories to the BlogPage
model, as a many-to-many field. The field type we use for this is ParentalManyToManyField
- this is a variant of the standard Django ManyToManyField
which ensures that the chosen objects are correctly stored against the page record in the revision history, in much the same way that ParentalKey
replaces ForeignKey
for one-to-many relations.To add categories to the BlogPage
, modify models.py
in your blog app folder:
# New imports added for forms and ParentalManyToManyField
from django import forms
from django.db import models
from modelcluster.fields import ParentalKey, ParentalManyToManyField
from modelcluster.contrib.taggit import ClusterTaggableManager
from taggit.models import TaggedItemBase
# ...
class BlogPage(Page):
date = models.DateField("Post date")
intro = models.CharField(max_length=250)
body = RichTextField(blank=True)
tags = ClusterTaggableManager(through=BlogPageTag, blank=True)
categories = ParentalManyToManyField('blog.BlogCategory', blank=True)
# ... (Keep the main_image method and search_fields definition)
content_panels = Page.content_panels + [
MultiFieldPanel([
FieldPanel('date'),
FieldPanel('tags'),
FieldPanel('categories', widget=forms.CheckboxSelectMultiple),
], heading="Blog information"),
FieldPanel('intro'),
FieldPanel('body'),
InlinePanel('gallery_images', label="Gallery images"),
]
Here we’re making use of the widget
keyword argument on the FieldPanel
definition to specify a checkbox-based widget instead of the default multiple select box, as this is often considered more user-friendly.
Finally, we can update the blog_page.html
template to display the categories:
<h1>{{ page.title }}</h1>
<p class="meta">{{ page.date }}</p>
{% with categories=page.categories.all %}
{% if categories %}
<h3>Posted in:</h3>
<ul>
{% for category in categories %}
<li style="display: inline">
{% image category.icon fill-32x32 style="vertical-align: middle" %}
{{ category.name }}
</li>
{% endfor %}
</ul>
{% endif %}
{% endwith %}
Where next¶
Learn how to implement StreamField for freeform page content
Browse through the advanced topics section and read third-party tutorials