After a decade or extra the place Single-Web page-Functions generated by
JavaScript frameworks have
grow to be the norm, we see that server-side rendered HTML is changing into
fashionable once more, additionally because of libraries resembling HTMX or Turbo. Writing a wealthy net UI in a
historically server-side language like Go or Java is not simply potential,
however a really engaging proposition.
We then face the issue of easy methods to write automated assessments for the HTML
components of our net functions. Whereas the JavaScript world has advanced highly effective and refined methods to check the UI,
ranging in dimension from unit-level to integration to end-to-end, in different
languages we don’t have such a richness of instruments obtainable.
When writing an internet utility in Go or Java, HTML is usually generated
by means of templates, which comprise small fragments of logic. It’s definitely
potential to check them not directly by means of end-to-end assessments, however these assessments
are sluggish and costly.
We will as an alternative write unit assessments that use CSS selectors to probe the
presence and proper content material of particular HTML parts inside a doc.
Parameterizing these assessments makes it straightforward so as to add new assessments and to obviously
point out what particulars every check is verifying. This strategy works with any
language that has entry to an HTML parsing library that helps CSS
selectors; examples are supplied in Go and Java.
Motivation
Why test-drive HTML templates? In spite of everything, probably the most dependable method to verify
{that a} template works is to render it to HTML and open it in a browser,
proper?
There’s some fact on this; unit assessments can’t show {that a} template
works as anticipated when rendered in a browser, so checking them manually
is critical. And if we make a
mistake within the logic of a template, normally the template breaks
in an apparent manner, so the error is shortly noticed.
Then again:
- Counting on handbook assessments solely is dangerous; what if we make a change that breaks
a template, and we do not check it as a result of we didn’t assume it could impression the
template? We might get an error at runtime! - Templates typically comprise logic, resembling if-then-else’s or iterations over arrays of things,
and when the array is empty, we regularly want to point out one thing completely different.
Handbook checking all instances, for all of those bits of logic, turns into unsustainable in a short time - There are errors that aren’t seen within the browser. Browsers are extraordinarily
tolerant of inconsistencies in HTML, counting on heuristics to repair our damaged
HTML, however then we would get completely different leads to completely different browsers, on completely different gadgets. It is good
to verify that the HTML buildings we’re constructing in our templates correspond to
what we expect.
It seems that test-driving HTML templates is simple; let’s have a look at easy methods to
do it in Go and Java. I might be utilizing as a place to begin the TodoMVC
template, which is a pattern utility used to showcase JavaScript
frameworks.
We’ll see methods that may be utilized to any programming language and templating expertise, so long as we have now
entry to an acceptable HTML parser.
This text is a bit lengthy; it’s your decision to try the
closing answer in Go or
in Java,
or soar to the conclusions.
Stage 1: checking for sound HTML
The primary factor we wish to verify is that the HTML we produce is
mainly sound. I do not imply to verify that HTML is legitimate in response to the
W3C; it could be cool to do it, but it surely’s higher to start out with a lot less complicated and quicker checks.
For example, we wish our assessments to
break if the template generates one thing like
<div>foo</p>
Let’s examine easy methods to do it in phases: we begin with the next check that
tries to compile the template. In Go we use the usual html/template
bundle.
Go
func Test_wellFormedHtml(t *testing.T) { templ := template.Should(template.ParseFiles("index.tmpl")) _ = templ }
In Java, we use jmustache
as a result of it is quite simple to make use of; Freemarker or
Velocity are different frequent decisions.
Java
@Take a look at void indexIsSoundHtml() { var template = Mustache.compiler().compile( new InputStreamReader( getClass().getResourceAsStream("/index.tmpl"))); }
If we run this check, it would fail, as a result of the index.tmpl
file does
not exist. So we create it, with the above damaged HTML. Now the check ought to cross.
Then we create a mannequin for the template to make use of. The applying manages a todo-list, and
we are able to create a minimal mannequin for demonstration functions.
Go
func Test_wellFormedHtml(t *testing.T) {
templ := template.Should(template.ParseFiles("index.tmpl"))
mannequin := todo.NewList()
_ = templ
_ = mannequin
}
Java
@Take a look at
void indexIsSoundHtml() {
var template = Mustache.compiler().compile(
new InputStreamReader(
getClass().getResourceAsStream("/index.tmpl")));
var mannequin = new TodoList();
}
Now we render the template, saving the leads to a bytes buffer (Go) or as a String
(Java).
Go
func Test_wellFormedHtml(t *testing.T) {
templ := template.Should(template.ParseFiles("index.tmpl"))
mannequin := todo.NewList()
var buf bytes.Buffer
err := templ.Execute(&buf, mannequin)
if err != nil {
panic(err)
}
}
Java
@Take a look at
void indexIsSoundHtml() {
var template = Mustache.compiler().compile(
new InputStreamReader(
getClass().getResourceAsStream("/index.tmpl")));
var mannequin = new TodoList();
var html = template.execute(mannequin);
}
At this level, we wish to parse the HTML and we count on to see an
error, as a result of in our damaged HTML there’s a div
component that
is closed by a p
component. There may be an HTML parser within the Go
normal library, however it’s too lenient: if we run it on our damaged HTML, we do not get an
error. Fortunately, the Go normal library additionally has an XML parser that may be
configured to parse HTML (because of this Stack Overflow reply)
Go
func Test_wellFormedHtml(t *testing.T) {
templ := template.Should(template.ParseFiles("index.tmpl"))
mannequin := todo.NewList()
// render the template right into a buffer
var buf bytes.Buffer
err := templ.Execute(&buf, mannequin)
if err != nil {
panic(err)
}
// verify that the template could be parsed as (lenient) XML
decoder := xml.NewDecoder(bytes.NewReader(buf.Bytes()))
decoder.Strict = false
decoder.AutoClose = xml.HTMLAutoClose
decoder.Entity = xml.HTMLEntity
for {
_, err := decoder.Token()
swap err {
case io.EOF:
return // We're accomplished, it is legitimate!
case nil:
// do nothing
default:
t.Fatalf("Error parsing html: %s", err)
}
}
}
This code configures the HTML parser to have the precise degree of leniency
for HTML, after which parses the HTML token by token. Certainly, we see the error
message we wished:
--- FAIL: Test_wellFormedHtml (0.00s) index_template_test.go:61: Error parsing html: XML syntax error on line 4: sudden finish component </p>
In Java, a flexible library to make use of is jsoup:
Java
@Take a look at
void indexIsSoundHtml() {
var template = Mustache.compiler().compile(
new InputStreamReader(
getClass().getResourceAsStream("/index.tmpl")));
var mannequin = new TodoList();
var html = template.execute(mannequin);
var parser = Parser.htmlParser().setTrackErrors(10);
Jsoup.parse(html, "", parser);
assertThat(parser.getErrors()).isEmpty();
}
And we see it fail:
java.lang.AssertionError: Anticipating empty however was:<[<1:13>: Unexpected EndTag token [</p>] when in state [InBody],
Success! Now if we copy over the contents of the TodoMVC
template to our index.tmpl
file, the check passes.
The check, nevertheless, is just too verbose: we extract two helper features, in
order to make the intention of the check clearer, and we get
Go
func Test_wellFormedHtml(t *testing.T) { mannequin := todo.NewList() buf := renderTemplate("index.tmpl", mannequin) assertWellFormedHtml(t, buf) }
Java
@Take a look at void indexIsSoundHtml() { var mannequin = new TodoList(); var html = renderTemplate("/index.tmpl", mannequin); assertSoundHtml(html); }
Stage 2: testing HTML construction
What else ought to we check?
We all know that the appears of a web page can solely be examined, finally, by a
human taking a look at how it’s rendered in a browser. Nonetheless, there’s typically
logic in templates, and we wish to have the ability to check that logic.
One is perhaps tempted to check the rendered HTML with string equality,
however this system fails in observe, as a result of templates comprise a number of
particulars that make string equality assertions impractical. The assertions
grow to be very verbose, and when studying the assertion, it turns into tough
to know what it’s that we’re attempting to show.
What we want
is a way to say that some components of the rendered HTML
correspond to what we count on, and to ignore all the main points we do not
care about. A technique to do that is by working queries with the CSS selector language:
it’s a highly effective language that permits us to pick out the
parts that we care about from the entire HTML doc. As soon as we have now
chosen these parts, we (1) depend that the variety of component returned
is what we count on, and (2) that they comprise the textual content or different content material
that we count on.
The UI that we’re alleged to generate appears like this:
There are a number of particulars which can be rendered dynamically:
- The variety of gadgets and their textual content content material change, clearly
- The type of the todo-item adjustments when it is accomplished (e.g., the
second) - The “2 gadgets left” textual content will change with the variety of non-completed
gadgets - One of many three buttons “All”, “Lively”, “Accomplished” might be
highlighted, relying on the present url; as an illustration if we resolve that the
url that reveals solely the “Lively” gadgets is/energetic
, then when the present url
is/energetic
, the “Lively” button needs to be surrounded by a skinny crimson
rectangle - The “Clear accomplished” button ought to solely be seen if any merchandise is
accomplished
Every of this considerations could be examined with the assistance of CSS selectors.
This can be a snippet from the TodoMVC template (barely simplified). I
haven’t but added the dynamic bits, so what we see right here is static
content material, supplied for instance:
index.tmpl
<part class="todoapp"> <ul class="todo-list"> <!-- These are right here simply to point out the construction of the listing gadgets --> <!-- Record gadgets ought to get the category `accomplished` when marked as accomplished --> <li class="accomplished"> ② <div class="view"> <enter class="toggle" sort="checkbox" checked> <label>Style JavaScript</label> ① <button class="destroy"></button> </div> </li> <li> <div class="view"> <enter class="toggle" sort="checkbox"> <label>Purchase a unicorn</label> ① <button class="destroy"></button> </div> </li> </ul> <footer class="footer"> <!-- This needs to be `0 gadgets left` by default --> <span class="todo-count"><robust>0</robust> merchandise left</span> ⓷ <ul class="filters"> <li> <a class="chosen" href="#/">All</a> ④ </li> <li> <a href="#/energetic">Lively</a> </li> <li> <a href="#/accomplished">Accomplished</a> </li> </ul> <!-- Hidden if no accomplished gadgets are left ↓ --> <button class="clear-completed">Clear accomplished</button> ⑤ </footer> </part>
By wanting on the static model of the template, we are able to deduce which
CSS selectors can be utilized to establish the related parts for the 5 dynamic
options listed above:
characteristic | CSS selector | |
---|---|---|
① | All of the gadgets | ul.todo-list li |
② | Accomplished gadgets | ul.todo-list li.accomplished |
⓷ | Objects left | span.todo-count |
④ | Highlighted navigation hyperlink | ul.filters a.chosen |
⑤ | Clear accomplished button | button.clear-completed |
We will use these selectors to focus our assessments on simply the issues we wish to check.
Testing HTML content material
The primary check will search for all of the gadgets, and show that the information
arrange by the check is rendered accurately.
func Test_todoItemsAreShown(t *testing.T) { mannequin := todo.NewList() mannequin.Add("Foo") mannequin.Add("Bar") buf := renderTemplate(mannequin) // assert there are two <li> parts contained in the <ul class="todo-list"> // assert the primary <li> textual content is "Foo" // assert the second <li> textual content is "Bar" }
We’d like a method to question the HTML doc with our CSS selector; an excellent
library for Go is goquery, that implements an API impressed by jQuery.
In Java, we hold utilizing the identical library we used to check for sound HTML, particularly
jsoup. Our check turns into:
Go
func Test_todoItemsAreShown(t *testing.T) { mannequin := todo.NewList() mannequin.Add("Foo") mannequin.Add("Bar") buf := renderTemplate("index.tmpl", mannequin) // parse the HTML with goquery doc, err := goquery.NewDocumentFromReader(bytes.NewReader(buf.Bytes())) if err != nil { // if parsing fails, we cease the check right here with t.FatalF t.Fatalf("Error rendering template %s", err) } // assert there are two <li> parts contained in the <ul class="todo-list"> choice := doc.Discover("ul.todo-list li") assert.Equal(t, 2, choice.Size()) // assert the primary <li> textual content is "Foo" assert.Equal(t, "Foo", textual content(choice.Nodes[0])) // assert the second <li> textual content is "Bar" assert.Equal(t, "Bar", textual content(choice.Nodes[1])) } func textual content(node *html.Node) string { // A little bit mess attributable to the truth that goquery has // a .Textual content() methodology on Choice however not on html.Node sel := goquery.Choice{Nodes: []*html.Node{node}} return strings.TrimSpace(sel.Textual content()) }
Java
@Take a look at void todoItemsAreShown() throws IOException { var mannequin = new TodoList(); mannequin.add("Foo"); mannequin.add("Bar"); var html = renderTemplate("/index.tmpl", mannequin); // parse the HTML with jsoup Doc doc = Jsoup.parse(html, ""); // assert there are two <li> parts contained in the <ul class="todo-list"> var choice = doc.choose("ul.todo-list li"); assertThat(choice).hasSize(2); // assert the primary <li> textual content is "Foo" assertThat(choice.get(0).textual content()).isEqualTo("Foo"); // assert the second <li> textual content is "Bar" assertThat(choice.get(1).textual content()).isEqualTo("Bar"); }
If we nonetheless have not modified the template to populate the listing from the
mannequin, this check will fail, as a result of the static template
todo gadgets have completely different textual content:
Go
--- FAIL: Test_todoItemsAreShown (0.00s) index_template_test.go:44: First listing merchandise: need Foo, received Style JavaScript index_template_test.go:49: Second listing merchandise: need Bar, received Purchase a unicorn
Java
IndexTemplateTest > todoItemsAreShown() FAILED org.opentest4j.AssertionFailedError: Anticipating: <"Style JavaScript"> to be equal to: <"Foo"> however was not.
We repair it by making the template use the mannequin knowledge:
Go
<ul class="todo-list"> {{ vary .Objects }} <li> <div class="view"> <enter class="toggle" sort="checkbox"> <label>{{ .Title }}</label> <button class="destroy"></button> </div> </li> {{ finish }} </ul>
Java – jmustache
<ul class="todo-list"> {{ #allItems }} <li> <div class="view"> <enter class="toggle" sort="checkbox"> <label>{{ title }}</label> <button class="destroy"></button> </div> </li> {{ /allItems }} </ul>
Take a look at each content material and soundness on the identical time
Our check works, however it’s a bit verbose, particularly the Go model. If we’ll have extra
assessments, they may grow to be repetitive and tough to learn, so we make it extra concise by extracting a helper operate for parsing the html. We additionally take away the
feedback, because the code needs to be clear sufficient
Go
func Test_todoItemsAreShown(t *testing.T) { mannequin := todo.NewList() mannequin.Add("Foo") mannequin.Add("Bar") buf := renderTemplate("index.tmpl", mannequin) doc := parseHtml(t, buf) choice := doc.Discover("ul.todo-list li") assert.Equal(t, 2, choice.Size()) assert.Equal(t, "Foo", textual content(choice.Nodes[0])) assert.Equal(t, "Bar", textual content(choice.Nodes[1])) } func parseHtml(t *testing.T, buf bytes.Buffer) *goquery.Doc { doc, err := goquery.NewDocumentFromReader(bytes.NewReader(buf.Bytes())) if err != nil { // if parsing fails, we cease the check right here with t.FatalF t.Fatalf("Error rendering template %s", err) } return doc }
Java
@Take a look at void todoItemsAreShown() throws IOException { var mannequin = new TodoList(); mannequin.add("Foo"); mannequin.add("Bar"); var html = renderTemplate("/index.tmpl", mannequin); var doc = parseHtml(html); var choice = doc.choose("ul.todo-list li"); assertThat(choice).hasSize(2); assertThat(choice.get(0).textual content()).isEqualTo("Foo"); assertThat(choice.get(1).textual content()).isEqualTo("Bar"); } personal static Doc parseHtml(String html) { return Jsoup.parse(html, ""); }
Significantly better! A minimum of for my part. Now that we extracted the parseHtml
helper, it is
a good suggestion to verify for sound HTML within the helper:
Go
func parseHtml(t *testing.T, buf bytes.Buffer) *goquery.Doc {
assertWellFormedHtml(t, buf)
doc, err := goquery.NewDocumentFromReader(bytes.NewReader(buf.Bytes()))
if err != nil {
// if parsing fails, we cease the check right here with t.FatalF
t.Fatalf("Error rendering template %s", err)
}
return doc
}
Java
personal static Doc parseHtml(String html) { var parser = Parser.htmlParser().setTrackErrors(10); var doc = Jsoup.parse(html, "", parser); assertThat(parser.getErrors()).isEmpty(); return doc; }
And with this, we are able to do away with the primary check that we wrote, as we are actually testing for sound HTML on a regular basis.
The second check
Now we’re in an excellent place for testing extra rendering logic. The
second dynamic characteristic in our listing is “Record gadgets ought to get the category
accomplished
when marked as accomplished”. We will write a check for this:
Go
func Test_completedItemsGetCompletedClass(t *testing.T) { mannequin := todo.NewList() mannequin.Add("Foo") mannequin.AddCompleted("Bar") buf := renderTemplate("index.tmpl", mannequin) doc := parseHtml(t, buf) choice := doc.Discover("ul.todo-list li.accomplished") assert.Equal(t, 1, choice.Dimension()) assert.Equal(t, "Bar", textual content(choice.Nodes[0])) }
Java
@Take a look at void completedItemsGetCompletedClass() { var mannequin = new TodoList(); mannequin.add("Foo"); mannequin.addCompleted("Bar"); var html = renderTemplate("/index.tmpl", mannequin); Doc doc = Jsoup.parse(html, ""); var choice = doc.choose("ul.todo-list li.accomplished"); assertThat(choice).hasSize(1); assertThat(choice.textual content()).isEqualTo("Bar"); }
And this check could be made inexperienced by including this little bit of logic to the
template:
Go
<ul class="todo-list">
{{ vary .Objects }}
<li class="{{ if .IsCompleted }}accomplished{{ finish }}">
<div class="view">
<enter class="toggle" sort="checkbox">
<label>{{ .Title }}</label>
<button class="destroy"></button>
</div>
</li>
{{ finish }}
</ul>
Java – jmustache
<ul class="todo-list">
{{ #allItems }}
<li class="{{ #isCompleted }}accomplished{{ /isCompleted }}">
<div class="view">
<enter class="toggle" sort="checkbox">
<label>{{ title }}</label>
<button class="destroy"></button>
</div>
</li>
{{ /allItems }}
</ul>
So little by little, we are able to check and add the assorted dynamic options
that our template ought to have.