ZK Testing with Selenium IDE
Robert Wenzel, Engineer, Potix Corporation
July 2013
ZK 6.5 (or later)
Introduction
About this article
nice application, how to test ... refer to zats... some things need to be tested in a real browser, so selenium comes into play... how to create tests
programmatically... link to older Small Talk?? or use Selenium-IDE to record/tweak/maintain!! and replay/debug -- this article :D
Environment
- Firefox (used with 21.0)
- Selenium IDE 2.0.0
- JDK 6/7
- ZK 6.5.3 6/7
- Maven 3.0
Steps
Initialize your testing environment
- download Selenium IDE 2.0.0 link
- Maven 3.0
- download link
- setup maven
- download link (test project)
- maven: mvn jetty:run
- localhost:8080
(- war file ) ???
Initial Situation
- Launch Selenium IDE CTRL+ALT+S
- open example app localhost:8080
- Record login-test and replay it
New Test | ||
open | /selenium_testing/login.zul | |
type | id=jXDW5 | test |
type | id=jXDW8 | test |
clickAndWait | id=jXDWb |
Looks hard to read / maintain and doesn't even work :'(
Looking at the recorded commands and comparing with page source we notice the IDs are generated and changing with every request. So no chance to record / replay this way.
A way to make the IDs predictable is shown in the next Section.
Custom Id Generator
As mentioned in other Small Talks about testing one strategy is to use a custom IdGenerator implementation to create predictable, readable (with a business meaning) and easily selectable (by selenium) component ids.
public class TestingIdGenerator implements IdGenerator {
public String nextComponentUuid(Desktop desktop, Component comp,
ComponentInfo compInfo) {
int i = Integer.parseInt(desktop.getAttribute("Id_Num").toString());
i++;// Start from 1
StringBuilder uuid = new StringBuilder("");
desktop.setAttribute("Id_Num", String.valueOf(i));
if(compInfo != null) {
String id = getId(compInfo);
if(id != null) {
uuid.append(id).append("_");
}
String tag = compInfo.getTag();
if(tag != null) {
uuid.append(tag).append("_");
}
}
return uuid.length() == 0 ? "zkcomp_" + i : uuid.append(i).toString();
}
The IDs will look like this:
- {id}_{tag}_{##} (for components with a given id)
- {tag}_{##} (for components without a given id - e.g. listitems in a listbox)
- {zkcomp}_{##} (for other cases, just to make them unique)
e.g. a button in zul-file
<button id="login" label="login" />
will become something like this in HTML in browser (number can vary):
<button id="login_button_12" class="z-button-os" type="button">login</button>
In order to separate production from test configuration we can include an additional config file at startup to enable the TestingIdGenerator only for testing. In ZK this is possible by setting the library property org.zkoss.zk.config.path (also refer to our Testing Tips)
- e.g. via VM argument -Dorg.zkoss.zk.config.path=/WEB-INF/zk-test.xml
Windows:
set MAVEN_OPTS=-Dorg.zkoss.zk.config.path=/WEB-INF/zk-test.xml mvn jetty:run
Linux:
export MAVEN_OPTS=-Dorg.zkoss.zk.config.path=/WEB-INF/zk-test.xml mvn jetty:run
TODO: improve using maven profiles...
Now we get nicer and deterministic IDs when recording a test case.
After recording login-test again and we get this:
login test | ||
---|---|---|
open | /selenium_testing/login.zul | |
type | id=username_textbox_6 | test |
type | id=password_textbox_9 | test |
clickAndWait | id=login_button_12 |
This already looks nice, and self explaining - Unfortunately still fails to replay :(
Why this happens and how to fix it? See next section ...
ZK specific details
ZK heavily uses JavaScript and Selenium IDE does not record all events by default.
in our case here the "blur" events of the input fields have not been recorded, but ZK relies on them to determine updated fields. So we need to manually add selenium commands "fireEvent target blur" unfortunately Selenium does not offer a nice equivalent like "focus" action.
login test | ||
---|---|---|
open | /selenium_testing/login.zul | |
type | id=username_textbox_6 | test |
fireEvent | id=username_textbox_6 | blur |
type | id=password_textbox_9 | test |
fireEvent | id=password_textbox_9 | blur |
clickAndWait | id=login_button_12 | |
assertLocation | glob:*/selenium_testing/index.zul | |
verifyTextPresent | Welcome test | |
verifyTextPresent | Feedback Overview |
Replaying the script finally works :D, and we see the overview page (also added a few verifications for that).
Selenium Extensions
If you find the syntax of "fireEvent" hard to remember or think it is too inconvenient to add an additional line just to update an input field there's help using a Selenium Core extension. The extension - file usually called user-extensions.js and can be used in both Selenium-IDE and Selenium RC when running the tests outside of Selenium IDE (please refer to [selenium documentation]).
This snippet shows 2 simple custom actions:
- blur
- convenience action to avoid "fireEvent locator blur"
- typeAndBlur
- combines the type with a blur event, to make ZK aware of the input change automatically
Selenium.prototype.doBlur = function(locator) {
// All locator-strategies are automatically handled by "findElement"
var element = this.page().findElement(locator);
// Fire the "blur" event
triggerEvent(element, "blur", false);
};
Selenium.prototype.doTypeAndBlur = function(locator, text) {
// All locator-strategies are automatically handled by "findElement"
var element = this.page().findElement(locator);
// Replace the element text with the new text
this.page().replaceText(element, text);
// Fire the "blur" event
triggerEvent(element, "blur", false);
};
To enable it just download the example file, and add it to the Selenium-IDE configuration. (the file contains another extension ... more about that later in "making tests more robust and maintainable to UI updates")
- (Selenium-IDE Options > Options... > [General -Tab] > Selenium Core extensions)
Then restart Selenium-IDE - close the window, and reopen it - e.g. by [CTRL+ALT+S]
Adapted test using the blur action:
login test | ||
---|---|---|
open | /selenium_testing/login.zul | |
type | id=username_textbox_6 | test |
blur | id=username_textbox_6 | |
type | id=password_textbox_9 | test |
blur | id=password_textbox_9 | |
clickAndWait | id=login_button_12 |
Same test using the typeAndBlur:
login test | ||
---|---|---|
open | /selenium_testing/login.zul | |
typeAndBlur | id=username_textbox_6 | test |
typeAndBlur | id=password_textbox_9 | test |
clickAndWait | id=login_button_12 |
It is not required to use either of these extensions, but saving 1 line for each input is my personal preference.
Another thing to keep in mind is robustness and maintenance effort of test-cases when changes in the UI happen ... the generated numbers in the end of each ID are still an obstacle on this way as they are prone to change everytime a component is added or removed above that component.
Wouldn't it be nice to avoid having to adapt test cases that often? Read on...
Improve robustness and maintainability of Test Scripts
Locators in Selenium
To remove the hard coded running numbers of the component IDs from our test cases Selenium offers e.g. XPath or CSS locators.
Using XPath is it possible to select a node by its ID-prefix:
//input[starts-with(@id, 'username_')]
This will work as long as the prefix "username_" is unique on the page, otherwise will perform the action on the first element found. So it is a good idea for this scenario to give widgets suitable IDs (plus: it will also improve the readability of source code).
In more complex cases one can select nested components to distinguish components with the same ID (e.g. in different ID spaces). e.g. if the "street" component appears several times on the page use this:
//div[starts-with(@id, 'deliveryAddress_')]//input[starts-with(@id, 'street_')] //div[starts-with(@id, 'billingAddress_')]//input[starts-with(@id, 'street_')]
Another example using locating the delete button in the currently selected row of a listbox using ID prefixes, CSS-class and text comparison.
//div[starts-with(@id, 'overviewList_')]//tr[contains(@class, 'z-listitem-seld')]//button[text() = 'delete']
NOTE: Make sure not too use the "//" operator too extensively in XPath, as it might perform badly. (for me this was never a matter sofar, as there are much worse performance bottle necks, affecting your test execution speed - improve test execution speed).
This sheet provided by Michael Sorens is an excellent reference with many helpful examples how to select page elements in various situations.
So now we can change the test case to use this kind of XPath locator, searching only by ID prefix:
login test | ||
---|---|---|
open | /selenium_testing/login.zul | |
typeAndBlur | //input[starts-with(@id, 'username_')] | test |
typeAndBlur | //input[starts-with(@id, 'password_')] | test |
clickAndWait | //button[starts-with(@id, 'login_')] |
Done that, the order of the components may change without breaking the test, as long as the actual IDs are not changed. Of course this requires some manual work, but the effort invested once will pay off quickly as your project evolves.
Custom Locator and LocatorBuilder
If you don't want to change the locator to XPath manually everytime after you recorded a test case Selenium IDE has more to offer. Even improving the readability.
- Custom Locator
- In the user-extensions.js from above you'll find a custom locator that will hide the XPath complexity for simple locate scenarios. It is based on the format of IDs generated by TestingIdGenerator (from above).
// The "inDocument" is a the document you are searching.
PageBot.prototype.locateElementByZkTest = function(text, inDocument) {
// Create the text to search for
var text2 = text.trim();
var separatorIndex = text2.indexOf(" ");
var elementNameAndIdPrefix = (separatorIndex != -1 ? text2.substring(0, separatorIndex) : text2).split("#");
var xpathSuffix = separatorIndex != -1 ? text2.substring(separatorIndex + 1) : "";
var elementName = elementNameAndIdPrefix[0] || "*";
var idPrefix = elementNameAndIdPrefix[1];
var xpath = "//" + elementName + "[starts-with(@id, '" + idPrefix + "')]" + xpathSuffix;
return this.xpathEvaluator.selectSingleNode(inDocument, xpath, null, this._namespaceResolver);
};
this locator will work in 2 forms
1. zktest=#login_ 2. zktest=input#username_
Internally generated/queried XPaths will be
1. //*[starts-with(@id, 'login_')] 2. //input[starts-with(@id, 'username_')]
- will look for any element with an ID starting with "login_"
- will also test the elements html tag, and find the <input> element with the ID-prefix "username_..."
Custom LocatorBuilder
Now to make this really handy Selenium IDE also offers extensions (don't mix this up with Selenium Core Extension)
Add file zktest-Selenium-IDE-extension.js to selenium config
- (Selenium IDE Options > Options... > [General -Tab] > Selenium IDE extensions)
and move it up in the Locator Builder priority list.
- (Selenium IDE Options > Options... > [Locator Builders - Tab])
It contains the following LocatorBuilder which will generate the locator in form "zktest=elementTag#IdPrefix" mentioned above using only the first part of the ID (the ID prefix - its business name). If an ID does not contain 3 tokens separated by "_" it will use the full ID instead including the sequential number, this will indicate to you that the element has no ID specified and another location approach is maybe better, or just give it an ID in the zul file.
LocatorBuilders.add('zktest', function(e) {
var idTokens = e.id.split("_")
if (idTokens.length > 2) {
idTokens.pop();
idTokens.pop();
return "zktest=" + e.nodeName.toLowerCase() + "#" + idTokens.join("_") + "_";
} else {
return "zktest=" + "#" + e.id;
}
return null;
});
Restart Selenium-IDE and record the test case again... and you'll get this (after changing the "type" to "typeAndBlur" events).
New Test | ||
---|---|---|
open | /selenium_testing/login.zul | |
typeAndBlur | zktest=input#username_ | test |
typeAndBlur | zktest=input#password_ | test |
clickAndWait | zktest=button#login_ |
More Tests
Let's record a test case for edit and save an existing "feedback item" in the list, and verify the results, and a logout test. These tests introduce new challenges testing an ajax applications with Selenium - and their solution or workarounds.
Now that we are actually changing data I adapted the login test, to user with a random user each time. So that the Mock implementation will serve fresh data for each test run, without having to restart the server, or having to cleanup (there are other strategies possible to do the same - that's just what I use here).
login test | ||
---|---|---|
store | javascript{'testUser'+Math.floor(Math.random()*10000000)} | username |
open | /selenium_testing/login.zul | |
typeAndBlur | zktest=input#username_ | ${username} |
typeAndBlur | zktest=input#password_ | ${username} |
clickAndWait | zktest=button#login_ | |
assertLocation | glob:*/selenium_testing/index.zul | |
verifyTextPresent | logout ${username} |
Edit and Save Test
After recording and applying the typeAndBlur actions we get the following.
edit save test | ||
---|---|---|
open | /selenium_testing/index.zul | |
click | zktest=#button_27 | |
typeAndBlur | zktest=input#subject_ | Subject 1 (updated) |
typeAndBlur | zktest=input#topic_ | consulting |
select | zktest=select#priority_ | label=low |
click | zktest=#listitem_62 | |
typeAndBlur | zktest=textarea#comment_ | test comment (content also updated) |
click | zktest=button#submit_ | |
assertTextPresent | Feedback successfully updated | |
verifyTextPresent | subject=Subject 1 (updated) | |
verifyTextPresent | [text=test comment (content also updated)] | |
verifyTextPresent | priority=low | |
click | zktest=button#backToOverview_ | |
assertTextPresent | Feedback Overview |
We still see some hard-coded numbers. I'll just delete the "click zktest=#listitem_62" as the "select" will command will just do fine (Selenium-IDE will sometimes record more than you need, and sometimes just not enough - by default).
Interesting for now is the locator "zktest=#button_27" - one of the the "edit" button. If we try to give it an ID in the zul code it will fail to render (duplicate ID), because the button is rendered multiple times - once for each <listitem>. (one workaround could be to surround it by an IDspace component or include the buttons from a different file). But it is not necessary - using the right locator XPath.
Locating an Element inside a Listbox
If you just want to locate the first edit button in the list you can use: it will find the button by its text and not by its ID
pure XPath:
//*[starts-with(@id, 'overviewList_')]//button[text() = 'edit']
ok combine with the "zktest" selector from the selenium extension above
zktest=#overviewList_ //button[text() = 'edit']
more interesting is it to locate by index, e.g. exactly the second edit button
xpath=(//*[starts-with(@id, 'overviewList_')]//button[text() = 'edit'])[2]
or even more fun to select the "edit" button inside a <listitem> containing a specific text in a cell
xpath=//*[starts-with(@id, 'overviewList_')]//*[starts-with(@id, 'listitem_')][.//*[starts-with(@id, 'listcell_')][text() = 'Subject 2']]//button[text() = 'edit']
This can get infinitely complex, and reduce the readability of your testcase. That's why it is also a good idea to write comments in your test case (yes test cases can have comments too).
Even though quite complex this last locator is still quite stable to changes in the UI. Especially when the <listbox> content changes, you can still use it to find the same <listitem> (and its button) several times in a test case.
Using Variables
Repeating them in the code will give you a headache maintaining them, when e.g. the label of the button changes from "edit" to "update". It is better to "store" locator strings or parts of them in variables, which can be reused throughout the test.
store | xpath=//your/complex/locator[text() = 'edit'] | editButton |
... | ... | ... |
waitForElementPresent | ${editButton} | |
click | ${editButton} |
TODO screenshot with comments and variables
These are just a few general ideas, about what can be done to reduce the work maintaining test cases increase stability or make them more readable - at reasonable investment when setting them up (recording and adjusting) initially.
However rerunning the test suite at full speed (which is what we should always aim for) will (or worse, might sometimes) fail, because we don't wait long enough for ajax responses to render... hence there is no full page reload so Selenium-IDE does not wait by itself.