WatirPump
is a Page Object
pattern implementation for Watir
. Hacker friendly and enterprise ready.
Heavily inspired by SitePrism
and Watirsome
.
To learn WatirPump by example please refer to THIS TUTORIAL
Table of contents
- Key features
- Examples
- Documentation
To learn WatirPump by example please refer to THIS TUTORIAL
class SeachPage < WatirPump::Page
text_field :query_input, id: 'query'
button :search_button, id: 'btnG'
end
Class macro methods (here: text_field
, button
) act as a proxy to watir
element locator methods with same names.
SearchPage.open do
query_input.set 'Watir'
search_button.click
end
class SubComponent < WatirPump::Component
# some elements
end
class LoginBox < WatirPump::Component
component :sub, SubComponent, -> { root.div(class: 'resetPassword') }
text_field :username, id: 'user'
text_field :password, id: 'pass'
button :login, id: 'login'
end
class HomePage < WatirPump::Page
component login_box, LoginBox, -> { root.div(id: 'login_box') }
def do_login(user, pass)
login_box.username.set user
login_box.password.set pass
login_box.login.click
end
end
class LoginPage < WatirPump::Page
text_field_writer :username, id: 'user'
text_field_writer :password, id: 'pass'
button_clicker :login, id: 'login'
end
LoginPage.open do
username = 'bob' # same as element.set 'bob'
password = '$3crEt' # same as element.set '$3crEt'
login # same as element.click
end
class NewProductPage < WatirPump::Page
text_field_writer :name, id: 'name'
text_field_writer :quantity, id: 'qty'
button_clicker :submit, id: 'add'
end
class ShowProductPage < WatirPump::Page
span_reader :name, id: 'name'
span_reader :quantity, id: 'qty'
end
RSpec.describe 'product creation' do
let(:data) { { name: 'Hammer XT-431', quantity: 500 } }
it 'saves product' do
NewProductPage.open do
fill_form(data)
submit
end
ShowProductPage.use do
expect(form_data).to eq data
end
end
end
class SearchResults < WatirPump::Page
url '/search/{phrase}'
divs :results, class: 'result-item'
end
SearchResults.open(phrase: 'watir') do
expect(results.count).to be > 0
end
Imagine a page that contains three ToDo lists. Or maybe instead of imagining just clone this repo and
open sinatra_app/public/todos.html
in your browser. This page will serve
as an example of how one can model and test pages using WatirPump
.
The HTML code representing a single ToDo
list can look like this:
<div id="todos_home" role="todo_list">
<div role="title">Home</div>
<input role="new_item" /><button role="add">Add</button>
<ul>
<li><span role="name">Dishes</span><a role="rm">[rm]</a></li>
<li><span role="name">Laundry</span><a role="rm">[rm]</a></li>
<li><span role="name">Vacuum</span><a role="rm">[rm]</a></li>
</ul>
</div>
For the sake of simplicity let's focus on just one ToDo list for the start.
class ToDosPage < WatirPump::Page
uri '/todos.html'
# Watir equivalent: browser.div(role: 'title')
div :title, role: 'title'
# similarly:
text_field :new_item, role: 'new_item'
button :add, role: 'add'
lis :items, role: 'name'
end
RSpec.describe ToDosPage do
let(:browser) { Watir::Browser.new }
let(:page) { ToDosPage.new(browser).open }
before(:all) { WatirPump.config.base_url = 'http://localhost:4567' }
it 'adds an item to the "Home" ToDo list' do
page.new_item.set 'Ironing'
page.add.click
new_items = items.map { |li| li.span(role: 'name').text }
expect(new_items).to include('Ironing')
end
end
The previous example works fine for a page containing just one ToDo list. Let's encapsulate the elements into a Component, so that it could be reused on multiple pages, or even on one page.
Components can be nested, and grouped into ComponentCollections
.
Additionally in this iteration element action macros are introduced.
Instead of generating methods that return Watir
elements they perform certain actions at once.
class ToDoList < WatirPump::Component
div_reader :title, role: 'title'
text_field_writer :new_item, role: 'new_item'
button_clicker :btn_add, role: 'add'
components :items, ToDoListItem, :lis
end
class ToDoListItem < WatirPump::Component
link_clicker :rm, role: 'rm'
span_reader :name, role: 'name'
end
class ToDosPage < WatirPump::Page
uri '/todos.html'
# page contains several ToDo lists (an Array)
components :todo_lists, ToDoList, :divs, role: 'todo_list'
end
RSpec.describe ToDosPage do
before(:each) { |example| WatirPump.config.current_example = example }
before :all do
WatirPump.configure do |c|
c.base_url = 'http://localhost:4567'
c.browser = Watir::Browser.new
end
end
it 'adds an item to the "Home" ToDo list' do
# another way of opening and accessing page
ToDosPage.open do
home_todo_list = todo_lists.find { |l| l.title == 'Home' }
home_todo_list.new_item = 'Ironing'
home_todo_list.btn_add
new_items = home_todo_list.items.map(&:name)
expect(new_items).to include('Ironing')
end
end
end
The new concept introduced here is the query class macro.
And now the improved example:
# ToDoListItem stays same as before
class ToDoList < WatirPump::Component
div_reader :title, role: 'title'
text_field_writer :new_item, role: 'new_item'
button_clicker :btn_add, role: 'add'
# use array of Watir elements internally
components :item_elements, ToDoListItem, :lis
# expose shorter method name to return just array of strings
query :items, -> { item_elements.map(&:name) }
def items_alternative
# another way to return items, class macro query is just nicer
item_elements.map(&:name)
end
def add(item)
cnt_before = item_elements.count
# mind the self. without it a local variable will be crated
self.new_item = text
btn_add
# assume that the addition is performed over an Ajax call
Watir::Wait.until { item_elements.count == cnt_before + 1 }
end
end
class ToDoListCollection < WatirPump::ComponentCollection
def [](title)
find { |l| l.title == title }
end
end
class ToDosPage < WatirPump::Page
uri '/todos.html'
# Page will declare itself loaded once todo_lists are present
query :loaded?, -> { todo_lists.present? }
components :todo_lists, ToDoList, :divs, role: 'todo_list'
decorate :todo_lists, ToDoListCollection
end
RSpec.describe ToDosPage do
# setup omitted for brevity
it 'adds an item to the "Home" ToDo list' do
ToDosPage.open do
# possible thanks to decoration of todo_lists in ToDosPage
home_todo_list = todo_lists['Home']
home_todo_list.add('Ironing')
expect(home_todo_list.items).to include('Ironing')
end
end
end
Just like with any other gem
:
Directly:
gem install watir_pump
or via Gemfile
+ bundle install
gem 'watir_pump', '~>0.2'
WatirPump
includes ActiveSupport::Configurable
- a popular concept known from Rails
.
The following settings are required to start:
WatirPump.configure do |c|
# Self explanatory: Watir::Browser instance
c.browser = Watir::Browser.new
# Self explanatory: root URL for the application under test
c.base_url = 'http://localhost:4567'
# Flag defining execution context of blocks passed to Page.use and Page.open
# See 'Interacting with pages'
# true - block is evaluated with yield and accepts |page, browser| arguments
# false - block is evaluated with instance_exec on Page (default)
c.call_page_blocks_with_yield = false
end
To make rspec
work with page DSL the following key has to be set:
before(:each) { |example| WatirPump.config.current_example = example }
Page
class definition consists of a list of class macros invocations.
Most of them are inherited from Component class. Few exceptions are:
uri
- the URL part that is relative toWatirPump.config.base_url
loaded?
- predicate returningtrue
if page is ready to be interacted with. Default implementation checks if current browser URL matches theuri
For information about how to declare elements and component for the Page
please go to Component section.
Internally Page
itself is a Component
, that holds other components and Watir elements (components are nestable).
Let's consider the following configuration for the examples below:
WatirPump.config.base_url = 'https://myapp.local:8080'
class ContactPage
uri "/contact"
end
ContactPage.open
# => https://myapp.local:8080/contact
class UserPage
uri "/users{/username}"
end
UserPage.open(username: 'boromir')
# => https://myapp.local:8080/users/boromir
class UserPage
uri "/search{?query*}"
end
SearchPage.open(query: { phrase: 'watir', offset: 50, limit: 100 })
# => https://myapp.local:8080/search?phrase=watir&offset=50&limit=100
class HeavyReactPage
uri "/spa"
query :loaded?, -> { root.div(class: 'ajax-fetched-content').visible? }
end
HeavyReactPage.open do
# 'This will execute once JS renders the element referenced in loaded? method'
end
# => https://myapp.local:8080/spa
See addressable gem for more information about the URL template format.
Let's consider the following pages (simplified declaration):
class SearchFormPage < WatirPump::Page
uri '/search'
text_field :phrase, id: 'q'
button :search, id: 'btnG'
def do_search(query)
phrase.set query
search.click
SearchResultsPage.new(browser).wait_for_loaded
end
end
class SearchResultsPage < WatirPump::Page
uri '/results'
divs :results, class: 'result-item'
end
There are three ways that page objects can be interacted with.
Block is evaluated in scope of the Page
object.
Looks nice (no need to type 'page.') but methods visible in the spec
are not visible in the block. The only exception are the RSpec
methods.
WatirPump.config.call_page_blocks_with_yield = false # this is default
# this is required to make rspec expectations work inside the block
before(:each) { |example| WatirPump.config.current_example = example }
ToDosPage.open do
phrase.set 'watir'
search.click
end
SearchResultsPage.use do
expect(results.cnt).to be > 0
end
IMPORTANT NOTICE: This won't work:
def search_term
'watir'
end
ToDosPage.open do
phrase.set search_term
# Error: Method search_term is undefined in this scope.
search.click
end
Use rspec's let
instead:
let(:search_term) { 'watir' }
ToDosPage.open do
phrase.set search_term
# now it works
search.click
end
A regular block. page
and browser
references are passed as parameters to the block
WatirPump.config.call_page_blocks_with_yield = true
ToDosPage.open do |page, _browser|
page.phrase.set 'watir'
page.search.click
end
SearchResultsPage.use do |page, browser|
expect(page.results.cnt).to be > 0
expect(browser.title) to include 'Results'
end
Internally Page.open
/Page.use
methods uses one of:
Page.open_yield Page.use_yield
Page.open_dsl Page.use_dsl
depending on the value of config field call_page_blocks_with_yield
.
These methods can be called directly if there is a need to mix the approaches.
MyPage.open { block }
# browser navigates to page's uri before executing the block
MyPage.use { block }
# block is executed once page is loaded. No browser.goto called internally
# use has an alias method called act
page = ToDosPage.new(browser)
page.phrase.set 'watir'
page.search.click
page = SearchResultsPage.new(browser)
expect(page.results.cnt).to be > 0
# or more elegantly:
search_page = ToDosPage.new(browser)
results_page = search_page.do_search('watir')
expect(results_page.results.cnt).to be > 0
Component is the core concept of WatirPump
page object model definition.
It provides a set of class macros and regular instance methods that make creation of
such model easy.
browser
- reference toWatir::Browser
instanceroot
(alias:node
) - reference toWatir::Element
: component's 'mounting point' inside the DOM tree. (WARNING: forPages
it refers tobrowser
)parent
- reference to parent component (nil
forPages
)
Declaration of simple HTML/Watir elements is easy. Every instance method of Watir::Container module
is exposed to WatirPump::Component
as a class macro method.
Examples:
class MyPage < WatirPump::Page
link :index, href: /index/
# equivalent of:
def index
browser.link href: /index/
# more WatirPump like notation would be to use root instead of browser:
# root.link href: /index/
end
# usage: page.index.click
button :ok, value: 'OK'
# equivalent of:
def ok
root.button value: 'OK'
end
# usage: page.ok.click
button :action, ->(val) { root.button(value: val) }
# equivalent of:
def action(val)
root.button(value: val)
end
# usage: page.action('Confirm').click
end
Fore more examples see Watir guides.
There are two class macros: component
and components
that are used to declare a single subcomponent, or a collection.
Synopsis:
component :name, ComponentClass, <locator_for_single_node>
components :name, ComponentClass, <locator_for_multiple_nodes>
Examples:
class LoginBox < WatirPump::Components
button :login, id: 'btn_login'
end
class MyPage < WatirPump::Page
component :login_box, LoginBox, :div, id: 'login_box'
# usage: page.login_box.login.click
components :results, SearchResultItem, :divs, class: 'login_box'
# usage: page.results.count
end
For other ways of locating elements (using lambdas and parametrized lambdas) see below.
Other macros, like query
, region
and component actions
are documented in the following paragraphs.
There are two ways of defining location of subcomponents within the current component (or page). Both are relative to current component's root
.
Location used in declaration of a subcomponent (invocation of componenet
class macro) will be the root
of that subcomponent.
The parent component reference is accessible through parent
method.
For complete list of elements supported this way please see Watir::Container.
Synopsis:
component <name>, <component_class>, <watir_method_name>, <watir_method_params_optionally>
Examples:
# component class LoginBox, instance name login_box, located under root.div(id: 'login_box')
component :login_box, LoginBox, :div, id: 'login_box'
# example usage: page.login_box.wait_until_present
# component class ArticleParagraph, instance name paragraph, located under root.p
component :paragraph, ArticleParagraph, :p
# example usage: page.paragraph.visible?
Examples:
# component class LoginBox, instance name login_box, located under root.div(id: 'login_box')
component :login_box, LoginBox, -> { root.div(id: 'login_box') }
# component class ArticleParagraph, instance name paragraph, located under root.p(id: <passed as an argument>)
component :paragraph, ArticleParagraph, ->(cls) { root.p(id: cls) }
# example usage: page.paragraph('abstract').text
For top level components (pages) both root.div(class: 'asd')
and browser.div(class: 'asd')
would work the same.
This is because root
of every Page
is browser
. For subcomponents however root
points to node
which is the mounting point of the component in the DOM tree.
Using root
as a base for locating elements is recommended as a more robust convention.
Use browser
to interact with the browser itself (cookies, navigation, javascript, title, etc.). NOT to navigate DOM.
Let's consider the following Page structure:
class MyPage < WatirPump::Page
component :login_box, LoginBox, :div, id: 'login_box'
end
class LoginBox < WatirPump::Component
component :reset_password, ResetPassword, -> { root.div(class: 'reset-password') }
end
class ResetPassword < WatirPump::Component
button :send_link, class: 'send-link'
end
This is how certain elements/components are located:
page = MyPage.new(browser)
page.root
# => browser.body
page.login_box.root
# => browser.div(id: 'login_box')
page.login_box.reset_password.root
# => browser.div(id: 'login_box').div(class: 'reset-password')
page.login_box.reset_password.parent
# => page.login_box
page.login_box.reset_password.send_link
# => browser.div(id: 'login_box').div(class: 'reset-password').button(class: 'send-link')
It is a shorthand to generate simple methods, usually to query DOM tree with Watir. Examples:
class SamplePage < WatirPump::Page
spans :items, class: 'search-result'
# regular methods
def items_text
items.map(&:text)
end
def items_cnt
items.count
end
def items_with_substring(phrase)
items_text.select { |item| item.include? phrase }
end
# query class macro equivalent
query :items_text, -> { items.map(&:text) }
query :items_cnt, -> { items.count }
query :items_with_substring ->(phrase) { items_text.select { |item| item.include? phrase } }
# more examples: watir methods can be chained
query :nested_watir_element -> { root.form(id: 'new_item').button(class: 'reset_count') }
end
As one can see query
macro is not specific to Watir, it's just a general purpose shorthand to define methods.
query
has two decorated variants:
element
- raises error if value returned fromquery
is not aWatir::Element
elements
- raises error if value returned fromquery
is not aWatir::ElementCollection
One can use them to declare page objects inwatir-drops
style.
There are cases where certain page element is used only to perform one action: either click, write into, or read value. In such case it would be more convenient to have a page object method that would perform that action at once, instead of returning the Watir element.
Element actions macros are design to do just that.
Declaration in page class | Element action example |
---|---|
span :name, id: 'abc' |
n = page.name.text |
span_reader :name, id: 'abc' |
n = page.name |
link :goto_contacts, id: 'abc' |
page.goto_contacts.click |
link_clicker :goto_contacts, id: 'abc' |
page.goto_contacts |
text_field :email, id: 'abc' |
page.email.set '[email protected]' |
text_field_writer :email, id: 'abc' |
page.email = '[email protected]' |
How it internally works?
Macro span_reader :article_title, id: 'title'
creates two public methods:
article_title_reader_element
which returns Watir element:span, id: 'title'
article_title
which returnsarticle_title_reader_element.text
WARNING: radios, checkboxes and select lists (dropdowns) are handled slightly differently. See below.
Macros *_clicker
and *_writer
follow the same convention: additional _(clicker|writer)_element
method is created next to the action method.
Full list of tags supported by certain action macros can be found in WatirPump::Constants.
Keep in mind that writers
cannot rely on element location using parametrized lambda. field('Employee')="John"
just won't work.
In order to create both reader
and writer
for the same element one can use _accessor
macro.
Radios, checkboxes and selects require special handling because they don't represent a single HTML element, but several of them. For example:
<fieldset>
<div>Predicate</div>
<label>Yes<input type="radio" name="predicate" value="yes" /></label>
<label>No<input type="radio" name="predicate" value="no" /></label>
</fieldset>
<!-- There are two radio buttons that describe values for one form field `predicate`. -->
There's a handful of macros to describe such fields in our page objects:
class UserFormPage < WatirPump::Page
# input(name: 'gender') matches a collection of radio elements
radio_reader :gender, name: 'gender'
radio_writer :gender, name: 'gender'
radio_accessor :gender, name: 'gender' # alias: radio_group, combined radio_reader and radio_writer
# page.gender = 'Female' will click the radio button with a corresponding label (NOT value)
# page.gender will return 'Female'
# input(name: 'hobbies[]') matches a collection of checkbox elements
checkbox_reader :hobbies, name: 'hobbies[]'
checkbox_writer :hobbies, name: 'hobbies[]'
checkbox_accessor :hobbies, name: 'hobbies[]' # alias: checkbox_group, combined checkbox_reader and checkbox_writer
# page.hobbies = 'Yoga' will tick the checkbox with the corresponding label (NOT value)
# page.hobbies = ['Yoga', 'Music'] sets multiple values
# page.hobbies will return an array of ticked values
# input(name: 'confirmed') matches a single checkbox element
flag_writer :confirmed, name: 'confirmed'
flag_reader :confirmed, name: 'confirmed'
flag_accessor :confirmed, name: 'confirmed' # alias: flag, combined flag_writer and flag_reader
# page.confirmed = true will tick the checkbox
# page.confirmed will return a boolean with the `checked` status of the element
# page.confirmed? - same as above
# select(name: 'ingredients[]') matches a select element
select_reader :ingredients, name: 'ingredients[]'
select_writer :ingredients, name: 'ingredients[]'
select_accessor :ingredients, name: 'ingredients[]' # alias: dropdown_list, combined select_reader and select_writer
# page.ingredients = 'Salt' will select option with a respective label (NOT value)
# page.ingredients = ['Salt', 'Oregano'] will select multiple options with respective labels, if select is declared as multiple
# page.ingredients will return a selected option (single or multiple - depending on 'multiple' attribute of the select element)
end
Whenever reading or writing value for given form field is more sophisticated than just simple interaction with one HTML element
custom_reader
and custom_writer
come handy. Let's consider that a value for certain field should be an array, and the HTML code
that represents it looks like this:
<ul id="hobbies">
<li>Gardening</li>
<li>Dancing</li>
<li>Golf</li>
</ul>
There are two ways custom_reader
for this field could be created:
# 1. for one-liners passing a lambda to the class macro invocation will suffice
custom_reader :hobbies, -> { root.ul(id: 'hobbies')&.lis&.map(&:text) || [] }
# 2. for more sophisticated cases use class macro to declare that certain instance method should be treated as a reader
custom_reader :hobbies
def hobbies
# lots of other code if necessary
root.ul(id: 'hobbies')&.lis&.map(&:text) || [] }
end
# page.hobbies == ['Gardening', 'Dancing', 'Golf']
Same principles apply for custom_writer
. Let's rewrite the default text_field_writer
using custom_writer
as an example.
# 1. for one-liner use lambda
custom_writer :first_name, ->(val) { root.text_field(name: 'first_name').set(val) }
# 2. for more complex writer logic use a separate method. NOTE the '=' in method name!
custom_writer :first_name
def first_name=(val)
# do some fancy logic here if necessary
root.text_field(name: 'first_name').set(val)
end
fill_form(data)
- invokes writer
method for every key of the data
hash (or struct), with associated value as a parameter. Example:
fill_form(name: 'Bob', surname: 'Williams', age: 34)
# is equivalent of
self.name = 'Bob'
self.surname = 'Williams'
self.age = 34
fill_form!(data)
- invokes fill_form(data)
and additionally submit
method if it exists (otherwise it raises an exception).
form_data
- returns a hash of values of all elements that have a _reader
declared. Example:
class UserFormPage < WatirPump::Page
span_reader :name, id: 'name'
span_reader :surname, id: 'surname'
span_reader :age, id: 'age'
end
UserFormPage.open do
expect(form_data).to contain_exactly(name: 'Bob', surname: 'Williams', age: 34)
end
There's a few methods that components forward directly to its root:
- visible?
- present?
- stale?
- wait_until_present
- wait_while_present
- wait_until
- wait_while
- flash
Thanks to this one can write just comp.present?
instead of comp.root.present?
.
This features is especially useful when using WatirPump with testing frameworks like rspec
.
Consider the following example:
class MyComponent < WatirPump::Component
span_reader :name, id: 'name'
span_reader :surname, id: 'surname'
span_reader :age, id: 'age'
inspect_properties [:name, :surname, :age]
end
class HomePage < WatirPump::Page
component :details, MyComponent
end
MyPage.open do
expect(details).to have_attributes(name: 'John', surname: 'Smith')
end
In case of expectation (here: have_attributes
) not matched rspec
will display the expected
and got
values.
Without the usage of inspect_properties
the default implementation of inspect
would be used, and it's not
very useful for test debugging since it's too verbose. Use inspect_properties
to have your rspec
logs easy to work with.
If certain HTML section appears only on one page (thus there's no point in creating another Component
class)
it can be declared in-place, as a region (anonymous component), which will just act as
a name space in the Page
object.
class HomePage < WatirPump::Page
region :login_box, :div, id: 'login_box' do
text_field :username, id: 'user'
text_field :password, id: 'pass'
button :login, id: 'login'
end
def do_login(user, pass)
login_box.username.set user
login_box.password.set pass
login_box.login.click
end
end
region
class macro accepts the following parameters:
- name of region
- root node locator
- block with group of elements/subcomponents
ComponentCollection
is a wrapper for collection of components. For example: a list of search results. See Subcomponents for an example.
Basically it's an array, with few extra methods that return true if any of the collection items return true.
The example methods are:
visible?
present?
wait_until_present
wait_while_present
The complete list lives in WatirPump::Constants::METHODS_FORWARDED_TO_ROOT
.
under construction
How it works:
decorate :method_to_decorate, DecoratorClass, AnotherDecoratorClasses
New method_to_decorate
is created this way (simplified):
def method_to_decorate
AnotherDecoratorClasses.new(
DecoratorClass.new(
old_method_to_decorate
)
)
end
See this example: class ToDoListCollection
and invocation of decorate
macro.
# decorator class for component/element collections should extend WatirPump::ComponentCollection
decorate :todo_lists, ToDoListCollection, DummyDecoratedCollection
# decorator class for elements should extend WatirPump::DecoratedElement
decorate :btn_add, DummyDecoratedElement