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mirror of https://github.com/aelve/guide.git synced 2024-11-27 10:10:50 +03:00
guide/tests/Selenium.hs
2018-09-02 00:03:48 +02:00

454 lines
13 KiB
Haskell

{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE IncoherentInstances #-}
{-# LANGUAGE GADTs #-}
{-# LANGUAGE StandaloneDeriving #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE NoImplicitPrelude #-}
module Selenium
(
module Test.Hspec.WebDriver,
module Test.WebDriver.Commands.Wait,
wd,
wait_delay,
-- * Selecting
CanSelect(..),
ComplexSelector(..),
select,
selectSome,
-- * Webdriver
click,
cssProp,
attr,
enterInput,
setInput,
fontSize,
highlight,
selectDropdown,
getBackAfterwards,
getLink,
getText,
getValue,
sendKeys,
clearInput,
-- * Expectations
changesURL,
doesNotChangeURL,
checkPresent,
checkPresentSome,
checkNotPresent,
shouldHaveAttr,
shouldHaveProp,
shouldLinkTo,
shouldSatisfy,
shouldHaveText,
shouldNotBe,
shouldBeHidden,
shouldBeInRange,
shouldBeSelected,
shouldBeDisplayed,
expectationFailure,
)
where
import BasePrelude hiding (catch, bracket, (:|))
-- Lenses
import Lens.Micro.Platform
-- Monads
import Control.Monad.Loops
-- Containers
import qualified Data.Set as Set
-- Text
import Data.Text (Text)
import qualified Data.Text as T
-- Testing
import Test.Hspec.WebDriver hiding
(getText, shouldHaveAttr, shouldHaveText, click, cssProp, attr,
sendKeys, clearInput)
import qualified Test.Hspec.WebDriver as WD
import Test.WebDriver.Commands.Wait
import Test.WebDriver.Exceptions
import qualified Test.WebDriver.Common.Keys as Key
import qualified Test.Hspec.Expectations as Hspec
-- Exceptions
import Control.Monad.Catch
import Guide.Utils (ordNub)
getLink :: CanSelect s => s -> WD String
getLink s = do
e <- select s
-- Select all links including the root element itself
linkElems <- selectAll ((e :& "a") :| (e :// "a"))
links <- nub . catMaybes <$> mapM (flip attr "href") linkElems
case links of
[x] -> return (T.unpack x)
[] -> expectationFailure $
printf "expected %s to contain a link" (show s)
_ -> expectationFailure $
printf "expected %s to contain only one link" (show s)
getText :: CanSelect s => s -> WD Text
getText s = do
-- TODO: Note [staleness]
e <- select s
WD.getText e
getValue :: CanSelect s => s -> WD Text
getValue x = fromMaybe "" <$> attr x "value"
clearInput :: CanSelect s => s -> WD ()
clearInput s = do
-- TODO: Note [staleness]
input <- select s
WD.clearInput input
sendKeys :: CanSelect s => Text -> s -> WD ()
sendKeys t s = do
-- TODO: Note [staleness]
input <- select s
WD.sendKeys t input
enterInput :: CanSelect s => Text -> s -> WD ()
enterInput x s = do
input <- select s
clearInput input
sendKeys (x <> Key.enter) input
checkNotPresent input
setInput :: CanSelect s => Text -> s -> WD ()
setInput x s = do
input <- select s
clearInput input
sendKeys x input
isAlive :: Element -> WD Bool
isAlive e = (isEnabled e >> return True) `onDead` return False
onDead :: WD a -> WD a -> WD a
onDead x h = do
let handler ex@(FailedCommand t _)
| t `elem` [NoSuchElement, StaleElementReference] = h
| otherwise = throw ex
x `catch` handler
tryDead :: WD a -> WD (Maybe a)
tryDead x = (Just <$> x) `onDead` return Nothing
-- TODO: can fail if the element becomes stale between 'select' and 'click'
click :: CanSelect a => a -> WD ()
click s = WD.click =<< select s
-- TODO: can fail if the element becomes stale between 'select' and
-- 'shouldHaveAttr'
shouldHaveAttr :: CanSelect a => a -> (Text, Text) -> WD ()
s `shouldHaveAttr` (a, txt) = do
e <- select s
e `WD.shouldHaveAttr` (a, txt)
-- TODO: can fail if the element becomes stale between 'select' and
-- 'shouldHaveText'
shouldHaveText :: CanSelect a => a -> Text -> WD ()
s `shouldHaveText` txt = do
e <- select s
e `WD.shouldHaveText` txt
shouldLinkTo :: CanSelect a => a -> String -> WD ()
s `shouldLinkTo` url2 = do
url <- getLink s
url `shouldBe` url2
highlight :: Element -> WD ()
highlight e = do
html <- executeJS [JSArg e]
"arguments[0].style.border='thick solid #FF0000';\
\return arguments[0].outerHTML;"
liftIO $ putStrLn html
selectDropdown
:: Element -- ^ Dropdown
-> Element -- ^ Option to select
-> WD ()
selectDropdown sel opt = void
(executeJS [JSArg sel, JSArg opt]
"sel=arguments[0];opt=arguments[1];\
\for (var i=0;i<sel.options.length;i++) {\
\ if (sel.options[i]==opt) {\
\ sel.selectedIndex=i;\
\ sel.onchange && sel.onchange();\
\ break; }}"
:: WD (Maybe ()))
getDescendants :: Element -> WD [Element]
getDescendants e = findElemsFrom e (ByXPath ".//*")
getChildren :: Element -> WD [Element]
getChildren e = findElemsFrom e (ByXPath "./*")
data ComplexSelector where
-- | Descendants (not including the element itself)
(://) :: (CanSelect a, CanSelect b) => a -> b -> ComplexSelector
-- | Children
(:/) :: (CanSelect a, CanSelect b) => a -> b -> ComplexSelector
-- | Parents
(:<//) :: (CanSelect a, CanSelect b) => a -> b -> ComplexSelector
-- | Direct parents
(:</) :: (CanSelect a, CanSelect b) => a -> b -> ComplexSelector
-- | And
(:&) :: (CanSelect a, CanSelect b) => a -> b -> ComplexSelector
-- | Or
(:|) :: (CanSelect a, CanSelect b) => a -> b -> ComplexSelector
-- | Not
Not :: CanSelect a => a -> ComplexSelector
-- | Elements with specific text
HasText :: Text -> ComplexSelector
-- | Elements that contain specific text
ContainsText :: Text -> ComplexSelector
-- | Only pick the first N selected elements
Take :: CanSelect a => Int -> a -> ComplexSelector
-- | Only pick the Nth (starting from 0) selected element
Index :: CanSelect a => Int -> a -> ComplexSelector
-- | Displayed element
Displayed :: ComplexSelector
deriving instance Show ComplexSelector
defSelectAll :: CanSelect a => a -> WD [Element]
defSelectAll s = filterElems s =<< findElems (ByXPath "//")
defFilterElems :: CanSelect a => a -> [Element] -> WD [Element]
defFilterElems s es = do
ss <- Set.fromList <$> selectAll s
return (filter (`Set.member` ss) es)
defAnyElem :: CanSelect a => a -> [Element] -> WD Bool
defAnyElem s es = do
ss <- Set.fromList <$> selectAll s
return (any (`Set.member` ss) es)
{- NOTE [staleness]
~~~~~~~~~~~~~~~
We want to avoid “stale element” errors at all costs, instead preferring “element not found” and so on. This means that whenever we select an element with 'select' or 'selectAll' and then do something with it, we have to catch and handle possible staleness.
-}
class Show a => CanSelect a where
selectAll :: a -> WD [Element]
selectAll = defSelectAll
filterElems :: a -> [Element] -> WD [Element]
filterElems = defFilterElems
anyElem :: a -> [Element] -> WD Bool
anyElem = defAnyElem
instance CanSelect Element where
selectAll e = filterM isAlive [e]
filterElems s es = do
alive <- isAlive s
return $ if alive then filter (s ==) es else []
anyElem s es = do
alive <- isAlive s
return $ if alive then any (s ==) es else False
instance CanSelect Selector where
selectAll s = findElems s
instance (a ~ Text) => CanSelect a where
selectAll t = findElems (ByCSS t)
instance CanSelect ComplexSelector where
selectAll s = do
let getDescendants' e = getDescendants e `onDead` return []
getChildren' e = getChildren e `onDead` return []
case s of
(a :// b) -> do
as <- selectAll a
ordNub.concat <$> mapM (filterElems b <=< getDescendants') as
(a :/ b) -> do
as <- selectAll a
ordNub.concat <$> mapM (filterElems b <=< getChildren') as
(a :<// b) -> filterM (anyElem b <=< getDescendants') =<< selectAll a
(a :</ b) -> filterM (anyElem b <=< getChildren') =<< selectAll a
(a :& b) -> do
filterElems b =<< selectAll a
(a :| b) -> do
as <- Set.fromList <$> selectAll a
bs <- Set.fromList <$> selectAll b
return (Set.toList (as `Set.union` bs))
Take n a -> take n <$> selectAll a
Index n a -> toListOf (ix n) <$> selectAll a
--
Not a -> defSelectAll (Not a)
HasText t -> defSelectAll (HasText t)
ContainsText t -> defSelectAll (ContainsText t)
Displayed -> defSelectAll Displayed
filterElems s es = do
let andNotDead = fmap (== Just True) . tryDead
case s of
Not a -> (es \\) <$> filterElems a es
HasText t -> filterM (andNotDead . fmap (== t) . getText) es
ContainsText t -> filterM (andNotDead .
fmap (t `T.isInfixOf`) . getText) es
Displayed -> filterM (andNotDead . isDisplayed) es
_ -> defFilterElems s es
anyElem s es = do
let andNotDead = fmap (== Just True) . tryDead
case s of
Not a -> (== length es) . length <$> filterElems a es
HasText t -> anyM (andNotDead . fmap (== t) . getText) es
ContainsText t -> anyM (andNotDead .
fmap (t `T.isInfixOf`) . getText) es
Displayed -> anyM (andNotDead . isDisplayed) es
_ -> defAnyElem s es
{-
class ToSelector a where
toSelector :: a -> Selector
instance ToSelector Selector where
toSelector = id
instance ToSelector Text where
toSelector = ByCSS
-}
-- | Ensure that the element is the only element matching the selector.
select :: CanSelect a => a -> WD Element
select x = do
-- True = found more than one element
-- False = found no elements
v <- liftIO $ newIORef False
let findOne = do
es <- selectAll x
case es of
[e] -> return e
[] -> do liftIO $ writeIORef v False
unexpected "select: no elements"
_ -> do liftIO $ writeIORef v True
unexpected "select: more than one element"
let handler = do
moreThanOne <- liftIO $ readIORef v
if moreThanOne
then expectationFailure $
printf "%s isn't unique on the page" (show x)
else expectationFailure $
printf "%s wasn't found on the page" (show x)
waitUntil wait_delay findOne `onTimeout` handler
-- | Select one of the elements matching the selector.
selectSome :: CanSelect a => a -> WD Element
selectSome x = do
es <- selectAll x
when (null es) $ expectationFailure $
printf "%s wasn't found on the page" (show x)
return (head es)
-- | @font-size@ of an element, in pixels
fontSize :: CanSelect a => a -> WD Double
fontSize s = do
mbProp <- cssProp s "font-size"
case mbProp of
Nothing -> expectationFailure $
printf "expected %s to have font-size" (show s)
Just fs -> case reads (T.unpack fs) of
[(d, "px")] -> return d
_ -> expectationFailure $
printf "couldn't parse font-size of %s: %s" (show s) (show fs)
cssProp :: CanSelect a => a -> Text -> WD (Maybe Text)
-- TODO: can fail (NOTE [staleness])
cssProp s p = do
e <- select s
WD.cssProp e p
attr :: CanSelect a => a -> Text -> WD (Maybe Text)
-- TODO: can fail (NOTE [staleness])
attr s p = do
e <- select s
WD.attr e p
changesURL :: WD a -> WD a
changesURL x = do
url <- getCurrentURL
a <- x
waitUntil wait_delay (expect =<< ((/= url) <$> getCurrentURL))
return a
doesNotChangeURL :: WD a -> WD a
doesNotChangeURL x = do
url <- getCurrentURL
a <- x
-- TODO: somehow check that the browser isn't even trying to change the URL
url2 <- getCurrentURL
url2 `shouldBe` url
return a
getBackAfterwards :: WD a -> WD a
getBackAfterwards x = do
url <- getCurrentURL
a <- x
openPage url
return a
wd :: String -> WD a -> SpecWith (WdTestSession ())
wd x act = it x (runWD (void act))
checkPresent :: CanSelect a => a -> WD ()
checkPresent x = void (select x)
checkPresentSome :: CanSelect a => a -> WD ()
checkPresentSome x = void (selectSome x)
checkNotPresent :: CanSelect a => a -> WD ()
checkNotPresent x = waitUntil wait_delay $ do
es <- selectAll x
when (not (null es)) $ unexpected $
printf "expected %s not to be present on the page" (show x)
expectationFailure :: MonadIO m => String -> m a
expectationFailure s = do
liftIO (Hspec.expectationFailure s)
undefined
shouldSatisfy :: (Show a, MonadIO m) => a -> (String, a -> Bool) -> m ()
shouldSatisfy a (s, p) = unless (p a) $
expectationFailure (printf "expected %s to %s" (show a) s)
shouldBeInRange :: (Show a, Ord a, MonadIO m) => a -> (a, a) -> m ()
shouldBeInRange a (x, y) =
shouldSatisfy a ("be in range " ++ show (x,y), \n -> n >= x && n <= y)
shouldNotBe :: (Show a, Eq a, MonadIO m) => a -> a -> m ()
shouldNotBe a x =
shouldSatisfy a ("not be " ++ show x, const (a /= x))
shouldHaveProp :: CanSelect a => a -> (Text, Text) -> WD ()
s `shouldHaveProp` (a, txt) = do
t <- cssProp s a
unless (Just txt == t) $ expectationFailure $
printf "expected property %s of %s to be %s, got %s"
a (show s) (show txt) (show t)
shouldBeSelected :: CanSelect a => a -> WD ()
-- TODO: can fail (NOTE [staleness])
shouldBeSelected s = do
e <- select s
x <- isSelected e
s `shouldSatisfy` ("be checked/selected", const x)
shouldBeDisplayed :: CanSelect a => a -> WD ()
-- TODO: can fail (NOTE [staleness])
shouldBeDisplayed s = do
e <- select s
x <- isDisplayed e
s `shouldSatisfy` ("be displayed", const x)
shouldBeHidden :: CanSelect a => a -> WD ()
-- TODO: can fail (NOTE [staleness])
shouldBeHidden s = do
e <- select s
x <- isDisplayed e
s `shouldSatisfy` ("be hidden", const (not x))
wait_delay :: Double
wait_delay = 10