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vty-5.35: test/VerifyUsingMockInput.hs

{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE ScopedTypeVariables #-}
-- Generate some input bytes and delays between blocks of input bytes.
-- Verify the events produced are as expected.
module Main where

import Verify.Graphics.Vty.Output

import Graphics.Vty hiding (resize)
import Graphics.Vty.Input.Events
import Graphics.Vty.Input.Loop
import Graphics.Vty.Input.Terminfo

import Control.Concurrent
import Control.Concurrent.STM
import Control.Exception
import Lens.Micro ((^.))
import Control.Monad

import Data.IORef
import Data.List (intersperse, reverse, nubBy)

import System.Console.Terminfo
import System.Posix.IO
import System.Posix.Terminal (openPseudoTerminal)
import System.Posix.Types
import System.Timeout

import Test.Framework.Providers.SmallCheck
import Test.Framework
import Test.SmallCheck
import Test.SmallCheck.Series

import Text.Printf

-- processing a block of 16 chars is the largest I can do without taking
-- too long to run the test.
maxBlockSize :: Int
maxBlockSize = 16

maxTableSize :: Int
maxTableSize = 28

forEachOf :: (Show a, Testable m b) => [a] -> (a -> b) -> Property m
forEachOf l = over (generate (\n -> take n l))

data InputEvent
    = Bytes String
    -- ^ Input sequence encoded as a string. Regardless, the input is
    -- read a byte at a time.
    | Delay Int
    -- ^ Microsecond delay
    deriving Show

type InputSpec = [InputEvent]

type ExpectedSpec = [Event]

synthesizeInput :: InputSpec -> Fd -> IO ()
synthesizeInput input outHandle = forM_ input f >> (void $ fdWrite outHandle "\xFFFD")
    where
        f (Bytes str) = void $ fdWrite outHandle str
        f (Delay t) = threadDelay t

minDetectableDelay :: Int
minDetectableDelay = 4000

minTimout :: Int
minTimout = 4000000

testKeyDelay :: Int
testKeyDelay = minDetectableDelay * 4

testEscSampleDelay :: Int
testEscSampleDelay = minDetectableDelay * 2

genEventsUsingIoActions :: Int -> IO () -> IO () -> IO ()
genEventsUsingIoActions maxDuration inputAction outputAction = do
    let maxDuration' = max minTimout maxDuration
    readComplete <- newEmptyMVar
    writeComplete <- newEmptyMVar
    _ <- forkOS $ inputAction `finally` putMVar writeComplete ()
    _ <- forkOS $ outputAction `finally` putMVar readComplete ()
    Just () <- timeout maxDuration' $ takeMVar writeComplete
    Just () <- timeout maxDuration' $ takeMVar readComplete
    return ()

compareEvents :: (Show a1, Show a, Eq a1) => a -> [a1] -> [a1] -> IO Bool
compareEvents inputSpec expectedEvents outEvents = compareEvents' expectedEvents outEvents
    where
        compareEvents' [] []         = return True
        compareEvents' [] outEvents' = do
            printf "extra events %s\n" (show outEvents') :: IO ()
            return False
        compareEvents' expectedEvents' [] = do
            printf "events %s were not produced for input %s\n" (show expectedEvents') (show inputSpec) :: IO ()
            printf "expected events %s\n" (show expectedEvents) :: IO ()
            printf "received events %s\n" (show outEvents) :: IO ()
            return False
        compareEvents' (e : expectedEvents') (o : outEvents')
            | e == o    = compareEvents' expectedEvents' outEvents'
            | otherwise = do
                printf "%s expected not %s for input %s\n" (show e) (show o) (show inputSpec) :: IO ()
                printf "expected events %s\n" (show expectedEvents) :: IO ()
                printf "received events %s\n" (show outEvents) :: IO ()
                return False

assertEventsFromSynInput :: ClassifyMap -> InputSpec -> ExpectedSpec -> IO Bool
assertEventsFromSynInput table inputSpec expectedEvents = do
    let maxDuration = sum [t | Delay t <- inputSpec] + minDetectableDelay
        eventCount = length expectedEvents
    (writeFd, readFd) <- openPseudoTerminal
    (setTermAttr,_) <- attributeControl readFd
    setTermAttr
    let testConfig = defaultConfig { inputFd = Just readFd
                                   , termName = Just "dummy"
                                   , vmin = Just 1
                                   , vtime = Just 100
                                   }
    input <- initInput testConfig table
    eventsRef <- newIORef []
    let writeWaitClose = do
            synthesizeInput inputSpec writeFd
            threadDelay minDetectableDelay
            shutdownInput input
            threadDelay minDetectableDelay
            closeFd writeFd
            closeFd readFd
    -- drain output pipe
    let readEvents = readLoop eventCount
        readLoop 0 = return ()
        readLoop n = do
            e <- atomically $ readTChan $ input^.eventChannel
            modifyIORef eventsRef ((:) e)
            readLoop (n - 1)
    genEventsUsingIoActions maxDuration writeWaitClose readEvents
    outEvents <- reverse <$> readIORef eventsRef
    compareEvents inputSpec expectedEvents outEvents

newtype InputBlocksUsingTable event
    = InputBlocksUsingTable ([(String,event)] -> [(String, event)])

instance Show (InputBlocksUsingTable event) where
    show (InputBlocksUsingTable _g) = "InputBlocksUsingTable"

instance Monad m => Serial m (InputBlocksUsingTable event) where
    series = do
        n :: Int <- localDepth (const maxTableSize) series
        return $ InputBlocksUsingTable $ \raw_table ->
                 let table = reverse $ nubBy (\(s0,_) (s1,_) -> s0 == s1) $ reverse raw_table
                 in concat (take n (selections table))
        where
            selections []     = []
            selections (x:xs) = let z = selections xs in [x] : (z ++ map ((:) x) z)

verifyVisibleSynInputToEvent :: Property IO
verifyVisibleSynInputToEvent = forAll $ \(InputBlocksUsingTable gen) -> monadic $ do
    let table    = visibleChars
        inputSeq = gen table
        events   = map snd inputSeq
        keydowns = map (Bytes . fst) inputSeq
        input    = intersperse (Delay testKeyDelay) keydowns ++ [Delay testKeyDelay]
    assertEventsFromSynInput universalTable input events

verifyCapsSynInputToEvent :: Property IO
verifyCapsSynInputToEvent = forAll $ \(InputBlocksUsingTable gen) ->
    forEachOf terminalsOfInterest $ \terminalName -> monadic $ do
        term <- setupTerm terminalName
        let table         = capsClassifyMap term keysFromCapsTable
            inputSeq      = gen table
            events        = map snd inputSeq
            keydowns      = map (Bytes . fst) inputSeq
            input         = intersperse (Delay testKeyDelay) keydowns ++ [Delay testKeyDelay]
        assertEventsFromSynInput table input events

verifySpecialSynInputToEvent :: Property IO
verifySpecialSynInputToEvent = forAll $ \(InputBlocksUsingTable gen) -> monadic $ do
    let table         = specialSupportKeys
        inputSeq      = gen table
        events        = map snd inputSeq
        keydowns      = map (Bytes . fst) inputSeq
        input         = intersperse (Delay testKeyDelay) keydowns ++ [Delay testKeyDelay]
    assertEventsFromSynInput universalTable input events

verifyFullSynInputToEvent :: Property IO
verifyFullSynInputToEvent = forAll $ \(InputBlocksUsingTable gen) ->
    forEachOf terminalsOfInterest $ \terminalName -> monadic $ do
        term <- setupTerm terminalName
        let table         = classifyMapForTerm terminalName term
            inputSeq      = gen table
            events        = map snd inputSeq
            keydowns      = map (Bytes . fst) inputSeq
            input         = intersperse (Delay testKeyDelay) keydowns ++ [Delay testKeyDelay]
        assertEventsFromSynInput table input events

verifyFullSynInputToEvent_2x :: Property IO
verifyFullSynInputToEvent_2x = forAll $ \(InputBlocksUsingTable gen) ->
    forEachOf terminalsOfInterest $ \terminalName -> monadic $ do
        term <- setupTerm terminalName
        let table         = classifyMapForTerm terminalName term
            inputSeq      = gen table
            events        = concatMap ((\s -> [s,s]) . snd) inputSeq
            keydowns      = map (Bytes . (\s -> s ++ s) . fst) inputSeq
            input         = intersperse (Delay testKeyDelay) keydowns ++ [Delay testKeyDelay]
        assertEventsFromSynInput table input events

main :: IO ()
main = defaultMain
    [ testProperty "synthesized typing of single visible chars translates to expected events"
        verifyVisibleSynInputToEvent
    , testProperty "synthesized typing of keys from capabilities tables translates to expected events"
        verifyCapsSynInputToEvent
    , testProperty "synthesized typing of hard coded special keys translates to expected events"
        verifySpecialSynInputToEvent
    , testProperty "synthesized typing of any key in the table translates to its paired event"
        verifyFullSynInputToEvent
    , testProperty "synthesized typing of 2x any key in the table translates to 2x paired event"
        verifyFullSynInputToEvent_2x
    ]