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semantic/semantic-python/test/CoreTest.hs
2020-05-27 15:49:28 -04:00

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{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TypeApplications #-}
{-# LANGUAGE TypeOperators #-}
{-# OPTIONS_GHC -Wno-unrecognised-pragmas #-}
module Main (main) where
import Analysis.Concrete (Concrete)
import qualified Analysis.Concrete as Concrete
import Analysis.File
import Control.Algebra
import Control.Carrier.Fail.Either
import Control.Carrier.Reader
import Control.Monad hiding (fail)
import Control.Monad.IO.Class
-- import Core.Core
-- import qualified Core.Eval as Eval
-- import Core.Name
-- import qualified Core.Parser
-- import Core.Pretty
import qualified Data.ByteString.Char8 as ByteString
import Data.Foldable
import Data.Function
import qualified Data.IntMap as IntMap
import Data.List (sort)
import qualified Data.Map as Map
import Data.Maybe
import Data.Text (Text)
import GHC.Stack
-- import qualified Language.Python.Core as Py
import Language.Python.Failure
import Prelude hiding (fail)
import Source.Span
import Syntax.Term
import Syntax.Var (closed)
import System.Directory
import System.Exit
import System.Path ((</>))
import qualified System.Path as Path
import qualified System.Path.Directory as Path
import qualified Text.Trifecta as Trifecta
import qualified Language.Python.Grammar as TSP
import qualified AST.Unmarshal as TS
import qualified Test.Tasty as Tasty
import qualified Test.Tasty.HUnit as HUnit
-- import qualified Directive
import Instances ()
parsePrelude :: IO (Term (Ann Span :+: Core) Name)
parsePrelude = do
preludesrc <- ByteString.readFile "semantic-python/src/Prelude.score"
let ePrelude = Trifecta.parseByteString (Core.Parser.core <* Trifecta.eof) mempty preludesrc
case Trifecta.foldResult (Left . show) Right ePrelude of
Right r -> pure r
Left s -> HUnit.assertFailure ("Couldn't parse prelude: " <> s)
-- handles CHECK-RESULT directives
assertEvaluatesTo :: Term (Ann Span :+: Core) Name -> Text -> Concrete (Term (Ann Span :+: Core)) -> HUnit.Assertion
assertEvaluatesTo core k val = do
prelude <- parsePrelude
let withPrelude = (named' "__semantic_prelude" :<- prelude) >>>= core
allTogether <- maybe (HUnit.assertFailure ("Cant evaluate open term: " <> showCore (stripAnnotations withPrelude))) pure (closed withPrelude)
let filius = [File (Path.absRel "<interactive>") (Span (Pos 1 1) (Pos 1 1)) allTogether]
(heap, env) <- case Concrete.concrete Eval.eval filius of
(heap, [File _ _ (Right (Concrete.Record env))]) ->
pure (heap, env)
(_, [File _ _ (Left (_, span, err))]) ->
HUnit.assertFailure ("Failed evaluation (" <> show span <> "): " <> err)
(_, files) ->
HUnit.assertFailure ("Unexpected number of files: " <> show (length files))
let found = Map.lookup (name k) env >>= flip IntMap.lookup heap
found HUnit.@?= Just val
{-# HLINT ignore assertEvaluatesTo #-}
-- handles CHECK-TREE directives
assertTreeEqual :: Term Core Name -> Term Core Name -> HUnit.Assertion
assertTreeEqual t item = HUnit.assertEqual ("got (pretty)" <> showCore item) t item
checkPythonFile :: HasCallStack => Path.RelFile -> Tasty.TestTree
checkPythonFile fp = HUnit.testCaseSteps (Path.toString fp) $ \step -> withFrozenCallStack $ do
-- Extract the directives and the core associated with the provided file
let fullPath = Path.relDir "semantic-python/test/fixtures" </> fp
directives <- Directive.readDirectivesFromFile fullPath
result <- ByteString.readFile (Path.toString fullPath) >>= TS.parseByteString TSP.tree_sitter_python
-- Run the compiler
let coreResult = Control.Algebra.run
. runFail
. eliminateFailures
. Control.Algebra.run
. runReader @Py.Bindings mempty
. Py.toplevelCompile @(Failure :+: Ann Span :+: Core) @(Term _)
<$> result
-- Dispatch based on the result-directive pair
for_ directives $ \directive -> do
step (Directive.describe directive)
case (coreResult, directive) of
(Right (Left _), Directive.Fails) -> pure ()
(Left err, _) -> HUnit.assertFailure ("Parsing failed: " <> err)
(Right (Left err), _) -> HUnit.assertFailure ("Compilation failed: " <> err)
(Right (Right _), Directive.Fails) -> HUnit.assertFailure "Expected translation to fail"
(Right (Right item), Directive.Result k v) -> assertEvaluatesTo item k v
(Right (Right item), Directive.Tree t) -> assertTreeEqual (stripAnnotations item) t
milestoneFixtures :: IO Tasty.TestTree
milestoneFixtures = buildTests <$> readFiles
where
readFiles = liftIO . Path.filesInDir . Path.relDir $ "semantic-python/test/fixtures"
buildTests = Tasty.testGroup "Python" . fmap checkPythonFile . sort . filter (Path.hasExtension ".py")
main :: IO ()
main = do
jq <- findExecutable "jq"
when (isNothing jq) (die "Error: jq(1) not found in $PATH.")
milestoneFixtures >>= Tasty.defaultMain