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mirror of https://github.com/github/semantic.git synced 2024-12-24 23:42:31 +03:00
semantic/semantic-core/test/Test.hs
2019-10-11 13:50:40 -04:00

120 lines
4.1 KiB
Haskell

{-# LANGUAGE OverloadedStrings, TypeApplications, TypeOperators #-}
module Main (main) where
import qualified Text.Trifecta as Trifecta
import Hedgehog hiding (Var)
import Test.Tasty
import Test.Tasty.Hedgehog
import Test.Tasty.HUnit
import Analysis.File
import Core.Core
import Core.Pretty
import Core.Parser as Parse
import qualified Core.Eval as Eval
import Core.Name
import qualified Generators as Gen
import Source.Span
import Syntax.Term
-- * Helpers
true, false :: Term Core Name
true = bool True
false = bool False
parseEither :: Trifecta.Parser a -> String -> Either String a
parseEither p = Trifecta.foldResult (Left . show . Trifecta._errDoc) Right . Trifecta.parseString (p <* Trifecta.eof) mempty
-- * Parser roundtripping properties. Note that parsing and prettyprinting is generally
-- not a roundtrip, because the parser inserts 'Ann' nodes itself.
prop_roundtrips :: Gen (Term Core Name) -> Property
prop_roundtrips gen = property $ do
input <- forAll gen
tripping input showCore (parseEither (Parse.core <* Trifecta.eof))
parserProps :: TestTree
parserProps = testGroup "Parsing: roundtripping"
[ testProperty "literals" $ prop_roundtrips Gen.literal
, testProperty "if/then/else" . prop_roundtrips . Gen.ifthenelse $ Gen.variable
, testProperty "lambda" . prop_roundtrips $ Gen.lambda Gen.literal
, testProperty "function application" . prop_roundtrips $ Gen.apply Gen.variable
, testProperty "expressions" . prop_roundtrips $ Gen.expr
]
-- * Parser specs
parsesInto :: String -> Term Core Name -> Assertion
parsesInto str res = case parseEither Parse.core str of
Right x -> x @?= res
Left m -> assertFailure m
assert_booleans_parse :: Assertion
assert_booleans_parse = do
parseEither Parse.core "#true" @?= Right true
parseEither Parse.core "#false" @?= Right false
a, f, g, h :: Term Core Name
(a, f, g, h) = (pure "a", pure "f", pure "g", pure "h")
assert_ifthen_parse :: Assertion
assert_ifthen_parse = "if #true then #true else #false" `parsesInto` (if' true true false)
assert_application_parse :: Assertion
assert_application_parse = "f g" `parsesInto` (f $$ g)
assert_application_left_associative :: Assertion
assert_application_left_associative = "f g h" `parsesInto` (f $$ g $$ h)
assert_push_left_associative :: Assertion
assert_push_left_associative = "f.g.h" `parsesInto` (f ... "g" ... "h")
assert_ascii_lambda_parse :: Assertion
assert_ascii_lambda_parse = "\\a -> a" `parsesInto` lam (named' "a") a
assert_unicode_lambda_parse :: Assertion
assert_unicode_lambda_parse = "λa → a" `parsesInto` lam (named' "a") a
assert_quoted_name_parse :: Assertion
assert_quoted_name_parse = "#{(NilClass)}" `parsesInto` pure "(NilClass)"
parserSpecs :: TestTree
parserSpecs = testGroup "Parsing: simple specs"
[ testCase "true/false" assert_booleans_parse
, testCase "if/then/else" assert_ifthen_parse
, testCase "function application" assert_application_parse
, testCase "application is left-associative" assert_application_left_associative
, testCase "dotted push is left-associative" assert_push_left_associative
, testCase "lambda with ASCII syntax" assert_ascii_lambda_parse
, testCase "lambda with unicode syntax" assert_unicode_lambda_parse
, testCase "quoted names" assert_quoted_name_parse
]
assert_roundtrips :: File (Term Core Name) -> Assertion
assert_roundtrips (File _ _ core) = case parseEither Parse.core (showCore core) of
Right v -> v @?= core
Left e -> assertFailure e
parserExamples :: TestTree
parserExamples = testGroup "Parsing: Eval.hs examples"
[ testCase "prog1" (assert_roundtrips Eval.prog1)
, testCase "prog2" (assert_roundtrips Eval.prog2)
, testCase "prog3" (assert_roundtrips Eval.prog3)
, testCase "prog4" (assert_roundtrips Eval.prog4)
, testCase "prog6.1" (assert_roundtrips (head Eval.prog6))
, testCase "prog6.2" (assert_roundtrips (last Eval.prog6))
, testCase "ruby" (assert_roundtrips (stripAnnotations @Span <$> Eval.ruby))
]
tests :: TestTree
tests = testGroup "semantic-core"
[ parserSpecs
, parserExamples
, parserProps
]
main :: IO ()
main = defaultMain tests