{-# LANGUAGE DeriveAnyClass #-}
{-# LANGUAGE NamedFieldPuns #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RecordWildCards #-}
module Dhall.Main
(
Options(..)
, Mode(..)
, parseOptions
, parserInfoOptions
, command
, main
) where
import Control.Applicative (optional, (<|>))
import Control.Exception (SomeException)
import Data.Monoid ((<>))
import Data.Text (Text)
import Data.Text.Prettyprint.Doc (Doc, Pretty)
import Data.Version (showVersion)
import Dhall.Binary (StandardVersion)
import Dhall.Core (Expr(..), Import)
import Dhall.Import (Imported(..))
import Dhall.Parser (Src)
import Dhall.Pretty (Ann, CharacterSet(..), annToAnsiStyle, layoutOpts)
import Dhall.TypeCheck (DetailedTypeError(..), TypeError, X)
import Lens.Family (set)
import Options.Applicative (Parser, ParserInfo)
import System.Exit (exitFailure)
import System.IO (Handle)
import qualified Codec.CBOR.JSON
import qualified Codec.CBOR.Read
import qualified Codec.CBOR.Write
import qualified Codec.Serialise
import qualified Control.Exception
import qualified Control.Monad.Trans.State.Strict as State
import qualified Data.Aeson
import qualified Data.Aeson.Encode.Pretty
import qualified Data.ByteString.Lazy
import qualified Data.ByteString.Lazy.Char8
import qualified Data.Text
import qualified Data.Text.IO
import qualified Data.Text.Prettyprint.Doc as Pretty
import qualified Data.Text.Prettyprint.Doc.Render.Terminal as Pretty
import qualified Dhall
import qualified Dhall.Binary
import qualified Dhall.Core
import qualified Dhall.Diff
import qualified Dhall.Format
import qualified Dhall.Freeze
import qualified Dhall.Hash
import qualified Dhall.Import
import qualified Dhall.Import.Types
import qualified Dhall.Lint
import qualified Dhall.Parser
import qualified Dhall.Pretty
import qualified Dhall.Repl
import qualified Dhall.TypeCheck
import qualified GHC.IO.Encoding
import qualified Options.Applicative
import qualified Paths_dhall as Meta
import qualified System.Console.ANSI
import qualified System.IO
import qualified Text.Dot
import qualified Data.Map
data Options = Options
{ mode :: Mode
, explain :: Bool
, plain :: Bool
, ascii :: Bool
, standardVersion :: StandardVersion
}
data Mode
= Default { annotate :: Bool, alpha :: Bool }
| Version
| Resolve { resolveMode :: Maybe ResolveMode }
| Type
| Normalize { alpha :: Bool }
| Repl
| Format { formatMode :: Dhall.Format.FormatMode }
| Freeze { inplace :: Maybe FilePath, all_ :: Bool }
| Hash
| Diff { expr1 :: Text, expr2 :: Text }
| Lint { inplace :: Maybe FilePath }
| Encode { json :: Bool }
| Decode { json :: Bool }
data ResolveMode
= Dot
| ListTransitiveDependencies
| ListImmediateDependencies
parseOptions :: Parser Options
parseOptions =
Options
<$> parseMode
<*> switch "explain" "Explain error messages in more detail"
<*> switch "plain" "Disable syntax highlighting"
<*> switch "ascii" "Format code using only ASCII syntax"
<*> Dhall.Binary.parseStandardVersion
where
switch name description =
Options.Applicative.switch
( Options.Applicative.long name
<> Options.Applicative.help description
)
subcommand :: String -> String -> Parser a -> Parser a
subcommand name description parser =
Options.Applicative.hsubparser
( Options.Applicative.command name parserInfo
<> Options.Applicative.metavar name
)
where
parserInfo =
Options.Applicative.info parser
( Options.Applicative.fullDesc
<> Options.Applicative.progDesc description
)
parseMode :: Parser Mode
parseMode =
subcommand
"version"
"Display version"
(pure Version)
<|> subcommand
"resolve"
"Resolve an expression's imports"
(Resolve <$> parseResolveMode)
<|> subcommand
"type"
"Infer an expression's type"
(pure Type)
<|> subcommand
"normalize"
"Normalize an expression"
(Normalize <$> parseAlpha)
<|> subcommand
"repl"
"Interpret expressions in a REPL"
(pure Repl)
<|> subcommand
"diff"
"Render the difference between the normal form of two expressions"
(Diff <$> argument "expr1" <*> argument "expr2")
<|> subcommand
"hash"
"Compute semantic hashes for Dhall expressions"
(pure Hash)
<|> subcommand
"lint"
"Improve Dhall code"
(Lint <$> optional parseInplace)
<|> subcommand
"format"
"Formatter for the Dhall language"
(Format <$> parseFormatMode)
<|> subcommand
"freeze"
"Add integrity checks to remote import statements of an expression"
(Freeze <$> optional parseInplace <*> parseAllFlag)
<|> subcommand
"encode"
"Encode a Dhall expression to binary"
(Encode <$> parseJSONFlag)
<|> subcommand
"decode"
"Decode a Dhall expression from binary"
(Decode <$> parseJSONFlag)
<|> (Default <$> parseAnnotate <*> parseAlpha)
where
argument =
fmap Data.Text.pack
. Options.Applicative.strArgument
. Options.Applicative.metavar
parseAlpha =
Options.Applicative.switch
( Options.Applicative.long "alpha"
<> Options.Applicative.help "α-normalize expression"
)
parseAnnotate =
Options.Applicative.switch
( Options.Applicative.long "annotate"
<> Options.Applicative.help "Add a type annotation to the output"
)
parseResolveMode =
Options.Applicative.flag' (Just Dot)
( Options.Applicative.long "dot"
<> Options.Applicative.help
"Output import dependency graph in dot format"
)
<|>
Options.Applicative.flag' (Just ListImmediateDependencies)
( Options.Applicative.long "immediate-dependencies"
<> Options.Applicative.help
"List immediate import dependencies"
)
<|>
Options.Applicative.flag' (Just ListTransitiveDependencies)
( Options.Applicative.long "transitive-dependencies"
<> Options.Applicative.help
"List transitive import dependencies"
)
<|> pure Nothing
parseInplace =
Options.Applicative.strOption
( Options.Applicative.long "inplace"
<> Options.Applicative.help "Modify the specified file in-place"
<> Options.Applicative.metavar "FILE"
)
parseJSONFlag =
Options.Applicative.switch
( Options.Applicative.long "json"
<> Options.Applicative.help "Use JSON representation of CBOR"
)
parseAllFlag =
Options.Applicative.switch
( Options.Applicative.long "all"
<> Options.Applicative.help "Add integrity checks to all imports (not just remote imports)"
)
parseCheck =
Options.Applicative.switch
( Options.Applicative.long "check"
<> Options.Applicative.help "Only check if the input is formatted"
)
parseFormatMode = adapt <$> parseCheck <*> optional parseInplace
where
adapt True path = Dhall.Format.Check {..}
adapt False inplace = Dhall.Format.Modify {..}
getExpression :: IO (Expr Src Import)
getExpression = do
inText <- Data.Text.IO.getContents
Dhall.Core.throws (Dhall.Parser.exprFromText "(stdin)" inText)
parserInfoOptions :: ParserInfo Options
parserInfoOptions =
Options.Applicative.info
(Options.Applicative.helper <*> parseOptions)
( Options.Applicative.progDesc "Interpreter for the Dhall language"
<> Options.Applicative.fullDesc
)
command :: Options -> IO ()
command (Options {..}) = do
let characterSet = case ascii of
True -> ASCII
False -> Unicode
GHC.IO.Encoding.setLocaleEncoding System.IO.utf8
let status =
set Dhall.Import.standardVersion standardVersion (Dhall.Import.emptyStatus ".")
let handle =
Control.Exception.handle handler2
. Control.Exception.handle handler1
. Control.Exception.handle handler0
where
handler0 e = do
let _ = e :: TypeError Src X
System.IO.hPutStrLn System.IO.stderr ""
if explain
then Control.Exception.throwIO (DetailedTypeError e)
else do
Data.Text.IO.hPutStrLn System.IO.stderr "\ESC[2mUse \"dhall --explain\" for detailed errors\ESC[0m"
Control.Exception.throwIO e
handler1 (Imported ps e) = do
let _ = e :: TypeError Src X
System.IO.hPutStrLn System.IO.stderr ""
if explain
then Control.Exception.throwIO (Imported ps (DetailedTypeError e))
else do
Data.Text.IO.hPutStrLn System.IO.stderr "\ESC[2mUse \"dhall --explain\" for detailed errors\ESC[0m"
Control.Exception.throwIO (Imported ps e)
handler2 e = do
let string = show (e :: SomeException)
if not (null string)
then System.IO.hPutStrLn System.IO.stderr string
else return ()
System.Exit.exitFailure
let renderDoc :: Handle -> Doc Ann -> IO ()
renderDoc h doc = do
let stream = Pretty.layoutSmart layoutOpts doc
supportsANSI <- System.Console.ANSI.hSupportsANSI h
let ansiStream =
if supportsANSI && not plain
then fmap annToAnsiStyle stream
else Pretty.unAnnotateS stream
Pretty.renderIO h ansiStream
Data.Text.IO.hPutStrLn h ""
let render :: Pretty a => Handle -> Expr s a -> IO ()
render h expression = do
let doc = Dhall.Pretty.prettyCharacterSet characterSet expression
renderDoc h doc
handle $ case mode of
Version -> do
let line₀ = "Haskell package version: "
<> Data.Text.pack (showVersion Meta.version)
let line₁ = "Standard version: "
<> Dhall.Binary.renderStandardVersion Dhall.Binary.defaultStandardVersion
Data.Text.IO.putStrLn line₀
Data.Text.IO.putStrLn line₁
Default {..} -> do
expression <- getExpression
resolvedExpression <- State.evalStateT (Dhall.Import.loadWith expression) status
inferredType <- Dhall.Core.throws (Dhall.TypeCheck.typeOf resolvedExpression)
let normalizedExpression = Dhall.Core.normalize resolvedExpression
let alphaNormalizedExpression =
if alpha
then Dhall.Core.alphaNormalize normalizedExpression
else normalizedExpression
let annotatedExpression =
if annotate
then Annot alphaNormalizedExpression inferredType
else alphaNormalizedExpression
render System.IO.stdout annotatedExpression
Resolve (Just Dot) -> do
expression <- getExpression
(Dhall.Import.Types.Status { _dot}) <-
State.execStateT (Dhall.Import.loadWith expression) status
putStr . ("strict " <>) . Text.Dot.showDot $
Text.Dot.attribute ("rankdir", "LR") >>
_dot
Resolve (Just ListImmediateDependencies) -> do
expression <- getExpression
mapM_ (print
. Pretty.pretty
. Dhall.Core.importHashed) expression
Resolve (Just ListTransitiveDependencies) -> do
expression <- getExpression
(Dhall.Import.Types.Status { _cache }) <-
State.execStateT (Dhall.Import.loadWith expression) status
mapM_ print
. fmap ( Pretty.pretty
. Dhall.Core.importType
. Dhall.Core.importHashed )
. Data.Map.keys
$ _cache
Resolve (Nothing) -> do
expression <- getExpression
(resolvedExpression, _) <-
State.runStateT (Dhall.Import.loadWith expression) status
render System.IO.stdout resolvedExpression
Normalize {..} -> do
expression <- getExpression
resolvedExpression <- Dhall.Import.assertNoImports expression
_ <- Dhall.Core.throws (Dhall.TypeCheck.typeOf resolvedExpression)
let normalizedExpression = Dhall.Core.normalize resolvedExpression
let alphaNormalizedExpression =
if alpha
then Dhall.Core.alphaNormalize normalizedExpression
else normalizedExpression
render System.IO.stdout alphaNormalizedExpression
Type -> do
expression <- getExpression
resolvedExpression <- Dhall.Import.assertNoImports expression
inferredType <- Dhall.Core.throws (Dhall.TypeCheck.typeOf resolvedExpression)
render System.IO.stdout (Dhall.Core.normalize inferredType)
Repl -> do
Dhall.Repl.repl characterSet explain standardVersion
Diff {..} -> do
expression1 <- Dhall.inputExpr expr1
expression2 <- Dhall.inputExpr expr2
let diff = Dhall.Diff.diffNormalized expression1 expression2
renderDoc System.IO.stdout diff
Format {..} -> do
Dhall.Format.format (Dhall.Format.Format {..})
Freeze {..} -> do
Dhall.Freeze.freeze inplace all_ characterSet standardVersion
Hash -> do
Dhall.Hash.hash standardVersion
Lint {..} -> do
case inplace of
Just file -> do
text <- Data.Text.IO.readFile file
(header, expression) <- Dhall.Core.throws (Dhall.Parser.exprAndHeaderFromText file text)
let lintedExpression = Dhall.Lint.lint expression
let doc = Pretty.pretty header
<> Dhall.Pretty.prettyCharacterSet characterSet lintedExpression
System.IO.withFile file System.IO.WriteMode (\h -> do
renderDoc h doc )
Nothing -> do
text <- Data.Text.IO.getContents
(header, expression) <- Dhall.Core.throws (Dhall.Parser.exprAndHeaderFromText "(stdin)" text)
let lintedExpression = Dhall.Lint.lint expression
let doc = Pretty.pretty header
<> Dhall.Pretty.prettyCharacterSet characterSet lintedExpression
renderDoc System.IO.stdout doc
Encode {..} -> do
expression <- getExpression
let term = Dhall.Binary.encode expression
let bytes = Codec.Serialise.serialise term
if json
then do
let decoder = Codec.CBOR.JSON.decodeValue False
(_, value) <- Dhall.Core.throws (Codec.CBOR.Read.deserialiseFromBytes decoder bytes)
let jsonBytes = Data.Aeson.Encode.Pretty.encodePretty value
Data.ByteString.Lazy.Char8.putStrLn jsonBytes
else do
Data.ByteString.Lazy.putStr bytes
Decode {..} -> do
bytes <- Data.ByteString.Lazy.getContents
term <- do
if json
then do
value <- case Data.Aeson.eitherDecode' bytes of
Left string -> fail string
Right value -> return value
let encoding = Codec.CBOR.JSON.encodeValue value
let cborBytes = Codec.CBOR.Write.toLazyByteString encoding
Dhall.Core.throws (Codec.Serialise.deserialiseOrFail cborBytes)
else do
Dhall.Core.throws (Codec.Serialise.deserialiseOrFail bytes)
expression <- Dhall.Core.throws (Dhall.Binary.decodeExpression term)
let doc = Dhall.Pretty.prettyCharacterSet characterSet expression
renderDoc System.IO.stdout doc
main :: IO ()
main = do
options <- Options.Applicative.execParser parserInfoOptions
command options