{-# OPTIONS_GHC -fno-warn-orphans #-} --{-# LANGUAGE CPP #-} --{-# LANGUAGE DataKinds #-} --{-# LANGUAGE DeriveAnyClass #-} {-# LANGUAGE DeriveGeneric #-} --{-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} --{-# LANGUAGE NamedFieldPuns #-} --{-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE OverloadedStrings #-} --{-# LANGUAGE PolyKinds #-} --{-# LANGUAGE QuasiQuotes #-} --{-# LANGUAGE QuasiQuotes #-} --{-# LANGUAGE Rank2Types #-} --{-# LANGUAGE RankNTypes #-} {-# LANGUAGE RecordWildCards #-} --{-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE StandaloneDeriving #-} --{-# LANGUAGE TemplateHaskell #-} --{-# LANGUAGE TypeFamilies #-} --{-# LANGUAGE TypeOperators #-} module Hledger.Web.Json ( -- * Instances -- * Utilities readJsonFile ,writeJsonFile ) where import Data.Aeson --import Data.Aeson.TH import qualified Data.ByteString.Lazy as BL import Data.Decimal import Data.Maybe import GHC.Generics (Generic) import Hledger.Data -- JSON instances. Should they be in hledger-lib Types.hs ? -- To JSON instance ToJSON Status instance ToJSON GenericSourcePos instance ToJSON Decimal instance ToJSON Amount instance ToJSON AmountStyle instance ToJSON Side instance ToJSON DigitGroupStyle instance ToJSON MixedAmount instance ToJSON BalanceAssertion instance ToJSON AmountPrice instance ToJSON MarketPrice instance ToJSON PostingType instance ToJSON Posting where toJSON Posting{..} = object ["pdate" .= toJSON pdate ,"pdate2" .= toJSON pdate2 ,"pstatus" .= toJSON pstatus ,"paccount" .= toJSON paccount ,"pamount" .= toJSON pamount ,"pcomment" .= toJSON pcomment ,"ptype" .= toJSON ptype ,"ptags" .= toJSON ptags ,"pbalanceassertion" .= toJSON pbalanceassertion -- To avoid a cycle, show just the parent transaction's index number -- in a dummy field. When re-parsed, there will be no parent. ,"ptransaction_" .= toJSON (maybe "" (show.tindex) ptransaction) -- This is probably not wanted in json, we discard it. ,"poriginal" .= toJSON (Nothing :: Maybe Posting) ] instance ToJSON Transaction instance ToJSON Account where toJSON a = object ["aname" .= toJSON (aname a) ,"aebalance" .= toJSON (aebalance a) ,"aibalance" .= toJSON (aibalance a) ,"anumpostings" .= toJSON (anumpostings a) ,"aboring" .= toJSON (aboring a) -- To avoid a cycle, show just the parent account's name -- in a dummy field. When re-parsed, there will be no parent. ,"aparent_" .= toJSON (maybe "" aname $ aparent a) -- Just the names of subaccounts, as a dummy field, ignored when parsed. ,"asubs_" .= toJSON (map aname $ asubs a) -- The actual subaccounts (and their subs..), making a (probably highly redundant) tree -- ,"asubs" .= toJSON (asubs a) -- Omit the actual subaccounts ,"asubs" .= toJSON ([]::[Account]) ] -- From JSON instance FromJSON Status instance FromJSON GenericSourcePos instance FromJSON Amount instance FromJSON AmountStyle instance FromJSON Side instance FromJSON DigitGroupStyle instance FromJSON MixedAmount instance FromJSON BalanceAssertion instance FromJSON AmountPrice instance FromJSON MarketPrice instance FromJSON PostingType instance FromJSON Posting instance FromJSON Transaction instance FromJSON AccountDeclarationInfo -- XXX The ToJSON instance replaces subaccounts with just names. -- Here we should try to make use of those to reconstruct the -- parent-child relationships. instance FromJSON Account -- Decimal, various attempts -- -- https://stackoverflow.com/questions/40331851/haskell-data-decimal-as-aeson-type ----instance FromJSON Decimal where parseJSON = ---- A.withScientific "Decimal" (return . right . eitherFromRational . toRational) -- -- https://github.com/bos/aeson/issues/474 -- http://hackage.haskell.org/package/aeson-1.4.2.0/docs/Data-Aeson-TH.html -- $(deriveFromJSON defaultOptions ''Decimal) -- doesn't work -- $(deriveFromJSON defaultOptions ''DecimalRaw) -- works; requires TH, but gives better parse error messages -- -- https://github.com/PaulJohnson/Haskell-Decimal/issues/6 --deriving instance Generic Decimal --instance FromJSON Decimal deriving instance Generic (DecimalRaw a) instance FromJSON (DecimalRaw Integer) -- -- @simonmichael, I think the code in your first comment should work if it compiles—though “work” doesn’t mean you can parse a JSON number directly into a `Decimal` using the generic instance, as you’ve discovered. -- --Error messages with these extensions are always rather cryptic, but I’d prefer them to Template Haskell. Typically you’ll want to start by getting a generic `ToJSON` instance working, then use that to figure out what the `FromJSON` instance expects to parse: for a correct instance, `encode` and `decode` should give you an isomorphism between your type and a subset of `Bytestring` (up to the `Maybe` wrapper that `decode` returns). -- --I don’t have time to test it right now, but I think it will also work without `DeriveAnyClass`, just using `DeriveGeneric` and `StandAloneDeriving`. It should also work to use the [`genericParseJSON`](http://hackage.haskell.org/package/aeson/docs/Data-Aeson.html#v:genericParseJSON) function to implement the class explicitly, something like this: -- --{-# LANGUAGE DeriveGeneric #-} --{-# LANGUAGE StandAloneDeriving #-} --import GHC.Generics --import Data.Aeson --deriving instance Generic Decimal --instance FromJSON Decimal where -- parseJSON = genericParseJSON defaultOptions -- --And of course you can avoid `StandAloneDeriving` entirely if you’re willing to wrap `Decimal` in your own `newtype`. -- Utilities -- | Read a json from a file and decode/parse it as the target type, if we can. -- Example: -- >>> readJsonFile "in.json" :: IO MixedAmount readJsonFile :: FromJSON a => FilePath -> IO a readJsonFile f = do bs <- BL.readFile f let v = fromMaybe (error "could not decode bytestring as json value") (decode bs :: Maybe Value) case fromJSON v :: FromJSON a => Result a of Error e -> error e Success t -> return t -- | Write some to-JSON-convertible haskell value to a json file, if we can. -- Example: -- >>> writeJsonFile "out.json" nullmixedamt writeJsonFile :: ToJSON a => FilePath -> a -> IO () writeJsonFile f v = BL.writeFile f (encode $ toJSON v)