{-# LANGUAGE NoMonomorphismRestriction #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE CPP #-}
{-|

'AccountName's are strings like @assets:cash:petty@, with multiple
components separated by ':'.  From a set of these we derive the account
hierarchy.

-}

module Hledger.Data.AccountName (
   accountLeafName
  ,accountNameComponents
  ,accountNameDrop
  ,accountNameFromComponents
  ,accountNameLevel
  ,accountNameToAccountOnlyRegex
  ,accountNameToAccountRegex
  ,accountNameTreeFrom
  ,accountRegexToAccountName
  ,accountSummarisedName
  ,acctsep
  ,acctsepchar
  ,clipAccountName
  ,clipOrEllipsifyAccountName
  ,elideAccountName
  ,escapeName
  ,expandAccountName
  ,expandAccountNames
  ,isAccountNamePrefixOf
--  ,isAccountRegex 
  ,isSubAccountNameOf
  ,parentAccountName
  ,parentAccountNames
  ,subAccountNamesFrom
  ,topAccountNames
  ,unbudgetedAccountName
  ,tests_AccountName
)
where

import Data.List
#if !(MIN_VERSION_base(4,11,0))
import Data.Monoid
#endif
import Data.Text (Text)
import qualified Data.Text as T
import Data.Tree
import Text.Printf

import Hledger.Data.Types
import Hledger.Utils

-- $setup
-- >>> :set -XOverloadedStrings

acctsepchar :: Char
acctsepchar = ':'

acctsep :: Text
acctsep = T.pack [acctsepchar]

-- accountNameComponents :: AccountName -> [String]
-- accountNameComponents = splitAtElement acctsepchar

accountNameComponents :: AccountName -> [Text]
accountNameComponents = T.splitOn acctsep

accountNameFromComponents :: [Text] -> AccountName
accountNameFromComponents = T.intercalate acctsep

accountLeafName :: AccountName -> Text
accountLeafName = last . accountNameComponents

-- | Truncate all account name components but the last to two characters.
accountSummarisedName :: AccountName -> Text
accountSummarisedName a
  --   length cs > 1 = take 2 (head cs) ++ ":" ++ a'
  | length cs > 1 = T.intercalate ":" (map (T.take 2) $ init cs) <> ":" <> a'
  | otherwise     = a'
    where
      cs = accountNameComponents a
      a' = accountLeafName a

accountNameLevel :: AccountName -> Int
accountNameLevel "" = 0
accountNameLevel a = T.length (T.filter (==acctsepchar) a) + 1

-- | A top-level account prefixed to some accounts in budget reports.
-- Defined here so it can be ignored by accountNameDrop. 
unbudgetedAccountName :: T.Text
unbudgetedAccountName = "<unbudgeted>"

-- | Remove some number of account name components from the front of the account name.
-- If the special "<unbudgeted>" top-level account is present, it is preserved and
-- dropping affects the rest of the account name. 
accountNameDrop :: Int -> AccountName -> AccountName
accountNameDrop n a
  | a == unbudgetedAccountName = a
  | unbudgetedAccountAndSep `T.isPrefixOf` a =
      case accountNameDrop n $ T.drop (T.length unbudgetedAccountAndSep) a of
        "" -> unbudgetedAccountName
        a' -> unbudgetedAccountAndSep <> a'
  | otherwise = accountNameFromComponents $ drop n $ accountNameComponents a
  where
    unbudgetedAccountAndSep = unbudgetedAccountName <> acctsep

-- | Sorted unique account names implied by these account names,
-- ie these plus all their parent accounts up to the root.
-- Eg: ["a:b:c","d:e"] -> ["a","a:b","a:b:c","d","d:e"]
expandAccountNames :: [AccountName] -> [AccountName]
expandAccountNames as = nub $ sort $ concatMap expandAccountName as

-- | "a:b:c" -> ["a","a:b","a:b:c"]
expandAccountName :: AccountName -> [AccountName]
expandAccountName = map accountNameFromComponents . tail . inits . accountNameComponents

-- | ["a:b:c","d:e"] -> ["a","d"]
topAccountNames :: [AccountName] -> [AccountName]
topAccountNames as = [a | a <- expandAccountNames as, accountNameLevel a == 1]

parentAccountName :: AccountName -> AccountName
parentAccountName = accountNameFromComponents . init . accountNameComponents

parentAccountNames :: AccountName -> [AccountName]
parentAccountNames a = parentAccountNames' $ parentAccountName a
    where
      parentAccountNames' "" = []
      parentAccountNames' a = a : parentAccountNames' (parentAccountName a)

-- | Is the first account a parent or other ancestor of (and not the same as) the second ?
isAccountNamePrefixOf :: AccountName -> AccountName -> Bool
isAccountNamePrefixOf = T.isPrefixOf . (<> acctsep)

isSubAccountNameOf :: AccountName -> AccountName -> Bool
s `isSubAccountNameOf` p =
    (p `isAccountNamePrefixOf` s) && (accountNameLevel s == (accountNameLevel p + 1))

-- | From a list of account names, select those which are direct
-- subaccounts of the given account name.
subAccountNamesFrom :: [AccountName] -> AccountName -> [AccountName]
subAccountNamesFrom accts a = filter (`isSubAccountNameOf` a) accts

-- | Convert a list of account names to a tree.
accountNameTreeFrom :: [AccountName] -> Tree AccountName
accountNameTreeFrom accts =
    Node "root" (accounttreesfrom (topAccountNames accts))
        where
          accounttreesfrom :: [AccountName] -> [Tree AccountName]
          accounttreesfrom [] = []
          accounttreesfrom as = [Node a (accounttreesfrom $ subs a) | a <- as]
          subs = subAccountNamesFrom (expandAccountNames accts)

--nullaccountnametree = Node "root" []

-- | Elide an account name to fit in the specified width.
-- From the ledger 2.6 news:
--
-- @
--   What Ledger now does is that if an account name is too long, it will
--   start abbreviating the first parts of the account name down to two
--   letters in length.  If this results in a string that is still too
--   long, the front will be elided -- not the end.  For example:
--
--     Expenses:Cash           ; OK, not too long
--     Ex:Wednesday:Cash       ; "Expenses" was abbreviated to fit
--     Ex:We:Afternoon:Cash    ; "Expenses" and "Wednesday" abbreviated
--     ; Expenses:Wednesday:Afternoon:Lunch:Snack:Candy:Chocolate:Cash
--     ..:Af:Lu:Sn:Ca:Ch:Cash  ; Abbreviated and elided!
-- @
elideAccountName :: Int -> AccountName -> AccountName
elideAccountName width s
  -- XXX special case for transactions register's multi-account pseudo-names
  | " (split)" `T.isSuffixOf` s =
    let
      names = T.splitOn ", " $ T.take (T.length s - 8) s
      widthpername = max 0 (width - 8 - 2 * (max 1 (length names) - 1)) `div` length names
    in
     fitText Nothing (Just width) True False $
     (<>" (split)") $
     T.intercalate ", "
     [accountNameFromComponents $ elideparts widthpername [] $ accountNameComponents s' | s' <- names]
  | otherwise =
    fitText Nothing (Just width) True False $ accountNameFromComponents $ elideparts width [] $ accountNameComponents s
      where
        elideparts :: Int -> [Text] -> [Text] -> [Text]
        elideparts width done ss
          | textWidth (accountNameFromComponents $ done++ss) <= width = done++ss
          | length ss > 1 = elideparts width (done++[textTakeWidth 2 $ head ss]) (tail ss)
          | otherwise = done++ss

-- | Keep only the first n components of an account name, where n
-- is a positive integer. If n is 0, returns the empty string.
clipAccountName :: Int -> AccountName -> AccountName
clipAccountName n = accountNameFromComponents . take n . accountNameComponents

-- | Keep only the first n components of an account name, where n
-- is a positive integer. If n is 0, returns "...".
clipOrEllipsifyAccountName :: Int -> AccountName -> AccountName
clipOrEllipsifyAccountName 0 = const "..."
clipOrEllipsifyAccountName n = accountNameFromComponents . take n . accountNameComponents

-- | Escape an AccountName for use within a regular expression.
-- >>> putStr $ escapeName "First?!#$*?$(*) !@^#*? %)*!@#"
-- First\?!#\$\*\?\$\(\*\) !@\^#\*\? %\)\*!@#
escapeName :: AccountName -> Regexp
escapeName = regexReplaceBy "[[?+|()*\\\\^$]" ("\\" <>)
           . T.unpack

-- | Convert an account name to a regular expression matching it and its subaccounts.
accountNameToAccountRegex :: AccountName -> Regexp
accountNameToAccountRegex "" = ""
accountNameToAccountRegex a = printf "^%s(:|$)" (escapeName a)

-- | Convert an account name to a regular expression matching it but not its subaccounts.
accountNameToAccountOnlyRegex :: AccountName -> Regexp
accountNameToAccountOnlyRegex "" = ""
accountNameToAccountOnlyRegex a = printf "^%s$"  $ escapeName a -- XXX pack

-- | Convert an exact account-matching regular expression to a plain account name.
accountRegexToAccountName :: Regexp -> AccountName
accountRegexToAccountName = T.pack . regexReplace "^\\^(.*?)\\(:\\|\\$\\)$" "\\1" -- XXX pack

-- -- | Does this string look like an exact account-matching regular expression ?
--isAccountRegex  :: String -> Bool
--isAccountRegex s = take 1 s == "^" && take 5 (reverse s) == ")$|:("

tests_AccountName = tests "AccountName" [
  tests "accountNameTreeFrom" [
     accountNameTreeFrom ["a"]       `is` Node "root" [Node "a" []]
    ,accountNameTreeFrom ["a","b"]   `is` Node "root" [Node "a" [], Node "b" []]
    ,accountNameTreeFrom ["a","a:b"] `is` Node "root" [Node "a" [Node "a:b" []]]
    ,accountNameTreeFrom ["a:b:c"]   `is` Node "root" [Node "a" [Node "a:b" [Node "a:b:c" []]]]
  ]
  ,tests "expandAccountNames" [
    expandAccountNames ["assets:cash","assets:checking","expenses:vacation"] `is`
     ["assets","assets:cash","assets:checking","expenses","expenses:vacation"]
  ]
  ,tests "isAccountNamePrefixOf" [
     "assets" `isAccountNamePrefixOf` "assets" `is` False
    ,"assets" `isAccountNamePrefixOf` "assets:bank" `is` True
    ,"assets" `isAccountNamePrefixOf` "assets:bank:checking" `is` True
    ,"my assets" `isAccountNamePrefixOf` "assets:bank" `is` False
  ]
  ,tests "isSubAccountNameOf" [
     "assets" `isSubAccountNameOf` "assets" `is` False
    ,"assets:bank" `isSubAccountNameOf` "assets" `is` True
    ,"assets:bank:checking" `isSubAccountNameOf` "assets" `is` False
    ,"assets:bank" `isSubAccountNameOf` "my assets" `is` False
  ]
 ]