hledger/AccountName.hs

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Haskell
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module AccountName
where
import Utils
import BasicTypes
-- AccountNames are strings like "assets:cash:petty"; from these we build
-- the chart of accounts, which should be a simple hierarchy.
type AccountName = String
accountNameComponents :: AccountName -> [String]
accountNameComponents = splitAtElement ':'
accountNameFromComponents :: [String] -> AccountName
accountNameFromComponents = concat . intersperse ":"
accountLeafName :: AccountName -> String
accountLeafName = rhead . accountNameComponents
accountNameLevel :: AccountName -> Int
accountNameLevel = length . accountNameComponents
-- ["a:b:c","d:e"] -> ["a","a:b","a:b:c","d","d:e"]
expandAccountNames :: [AccountName] -> [AccountName]
expandAccountNames as = nub $ concat $ map expand as
where expand as = map accountNameFromComponents (tail $ inits $ accountNameComponents as)
-- ["a:b:c","d:e"] -> ["a","d"]
topAccountNames :: [AccountName] -> [AccountName]
topAccountNames as = [a | a <- expandAccountNames as, accountNameLevel a == 1]
parentAccountName :: AccountName -> AccountName
parentAccountName a =
accountNameFromComponents $ rtail $ accountNameComponents a
parentAccountNames :: AccountName -> [AccountName]
parentAccountNames a = parentAccountNames' $ parentAccountName a
where
parentAccountNames' "" = []
parentAccountNames' a = [a] ++ (parentAccountNames' $ parentAccountName a)
s `isSubAccountNameOf` p =
((p ++ ":") `isPrefixOf` s) && (accountNameLevel s == (accountNameLevel p + 1))
subAccountNamesFrom :: [AccountName] -> AccountName -> [AccountName]
subAccountNamesFrom accts a = filter (`isSubAccountNameOf` a) accts
matchAccountName :: String -> AccountName -> Bool
matchAccountName s a =
case matchRegex (mkRegex s) a of
Nothing -> False
otherwise -> True
indentAccountName :: Int -> AccountName -> String
indentAccountName indentcorrection a =
replicate (indentlevel * 2) ' ' ++ (accountLeafName a)
where indentlevel = ((accountNameLevel a) - 1) + indentcorrection
-- We could almost get by with just the above, but we need smarter
-- structures to eg display the account tree with boring accounts elided.
-- first, here is a tree of AccountNames; Account and Account tree are
-- defined later.
antacctname = fst . node
accountNameTreeFrom_props =
[
accountNameTreeFrom ["a"] == Tree ("top", [Tree ("a",[])]),
accountNameTreeFrom ["a","b"] == Tree ("top", [Tree ("a", []), Tree ("b", [])]),
accountNameTreeFrom ["a","a:b"] == Tree ("top", [Tree ("a", [Tree ("a:b", [])])]),
accountNameTreeFrom ["a:b"] == Tree ("top", [Tree ("a", [Tree ("a:b", [])])])
]
accountNameTreeFrom :: [AccountName] -> Tree AccountName
accountNameTreeFrom accts =
Tree ("top", accountsFrom (topAccountNames accts))
where
accountsFrom :: [AccountName] -> [Tree AccountName]
accountsFrom [] = []
accountsFrom as = [Tree (a, accountsFrom $ subs a) | a <- as]
subs = (subAccountNamesFrom accts)
showAccountNameTree :: Tree AccountName -> String
showAccountNameTree t =
topacct ++ "\n" ++ concatMap showAccountNameTree (branches t)
where
topacct = indentAccountName 0 $ antacctname t