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 = last . 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 $ init $ 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. accountNameTreeFrom_props = [ accountNameTreeFrom ["a"] == Node "top" [Node "a" []], accountNameTreeFrom ["a","b"] == Node "top" [Node "a" [], Node "b" []], accountNameTreeFrom ["a","a:b"] == Node "top" [Node "a" [Node "a:b" []]], accountNameTreeFrom ["a:b"] == Node "top" [Node "a" [Node "a:b" []]] ] accountNameTreeFrom :: [AccountName] -> Tree AccountName accountNameTreeFrom accts = Node "top" (accountsFrom (topAccountNames accts)) where accountsFrom :: [AccountName] -> [Tree AccountName] accountsFrom [] = [] accountsFrom as = [Node 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 $ root t filterAccountNameTree :: [String] -> Tree AccountName -> Tree AccountName filterAccountNameTree pats = treefilter matchany where matchany a = any (match a) pats match a pat = matchAccountName pat $ accountLeafName a