hledger/hledger-ui/Hledger/UI/AccountsScreen.hs
2015-09-04 07:41:07 -07:00

274 lines
11 KiB
Haskell

-- The accounts screen, showing accounts and balances like the CLI balance command.
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RecordWildCards #-}
module Hledger.UI.AccountsScreen
(screen
,initAccountsScreen
)
where
import Control.Lens ((^.))
-- import Control.Monad
import Control.Monad.IO.Class
-- import Data.Default
import Data.List
import Data.Maybe
import Data.Monoid
import Data.Time.Calendar (Day)
import System.FilePath (takeFileName)
import qualified Data.Vector as V
import Graphics.Vty as Vty
import Brick
import Brick.Widgets.List
-- import Brick.Widgets.Border
-- import Brick.Widgets.Center
import Hledger
import Hledger.Cli hiding (progname,prognameandversion,green)
-- import Hledger.Cli.CliOptions (defaultBalanceLineFormat)
import Hledger.UI.UIOptions
-- import Hledger.UI.Theme
import Hledger.UI.UITypes
import Hledger.UI.UIUtils
import qualified Hledger.UI.RegisterScreen as RS (screen)
screen = AccountsScreen{
asState = list "accounts" V.empty 1
,sInitFn = initAccountsScreen Nothing
,sDrawFn = drawAccountsScreen
,sHandleFn = handleAccountsScreen
}
initAccountsScreen :: Maybe AccountName -> Day -> AppState -> AppState
initAccountsScreen mselacct d st@AppState{
aopts=uopts@UIOpts{cliopts_=copts@CliOpts{reportopts_=ropts}},
ajournal=j,
aScreen=s@AccountsScreen{}
} =
st{aopts=uopts', aScreen=s{asState=l'}}
where
l = list (Name "accounts") (V.fromList displayitems) 1
-- hacky: when we're adjusting depth, mselacct is the account that was selected previously,
-- in which case try and keep the selection near where it was
l' = case mselacct of
Nothing -> l
Just a -> -- vScrollToBeginning $ viewportScroll "accounts"
maybe l (flip listMoveTo l) mi
where
mi = findIndex (\((acct,_,_),_) -> acct==a') items
a' = maybe a (flip clipAccountName a) $ depth_ ropts
uopts' = uopts{cliopts_=copts{reportopts_=ropts'}}
ropts' = ropts {
-- XXX balanceReport doesn't respect this yet
balancetype_=HistoricalBalance
}
q = queryFromOpts d ropts
-- maybe convert balances to market value
convert | value_ ropts' = balanceReportValue j valuedate
| otherwise = id
where
valuedate = fromMaybe d $ queryEndDate False q
-- run the report
(items,_total) = convert $ balanceReport ropts' q j
-- pre-render the list items
displayitem ((fullacct, shortacct, indent), bal) =
(indent
,fullacct
,if flat_ ropts' then fullacct else shortacct
,map showAmountWithoutPrice amts -- like showMixedAmountOneLineWithoutPrice
)
where
Mixed amts = normaliseMixedAmountSquashPricesForDisplay $ stripPrices bal
stripPrices (Mixed as) = Mixed $ map stripprice as where stripprice a = a{aprice=NoPrice}
displayitems = map displayitem items
initAccountsScreen _ _ _ = error "init function called with wrong screen type, should not happen"
drawAccountsScreen :: AppState -> [Widget]
drawAccountsScreen _st@AppState{aopts=uopts, ajournal=j, aScreen=AccountsScreen{asState=l}} =
[ui]
where
toplabel = files
<+> str " accounts"
<+> borderQueryStr querystr
<+> borderDepthStr mdepth
<+> str " ("
<+> cur
<+> str " of "
<+> total
<+> str ")"
files = case journalFilePaths j of
[] -> str ""
f:_ -> withAttr ("border" <> "bold") $ str $ takeFileName f
-- [f,_:[]] -> (withAttr ("border" <> "bold") $ str $ takeFileName f) <+> str " (& 1 included file)"
-- f:fs -> (withAttr ("border" <> "bold") $ str $ takeFileName f) <+> str (" (& " ++ show (length fs) ++ " included files)")
querystr = query_ $ reportopts_ $ cliopts_ uopts
mdepth = depth_ $ reportopts_ $ cliopts_ uopts
cur = str (case l^.listSelectedL of
Nothing -> "-"
Just i -> show (i + 1))
total = str $ show $ V.length $ l^.listElementsL
bottomlabel = borderKeysStr [
-- ("up/down/pgup/pgdown/home/end", "move")
("-+1234567890", "adjust depth limit")
,("right/enter", "show transactions")
,("q", "quit")
]
ui = Widget Greedy Greedy $ do
c <- getContext
let
availwidth =
-- ltrace "availwidth" $
c^.availWidthL
- 2 -- XXX due to margin ? shouldn't be necessary (cf UIUtils)
displayitems = listElements l
maxacctwidthseen =
-- ltrace "maxacctwidthseen" $
V.maximum $
V.map (\(indent,_,displayacct,_) -> indent*2 + length displayacct) $
-- V.filter (\(indent,_,_,_) -> (indent-1) <= fromMaybe 99999 mdepth) $
displayitems
maxbalwidthseen =
-- ltrace "maxbalwidthseen" $
V.maximum $ V.map (\(_,_,_,amts) -> sum (map length amts) + 2 * (length amts-1)) displayitems
maxbalwidth =
-- ltrace "maxbalwidth" $
max 0 (availwidth - 2 - 4) -- leave 2 whitespace plus least 4 for accts
balwidth =
-- ltrace "balwidth" $
min maxbalwidth maxbalwidthseen
maxacctwidth =
-- ltrace "maxacctwidth" $
availwidth - 2 - balwidth
acctwidth =
-- ltrace "acctwidth" $
min maxacctwidth maxacctwidthseen
-- XXX how to minimise the balance column's jumping around
-- as you change the depth limit ?
colwidths = (acctwidth, balwidth)
render $ defaultLayout toplabel bottomlabel $ renderList l (drawAccountsItem colwidths)
drawAccountsScreen _ = error "draw function called with wrong screen type, should not happen"
drawAccountsItem :: (Int,Int) -> Bool -> (Int, String, String, [String]) -> Widget
drawAccountsItem (acctwidth, balwidth) selected (indent, _fullacct, displayacct, balamts) =
Widget Greedy Fixed $ do
-- c <- getContext
-- let showitem = intercalate "\n" . balanceReportItemAsText defreportopts fmt
render $
addamts balamts $
str (padright acctwidth $ elideRight acctwidth $ replicate (2*indent) ' ' ++ displayacct) <+>
str " " <+>
str (balspace balamts)
where
balspace as = replicate n ' '
where n = max 0 (balwidth - (sum (map length as) + 2 * (length as - 1)))
addamts :: [String] -> Widget -> Widget
addamts [] w = w
addamts [a] w = (<+> renderamt a) w
-- foldl' :: (b -> a -> b) -> b -> t a -> b
-- foldl' (Widget -> String -> Widget) -> Widget -> [String] -> Widget
addamts (a:as) w = foldl' addamt (addamts [a] w) as
addamt :: Widget -> String -> Widget
addamt w a = ((<+> renderamt a) . (<+> str ", ")) w
renderamt :: String -> Widget
renderamt a | '-' `elem` a = withAttr (sel $ "list" <> "balance" <> "negative") $ str a
| otherwise = withAttr (sel $ "list" <> "balance" <> "positive") $ str a
sel | selected = (<> "selected")
| otherwise = id
handleAccountsScreen :: AppState -> Vty.Event -> EventM (Next AppState)
handleAccountsScreen st@AppState{aScreen=scr@AccountsScreen{asState=l}} e = do
d <- liftIO getCurrentDay
-- c <- getContext
-- let h = c^.availHeightL
-- moveSel n l = listMoveBy n l
let
acct = case listSelectedElement l of
Just (_, (_, fullacct, _, _)) -> fullacct
Nothing -> ""
reload = continue . initAccountsScreen (Just acct) d
case e of
Vty.EvKey Vty.KEsc [] -> halt st
Vty.EvKey (Vty.KChar 'q') [] -> halt st
Vty.EvKey (Vty.KChar '-') [] -> reload $ decDepth st
Vty.EvKey (Vty.KChar '+') [] -> reload $ incDepth st
Vty.EvKey (Vty.KChar '1') [] -> reload $ setDepth 1 st
Vty.EvKey (Vty.KChar '2') [] -> reload $ setDepth 2 st
Vty.EvKey (Vty.KChar '3') [] -> reload $ setDepth 3 st
Vty.EvKey (Vty.KChar '4') [] -> reload $ setDepth 4 st
Vty.EvKey (Vty.KChar '5') [] -> reload $ setDepth 5 st
Vty.EvKey (Vty.KChar '6') [] -> reload $ setDepth 6 st
Vty.EvKey (Vty.KChar '7') [] -> reload $ setDepth 7 st
Vty.EvKey (Vty.KChar '8') [] -> reload $ setDepth 8 st
Vty.EvKey (Vty.KChar '9') [] -> reload $ setDepth 9 st
Vty.EvKey (Vty.KChar '0') [] -> reload $ setDepth 0 st
Vty.EvKey (Vty.KLeft) [] -> continue $ popScreen st
Vty.EvKey (k) [] | k `elem` [Vty.KRight, Vty.KEnter] -> do
let st' = screenEnter d RS.screen{rsAcct=acct} st
vScrollToBeginning $ viewportScroll "register"
continue st'
-- Vty.EvKey (Vty.KPageDown) [] -> continue $ st{aScreen=scr{asState=moveSel h l}}
-- Vty.EvKey (Vty.KPageUp) [] -> continue $ st{aScreen=scr{asState=moveSel (-h) l}}
-- fall through to the list's event handler (handles up/down)
ev -> do
l' <- handleEvent ev l
continue $ st{aScreen=scr{asState=l'}}
-- continue =<< handleEventLensed st someLens ev
handleAccountsScreen _ _ = error "event handler called with wrong screen type, should not happen"
-- | Get the maximum account depth in the current journal.
maxDepth :: AppState -> Int
maxDepth AppState{ajournal=j} = maximum $ map accountNameLevel $ journalAccountNames j
-- | Decrement the current depth limit towards 0. If there was no depth limit,
-- set it to one less than the maximum account depth.
decDepth :: AppState -> AppState
decDepth st@AppState{aopts=uopts@UIOpts{cliopts_=copts@CliOpts{reportopts_=ropts@ReportOpts{..}}}}
= st{aopts=uopts{cliopts_=copts{reportopts_=ropts{depth_=dec depth_}}}}
where
dec (Just d) = Just $ max 0 (d-1)
dec Nothing = Just $ maxDepth st - 1
-- | Increment the current depth limit. If this makes it equal to the
-- the maximum account depth, remove the depth limit.
incDepth :: AppState -> AppState
incDepth st@AppState{aopts=uopts@UIOpts{cliopts_=copts@CliOpts{reportopts_=ropts@ReportOpts{..}}}}
= st{aopts=uopts{cliopts_=copts{reportopts_=ropts{depth_=inc depth_}}}}
where
inc (Just d) | d < (maxDepth st - 1) = Just $ d+1
inc _ = Nothing
-- | Set the current depth limit to the specified depth, which should
-- be a positive number. If it is zero, or equal to or greater than the
-- current maximum account depth, the depth limit will be removed.
-- (Slight inconsistency here: zero is currently a valid display depth
-- which can be reached using the - key. But we need a key to remove
-- the depth limit, and 0 is it.)
setDepth :: Int -> AppState -> AppState
setDepth depth st@AppState{aopts=uopts@UIOpts{cliopts_=copts@CliOpts{reportopts_=ropts}}}
= st{aopts=uopts{cliopts_=copts{reportopts_=ropts{depth_=mdepth'}}}}
where
mdepth' | depth < 0 = depth_ ropts
| depth == 0 = Nothing
| depth >= maxDepth st = Nothing
| otherwise = Just depth