hledger/hledger-lib/Hledger/Reports/MultiBalanceReport.hs

{-# LANGUAGE FlexibleInstances   #-}
{-# LANGUAGE OverloadedStrings   #-}
{-# LANGUAGE RecordWildCards     #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-|

Multi-column balance reports, used by the balance command.

-}

module Hledger.Reports.MultiBalanceReport (
  MultiBalanceReport,
  MultiBalanceReportRow,

  multiBalanceReport,
  multiBalanceReportWith,

  compoundBalanceReport,
  compoundBalanceReportWith,

  sortRows,
  sortRowsLike,

  -- * Helper functions
  makeReportQuery,
  getPostingsByColumn,
  getPostings,
  startingPostings,
  startingBalancesFromPostings,
  generateMultiBalanceReport,
  balanceReportTableAsText,

  -- -- * Tests
  tests_MultiBalanceReport
)
where

import Control.Monad (guard)
import Data.Foldable (toList)
import Data.List (sortOn, transpose)
import Data.List.NonEmpty (NonEmpty(..))
import Data.HashMap.Strict (HashMap)
import qualified Data.HashMap.Strict as HM
import Data.Map (Map)
import qualified Data.Map as M
import Data.Maybe (fromMaybe, isJust, mapMaybe)
import Data.Ord (Down(..))
import Data.Semigroup (sconcat)
import Data.Time.Calendar (Day, fromGregorian)
import Safe (lastDef, minimumMay)

import Data.Default (def)
import qualified Data.Text as T
import qualified Data.Text.Lazy.Builder as TB
import qualified Text.Tabular.AsciiWide as Tab

import Hledger.Data
import Hledger.Query
import Hledger.Utils hiding (dbg3,dbg4,dbg5)
import qualified Hledger.Utils
import Hledger.Read (mamountp')
import Hledger.Reports.ReportOptions
import Hledger.Reports.ReportTypes


-- add a prefix to this function's debug output
dbg3 s = let p = "multiBalanceReport" in Hledger.Utils.dbg3 (p++" "++s)
dbg4 s = let p = "multiBalanceReport" in Hledger.Utils.dbg4 (p++" "++s)
dbg5 s = let p = "multiBalanceReport" in Hledger.Utils.dbg5 (p++" "++s)


-- | A multi balance report is a kind of periodic report, where the amounts
-- correspond to balance changes or ending balances in a given period. It has:
--
-- 1. a list of each column's period (date span)
--
-- 2. a list of rows, each containing:
--
--   * the full account name, display name, and display depth
--
--   * A list of amounts, one for each column.
--
--   * the total of the row's amounts for a periodic report
--
--   * the average of the row's amounts
--
-- 3. the column totals, and the overall grand total (or zero for
-- cumulative/historical reports) and grand average.

type MultiBalanceReport    = PeriodicReport    DisplayName MixedAmount
type MultiBalanceReportRow = PeriodicReportRow DisplayName MixedAmount

-- type alias just to remind us which AccountNames might be depth-clipped, below.
type ClippedAccountName = AccountName


-- | Generate a multicolumn balance report for the matched accounts,
-- showing the change of balance, accumulated balance, or historical balance
-- in each of the specified periods. If the normalbalance_ option is set, it
-- adjusts the sorting and sign of amounts (see ReportOpts and
-- CompoundBalanceCommand). hledger's most powerful and useful report, used
-- by the balance command (in multiperiod mode) and (via compoundBalanceReport)
-- by the bs/cf/is commands.
multiBalanceReport :: ReportSpec -> Journal -> MultiBalanceReport
multiBalanceReport rspec j = multiBalanceReportWith rspec j (journalPriceOracle infer j)
  where infer = infer_value_ $ _rsReportOpts rspec

-- | A helper for multiBalanceReport. This one takes an extra argument,
-- a PriceOracle to be used for looking up market prices. Commands which
-- run multiple reports (bs etc.) can generate the price oracle just
-- once for efficiency, passing it to each report by calling this
-- function directly.
multiBalanceReportWith :: ReportSpec -> Journal -> PriceOracle -> MultiBalanceReport
multiBalanceReportWith rspec' j priceoracle = report
  where
    -- Queries, report/column dates.
    reportspan = dbg3 "reportspan" $ reportSpan j rspec'
    rspec      = dbg3 "reportopts" $ makeReportQuery rspec' reportspan

    -- Group postings into their columns.
    colps = dbg5 "colps" $ getPostingsByColumn rspec j priceoracle reportspan

    -- The matched accounts with a starting balance. All of these should appear
    -- in the report, even if they have no postings during the report period.
    startbals = dbg5 "startbals" . startingBalancesFromPostings rspec j priceoracle
                                 $ startingPostings rspec j priceoracle reportspan

    -- Generate and postprocess the report, negating balances and taking percentages if needed
    report = dbg4 "multiBalanceReportWith" $
      generateMultiBalanceReport rspec j priceoracle colps startbals

-- | Generate a compound balance report from a list of CBCSubreportSpec. This
-- shares postings between the subreports.
compoundBalanceReport :: ReportSpec -> Journal -> [CBCSubreportSpec a]
                      -> CompoundPeriodicReport a MixedAmount
compoundBalanceReport rspec j = compoundBalanceReportWith rspec j (journalPriceOracle infer j)
  where infer = infer_value_ $ _rsReportOpts rspec

-- | A helper for compoundBalanceReport, similar to multiBalanceReportWith.
compoundBalanceReportWith :: ReportSpec -> Journal -> PriceOracle
                          -> [CBCSubreportSpec a]
                          -> CompoundPeriodicReport a MixedAmount
compoundBalanceReportWith rspec' j priceoracle subreportspecs = cbr
  where
    -- Queries, report/column dates.
    reportspan = dbg3 "reportspan" $ reportSpan j rspec'
    rspec      = dbg3 "reportopts" $ makeReportQuery rspec' reportspan

    -- Group postings into their columns.
    colps = dbg5 "colps" $ getPostingsByColumn rspec j priceoracle reportspan

    -- The matched postings with a starting balance. All of these should appear
    -- in the report, even if they have no postings during the report period.
    startps = dbg5 "startps" $ startingPostings rspec j priceoracle reportspan

    subreports = map generateSubreport subreportspecs
      where
        generateSubreport CBCSubreportSpec{..} =
            ( cbcsubreporttitle
            -- Postprocess the report, negating balances and taking percentages if needed
            , cbcsubreporttransform $
                generateMultiBalanceReport rspec{_rsReportOpts=ropts} j priceoracle colps' startbals'
            , cbcsubreportincreasestotal
            )
          where
            -- Filter the column postings according to each subreport
            colps'     = filter (matchesPosting q) <$> colps
            -- We need to filter historical postings directly, rather than their accumulated balances. (#1698)
            startbals' = startingBalancesFromPostings rspec j priceoracle $ filter (matchesPosting q) startps
            ropts      = cbcsubreportoptions $ _rsReportOpts rspec
            q          = cbcsubreportquery j

    -- Sum the subreport totals by column. Handle these cases:
    -- - no subreports
    -- - empty subreports, having no subtotals (#588)
    -- - subreports with a shorter subtotals row than the others
    overalltotals = case subreports of
        []     -> PeriodicReportRow () [] nullmixedamt nullmixedamt
        (r:rs) -> sconcat $ fmap subreportTotal (r:|rs)
      where
        subreportTotal (_, sr, increasestotal) =
            (if increasestotal then id else fmap maNegate) $ prTotals sr

    cbr = CompoundPeriodicReport "" (M.keys colps) subreports overalltotals

-- | Calculate starting balances from postings, if needed for -H.
startingBalancesFromPostings :: ReportSpec -> Journal -> PriceOracle -> [Posting]
                             -> HashMap AccountName Account
startingBalancesFromPostings rspec j priceoracle =
      fmap (M.findWithDefault nullacct emptydatespan)
    . calculateReportMatrix rspec j priceoracle mempty
    . M.singleton emptydatespan

-- | Postings needed to calculate starting balances.
--
-- Balances at report start date, from all earlier postings which otherwise match the query.
-- These balances are unvalued.
-- TODO: Do we want to check whether to bother calculating these? isHistorical
-- and startDate is not nothing, otherwise mempty? This currently gives a
-- failure with some totals which are supposed to be 0 being blank.
startingPostings :: ReportSpec -> Journal -> PriceOracle -> DateSpan -> [Posting]
startingPostings rspec@ReportSpec{_rsQuery=query,_rsReportOpts=ropts} j priceoracle reportspan =
    map fst $ getPostings rspec' j priceoracle
  where
    rspec' = rspec{_rsQuery=startbalq,_rsReportOpts=ropts'}
    -- If we're re-valuing every period, we need to have the unvalued start
    -- balance, so we can do it ourselves later.
    ropts' = case value_ ropts of
        Just (AtEnd _) -> ropts{period_=precedingperiod, value_=Nothing}
        _              -> ropts{period_=precedingperiod}

    -- q projected back before the report start date.
    -- When there's no report start date, in case there are future txns (the hledger-ui case above),
    -- we use emptydatespan to make sure they aren't counted as starting balance.
    startbalq = dbg3 "startbalq" $ And [datelessq, precedingspanq]
    datelessq = dbg3 "datelessq" $ filterQuery (not . queryIsDateOrDate2) query

    precedingperiod = dateSpanAsPeriod . spanIntersect precedingspan .
                         periodAsDateSpan $ period_ ropts
    precedingspan = DateSpan Nothing $ spanStart reportspan
    precedingspanq = (if date2_ ropts then Date2 else Date) $ case precedingspan of
        DateSpan Nothing Nothing -> emptydatespan
        a -> a

-- | Remove any date queries and insert queries from the report span.
-- The user's query expanded to the report span
-- if there is one (otherwise any date queries are left as-is, which
-- handles the hledger-ui+future txns case above).
makeReportQuery :: ReportSpec -> DateSpan -> ReportSpec
makeReportQuery rspec reportspan
    | reportspan == nulldatespan = rspec
    | otherwise = rspec{_rsQuery=query}
  where
    query            = simplifyQuery $ And [dateless $ _rsQuery rspec, reportspandatesq]
    reportspandatesq = dbg3 "reportspandatesq" $ dateqcons reportspan
    dateless         = dbg3 "dateless" . filterQuery (not . queryIsDateOrDate2)
    dateqcons        = if date2_ (_rsReportOpts rspec) then Date2 else Date

-- | Group postings, grouped by their column
getPostingsByColumn :: ReportSpec -> Journal -> PriceOracle -> DateSpan -> Map DateSpan [Posting]
getPostingsByColumn rspec j priceoracle reportspan = columns
  where
    -- Postings matching the query within the report period.
    ps :: [(Posting, Day)] = dbg5 "getPostingsByColumn" $ getPostings rspec j priceoracle

    -- The date spans to be included as report columns.
    colspans = dbg3 "colspans" $ splitSpan (interval_ $ _rsReportOpts rspec) reportspan
    addPosting (p, d) = maybe id (M.adjust (p:)) $ latestSpanContaining colspans d
    emptyMap = M.fromList . zip colspans $ repeat []

    -- Group postings into their columns
    columns = foldr addPosting emptyMap ps

-- | Gather postings matching the query within the report period.
getPostings :: ReportSpec -> Journal -> PriceOracle -> [(Posting, Day)]
getPostings rspec@ReportSpec{_rsQuery=query,_rsReportOpts=ropts} j priceoracle =
    map (\p -> (p, date p)) .
    journalPostings .
    valueJournal .
    filterJournalAmounts symq $      -- remove amount parts excluded by cur:
    filterJournalPostings reportq j  -- remove postings not matched by (adjusted) query
  where
    symq = dbg3 "symq" . filterQuery queryIsSym $ dbg3 "requested q" query
    -- The user's query with no depth limit, and expanded to the report span
    -- if there is one (otherwise any date queries are left as-is, which
    -- handles the hledger-ui+future txns case above).
    reportq = dbg3 "reportq" $ depthless query
    depthless = dbg3 "depthless" . filterQuery (not . queryIsDepth)
    valueJournal j' | isJust (valuationAfterSum ropts) = j'
                    | otherwise = journalApplyValuationFromOptsWith rspec j' priceoracle

    date = case whichDateFromOpts ropts of
        PrimaryDate   -> postingDate
        SecondaryDate -> postingDate2


-- | Given a set of postings, eg for a single report column, gather
-- the accounts that have postings and calculate the change amount for
-- each. Accounts and amounts will be depth-clipped appropriately if
-- a depth limit is in effect.
acctChangesFromPostings :: ReportSpec -> [Posting] -> HashMap ClippedAccountName Account
acctChangesFromPostings ReportSpec{_rsQuery=query,_rsReportOpts=ropts} ps =
    HM.fromList [(aname a, a) | a <- as]
  where
    as = filterAccounts . drop 1 $ accountsFromPostings ps
    filterAccounts = case accountlistmode_ ropts of
        ALTree -> filter ((depthq `matchesAccount`) . aname)      -- exclude deeper balances
        ALFlat -> clipAccountsAndAggregate (queryDepth depthq) .  -- aggregate deeper balances at the depth limit.
                      filter ((0<) . anumpostings)
    depthq = dbg3 "depthq" $ filterQuery queryIsDepth query

-- | Gather the account balance changes into a regular matrix, then
-- accumulate and value amounts, as specified by the report options.
--
-- Makes sure all report columns have an entry.
calculateReportMatrix :: ReportSpec -> Journal -> PriceOracle
                      -> HashMap ClippedAccountName Account
                      -> Map DateSpan [Posting]
                      -> HashMap ClippedAccountName (Map DateSpan Account)
calculateReportMatrix rspec@ReportSpec{_rsReportOpts=ropts} j priceoracle startbals colps =  -- PARTIAL:
    -- Ensure all columns have entries, including those with starting balances
    HM.mapWithKey rowbals allchanges
  where
    -- The valued row amounts to be displayed: per-period changes,
    -- zero-based cumulative totals, or
    -- starting-balance-based historical balances.
    rowbals name changes = dbg5 "rowbals" $ case balanceaccum_ ropts of
        PerPeriod  -> changeamts
        Cumulative -> cumulative
        Historical -> historical
      where
        -- changes to report on: usually just the changes itself, but use the
        -- differences in the historical amount for ValueChangeReports.
        changeamts = case balancecalc_ ropts of
            CalcChange      -> M.mapWithKey avalue changes
            CalcBudget      -> M.mapWithKey avalue changes
            CalcValueChange -> periodChanges valuedStart historical
            CalcGain        -> periodChanges valuedStart historical
        cumulative = cumulativeSum avalue nullacct changeamts
        historical = cumulativeSum avalue startingBalance changes
        startingBalance = HM.lookupDefault nullacct name startbals
        valuedStart = avalue (DateSpan Nothing historicalDate) startingBalance

    -- Transpose to get each account's balance changes across all columns, then
    -- pad with zeros
    allchanges     = ((<>zeros) <$> acctchanges) <> (zeros <$ startbals)
    acctchanges    = dbg5 "acctchanges" . addElided $ transposeMap colacctchanges
    colacctchanges = dbg5 "colacctchanges" $ fmap (acctChangesFromPostings rspec) colps

    avalue = acctApplyBoth . mixedAmountApplyValuationAfterSumFromOptsWith ropts j priceoracle
    acctApplyBoth f a = a{aibalance = f $ aibalance a, aebalance = f $ aebalance a}
    addElided = if queryDepth (_rsQuery rspec) == Just 0 then HM.insert "..." zeros else id
    historicalDate = minimumMay $ mapMaybe spanStart colspans
    zeros = M.fromList [(span, nullacct) | span <- colspans]
    colspans = M.keys colps


-- | Lay out a set of postings grouped by date span into a regular matrix with rows
-- given by AccountName and columns by DateSpan, then generate a MultiBalanceReport
-- from the columns.
generateMultiBalanceReport :: ReportSpec -> Journal -> PriceOracle
                           -> Map DateSpan [Posting] -> HashMap AccountName Account
                           -> MultiBalanceReport
generateMultiBalanceReport rspec@ReportSpec{_rsReportOpts=ropts} j priceoracle colps startbals =
    report
  where
    -- Process changes into normal, cumulative, or historical amounts, plus value them
    matrix = calculateReportMatrix rspec j priceoracle startbals colps

    -- All account names that will be displayed, possibly depth-clipped.
    displaynames = dbg5 "displaynames" $ displayedAccounts rspec matrix

    -- All the rows of the report.
    rows = dbg5 "rows" . (if invert_ ropts then map (fmap maNegate) else id)  -- Negate amounts if applicable
             $ buildReportRows ropts displaynames matrix

    -- Calculate column totals
    totalsrow = dbg5 "totalsrow" $ calculateTotalsRow ropts rows

    -- Sorted report rows.
    sortedrows = dbg5 "sortedrows" $ sortRows ropts j rows

    -- Take percentages if needed
    report = reportPercent ropts $ PeriodicReport (M.keys colps) sortedrows totalsrow

-- | Build the report rows.
-- One row per account, with account name info, row amounts, row total and row average.
-- Rows are unsorted.
buildReportRows :: ReportOpts
                -> HashMap AccountName DisplayName
                -> HashMap AccountName (Map DateSpan Account)
                -> [MultiBalanceReportRow]
buildReportRows ropts displaynames =
  toList . HM.mapMaybeWithKey mkRow  -- toList of HashMap's Foldable instance - does not sort consistently
  where
    mkRow name accts = do
        displayname <- HM.lookup name displaynames
        return $ PeriodicReportRow displayname rowbals rowtot rowavg
      where
        rowbals = map balance $ toList accts  -- toList of Map's Foldable instance - does sort by key
        -- The total and average for the row.
        -- These are always simply the sum/average of the displayed row amounts.
        -- Total for a cumulative/historical report is always the last column.
        rowtot = case balanceaccum_ ropts of
            PerPeriod -> maSum rowbals
            _         -> lastDef nullmixedamt rowbals
        rowavg = averageMixedAmounts rowbals
    balance = case accountlistmode_ ropts of ALTree -> aibalance; ALFlat -> aebalance

-- | Calculate accounts which are to be displayed in the report, as well as
-- their name and depth
displayedAccounts :: ReportSpec -> HashMap AccountName (Map DateSpan Account)
                  -> HashMap AccountName DisplayName
displayedAccounts ReportSpec{_rsQuery=query,_rsReportOpts=ropts} valuedaccts
    | depth == 0 = HM.singleton "..." $ DisplayName "..." "..." 1
    | otherwise  = HM.mapWithKey (\a _ -> displayedName a) displayedAccts
  where
    -- Accounts which are to be displayed
    displayedAccts = (if depth == 0 then id else HM.filterWithKey keep) valuedaccts
      where
        keep name amts = isInteresting name amts || name `HM.member` interestingParents

    displayedName name = case accountlistmode_ ropts of
        ALTree -> DisplayName name leaf . max 0 $ level - boringParents
        ALFlat -> DisplayName name droppedName 1
      where
        droppedName = accountNameDrop (drop_ ropts) name
        leaf = accountNameFromComponents . reverse . map accountLeafName $
            droppedName : takeWhile notDisplayed parents

        level = max 0 $ accountNameLevel name - drop_ ropts
        parents = take (level - 1) $ parentAccountNames name
        boringParents = if no_elide_ ropts then 0 else length $ filter notDisplayed parents
        notDisplayed = not . (`HM.member` displayedAccts)

    -- Accounts interesting for their own sake
    isInteresting name amts =
        d <= depth                                 -- Throw out anything too deep
        && ( (empty_ ropts && keepWhenEmpty amts)  -- Keep empty accounts when called with --empty
           || not (isZeroRow balance amts)         -- Keep everything with a non-zero balance in the row
           )
      where
        d = accountNameLevel name
        keepWhenEmpty = case accountlistmode_ ropts of
            ALFlat -> const True          -- Keep all empty accounts in flat mode
            ALTree -> all (null . asubs)  -- Keep only empty leaves in tree mode
        balance = maybeStripPrices . case accountlistmode_ ropts of
            ALTree | d == depth -> aibalance
            _                   -> aebalance
          where maybeStripPrices = if show_costs_ ropts then id else mixedAmountStripPrices

    -- Accounts interesting because they are a fork for interesting subaccounts
    interestingParents = dbg5 "interestingParents" $ case accountlistmode_ ropts of
        ALTree -> HM.filterWithKey hasEnoughSubs numSubs
        ALFlat -> mempty
      where
        hasEnoughSubs name nsubs = nsubs >= minSubs && accountNameLevel name > drop_ ropts
        minSubs = if no_elide_ ropts then 1 else 2

    isZeroRow balance = all (mixedAmountLooksZero . balance)
    depth = fromMaybe maxBound $  queryDepth query
    numSubs = subaccountTallies . HM.keys $ HM.filterWithKey isInteresting valuedaccts

-- | Sort the rows by amount or by account declaration order.
sortRows :: ReportOpts -> Journal -> [MultiBalanceReportRow] -> [MultiBalanceReportRow]
sortRows ropts j
    | sort_amount_ ropts, ALTree <- accountlistmode_ ropts = sortTreeMBRByAmount
    | sort_amount_ ropts, ALFlat <- accountlistmode_ ropts = sortFlatMBRByAmount
    | otherwise                                            = sortMBRByAccountDeclaration
  where
    -- Sort the report rows, representing a tree of accounts, by row total at each level.
    -- Similar to sortMBRByAccountDeclaration/sortAccountNamesByDeclaration.
    sortTreeMBRByAmount :: [MultiBalanceReportRow] -> [MultiBalanceReportRow]
    sortTreeMBRByAmount rows = mapMaybe (`HM.lookup` rowMap) sortedanames
      where
        accounttree = accountTree "root" $ map prrFullName rows
        rowMap = HM.fromList $ map (\row -> (prrFullName row, row)) rows
        -- Set the inclusive balance of an account from the rows, or sum the
        -- subaccounts if it's not present
        accounttreewithbals = mapAccounts setibalance accounttree
        setibalance a = a{aibalance = maybe (maSum . map aibalance $ asubs a) prrTotal $
                                          HM.lookup (aname a) rowMap}
        sortedaccounttree = sortAccountTreeByAmount (fromMaybe NormallyPositive $ normalbalance_ ropts) accounttreewithbals
        sortedanames = map aname $ drop 1 $ flattenAccounts sortedaccounttree

    -- Sort the report rows, representing a flat account list, by row total (and then account name).
    sortFlatMBRByAmount :: [MultiBalanceReportRow] -> [MultiBalanceReportRow]
    sortFlatMBRByAmount = case fromMaybe NormallyPositive $ normalbalance_ ropts of
        NormallyPositive -> sortOn (\r -> (Down $ amt r, prrFullName r))
        NormallyNegative -> sortOn (\r -> (amt r, prrFullName r))
      where amt = mixedAmountStripPrices . prrTotal

    -- Sort the report rows by account declaration order then account name.
    sortMBRByAccountDeclaration :: [MultiBalanceReportRow] -> [MultiBalanceReportRow]
    sortMBRByAccountDeclaration rows = sortRowsLike sortedanames rows
      where
        sortedanames = sortAccountNamesByDeclaration j (tree_ ropts) $ map prrFullName rows

-- | Build the report totals row.
--
-- Calculate the column totals. These are always the sum of column amounts.
calculateTotalsRow :: ReportOpts -> [MultiBalanceReportRow] -> PeriodicReportRow () MixedAmount
calculateTotalsRow ropts rows =
    PeriodicReportRow () coltotals grandtotal grandaverage
  where
    isTopRow row = flat_ ropts || not (any (`HM.member` rowMap) parents)
      where parents = init . expandAccountName $ prrFullName row
    rowMap = HM.fromList $ map (\row -> (prrFullName row, row)) rows

    colamts = transpose . map prrAmounts $ filter isTopRow rows

    coltotals :: [MixedAmount] = dbg5 "coltotals" $ map maSum colamts

    -- Calculate the grand total and average. These are always the sum/average
    -- of the column totals.
    -- Total for a cumulative/historical report is always the last column.
    grandtotal = case balanceaccum_ ropts of
        PerPeriod -> maSum coltotals
        _         -> lastDef nullmixedamt coltotals
    grandaverage = averageMixedAmounts coltotals

-- | Map the report rows to percentages if needed
reportPercent :: ReportOpts -> MultiBalanceReport -> MultiBalanceReport
reportPercent ropts report@(PeriodicReport spans rows totalrow)
  | percent_ ropts = PeriodicReport spans (map percentRow rows) (percentRow totalrow)
  | otherwise      = report
  where
    percentRow (PeriodicReportRow name rowvals rowtotal rowavg) =
      PeriodicReportRow name
        (zipWith perdivide rowvals $ prrAmounts totalrow)
        (perdivide rowtotal $ prrTotal totalrow)
        (perdivide rowavg $ prrAverage totalrow)


-- | Transpose a Map of HashMaps to a HashMap of Maps.
--
-- Makes sure that all DateSpans are present in all rows.
transposeMap :: Map DateSpan (HashMap AccountName a)
             -> HashMap AccountName (Map DateSpan a)
transposeMap = M.foldrWithKey addSpan mempty
  where
    addSpan span acctmap seen = HM.foldrWithKey (addAcctSpan span) seen acctmap

    addAcctSpan span acct a = HM.alter f acct
      where f = Just . M.insert span a . fromMaybe mempty

-- | A sorting helper: sort a list of things (eg report rows) keyed by account name
-- to match the provided ordering of those same account names.
sortRowsLike :: [AccountName] -> [PeriodicReportRow DisplayName b] -> [PeriodicReportRow DisplayName b]
sortRowsLike sortedas rows = mapMaybe (`HM.lookup` rowMap) sortedas
  where rowMap = HM.fromList $ map (\row -> (prrFullName row, row)) rows

-- | Given a list of account names, find all forking parent accounts, i.e.
-- those which fork between different branches
subaccountTallies :: [AccountName] -> HashMap AccountName Int
subaccountTallies = foldr incrementParent mempty . expandAccountNames
  where incrementParent a = HM.insertWith (+) (parentAccountName a) 1

-- | A helper: what percentage is the second mixed amount of the first ?
-- Keeps the sign of the first amount.
-- Uses unifyMixedAmount to unify each argument and then divides them.
-- Both amounts should be in the same, single commodity.
-- This can call error if the arguments are not right.
perdivide :: MixedAmount -> MixedAmount -> MixedAmount
perdivide a b = fromMaybe (error' errmsg) $ do  -- PARTIAL:
    a' <- unifyMixedAmount a
    b' <- unifyMixedAmount b
    guard $ amountIsZero a' || amountIsZero b' || acommodity a' == acommodity b'
    return $ mixed [per $ if aquantity b' == 0 then 0 else aquantity a' / abs (aquantity b') * 100]
  where errmsg = "Cannot calculate percentages if accounts have different commodities (Hint: Try --cost, -V or similar flags.)"

-- Add the values of two accounts. Should be right-biased, since it's used
-- in scanl, so other properties (such as anumpostings) stay in the right place
sumAcct :: Account -> Account -> Account
sumAcct Account{aibalance=i1,aebalance=e1} a@Account{aibalance=i2,aebalance=e2} =
    a{aibalance = i1 `maPlus` i2, aebalance = e1 `maPlus` e2}

-- Subtract the values in one account from another. Should be left-biased.
subtractAcct :: Account -> Account -> Account
subtractAcct a@Account{aibalance=i1,aebalance=e1} Account{aibalance=i2,aebalance=e2} =
    a{aibalance = i1 `maMinus` i2, aebalance = e1 `maMinus` e2}

-- | Extract period changes from a cumulative list
periodChanges :: Account -> Map k Account -> Map k Account
periodChanges start amtmap =
    M.fromDistinctAscList . zip dates $ zipWith subtractAcct amts (start:amts)
  where (dates, amts) = unzip $ M.toAscList amtmap

-- | Calculate a cumulative sum from a list of period changes and a valuation
-- function.
cumulativeSum :: (DateSpan -> Account -> Account) -> Account -> Map DateSpan Account -> Map DateSpan Account
cumulativeSum value start = snd . M.mapAccumWithKey accumValued start
  where accumValued startAmt date newAmt = let s = sumAcct startAmt newAmt in (s, value date s)

-- | Given a table representing a multi-column balance report (for example,
-- made using 'balanceReportAsTable'), render it in a format suitable for
-- console output. Amounts with more than two commodities will be elided
-- unless --no-elide is used.
balanceReportTableAsText :: ReportOpts -> Tab.Table T.Text T.Text WideBuilder -> TB.Builder
balanceReportTableAsText ReportOpts{..} =
    Tab.renderTableByRowsB def{Tab.tableBorders=False, Tab.prettyTable=pretty_tables_} renderCh renderRow
  where
    renderCh
      | not commodity_column_ || transpose_ = fmap (Tab.textCell Tab.TopRight)
      | otherwise = zipWith ($) (Tab.textCell Tab.TopLeft : repeat (Tab.textCell Tab.TopRight))

    renderRow (rh, row)
      | not commodity_column_ || transpose_ =
          (Tab.textCell Tab.TopLeft rh, fmap (Tab.Cell Tab.TopRight . pure) row)
      | otherwise =
          (Tab.textCell Tab.TopLeft rh, zipWith ($) (Tab.Cell Tab.TopLeft : repeat (Tab.Cell Tab.TopRight)) (fmap pure row))


-- tests

tests_MultiBalanceReport = testGroup "MultiBalanceReport" [

  let
    amt0 = Amount {acommodity="$", aquantity=0, aprice=Nothing, astyle=AmountStyle {ascommodityside = L, ascommodityspaced = False, asprecision = Precision 2, asdecimalpoint = Just '.', asdigitgroups = Nothing}}
    (rspec,journal) `gives` r = do
      let rspec' = rspec{_rsQuery=And [queryFromFlags $ _rsReportOpts rspec, _rsQuery rspec]}
          (eitems, etotal) = r
          (PeriodicReport _ aitems atotal) = multiBalanceReport rspec' journal
          showw (PeriodicReportRow a lAmt amt amt')
              = (displayFull a, displayName a, displayDepth a, map showMixedAmountDebug lAmt, showMixedAmountDebug amt, showMixedAmountDebug amt')
      (map showw aitems) @?= (map showw eitems)
      showMixedAmountDebug (prrTotal atotal) @?= showMixedAmountDebug etotal -- we only check the sum of the totals
  in
   testGroup "multiBalanceReport" [
      testCase "null journal"  $
      (defreportspec, nulljournal) `gives` ([], nullmixedamt)

     ,testCase "with -H on a populated period"  $
      (defreportspec{_rsReportOpts=defreportopts{period_= PeriodBetween (fromGregorian 2008 1 1) (fromGregorian 2008 1 2), balanceaccum_=Historical}}, samplejournal) `gives`
       (
        [ PeriodicReportRow (flatDisplayName "assets:bank:checking") [mamountp' "$1.00"]  (mamountp' "$1.00")  (mixedAmount amt0{aquantity=1})
        , PeriodicReportRow (flatDisplayName "income:salary")        [mamountp' "$-1.00"] (mamountp' "$-1.00") (mixedAmount amt0{aquantity=(-1)})
        ],
        mamountp' "$0.00")

     -- ,testCase "a valid history on an empty period"  $
     --  (defreportopts{period_= PeriodBetween (fromGregorian 2008 1 2) (fromGregorian 2008 1 3), balanceaccum_=Historical}, samplejournal) `gives`
     --   (
     --    [
     --     ("assets:bank:checking","checking",3, [mamountp' "$1.00"], mamountp' "$1.00",mixedAmount amt0 {aquantity=1})
     --    ,("income:salary","salary",2, [mamountp' "$-1.00"], mamountp' "$-1.00",mixedAmount amt0 {aquantity=(-1)})
     --    ],
     --    mixedAmount usd0)

     -- ,testCase "a valid history on an empty period (more complex)"  $
     --  (defreportopts{period_= PeriodBetween (fromGregorian 2009 1 1) (fromGregorian 2009 1 2), balanceaccum_=Historical}, samplejournal) `gives`
     --   (
     --    [
     --    ("assets:bank:checking","checking",3, [mamountp' "$1.00"], mamountp' "$1.00",mixedAmount amt0 {aquantity=1})
     --    ,("assets:bank:saving","saving",3, [mamountp' "$1.00"], mamountp' "$1.00",mixedAmount amt0 {aquantity=1})
     --    ,("assets:cash","cash",2, [mamountp' "$-2.00"], mamountp' "$-2.00",mixedAmount amt0 {aquantity=(-2)})
     --    ,("expenses:food","food",2, [mamountp' "$1.00"], mamountp' "$1.00",mixedAmount amt0 {aquantity=(1)})
     --    ,("expenses:supplies","supplies",2, [mamountp' "$1.00"], mamountp' "$1.00",mixedAmount amt0 {aquantity=(1)})
     --    ,("income:gifts","gifts",2, [mamountp' "$-1.00"], mamountp' "$-1.00",mixedAmount amt0 {aquantity=(-1)})
     --    ,("income:salary","salary",2, [mamountp' "$-1.00"], mamountp' "$-1.00",mixedAmount amt0 {aquantity=(-1)})
     --    ],
     --    mixedAmount usd0)
    ]
 ]