import qualified Data.ByteString.Char8 as C
import qualified Data.Map.Strict as M
import Data.Maybe (fromJust)

type Count = Int
type Counter a = M.Map a Count

addElement :: Ord a => a -> Counter a -> Counter a
addElement x = M.insertWith (+) x 1

buildCharCounter :: C.ByteString -> Counter Char
buildCharCounter = C.foldr addElement M.empty

countElem :: Ord a => Counter a -> a -> Count
countElem ctr el = M.findWithDefault 0 el ctr

unsafeReadInt :: C.ByteString -> Int
unsafeReadInt = fst . fromJust . C.readInt

calcScore :: Int -> Int -> Int -> Counter Char -> Int
calcScore g0 c0 p0 ctr = 3 * (gWin + cWin + pWin) + gDraw + cDraw + pDraw
    where
        gZ0 = countElem ctr 'G'
        cZ0 = countElem ctr 'C'
        pZ0 = countElem ctr 'P'
        gWin = min g0 cZ0
        cWin = min c0 pZ0
        pWin = min p0 gZ0
        gZ = gZ0 - pWin
        cZ = cZ0 - gWin
        pZ = pZ0 - cWin
        g = g0 - gWin
        c = c0 - cWin
        p = p0 - pWin
        gDraw = min g gZ
        cDraw = min c cZ
        pDraw = min p pZ


main :: IO ()
main = do
    [g, c, p] <- fmap unsafeReadInt . C.words <$> C.getLine
    ctr <- buildCharCounter <$> C.getLine
    print $ calcScore g c p ctr