-- TODO tests -- | -- Copyright : (c) Sam T. 2013 -- License : MIT -- Maintainer : pxqr.sta@gmail.com -- Stability : experimental -- Portability : portable -- -- This module provides commonly used piece seletion algorithms -- which used to find out which one next piece to download. -- Selectors considered to be used in the following order: -- -- * Random first - at the start. -- -- * Rarest first selection - performed to avoid situation when -- rarest piece is unaccessible. -- -- * _End game_ seletion - performed after a peer has requested all -- the subpieces of the content. -- -- Note that BitTorrent applies the strict priority policy for -- /subpiece/ or /blocks/ selection. -- module Network.BitTorrent.PeerWire.Selection ( Selector -- * Construction , selector, strategyClass -- * Strategies , strictFirst, strictLast , rarestFirst, randomFirst, endGame ) where import Data.Bitfield import Data.Ratio import Network.BitTorrent.PeerWire.Block type Selector = Bitfield -- ^ Indices of client /have/ pieces. -> Bitfield -- ^ Indices of peer /have/ pieces. -> [Bitfield] -- ^ Indices of other peers /have/ pieces. -> Maybe PieceIx -- ^ Zero-based index of piece to request -- to, if any. selector :: Selector -- ^ Selector to use at the start. -> Ratio PieceCount -> Selector -- ^ Selector to use after the client have the C pieces. -> Selector -- ^ Selector that changes behaviour based on completeness. selector start pt ready h a xs = case strategyClass pt h of SCBeginning -> start h a xs SCReady -> ready h a xs SCEnd -> endGame h a xs data StartegyClass = SCBeginning | SCReady | SCEnd deriving (Show, Eq, Ord, Enum, Bounded) strategyClass :: Ratio PieceCount -> Bitfield -> StartegyClass strategyClass threshold = classify . completeness where classify have | have < threshold = SCBeginning | have + 1 % numerator have < 1 = SCReady -- FIXME numerator have is not total count | otherwise = SCEnd -- | Select the first available piece. strictFirst :: Selector strictFirst h a _ = findMin (difference a h) -- | Select the last available piece. strictLast :: Selector strictLast h a _ = findMax (difference a h) -- | rarestFirst :: Selector rarestFirst h a xs = rarest (map (intersection want) xs) where want = difference h a -- | In average random first is faster than rarest first strategy but -- only if all pieces are available. randomFirst :: Selector randomFirst = do -- randomIO error "randomFirst" endGame :: Selector endGame = strictLast