{-# LANGUAGE BangPatterns #-}
{-# LANGUAGE DeriveAnyClass #-}
{-# LANGUAGE DeriveGeneric #-}
{-# LANGUAGE DuplicateRecordFields #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE InstanceSigs #-}
{-# LANGUAGE TypeFamilies #-}
module HaskellWorks.Data.BalancedParens.RangeMin
( RangeMin(..)
, mkRangeMin
) where
import Control.DeepSeq
import Data.Int
import GHC.Generics
import HaskellWorks.Data.AtIndex
import HaskellWorks.Data.BalancedParens.BalancedParens
import HaskellWorks.Data.BalancedParens.CloseAt
import HaskellWorks.Data.BalancedParens.Enclose
import HaskellWorks.Data.BalancedParens.FindClose
import HaskellWorks.Data.BalancedParens.FindCloseN
import HaskellWorks.Data.BalancedParens.FindOpen
import HaskellWorks.Data.BalancedParens.FindOpenN
import HaskellWorks.Data.BalancedParens.NewCloseAt
import HaskellWorks.Data.BalancedParens.OpenAt
import HaskellWorks.Data.Bits.AllExcess.AllExcess1
import HaskellWorks.Data.Bits.BitLength
import HaskellWorks.Data.Bits.BitWise
import HaskellWorks.Data.Excess.MinExcess
import HaskellWorks.Data.Excess.MinExcess1
import HaskellWorks.Data.Positioning
import HaskellWorks.Data.RankSelect.Base.Rank0
import HaskellWorks.Data.RankSelect.Base.Rank1
import HaskellWorks.Data.Vector.AsVector64
import Prelude hiding (length)
import qualified Data.Vector.Storable as DVS
data RangeMin a = RangeMin
{ rangeMinBP :: !a
, rangeMinL0Min :: !(DVS.Vector Int8)
, rangeMinL0Excess :: !(DVS.Vector Int8)
, rangeMinL1Min :: !(DVS.Vector Int16)
, rangeMinL1Excess :: !(DVS.Vector Int16)
, rangeMinL2Min :: !(DVS.Vector Int16)
, rangeMinL2Excess :: !(DVS.Vector Int16)
} deriving (Eq, Show, NFData, Generic)
factorL0 :: Integral a => a
factorL0 = 1
{-# INLINE factorL0 #-}
factorL1 :: Integral a => a
factorL1 = 32
{-# INLINE factorL1 #-}
factorL2 :: Integral a => a
factorL2 = 32
{-# INLINE factorL2 #-}
pageSizeL0 :: Integral a => a
pageSizeL0 = factorL0
{-# INLINE pageSizeL0 #-}
pageSizeL1 :: Integral a => a
pageSizeL1 = pageSizeL0 * factorL1
{-# INLINE pageSizeL1 #-}
pageSizeL2 :: Integral a => a
pageSizeL2 = pageSizeL1 * factorL2
{-# INLINE pageSizeL2 #-}
mkRangeMin :: AsVector64 a => a -> RangeMin a
mkRangeMin bp = RangeMin
{ rangeMinBP = bp
, rangeMinL0Min = rmL0Min
, rangeMinL0Excess = dvsReword rmL0Excess
, rangeMinL1Min = rmL1Min
, rangeMinL1Excess = dvsReword rmL1Excess
, rangeMinL2Min = rmL2Min
, rangeMinL2Excess = rmL2Excess
}
where bpv = asVector64 bp
lenBP = fromIntegral (length bpv) :: Int
lenL0 = lenBP
lenL1 = (DVS.length rmL0Min `div` pageSizeL1) + 1 :: Int
lenL2 = (DVS.length rmL0Min `div` pageSizeL2) + 1 :: Int
allMinL0 = dvsConstructNI lenL0 (\i -> if i == lenBP then MinExcess (-64) (-64) else minExcess1 (bpv !!! fromIntegral i))
allMinL1 = dvsConstructNI lenL1 (\i -> minExcess1 (dropTake (i * pageSizeL1) pageSizeL1 bpv))
allMinL2 = dvsConstructNI lenL2 (\i -> minExcess1 (dropTake (i * pageSizeL2) pageSizeL2 bpv))
rmL0Excess = dvsConstructNI lenL0 (\i -> fromIntegral (allExcess1 (pageFill i pageSizeL0 0xffffffffffffffc0 bpv))) :: DVS.Vector Int16
rmL1Excess = dvsConstructNI lenL1 (\i -> fromIntegral (allExcess1 (pageFill i pageSizeL1 0xffffffffffffffc0 bpv))) :: DVS.Vector Int16
rmL2Excess = dvsConstructNI lenL2 (\i -> fromIntegral (allExcess1 (pageFill i pageSizeL2 0xffffffffffffffc0 bpv))) :: DVS.Vector Int16
rmL0Min = dvsConstructNI lenL0 (\i -> let MinExcess minE _ = allMinL0 DVS.! i in fromIntegral minE)
rmL1Min = dvsConstructNI lenL1 (\i -> let MinExcess minE _ = allMinL1 DVS.! i in fromIntegral minE)
rmL2Min = dvsConstructNI lenL2 (\i -> let MinExcess minE _ = allMinL2 DVS.! i in fromIntegral minE)
dropTake :: DVS.Storable a => Int -> Int -> DVS.Vector a -> DVS.Vector a
dropTake n o = DVS.take o . DVS.drop n
{-# INLINE dropTake #-}
dvsReword :: (DVS.Storable a, Integral a, DVS.Storable b, Num b) => DVS.Vector a -> DVS.Vector b
dvsReword v = dvsConstructNI (DVS.length v) (\i -> fromIntegral (v DVS.! i))
{-# INLINE dvsReword #-}
pageFill :: DVS.Storable a => Int -> Int -> a -> DVS.Vector a -> DVS.Vector a
pageFill n s = dropTakeFill (n * s) s
{-# INLINE pageFill #-}
dropTakeFill :: DVS.Storable a => Int -> Int -> a -> DVS.Vector a -> DVS.Vector a
dropTakeFill n o a v = let r = DVS.take o (DVS.drop n v) in
let len = DVS.length r in
if len == o then r else DVS.concat [r, DVS.fromList (replicate (o - len) a)]
{-# INLINE dropTakeFill #-}
dvsConstructNI :: DVS.Storable a => Int -> (Int -> a) -> DVS.Vector a
dvsConstructNI n g = DVS.constructN n (g . DVS.length)
{-# INLINE dvsConstructNI #-}
data FindState = FindBP
| FindL0 | FindFromL0
| FindL1 | FindFromL1
| FindL2 | FindFromL2
rm2FindClose :: (BitLength a, NewCloseAt a) => RangeMin a -> Int -> Count -> FindState -> Maybe Count
rm2FindClose v s p FindBP = if v `newCloseAt` p
then if s <= 1
then Just p
else rm2FindClose v (s - 1) (p + 1) FindFromL0
else rm2FindClose v (s + 1) (p + 1) FindFromL0
rm2FindClose v s p FindL0 =
let i = p `div` 64 in
let mins = rangeMinL0Min v in
let minE = fromIntegral (mins !!! fromIntegral i) :: Int in
if fromIntegral s + minE <= 0
then rm2FindClose v s p FindBP
else if v `newCloseAt` p && s <= 1
then Just p
else let excesses = rangeMinL0Excess v in
let excess = fromIntegral (excesses !!! fromIntegral i) :: Int in
rm2FindClose v (fromIntegral (excess + fromIntegral s)) (p + 64) FindFromL0
rm2FindClose v s p FindL1 =
let !i = p `div` (64 * pageSizeL1) in
let !mins = rangeMinL1Min v in
let !minE = fromIntegral (mins !!! fromIntegral i) :: Int in
if fromIntegral s + minE <= 0
then rm2FindClose v s p FindL0
else if 0 <= p && p < bitLength v
then if v `newCloseAt` p && s <= 1
then Just p
else let excesses = rangeMinL1Excess v in
let excess = fromIntegral (excesses !!! fromIntegral i) :: Int in
rm2FindClose v (fromIntegral (excess + fromIntegral s)) (p + (64 * pageSizeL1)) FindFromL1
else Nothing
rm2FindClose v s p FindL2 =
let !i = p `div` (64 * pageSizeL2) in
let !mins = rangeMinL2Min v in
let !minE = fromIntegral (mins !!! fromIntegral i) :: Int in
if fromIntegral s + minE <= 0
then rm2FindClose v s p FindL1
else if 0 <= p && p < bitLength v
then if v `newCloseAt` p && s <= 1
then Just p
else let excesses = rangeMinL2Excess v in
let excess = fromIntegral (excesses !!! fromIntegral i) :: Int in
rm2FindClose v (fromIntegral (excess + fromIntegral s)) (p + (64 * pageSizeL2)) FindFromL2
else Nothing
rm2FindClose v s p FindFromL0
| p `mod` 64 == 0 = rm2FindClose v s p FindFromL1
| 0 <= p && p < bitLength v = rm2FindClose v s p FindBP
| otherwise = Nothing
rm2FindClose v s p FindFromL1
| p `mod` (64 * pageSizeL1) == 0 = if 0 <= p && p < bitLength v then rm2FindClose v s p FindFromL2 else Nothing
| 0 <= p && p < bitLength v = rm2FindClose v s p FindL0
| otherwise = Nothing
rm2FindClose v s p FindFromL2
| p `mod` (64 * pageSizeL2) == 0 = if 0 <= p && p < bitLength v then rm2FindClose v s p FindL2 else Nothing
| 0 <= p && p < bitLength v = rm2FindClose v s p FindL1
| otherwise = Nothing
{-# INLINE rm2FindClose #-}
instance TestBit a => TestBit (RangeMin a) where
(.?.) = (.?.) . rangeMinBP
{-# INLINE (.?.) #-}
instance Rank1 a => Rank1 (RangeMin a) where
rank1 = rank1 . rangeMinBP
{-# INLINE rank1 #-}
instance Rank0 a => Rank0 (RangeMin a) where
rank0 = rank0 . rangeMinBP
{-# INLINE rank0 #-}
instance BitLength a => BitLength (RangeMin a) where
bitLength = bitLength . rangeMinBP
{-# INLINE bitLength #-}
instance OpenAt a => OpenAt (RangeMin a) where
openAt = openAt . rangeMinBP
{-# INLINE openAt #-}
instance CloseAt a => CloseAt (RangeMin a) where
closeAt = closeAt . rangeMinBP
{-# INLINE closeAt #-}
instance NewCloseAt a => NewCloseAt (RangeMin a) where
newCloseAt = newCloseAt . rangeMinBP
{-# INLINE newCloseAt #-}
instance FindOpenN a => FindOpenN (RangeMin a) where
findOpenN = findOpenN . rangeMinBP
{-# INLINE findOpenN #-}
instance (BitLength a, NewCloseAt a) => FindCloseN (RangeMin a) where
findCloseN v s p = (+ 1) `fmap` rm2FindClose v (fromIntegral s) (p - 1) FindFromL0
{-# INLINE findCloseN #-}
instance (BitLength a, CloseAt a, NewCloseAt a, FindCloseN a) => FindClose (RangeMin a) where
findClose v p = if v `closeAt` p then Just p else findCloseN v 1 (p + 1)
{-# INLINE findClose #-}
instance (OpenAt a, FindOpenN a) => FindOpen (RangeMin a) where
findOpen v p = if v `openAt` p then Just p else findOpenN v 0 (p - 1)
{-# INLINE findOpen #-}
instance FindOpenN a => Enclose (RangeMin a) where
enclose v = findOpenN v 1
{-# INLINE enclose #-}
instance (BitLength a, NewCloseAt a, CloseAt a, OpenAt a, FindOpenN a, FindCloseN a) => BalancedParens (RangeMin a)