{-@ LIQUID "--no-termination" @-} module LiquidArrayInit () where import Language.Haskell.Liquid.Prelude import LiquidArray {-@ zero :: i: {v: Int | v >= 0} -> n: Int -> a: (j: {v: Int | (0 <= v && v < i)} -> {v: Int | v = 0}) -> (k: {v: Int | (0 <= v && v < n)} -> {v: Int | v = 0}) @-} zero :: Int -> Int -> (Int -> Int) -> (Int -> Int) zero i n a = if i >= n then a else zero (i + 1) n (set i 0 a) {-@ tenZeroes :: i: {v: Int | (0 <= v && v < 10)} -> {v: Int | v = 0} @-} tenZeroes = zero 0 10 empty {-@ zeroBackwards :: i: Int -> n: {v: Int | v > i} -> a: (j: {v: Int | (i < v && v < n)} -> {v: Int | v = 0}) -> (k: {v: Int | (0 <= v && v < n)} -> {v: Int | v = 0}) @-} zeroBackwards :: Int -> Int -> (Int -> Int) -> (Int -> Int) zeroBackwards i n a = if i < 0 then a else zeroBackwards (i - 1) n (set i 0 a) {-@ tenZeroes' :: i: {v: Int | (0 <= v && v < 10)} -> {v: Int | v = 0} @-} tenZeroes' = zeroBackwards 9 10 empty {-@ zeroEveryOther :: i: {v: Int | (v >= 0 && v mod 2 = 0)} -> n: Int -> a: (j: {v: Int | (0 <= v && v < i && v mod 2 = 0)} -> {v: Int | v = 0}) -> (k: {v: Int | (0 <= v && v < n && v mod 2 = 0)} -> {v: Int | v = 0}) @-} zeroEveryOther :: Int -> Int -> (Int -> Int) -> (Int -> Int) zeroEveryOther i n a = if i >= n then a else zeroEveryOther (i + 2) n (set i 0 a) {-@ stridedZeroes :: j: {v: Int | (v mod 2 = 0 && 0 <= v && v < 10)} -> {v: Int | v = 0} @-} stridedZeroes = zeroEveryOther 0 10 empty {-@ initArray :: forall a
x1: a -> Bool>. f: (z: Int -> a
) -> i: {v: Int | v >= 0} -> n: Int -> a: (j: {v: Int | (0 <= v && v < i)} -> a
) -> (k: {v: Int | (0 <= v && v < n)} -> a
) @-} initArray f i n a = if i >= n then a else initArray f (i + 1) n (set i (f i) a) {-@ zeroInitArray :: i: {v: Int | v >= 0} -> n: Int -> a: (j: {v: Int | (0 <= v && v < i)} -> {v: Int | v = 0}) -> (k: {v: Int | (0 <= v && v < n)} -> {v: Int | v = 0}) @-} zeroInitArray :: Int -> Int -> (Int -> Int) -> (Int -> Int) zeroInitArray = initArray (const 0) {-@ tenZeroes'' :: i: {v: Int | (0 <= v && v < 10)} -> {v: Int | v = 0} @-} tenZeroes'' = zeroInitArray 0 10 empty {-@ initid :: i: {v: Int | v >= 0} -> n: Int -> a: (j: {v: Int | (0 <= v && v < i)} -> {v: Int | v = j}) -> (k: {v: Int | (0 <= v && v < n)} -> {v: Int | v = k}) @-} initid :: Int -> Int -> (Int -> Int) -> (Int -> Int) initid = initArray id