39 lines
1.2 KiB
Kotlin
39 lines
1.2 KiB
Kotlin
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class Solution {
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fun <A, B> product(
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xs: Sequence<A>,
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ys: Sequence<B>,
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): Sequence<Pair<A, B>> = xs.flatMap { x -> ys.map { y -> x to y } }
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fun <A, B, C> product(
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xs: Sequence<A>,
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ys: Sequence<B>,
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zs: Sequence<C>,
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): Sequence<Triple<A, B, C>> = xs.flatMap { x -> ys.flatMap { y -> zs.map { z -> Triple(x, y, z) } } }
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fun <A, B> product(
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xs: Iterable<A>,
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ys: Iterable<B>,
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): Sequence<Pair<A, B>> = product(xs.asSequence(), ys.asSequence())
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fun <A, B, C> product(
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xs: Iterable<A>,
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ys: Iterable<B>,
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zs: Iterable<C>,
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): Sequence<Triple<A, B, C>> = product(xs.asSequence(), ys.asSequence(), zs.asSequence())
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fun maxMoves(grid: Array<IntArray>): Int {
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val dp = Array(grid.size) { IntArray(grid[0].size) }
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product(grid[0].indices.reversed().drop(1), grid.indices, -1..1).filter {
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(x, y, dy) ->
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y + dy >= 0 && y + dy < dp.size && grid[y][x] < grid[y + dy][x + 1]
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}.forEach { (x, y, dy) ->
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dp[y][x] = listOf(dp[y][x], 1 + dp[y + dy][x + 1]).max()
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}
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return dp.indices.maxOf { y ->
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dp[y][0]
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}
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}
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}
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