1
0
Fork 0

day(17): refactor

Signed-off-by: Matej Focko <mfocko@redhat.com>
This commit is contained in:
Matej Focko 2021-12-20 17:45:42 +01:00
parent 56de6f7110
commit e0d7e4de13

View file

@ -1,17 +1,36 @@
package year2021.day17 package year2021.day17
import readInput import readInput
import kotlin.math.absoluteValue
import kotlin.math.min
import kotlin.math.max import kotlin.math.max
import kotlin.math.sign import kotlin.math.sign
data class Vector(val x: Int, val y: Int) { data class Vector(val x: Int, val y: Int) {
operator fun plus(other: Vector): Vector = Vector(x + other.x, y + other.y) operator fun plus(other: Vector): Vector = Vector(x + other.x, y + other.y)
fun updateVelocity(): Vector = Vector(x - x.sign, y - 1)
} }
data class Area(val min: Vector, val max: Vector) { data class Area(val min: Vector, val max: Vector) {
fun has(z: Vector): Boolean = (z.x in min.x..max.x) && (z.y in min.y..max.y) fun has(z: Vector): Boolean = (z.x in min.x..max.x) && (z.y in min.y..max.y)
private fun speeds(getter: (Vector) -> Int): IntRange =
max(getter(min).absoluteValue, getter(max).absoluteValue).let { absMax ->
(min(absMax * getter(min).sign, 0)..absMax)
} }
val xSpeeds: IntRange
get() = speeds { it.x }
val ySpeeds: IntRange
get() = speeds { it.y }
val possibleVectors: Iterable<Vector>
get() = xSpeeds.flatMap { vx -> ySpeeds.map { vy -> Vector(vx, vy) } }
}
// region parsing
fun getRange(range: String): Pair<Int, Int> = range.split("=")[1].let { fun getRange(range: String): Pair<Int, Int> = range.split("=")[1].let {
val (minValue, maxValue) = it.split("..").map(String::toInt) val (minValue, maxValue) = it.split("..").map(String::toInt)
minValue to maxValue minValue to maxValue
@ -26,42 +45,34 @@ fun String.toArea(): Area {
return Area(Vector(minX, minY), Vector(maxX, maxY)) return Area(Vector(minX, minY), Vector(maxX, maxY))
} }
// endregion parsing
fun findPeak(input: Area, v0: Vector): Int? { fun findPeak(input: Area, v0: Vector): Int? {
fun updateVelocity(v: Vector): Vector = Vector(v.x - v.x.sign, v.y - 1)
var v = v0 var v = v0
var p = Vector(0, 0) var p = Vector(0, 0)
var maxY = 0 var maxY = 0
var hitTarget = false
while (p.x <= input.max.x && p.y >= input.min.y) { while (p.x <= input.max.x && p.y >= input.min.y) {
p += v p += v
v = updateVelocity(v) v = v.updateVelocity()
hitTarget = hitTarget || input.has(p)
maxY = max(p.y, maxY) maxY = max(p.y, maxY)
if (input.has(p)) {
return maxY
}
} }
return if (hitTarget) maxY else null return null
} }
fun part1(input: Area): Int = fun part1(input: Area): Int =
(0..input.max.x) input.possibleVectors.maxOf { (x, y) ->
.flatMap { x -> (input.min.y..-input.min.y).map { y -> x to y } }
.maxOf { (x, y) ->
findPeak(input, Vector(x, y)) ?: 0 findPeak(input, Vector(x, y)) ?: 0
} }
// x = v_0x * t + 1/2 * a_x * t^2
// y = v_0y * t + 1/2 * -1 * t^2
// v_fy = v_0y + a_y * t => t_up = v_0y / a_y
fun part2(input: Area): Int = fun part2(input: Area): Int =
(0..input.max.x) input.possibleVectors.count { (x, y) ->
.flatMap { x -> (input.min.y..-input.min.y).map { y -> x to y } }
.count { (x, y) ->
findPeak(input, Vector(x, y)) != null findPeak(input, Vector(x, y)) != null
} }
@ -69,8 +80,8 @@ fun main() {
val sample = readInput(17, "sample").first().toArea() val sample = readInput(17, "sample").first().toArea()
val input = readInput(17, "input").first().toArea() val input = readInput(17, "input").first().toArea()
println("x: 0..${sample.max.x}, y: ${sample.min.y}..${-sample.min.y}") println("x: ${sample.xSpeeds}, y: ${sample.ySpeeds}")
println("x: 0..${input.max.x}, y: ${input.min.y}..${-input.min.y}") println("x: ${input.xSpeeds}, y: ${input.ySpeeds}")
check(part1(sample) == 45) check(part1(sample) == 45)
println(part1(input)) println(part1(input))