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Advent Of Code 2017
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| // Day 1 - Challenge #1 | |
| input.split('').reduce((acc, d, i, a) => { | |
| const n1 = Number(d); | |
| const n2 = Number(a[i+1] || a[0]); | |
| return (n1 === n2 ? acc + n1 : acc); | |
| }, 0); | |
| // Day 1 - Challenge #2 | |
| input.split('').reduce((acc, d, i, a) => { | |
| const n2Pos = (i + (a.length / 2)) % a.length; | |
| const n1 = Number(d); | |
| const n2 = Number(a[n2Pos]); | |
| return (n1 === n2 ? acc + n1 : acc); | |
| }, 0); |
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| // Day 2 - Challenge #1 | |
| // input preformatted to => [[1,2,3],[4,5,6],etc] | |
| input | |
| .map(numList => Math.max.apply(null, numList) - Math.min.apply(null, numList)) | |
| .reduce((acc, num) => acc + num, 0); | |
| // Day2 - Challenge #2 | |
| input.reduce((acc, numList) => { | |
| return acc + numList.reduce((acc2, n, i, a) => { | |
| const num2 = a.find(n2 => n !== n2 && n2 % n === 0); | |
| if (num2 != null) { acc2 = num2 / n; } | |
| return acc2; | |
| }, 0); | |
| }, 0); |
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| // Day 3 - Challenge #1 | |
| function getDist(num) { | |
| let sqrt = Math.ceil(Math.sqrt(num)); | |
| let sideLengthOfSq = (sqrt % 2 === 0 ? sqrt + 1 : sqrt); | |
| let highestNumInSq = sideLengthOfSq * sideLengthOfSq; | |
| let targetDistFromCorner = (highestNumInSq - num) % (sideLengthOfSq - 1); | |
| let targetDistFromSideCenter = Math.abs(targetDistFromCorner - Math.floor(sideLengthOfSq/2)); | |
| const closestDistFromSq = (sideLengthOfSq - 1) / 2; | |
| return closestDistFromSq + targetDistFromSideCenter; | |
| } |
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