From 6aaae91ea6633b1f61f0607136b8a578c2b7f537 Mon Sep 17 00:00:00 2001
From: FrederikBaerentsen <frederik+gitea@baerentsen.net>
Date: Mon, 25 Nov 2024 20:17:15 +0100
Subject: [PATCH] Updated

---
 2017/15/15.md                        | 138 +++++++++++++++++++++++++++
 2017/15/debug-full-aoc-response.html | 112 ++++++++++++++++++++++
 2017/15/solution.py                  |  72 ++++++++++++++
 2017/16/16.md                        |  59 ++++++++++++
 2017/16/solution.py                  | 132 +++++++++++++++++++++++++
 5 files changed, 513 insertions(+)
 create mode 100644 2017/15/15.md
 create mode 100644 2017/15/debug-full-aoc-response.html
 create mode 100644 2017/15/solution.py
 create mode 100644 2017/16/16.md
 create mode 100644 2017/16/solution.py

diff --git a/2017/15/15.md b/2017/15/15.md
new file mode 100644
index 0000000..9a1455d
--- /dev/null
+++ b/2017/15/15.md
@@ -0,0 +1,138 @@
+## \-\-- Day 15: Dueling Generators \-\--
+
+Here, you encounter a pair of dueling
+generators.
+The generators, called *generator A* and *generator B*, are trying to
+agree on a sequence of numbers. However, one of them is malfunctioning,
+and so the sequences don\'t always match.
+
+As they do this, a *judge* waits for each of them to generate its next
+value, compares the lowest 16 bits of both values, and keeps track of
+the number of times those parts of the values match.
+
+The generators both work on the same principle. To create its next
+value, a generator will take the previous value it produced, multiply it
+by a *factor* (generator A uses `16807`; generator B uses `48271`), and
+then keep the remainder of dividing that resulting product by
+`2147483647`. That final remainder is the value it produces next.
+
+To calculate each generator\'s first value, it instead uses a specific
+starting value as its \"previous value\" (as listed in your puzzle
+input).
+
+For example, suppose that for starting values, generator A uses `65`,
+while generator B uses `8921`. Then, the first five pairs of generated
+values are:
+
+    --Gen. A--  --Gen. B--
+       1092455   430625591
+    1181022009  1233683848
+     245556042  1431495498
+    1744312007   137874439
+    1352636452   285222916
+
+In binary, these pairs are (with generator A\'s value first in each
+pair):
+
+    00000000000100001010101101100111
+    00011001101010101101001100110111
+
+    01000110011001001111011100111001
+    01001001100010001000010110001000
+
+    00001110101000101110001101001010
+    01010101010100101110001101001010
+
+    01100111111110000001011011000111
+    00001000001101111100110000000111
+
+    01010000100111111001100000100100
+    00010001000000000010100000000100
+
+Here, you can see that the lowest (here, rightmost) 16 bits of the third
+value match: `1110001101001010`. Because of this one match, after
+processing these five pairs, the judge would have added only `1` to its
+total.
+
+To get a significant sample, the judge would like to consider *40
+million* pairs. (In the example above, the judge would eventually find a
+total of `588` pairs that match in their lowest 16 bits.)
+
+After 40 million pairs, *what is the judge\'s final count*?
+
+Your puzzle answer was `573`.
+
+The first half of this puzzle is complete! It provides one gold star: \*
+
+## \-\-- Part Two \-\-- {#part2}
+
+In the interest of trying to align a little better, the generators get
+more picky about the numbers they actually give to the judge.
+
+They still generate values in the same way, but now they only hand a
+value to the judge when it meets their *criteria*:
+
+-   Generator A looks for values that are multiples of `4`.
+-   Generator B looks for values that are multiples of `8`.
+
+Each generator functions completely *independently*: they both go
+through values entirely on their own, only occasionally handing an
+acceptable value to the judge, and otherwise working through the same
+sequence of values as before until they find one.
+
+The judge still waits for each generator to provide it with a value
+before comparing them (using the same comparison method as before). It
+keeps track of the order it receives values; the first values from each
+generator are compared, then the second values from each generator, then
+the third values, and so on.
+
+Using the example starting values given above, the generators now
+produce the following first five values each:
+
+    --Gen. A--  --Gen. B--
+    1352636452  1233683848
+    1992081072   862516352
+     530830436  1159784568
+    1980017072  1616057672
+     740335192   412269392
+
+These values have the following corresponding binary values:
+
+    01010000100111111001100000100100
+    01001001100010001000010110001000
+
+    01110110101111001011111010110000
+    00110011011010001111010010000000
+
+    00011111101000111101010001100100
+    01000101001000001110100001111000
+
+    01110110000001001010100110110000
+    01100000010100110001010101001000
+
+    00101100001000001001111001011000
+    00011000100100101011101101010000
+
+Unfortunately, even though this change makes more bits similar on
+average, none of these values\' lowest 16 bits match. Now, it\'s not
+until the 1056th pair that the judge finds the first match:
+
+    --Gen. A--  --Gen. B--
+    1023762912   896885216
+
+    00111101000001010110000111100000
+    00110101011101010110000111100000
+
+This change makes the generators much slower, and the judge is getting
+impatient; it is now only willing to consider *5 million* pairs. (Using
+the values from the example above, after five million pairs, the judge
+would eventually find a total of `309` pairs that match in their lowest
+16 bits.)
+
+After 5 million pairs, but using this new generator logic, *what is the
+judge\'s final count*?
+
+Answer:
+
+Although it hasn\'t changed, you can still [get your puzzle
+input](15/input).
diff --git a/2017/15/debug-full-aoc-response.html b/2017/15/debug-full-aoc-response.html
new file mode 100644
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+<!DOCTYPE html>
+<html lang="en-us">
+<head>
+<meta charset="utf-8"/>
+<title>Day 15 - Advent of Code 2017</title>
+<link rel="stylesheet" type="text/css" href="/static/style.css?31"/>
+<link rel="stylesheet alternate" type="text/css" href="/static/highcontrast.css?1" title="High Contrast"/>
+<link rel="shortcut icon" href="/favicon.png"/>
+<script>window.addEventListener('click', function(e,s,r){if(e.target.nodeName==='CODE'&&e.detail===3){s=window.getSelection();s.removeAllRanges();r=document.createRange();r.selectNodeContents(e.target);s.addRange(r);}});</script>
+</head><!--
+
+
+
+
+Oh, hello!  Funny seeing you here.
+
+I appreciate your enthusiasm, but you aren't going to find much down here.
+There certainly aren't clues to any of the puzzles.  The best surprises don't
+even appear in the source until you unlock them for real.
+
+Please be careful with automated requests; I'm not a massive company, and I can
+only take so much traffic.  Please be considerate so that everyone gets to play.
+
+If you're curious about how Advent of Code works, it's running on some custom
+Perl code. Other than a few integrations (auth, analytics, social media), I
+built the whole thing myself, including the design, animations, prose, and all
+of the puzzles.
+
+The puzzles are most of the work; preparing a new calendar and a new set of
+puzzles each year takes all of my free time for 4-5 months. A lot of effort
+went into building this thing - I hope you're enjoying playing it as much as I
+enjoyed making it for you!
+
+If you'd like to hang out, I'm @ericwastl@hachyderm.io on Mastodon and
+@ericwastl on Twitter.
+
+- Eric Wastl
+
+
+
+
+
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+
+
+
+-->
+<body>
+<header><div><h1 class="title-global"><a href="/">Advent of Code</a></h1><nav><ul><li><a href="/2017/about">[About]</a></li><li><a href="/2017/events">[Events]</a></li><li><a href="https://teespring.com/stores/advent-of-code" target="_blank">[Shop]</a></li><li><a href="/2017/settings">[Settings]</a></li><li><a href="/2017/auth/logout">[Log Out]</a></li></ul></nav><div class="user">Frederik Baerentsen <span class="star-count">30*</span></div></div><div><h1 class="title-event">&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;<span class="title-event-wrap">//</span><a href="/2017">2017</a><span class="title-event-wrap"></span></h1><nav><ul><li><a href="/2017">[Calendar]</a></li><li><a href="/2017/support">[AoC++]</a></li><li><a href="/2017/sponsors">[Sponsors]</a></li><li><a href="/2017/leaderboard">[Leaderboard]</a></li><li><a href="/2017/stats">[Stats]</a></li></ul></nav></div></header>
+
+<div id="sidebar">
+<div id="sponsor"><div class="quiet">Our <a href="/2017/sponsors">sponsors</a> help make Advent of Code possible:</div><div class="sponsor"><a href="https://cheppers.com/" target="_blank" onclick="if(ga)ga('send','event','sponsor','sidebar',this.href);" rel="noopener">Cheppers</a> - xor(Pz0pQUI7Ch cmER8YDAEYAh4L GwEP, ↑↑↓↓←→←→BA)</div></div>
+</div><!--/sidebar-->
+
+<main>
+<article><p>You don't seem to be solving the right level.  Did you already complete it? <a href="/2017/day/15">[Return to Day 15]</a></p></article>
+</main>
+
+<!-- ga -->
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diff --git a/2017/15/solution.py b/2017/15/solution.py
new file mode 100644
index 0000000..75f02dd
--- /dev/null
+++ b/2017/15/solution.py
@@ -0,0 +1,72 @@
+#!/bin/python3
+import sys,re
+from pprint import pprint
+sys.path.insert(0, '../../')
+from fred import list2int
+
+input_f = 'test'
+
+part = 2
+#########################################
+#                                       #
+#              Part 1                   #
+#                                       #
+#########################################
+
+if part == 1:
+    a = 634
+    b = 301
+    a_fak = 16807
+    b_fak = 48271
+    rem = 2147483647
+    count = 0
+    for i in range(0,40000000):
+        a = (a*a_fak)%rem
+        b = (b*b_fak)%rem
+
+        a_bin = bin(a)[2:].zfill(32)
+        b_bin = bin(b)[2:].zfill(32)
+        if a_bin[16:] == b_bin[16:]:
+            count += 1
+        
+    print(count)
+
+    
+
+
+
+
+#########################################
+#                                       #
+#              Part 2                   #
+#                                       #
+#########################################
+if part == 2:
+    a = 634
+    b = 301
+    a_fak = 16807
+    b_fak = 48271
+    rem = 2147483647
+    count = 0
+
+    a_matches = []
+    b_matches = []
+
+    while min(len(a_matches),len(b_matches)) < 5000000:
+        a = (a*a_fak)%rem
+        b = (b*b_fak)%rem
+
+        a_bin = bin(a)[2:].zfill(32)
+        b_bin = bin(b)[2:].zfill(32)
+        if a % 4 == 0:
+            a_matches.append(a_bin[16:])
+        if b % 8 == 0:
+            b_matches.append(b_bin[16:])
+        
+    print(len(a_matches))
+    print(len(b_matches))
+    for x in range(0,min(len(a_matches),len(b_matches))):
+        if a_matches[x] == b_matches[x]:
+            count += 1
+        
+    print(count)
diff --git a/2017/16/16.md b/2017/16/16.md
new file mode 100644
index 0000000..8306abd
--- /dev/null
+++ b/2017/16/16.md
@@ -0,0 +1,59 @@
+## \-\-- Day 16: Permutation Promenade \-\--
+
+You come upon a very unusual sight; a group of programs here appear to
+be [dancing](https://www.youtube.com/watch?v=lyZQPjUT5B4&t=53).
+
+There are sixteen programs in total, named `a` through `p`. They start
+by standing in a line: `a` stands
+in position `0`, `b` stands in position `1`, and so on until `p`, which
+stands in position `15`.
+
+The programs\' *dance* consists of a sequence of *dance moves*:
+
+-   *Spin*, written `sX`, makes `X` programs move from the end to the
+    front, but maintain their order otherwise. (For example, `s3` on
+    `abcde` produces `cdeab`).
+-   *Exchange*, written `xA/B`, makes the programs at positions `A` and
+    `B` swap places.
+-   *Partner*, written `pA/B`, makes the programs named `A` and `B` swap
+    places.
+
+For example, with only five programs standing in a line (`abcde`), they
+could do the following dance:
+
+-   `s1`, a spin of size `1`: `eabcd`.
+-   `x3/4`, swapping the last two programs: `eabdc`.
+-   `pe/b`, swapping programs `e` and `b`: `baedc`.
+
+After finishing their dance, the programs end up in order `baedc`.
+
+You watch the dance for a while and record their dance moves (your
+puzzle input). *In what order are the programs standing* after their
+dance?
+
+Your puzzle answer was `ehdpincaogkblmfj`.
+
+The first half of this puzzle is complete! It provides one gold star: \*
+
+## \-\-- Part Two \-\-- {#part2}
+
+Now that you\'re starting to get a feel for the dance moves, you turn
+your attention to *the dance as a whole*.
+
+Keeping the positions they ended up in from their previous dance, the
+programs perform it again and again: including the first dance, a total
+of *one billion* (`1000000000`) times.
+
+In the example above, their second dance would *begin* with the order
+`baedc`, and use the same dance moves:
+
+-   `s1`, a spin of size `1`: `cbaed`.
+-   `x3/4`, swapping the last two programs: `cbade`.
+-   `pe/b`, swapping programs `e` and `b`: `ceadb`.
+
+*In what order are the programs standing* after their billion dances?
+
+Answer:
+
+Although it hasn\'t changed, you can still [get your puzzle
+input](16/input).
diff --git a/2017/16/solution.py b/2017/16/solution.py
new file mode 100644
index 0000000..53a7800
--- /dev/null
+++ b/2017/16/solution.py
@@ -0,0 +1,132 @@
+#!/bin/python3
+import sys,re,collections
+
+from pprint import pprint
+sys.path.insert(0, '../../')
+from fred import list2int
+
+input_f = 'input'
+
+part = 2
+#########################################
+#                                       #
+#              Part 1                   #
+#                                       #
+#########################################
+
+inst = []
+
+programs = 'abcdefghijklmnop'
+#programs = 'abcde'
+
+def parse_input(input_str):
+    pattern = r"^(s(\d+)|x(\d+)/(\d+)|p([a-zA-Z])/([a-zA-Z]))$"
+
+    match = re.match(pattern, input_str)
+    if match:
+        if match.group(2):
+            return ('s', int(match.group(2)))
+        elif match.group(3) and match.group(4):
+            return ('x', int(match.group(3)), int(match.group(4)))
+        elif match.group(5) and match.group(6):
+            return ('p', match.group(5), match.group(6))
+    return None 
+        
+def swap_pos(d, index1, index2):
+    if not (0 <= index1 < len(d)) or not (0 <= index2 < len(d)):
+        raise IndexError("Index out of range")
+    d[index1], d[index2] = d[index2], d[index1]
+
+def swap_items(d, item1, item2):
+    try:
+        index1 = d.index(item1)
+        index2 = d.index(item2)
+            
+        d[index1], d[index2] = d[index2], d[index1]
+    except ValueError as e:
+        raise ValueError(f"One or both items not found in deque: {e}")
+
+if part == 1:
+    with open(input_f) as file:
+        for line in file:
+            instructions = line.rstrip().split(',')
+    
+    programs = collections.deque(list(programs))
+
+    #print(programs)
+    #print(instructions)
+    print(len(instructions))
+    
+    for idx,i in enumerate(instructions):
+        inst = parse_input(i)
+        print(idx,end=' ')
+        #print(i)
+        #rint(inst)
+        if inst[0] == 's':
+            #print('Spin', i)
+            programs.rotate(inst[1])
+
+        elif inst[0] == 'x':
+            #print('Exchange',i)
+            swap_pos(programs,inst[1],inst[2])
+
+        elif inst[0] == 'p':
+            #print('Partner',i)
+            swap_items(programs,inst[1],inst[2])
+        else:
+            print(inst)
+            input()
+        
+        
+
+    for i in programs:
+        print(i,end='')
+    print()
+
+
+#########################################
+#                                       #
+#              Part 2                   #
+#                                       #
+#########################################
+if part == 2:
+    
+
+    with open(input_f) as file:
+        for line in file:
+            instructions = line.rstrip().split(',')
+    
+    programs = collections.deque(list(programs))
+
+    #print(programs)
+    #print(instructions)
+    print(len(instructions))
+
+    for r in range(0,1000000000):
+        for idx,i in enumerate(instructions):
+            inst = parse_input(i)
+            #print(idx,end=' ')
+            #print(i)
+            #rint(inst)
+            if inst[0] == 's':
+                #print('Spin', i)
+                programs.rotate(inst[1])
+
+            elif inst[0] == 'x':
+                #print('Exchange',i)
+                swap_pos(programs,inst[1],inst[2])
+
+            elif inst[0] == 'p':
+                #print('Partner',i)
+                swap_items(programs,inst[1],inst[2])
+            else:
+                print(inst)
+                input()
+        if r % 10000 == 0:
+            print(r)
+        
+        
+
+    for i in programs:
+        print(i,end='')
+    print()
\ No newline at end of file