How to resolve the algorithm 100 doors step by step in the Frink programming language
How to resolve the algorithm 100 doors step by step in the Frink programming language
Table of Contents
Problem Statement
There are 100 doors in a row that are all initially closed.
You make 100 passes by the doors.
The first time through, visit every door and toggle the door (if the door is closed, open it; if it is open, close it).
The second time, only visit every 2nd door (door #2, #4, #6, ...), and toggle it.
The third time, visit every 3rd door (door #3, #6, #9, ...), etc, until you only visit the 100th door.
Answer the question: what state are the doors in after the last pass? Which are open, which are closed?
Alternate:
As noted in this page's discussion page, the only doors that remain open are those whose numbers are perfect squares.
Opening only those doors is an optimization that may also be expressed;
however, as should be obvious, this defeats the intent of comparing implementations across programming languages.
Let's start with the solution:
Step by Step solution about How to resolve the algorithm 100 doors step by step in the Frink programming language
Source code in the frink programming language
doors = new array[[101], false]
for pass=1 to 100
for door=pass to 100 step pass
doors@door = ! doors@door
print["Open doors: "]
for door=1 to 100
if doors@door
print["$door "]
You may also check:How to resolve the algorithm Function composition step by step in the Janet programming language
You may also check:How to resolve the algorithm Secure temporary file step by step in the Sidef programming language
You may also check:How to resolve the algorithm Ackermann function step by step in the BCPL programming language
You may also check:How to resolve the algorithm Here document step by step in the Arturo programming language
You may also check:How to resolve the algorithm Sorting algorithms/Bubble sort step by step in the J programming language