A great carpenter does not need to know how to make a hammer or saw in order to create a masterpiece.
A while back I wrote a bunch of articles describing how to create your own interactive cryptogram solver using python. I’ve used it a lot in my own personal solving and have had a few friends use it too but it definitely is not a tool for everyone. There are a lot of great tools out there for solving ciphers but many of them are very technical, require a special environment to run, or require programming knowledge and experience. Now, I don’t want to down play the usefulness of these great tools or tell anyone that they shouldn’t learn computer programming (Note: I think all computer users should know the very basics of programming logic as it is so useful for many things). That being said, there are many people out there who love a good challenge but either don’t have the desire or the time to learn to program. Sometimes the greater skill is knowing how to use the tools properly and efficiently. A great carpenter does not need to know how to make a hammer or saw in order to create a masterpiece.
So for all you great carpenters (solvers) out there, I have ported my interactive cryptogram solver to the web! No downloads, no special environments (other than a modern web browser), and no programming skills needed. Just a clean area where you can do what you do best: solving.
Continue reading “WebSolver: An Interactive Cryptogram Solver for the Web!”
While working on the Beginner’s Guide to the ACA, there was one technique that consistently showed up in all the research material: Pattern Words! At first I didn’t really understand how great they were. For those who don’t know about them or need a refresher, I’ll discuss a few of the different pattern types that I have come across. Afterwards, I’ll discuss my own Pattern Word Search Tool. Lets get started!
Continue reading “Pattern Words: A Solver’s Staple”
When I first joined the ACA and opened my starter packet, I was eager to jump right in and start solving Aristocrats and Patristocrats. I tried to solve as many as I could. Once I got stuck I would try to learn a different way to solve in hopes that it would get me unstuck. There is so much great information available on solving different cipher types and trying out new techniques. Unfortunately, since there is so much great information, it is difficult to figure out where to start or what resources to use. I found myself frequently getting lost in material too advanced at the early stage and becoming quite frustrated when the information did not penetrate my thick skull.
After one frustrating week, I contacted LIONEL, the ACA Recruitment Committee chairman, in hopes of finding some form of beginner’s guide to help me stay focused. He mentioned the “Young Tyros Newsletter”. It is a wonderful resource and I really recommend all new members and even non-members to read them. They have lots of great insights and tips to get you unstuck. In our discussions, I proposed that we should create a “Beginner’s Guide to the ACA”. I definitely didn’t want to re-hash all the great information out there. My goal was to compile a small list of the most important topics for a beginner to know and then point them in the right direction of all the other great materials out there.
LIONEL put me in contact with a few members who graciously agreed to send me some of their notes on how they solved some of the lower level Aristocrat and Patristocrat cons. Their notes and insights have been a great help in increasing my knowledge and solving abilities. It took quite a long time and many iterations before I was satisfied with it but I finally finished the first version of the “Beginner’s Guide to the ACA!” This would not have been possible without the help of BECASSE, GGMA, LIONEL, MICROPOD, MATANZA, and ZANAC. I am very grateful for their help.
You can download the Beginner’s Guide to the ACA below. Hopefully, it’ll help someone not get frustrated and lose interest in cryptology before they gave it a good chance.
Click here to download!
I’ve been working hard on this part of the series because I really wanted the interactive cryptogram solver to make it quick and painless to jump right into solving and still give you plenty of room to expand the functionality and reflect your own style of solving. In this part of the series, we will create solver.py which will become our gateway to solving. It will allow us to quickly select a cipher class that we want to work with. We will also add a self documenting system that will allow us to use the solver without memorizing all the commands or shortcuts that each solver class may use. So, lets just jump right back into the code!
Continue reading “Creating an interactive cryptogram solver (Part IV)”
In Part I and Part II of this series we created the framework for our interactive solver and finally had a working AristocratSolver class. In this part, we will enhance our existing framework by adding some commonly used functions, add frequency counting of characters and character sequences to the AristocratSolver class, add the ability to display the current plaintext and ciphertext keys to the AristocratSolver class and then finally create a PatristocratSolver class that reuses all our work in the AristocratSolver class.
Continue reading “Creating an interactive cryptogram solver (Part III)”
In Part I of this series we started creating the framework for our solver by creating the Cipher and Aristocrat classes. You are probably thinking “This is a series about interactive solvers but this is all code!” Well, the classes inheriting from Cipher will be the ones doing all the work in our solver. In this part of the series we will finally create the CipherSolver class that will work with the Cipher classes to interactively get the work done. So lets just jump right into the code so we can finally get to our first working solver, the AristocratSolver class!
Continue reading “Creating an interactive cryptogram solver (Part II)”
In this post we’ll first analyze what we are trying to accomplish and then begin to create an extensible framework that will allow us to adapt our solver to many different kinds of ciphers.
Building the framework
Our main goal is to create an extensible interactive solver, so lets break down the similarities that all ciphers have. You’ve got to think really generic here. All ciphers have the following similarities:
- They manipulate some kind of text.
- They have an encryption algorithm.
- They have a decryption algorithm.
Continue reading “Creating an interactive cryptogram solver (Part I)”