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What was the single thing you learned (either in classes or during work) that felt most like scales falling off your eyes?

For me, it was a lecture about microcode, because that filled the gap of understanding between electrons flowing through transistors to form logic gates, and assembler programming. It finally made me feel that I understood completely how a computer works, on all levels.

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78 Answers 78

Realizing that what you produce lives longer than you think - which is a nice way of saying people a long long time from now will be dealing with what you write today.

I got a call in 2002 from someone at a company I left in 1989 pleading for help with a database application I wrote on a Sun workstation in C & UNIFY. It had since been ported to VAXen/INGRES and then to Windoes2000/SQLServer. They were STILL using it and trying to build a web app out of it!

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Mine was an anti-CS moment: realizing that for all we care about the complexity of a data structure, the constant matters a lot, and can get messed by memory layout, file systems, etc.

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My first big system.

For about 10 years, I had programed on and off as a hobby, doing programs between 10 and 100 lines. I then arrived at college, and completed some very complex, yet brief algorithm assignments- still under 1000 lines, perhaps 3-5 files.

Then, I took a class with a term project. The task was to create a web based information system - you know, something similar to things people actually use. There is no experience quite like starting from nothing, figuring out a technology, and creating a multi thousand line application. It seemed somewhat magic that my sql commands actually created a functioning database, that they actually made it over a network. It was also an eye opener to realize that I, as a programmer, was fully capable of creating things commonly sold for thousands of dollars.

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I first encountered the idea of object-orientation in college, and while I understood the mechanics well enough — the "how", if you will — I didn't quite get the "why". It seemed like just another way of representing data and actions, and a fairly cumbersome one at that. It certainly didn't inspire me to stop writing procedural code at the time.

Some time later, however, I found myself reading through the language documentation of an interpreted language I was considering taking up (I've forgotten which) and while scanning through the examples, found what seemed the single most transcendent notion I'd ever encountered. The example was something akin to the following:

" foo ".trim();

In all my courses, I had never seen an object method called on a literal. It astounded me! For whatever reason, the idea of objects suddenly made sense. Classes as a way of structuring data had seemed clear enough before, but until that moment, the idea that objects could be so deeply embedded in the design of a language that actual string literals were objects with class methods had never occurred to me.

I've always felt a great debt to whatever anonymous programmer decided to add that particular example. Not only did it greatly expand my concept of how code is written, but I don't think I would have survived learning JavaScript without it!

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The most profound thing I learned going for my Bachelor's in CS came during my AI class, when I learned that information can be considered interchangeable with energy. This totally blew my mind and changed the way I look at the world.

More practically, I didn't have a true understanding of pointers until taking an assembly language course. Before understanding their implementation, they might as well have been useful and yet unpredictable gremlins.

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Once, when I had been programming for about 6 years, my company sent me on a totally inappropriate course (can't even remember what it was - something to do with local area networks maybe...). Bored with it, I had a look in the class next door where they were doing structured programming. There were more course notes than students, so I was able to take one home and read it. There was nothing in it that I didn't kind of know intuitively and from experience - but I had never been explicitly taught it either, and having the principles and reasoning behind it spelt out was very illuminating.

Since then I have learned many other languages, and newer techniques such as OO, but the principles of structured programming are just as valid now as they were then.

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1972 -- "fixed" a broken photo-typesetting machine by having the 4-bit computer flash every character twice, thereby getting the newspaper to the pressroom. The manufacturer's techinician was 150 miles away, and was able to replace the weak flash power supply the next day. Fixing or working around broken hardware with software was a "WOW" moment for me.

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That I should learn something practical. Take care of animals, grow plants or learn to survive. When I understood how computers worked - the same you did; I also understood I have to get out of this electron-fantasy very soon :D

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O dear, I thought I have had been trapped alone. –  Richard Kiefer Mar 26 '12 at 10:40

Functional Programming.

Although I'm a determined C# programmer, this tutorial was an eye-opener to me that there are other ways of solving problems. Using overloading in C# to emulate functional programming, I was able to refactor some of my more complex algorithms using less than 20% of the code before while having a better readability.

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The biggest thing I learned was that the customers have no idea what they want and once you show them something they usually will know they don't want exactly that and "can you make that green?" or "how about a picture of a tree here instead" will happen.

Basically Joel said it best in his article The Iceberg Secret, Revealed An application takes 1-10% of your time to look good and 90% - 99% to be functional but the customer will only care about that 1-10%

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Probably the most eye-opening experience was a required computer engineering class that went over logic gates, flipflops, adders, all the way up to state machines and ALUs. It was fun learning how those things worked but at the end of the class we actually designed a CPU. It was shocking to see how it worked. A CPU instruction was really just a bit pattern used by multiplexers to specify the input registers, output registers, and operation of the ALU (obviously modern CPUs are much more complex).

It was then that I felt like I understood computers "all the way down" from the higher level stuff like Java, C++, lower level stuff like assembly and of course knowing how logic gates worked. But the CPU design which connected the highest level hardware devices - register, ALUs, etc, up to the lowest level programming -- assembler meant that I now had a 'complete path' all the way from transistors at the very lowest level too whatever you could imagine at the highest level: OO design, scripting languages, whatever.

Other then that, the theoretical stuff was enjoyable, but it was a gradual progression of "cool stuff" rather then any one 'ah hah' moment.

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It's the day you start thinking in code, rather than thinking about what code you going to be writing.

This seems to happen about 1 - 3 years after starting a language.

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0.

"Computer science is no more about computers than astronomy is about telescopes."

1.

Computer science and mathematics are closely linked. Math would help me with cutting edge Computer science.

2.

That I didn't need to know advanced mathematics to be a successful programmer (to have high income).

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When I realized that there is much more to computer programming than writing compilers and assemblers.

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Learning about programming language concepts, for instance static/dynamic linking, parsing, stacks, heaps and the inner works of how computer languages function internally.

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Application of Strategy pattern in some PHP code (then I started to look into design patterns).

This one opened mine eyes on the object oriented programming, which earlier I thought being just stupid parent-child relations.

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My first introduction to patterns. Finally I figured out how not to reinvent the wheel every week. I finally figured out what colour it should have been in the first place.

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IOC Containers. All of a sudden your application is beautiful - less coupled, easier to maintain and a lot easier to write in the first place! Ban Spaghetti!! Microsoft's Unity is easy to use, but NInject is superb. There are loads out there (StructureMap, Castle Windsor, AutoFAC etc) and it doesn't really matter which one you use - just use one.

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It was at my first real programming job when "scope" clicked. I had a basic understanding of it, but wasn't optimizing for it in high school. My job (right after high school) made sure that I knew what scope was.

I had a basic understanding of the concepts of all OOP. However, until scope clicked, I wasn't able to dive in and start running with development.

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Well, this was really early in my CS education, but at one point I'd written a number of short straight-line execution programs. Then I learned about arrays and loops, and it really was an amazing experience to see that light bulb switch on.

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I was writing a small C++ program for a data structures class in college (using a DOS version of Borland). I had gone through a few iterations, but by now I understood exactly what it was doing. It was so simple, there was NO WAY it couldn't work... except that it didn't!

Stepping through the debugger, I watched it jump to some "random" line of code "for no reason at all". At my wit's end after watching it do this 10 or 15 times, I rebooted the PC and ran the program again. It worked fine! Hmmm... Guess I should've paid more attention to all those lessons about pointers and needing to be careful about accidentally venturing past the end of your arrays!

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Learning that a computer can be built using nothing but NAND gates and a clock.

Then much later on actually simulating this process myself. http://www.hackszine.com/blog/archive/2008/03/from_nand_to_tetris_in_12_step.html

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Sitting with a user group of professionals all asking about solutions to their problems and realising that every single one was a problem to do with individual people and not technical issues. Every problem was a people problem.

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When I realized what functions were, a light bulb went off. "I don't have to do copy and paste anymore!"

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It goes dark when lightbulbs go off ;) –  mackenir Dec 18 '08 at 15:21

AND, NOT and OR. I was aware what they do but one day our teacher explained to us how you need to arrange them to add up two 4-bit values. 1 minute later I was understanding how you would go about arranging them to do whatever operation you want them to perform on operands of any size you'd like. 2 minutes later I was thinking "a 32-bit CPU must be about the most complicated thing in the world but I still understand how it works, yay".

Of course every processor I would have built back then would be missing state, but we learned that later :-)

Recursion, polymorphism, the power of LISP and some other things I can't think of right now where also pretty big eye openers.

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Concurrent programming/Multi-threading flow control. This is where we got an assignment where we would enter a # of kids and a # of toys and each kid would receive a random toy trying to complete the set by trading duplicates to get any that were missing. The key was to create Semaphores to prevent cheating like somebody getting 2 toys while giving away one. Very cool assignment that showed how complex the real world can be.

Second on the list would be the realisation that there are only about a dozen lines of code needed for a function to do its work. I remember that being said and seeing some examples where that is how some things are done, if it takes more lines of code then it can be refactored down to that size likely.

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Being astounded that the IBM 1620 could do millions of operations, each nearly instantaneously, and never make a mistake. Computers really were a brave new world.

For a mechanical engineer, where things slip, wear out, fatigue, rust, and eventually break, that was phenomenal.

Or that a chunk of program that would take millons of operations could be invoked by a single instruction. That is like a machine the size of a battleship hanging comfortably from the thinnest wire.

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Test-Driven-Development and Domain Driven Design.

Nilsson's book, Domain Driven Development, has opened my eyes to the benefits of testing and modeling.

It was an unnerving experience looking back at my untested code.

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I am 24 and still learning a lot of CS stuffs, but so far the biggest eye-opener has been my exercise to learn Common Lisp and reading the SICP book.

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