This content originally appeared on HackerNoon and was authored by Sukhpinder Singh
Lessons in Development, Hard Work, and Critical Thinking
Life before AI, being a developer, was a different world — a harder world in the sense that everything you do requires tremendous focus and incredible persistence. Challenges were real, and so were the triumphs that followed. Honest to God, I sometimes miss parts of that time.
\ I was reminded of those early days vividly. There were no AI-powered tools back in those days that could swoop in and solve your problems for you. Every problem was a mountain which you had to climb alone. If you had bugs in your code, no AI could have run a simulation or suggested a fix. You had to work out by yourself.
\ Countless late nights staring at my screen, combing through lines of code trying to figure out where I did it wrong. Debugging was like detective work. Sometimes, finally, it would come out what I was hunting for, and the relief was almost overwhelming — like just unlocking this huge mystery that had been gnawing at me for hours maybe even days.
\ You’d learn so much in those moments. Not only about the code you’re writing but about the system itself — the inner workings of the technology. I only learned when I needed to know how to do something; it wasn’t because some tool just pointed me in the right direction, otherwise. It was slow and often frustrating, but this slow burn of learning made me a better developer.
\ Without the safety net of AI, I needed to know what I was doing at each step. I think one of the reasons why developers nowadays miss this depth of understanding is that they have these incredibly powerful tools right there at their fingertips.
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\ And, of course, I cannot forget the level of “manuals” of everything: everything required a tremendous amount of effort, including writing test cases, for example. Nowadays, AI can write tests for you or suggest improvements, and everything is ready for you; back then, it was all up to me. I had to think of all the ways that my code might break and code for each one.
\ And these weren’t glamorous pieces of work, but they were pretty darn important. Every test that I wrote taught me something about how fragile my code could be, and how I could make my code robust.
\ The same applied to optimizing code. I had no fancy AI tools to analyze my work and suggest ways of efficiency. Instead, I had to spend hours iterating over different versions of a function, trying to shave off milliseconds from execution times or reduce memory consumption. It was boring, but it sharpened my understanding of how systems work under the hood. It also meant knowing about memory management, algorithm efficiency, and how the hardware was going to interpret my code. There’s no autopilot to do it for you.
\ It was different too, as far as collaboration with my team was concerned. We had no AI to turn to quickly for debugging or optimization, so we relied on each other nearly for everything. We brainstormed, troubleshoot, and sometimes argued over the best ways to solve a problem. It was never easy, but there was a camaraderie in just knowing we were all in the same boat, all struggling with the same challenges. The beauty of it was that we were learning together every step of the way.
\ It was tough getting through acquiring new skills back then. There were no shortcuts. So if you wanted to learn a new programming language or technology, you had to dive in deep. There wasn’t an AI assistant to fill in the gaps or give real-time feedback. If you didn’t know how something worked, you figured it out by yourself or through your mentors and peers.
\ That’s how I learned C# — through trial and error and countless mistakes. I shall never forget the headache of trying to get a hold of things like multithreading, exception handling, or memory leaks. There wasn’t a silver bullet-just long hours of frustration followed by satisfaction when things worked.
\ Another was the errors. Every time I hit a bug, it felt like hitting a wall. But with each of those walls lay an opportunity. To debug did not mean that you solved the problem; it was instead, learning why the problem existed in the first place. It is what those experiences shaped me: how to approach problems methodically and patiently.
\ In that world before AI, what mattered above all else were your skills. Knowing how to write code was certainly not sufficient; it required creativity when solving problems and critical thinking. I still remember starting from scratch so many times because I realized my original thought was inefficient or wrong in general. But that was what made me improve.
\ And each time I re-wrote a function or refactored a class, I was improving too, I was getting to know how to make performance and readability decisions, and how to trade-off between speed and stability.
\ Even crafting something as simple as a SQL query was a chore in precision. There was no such thing as AI-crafted databases that could optimize queries on the fly. I spent hours futzing with them, trying to make sure that they ran as well as possible, especially when I was dealing with larger datasets. All these performance tweaks had been hard-won through trial and painful error.
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Then quietly began AI’s influence in the world of development. At first, it was just little things auto-complete in my IDE getting smarter, code editors catching errors before I even ran the program. I did not realize it at that time, but changes like these were game-changers. Things that took me hours to get done could be completed in a few minutes. Debugging, optimizing-even generating some boilerplate code became easier. It is like having an assistant who could see farther than my tiny horizon, an assistant who could point out all the problems that I had never considered at all.
\ But as easy as it was, so was it strange. I was no longer asked to dig deep into the problems anymore. The AI was already there before I could understand the issue- presenting the solutions for me. It made me much more efficient, yes, but part of me misses the depth of understanding that came with doing things the hard way. There is satisfaction in cracking on your own a tough problem that AI, for all its brilliance, can’t reenact.
\ Learning has changed these days and in this AI-driven era. The hard work isn’t gone; it’s just different. Today, developers do not bother memorizing syntax or spending hours debugging. It is all about how to work with AI. How to use these tools to be more efficient at building faster, more scalable solutions. However, it is still the same problem-solving essence. It can be described as AI suggesting a potential fix, but then, the decision still lies on the side of the developer whether it is right and whether it fits into the overall context of the project.
\ This new chapter has been exciting and challenging for me. The transition to technological leadership allowed me to free up more energy to focus on bigger problems, building complex systems. I will always look back at the days before AI with a certain sort of nostalgia. It was long nights and tough-won victories that made me the developer that I am today. And for that, I appreciate this efficiency brought on by AI, but I will never forget the lessons I learned when it was just me, my code, and that quiet determination to figure things out.
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This content originally appeared on HackerNoon and was authored by Sukhpinder Singh
Sukhpinder Singh | Sciencx (2024-09-18T23:25:18+00:00) The World Before AI. Retrieved from https://www.scien.cx/2024/09/18/the-world-before-ai/
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