> What I've seen is that if you define the architectural constraints, the agent writes complex, unmaintainable code...
To be fair, there are many people like this as well. One of my personal favorite examples was way back in the 80s when I inherited the code for a protocol converter that let ASCII terminals communicate with IBM mainframes via the 3270 protocol.
One of the pieces of code in there, for managing indicator lights, was simply wrong. It was ca. 150 lines of Z80 assembly language that was trying to faithfully follow the copious IBM documentation of how things worked, but it had subtle issues and didn't always work.
My approach was to accept the documentation as accurate (the IBM documentation was always verbose and almost never wrong), but to reason that the original 3270 had these functions implemented in TTL logic gates, and there was no way in heck that they were wasting enough gates on indicator lights to require the logical equivalent of 150 instructions.
So in my mind, it had to be a really simple circuit that had emergent properties that required the reams of documentation. With that mindset, I was able to craft correct code for this in 12 instructions.
Many systems are likewise fractal in nature. You want to figure out the generating equations, rather than all the rules that derive from those. And, in many cases, writing down the generating equations is at least as easy to do in code as it would be to do in English for someone or something else to implement.
To be fair, there are many people like this as well. One of my personal favorite examples was way back in the 80s when I inherited the code for a protocol converter that let ASCII terminals communicate with IBM mainframes via the 3270 protocol.
One of the pieces of code in there, for managing indicator lights, was simply wrong. It was ca. 150 lines of Z80 assembly language that was trying to faithfully follow the copious IBM documentation of how things worked, but it had subtle issues and didn't always work.
My approach was to accept the documentation as accurate (the IBM documentation was always verbose and almost never wrong), but to reason that the original 3270 had these functions implemented in TTL logic gates, and there was no way in heck that they were wasting enough gates on indicator lights to require the logical equivalent of 150 instructions.
So in my mind, it had to be a really simple circuit that had emergent properties that required the reams of documentation. With that mindset, I was able to craft correct code for this in 12 instructions.
Many systems are likewise fractal in nature. You want to figure out the generating equations, rather than all the rules that derive from those. And, in many cases, writing down the generating equations is at least as easy to do in code as it would be to do in English for someone or something else to implement.