I would assume there were a much larger percentage of programmers that both knew assembler and wouldnt think twice about programming in assembler. And even into the IBM-PC and AT days folks that never really programmed anything but assembler were still around and could easily program circles around the C and Pascal programmers.
Pascal, and C were wonderful (for desktop computers) once they got a foothold and you could afford a compiler, you were happy to just be programming in some new language and had never heard of an optimizer, you just assumed the high level language turned into the machine code the same way with every compiler. You still easily fit your programs on a 5.25" floppy. And had plenty of that 640K to spare.
I think we need to bring back or have more 4K programming contests. Write a game for the GBA or NDS but the binary, data, code, everything, cannot be larger than 4K. Or perhaps re-invent the gameplay of asteroids, rocks, ship, bad guys, missles, dont worry about the video pixels because, first it wasnt, and second that was handled by a second processor (well hardware state machine), just generate the vector drawing commands. There are free 6502 C compilers out there now, and p-code based pascal compilers that it would be easy to run the output on the 6502, and see if you can get the frame rate up to real time at 1.5mhz or whatever it was running. And fit in the prom. I think the exercise will answer your question. OR...just make a runtime p-code interpreter and see if that fits. (standardpascal.org, look for the p5 compiler).
A handful of Kbytes is like a thousand lines of code or less. There just wasnt that much to the program, and assembler isnt difficult at all, certainly not on a 6502 or other similar systems. You didnt have caches and mmus and virtualization and multi core, at least not the headaches we have today. You had the freedom to chose whatever resister you wanted, each subroutine could use its own custom calling convention, you didnt throw away huge quantities of instructions juggling registers or stack or memory just so you could call functions in a standard way. You had but one interrupt and used it to time poll/manage the hardware (video updates, evenly timed polling of buttons and other user input, polling the quarter slot detector even while the game is being played).
Asteroids looks to be roughly 3000 lines of assembler. With the efficiency of the compilers now or then I would say you would need to write the whole game in about 500 lines of C code to beat that, pascal using p-code I will give you 100 lines of code, okay 200 (not p-code but optimized for the target I will give you more lines than C).
The Atari VCS (a.k.a 2600) didnt even have memory for a framebuffer for the video. The program had to generate the pixels just in time as well as perform all the game tasks. Sure, not a lot of pixels, but think about the programming task and the limited size and speed of the rom. For something like that you start getting into how many instructions per pixel, and we are talking a small number. High level compiled code is going to run in fits and spurts and not going to be smooth enough to guarantee the timing.
If you have the chance you should disassemble some of those old game roms, very educational, the instruction sequences were often very elegant. Optimized compiled high level code has cool tricks but it just isnt the same.
Supposedly better languages and compilers dont automatically make you better, faster, more efficient or reliable. Just like a fancy car doesnt make someone a better driver.