I work on a proprietary sequencer having a few bytes of free RAM; several hundred bytes statically allocated; 8 registers including PC; no indirection (in C, a "pointer"); no stack.
There is no
MOV instruction: to move
K, you must write
CLX A; ORX M; STX K which much complicates dependency resolution, or at least optimization. Many operations work only on specific registers: for example, a 32-bit right shift uses
K in the upper word and
M in the lower word.
So to me, the obvious choice of C for embedded applications are out because no pointers or function calls are possible. Most higher-level programming languages have arithmetic expressions, so this doesn't help to narrow down our choices.
Most important of all is absolute minimum code size, so optimization is key.
My inclination is to compile Lisp expressions as a form of macro assembler, because the programmer can optimize his own higher-level operations, for example, to write a
I'm sure this isn't the first project to ever have these sorts of restrictions; how has this been solved in the past?