This is a followup to a "non-real" question I asked yesterday. Dynamic IL code seems very slow (possibly because there is a lot of it) Here is a less interesting but more real version. A factual answer would help me decide if it's worth spending more effort on reducing the compilation time, many thanks.
Is it ever sensible to use the .net JIT compiler to execute a largely straight-line segment of 10 000 000 simple IL instructions? The instructions are mostly memory accesses, the usual arithmetic/logic/operations, and short branches. There is no memory allocation, runtime typing, or anything else that would at first sight appear difficult to compile.
[ The comments on the previous questions suggested I should provide the code. It's not easily possible since the code is very long and I have not yet figured out how to save it to disc, though the pattern really is very simple. It's just a lot of fragments in sequence. Each fragment pushes a reference to a member (of the one object the whole code is in). This member is an array, and it is accessed at a constant index. This may be repeated a few times. Then there is a simple bit of computation. A result is then written back to the array. The sequence of instructions for the last step is similar to that for the first, and is something like Ldarg_0, Ldfld, Ldc_I4, Conv_I, ..., Stelem. This should hopefully not be in any way controversial - but it's about the most complex thing the code does ]