It is common mantra nowadays: "C/C++ compilers generate better code than hand written assembly." or "Compilers generate code that is as good and often better than could be written by hand."

But how we know this is true? Are there some valuable studies about HLL compiler code quality? I would like to read some works on this subject and not only for C/C++ but for other languages as well.


EDIT: I am asking not for discussion on this subject, nor for personal opinions or thoughts. I am asking about references to studies about the subjects. Such studies definitely must contains some experimental or theoretical work on the subject that can be verified.

Please, if you don't have such information, simply don't answer this question. I already know all your thoughts on this subject.

  • A few people on Earth beat Deep Blue, a few people on Earth could write better code than mainstream compilers. Are you one of them? That's the question... – Benoit Jan 31 '13 at 13:05
  • This is just a statement. Some proofs? That is what my question was. – johnfound Jan 31 '13 at 14:20
  • I am not a student (graduated more than 20 year ago). I am writing big assembly projects and I am confident, assembly written programs are always superior. But I am trying to understand why this happens. It is strange, if the above statements about the C/C++ compiler code is true. – johnfound Jan 31 '13 at 15:00
  • @dwelch So, your opinion (if I can extract it properly from your long posts) is that the above statements (about HLL compiler code quality) are generally false, so there can not be reliable proofs about them. Right? – johnfound Jan 31 '13 at 18:55

Today's C/C++ compilers are much better than they were 15 or more years ago as they can now consume more memory and CPU cycles (simply because we now have more of them available) while optimizing code increasingly more aggressively.

In contrast, programmers have hardly grown a second brain in their skull in the past 15 years and their optimization abilities likely remain at about the same level now as they were 15 or even 25 years ago.

At the same time CPUs have become more complex and catering to their various caches, prediction mechanisms, bigger register sets, speculative and parallel execution, longer pipelines, resource contention, etc etc has become harder as well. Taking care of all that is mentally taxing and scales poorly while our software and problems we're solving with it never stop growing in size, number and complexity. And then the new versions of the CPUs often times necessitate not only learning new tricks but also unlearning old ones.

Also you're not very productive writing assembly code, especially when you need to write a lot of it. And it's harder to maintain and change assembly code. For economical reasons you may not always have the option of spending lots of money and man-hours to produce high quality optimized assembly code when the compiler can do a reasonably good job quickly, freeing time for testing and speeding up turnaround.

If you take into account just this, if you have been in the industry long enough, then you don't need special studies to see that on the large scale optimizing compilers outperform crafting optimized assembly code.

And then one should remember that assembly can only give you a roughly linear increase in performance, maybe 3-5x of what the compiler can do in tough cases, whereas choosing a more scalable algorithm can give you a much better boost. So, it may be much prudent to invest into scalable algorithms and parallel/distributed systems for those than into finding or training assembler programmers and paying them lots of money for the rare skill.

Speaking of the rare skill... As people increasingly move to less primitive (or should I say less low-level?) languages than C, C++ and assembly, you become less likely to find programmers who can shine in these low-level languages and beat compilers. They still remain and there will always be some, but you shouldn't count on them on a large scale, which leaves you pretty much only with programmers who cannot beat the compiler.

You may count this as a study. :)

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    I can't accept this as a study, because of obvious reasons - there are no facts and proofs, or at least some references. Only general talks. – johnfound Jan 31 '13 at 14:52
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    Hi John! If the compiler generates better code, we simply steal the compiler's code. If we can beat it, we do. The best the compiler can do is break even! – Frank Kotler Jan 31 '13 at 15:32
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    Even that humans don't evolve physiologically as fast as evolve software and hardware isn't a fact? Interesting. – Alexey Frunze Feb 1 '13 at 0:38
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    I didn't mention global program optimization and now you're reminding me of it. Compilers can do it, but human abilities to do it degrade very quickly with the size of the program. That supports the view that compilers are better. – Alexey Frunze Feb 1 '13 at 0:47
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    No problem with discipline here. :) At the moment I'm trying to understand what such a study would give one. To me it looks like an obvious thing and that very few people would want such a study and even fewer would fund such a study because of the obviousness. Now, if I'm missing something and if the industry is missing something by writing C or C++ code instead of assembly code, what is that something? What is that non-obvious to me (or you) that you're trying to find or confirm or prove or disprove? Other than asking for references to the studies, what is the point of your question? – Alexey Frunze Feb 1 '13 at 8:18

The mantra you are questioning has actually been introduced by Backus et al themselves in the very description of Fortran.

[The programmer] estimated that it might have taken three days to code this job by hand, plus an unknown time to debug it, and that no appreciable increase in speed of execution would have been achieved thereby.

From the modern point of view, the problem with your question is not in evaluating a code produced by a compiler, but a code produced by a human. You just can rarely present a completely hand-written assembly code for a sufficiently large program.

Nevertheless, in the situation where human beings only need to write a limited amount of code, such a comparison is possible. Consider for example:

where only some pieces of code were generated by human and by compiler. Or

where the code is generated for a DSP. And where hand-written code is good at sizes of tens or hundreds lines of C code, and a program of 800 lines of C code is considered large.

Besides, there is a known issue of Sufficiently Smart Compiler. Where, while in theory all the needed algorithms are well known, in practive, due to multiple reasons, compilers or compiler developers fail to apply them. A typical example of this problem is analyzed here:

One well known example where compilers do an exceptionally bad job is in the heart of an interpreter loop.

At some point the discussion has moved to the next stage: weather an automatically generated code generator produces as good code as a hand-written code generator.


After some research I found two articles, describing experiments with different compilers and hand written code.

Formally speaking they are not exactly "studies", but can be considered at least as "experiments" and contain some experimental data:

компиляторы и SSE, или веселые микробенчмарки - Russian language.

One discussion on FASM forum - English language.

Assembler vs C Article of Kryss Kaspersky about experiments with different compilers. - Russian language.

  • You can also take a dive here and follow some links around and off the website. Paul's been interested in optimization for quite a while and put up some findings on his website. – Alexey Frunze Feb 5 '13 at 14:19
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    If you consider a blog post about a 5 line C function and its assembler equivalent to be supporting evidence, there is little we can do to challenge your dogmatic presumption. – msw Sep 18 '13 at 12:55

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