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In this age of many languages there seems to be a great language for just about every task and I find myself professionally struggling against a mantra of 'nothing but C is fast' where fast is really intended to mean 'fast enough'. I work with very rational open minded people who like comparing numbers and all I have is thoughts and opinion. Could you help me find my way past subjective opinions and into the "real world"?

Would you help me find research as to what if any other languages could be used for embedded and (Linux) systems programming? I very well could be pushing a false hypothesis and would greatly appreciate research to show me this. Could you please link or include good numbers so as to help keep the "that's just his/her opinion" comments to a minimum :)

EDIT:

  • memory is not a serious constraint
  • portability is not a serious concern
  • this is not a real time system
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This question is flawed. You are looking to defend your opinion, not find out what the reality is. It would be better to state, please help me find real research indicating what the truth is, not help me defend my opinion. –  Christopher Aug 3 '09 at 17:59
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thanks Christopher, I have edited to make it less one sided. thanks for the comment. –  Arthur Ulfeldt Aug 3 '09 at 18:02
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It's going to be hard to find numbers that prove something that is actually false. –  Otávio Décio Aug 3 '09 at 18:02
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That is too hard, Christopher. The point is valid, even if it is to defend his own position, you can't defend it with lies, so... you have to tell the truth, ergo: you end up with the same info. –  Dervin Thunk Aug 3 '09 at 18:05
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would be cautious about the premature optimization argument. If processing power is limited, and a certain amount of work needs to get done in real-time or near real-time, and you choose a language that requires more processing power for the work than you have, you are royally screwed, because you now have to start over with a capable language. More info at weblogs.mozillazine.org/roc/archives/2005/11/… –  Robert Harvey Aug 3 '09 at 18:24

19 Answers 19

up vote 20 down vote accepted

"Nothing but C is fast [enough]" is an early optimisation and wrong for all the reasons that early optimisations are wrong. If your system has enough complexity that something other than C is desirable, then there will be parts of the system that must be "fast enough" and parts with lighter constraints. If writing your code in Python (for example) will get the project finished faster, with fewer bugs, then you can follow up with some C or assembly code to speed up the time-critical parts.

Even if it turns out that the entire code must be written in C or assembly to meet the performance requirements, prototyping in a language like Python can have real benefits. You can take your working Python prototype and gradually replace parts with C code until you reach the necessary performance.

So, use the tools that let you get the development work done most correctly and most quickly, then use real data to determine where you need to optimize. It could be that C is the most appropriate tool to start with sometimes, but certainly not always, even in embedded systems.

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+1 for a good opening line! –  Arthur Ulfeldt Aug 3 '09 at 23:26
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If all the code were written in C, by great C programmers, the world would be a better place. –  Andrei Ciobanu Jan 19 '10 at 13:18
    
Better still, prototype with English(text), flowcharts, data structure diagrams, etc, and then write the app once. Prototyping in any language knowing it will fail to meet your requirements is a really bad idea. Personally, I find C/C++ flow together very nicely and draw on the same skill set, while Java, Python etc. create a lot of learning interference because they are just different enough that C will punish you when you come back to it. "Football players who practice running thru tires get good at running thru tires". –  RocketRoy Jan 14 at 6:38
    
@AndreiCiobanu: I see no logic in that. No matter how great a C programmer is, s/he cannot compensate C deficiencies. In order to make C code modular and testable, one needs to do a lot of plumbing which comes for free in many other languages. Switching to C++ will give you a really powerful and expressive language at a negligible (if any) performance cost. –  Lousy Coder Feb 10 at 23:04

In my experience, using C for embedded and systems programming isn't necessarily a performance issue - it's often a portability issue. C tends to be the most portable, well supported language on just about every platform, especially on embedded systems platforms.

If you wish to use something else in an embedded system, it's often a matter of figuring out what options are available, then determining whether the performance, memory consumption, library support, etc, are "good enough" for your situation.

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Indeed. Embedded software tends to be written in C because that's how it's been done for years, and so embedded software engineers are more likely to be proficient in C than any other language. Accordingly, compiler producers are going to go for the language(s) which sell the best, namely C and possibly C++. –  Steve Melnikoff Aug 3 '09 at 18:12
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Of course, Python is written in C, as are many interpreted tools. With a little work you can use Python on many platforms. –  Christopher Aug 3 '09 at 18:19
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Yeah - Python can be. I've even used Lua (since it's pretty tiny in terms of overhead). It's the memory overhead and library support that can be an issue with things like pythong. –  Reed Copsey Aug 3 '09 at 18:20
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Yep - I agree with this entirely. At my former employer, there was of course a cultural ethos that was biased against anything other than C (and assembler), but the bottom line is that there are exceedingly few professional-grade toolsets for embedded systems that support anything but C. You might find toolset support for C++, and in the extremely rare case, Java. There are some vertically-stacked niche platforms for other languages (e.g., Erlang), but those are all but impossible to sell to management, particularly for existing systems. –  Ben Collins Aug 3 '09 at 18:23
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True dat -- if performance were your primary concern, then why stop at C? Write a first pass in C (compilers are pretty good, so that's a good starting point), and then go over the assembly by hand. Many systems have efficiency tricks you can do which aren't generally supported by the compiler. –  Ken Aug 3 '09 at 18:26

Using C for embedded systems has got some very good reasons, of which "performance" is only one of the minor. Embedded is very close to the hardware, you need manual memory adressing to communicate with hardware. All the APIs and SDKs are available for C mostly.

There are only a few platforms that can run a VM for Java or Mono which is partially due to the performance implications but also due to expensive implementation costs.

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Apart from performance, there is another consideration: you'll most likely be dealing with low level APIs that were designed to be used in C or C++. If you cannot use some SDK, you'll only get yourself in trouble instead of saving time with developing using a higher level language. At the very least, you'll end up redoing a bunch of function declarations and constant definitions :P

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For C:

  • C is often the only language that is supported by compilers for a processors.
  • Most of the libraries and example code is probability also in C.
  • Most embedded developers have years of C experience but very little experience in anything else.
  • Allows direct hardware interfacing and manual memory management.
  • Easy integration with assembly language.

C is going to be around for many years to come. In embedded development its a monopoly that smothers any attempt at change. A language that need a VM like Java or Lua is never going to go mainstream in the embedded environment. A compiled language might stand a chance if it provide compelling new features over C.

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There are several benchmarks on the web between different languages. Most of them you will find a C or C++ implementation at the top as they give you more control to really optimize things.

The Computer Language Benchmarks Game

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+1 for the good link –  Gabe Aug 3 '09 at 21:26
    
-1 for linking to measurements that haven't been updated for at least a year rather than a good link to the home page or the updated measurements. –  igouy Aug 11 '09 at 16:22
    
Thanks, fixed the link. –  Peter Olsson Aug 11 '09 at 21:47

http://theunixgeek.blogspot.com/2008/09/c-vs-python-speed.html

http://wiki.python.org/moin/PythonSpeed/PerformanceTips (especially see Python is not C section)

http://scienceblogs.com/goodmath/2006/11/the_c_is_efficient_language_fa.php

I love Python. However, there are situations where you need real-time performance, especially in embedded systems. You also have severe memory constraints. A language like C gives you greater control over execution time and execution space.

So depending on what you are doing, C may very well be "better."

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thanks for the numbers, thats what this question is really looking for –  Arthur Ulfeldt Aug 3 '09 at 18:17
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www.pythononachip.org is a project that runs the PyMite VM on microcontrollers with no OS, no MMU and as little as 8 KB of RAM. –  dwhall Aug 3 '09 at 22:15

It's hard to argue against C (or other procedure languages like Pascal, Modula-2, Ada) and assembly for embedded. There is a large history of success with those languages. Generally, you want to remove the risk of the unknown. Trying to use anything other than C or assembly, in my opinion, is an unknown. Having said that, there's nothing wrong with a mixed model where you use one of the Schemes that go to C, or Python or Lua or JavaScript as a scripting language.

What you want is the ability to quickly and easily go to C when you have to.

If you convince the team to go with something that is unproven to them, the project is your cookie. If it crumbles, it'll likely be seen as your fault.

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This recent, interesting article by Michael Barr talks about the use of C, C++, assembler and other languages in embedded systems, and includes a graph showing the relative usage of each.

EDIT: And here's another article, fittingly entitled, "Poor reasons for rejecting C++".

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+1 Very nice article. –  Andrei Ciobanu Mar 16 '10 at 10:54

Embedded systems = ADA;

ADA is a Fast secure language that has data checking built in everywhere. It is what the auto pilots in airplanes are programmed in.

EDIT:
ADA vs. C

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I have used ADA in the past and would love to use it now, but I cannot find a version that will produce code to run in my 2K ROM/256 byte RAM environment. –  Ian Aug 4 '09 at 7:51
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Embedded systems is a broad range of applications. ADA is indeed a very strong and secure language which is used a lot in aviation absolutely has its strong points. But I haven't seen it in embedded systems consumer electronics, telecommunications and automotive infotainment yet. So I find your statement rather bold. –  Adriaan Aug 4 '09 at 13:06
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@Adriaan I have seen ADA on several consumer embedded linux systems, maybe just because of the distribution they chose? –  Jiaaro Aug 4 '09 at 18:25
    
@Adriaan, you misunderstood what I was trying to say. ADA is the high level language that was designed for embedded systems and mission critical systems. It should be the high level language of choice on embedded systems. Yes, my statement was Bold and I stick by it. –  WolfmanDragon Aug 4 '09 at 19:42
    
"ADA" isn't an acronym, but a name. Should be "Ada". (But I won't edit the answer, since this is a common mistake for which this comment might help.) –  DarenW Feb 10 '10 at 14:22

I'm not really a systems/embedded programmer, but it seems to me that embedded programs generally need deterministic performance - that immediately rules out many garbage collected languages, because they are not deterministic in general. However, there has been work on deterministic garbage collection (for example, Metronome for Java: http://www.ibm.com/developerworks/java/library/j-rtj4/index.html)

The issue is one of constraints - do the languages/runtimes meet the deterministic, memory usage, etc requirements.

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Removing the GC doesn't fix the problem, malloc/free are non-deterministic. The D programming language allows you to disable the GC so it doesn't run during critical code. –  he_the_great Aug 3 '09 at 21:36
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Software for the lower end of embedded processors tends not to use malloc/free, but it is likely to use interrupts triggered by external events, which is unpredictable, and hence non-deterministic - regardless of the language used. –  Steve Melnikoff Aug 4 '09 at 15:41
    
typically, malloc/free are disallowed in deterministic systems(or they are rewritten). @Steve: you can create deterministic interrupt handling, giving you bounds on time. –  Paul Nathan Aug 4 '09 at 18:30

C really is your best choice. There is a difference for writing portable C code and getting too deep into the ghee whiz features of a specific compiler or corner cases of the language (all of which should be avoided). But portability across compilers and compiler versions. The number of employees that will be capable of developing for or maintaining the code. The compilers are going to have an easier time with it and produce better, cleaner, and more reliable code. C is not going anywhere, with all the new languages being designed to fix the flaws in all the prior languages, C with all the flaws these new languages are trying to fix still stands strong.

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C is ubiquitous, available for almost any architecture, usually from day-one of a processors availability. C++ is a close second. If your system can support C++ and you have the necessary expertise, use it in preference to C - it is all that C is, and more, so there are few reasons for not using it.

C++ is a larger language, and there are constructs and techniques supported that may consume resources or behave in unacceptable ways in an embedded system, but that is not a reason not to use the language, but rather how to use it appropriately.

Java, and C# on Micro.Net or WinCE may be viable alternatives for non-real-time.

Clifford

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Well, depending on the embedded platform, if memory constraints are an issue, you'll most likely need to use a non-garbage collected programming language.

C in this respect is likely the most well-known by the team and the most widely supported with available libraries and tools.

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Here are a couple articles that compare C# to C++ :

http://systematicgaming.wordpress.com/2009/01/03/performance-c-vs-c/

http://journal.stuffwithstuff.com/2009/01/03/debunking-c-vs-c-performance/

Not exactly what you asked for as it doesn't have a focus on embedded C programming. But it's interesting nonetheless. The first one demonstrates the performance of C++ and the benefits of using "unsafe" code for processor intensive tasks. The second one somewhat debunks the first one and shows that if you write the C# code a little differently then the performance is almost the same.

So I will say that C or C++ can be the clear winner in terms of performance in many cases. But often times the margin is slim. Whether to use C or not is another topic altogether. In my opinion it really should depend on the task at hand. But in embedded systems you often don't have much of a choice.

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or you could say "shows that if you write the C# code a little differently then the performance is still slower". Not as slow as before, but nevertheless slower. Now, on my 3xcore, 4GB desktop PC that may not mean I'll ever notice a difference... but on a 10Mhz embedded CPU with 64Mb RAM the difference is likely to be tremendously significant. –  gbjbaanb Aug 4 '09 at 18:32
    
Actually if you read that 2nd article he wasn't able to determine which was faster for this particular task (they were that close). But I agree -- C# has a lot more overhead and will not be nearly as impressive in low-powered embedded systems. –  Steve Wortham Aug 4 '09 at 19:02

You may want to look at The D Programming Language. It could use some performance tuning, as there are some areas python can outperform it. I can't really point you to benchmarking comparisons since haven't been keeping a list, but as pointed to by Peter Olsson, Benchmarks & Language Implementations has D Digital Mars.

You will probably also want to look at these lovely questions:

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A couple people have mentioned Lua. People I know who have worked with embedded systems have said Lua is useful, but it's not really its own language per se but more of a library that can be embedded in C. It is targetted towards use in embedded systems and generally you'll want to call Lua code from C. But pure C makes for simpler (though not necessarily easier) maintenance, since everyone knows it.

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It's Lua, not LUA. You'll find that the community is quite sensitive to the correct capitalization. –  Stephen Eilert Nov 3 '10 at 16:29

Well, the truth is - not always. It seems .NET runtime (for instance. Any other runtime can be taken as an example) imposes several MBs of runtime overhead. (in RAM) If this is all you have then you are out of luck. JavaME seems to be more compact, but still it all depends on resources you have at your disposal.

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dotNet Compact framework is the mobile equivalent of JavaME. –  Dykam Aug 3 '09 at 18:05

A lot of C code runs blazingly fast because the people that wrote it were Zen Masters of software. They got to be masters by biting the bullet and learning not just what the user wants, but what the compiler wants, what the O/S wants, what the hardware wants, knowing data structures and algorithms like the back of their hands, knowing how to squeeze the utmost out of on-chip caches, and what the next generation of CPUs & GPUs is going to do to their code.

It's not very hard to write software that works, and works correctly. It is very hard to write software that runs 10x-5,000X (yes, that's 5 thousand times as fast) that's still easy to read and understand, can be extended at a reasonable cost, and will continue to perform at exceptional levels for generations of CPUs to come.

C, more than any other language, forces a software engineer to consider the thousands and thousands of little things necessary to make really great code. If you aren't up for that, then pick another language and give C programmers the respect they deserve.

After 20+ years writing C code I recently wrote an app that exceeds the requirements requested by 10,000X. I happened to be reviewing it today, all 500 lines of code. For every line of code on the page, I wrote and deleted at least 10 more, benchmarked them, vetted them, and ultimately discarded them. What was the point in delivering performance so far beyond what was spec-ed? Because at some point anything less would fail.

Users often don't understand their requirements, especially performance requirements. That accounts for why so much code gets tossed in the trash. If a biz is successful, ultimately, they're going to need that performance to get an edge on the competition, and just keep up with demand.

The sad truth is "Nothing fails like success". I'd rather have performance I don't need, than need performance I don't have. If you get anywhere near the 2nd condition, your company's going out of biz, and probably a lot sooner than you think. I don't like writing "fail whales" whose very success is what destroys them. C gets out of my way and lets me innovate in a way no other language does.

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That's a classic premature optimization story. You got your specs, then totally disregarded them and spent hours and hours doing micro-optimizations. You didn't bother to profile and optimized hot paths only, (which would be responsible). And finally your "success story" doesn't have anything to with C code, it's algorithmic optimization. –  Lousy Coder Feb 10 at 23:00
    
A classic case of premature comment. You know nothing about my app or its requirements, but you feel entitled to indulge that chip on your shoulder. –  RocketRoy Feb 11 at 4:24
    
The performance "specs" are implied by the current biz size, not the anticipated size. There were no hot spots, and seldom are when working that close to the bare metal. Only about 30% was due to algorithmic optimization. I just love how you software theologians live in the fantasy world where algorithms run on perfect hardware with homogeneous access to limitless resources. In the real world data structures and algorithms run on very chunky resources like L1,L2,L3 caches, pipelines, mutex thread locks, NUMA memory and wildly different graphics engines. Try harder Skippy. –  RocketRoy Feb 12 at 9:23

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