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I am developing an application for embedded Linux (ARM). It will execute 500 times/sec, therefore speed is important. I would prefer to use C++ but I am afraid it will be slower than C even if I avoid fancy features like virtual functions. Is there a reason to use C or it's just as fine to write in C++?

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Virtual function is not one of the things you should be avoiding. To implement the same functionality in C manually will not be faster than the compiler generated version, and the C++ compiler is good at optimizing it away when not needed. – Loki Astari Feb 28 '11 at 20:00
@Martin's right. Virtual functions only cost one or two instructions to call, and if that's really what you need you'd have to do it anyway in C. – Mike Dunlavey Feb 28 '11 at 20:44
Some interesting related reading here:… – Emile Cormier Feb 28 '11 at 20:54
Try both C and C++, then measure the resulting binaries on the embedded device. If you don't want to write 2 versions of the application, just use the language you're more comfortable with (C++). – pmg Feb 28 '11 at 21:19

C++ in general suffers no run time penalty over C - (except for a few things like RTTI).

Except in a few odd circumstances the compiler should be able to determine which virtual function to call at compile time and so add no overhead.

Edit: Ok with such a variety of compilers, CPUs, runtime libs, OSes there are some features of C++ that might create slower code, there are some features that might create faster code.

But can we all agree that C++ isn't automatically excluded from embedded use anymore ?

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If you use C++ as "uglified C" (extra casts all over the place), then what you've said is true. But as soon as you start using anything that makes C++ "comfortable", there will be a lot more overhead that cannot be optimized out. – R.. Feb 28 '11 at 21:34
Virtual functions and templates should have zero cost. Exception are zero cost if not called on any decent compiler. Dynamic_cast will normally work without RTTI - with a few warnings. Code size might be an issue - but it depends what you mean by embedded of course – Martin Beckett Feb 28 '11 at 22:00
Exceptions have negative cost when you can remove the C error handling from the normal code flow. Optimizers can easily optimize for the non-exception case, but the don't know whether a C functions returns 0,1 or -1 in case of an error. – MSalters Mar 1 '11 at 8:43
I use C++11 and meta programming on an embedded ARM with 32K of flash! I have found that if you use a modern compiler (I use GCC 4.6) you can port C code to C++ and sometimes see size diminish. constexpr is an important tool. – PorkyBrain Jun 28 '13 at 18:18
STL containers (implemented with templates) are in fact a huge win if you have any significant data structures in your code. The implementations are just as good as its possible to get - and likely better than ones you'd write yourself. You can also pool allocate if necessary. – marko Jun 28 '13 at 18:18

In C++ you have things like template metaprogramming that resolve in compile time several situations where C or any other procedural programming language would have to do in runtime.

I should say more. Template metaprogramming and some class inheritance tricks are really amazing. It can save you a lot of processing time that you'd spend otherwise by "ifing" and "switching".

This means that C++ can be actually faster than C if well conducted.

Obviously you can program "in C" using C++ and you'd have no penalty at all. If you're not too fond of C++ I'd advise you to do a "C on C++" or "C with C++ extensions" just to take vantage of C++ improvements, but the real advantage you'll have is by programming the C++ way. There you will see that C++ is, good part of times, or faster or cleaner than C or, at least as fast as.

Have no fear. Face C++. After the stdc++ (against libc) there will be almost no overhead in code size. If your application is from median to high in size, it will be diluted.

I use C++ from simple 8-bit ATmega to Marvell's ARM9, passing through AVR32 UC3 and Cortex-M3 and always find it profitable.

If you need specific advise in a given situation, feel free to ask.

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That's the answer I was hoping for. C++ is much more fun to write even for simple things like being able to declare a var when you need it (as opposed to in the beginning of the block in C). And of cause I prefer class encapsulation vs C global functions. I hope to avoid dynamic memory allocation or anything exotic. – Gregory Khrapunovich Mar 3 '11 at 22:28
the advantages of C++ in the embedded world are far reaching. I have found __attribute((always_inline)) to be a godsend when making abstract interfaces compile into nothingness and only leaving stronger static checking of important stuff. – PorkyBrain Jun 28 '13 at 18:12

The main reason for choosing C over C++ is size of the compiled binary, which can be a real restriction for embedded systems.

On performance, there's no measurable difference, if you use the language right. You can write slow C code just as easily as slow C++, as long as you're aware of the under-the-hood mechanisms of what you're writing you should be fine with either.

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The size difference is negligible, provided that the C version is functionally equivalent to the C++ version. For example, if the C++ version uses inheritance, the C version must also code the equivalent, no short cuts. In my experience, size is not an issue. – Thomas Matthews Feb 28 '11 at 20:02
@Thomas: this is simply not true, because a lot of the library code that gets pulled in will have a huge superset of the required functionality, and no way for the linker to determine what parts can be left out. Static link a C hello world program with any sane C library (any of the BSDs, uClibc, Bionic, etc. - just not glibc whose stdio is essentially written in C++) and compare an equivalent static linked C++ program using iostream. – R.. Feb 28 '11 at 21:37
@R.. : if you select an appropriate implementation of libc, you should be fair and select an equally appropriate iostream. Dietmar Kuehl has proven (about 10 years ago) that Hello, World can be smaller in C++. Simple reason: the linker can eliminate operator<<ostream&, float) but not case 'f': from the printf() implementation. – MSalters Mar 1 '11 at 8:46
library size (theoretically speaking) may be an issue in some environments, but the original question mentions embedded Linux, so it is at least 32bit system and the operating system itself is large enough. So I'm doubdt that size matters in this case :) – user396672 Mar 1 '11 at 9:48
@R.. : I'll point again to Dietmar. Done a decade ago. – MSalters Mar 4 '11 at 8:28

As long as you limit the features you use, you won't have much, if any, performance hit in C++ over C. The features you'll want to avoid include: exceptions, RTTI, and keep your class hierarchy as flat as possible (and use virtual functions sparingly).

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No matter the implementation, designs such as exceptions, inheritance and RTTI, cost more code space. When in doubt profile. Correctness and robustness above all else. – Thomas Matthews Feb 28 '11 at 20:05
As long as you only use the features you need. :-) – Bo Persson Feb 28 '11 at 20:16
Thank you for this list. I wasn't planning on using those features, but it's good to know what to avoid. – Gregory Khrapunovich Mar 3 '11 at 22:30

C++ is fine as long as you have enough RAM and flash in your embedded system. The C++ runtime library (libstdc++) is big, and comes in addition to the C standard library (libc) even if you use C++ only.

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In an embedded system, one only includes the libraries that are needed. Libraries used for a desktop version are usually a lot bigger and have no size correlation. Bogus about size issues. See my other post on SO. – Thomas Matthews Feb 28 '11 at 20:03
It is a bold move to argue against that fact that libstdc++ requires ram and flash ... – GT. Feb 28 '11 at 20:43
@Thomas: I'd like to see you find a way to make libstdc++ small. uClibc++ exists for a reason; sadly it's rather incomplete. – R.. Feb 28 '11 at 21:38

You can use C++ but be extra careful.

For size, keep a close eye on your linker map file. You can find it including tons of stuff you don't need, just from an innocent-looking declaration.

For speed, profile or random-pause often. It's super easy to do more news and deletes than you really need, especially with container classes, and be really careful with things like iterators. Often they're doing you un-asked-for favors.

You can step through the code at the assembly-language level to make sure it's only doing what you actually need, which should be about the same as the C code.

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The real key to size and speed efficient code, embedded or otherwise, is for the programmer to fully understand the implications of his orher decisions.

To an extent, C++ provides more opportunities where something expensive can look deceptively innocent. Equivalent functionality to C++ features often requires more ink on the page, which may lead to a little more contemplation of its potential expense. But it's by no means an absolute - C (and its libraries) has the risk of deceptively innocent expense too.

Ultimately there is no substitute for understanding what you have asked for in each line of code.

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I am using ARM9 board for hardware control and I am using both C and C++ Application in 500 Mhz board. It is up to you to use the language and how you implement your logic to implement the functionality. Because I have not found any problem running my Application over the day controlling the hardware.

While writting your program, carefully select your variable, check it against extra instruction/loop, initialization. also use Gcc optimization flag while compilation.

I have not any problem running my Qt Application and C program on 500 Mhz ARM 9 board.

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