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Many embedded engineers use c++, but some argue it's bad because it's "object oriented"?

Is it true that being object oriented makes it bad for embedded systems, and if so, why is that really the case?

Edit: Here's a quick reference for those who asked:

so we prefer people not to use divide ..., malloc ..., or other object oriented practice that carry large penalty.

I guess the question is are objects considered heavyweight in the context of an embedded system? Some of the answers here suggest they are and some suggest they're not.

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Never seen this. Can you give an example? –  egrunin Jul 18 '10 at 5:39
You might want to mark this question community wiki since it's more of an opinion poll than a question with a real answer. –  Carl Norum Jul 18 '10 at 5:40
Since when does malloc have anything to do with OOP? –  alternative Jul 18 '10 at 14:32
I didn't realise that divide and malloc were object orientated practices that carried large penalties! –  Skizz Jul 19 '10 at 19:18
possible duplicate of C++ usage in embedded systems –  Jason S Jul 19 '10 at 19:18
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10 Answers

up vote 11 down vote accepted

Whilst I'm not sure it answers your question, I can summarise the reasons my previous companies source code was pure C.

It's firstly worth summarising the situation:

  • we wanted to write a large amount of "core" code that would be highly portable across a large number of ARM embedded systems (mostly mid-range mobile phones; both smart phones and ones running RTOSs of various ages)
  • the platforms generally had a workable C compiler, though some for example didn't support floating point "double"s.
  • in some cases the platform had a reasonable implementation of the standard library, but in many cases it didn't.
  • a C++ compiler was not available on most platforms, and where it was available support for the C++ standard library, STL or exceptions was highly variable.
  • debuggers often weren't available (a serial port you could send debug printfs to was considered a luxury)
  • we always had access to a reasonable amount of memory, but often not to a reasonable malloc() implementation

Given that, we worked entirely in C, and even then only a restricted set of C 89. The resulting code was highly portable. We often used object orientated concepts though.

These days "embedded" is a very wide definition. It covers everything from 8 bit microprocessors with no RAM or C compilers upto what are essentially high end PCs (albeit not running Microsoft Windows) - I don't know where your project/company sits in that range.

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Taking your quote at face value, dynamic memory allocation is completely separate concept from object-oriented software design, so it's outright false. You can have object-oriented design, and not use dynamic memory allocation.

In fact, you can do OO in C to an extent (that's what Linux kernel does). The real reason that many embedded developers don't like C++ is that it's very complex and it is hard to write straight-forward and predictable code in it. Linus has a good recent rant on why he does not like C++ (it's better and more reasoned than his old one, I promise). Probably most folks just don't articulate it very well.

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IMO its not to hard to write straight-forward/predictable code in C++. The real problem is, that it is very easy to write unpredictable code in C++, while it is quite hard in C (well if you abuse the Preprocessor its quite easy in C aswell...) –  smerlin Jul 18 '10 at 12:22
That's not really a good rant. He just gives examples of bad code. I mean, anyone would use sctp::connect() rather than using sctp; connect(); and even if they did, you can quickly find all the usings in a file. After all, if there's not only one connect(), then it won't compile. –  DeadMG Jul 18 '10 at 13:26
@smerlin: Well stated. Poor programmers will produce poor results in any language. –  Amardeep Jul 18 '10 at 13:28
I'll always give him kudos for bringing Linux to the world. But I'd never hire the guy. Reading his rants he seems like a best practice misanthrope. –  Amardeep Jul 18 '10 at 13:33
I very much like a couple of linus' posts in that thread. It is indeed true, in my opinion, that c++'s pass-by-reference, for example, is often very inappriate, and really not "safer" than pointers. The latter of which are really much more clearer to the caller. And i also agree with him about the specs being way clearer and for C, and about some C++ "specialists" that propose doing any and all things using templates so it's more "generic" - don't like that either. –  Johannes Schaub - litb Jul 18 '10 at 19:08
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What makes you say that C++ is Object Oriented? C++ is multiparadigm, and not all of the features that C++ provides are useful for the embedded market due to their overheads. (So... Just don't use those features! Problem solved!)

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@Afafangion: not really. How do you ensure that you stick to only some subset of C++ features ? The only way I see is not use any C++ libs at all... and it looks like a Huge limitation. –  kriss Jul 19 '10 at 20:58
But you can still use C libraries, and some C++ libraries however you'll need to evaluate them on a case-by-case basis anyway given size and performance overheads. Also, you gain strong type checking, classes, and in some cases, better optimization. –  Arafangion Jul 19 '10 at 23:07
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Nothing about 'object-oriented' is bad for embedded systems. OO is just a way of thinking about software.

What's bad for embedded systems is that, in general, they have less sophisticated debuggers, and C++ does a lot of crazy stuff 'behind your back', so to speak. Those pieces of hard-to-get-access-to code will drive you nuts.

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Object Oriented is great for embedded systems. It focuses a lot on encapsulation, data hiding, and code sharing. One can have Object Oriented embedded systems without division or dynamic memory allocation.

Division and dynamic memory allocation are enemies of embedded systems regardless of Object Oriented, Data Oriented or procedural programming. These concepts may or may not be used in the implementation of Object Oriented designs.

Object Oriented allows for a UART class to transmit instances of Message objects without knowing the content of the Message objects. A Message could be the base class and have several descendant classes.

The C++ language helps promote safe coding in embedded systems by allowing constructors, copy constructors, and destructors, which would only remembered in the highest disciplined C language embedded systems.

Exception handling is also a pain to get working in the C language. The C++ provides better facilities embedded into the language.

The C++ language provides templates for writing common code to handle different data types. A classic example is a ring buffer or circular queue. In the C language, one would have to use "pointers to void" so that any object could be passed. C++ offers a template so one can write a Circular_Queue class that works with different data types and has better compile-time type checking.

Inheritance allows for better code sharing. The shared code is factored into a base class and child classes can be created that share the same functionality; through inheritance.

The C language profides function pointers. The C++ languages provides facilities for function objects (function pointers with attributes).

Sorry, I just don't like those people who limit embedded systems to C language because of rumors and little knowledge and experience with C++.

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Object-oriented design by itself isn't bad. The answer lies in your quote. Especially in real-time embedded systems, you want to make your code as light and efficient as possible. The things mentioned in your quote (objects, division, dynamic memory allocation) are relatively heavyweight and can usually be replaced with simpler alternatives (for eg. using bit-manipulation to approximate division, allocating memory on the stack or with static pools) to improve performance in time-critical systems.

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Objects don't cost anything at all. Dynamic polymorphism does. –  xtofl Jul 18 '10 at 6:04
Agreed. If you keep it simple, there should be no problem. –  casablanca Jul 18 '10 at 6:09
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C++ was designed with the philosophy of don't pay for what you don't use. So apart from the lack of good embedded compilers, there's no real reason.

Maybe CFront could have compiled C++ into C, which has a myriad of compilers...

Edit: The Comeau compiler transforms C++ into plain C, so the no-compiler argument doesn't hold.

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CFront was abandoned after a failed attempt to add exception handling. –  dan04 Jul 18 '10 at 6:39
@dan04: thanks. Another reason CFront would be helpful (exceptions in embedded code?...) –  xtofl Jul 18 '10 at 20:02
It a little more complicated than that unfortunately. It's unlikely you'd want to try and debug/read the C code generated by a C++ to C converter, and any debugger wouldn't display or parse it well, nor is it likely to integrate well into an IDE. It may not generate C code the compiler for the platform can cope with - for many embedded platforms, the C compiler is severely limited, and does not accept full ANSI C 89 - see the Microchip PIC16 compiler for an example, which is really quite limited in what you can write. –  JosephH Jul 18 '10 at 20:22
@JosephH: thanks. So it's about tooling, really. –  xtofl Jul 19 '10 at 7:51
the don't pay for what you don't use philosophy is true to some extend, but also have counter exemples. The way STL mimick pointers with iterators is one such, price is high and iterator interface suck. To see why you can read the (allready) classical article by Andrei Alexandrescu boostcon.com/site-media/var/sphene/sphwiki/attachment/2009/05/… –  kriss Jul 19 '10 at 21:14
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Programming is always about using the right tool for the job. There are no pat answers, and that is especially true in the embedded world. If you want to become skilled in embedded development you will be just as intimately familier with C as you are with C++.

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As others have noted, 'embedded' encompasses a broad and varied range of hardware/software options. But...

The quote you give will give microcontroller embedded types shivers. Dynamic allocation is a no-no, if you have an error, you crash the system in unpredictable ways. Divides are heavily discouraged since they take forever in execution time. Objects are only discouraged insofar as they tend to carry lot's of 'stuff' around with them, all that 'stuff' takes up space, and microcontrollers don't have any.

I think of embedded as being projects that are small and specific, you don't worry much about extensibility or portability. You write clean code in C that does only and exactly what you want your device to do, reliably. You choose one chip family so you can move your (almost the) same code among different hardware options with minor tweaks to the port your writing too or initialization of configuration fuses.

So, you don't need to define

  1. 4 wheeled Transportation
  2. Car
  3. Toyota

Since you're only working on Toyotas. And the difference in accelerations between a Camry and Corolla are stored as constants in a register.

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As said above, it's what object-oriented / malloc / math do behind your back that carries a penalty - both in code size and CPU cycles which are usually in short supply in embedded.

As an example, including the sqrt() function in a loop added so much overhead in recursive calculations that we had to remove it and work a fast approximation around it, using a lookup table if I remember correctly.

By all means use any tools/langauges you like, but you need to at least be able to lift the lid and check just how much extra code is being generated behind your back.

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