I have two compilers on my hardware C++ and C89

I'm thinking about using C++ with classes but without polymorphism (to avoid vtables). The main reasons I’d like to use C++ are:

  • I prefer to use “inline” functions instead of macro definitions.
  • I’d like to use namespaces as I prefixes clutter the code.
  • I see C++ a bit type safer mainly because of templates, and verbose casting.
  • I really like overloaded functions and constructors (used for automatic casting).

Do you see any reason to stick with C89 when developing for very limited hardware (4kb of RAM)?


Thank you for your answers, they were really helpful!

I thought the subject through and I will stick with C mainly because:

  1. It is easier to predict actual code in C and this is really important if you have only 4kb of ram.
  2. My team consists mainly of C developers, so advanced C++ features won't be frequently used.
  3. I've found a way to inline functions in my C compiler (C89).

It is hard to accept one answer as you provided so many good answers. Unfortunately I can't create a wiki and accept it, so I will choose one answer that made me think most.

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    One thing: always be perfectly clear which language you are writing in. Do not try to write a program in "C/C++". Write in C, or write in C++ knowing which language features you will use and which you won't. – David Thornley May 1 '09 at 21:34
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    See also stackoverflow.com/questions/649789/… – Suma May 2 '09 at 13:48
  • Define "embedded development" – Marco van de Voort Jun 30 '10 at 14:23
  • @DavidThornley, you may well be right for embedded cases, but I have been very pleasantly surprised at how nicely mixed C & C++ code play together where I am looking to extend common industry open-source apps like Kamailio with the STL. I am officialy encouraging this usage of the STL and C code, as it offers tremendous functionality and ease of maintenance going forward, while creating almost zero problems (the lack of embedded structs in C++ is a horrible crime against C++, and should be redressed ASAP). – user2548100 Jan 13 '14 at 23:02
  • Food for thought, here's a great article where the designer and writer of ZeroMQ discusses why he regrets writing the code base in C++ instead of C. Not what I expected at all, and for reasons not found elsewhere on this page. 250bpm.com/blog:4 – user2548100 Jan 13 '14 at 23:05

30 Answers 30


Two reasons for using C over C++:

  1. For a lot of embedded processors, either there is no C++ compiler, or you have to pay extra for it.
  2. My experience is that a signficant proportion of embedded software engineers have little or no experience of C++ -- either because of (1), or because it tends not to be taught on electronic engineeering degrees -- and so it would be better to stick with what they know.

Also, the original question, and a number of comments, mention the 4 Kb of RAM. For a typical embedded processor, the amount of RAM is (mostly) unrelated to the code size, as the code is stored, and run from, flash.

Certainly, the amount of code storage space is something to bear in mind, but as new, more capacious, processors appear on the market, it's less of an issue than it used to be for all but the most cost-sensitive projects.

On the use of a subset of C++ for use with embedded systems: there is now a MISRA C++ standard, which may be worth a look.

EDIT: See also this question, which led to a debate about C vs C++ for embedded systems.

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    See my longer reply below: C++ tends to make putting constant data in FLASH very difficult. – jakobengblom2 May 22 '09 at 7:22
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    Potentially good reason to use C instead of C++ is C's standard ABI. Just for completeness. – Chris Lutz Aug 30 '09 at 16:48

For a very resource constrained target such as 4KB of RAM, I'd test the waters with some samples before committing a lot of effort that can't be easily ported back into a pure ANSI C implementation.

The Embedded C++ working group did propose a standard subset of the language and a standard subset of the standard library to go with it. I lost track of that effort when the C User's Journal died, unfortunately. It looks like there is an article at Wikipedia, and that the committee still exists.

In an embedded environment, you really have to be careful about memory allocation. To enforce that care, you may need to define the global operator new() and its friends to something that can't be even linked so that you know it isn't used. Placement new on the other hand is likely to be your friend, when used judiciously along with a stable, thread-safe, and latency guaranteed allocation scheme.

Inlined functions won't cause much problem, unless they are big enough that they should have been true functions in the first place. Of course the macros their replacing had that same issue.

Templates, too, may not cause a problem unless their instantiation runs amok. For any template you do use, audit your generated code (the link map may have sufficient clues) to make certain that only the instantiations you intended to use happened.

One other issue that may arise is compatibility with your debugger. It isn't unusual for an otherwise usable hardware debugger to have very limited support for interaction with the original source code. If you effectively must debug in assembly, then the interesting name mangling of C++ can add extra confusion to the task.

RTTI, dynamic casts, multiple inheritance, heavy polymorphism, and exceptions all come with some amount of runtime cost for their use. A few of those features level that cost over the whole program if they are used, others just increase the weight of classes that need them. Know the difference, and choose advanced features wisely with full knowledge of at least a cursory cost/benefit analysis.

In an small embedded environment you will either be linking directly to a real time kernel or running directly on the hardware. Either way, you will need to make certain that your runtime startup code handles C++ specific startup chores correctly. This might be as simple as making sure to use the right linker options, but since it is common to have direct control over the source to the power on reset entry point, you might need to audit that to make certain that it does everything. For example, on a ColdFire platform I worked on, the dev tools shipped with a CRT0.S module that had the C++ initializers present but comment out. If I had used it straight from the box, I would have been mystified by global objects whose constructors had never run at all.

Also, in an embedded environment, it is often necessary to initialize hardware devices before they can be used, and if there is no OS and no boot loader, then it is your code that does that. You will need to remember that constructors for global objects are run before main() is called so you will need to modify your local CRT0.S (or its equivalent) to get that hardware initialization done before the global constructors themselves are called. Obviously, the top of main() is way too late.

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    This one needs more upvotes than I can give it! GREAT answer. – Harper Shelby May 2 '09 at 16:05
  • +1, great answer. But I reckon the only template instantiation you really need to worry about is the (relatively rare) recursive kind -- for the "regular" non-recursive kind, instantiation amounts to code you would have manually typed anyway. – j_random_hacker May 2 '09 at 16:32
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    @j_random_hacker, true. But the habit of templates can lead to occasional surprises when a second (or third) instantiation appears where the proper type coercion at the point of usage might have prevented it. Its just something to watch out for. – RBerteig May 2 '09 at 20:50
  • @RBerteig: Good point, templates allow fewer type coercion possibilities => possibly more distinct instantiations are produced than with non-template code. – j_random_hacker May 3 '09 at 7:16

No. Any of the C++ language features that could cause problems (runtime polymorphism, RTTI, etc.) can be avoided while doing embedded development. There is a community of embedded C++ developers (I remember reading columns by embedded developers using C++ in the old C/C++ Users' Journal), and I can't imagine they'd be very vocal if the choice was that bad.


The Technical Report on C++ Performance is a great guide for this sort of thing. Note that it has a section on embedded programming concerns!

Also, ++ on the mention of Embedded C++ in the answers. The standard is not 100% to my tastes, but it is a good bit of reference when deciding what parts of C++ you might drop.

While programming for small platforms, we disable exceptions and RTTI, avoided virtual inheritance, and paid close attention to the number of virtual functions we have lying around.

Your friend is the linker map, though: check it frequently, and you'll spot sources of code and static memory bloat quickly.

After that, the standard dynamic memory usage considerations apply: in an environment as restricted as the one you mention, you may want to not use dynamic allocations at all. Sometimes you can get away with memory pools for small dynamic allocs, or "frame-based" allocation where you preallocate a block and throw out the whole thing later.

  • Finally a testimonial! – xtofl May 2 '09 at 9:57

I recommend using the C++ compiler, but limiting your use of C++ specific features. You can program like C in C++ (the C runtime is included when doing C++, though in most embedded applications you don't make use of the standard library anyway).

You can go ahead and use C++ classes etc., just

  • Limit your use of virtual functions (as you've said)
  • Limit your use of templates
  • For an embedded platform, you'll want to override the operator new and/or use placement new for memory allocation.
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    Of course, if you're already basically writing C, you may as well make it official. – Chuck May 1 '09 at 19:19
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    Why do you limit use of Templates? I've thought that template functions could be really helpful in embedded systems for example to unroll loops. – Piotr Czapla May 1 '09 at 20:39
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    You can still use templates, but I'd be very careful with them, as they can quickly increase the size of the output binary. Of course, if your code runs directly from ROM or similar and you have ROM space to spare, then sure, but other than that you need to be careful with what you do with templates (each template instance is basically all the templated code duplicated again in the final executable in the worst case). – arke May 1 '09 at 21:40

As a firmware/embedded system engineer, I can tell you guys some of the reason why C is still the #1 choice over C++ and yes, I'm fluent in both of them.

1) Some targets we develop on has 64kB of RAM for both code and data, so you have to make sure every byte count, and yes, I've dealt with code optimization to save 4 bytes that cost me 2 hours, and that's in 2008.

2) Every C library function is reviewed before we let them in the final code, because of size limitation, so we prefer people not to use divide (no hardware divider, so a big library is needed), malloc (because we have no heap, all memory is allocated from data buffer in 512 byte chunk and must be code reviewed), or other object oriented practice that carry large penalty. Remember, every library function that you use count.

3) Ever heard of the term overlay? you have so little code space that sometimes you have to swap things out with another set of code. If you call a library function then the library function must be resident. If you only use it in an overlay function, you are wasting a lot of space relying on too many object oriented methods. So, don't assume any C library function, let alone C++ to be accepted.

4) Casting and even packing (where unaligned data structure crosses word boundary) are needed due to limited hardware design (i.e. an ECC engine that is wired a certain way) or to cope with a hardware bug. You cannot assume too much inplicitly, so why object orient it too much?

5) Worst case scenario: eliminating some of the object oriented methods will force develop to think before they use resources that can explode (i.e. allocating 512bytes on a stack rather than from a data buffer), and prevent some of the potential worst case scenario that are not tested for or eliminate the whole code path all together.

6) We do use a lot of abstraction to keep hardware from software and make code as portable as possible, and simulation friendly. Hardware access must be wrapped in a macro or inline function that are conditionally compiled between different platform, data type must be casted as byte size rather than target specific, direct pointer usage is not allowed (because some platform assume memory mapped I/O is the same as data memory), etc.

I can think of more, but you get the idea. Us firmware guys do have object oriented training, but the task of embedded system can be so hardware oriented and low level, that it is not high level or abstractable by nature.

BTW, every firmware job I've been at uses source control, I don't know where you get that idea from.

-some firmware guy from SanDisk.

  • back in the beginning of the 90th, overlay was very popular technique (at least in the DOS world) – psihodelia Oct 29 '12 at 15:29
  • Good points Shing. C++ feels like a Sumo wrestler in a phone booth on projects where the functionality is limited, and the resources are even more limited. – user1899861 Jan 14 '14 at 6:30
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    I believe this answer is very subjective and doesn't provide concrete reasoning. – Venemo Mar 5 '16 at 14:35
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    C++ doesn't necessarily mean "object oriented". – Martin Bonner Aug 12 '16 at 8:48
  • It's simply not true that the task of embedded system are not abstractable by nature. You said it yourself in point 6) : "we do use a lot of abstraction to keep hw from sw and make code as portable as possible" :-) BTW: "abstraction" does not necessarily imply "polymorphism". – Daniele Pallastrelli Aug 25 '16 at 8:03

My personal preference is C because :

  • I know what every line of code is doing (and costs)
  • I don't know C++ well enough to know what every line of code is doing (and costs)

Why do people say this? You don't know what every line of C is doing unless you check the asm output. Same goes for C++.

For example, what asm does this innocent statement produce:

a[i] = b[j] * c[k];

It looks fairly innocent, but a gcc based compiler produces this asm for an 8-bit micro

ANDLW 0xfe
MOVLW 0xf9
MOVLW 0xfa
MOVFF 0xfee, 0x1c
MOVFF 0xfef, 0x1d
ANDLW 0xfe
MOVLW 0xfb
MOVLW 0xfc
MOVFF 0xfee, 0x18
MOVFF 0xfef, 0x19
MOVFF 0x18, 0x8
MOVFF 0x19, 0x9
MOVFF 0x1c, 0xd
MOVFF 0x1d, 0xe
CALL 0x2142, 0
MOVFF 0x6, 0x16
MOVFF 0x7, 0x17
ANDLW 0xfe
MOVLW 0xfd
MOVLW 0xfe
MOVFF 0x16, 0xfee
MOVFF 0x17, 0xfed

The number of instructions produced depends massively on:

  • The sizes of a, b, and c.
  • whether those pointers are stored on the stack or are global
  • whether i, j and k are on the stack or are global

This is especially true in the tiny embedded world, where processors are just not set up to handle C. So my answer would be that C and C++ are just as bad as each other, unless you always examine the asm output, in which case they are just as good as each other.


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    Notice also that there's a call instruction in the middle of all that which actually calls the multiply function. All of that code isn't even multiply instruction! – Rocketmagnet Mar 15 '10 at 16:38
  • Someone familiar with a micro would typically know a simple way to process each part of the C code in isolation, and a decent compiler shouldn't produce code that's any worse than that. The only way the expression above could be processed efficiently would be if one made assumptions that might not be appropriate for a C compiler. – supercat Oct 29 '18 at 18:14

I have heard that some people prefer C for embedded work due to the fact that is simpler and therefore easier to predict the actual code that will be generated.

I personally would think writing C-style C++ (using templates for type-safety) would give you a lot of advantages though and I can't see any real reason not to.

  • +1, transparency is always important, and probably moreso for a constrained environment with (presumably) constrained debugging tools. – j_random_hacker May 2 '09 at 16:34

I see no reason to use C instead of C++. Whatever you can do in C, you can do it also in C++. If you want to avoid overheads of VMT, don't use virtual methods and polymorphism.

However, C++ can provide some very useful idioms with no overhead. One of my favourites is RAII. Classes are not necessary expensive in terms of memory or performance...


I've written some code for ARM7 embedded paltform on IAR Workbench. I highly recommend relying on templates to do compile-time optimization and path prediction. Avoid dynamic casting like plague. Use traits/policies to your advantage, as prescribed in Andrei Alexandrescu's book, Modern C++ design.

I know, it can be hard to learn, but I am also sure that your product will benefit from this approach.


A good reason and sometimes the only reason is that there is still no C++ compiler for the specific embedded system. This is the case for example for Microchip PIC micro-controllers. They are very easy to write for and they have a free C compiler (actually, a slight variant of C) but there is no C++ compiler in sight.

  • 1
    Comeau Computing (comeaucomputing.com) sells a C++ compiler which compiles to C. – Thomas L Holaday May 1 '09 at 19:45
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    Eww. That site made want to puke. – shoosh May 1 '09 at 23:13
  • @shoosh: Yes, the site design is terrible. However the compiler itself is considered a leader in the field, at least in terms of standard conformance (I have no information about performance). – j_random_hacker May 2 '09 at 16:27
  • That web site makes me feel like I am trapped inside a living, breathing and VERY angry fruit salad. – Tim Post May 2 '09 at 17:03

For a system constrained to 4K of ram, I would use C, not C++, just so that you can be sure to see everything that's going on. The thing with C++, is that it's very easy to use far more resources (both CPU and memory) than it looks like glancing at the code. (Oh, I'll just create another BlerfObject to do that...whoops! out of memory!)

You can do it in C++, as already mentioned (no RTTI, no vtables, etc, etc), but you'll spend as much time making sure your C++ usage doesn't get away from you as you would doing the equivalent in C.

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    Your last sentence is right but irrelevant since C++ offers other advantages over C which (might) tip the balance. Piotr has already mentioned some of these (zero-cost) advantages. – Konrad Rudolph May 1 '09 at 20:26

The human mind deals with complexity by evaluating as much as possible, and then deciding what's important to focus on, and discarding or depreciating the rest. This is the entire underpinning behind branding in Marketing, and largely, icons.

To combat this tendency I prefer C to C++, because it forces you to think about your code, and how it's interacting with the hardware more closely - relentlessly close.

From long experience it is my belief that C forces you to come up with better solutions to problems, in part, by getting out of your way and not forcing you to waste lots of time satisfying a constraint some compiler-writer thought was a good idea, or figuring out what's going on "under the covers".

In that vein, low level languages like C have you spending a lot of time focused on the hardware and building good data-structure/algorithm bundles, while high level languages have you spending a lot of time scratching your head wondering what's going on in there, and why you can't do something perfectly reasonable in your specific context and environment. Beating your compiler into submission (strong typing is the worst offender) is NOT a productive use of time.

I probably fit the programmer mold well - I like control. In my view, that's not a personality flaw for a programmer. Control is what we get paid to do. More specifically, FLAWLESSLY control. C gives you much more control than C++.

  • Martin Sistrik, the author of ZeroMQ made almost the same point in his discussion of why he wishes now he'd written ZeroMQ in C, instead of C++. Check it out 250bpm.com/blog:8 – user2548100 Jan 14 '14 at 18:36

Personally with 4kb of memory I'd say you are not getting that much more mileage out of C++, so just pick the one that seems the best compiler/runtime combination for the job, since language is probably not going to matter much.

Note that it is also not all about language anyway, since also the library matters. Often C libs have a slightly smaller minimum size, but I could imagine that a C++ lib targeted at embedded development is cut down, so be sure to test.


Some say that C compilers can generate much more efficient code because they don't have to support the advanced C++ features and can therefore be more aggressive in their optimizations.

Of course, in this case you may want to put the two specific compilers to the test.

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    Related: The restrict keyword is as far as I know the only optimization-related C construct missing in C++ (also C++11). – Johan Lundberg Jun 3 '12 at 10:28

C wins on portability - because it is less ambiguous in language spec; therefore offering much better portability and flexibility across different compilers etc (less headaches).

If you aren't going to leverage C++ features to meet a need then go with C.

  • Whether the language is unambiguous depends upon whether one regards it as specifying things which used to be considered common sense, but nowadays aren't [e.g. that a compiler for 32-bit silent-wraparound two's-complement hardware should process something like unsigned mul(unsigned short x, unsigned short y) { return x*y;} as having no side-effects even if the product exceeds 2147483647, or that it should regard void get_float_bits(float *fp, uint32_t n) { *(uint32_t)fp = n; } as possibly altering the value of a float]. – supercat Jan 30 '17 at 21:06

Do you see any reason to stick with C89 when developing for very limited hardware (4kb of RAM)?

Personally, when it comes to embedded applications (When I say embedded, I don't mean winCE, iPhone, etc.. bloated embedded devices today). I mean resource limited devices. I prefer C, though I have worked with C++ quite a bit as well.

For example, the device you're talking about has 4kb of RAM, well just for that reason I wouldn't consider C++. Sure, you may be able to design something small using C++ and limit your usage of it in your application like other posts have suggested but C++ "could" potentially end up complicating/bloating your application under the covers.

Are you going to link statically? You may want to compare static a dummy application using c++ vs c. That may lead you to consider C instead. On the other hand if you are able to build a C++ application within your memory requirements, go for it.

IMHO, In general, in embedded applications I like to know everything that is going on. Who's using memory/system resources, how much and why? When do they free them up?

When developing for a target with X amount of resources, cpu, memory, etc.. I try to stay on the lower side of using those resources because you never know what future requirements will come along thus having you add more code to the project that was "supposed" to be a simple small application but ends up becoming a lot bigger.

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    I will definitely compare the two compilers. (btw. I can't Link dynamically as there is no operating system) – Piotr Czapla May 1 '09 at 20:33

My choice is usually determined by the C library we decide to use, which is selected based on what the device needs to do. So, 9/10 times .. it ends up being uclibc or newlib and C. The kernel we use is a big influence on this too, or if we're writing our own kernel.

Its also a choice of common ground. Most good C programmers have no problem using C++ (even though many complain the entire time that they use it) .. but I have not found the reverse to be true (in my experience).

On a project we're working on (that involves a ground up kernel), most things are done in C, however a small network stack was implemented in C++, because it was just easier and less problematic to implement networking using C++.

The end result is, the device will either work and pass acceptance tests or it won't. If you can implement foo in xx stack and yy heap constraints using language z, go for it, use whatever makes you more productive.

My personal preference is C because :

  • I know what every line of code is doing (and costs)
  • I don't know C++ well enough to know what every line of code is doing (and costs)

Yes, I am comfortable with C++, but I don't know it as well as I do standard C.

Now if you can say the reverse of that, well, use what you know :) If it works, passes tests, etc .. what's the problem?

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    > # I know what every line of code is doing (and costs) Having written compilers, I would not be as sure of that... a good C compiler can do quite surprising things to your code as it has a nice global overview of things. It does not compile line-by-line. – jakobengblom2 May 22 '09 at 7:18
  • @jakobengblom2: For embedded development, having consistent performance is often more important than having maximum performance. If one is trying to determine whether a piece of code will meet timing requirements, having a compiler employ optimizations that will be usable in "test" firmware that won't work in real firmware is apt to be less than helpful. – supercat Jan 30 '17 at 20:36

How much ROM/FLASH do you have?

4kB of RAM can still mean there are hundreds of kilobytes of FLASH to store the actual code and static data. RAM on this size tends to be meant just for variables, and if you are careful with those you can fit quite a large program in terms of code lines into memory.

However, C++ tends to make putting code and data in FLASH more difficult, due to the run-time construction rules for objects. In C, a constant struct can easily be put into FLASH memory and accessed as a hardware-constant object. In C++, a constant object would require the compiler to evaluate the constructor at compile-time, which I think is still beyond what a C++ compiler can do (theoretically, you could do it, but it is very very hard to do in practice).

So in a "small RAM", "large FLASH" kind of environment I would go with C any day. Note that a good intermediate choice i C99 which has most of the nice C++ features for non-class-based-code.

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    Is there any reason why the same struct that would be put in Flash memory in C, wouldn't also end up in Flash in C++? You don't have to add a constructor to your struct in C++. – jalf Oct 18 '09 at 8:35
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    now c++ has constexpr. – Germán Diago Jun 18 '15 at 16:17

In general no. C++ is a super set of C. This would be especially true for for new projects.

You are on the right track in avoiding C++ constructs that can be expensive in terms of cpu time and memory foot print.

Note that some things like polymorphism can be very valuable - the are essentially function pointers. If you find you need them, use them - wisely.

Also, good (well designed) exception handling can make your embedded app more reliable than an app that handles things with traditional error codes.

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    C++ is not, strictly speaking, a strict superset of C, but that particular detail is not particularly substantial in this context. – Arafangion Jul 21 '10 at 7:19

The only reason to prefer C IMHO would be if the C++ compiler for your platform is not in a good shape (buggy, poor optimization, etc).

  • What about memory/resource utilization? – Steve Lazaridis May 1 '09 at 19:51
  • What about it? There is no reason for a C++ compiler to produce less efficient code than a C one, except if the code uses RTTI, which noone does on embedded systems. – Nemanja Trifunovic May 1 '09 at 21:04

The book C++ for Game Programmers has information related to when code size will increased based on features from C++.


You have inline in C99. Maybe you like ctors, but the business of getting dtors right can be messy. If the remaining only reason to not use C is namespaces, I would really stick to C89. This is because you might want to port it to a slightly different embedded platform. You may later start writing in C++ on that same code. But beware the following, where C++ is NOT a superset of C. I know you said you have a C89 compiler, but does this C++ comparison with C99 anyway, as the first item for example is true for any C since K&R.

sizeof 'a' > 1 in C, not in C++. In C you have VLA variable length arrays. Example: func(int i){int a[i]. In C you have VAM variable array members. Example: struct{int b;int m[];}.

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    No. I mean to mention that in C you have (sizeof 'a') == sizeof (int). While in C++ you have that 1 == sizeof 'a' – hept May 1 '09 at 21:16
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    Not to mention "int * a; ...;a = (int *)malloc(size * sizeof(int));" is the way to allocate memory that works in C and C++, and should be used in neither. Use either "a = malloc(size * sizeof(int));" or "vector<int> a(size);" or even "int * a = new int[size];" instead. – David Thornley May 1 '09 at 21:32
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    I don't get your point about dtors. The entire point about them is that they make the rest of your code a lot less messy. – jalf May 2 '09 at 9:42
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    +1, not sure why this post got such a bad rap. But I agree with jalf, destructors simplify code mightily when used the right (RAII) way. (You could say that they "work behind the scenes", but they are doing only stuff that correct code would be manually doing anyway.) – j_random_hacker May 2 '09 at 16:39
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    I think the stuff I point out are very relevant to the question. I also stick to my statement that dtors may be difficult, and the reason is exactly that it happens automatically. I got minus points -- thats really harch. Guess it's because I dont say "YES, GO C++ its GREAT". – hept May 2 '09 at 16:57

Just want to say that there is no system with "UNLIMITED" resources. Everything in this world is limited and EVERY application should consider resource usage no matter whether its ASM, C, JAVA or JavaScript. The dummies that allocate a few Mbs "just to be sure" makes iPhone 7, Pixel and other devices extremely luggy. No matter whether you have 4kb or 40 Gb.

But from another side to oppose resource wasting - is a time that takes to save those resources. If it takes 1 week extra to write a simple thing in C to save a few ticks and a few bytes instead of using C++ already implemented, tested and distributed. Why bother? Its like buying a usb hub. yes you can make it yourself but is it going to be better? more reliable? cheaper if you count your time?

Just a side thought - even power from your outlet is not unlimited. Try to research where its coming from and you will see mostly its from burning something. The law of energy and material is still valid: no material or energy appears or disappears but rather transforms.


For memory allocation issue, I can recommend using Quantum Platform and its state machine approach, as it allocates everything you'd need at the initialization time. It also helps to alleviate contention problems.

This product runs on both C and C++.


It depends on the compiler.

Not all embedded compilers implement all of C++, and even if they do, they might not be good at avoiding code bloat (which is always a risk with templates). Test it with a few smaller programs, see if you run into any problems.

But given a good compiler, no, there's no reason not to use C++.


I've just found an example how to use ISO C++ for embedded development, that could interesting for someone that is making the decision whenever use C++ or C.

It was provided by Bjarne Stroustrup at his homepage:

For a look at how ISO C++ can be used for serious embedded systems programming, see the JSF air vehicle C++ coding standards.

  • Well, flying things tend to have PPC processors with gigabytes of RAM. Not your average resource-constrained embedded system. – jakobengblom2 May 22 '09 at 7:17
  • good to know that. Thank you :) – Piotr Czapla May 22 '09 at 17:19

Different answer post to a different aspect of the question:


Some previous replies talk quite a bit about this. Why do you even think that call exists? For a truly small platform, malloc tends to be unavailable, or definitely optional. Implementing dynamic memory allocation tends to be meaningful when you get to have an RTOS in the bottom of your system -- but until then, it is purely dangerous.

You can get very far without it. Just think about all the old FORTRAN programs which did not even have a proper stack for local variables...


There are a number of different controller manufacturers around the globe and when you take a look into their designs and the instruction sets that need to be used to configure you may end up in a lot of troubles. The main disadvantage of assembly language is that machine/architecture dependent. It’s really huge ask for a developer to by heart all the instructions set out there to accomplish coding for different controllers. That is why C became more popular in embedded development because C is high-level enough to abstract the algorithms and data structures from hardware-dependent details, making the source code portable across a wide variety of target hardware, architecture independent language and very easy to convert and maintain the code. But we do see some high-level languages (object-oriented) like C, C++, Python, Java etc. are evolving enough to make them under the radar of embedded system development.


On such a limited system. Just go for Assembler. Gives you total control over every aspect, and gives no overhead.

Probably a lot faster too since a lot of embedded compilers are not the best optimizers (especially if one compares it to state of the art compilers like the ones we have for the desktop (intel, visual studio, etc))

"yeah yeah...but c is re-usable and...". On such a limited system, chances are you won't re-use much of that code on a different system anyway. On the same system, assembler is just as re-usable.

  • It would be way to complicated to use assembler here. Especially once I need to support micro SD, smart cards & zigbee for wireless communication. :( – Piotr Czapla May 27 '09 at 18:14
  • 5
    In short, you can spend a year writing code in C, or 3 years writing it in assembler. Then when you start a new project with a different processor, you can spend 6 months adding the new features in C, or 4 years rewriting it in assembler. – Craig McQueen Jul 30 '09 at 0:15
  • as if you still use the same program 4 years down the line. Chances are you've rewritten most parts of it anyway. – Toad Jul 30 '09 at 8:04

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