I realize this may be subjective, so will ask a concrete question, but first, background:

I have always been an embedded software engineer, but usually at Layer 3 or 2 of the OSI stack. I am not really a hardware guy. I have generally always done telecoms products, usually hand/cell-phones, which generally means something like an ARM 7 processor.

Now I find myself in a more generic embedded world, in a small start-up, where I might move to "not so powerful" processors (there's the subjective bit) - I cannot predict which.

I have read quite a bit about debate about exception handling in C++ in embedded systems and there is no clear cut answer. There are some small worries about portability and a few about run-time, but it mostly seems to come down to code size (or am i reading the wrong debates?).

Now I have to make the decision whether to use or forego exception handling - for the whole company, for ever (it's going into some very core s/w).

That may sound like "how long is a piece of string", but someone might reply "if your piece of string is an 8051, then don't. If, OTOH, it is ...".

Which way do I jump? Super-safe & lose a good feature, or exceptional code and maybe run into problems later?

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    Embedded systems are different from desktop systems. Generally, you focus of producing them cheaper rather than more performant. – Anon. Feb 9 '10 at 1:51
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    I suppose that kind of depends on what the embedded app is. Smartphones are one thing, but I think I'd still like my elevator controllers to be long on reliability and short on language feature coverage – Jherico Feb 9 '10 at 1:53
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    Having worked on a few embedded systems using C++, I would say don't use C++ at all, let alone exceptions. All the stuff C++ does behind your back in the runtime is a giant pain to debug. The first time an app programmer makes a call to an OS primitive in a static object's constructor you'll be in a world of hurt (__cpp_initialize() being called before your operating system init, perhaps). – Carl Norum Feb 9 '10 at 1:54
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    @Carl Norum: that's not an argument against C++, it's an argument against running code before entering main. – just somebody Feb 9 '10 at 10:40
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    You have to run code before entering main. Where else does the stack come from? I'm not sure I get what you're saying. – Carl Norum Feb 9 '10 at 21:32

In terms of performance, my understanding is that exceptions actually reduce the size and increase the performance of the normal execution paths of code, but make the exceptional/error paths more expensive. (often a lot more expensive).

So if your only concern is performance, I would say don't worry about later. If today's CPU can handle it, then tomorrows will as well.

However. In my opinion, exceptions are one of those features that require programmers to be smarter all of the time than programmers can be reasonably be expected to be. So I say - if you can stay away from exception based code. Stay away.

Have a look at Raymond Chen's Cleaner, more elegant, and harder to recognize. He says it better than I could.

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    I think Jon Kalb's exception safe coding guidelines pretty successfully address the problem of telling the difference at a glance between what Raymond calls 'bad' and 'not-bad' exception safe code. (Although Raymond's 'not-bad' code still looks bad to me because it's using naked-new.) They also mean that you don't have to 'check every single line of code,' as Raymond says. – bames53 Mar 21 '14 at 23:57
  • John, I can't readily agree that exceptions reduce the size of the code. I've seen data (presented by the IAR) where use of exceptions has bloated the code by tens of percent, compared to the same code without exceptions. – Nick Alexeev Oct 27 '17 at 16:07

The most problem with exceptions -- they don't have predictable time of execution. Thus they are not suitable for hard real-time applications (and I guess most embedded application doesn't fall in this category).

The second is (possible) increasing of binary's size.

I would propose you reading of Technical Report on C++ Performance which specifically addresses topics that you are interested in: using C++ in embedded (including hard real-time systems) and how exception-handling usually implemented and which overhead it has.

  • A nugget from the technical report: "because the constructors of the Standard Library exception classes [..] require an argument of type std::string, this overhead may be included in a program inadvertently". A lot of exceptions use std::string, and this means dynamic memory allocation. Avoiding dynamic memory allocation also means avoiding memory leaks, which is highly useful in embedded applications. – Frank Kusters May 18 '17 at 13:07

The choice of whether to use exceptions or not should really lie with whether they are going to fit your program's problem domain well or not.

I've used C++ exceptions extensively, both in retrofitting into old C code, and in some newer code. (HINT: Don't try to re-fit 20 year old C code that was written in a low memory environment with all manner of inconsistent exceptions. It's just a nightmare).

If your problem is one that lends itself to handling all the errors in one spot (say, a TCP/IP server of some sort, where every error condition is met with 'break down the connection and try again'), then exceptions are good - you can just throw an exception anywhere and you know where and how it will be handled.

If, on the other hand, your problem doesn't lend itself to central error handling, then exceptions are a ROYAL pain, because trying to figure out where something is (or should be) handled can easily become a Sisyphean task. And it's really hard to see the problem just by looking at the code. You instead have to look at the call trees for a given function and see where that function's exceptions are going to end up, in order to figure out if you have a problem.


I'd say use exceptions appropriately if the runtime environment supports them. Exceptions to handle extraordinary conditions are fine, and can cause little overhead depending on the implementation. Some environments don't support them, especially in the embedded world. If you ban them, be careful to explain why. I once had a guy that, when told not to use exceptions, did a divide by zero instead. Not exactly what we had in mind.

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