I still feel C++ offers some things that can't be beaten. It's not my intention to start a flame war here, please, if you have strong opinions about not liking C++ don't vent them here. I'm interested in hearing from C++ gurus about why they stick with it.

I'm particularly interested in aspects of C++ that are little known, or underutilised.

Edit: People, please have at least a cursory read of other responses to make sure you're not duplicating what's already been said, if you agree with what someone else has said, upvote it!


15 Answers 15


I have stayed with C++ as it is still the highest performing general purpose language for applications that need to combine efficiency and complexity. As an example, I write real time surface modelling software for hand-held devices for the surveying industry. Given the limited resources, Java, C#, etc... just don't provide the necessary performance characteristics, whereas lower level languages like C are much slower to develop in given the weaker abstraction characteristics. The range of levels of abstraction available to a C++ developer is huge, at one extreme I can be overloading arithmetic operators such that I can say something like MaterialVolume = DesignSurface - GroundSurface while at the same time running a number of different heaps to manage the memory most efficiently for my app on a specific device. Combine this with a wealth of freely available source for solving pretty much any common problem, and you have one heck of a powerful development language.

Is C++ still the optimal development solution for most problems in most domains? Probably not, though at a pinch it can still be used for most of them. Is it still the best solution for efficient development of high performance applications? IMHO without a doubt.

  • I especially like the comment about multiple heaps. You can do some very cool stuff with overloading new and delete, and using placement new etc in C++, very good! – Jesse Pepper Jan 8 '09 at 8:38
  • Jesse: Good point. I especially like using them for memory pooling for efficient object recycling. – user21037 Jan 8 '09 at 12:23
  • Has any of you benchmarked those? A recent paper showed that most such allocators are not any faster and often slower than system ones. – Blaisorblade Jan 19 '09 at 0:27
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    @Blaisorblade, can you cite / link your references. I have profiled my specific application and found huge performance gains through allocator optimization. Note the perfomance gains are based around application specific typical use cases, it is not a general purpose optimization. – SmacL Jan 19 '09 at 10:44

RAII / deterministic finalization. No, garbage collection is not just as good when you're dealing with a scarce, shared resource.

Unfettered access to OS APIs.


Shooting oneself in the foot.

No other language offers such a creative array of tools. Pointers, multiple inheritance, templates, operator overloading and a preprocessor.

A wonderfully powerful language that also provides abundant opportunities for foot shooting.

Edit: I apologize if my lame attempt at humor has offended some. I consider C++ to be the most powerful language that I have ever used -- with abilities to code at the assembly language level when desired, and at a high level of abstraction when desired. C++ has been my primary language since the early '90s.

My answer was based on years of experience of shooting myself in the foot. At least C++ allows me to do so elegantly.

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    Downvotes...sigh. I guess I'm not as funny late at night as I think. – Kluge Jan 8 '09 at 6:43
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    I thought it was funny! And I consider a raft of downvotes on a satirical post to be a badge of honour. You earned my -1. :) – j_random_hacker Jan 8 '09 at 6:50
  • No-one wants to shoot own feet, so that doesn't count, I guess. But shooting own feet might become more common again with more powerful frameworks like Spring, if not used well. Sure it is easier with Spring than without, but with Spring it isn't automatically totally easy either. – Silvercode Jan 8 '09 at 7:29
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    Making a funny post like this is often an example of shooting yourself in the foot. Ahh... the irony. – Kibbee Jan 8 '09 at 16:22

Deterministic object destruction leads to some magnificent design patterns. For instance, while RAII is not as general a technique as garbage collection, it leads to some impressive capabilities which you cannot get with GC.

C++ is also unique in that it has a Turing-complete preprocessor. This allows you to prefer (as in the opposite of defer) a lot of code tasks to compile time instead of run time. For instance, in real code you might have an assert() statement to test for a never-happen. The reality is that it will sooner or later happen... and happen at 3:00am when you're on vacation. The C++ preprocessor assert does the same test at compile time. Compile-time asserts fail between 8:00am and 5:00pm while you're sitting in front of the computer watching the code build; run-time asserts fail at 3:00am when you're asleep in Hawai'i. It's pretty easy to see the win there.

In most languages, strategy patterns are done at run-time and throw exceptions in the event of a type mismatch. In C++, strategies can be done at compile-time through the preprocessor facility and can be guaranteed typesafe.

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    You talk alot about the 'c++ preprocessor'. Do you mean the one that is equivalent/identical to the 'c preprocessor'? I'm pretty sure C and C++ are different languages, meaning the preprocessor is not unique to one language. – Nate Parsons Jan 8 '09 at 6:46
  • true... though I think it's a useful statement to make since many C#/Java devs don't know such joys. – Jesse Pepper Jan 8 '09 at 6:50
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    I don't know what the 3rd paragraph is getting at. The preprocessor knows nothing about types. – fizzer Jan 8 '09 at 8:53
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    @fizzer The third paragraph refers to the policy pattern: stackoverflow.com/questions/231318/… - C++ has two preprocessor runs actually; templating is the typesafe one, where #macros is the child that nobody likes. :) – mstrobl Jan 8 '09 at 16:09
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    A preprocessor runs before the compiler, and template handling is done by the compiler proper - templates have to be processed in various phases of compilation, for instance typechecking. So please stop this nonsense about two preprocessor runs. I downvoted the answer just for this. – Blaisorblade Jan 19 '09 at 0:32

Write inline assembly (MMX, SSE, etc.).

Deterministic object destruction. I.e. real destructors. Makes managing scarce resources easier. Allows for RAII.

Easier access to structured binary data. It's easier to cast a memory region as a struct than to parse it and copy each value into a struct.

Multiple inheritance. Not everything can be done with interfaces. Sometimes you want to inherit actual functionality too.


I think i'm just going to praise C++ for its ability to use templates to catch expressions and execute it lazily when it's needed. For those not knowing what this is about, here is an example.

  • feel free to respond more than once :) Good answer – Jesse Pepper Jan 8 '09 at 6:39
  • "Haven't seen that in other languages yet." I haven't checked, so no idea if this is true, but D's template language may support this too. Besides that, probably some functional languages do as well, especially Lisp variants. For compiled imperative languages, your probably right (besides D maybe) – user21037 Jan 8 '09 at 12:16
  • ah, indeed, i forgot about D. anyway i didn't mean no language support it, i said i haven't see it. maybe there is yet another one beside D that also supports it :) but i think no-one does it, and also has mostly source compatibility with C like C++ has. – Johannes Schaub - litb Jan 8 '09 at 12:42

Template mixins provide reuse that I haven't seen elsewhere. With them you can build up a large object with lots of behaviour as though you had written the whole thing by hand. But all these small aspects of its functionality can be reused, it's particularly great for implementing parts of an interface (or the whole thing), where you are implementing a number of interfaces. The resulting object is lightning-fast because it's all inlined.

Speed may not matter in many cases, but when you're writing component software, and users may combine components in unthought-of complicated ways to do things, the speed of inlining and C++ seems to allow much more complex structures to be created.

  • How exactly does the speed of inlining allow for complexity? -1 – postfuturist Jan 8 '09 at 6:28
  • It allows for complexity at runtime. If a component architecture does not have very lightweight, fast components, then only few components will be able to be combined before the system becomes unwieldy. I'm speaking from experience here. – Jesse Pepper Jan 8 '09 at 6:31
  • @steveth45 so are you going to +1 me back to zero? – Jesse Pepper Jan 8 '09 at 6:32
  • speed matters and c++ is the best at rescue! – dotnetcoder Jan 8 '09 at 9:09
  • Have a read of this. thinkbottomup.com.au/site/blog/… – Jesse Pepper Jan 6 '12 at 8:52

Absolute control over the memory layout, alignment, and access when you need it. If you're careful enough you can write some very cache-friendly programs. For multi-processor programs, you can also eliminate a lot of slow downs from cache coherence mechanisms.

(Okay, you can do this in C, assembly, and probably Fortran too. But C++ lets you write the rest of your program at a higher level.)


This will probably not be a popular answer, but I think what sets C++ apart are its compile-time capabilities, e.g. templates and #define. You can do all sorts of text manipulation on your program using these features, much of which has been abandoned in later languages in the name of simplicity. To me that's way more important than any low-level bit fiddling that's supposedly easier or faster in C++.

C#, for instance, doesn't have a real macro facility. You can't #include another file directly into the source, or use #define to manipulate the program as text. Think about any time you had to mechanically type repetitive code and you knew there was a better way. You may even have written a program to generate code for you. Well, the C++ preprocessor automates all of these things.

The "generics" facility in C# is similarly limited compared to C++ templates. C++ lets you apply the dot operator to a template type T blindly, calling (for example) methods that may not exist, and checks-for-correctness are only applied once the template is actually applied to a specific class. When that happens, if all the assumptions you made about T actually hold, then your code will compile. C# doesn't allow this... type "T" basically has to be dealt with as an Object, i.e. using only the lowest common denominator of operations available to everything (assignment, GetHashCode(), Equals()).

C# has done away with the preprocessor, and real generics, in the name of simplicity. Unfortunately, when I use C#, I find myself reaching for substitutes for these C++ constructs, which are inevitably more bloated and layered than the C++ approach. For example, I have seen programmers work around the absence of #include in several bloated ways: dynamically linking to external assemblies, re-defining constants in several locations (one file per project) or selecting constants from a database, etc.

As Ms. Crabapple from The Simpson's once said, this is "pretty lame, Milhouse."

In terms of Computer Science, these compile-time features of C++ enable things like call-by-name parameter passing, which is known to be more powerful than call-by-value and call-by-reference.

Again, this is perhaps not the popular answer- any introductory C++ text will warn you off of #define, for example. But having worked with a wide variety of languages over many years, and having given consideration to the theory behind all of this, I think that many people are giving bad advice. This seems especially to be the case in the diluted sub-field known as "IT."

  • Great answer! My sentiments exactly. I remember asking a .NET (&& !C++) dev how to do a job where I would use macros, he said, oh, use snippets! Snippets defeat the whole purpose, they are an editor tool. When the repeated code changes you have to go and edit it all again, you can't make the change in one place. In my work we now use a frontend to c++ that has a much more powerful macro expander than c++. Using plain c++ is daunting now, using .NET is nauseating whenever writing duplicated code... especially if you're trying to generate tokens for the compiler. – Jesse Pepper Sep 16 '09 at 9:36
  • Ditto for the template argument, we use template mixins all the time (our frontend makes the syntax really concise to). It is the best form of code reuse you can get! – Jesse Pepper Sep 16 '09 at 9:36

Passing POD structures across processes with minimum overhead. In other words, it allows us to easily handle blobs of binary data.

  • This is not an exact duplicate but is along the same lines as what Boojum and Steve Rowe had to say about binary data. – Agnel Kurian Jan 8 '09 at 8:41

C# and Java force you to put your 'main()' function in a class. I find that weird, because it dilutes the meaning of a class.

To me, a class is a category of objects in your problem domain. A program is not such an object. So there should never be a class called 'Program' in your program. This would be equivalent to a mathematical proof using a symbol to notate itself -- the proof -- alongside symbols representing mathematical objects. It'll be just weird and inconsistent.

Fortunately, unlike C# and Java, C++ allows global functions. That lets your main() function to exist outside. Therefore C++ offers a simpler, more consistent and perhaps truer implementation of the the object-oriented idiom. Hence, this is one thing C++ can do, but C# and Java cannot.

  • Its strange why you say 'fortunately', when in fact global stuff is in general considered a bad thing. Java/C# (which came after C++, so they had all the power to do global functions if they wanted to) enforce the OO paradigm more than C++ (which honestly is just a hack on C to mimick OOP). A main() method is put in a class because you can have more than one main() method, but you can choose which class to start from in your execution. It enforces more the encapsulation principle that there is nothing global and everything has to belong somewhere. Global stuff is totally inconsistent with OOP. – jbx Apr 11 '13 at 20:29
  • @jbx Global variables are considered a bad thing. Not global functions. Also, there's no consensus yet on what OOP is. Or even if it's a good thing. – Frederick The Fool Apr 12 '13 at 5:35
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    Yes, I agree, there is no consensus whether OOP is good or bad, and in actual fact like most programming paradigms its useful in certain kinds of applications while in other situations other paradigms are more fit. Global functions are not considered good in OOP (might be ok in other paradigms) because OOP advocates encapsulation and information hiding. Global functions used in OOP are just a hack borrowed from procedural programming because who is using them doesn't know otherwise. OOP is not good for everything, but if you're going to do it, do it properly, something C++ fails miserably at. – jbx Apr 12 '13 at 11:55

I think that operator overloading is a quite nice feature. Of course it can be very much abused (like in Boost lambda).

  • Also, operator overloading can be faked out in other object oriented languages, such as BigInteger.add(...). While it may look uglier, it has the same effect. – Raymond Martineau Jan 8 '09 at 5:39
  • I agree with Zach, but Raymond, I think that's coming into the "messy" category. – Jesse Pepper Jan 8 '09 at 5:49
  • Raymond: everything can be faked out in any Turing complete language. The whole point of operator overloading is the cleaner syntax. – Max Lybbert Jan 8 '09 at 6:30
  • Also, operators don't need to be member functions, so you can add an operator that works with BigInterger, even if you can't modify the source of the class. – KeithB Jan 8 '09 at 12:54

Tight control over system resources (esp. memory) while offering powerful abstraction mechanisms optionally. The only language I know of that can come close to C++ in this regard is Ada.


C++ provides complete control over memory and as result a makes the the flow of program execution much more predictable. Not only can you say precisely at what time allocations and deallocations of memory occurs, you can define you own heaps, have multiple heaps for different purposes and say precisely where in memory data is allocated to. This is frequently useful when programming on embedded/real time systems, such as games consoles, cell phones, mp3 players, etc..., which:

  1. have strict upper limits on memory that is easy to reach (constrast with a PC which just gets slower as you run out of physical memory)
  2. frequently have non homogeneous memory layout. You may want to allocate objects of one type in one piece of physical memory, and objects of another type in another piece.
  3. have real time programming constraints. Unexpectedly calling the garbage collector at the wrong time can be disastrous.

AFAIK, C and C++ are the only sensible option for doing this kind of thing.


Well to be quite honest, you can do just about anything if your willing to write enough code.

So to answer your question, no, there is nothing you can't do in another language that C++ can't do. It's just how much patience do you have and are you willing to devote the long sleepless nights to get it to work?

There are things that C++ wrappers make it easy to do (because they can read the header files), like Office development. But again, it's because someone wrote lots of code to "wrap" it for you in an RCW or "Runtime Callable Wrapper"

EDIT: You also realize this is a loaded question.

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    the question said "too hard or messy"... did you see that? also, you say: "no, there is nothing you can't do in another language that C++ can't do". Read that again. In what way is it loaded? I'm looking for info from great C++ programmers. – Jesse Pepper Jan 9 '09 at 2:06

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