Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

What are the reason/s behind other languages not having a Garbage Collector?

EDIT: Why garbage collection is not built-in for these other languages? why do programmers given the responsibility to collect?

EDIT: All of the questions if possible please :)

share|improve this question
Not an exact duplicate, but start here for an informed discussion:… – Michael Petrotta Mar 15 '10 at 2:48
So which question do you want answered. The one in the title or the one in the body? – JohnFx Mar 15 '10 at 2:55
@JohnFx: So what is the big difference between "Why" and "What are the reasons" (for other languages not having a garbage collector)? – Thilo Mar 15 '10 at 3:32
@Tom: I find it hard to imagine how a post-1990 language without some kind of GC would thrive, except a version of an older language. Or an assembler language. Java has it for a good reason. All I can think is that Perl 5 is about contemporary with Java, and only had reference-counted, not mark-sweep GC. C and C++ satisfy almost all of the commercial demand to create memory leaks and dangling pointers, so I guess maybe look at fairly niche languages. Wikipedia says Ada implementations typically don't support GC, and the last version of that was 2005. – Steve Jessop Mar 15 '10 at 4:26
Rather than "languages", I think the word to be used here is "platforms". I can write C++ on .NET, a completely managed and garbage collected platform. I could also write C# on a non-.NET platform that is unmanaged. – Travis Heseman Mar 15 '10 at 13:00

10 Answers 10

Reasons not to have garbage collection:

  • Really efficient collectors weren't developed until around 1985–1990. Languages designed before that time, if efficiency was a goal, don't have garbage collection. Examples: Ada, C, Fortran, Modula-2, Pascal.

  • Bjarne Stroustrup thinks it is better language design to make every cost explicit, and "not to pay for features you don't use." (See his papers in the 2nd and 3rd ACM Conferences on the History of Programming Languages.) Therefore C++ doesn't have garbage collection.

  • Some research languages use other ideas (regions, fancy type systems) to manage memory explicitly, yet safely. These ideas have special promise for problems such as device drivers, where you may not be able to afford to allocate, or for real-time systems, where memory costs must be very predictable.

share|improve this answer
+1. * Garbage collection only helps manage memory. Other patterns, like RAII let you deterministically manage all resources, including memory, in a consistent way. – Adrian McCarthy Mar 15 '10 at 12:55

"Other languages" do - this question is tagged C# and the .NET CLR most definitely does perform automatic garbage collection.

I can think of a few reasons for C++ not to have it:

  • All existing code in C++ uses explicit memory management, so implementing garbage collection would be a breaking change;

  • By the same token. C++ programmers are already accustomed to explicit memory management, so garbage collection isn't that important a feature;

  • Good garbage collection algorithms are fairly new, and C++ predates them by quite a bit. Garbage collection is a horizontal feature and the language designers would have to make major (and complicated) changes to the spec. Put simply, it's harder to bolt on a garbage collector to an existing language than it is to design it into the language from the beginning, as it was with .NET and Java.

  • Java runs in a Virtual Machine and .NET uses something similar, whereas C++ deals with native code. GC is much easier to reason about in the former case.

  • C++ is often used for applications that need to run under tight memory requirements (i.e. embedded systems), and in these instances, explicit memory management is a necessity. I suppose some sort of "opt-in" GC could solve this, but that is even harder for the language designers to implement properly.

share|improve this answer
Objective-C has optional garbage collection. I consider the feature a regression as now libraries have to be tested under both environments (not that garbage collection is a regression; it can be very handy) – rpetrich Mar 15 '10 at 3:13
@Aaronaught: um, converting a C/C++ app to use the Boehm collector I linked to below is quite simple really. And you shouldn't have to do anything to manage file handles and sockets because in most GC languages, you're still expected to manually manage file handles and sockets. Would you like some references? – msalib Mar 15 '10 at 3:54
@Aaronaught: Please, take a moment and skim the Boehm GC page I linked to earlier. There you will find useful information like "Empirically, this collector works with most unmodified C programs, simply by replacing malloc with GC_malloc calls, replacing realloc with GC_realloc calls, and removing free calls." And one more time, would you mind writing in a more professional manner? Are you capable of that? Can you disagree with people without using snide insults? Or is that skill beyond your abilities? – msalib Mar 15 '10 at 4:06
@Aaronaught: I have used the Boehm collector, so you're incorrect. My experience with large C applications is that even the best developers tend to screw up manual memory allocation, and when they do, data gets overwritten leading to complex failures that are very difficult to debug. Based on that experience, I'd be happy to plug in the Boehm collector if the performance for my application was good enough. You might want to read more about Boehm...he's not just some random guy with a web page. And obviously, changes to something as fundamental as GC would have to be tested rigorously. – msalib Mar 15 '10 at 4:20
@Aaronaught: Any change should be tested. Your claim was not that switching a C program to GC was a change that warranted testing. Everyone agrees on that. Your claim was that it would break existing programs. Most changes will not break existing programs, but I still test all changes I make anyway. You also claimed that it would be very labor intensive; this also was incorrect. – msalib Mar 15 '10 at 4:42

The hardware has no garbage collector (there was some hardware which had some elementary support for forwarding pointers, a feature useful in the construction of some garbage collectors, but that's far from a "GC in hardware"). Correspondingly, assembly has no GC. Assembly is a "programming language" (albeit one of the closest to the bare metal), so their you go: in the wide spectrum of existing programming languages, some will not have a GC.

It so happens that an efficient GC is not something which is easy to implement. Good algorithms for that have been long in the making. More importantly, most good GC algorithms are good because they perform some elaborate operations such as moving data elements in RAM; this is necessary for the "realtime GC" which offer guarantees on maximum time spent for allocation (you cannot have such guarantees when there is fragmentation, and you cannot avoid fragmentation without moving objects in RAM). When an object is moved, all pointers to that object must be automatically adjusted, which can be done only if the programming language offers strong, unescapable types. For instance, this cannot be done with C or C++. In C, it is legal to print out the bytes which encode a pointer value, and then have the user type them back. The GC cannot change the brain of the user when it moves an object...

So in practice, languages without strong types are GC-less. This includes C, C++, Forth, all kinds of assembly-with-extensions languages... This does not prevent some people to write GC implementations for such languages, e.g. Hans Boehm's GC for C and C++. It does mean, though, that the GC may fail with (weird) programs which are nominally "legal", as far as the language standard is concerned.

There are also languages with strong types but without a GC, either because their designers did not believe in it, or believed they could do better without, or cringed from the extra code size (for instance, Javacard, the Java for smartcards, is GC-less, because fitting a GC in an environment with 8 kB of code and 512 bytes of RAM is not easy).

Finally, among the thousands of programming languages which have been designed ("once per week since the sixties", I was once told), some are the result of late-at-night conversations after too much alcohol, so it cannot be assumed that every feature or non-feature of all programming languages is the result of balanced rational thinking.

share|improve this answer

Some languages are old. For example C, which was originally designed for systems programming on machines much slower than today's. Garbage collection probably didn't exist then (well, maybe Lisp?) and even if it did, the designers wouldn't have wanted to spend all the CPU cycles and memory overhead on garbage collection when the programmers could do it themselves. And since the machines were so much less powerful, software was simpler, and hence it was easier for programmers to manually manage memory than it would be in the much bigger applications which might be written today.

share|improve this answer
What do you mean "maybe Lisp". Yes, Lisp. Lisp which is much older than C. – Tom Hawtin - tackline Mar 15 '10 at 3:04
@Tom: Lisp is much easier to garbage collect though (and have efficient emitted code), so there's more to it than age. If garbage collection in imperative languages had been so easy when C was invented, Sun would not have spent nearly 20 years improving Java GC from their first version. They'd have effortlessly slung in generational, compacting, concurrent, real-time-guarantee GC off the shelf. – Steve Jessop Mar 15 '10 at 3:14
Steve Jessop: can you explain why it is easier to generate GC-friendly Lisp code than C code? I mean, most Lisp implementations compile to an intermediate language that's basically portable assembler which is basically C. Lisp is an imperative language. As for Sun, well, generally I don't buy arguments that start from the premise that big corporations execute rationally and perfectly. – msalib Mar 15 '10 at 3:31
@Aaronaught: Intermediate languages are used for JITting but are also used extensively in static compilation; that's why GCC has several different IRs. Besides that, some Lisp implementations compile directly to C and use the system C compiler to build the resulting image. I have no idea what you're talking about wrt compiled applications and the OS handling GC...did anyone say anything about that? Obviously, the Common Lisp runtime is not identical to libc, what? – msalib Mar 15 '10 at 3:48
Steve Jessop, I never meant to imply that "because Lisp can be compiled, any assembler program can be GCed"...I'm not even sure what that means. My point it just that many Lisp implementations use a C-like (in some cases, precisely C) IR. And many of them use foreign function interfaces that interoperate quite well with C code. – msalib Mar 15 '10 at 3:52

If you don't know why, it's because of money. In early days computers were expensive and programmers cheap. Now it's 180 degrees different - computers are cheap and programmers expensive. GC needs a bit of CPU to do his job.

Also, most GC need to make program freeze sometimes to perform full sweep. In a real-time software - industrial monitoring, stock market and so on - this is not an option. And sometimes clients could see it too in one of apps I co-developed (ASP.NET website sometimes froze for a minute or so).

Another reason - nobody's perfect and GC could potentially get some leaks. If you write carefully with some non-GC languages that is not likely.

share|improve this answer
Actually, run of the mill "programmers" are cheaper now than they've ever been... competent programmers, now that's another story. – Lawrence Dol Mar 15 '10 at 21:24

People already answered to your question, but still, your question has an hidden assertion that is "garbage collection is the solution to all problems", and I would like to discussion this assertion...

GC is not the only way to handle memory

There is at least three ways to handle memory allocation:

We agree that "Manually" can be actually cumbersome and ugly. Now, you should note that even with a GC, there are some devious ways to leak memory.

GC does not handle resource leaks

There are a lot of limited resources in a program, in addition to memory:

  • file handles
  • other OS handles
  • network connections
  • database connections
  • etc.

Those are limited resources you want to be freed as soon as they are not used anymore, instead of "not at all" or even "when the process exits".

Those resources must usually be acquired and unacquired manually in GC-powered languages (i.e. Java). If you want to see how ugly it can be, please take a look at this question:

RAII does handle memory and resource leaks

Using the RAII idiom will enable you to write readable code, without any leaks, memory or otherwise. Fact is, I can't remember a time when, writing C++ code, I was worried by memory allocation/deallocation, despite the fact I use no Garbage Collection.

But I clearly remember that in october 2008, I had to handle a resource leak in Java, and the solution was so ugly it was disgusting.


What are the reason/s behind other languages not having a Garbage Collector?

The answer could be:

  • because at that time GC was not effective enough
  • because GC is not the solution to all resouce leaks
  • because there is no need.

C++ is more in the "there is no need" section.

GC can be a cool bonus to C++'s RAII (see ), but there's no way I would exchange my RAII for your GC.


share|improve this answer

A simple fact is that there is no silver bullet. GC does not resolve all memory/performance problems yet.

share|improve this answer

More modern languages like C# and java have Garbage Collection because it's easier to write code if you don't have to worry about memory management. Older languages don't. There are also many applications (e.g. embedded applications running without any access to virtual memory) where you need to manage exactly how much memory your application will use and for these a language like C++ is more appropriate. Real-time applications may also limit your ability to use a garbage-collected language as you need to be in full control of how quickly your application responds at any time.

share|improve this answer
The realtime argument doesn't seem right: most C/C++ allocators do not have guaranteed realtime performance bounds and there are realtime GC implementations available. If you're doing realtime work, you need to use special memory management implementations, no matter what language you use. – msalib Mar 15 '10 at 3:12
I think it's correct as written: "Real-time applications MAY limit your ability to use a garbage-collected language". And yes, agree, even when you are using a non-GC language you still need to do work to avoid memory allocations and indeed any other long-running operation during time critical sections of your code. – Ian Mercer Mar 15 '10 at 3:40
I'm afraid the realtime argument is very right. Take video games for example. Running a scripting language which uses garbage collection (Lua for example) can cause a garbage collect while allocating memory. This can cause the CPU to spike and spend longer than a frame to execute. This will lead to visible frame rate lag. – Cthutu Mar 15 '10 at 13:21
@Cthutu But that has nothing specifically to do with garbage collection. That applies to any library that can incur unbounded pauses. Garbage collectors can but they don't have to... – Jon Harrop Jun 24 '13 at 23:02
@Ian - older languages do have garbage collection. In fact the second oldest language that is still in use invented garbage collection (Lisp). – Cthutu Jun 28 '13 at 14:15

C, C++, Java and C# were created at different points in time (and in that order). Both Java and C# have garbage collection.

Generally, more recently developed languages tend to have better support for memory management because the state of art has advanced each time.

share|improve this answer
Given that Common Lisp and Smalltalk were developed before C and C++, this doesn't make much sense. – msalib Mar 15 '10 at 3:07
@msalib See Steve Jessop's comment on this answer:… – MatrixFrog Mar 15 '10 at 3:24
@msalib: This is bogus, like all of your other comments here. Development on C started in the same year as development on Smalltalk, and C appeared on the mass market much earlier. Lisp was aimed at a different market entirely; it is/was a great language in its own right but has virtually no relevance to this answer or to the topic in general. – Aaronaught Mar 15 '10 at 3:29
@msalib: I state that more recent languages tend to have better support for memory management. I was actually a very early user of Smalltalk and am quite familiar with it. However, the vast majority of languages of the same time period did not offer garbage collection. The vast majority of languages created in the last several years do offer garbage collection. Just because you can point to a 120 year old heavy smoker doesn't mean that heavy smoking makes you live long. – Eric J. Mar 15 '10 at 3:52
Thanks for clarifying. I'm not sure what inference you think we should be drawing: why does the fact that C is an old language explain why it doesn't have GC? Clearly it wasn't a global ignorance of the existence of GC. – msalib Mar 15 '10 at 3:59

There is actually a GC for C and C++ here.

But in general, the C/C++ communities developed an aversion from day one to learning about many successful programming language features that were widely used in the dynamic language communities, starting with GC. In part, I think this phenomena emerged from the culture of Bell Labs; you had a bunch of hard core hard driving whip smart people who were convinced they knew better and that they didn't need any language features to reduce defect rates. That's why C strings are a nightmarish security hole still creating massive security problems today: because a bunch of Bell Lab hackers knew, just knew, that they could write safe secure code even though the API was made out of razor blades and nitroglycerin. Perfect programmers don't need netstrings and perfect programmers don't need a GC. Too bad that there are no perfect programmers. Confidence is important , but humility keeps us from destroying ourselves.

share|improve this answer
GC is hardly unique to the "dynamic language community". Java and C#/.NET are not dynamic languages (well, .NET is getting there, but only in small doses). Nor are C and C++ owned or represented by a single unified "community." This entire rant seems to be predicated on a series of false assumptions. – Aaronaught Mar 15 '10 at 3:06
Aaronnaught, at the time C and C++ were being designed, almost all the serious languages using GC were dynamically typed. Right? – msalib Mar 15 '10 at 3:09
@msalib: The only other language I know of using GC at the time was Lisp, and in order to run Lisp you needed a massively expensive Lisp machine. There was no conceivable way that the C/C++ language designers could have included that feature and still end up with a product that would be useful in their target market. Even if you ignore all this, your tirade is still a massive and implausible leap in logic. I'm sure you know exactly what the "hackers" at Bell Labs were thinking, yep. Who are you again? – Aaronaught Mar 15 '10 at 3:13
@msalib: As I replied to your other comment, Smalltalk did not exist before C, and C++ was modeled after C, not Smalltalk (obviously). We really need a garbage collector for SO. – Aaronaught Mar 15 '10 at 3:31
@Aaronnaught: Smalltalk and C were developed at about the same time. Lisp was developed long before both C and C++. Since GC was an important feature of both Lisp and Smalltalk, it is not rational to argue that GC didn't appear in C/C++ because it was a novel technology that no one understood. As for who I am, I'm a guy who actually interned at Bell Labs for a while. The place was full of whip smart people, some of whom were a bit arrogant. That's hardly an novel observation. – msalib Mar 15 '10 at 3:44

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.