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It would be interesting to contrast these two new languages by several aspects:

  • What are their design influences?
  • Where do they intersect in their goals / where do they rival?
  • Where are they distinct?
  • For which tasks is one or the other better suited?
  • What is your outlook on these languages? That is, which niche will D resp. Go fill?

As far as I know they are not direct competitors. Still it would be interesting to compare both languages especially since

  1. There are hardly any comparisons to find
  2. There are some subtle side blows from Andrei Alexandrescu against Go.

BTW, maybe some idiomatic code samples would be appropriate.

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My summary is go try to have little syntax and be simple, D tries to have a lot of syntax, features, etc and isnt meant to be simpe. I like features/power rather then simplicity (damn you vb), thus i dislike go and like D. –  acidzombie24 Jan 28 '11 at 4:49
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closed as too broad by Bill the Lizard Oct 23 '13 at 11:15

There are either too many possible answers, or good answers would be too long for this format. Please add details to narrow the answer set or to isolate an issue that can be answered in a few paragraphs.If this question can be reworded to fit the rules in the help center, please edit the question.

3 Answers

up vote 60 down vote accepted

This mail thread can answer a lot of your questions. It also includes a lengthy discussion between Andrei Alexandrescu & Ian Lance Taylor (part of the Go team).

EDIT: It's not a very good thread until about the 24th or so message.

However I will summarize my take (though personally, I think comparing Go to D is apples to oranges)

Go and D have very different design influences. D is (obviously) strongly influenced by C++. Go takes more from C, Limbo, Newsqueak (all 3 of which were at least in part created by people working on Go), and some others. Use each language and they start to seem miles apart.

They have very different goals as well. Where D is meant as a (++C)++ (from what I've read), Go was written to specifically meet the needs/wants of its core design team (i.e. simple concurrency for server software, etc).

They are distinct from each other in 1000+ areas.

They're both turing complete :B, but they do have different design goals. It is currently difficult/impossible? to write an OS in Go (and the language wasn't designed to do so), whereas there is already an exokernel project in D. OTOH Andrei Alexandrescu has said himself that D's networking libraries fall behind Go's. And If you want to do CSP, Go wins hands down over D.

Personally D is too fat for my tastes, and Go lets me write concurrent programs the way they work in my head (a bunch of coroutines talking to each other). But that's just personal sentiment.

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For concurrency, have you looked at std.concurrency in the D2 standard lib? This is D's flagship concurrency model, and is message passing-based, though as a systems programming language it still lets you use unchecked shared state if you want to. –  dsimcha Aug 24 '10 at 19:32
The mail thread was very interesting thanks for the link! –  Eugen Aug 25 '10 at 7:59
@dsimcha I haven't actually looked @ std.concurrency, but I have heard of it. If I understand correctly it uses the actor model, which is similar to CSP, but not quite the same. Like I said I use Go, not D, so my answer was a little biased. That's why I wanted this to be CW, so people can add/edit. –  cthom06 Aug 25 '10 at 11:42
@RobFox thats not really so true anymore (in fact a proof of concept was in the Go tree for a while but has been forked out). –  cthom06 Oct 14 '11 at 12:46
I it is perfectly possible to write an OS in Go, there have been at least two projects that have demonstrated Go kernels running on bare hardware: tinygo and gofy. And I have heard of a few others. –  uriel Sep 15 '12 at 0:29
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Things in common

In their design goals, there are lots of similiarities between D and Go. They have the following things in common:

  • General purpose programming languages. They can be used for all kinds of applications reasonalbly well.
  • Systems programming languages. While both languages are very much high level, they can communicate with hardware and do low level-stuff. D might be better in that field, since its binary interface is more precisely specified.
  • Productivity and performance. Both languages aim for both productivity and performance. To me it seems, that D goes a bit more towards performance, while Go tends to simplify things for the programmer and goes for productivity.
  • At all scales. D and Go are designed for projects of any scale, starting from 5 lines to millions of lines of code. Personally, I think, that Go would go better for smaller apps, while D would go better for larger projects.
  • C-like syntax. Many keywords and operators are borrowed from C. Though D is much closer.
  • Imperative style. Both languages allow an imperative style of programming.
  • Garbage collection. Both languages rely on garbage collection. Both provide facilities to disable it though.
  • Memory-safety. In both D and Go arrays bounds are checked in debug mode. Both D and Go have clearly defined language subsets, where it is impossible to corrupt memory. Lots of bugs and bad program crashes can be avoided that way. Both languages can still do wild pointer access stuff in an unsafe mode though.
  • Type-safe. Both languages use static type checking. However, D is more strongly typed than Go.
  • Built-in dynamic array types. Dynamicly sized (integer indexed dense) arrays as well as associative arrays (maps) and strings are part of the core language. Other container types are implented in respective libraries.
  • Pointer types. D and Go support pointer types. In safe mode the use is restricted.
  • Error handling. Both languages use exceptions as error reporting method. In Go throwing an exception is called panicking, catching an exception is called recovering, which is a bit more understandable for novice programmers. In Go, as in Google, exceptions seem to be rather discouraged. You should only throw them, if you really have to. The exception handling in D is more the C++ or Java way to do it. In D it seems to be designed for big pieces of safe and secure software.
  • Closures. Both languages support nested functions and closures very similiarly.
  • Easy to parse. A design goal for both languages is that the code should be easy to parse, so that external tools, like IDEs, can easily be developed. To me it seems that Go is parsable more easily, since D is simply the bigger language.
  • Compile quickly. Both languages compile very quickly as a result of the previous point.
  • Automatic documentation creation. There are tools to create a source code documentation from the source code automatically. The coder needs to apply a few rules, when (s)he writes the comments in the code. The documentation can be automatically created from that. For D Doxygen can be used. For Go there's Godoc.
  • Unicode support. Code files can be written in arbitrary unicode.


Other than that, Go and D are quiet different in style, mostly because of the following:

  • Object oriented programming. While D follows pretty much the same approach as C#, Java and C++ by using structs, classes and interfaces with the same meaning as in these languages, Go does not have classes, but only structs and interfaces. In Go the structs do not have to tell that they implement an interface at the time of their definition, but the compiler determines that, when needed. It's a bit like C++ concepts, but more dynamic.
  • Concurrency. Both languages have fascinating new ideas on how to deal with concurrency. In D threads communicate via messages. Memory is not shared, but thread-local by default. This enables the compiler to optimize more agressively, as long as data is not declared as being shared. D allows functions and classes to be synchronized as a built-in language feature. This is all possible without explicit lock, mutexes, condition variables, barriers, etc., but they are also supported in the standard libraries. In Go there are goroutines which are like threads, but more light weight. They have a dynamically sized stack and there can be several hundred thousand concurrent goroutines in a program. Several concurrent goroutines might actually be executed sequentially in one thread to enable all this light weightness. Go routines communicate through channels, which could be compared to futures. Through the select keyword event handling becomes as easy as ever.
  • Correctness philosophy. D puts a lot of emphasis on correctness and safety. Hence there's a keyword pure in order to declare a function as purely functional (i. e. without visible side effects). The compiler then checks, if the program abides by the respective rules. In this way, programming errors can be found at compile-time instead of relying on programmer discipline and extensive runtime testing alone. D has assertions, Go hasn't. Only D supports precondition and postcondition contracts of functions, defining class invariants and automatic unit testing.
  • Simplicity philosophy. The learning curve of D is steeper, but once mastered it's more practical than Go in many day to day aspects. While D covers more features in more detail than Go, Go goes for simplicity and is in general easier to learn. For people familiar with C++, Java or C#, it will be about the same. While Go is slightly less verbose to write, D will tell you more often at compile time, that you did something wrong.
  • Template meta programming. In D almost everything can get template parameters: structs, classes, interfaces, functions, types, enums, variables and other templates. A lot of stuff can be done at compile time. (Someone wrote a compile-time raytracer in D.) There are no templates in Go, since templates are considered complicated. (This is mostly due to C++ where template meta programming can be quite a pain.) D did a really good job though making templates easy to use and efficient.

Niches to fill

As I said, both are general purpose programming languages. There's a lot of potential for both. Go might be easier to learn for novices because of its simplicity. For those familiar with C++, Java and C# it will be very easy to learn either language.

Dealing with concurrency appears to be easier in Go, even though it's not really hard in D either. For web services and programs that need to be responsive and deal with lots of concurrent tasks Go would be the language of choice. Also for smaller applications I would probably favor Go.

For safety-critical software, hardware programming, systems programming and large scale projects I would rather prefer D.

A drawback for both languages is that they do not provide satisfying gui libraries yet. But that will hopefully change soon, as they mature.

Both languages seem to have a very good support. Though they are new programming languages you can rely on them being continued in the future. Both languages are designed very professionally.

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A very thoughtful and thorough treatment, thank you! –  Paul D. Eden Dec 8 '12 at 20:26
Go also provides the facility to disable garbage collection.And how is the "binary interface of D more precisely specified"? –  Alexander Jan 1 '13 at 23:53
@Alexander: I'll make an edit concerning garbage collection. The application binary interface of D is very clearly specified on dlang.org/abi.html. I did not see such a clear specification for Go. Did you? If so, I'm happy to edit my post concerning that. –  Ralph Tandetzky Jan 3 '13 at 20:08
Facebook is using D in production now. Official announcement: forum.dlang.org/thread/l37h5s$2gd8$1@digitalmars.com. Relevant discussion: reddit.com/r/programming/comments/1o7p2f/… and news.ycombinator.com/item?id=6532322 –  Nanda Oct 12 '13 at 17:26
I would also remark that the statement "Both languages have fascinating new ideas on how to deal with concurrency." is incorrect. The ideas used are quite old indeed; the theoretical foundation for Goroutines is from 1978: en.wikipedia.org/wiki/Communicating_sequential_processes and can be found in languages like Occam. The rather different Actor Model of D is from 1973: en.wikipedia.org/wiki/Actor_model and can be found in Erlang for example. –  David Tonhofer Dec 28 '13 at 0:14
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D and Go are both interesting languages with very different philosophies.

Go seems to aim for simple as possible while being fast, flexible, and featureful enough. D seems to aim for fast, flexible, and featureful as possible while being simple enough.

An illustrative example might be the access of globals in multiple threads. (In my limited understanding) In D, you can declare your data immutable, which means the compiler can verify that it is safe for concurrent reading. If it isn't immutable, it is by default thread-local, so multiple threads can't access it and there is a bit of overhead associated with writing to it, but it is safe. If you actually want to access a global in multiple threads, there is a "shared" storage class you can assign it, making it explicit that you intend to access it across multiple threads.

By contrast, global variables in Go have no protections. If you want to access them safely across multiple threads, that's your problem. Go provides the easy means to make your code threadsafe, but it doesn't require you to write threadsafe code via static analysis and type qualifiers.

The Go designers seem to believe in "small government" language design; the language isn't responsible for forcing you to write correct code or doing static analysis or supporting unit testing or allowing arbitrary computation at compile time. They're old school Unix guys, where the philosophy is "Write programs that do one thing and do it well. Write programs to work together". Parsing Go is not too difficult, and Go comes with a complete Go parsing library, so writing additional tools isn't terribly difficult.

The D designer(s) seem to be more "big government" in the language design. The language is designed to take care of as much as possible, to be useful for every purpose. It can be safe, it can be unsafe. It can be garbage collected, or you can manage memory manually. It has built-in unit testing, lazy evaluation, static analysis, macros, and anything else you could want. It looks like it does a pretty decent job of doing everything.

Go doesn't yet have generics, so it can be awkward to write your own general purpose data structures.

One big advantage that Go has is that it has Google paying for it, so it has a team working full time to improve it's libraries and tools. If Google is using Go internally to any significant extent, then you can be pretty sure that Go will exist and be well-supported for some time.

Both languages have the benefit of skillful and experienced team members, which is a big deal.

Anyway, both are under active development and making rapid advances, so I don't know that I'd use either for a serious project right now, but I'm watching with interest.

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That sounds a lot like the good old "Scheme vs Common Lisp" discussions. Small & Simple vs Pragmatic & Powerful... –  lbruder May 24 '11 at 13:08
So D is like Ada, while Go is like Perl :-) –  David Tonhofer Dec 28 '13 at 0:16
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