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Intuitively, it would seems that a compiler for language Foo, cannot itself be written in Foo. More specifically, the first compiler for language Foo cannot be written in Foo, but any subsequent compiler could be written for Foo.

But is this actually true? I have some very vague recollection of reading about a language whose first compiler was written in "itself". Is this possible, and if so how?

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See also this StackOverflow thread about bootstrapping. – Bruce Alderman Oct 15 '08 at 15:32
@Splattne Thanks for fixing my bad spelling – Nathan W Nov 2 '08 at 9:03
when closing as exact duplicate, please put in the comments where the duplicate is. Makes it easier to scan. – Thorbjørn Ravn Andersen Oct 25 '09 at 16:09
Possible duplicate of Bootstrapping a language – Peter Mortensen Aug 26 '12 at 19:12

12 Answers 12

up vote 141 down vote accepted

This is called "bootstrapping". You must first build a compiler (or interpreter) for your language in some other language (usually Java or C). Once that is done, you can write a new version of the compiler in language Foo. You use the first bootstrap compiler to compile the compiler, and then use this compiled compiler to compile everything else (including future versions of itself).

Most languages are indeed created in this fashion, partially because language designers like to use the language they are creating, and also because a non-trivial compiler often serves as a useful benchmark for how "complete" the language may be.

An example of this would be Scala. Its first compiler was created in Pizza, an experimental language by Martin Odersky. As of version 2.0, the compiler was completely re-written in Scala. From that point on, the old Pizza compiler could be completely discarded, due to the fact that the new Scala compiler could be used to compile itself for future iterations.

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I recall listening to a Software Engineering Radio podcast wherein Dick Gabriel spoke about bootstrapping the original LISP interpreter by writing a bare-bones version in LISP on paper and hand assembling it into machine code. From then on, the rest of the LISP features were both written in and interpreted with LISP. Very cool.

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For those who are interested, the URL is: – Bruce Alderman Dec 4 '08 at 20:47
Love it :) Good bare bones Lisp is a simple language. – Thorbjørn Ravn Andersen Oct 25 '09 at 16:18
Above link is dead. Seems to have moved here:… – Robru Mar 16 '13 at 20:07
Also, while this is undoubtedly incredibly awesome, it doesn't count as a language that self-hosting from the beginning: the initial compiler was a human brain instead of the lisp compiler. – Robru Mar 16 '13 at 20:10
I found the podcast at – Robin Kanters May 3 '15 at 12:59

Adding a curiosity to the previous answers. Here's a quote from the Linux From Scratch manual, at the step where one starts building the GCC compiler from its source. (Linux From Scratch is a way to install Linux that is radically different from installing a distribution, in that you have to compile really every single binary of the target system.)

make bootstrap

The 'bootstrap' target does not just compile GCC, but compiles it several times. It uses the programs compiled in a first round to compile itself a second time, and then again a third time. It then compares these second and third compiles to make sure it can reproduce itself flawlessly. This also implies that it was compiled correctly.

That use of the 'bootstrap' target is motivated by the fact that the compiler one uses to build the target system's toolchain may not have the very same version of the target compiler. Proceeding in that way one is sure to obtain, in the target system, a compiler that can compile itself.

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And skynet is born ;) – surya Aug 9 '12 at 21:53
"you have to compile really every single binary of the target system" and yet you have to start with a gcc binary that you got from somewhere, because the source can't compile itself. I wonder if you traced back the lineage of each gcc binary that was used to recompile each successive gcc, would you get all the way back to K&R's original C compiler? – Robru Mar 16 '13 at 20:03

When you write your first compiler for C, you write it in some other language. Now, you have a compiler for C in, say, assembler. Eventually, you will come to the place where you have to parse strings, specifically escape sequences. You will write code to convert \n to the character with the decimal code 10 (and \r to 13, etc).

After that compiler is ready, you will start to reimplement it in C. This process is called "bootstrapping".

The string parsing code will become:

if (c == 92) { // backslash
    c = getc();
    if (c == 110) { // n
        return 10;
    } else if (c == 92) { // another backslash
        return 92;
    } else {

When this compiles, you have a binary which understands '\n'. This means you can change the source code:

if (c == '\\') {
    c = getc();
    if (c == 'n') {
        return '\n';
    } else if (c == '\\') {
        return '\\';
    } else {

So where is the information that '\n' is the code for 13? It's in the binary! It's like DNA: Compiling C source code with this binary will inherit this information. If the compiler compiles itself, it will pass this knowledge on to its offspring. From this point on, there is no way to see from the source alone what the compiler will do.

If you want to hide a virus in the source of some program, you can do it like this: Get the source of a compiler, find the function which compiles functions and replace it with this one:

void compileFunction(char * name, char * filename, char * code) {
    if (strcmp("compileFunction", name) == 0 && strcmp("compile.c", filename) == 0) {
        code = A;
    } else if (strcmp("xxx", name) == 0 && strcmp("yyy.c", filename) == 0) {
        code = B;

    ... code to compile the function body from the string in "code" ...

The interesting parts are A and B. A is the source code for compileFunction including the virus, probably encrypted in some way so it's not obvious from searching the resulting binary. This makes sure that compiling to compiler with itself will preserve the virus injection code.

B is the same for the function we want to replace with our virus. For example, it could be the function "login" in the source file "login.c" which is probably from the Linux kernel. We could replace it with a version that will accept the password "joshua" for the root account in addition to the normal password.

If you compile that and spread it as a binary, there will be no way to find the virus by looking at the source.

The original source of the idea:

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I would have linked this myself if you hadn't. :) The first time I read this article I found it extremely interesting! – waxwing Aug 20 '10 at 12:00
this does not directly answer the question asked. Aaron, please improve your answer to actually directly answer the OPs questions (But is this actually true? Is this possible, and if so how?) - otherwise, this answer would be eligible for moderative removal as it does constitute a comment on the subject, not an answer. – vaxquis Jul 30 '14 at 13:02
@vaxquis: My second paragraph answered the question. I've deleted the first line which was misleading. – Aaron Digulla Jul 30 '14 at 13:47
thank you, Aaron. – vaxquis Jul 30 '14 at 13:56

You cannot write a compiler in itself because you have nothing to compile your starting source code with. There are two approachs to solving this. The least favoured is...

You write a minimal compiler in assembler (yuck) for a minimal set of the language and then use that compiler to implement extra features of the language. Building your way up until you have a compiler with all the language features for itself. A painful process that is usually only done when you have no other choice.

The preferred approach is to use a cross compiler. You change the back end of an existing compiler on a different machine to create output that runs on the target machine. Then you have a nice full compiler up and working on the target machine. Most popular for this is the C language as there are plenty of existing compilers that have pluggable back ends that can be swapped out.

A little known fact is that the GNU C++ compiler has an implementation that uses only the C subset. The reason being it is usally easy to find a C compiler for a new target machine that allows you to then build the full GNU C++ compiler from it. You have now boot strapped yourself to having a C++ compiler on the target machine.

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OP is talking about bootstrapping a new language, not writing the first compiler for a new architecture. I don't think anyone has had to start their new language with an assembler compiler since the 60s or 70s. There's never a reason to go lower than C for this purpose. – Bill Dec 23 '15 at 15:28

Generally, you need to have a working (if primative) cut of the compiler working first - then you can start thinking about making it self-hosting. This is actually considered an important milestone in some langauges.

From what I remember from "mono", it is likely they will need to add a few things to reflection to get it working: the mono team keep pointing out that some things simply aren't possible with Reflection.Emit; of course, the MS team might prove them wrong.

This has a few real advantages: it is a fairly good unit test, for starters! And you only have one language to worry about (i.e. it is possible a C# expert might not know much C++; but now thy can fix the C# compiler). But I wonder if there isn't an amount of professional pride at work here: they simply want it to be self-hosting.

Not quite a compiler, but I've recently been working on a system that is self hosting; the code generator is used to generate the code generator... so if the schema changes I simply run it on itself : new version. If there is a bug, I just go back to an earlier version and try again. Very convenient, and very easy to maintain.

[update] I've just watched the video of Anders at PDC, and (about an hour in) he does give some much more valid reasons - all about the compiler as a service. Just for the record ;-p

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Would you give the link to the video? – Thorbjørn Ravn Andersen Oct 25 '09 at 16:10
I would guess: – Marc Gravell Oct 25 '09 at 19:42

In compiler theory you can use T-diagrams for describing the bootstrapping process:

In my bachlor thesis I used these T-diagrams for describing the the process of converting and showing documents when storing large amounts of electronic documents in different formats from different platforms.

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Here's a dump (difficult topic to search on, actually):

This is also the idea of PyPy and Rubinius:

(I think this might also apply to Forth, but I don't know anything about Forth.)

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The Mono project C# compiler has been "self hosted" for a long time now, what it means is that it has been written in C# itself.

What I know is that the compiler was started as pure C code but once the "basic" features of ECMA were implemented they started to rewrite the compiler in C#.

Im not aware of the advantages of writing the compiler in the same language but Im sure it has to do at least with the features that the language itself can offer (C for example does not support object oriented programming)

You can find more information here

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Actually, most compilers are written in the language they compile, for the reasons stated above.

The first bootstrap compiler is usually written in C/C++ or Assembly.

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What is this mysterious C/C++ language you speak of? I've not heard of it before. Or did you mean, "... usually written in C, C++, or Assembly"? :) – Dan Moulding Aug 20 '10 at 12:05
@Dan Moulding: A guy named Bjarne Stroustrop said "The definition of C++ has been revised to ensure that a construct that is both legal C and legal C++ has the same meaning in both languages." Pretty clear to me what C/C++ is. ;) – mrjoltcola May 12 '14 at 7:07
@mrjoltcola And what does he have to say about constructs that are legal in one, but not legal in the other? Are such constructs legal or not in this language called C/C++? – Dan Moulding May 12 '14 at 16:28
@Dan Moulding-Before you display such sarcastic pedantism, at someone else's expense, you should educate yourself on the meaning of the forward slash. You have jumped to an incorrect conclusion about its meaning. It is synonymous with a comma, or the conjunction "or". It is perfectly legal to say "C/C++/Perl/Java". That doesn't mean "the C/C++/Java/Perl Language". If you don't believe me, try using it in Google search criteria. More at . But besides that, C/C++ is a common vernacular expression. You are trying to declare it slang, but it isn't. – mrjoltcola May 12 '14 at 21:53
Interesting that you'd say that, when the OP wrote "C/C++ or Assembly", not "C/C++/Assembly". I think you know as well as I that it's not about the slash. It's about people failing to distinguish between the distinct languages C and C++, treating them as though they are interchangeable. I've got nothing against OP, was just doing a little good-natured ribbing as I see C and C++ referred to this way a lot. And I hate to see C derided so casually, by referring to it as though it's in the same league as C++. C is a great language. C++ is a dung heap. – Dan Moulding May 12 '14 at 23:06

Maybe you can write a BNF describing BNF.

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You can indeed (it isn't that difficult either), but its only practical application would be in a parser generator. – Daniel Spiewak Oct 11 '08 at 1:40
Indeed I used that very method to produce the LIME parser generator. A restricted, simplified, tabular representation of the metagrammar goes through a simple recursive-descent parser. Then, LIME generates a parser for the language of grammars, and then it uses that parser to read the grammar someone is actually interested in generating a parser for. This means I don't have to know how to write what I just wrote. It feels like magic. – Ian Aug 20 '10 at 12:04

GNAT, the GNU Ada compiler, requires an Ada compiler to be fully built. This can be a pain when porting it to a platform where there is no GNAT binary readily available.

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I don't see why? There is no rule you have to bootstrap more than once (like for every a new platform), you can also crosscompile with a current one. – Marco van de Voort Jan 23 '12 at 20:20

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