This has been bugging me for a while. How do GCC and g++ compile themselves?

I'm guessing that every revision gets compiled with a previously built revision. Is this true? And if it is, does it mean that the oldest g++ and GCC versions were written in assembly?


The oldest version of GCC was compiled using another C compiler, since there were others when it was written. The very first C compiler ever (ca. 1973, IIRC) was implemented either in PDP-11 assembly, or in the B programming language which preceded it, but in any case the B compiler was written in assembly. Similarly, the first ever C++ compiler (CPre/Cfront, 1979-1983) were probably first implemented in C, then rewritten in C++.

When you compile GCC or any other self-hosting compiler, the full order of building is:

  1. Build new version of GCC with existing C compiler
  2. re-build new version of GCC with the one you just built
  3. (optional) repeat step 2 for verification purposes.

This process is called bootstrapping. It tests the compiler's capability of compiling itself and makes sure that the resulting compiler is built with all the optimizations that it itself implements.

EDIT: Drew Dormann, in the comments, points to Bjarne Stroustrup's account of the earliest implementation of C++. It was implemented in C++ but translated by what Stroustrup calls a "preprocessor" from C++ to C; not a full compiler by his definition, but still C++ was bootstrapped in C.

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    The 3-step version of the bootstrap build process is indeed for verification: the compiler itself is used as its own test case. GCC compiled with [other] should produce the same results (identical binaries, discounting macros like __DATE__ and __TIME__ which vary even between invocations of the same compiler) as GCC compiled with [GCC compiled with [other]] - if not, that's a bug, and the 3-stage bootstrap build is designed to catch that. – pmdj Feb 24 '12 at 11:12
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    @pmjordan: "if not, that's a bug" or, less likely, a devious backdoor in the process of being introduced ("Reflections on Trusting Trust"). – Steve Jessop Feb 24 '12 at 11:20
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    @sleske: that's not true. The binary output of step 2 must be identical to the binary output of step 3, otherwise there's a bug somewhere. The reason is as pmjordan says: NewCompiler1 and NewCompiler2 are programs with identical source (that of NewCompiler). They are given identical input (the source for NewCompiler). Therefore they will produce identical output no matter what compiler they themselves were compiled with (in this case, NewCompiler1 was compiled with OldCompiler, and NewCompiler2 was compiled with NewCompiler1). That is, NewCompiler2 and NewCompiler3 are binary identical. – Steve Jessop Feb 24 '12 at 11:52
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    I you ever wondered: What if we lost all C compiler binaries? And had to bootstrap from scratch? This is how I'd go about it: There's the Tiny C Compiler (which actually can compile the Linux kernel, so it's quite feature complete). All it's C source files make a mere 30k lines of code, including comments. Though even it was a quite some effort, somebody who understands C could learn from the sources, how to generate binary output and "compile" the TCC sources from hand (I actually thinking of punch cards here). Then recompile TCC with that and use it to bootstrap GCC or similar. – datenwolf Feb 24 '12 at 12:03
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    @datenwolf: something like that, yes. If we can assume that we've lost all C compiler binaries, but we still have an assembler, then we might write an assembler program TinyTinyC. It would be a less feature-complete C compiler than TinyC: we don't need it to be able to compile GCC or the linux kernel, we only need it to be able to compile TinyC. Then run it on the source of TinyC, that gives us a C compiler capable of compiling Linux (and hopefully glibc and GCC) and we're in business. If we don't even have an assembler, then we'd first bootstrap one of those, it's easier than a C compiler. – Steve Jessop Feb 24 '12 at 12:07

If you want to replicate the bootstrap process of GCC in a modern environment (x86 Linux), you can use the tools developed by the bootstrappable project:

  • We can start with hex0 assembler (on x86 it's 357 byte binary) which does roughly what the following two commands do

    sed 's/[;#].*$//g' hex0_x86.hex0 | xxd -r -p > hex0
    chmod +x hex0

    I.e. it translates ASCII equivalent of binary program into binary code, but it is written in hex0 itself.

    Basically, hex0 has equivalent source code that is in one to one correspondence to its binary code.

  • hex0 can be used to build a slighly more powerful hex1 assembler that supports a few more features (one character labels and calculates offsets). hex1 is written in hex0 assembly.

  • hex1 can be used to build hex2 (even more advanced assembler that supports multi character labels).

  • hex2 then can be used to build a macro assembler (where program using macros instead of hex opcodes).

  • You can then use thismacro assembler to build cc_x86 which is a "C compiler" written in assembly. cc_x86 only supports a small subset of C but that's an impresive start.

  • You can use cc_x86 to build M2-Planet (Macro Platform Neutral Transpiler) which is a C compiler written in C. M2-Planet is self hosting and can build itself.

  • You can then use M2-Planet to build GNU Mes which is a small scheme interpreter.

  • mes can be used to run mescc which is a C compiler written in scheme and lives in the same repository as mes.

  • mescc can be used to rebuild mes and also build mes C library.

  • Then mescc can be used to build a slighly patched Tiny C compiler.

  • Then you can use it to build newer version of TCC 0.9.27.

  • GCC 2.95.3 and its accompanying Glibc can be built with TCC 0.9.27.

  • Then you can build newer GCC using older GCC. E.g. GCC 2.95.3 -> GCC 4.7 -> modern GCC.


hex0 -> hex1 -> hex2 -> M0 -> M2-Planet -> Mes -> Mescc -> TCC -> GCC.

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