I understand the structure of a compiler in regards to front-end and back-end. However, I am not sure why compilers are often divided into front-end and back-end. I am sure there are many reasons can you give me a few? because, most books / websites tell you what they are but fail to tell you why!

Thank you.


The front-end deals with the language itself: scanning, parsing, the parse-tree. The back end deals with the target system: object code formats, the machine code itself, ... The two things don't have all that much to do with each other, and for a portable compiler it is highly desirable to use the same front-end with multiple backends, one per target.

You can take that further, as gcc does, and have a front/backend interface that is language-independent, so you can use different language front-ends with the same backend. In the old days this was called the MxN problem: you don't want to have to write MxN compilers where you have M languages and N target systems. The idea is to only have to write M+N compilers.

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  • Can you please tell me how is it M + N compilers ? I think we have M front ends to convert to ICG and N code generators to convert to Target machine code. Are you considering each front end and back end as a compiler ? – Zephyr Dec 3 '17 at 17:38
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    @Zephyr, Without a FE/BE combination we would need so many permutations which is unnecessary/unwieldy. – Paul Joseph Dec 14 '17 at 20:10
  • @Zephyr Yes, a front end/back end combination is a compiler. Surely this is obvious? – user207421 Feb 19 '18 at 3:48
  • @Zephyr, say you have three languages (C, C++, Rust) and two target architectures (x86 and ARM). If you had each front end target each back end you'd have C => x86, C => ARM, C++ => x86, C++ => ARM, Rust => x86, and Rust => ARM, which is 6 total (MxN). Alternatively, if you have the front ends target an intermediary language and the backends target specific architectures, then you have C => IL, C++ => IL, Rust => IL, IL => x86, and IL => ARM, which is only 5 total (M+N). As the number of languages and architectures increases, the savings increase as well. – d512 Oct 18 '19 at 18:43

If you're talking about the front-end being the parser which tokenises the source code, and back-end being the bit which generates executable code based on the tokenised code, then one very good reason is this: portability.

Separating the parser from the executable code generation makes it much easier to port a compiler from one processor architecture to another.

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Because you want to use some sort of internal pseudo code or tables/data structures. For example if you have some line of code:

a = b + c;

You would want to take that and break it into an intermediate language or IR (Intermediate representation):

load b
load c
add b + c
store a

as an example -- there are many solutions. The intermediate language is better than going straight to assembly for a particular target for a number of reasons:

  • By abstracting the hardware and providing a "logical number" of registers we are independent of the final "physical number" of registers and hardware layout. For example, the native ADD instruction may be stack based, take 1-operand, take 2-operands, or even 3 operands. At this higher level we don't need to know, or care, about the lower level hardware implementation.
  • The internal language can be optimized if you have an optimizer, and
  • Is generic enough to be used on multiple targets if you have a wish to target different processors.

I dont know enough about it but I think you also have the common used parsers bison/flex, boil you down into some sort of intermediate code/instruction set and then you write a backend for that.

You also benefit that you can for example have a C and C++ and other language front end, without affecting the backend.

You also benefit from breaking the compiler into logical modules blocks, you can develop and test the front end independently from the back end. llvm for example, allows for the export and import of the intermediate language, you could if you really really wanted to write code using the intermediate language and have the benefit of multiple targets on the backend.

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