In Computer Science when do you learn the fundamentals of high level languages and the methodologies a compiler uses to create assembly instructions? What is the primary book used for this course? Like, if you’re using Ada or Ghidra and trying to piece together what is happening in binary execution, I want to know structures to look for on this basic level.

I’m asking about the simple stuff like what you find in Arduino sketches with variables, type declarations, branching, looping, booleans, flags, interrupts etc. Also how these might differ across architectures like CISC/RISC, Harvard/von Neumann, and various platform specifics like unique instruction set architecture implementations.

I have several microcontrollers with Flash Forth running the threaded interpreter. I never learned to branch and loop in FF like I can in Bash, Arduino, or Python. I hope exploring the post topic will help me fill in the gap in my understanding using the good ol’ hacker’s chainsaw. If any of you can read between the lines of this inquiry and make inference that might be helpful please show me the shortcuts. I am a deeply intuitive learner that needs to build from a foundation of application above memorization or theory. TIA

  • BoscoBear@lemmy.sdf.org
    link
    fedilink
    arrow-up
    3
    ·
    8 months ago

    Not op. Deeper understanding of how these compilers are written across different architectures yet share common compiled structures.

    • marcos@lemmy.world
      link
      fedilink
      arrow-up
      2
      ·
      8 months ago

      “Deeper understanding of how these compilers are written” you can get in a compiler book. I’ve found a copy of the dragon book here: https://iitd-plos.github.io/col729/refs/ALSUdragonbook.pdf

      Currently, I’d recommend you read a monadic parser tutorial and jump over the practical material about compiler parsing (the theory is still very useful). There re more modern books, more focused on semantics, but I don’t remember of any to recommend you.

      “Deeper understanding about compilers across different architectures” looks like an assembly course to me. If you want to compare RISC and CISC, you’ll probably want x86 assembly and something like MIPS. (Notice that you will probably never use any of those on practice. But any assembly you would use on practice is too complicated to start with.)

      But that “yet share common compiled structures” part, I have no idea at all. I’m not sure anybody formally studies this. You may want to read about the LLVM intermediate representation and how to create a backend for it.

      • BoscoBear@lemmy.sdf.org
        link
        fedilink
        arrow-up
        2
        ·
        8 months ago

        The LLVM is probably the most appropriate answer to my question. Books about the development of it would be outstanding.