21

I'd love some references, or tips, possibly an e-book or two. I'm not looking to write a compiler, just looking for a tutorial I could follow along and modify as I go. Thank you for being understanding!

BTW: It must be C.

Any more replies would be appreciated.

  • 2
    Diving into already existent projects can be overwhelming. Great question. – Lime Jul 31 '11 at 4:03
  • Thank you! I've tried doing that, and I find it's completely easier to write the code ground up, so you know what's what. – tekknolagi Jul 31 '11 at 4:06
  • 1
    Regarding your edit: a) Please don't put two unrelated questions into the same question, and b) use the GNU readline (or BSD editline) library. – Chris Lutz Jul 31 '11 at 4:09
  • 1
    Be sure to check the other interpreter/compiler book/tutorial questions! With such a multifaceted topic, often you need to explore the material until you discover an "angle" on it. Then you can start incorporating information from any source. – luser droog Aug 1 '11 at 19:01
  • 1
    I recommend a small BASIC interpreter in C with few lines of code, yet easy to extend: my basic. – paladin_t Feb 19 '16 at 5:14
24

A great way to get started writing an interpreter is to write a simple machine simulator. Here's a simple language you can write an interpreter for:

The language has a stack and 6 instructions:

push <num> # push a number on to the stack

pop # pop off the first number on the stack

add # pop off the top 2 items on the stack and push their sum on to the stack. (remember you can add negative numbers, so you have subtraction covered too). You can also get multiplication my creating a loop using some of the other instructions with this one.

ifeq <address> # examine the top of the stack, if it's 0, continue, else, jump to <address> where <address> is a line number

jump <address> # jump to a line number

print # print the value at the top of the stack

dup # push a copy of what's at the top of the stack back onto the stack.

Once you've written a program that can take these instructions and execute them, you've essentially created a very simple stack based virtual machine. Since this is a very low level language, you won't need to understand what an AST is, how to parse a grammar into an AST, and translate it to machine code, etc. That's too complicated for a tutorial project. Start with this, and once you've created this little VM, you can start thinking about how you can translate some common constructs into this machine. e.g. you might want to think about how you might translate a C if/else statement or while loop into this language.

Edit:

From the comments below, it sounds like you need a bit more experience with C before you can tackle this task.

What I would suggest is to first learn about the following topics:

  • scanf, printf, putchar, getchar - basic C IO functions
  • struct - the basic data structure in C
  • malloc - how to allocate memory, and the difference between stack memory and heap memory
  • linked lists - and how to implement a stack, then perhaps a binary tree (you'll need to understand structs and malloc first)

Then it'll be good to learn a bit more about the string.h library as well - strcmp, strdup - a couple useful string functions that will be useful.

In short, C has a much higher learning curve compared to python, just because it's a lower level language and you have to manage your own memory, so it's good to learn a few basic things about C first before trying to write an interpreter, even if you already know how to write one in python.

  • What's ifeq ? I don't understand... – tekknolagi Jul 31 '11 at 7:10
  • Also are there compound statements? – tekknolagi Jul 31 '11 at 7:11
  • Lastly, I don't understand how I can interpret word instructions. In python, I can store words in an array, and it doesn't matter if they're of different lengths. However, in C, it doesn't allow you to do so. How do I interpret this in C? – tekknolagi Jul 31 '11 at 7:12
  • It's the kind of thing I'm looking for a tutorial for. – tekknolagi Jul 31 '11 at 7:12
  • ifeq stands for if equals, It basically tells you to look at the top of the stack and jump to a location if the top of the stack is not zero. It's a common assembly language symbol. This is an assembly language, and 0 usually means something is equal. The language only deals with the stack, so there are no compound statements per se, you would have to translate a "compound statement" into this language to execute it. – Charles Ma Jul 31 '11 at 7:16
15

The only difference between an interpreter and a compiler is that instead of generating code from the AST, you execute it in a VM instead. Once you understand this, almost any compiler book, even the Red Dragon Book (first edition, not second!), is enough.

  • 1: What's an AST? 2: What's the definition of a VM? I have a postfix calculator that interprets the expressions. Is that a VM? 3: Thank you very much :) – tekknolagi Jul 31 '11 at 4:18
  • 1
    1. Abstract Syntax Tree 2. An automaton that interprets code operation by operation. The postfix calculator could be seen as a simple form of a VM. – Ignacio Vazquez-Abrams Jul 31 '11 at 4:24
  • While it's the way you should be thinking if designing a real language, I think this answer may be jumping a bit too far for a beginner. It's possible to have an interpreted language (e.g. a made-up assembly language) that's completely imperative and does not need significant parsing. Actually I would consider a VM or emulator for a simple real-world cpu a great first exercise for someone interested in writing interpreters. – R.. GitHub STOP HELPING ICE Jul 31 '11 at 5:43
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    Forth. – Ignacio Vazquez-Abrams Jul 31 '11 at 6:32
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    Shameless plug: this is a lexer, parser and interpreter for a minimalistic imperative language, all in 1.4k LoC. It could be of good educational value. – Blagovest Buyukliev Aug 19 '15 at 9:01
4

I see this is a bit of a late reply, however since this thread showed up at second place in the result list when I did a search for writing an interpreter and no one have mentioned anything very concrete I will provide the following example:

Disclaimer: This is just some simple code I wrote in a hurry in order to have a foundation for the explanation below and are therefore not perfect, but it compiles and runs, and seems to give the expected answers.

Read the following C-code from bottom to top:

#include <stdio.h>
#include <stdlib.h>

double expression(void);

double vars[26]; // variables

char get(void) { char c = getchar(); return c; } // get one byte
char peek(void) { char c = getchar(); ungetc(c, stdin); return c; } // peek at next byte
double number(void) { double d; scanf("%lf", &d); return d; } // read one double

void expect(char c) { // expect char c from stream
    char d = get();
    if (c != d) {
        fprintf(stderr, "Error: Expected %c but got %c.\n", c, d);
    }
}

double factor(void) { // read a factor
    double f;
    char c = peek();
    if (c == '(') { // an expression inside parantesis?
        expect('(');
        f = expression();
        expect(')');
    } else if (c >= 'A' && c <= 'Z') { // a variable ?
        expect(c);
        f = vars[c - 'A'];
    } else { // or, a number?
        f = number();
    }
    return f;
}

double term(void) { // read a term
    double t = factor();
    while (peek() == '*' || peek() == '/') { // * or / more factors
        char c = get();
        if (c == '*') {
            t = t * factor();
        } else {
            t = t / factor();
        }
    }
    return t;
}

double expression(void) { // read an expression
    double e = term();
    while (peek() == '+' || peek() == '-') { // + or - more terms
        char c = get();
        if (c == '+') {
            e = e + term();
        } else {
            e = e - term();
        }
    }
    return e;
}

double statement(void) { // read a statement
    double ret;
    char c = peek();
    if (c >= 'A' && c <= 'Z') { // variable ?
        expect(c);
        if (peek() == '=') { // assignment ?
            expect('=');
            double val = expression();
            vars[c - 'A'] = val;
            ret = val;
        } else {
            ungetc(c, stdin);
            ret = expression();
        }
    } else {
        ret = expression();
    }
    expect('\n');
    return ret;
}

int main(void) {
    printf("> "); fflush(stdout);

    for (;;) {
        double v = statement();
        printf(" = %lf\n> ", v); fflush(stdout);
    }
    return EXIT_SUCCESS;
}

This is an simple recursive descend parser for basic mathematical expressions supporting one letter variables. Running it and typing some statements yields the following results:

> (1+2)*3
 = 9.000000
> A=1
 = 1.000000
> B=2
 = 2.000000
> C=3
 = 3.000000
> (A+B)*C
 = 9.000000

You can alter the get(), peek() and number() to read from a file or list of code lines. Also you should make a function to read identifiers (basically words). Then you expand the statement() function to be able to alter which line it runs next in order to do branching. Last you add the branch operations you want to the statement function, like

if "condition" then 
    "statements" 
else 
    "statements" 
endif. 

while "condition" do
    "statements"
endwhile

function fac(x)
   if x = 0 then
      return 1
   else
      return x*fac(x-1) 
   endif
endfunction

Obviously you can decide the syntax to be as you like. You need to think about ways of define functions and how to handle arguments/parameter variables, local variables and global variables. If preferable arrays and data structures. References∕pointers. Input/output? In order to handle recursive function calls you probably need to use a stack.

In my opinion this would be easier to do all this with C++ and STL. Where for example one std::map could be used to hold local variables, and another map could be used for globals...

It is of course possible to write a compiler that build an abstract syntax tree out of the code. Then travels this tree in order to produce either machine code or some kind of byte code which executed on a virtual machine (like Java and .Net). This gives better performance than naively parse line by line and executing them, but in my opinion that is NOT writing an interpreter. That is writing both a compiler and its targeted virtual machine.

If someone wants to learn to write an interpreter, they should try making the most basic simple and practical working interpreter.

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