I don't know if this is the right SE site for this question, if not, I would appreciate anyone who could point me in the right direction.

For my college project (UK college ~ high school) I want to design a basic programming language. It won't have all the necessary functionality, but enough to write some basic programs on the Console. I want to make it interpreted as I've heard how horribly complex compiled languages are; object-oriented because I only know VB.NET and am most comfortable with OOP; and my goal is to create a simple language which is easily learned by non-programmers.

I've been looking around but struggling to find helpful resources that explain about creating programming languages in any good detail. I'd really appreciate any online resources you can suggest - they have to be free - if there are similar StackOverflow questions that I missed, in-depth online articles or tutorials, extracts from free online textbooks... anything you think might be useful.

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    – SLaks
    Aug 22, 2013 at 19:45
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    You might have a look at this, to: www.antlr.org. Antlr is a parser generator.
    – oddparity
    Aug 22, 2013 at 19:48
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    Starting with an OOP language is not a good idea. Start with something conceptually simpler, maybe a functional language or an imperative language Aug 22, 2013 at 19:57
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    Also, notice that for simplicity's sake you should first think about building an interpreter, a compiler is harder, but fine as long as you get the basic concepts right Aug 22, 2013 at 19:59
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    Scheme is an example of an (impure) functional language, you can write an interpreter for it in about 300-400 lines of code (SICP shows you how to in chapter 4). Pascal is an example of an imperative language. As I mentioned above: OOP is a bad idea because it'll be harder, more complex to implement Aug 22, 2013 at 20:09

3 Answers 3


Look no further than SICP - this book will enlighten you about the principles of programming and programming languages, and in its last two chapters it'll teach you how to build an interpreter and a compiler for the Scheme programming language - written in Scheme.

I can assure you, the material in the book will profoundly change the way you think about computation. Coupled with the DrRacket IDE, you'll have a great environment to learn how to create your own programming language starting from first principles.

Another recommended book would be Essentials of Programming Languages, although the material covered there is a bit more advanced. It'll also show you how to implement feature-rich languages in Scheme, this time including typed languages and an OOP language.

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    Scheme clearly isn't OOP (it's impure functional) but OOP is probably a bad idea for a first compiler/interpreter project anyway. Scheme is a good option. Another traditional option is a subset of Pascal, but that tends to mean using scanner and parser generator tools (lex and yacc or similar). Scheme syntax is simple enough to avoid that issue.
    – user180247
    Aug 22, 2013 at 19:51
  • @Steve314, why is OOP a bad idea for a first project? In any case, I don't feel comfortable using another paradigm - I've only been programming a year and I'm still trying to settle into OOP.
    – Lou
    Aug 22, 2013 at 20:00
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    @LeoKing because there are simpler programming paradigms, more appropriate for learning. Writing a programming language is no easy task, so the simpler you keep things, the easier it'll be Aug 22, 2013 at 20:04
  • Sorry for the delay, but Óscar is basically right. OOP needs you to deal with inheritance hierarchies, late dispatch and other issues. A simpler language will avoid those extra issues, but still leave you plenty to work on for a first interpreter. Personally, IIRC the first "interpreter" I wrote many years ago wasn't much more than an arithmetic expression evaluator.
    – user180247
    Aug 22, 2013 at 20:59
  • BTW - if you can write a formula for a spreadsheet cell, you can write in a (very simple) functional language.
    – user180247
    Aug 22, 2013 at 21:08

Aho-Ulman have an excellent (and very deep) book on compilers. http://www.amazon.com/Compilers-Principles-Techniques-Alfred-Aho/dp/0201100886

However, if you want a quick recipe for writing a simple compiler, it might be too deep. Still, it may be good to have it for reference.

  • Thank you for the link, but I worry that it may indeed be too deep - I'm not sure I'd know where to start with all this material! Plus, I'd rather go with interpreted than mess around with a compiler - I get the impression that an interpreted language would be easier to change later.
    – Lou
    Aug 22, 2013 at 20:03
  • Well-designed interpreters and compilers ought to be about as easy to change with respect to the source language. They differ only what they do after they've digested the source.
    – ibid
    Aug 26, 2013 at 10:31

Look for parser and lexer generators if you want help parsing the langauge itself.

Traditional Linux tools, lex and yacc, were a good choice. Linux has bison and flex, which are their Linux-variants.

If the langauge is simple enough, they may not be necessary.

I don't know any good references. Perhaps this list of things the interpreter needs will help:

  • Conditional Statements (e.g. "if")
  • Branch statements (e.g. "goto")
  • Variable storage and assignment statements
  • At least a simple expression evaluator (e.g. if I want to set X=1+1, it needs to set X to 2)
  • Input and output (e.g. read and write statements or functions)

See http://dinosaur.compilertools.net/bison/bison_5.html for a simple example program using bison which parses and executes the functions of a basic calculator. Here's a copy of the example from that page:

input:    /* empty */
        | input line

line:     '\n'
        | exp '\n'  { printf ("\t%.10g\n", $1); }

exp:      NUM             { $$ = $1;         }
        | exp exp '+'     { $$ = $1 + $2;    }
        | exp exp '-'     { $$ = $1 - $2;    }
        | exp exp '*'     { $$ = $1 * $2;    }
        | exp exp '/'     { $$ = $1 / $2;    }
      /* Exponentiation */
        | exp exp '^'     { $$ = pow ($1, $2); }
      /* Unary minus    */
        | exp 'n'         { $$ = -$1;        }
  • Is that the main thing I need to do, write out a grammar and then use a parser/lexer generator? I'm convinced there must be more to it than that :p.
    – Lou
    Aug 22, 2013 at 20:30
  • @Leo - for a serious compiler, there's a lot more to it, but the compilers/interpreters 101 lesson is about manipulating abstract syntax trees (and similar trees that technically aren't ASTs, but plenty of people call them that anyway). However, the traditional compilers/interpreters courses are substantially about how you get an (abstract) syntax tree from the source text - in the early days, this was the difficult thing, and if you want to understand how scanning and parsing work (rather than just let the tool do it) they're still non-trivial.
    – user180247
    Aug 22, 2013 at 21:03
  • @Leo - the parser/lexer gets you only parsed input for the interpreter. Then code needs to be added to implement the operations. That code can go in the parser itself, for example calling a function after a specific statement has been successfully parsed. With that said, for a basic langauge, it should be possible to implement the guts with a small amount of code.
    – ash
    Aug 25, 2013 at 4:31

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