Missed env.h

[lispp.git] / lisp.cpp

#include <cctype>
#include <iostream>
#include <fstream>
#include <boost/variant.hpp>
#include <boost/function.hpp>
#include <boost/shared_ptr.hpp>
#include <boost/unordered_map.hpp>
#include <boost/algorithm/string.hpp>

#include "lisp.h"
#include "env.h"

std::string name(boost::shared_ptr<lisp::object> token) {
        return boost::get<lisp::atom>(*token).name;
};

boost::shared_ptr<lisp::object>& car(boost::shared_ptr<lisp::object> x)  {

        return boost::get<lisp::cons>(*(boost::static_pointer_cast<lisp::base_object, lisp::object>(x))).car;
}

boost::shared_ptr<lisp::object>& cdr(boost::shared_ptr<lisp::object> x)  {
        return boost::get<lisp::cons>(*(boost::static_pointer_cast<lisp::base_object, lisp::object>(x))).cdr;
}

boost::shared_ptr<lisp::object> make_cons(boost::shared_ptr<lisp::object> car,
        boost::shared_ptr<lisp::object> cdr) {
        return boost::shared_ptr<lisp::object>(new lisp::object(lisp::cons(car, cdr)));
}

boost::shared_ptr<lisp::object> make_lambda(boost::shared_ptr<lisp::object> args,
        boost::shared_ptr<lisp::object> sexp) {
        return boost::shared_ptr<lisp::object>(new lisp::object(lisp::lambda(args, sexp)));
}

void append(boost::shared_ptr<lisp::object> list, boost::shared_ptr<lisp::object> obj) {
        boost::shared_ptr<lisp::object> ptr;
        ptr = list;
        while (cdr(ptr) != NULL) {
                ptr = cdr(ptr);
        }
        cdr(ptr) = boost::shared_ptr<lisp::object>(make_cons(obj, boost::shared_ptr<lisp::object>()));
}

boost::shared_ptr<lisp::object> fn_car(boost::shared_ptr<lisp::object> args,
                                       boost::shared_ptr<lisp::object> env) {
        return car(car(args));
}

boost::shared_ptr<lisp::object> fn_cdr(boost::shared_ptr<lisp::object> args,
                                       boost::shared_ptr<lisp::object> env) {
        return cdr(car(args));
}

boost::shared_ptr<lisp::object> fn_quote(boost::shared_ptr<lisp::object> args,
        boost::shared_ptr<lisp::object> env) {
        return car(args);
}

boost::shared_ptr<lisp::object> fn_cons(boost::shared_ptr<lisp::object> args,
                                        boost::shared_ptr<lisp::object> env) {

        boost::shared_ptr<lisp::object> list = make_cons(car(args), boost::shared_ptr<lisp::object>());
        args = car(cdr(args));

        while ((args != NULL) && (args->which() == lisp::e_CONS)) {
                append(list, car(args));
                args = cdr(args);
        }
        return list;
}

boost::shared_ptr<lisp::object> tee;
boost::shared_ptr<lisp::object> nil;

boost::shared_ptr<lisp::object>  fn_equal(boost::shared_ptr<lisp::object> args,
        boost::shared_ptr<lisp::object> env) {
        boost::shared_ptr<lisp::object> first = car(args);
        boost::shared_ptr<lisp::object> second = car(cdr(args));
        if (name(first) == name(second))
                return tee;
        else
                return nil;
}

boost::shared_ptr<lisp::object> fn_atom(boost::shared_ptr<lisp::object> args, boost::shared_ptr<lisp::object> env) {
        if(car(args)->which() == lisp::e_ATOM)
                return tee;
        else
                return nil;
}

boost::shared_ptr<lisp::object> eval(boost::shared_ptr<lisp::object> args,
                                     boost::shared_ptr<lisp::object> env);

boost::shared_ptr<lisp::object> fn_cond(boost::shared_ptr<lisp::object> args,
                                        boost::shared_ptr<lisp::object> env) {
        while ((args != NULL) && (args->which() == lisp::e_CONS)) {
                boost::shared_ptr<lisp::object> list = car(args);
                boost::shared_ptr<lisp::object> pred = eval(car(list), env);
                boost::shared_ptr<lisp::object> ret = car(cdr(list));

                if(pred != nil)
                        return eval(ret,env);

                args = cdr(args);
        }

        return nil;
}

boost::shared_ptr<lisp::object> interleave (boost::shared_ptr<lisp::object>     c1,
        boost::shared_ptr<lisp::object> c2) {

        boost::shared_ptr<lisp::object> nul;
        boost::shared_ptr<lisp::object> list = make_cons(make_cons(car(c1),make_cons(car(c2),nul)),nul);
        c1 = cdr(c1);
        c2 = cdr(c2);

        while ((c1 != NULL) && (c1->which() == lisp::e_CONS)) {
                append(list,make_cons(car(c1),make_cons(car(c2), nul)));
                c1 = cdr(c1);
                c2 = cdr(c2);
        }

        return list;
}

boost::shared_ptr<lisp::object> replace_atom(boost::shared_ptr<lisp::object> sexp,
        boost::shared_ptr<lisp::object> with)  {

        boost::shared_ptr<lisp::object> nul;

        if(sexp->which() == lisp::e_CONS) {

                boost::shared_ptr<lisp::object> list = make_cons(replace_atom(car(sexp), with), nul);
                sexp = cdr(sexp);

                while ((sexp != NULL) && (sexp->which() ==lisp:: e_CONS)) {
                        append(list,replace_atom(car(sexp), with));
                        sexp = cdr(sexp);
                }

                return list;

        } else {
                boost::shared_ptr<lisp::object> tmp = with;

                while ((tmp != NULL) && (tmp->which() == lisp::e_CONS)) {
                        boost::shared_ptr<lisp::object> item = car(tmp);
                        boost::shared_ptr<lisp::object> atom = car(item);
                        boost::shared_ptr<lisp::object> replacement = car(cdr(item));

                        if (name(atom) == name(sexp))
                                return replacement;

                        tmp = cdr(tmp);
                }

                return sexp;
        }
}

boost::shared_ptr<lisp::object> fn_lambda (boost::shared_ptr<lisp::object>args,
        boost::shared_ptr<lisp::object>env) {
        boost::shared_ptr<lisp::object> lambda = car(args);
        args = cdr(args);

        lisp::lambda& lambda_object(boost::get<lisp::lambda>(*(boost::static_pointer_cast<lisp::base_object, lisp::object>(lambda))));

        boost::shared_ptr<lisp::object> list = interleave(lambda_object.args, args);
        boost::shared_ptr<lisp::object> sexp = replace_atom(lambda_object.sexp,list);
        return eval(sexp,env);
}

boost::shared_ptr<lisp::object> fn_label (boost::shared_ptr<lisp::object> args,
        boost::shared_ptr<lisp::object> env) {
        boost::shared_ptr<lisp::object> nul;

        std::string n(name(car(args)));
        boost::shared_ptr<lisp::object> a(new lisp::object(n));
        append(env, make_cons(a,
                              make_cons(car(cdr(args)),
                                        nul)));
        return tee;
}

boost::shared_ptr<lisp::object> lookup(const std::string& n,
                                       boost::shared_ptr<lisp::object> env) {
        boost::shared_ptr<lisp::object> nul;
        boost::shared_ptr<lisp::object>tmp = env;

        while ((tmp != nul) && (tmp->which()) == lisp::e_CONS) {
                boost::shared_ptr<lisp::object> item = car(tmp);
                boost::shared_ptr<lisp::object> nm   = car(item);
                boost::shared_ptr<lisp::object> val  = car(cdr(item));

                if (name(nm) == n)
                        return val;
                tmp = cdr(tmp);
        }
        return nul;
}

// I.O. I.O. It's off to port we go..

void print(std::ostream& out, boost::shared_ptr<lisp::object> sexp) {

        if(sexp == NULL)
                return;
        if(sexp->which() == lisp::e_CONS) {
                out.put('(');
                print(out, car(sexp));
                sexp = cdr(sexp);
                while ((sexp != NULL) && (sexp->which() == lisp::e_CONS)) {
                        out.put(' ');
                        print(out, car(sexp));
                        sexp = cdr(sexp);
                }
                out.put(')');
        } else if (sexp->which() == lisp::e_ATOM) {
                out << name(sexp);
        } else if (sexp->which() == lisp::e_LAMBDA) {
                out.put('#');
                out << (boost::get<lisp::lambda>(*sexp)).args;
                out << (boost::get<lisp::lambda>(*sexp)).sexp;
        } else
                printf ("Error.");
}


boost::shared_ptr<lisp::object> next_token(std::istream& in) {
        char c;

        // skip whitespace
        do {
                c = in.get();
        } while (isspace(c));
        // process first char
        std::string tok;
        // if it is a paren, look no further
        if ((c == ')') || ( c== '(')) {
                tok.push_back(c);
        } else {
                // otherwise collect an atom
                do {
                        tok.push_back(c);
                        c = in.get();
                } while ((!isspace(c)) && (c != ')'));
                in.unget();
        }
        return boost::shared_ptr<lisp::object>(new lisp::object(tok));
}

boost::shared_ptr<lisp::object> read_tail(std::istream& in) {
        boost::shared_ptr<lisp::object> token(next_token(in));
        if (name(token) == ")")
                return boost::shared_ptr<lisp::object>();
        else if (name(token) == "(") {
                boost::shared_ptr<lisp::object> car = read_tail(in);
                boost::shared_ptr<lisp::object> cdr = read_tail(in);
                return make_cons(car, cdr);
        } else {
                boost::shared_ptr<lisp::object> car = token;
                boost::shared_ptr<lisp::object> cdr = read_tail(in);
                return make_cons(car, cdr);
        }
};

/* read gets the next token from the file, if it is a left parentheses
 * it calls read_tail to parse the rest of the list, otherwise returns
 * the token read. A list (LIST e1 ... en) is defined for each n to be
 * (CONS e1 (CONS ... (CONS en NIL))) so read_tail will keep calling
 * itself concatenating cons cells until it hits a right
 * parentheses. */

boost::shared_ptr<lisp::object> read(std::istream& in) {
        boost::shared_ptr<lisp::object> token = next_token(in);
        if (name(token) == "(")
                return read_tail(in);
        return token;
}



boost::shared_ptr<lisp::object> init_env() {

        boost::shared_ptr<lisp::object> nul;

        boost::shared_ptr<lisp::object> a_quote(new lisp::object(std::string("QUOTE")));
        boost::shared_ptr<lisp::object> f_quote(new lisp::object(lisp::func(fn_quote)));

        boost::shared_ptr<lisp::object> a_car(new lisp::object(std::string("CAR")));
        boost::shared_ptr<lisp::object> f_car(new lisp::object(lisp::func(fn_car)));

        boost::shared_ptr<lisp::object> a_cdr(new lisp::object(std::string("CDR")));
        boost::shared_ptr<lisp::object> f_cdr(new lisp::object(lisp::func(fn_cdr)));

        boost::shared_ptr<lisp::object> a_cons(new lisp::object(std::string("CONS")));
        boost::shared_ptr<lisp::object> f_cons(new lisp::object(lisp::func(fn_cons)));

        boost::shared_ptr<lisp::object> a_equal(new lisp::object(std::string("EQUAL")));
        boost::shared_ptr<lisp::object> f_equal(new lisp::object(lisp::func(fn_equal)));

        boost::shared_ptr<lisp::object> a_atom(new lisp::object(std::string("ATOM")));
        boost::shared_ptr<lisp::object> f_atom(new lisp::object(lisp::func(fn_atom)));

        boost::shared_ptr<lisp::object> a_cond(new lisp::object(std::string("COND")));
        boost::shared_ptr<lisp::object> f_cond(new lisp::object(lisp::func(fn_cond)));

        boost::shared_ptr<lisp::object> a_lambda(new lisp::object(std::string("LAMBDA")));
        boost::shared_ptr<lisp::object> f_lambda(new lisp::object(lisp::func(fn_lambda)));

        boost::shared_ptr<lisp::object> a_label(new lisp::object(std::string("LABEL")));
        boost::shared_ptr<lisp::object> f_label(new lisp::object(lisp::func(fn_label)));


        boost::shared_ptr<lisp::object> env = make_cons(make_cons(a_quote,make_cons(f_quote,nul)),nul);


        append(env,make_cons(a_car,       make_cons(f_car,nul)));
        append(env,make_cons(a_cdr,       make_cons(f_cdr,nul)));
        append(env,make_cons(a_cons,  make_cons(f_cons,nul)));
        append(env,make_cons(a_equal, make_cons(f_equal,nul)));
        append(env,make_cons(a_atom,  make_cons(f_atom,nul)));
        append(env,make_cons(a_cond,  make_cons(f_cond,nul)));
        append(env,make_cons(a_lambda, make_cons(f_lambda,nul)));
        append(env,make_cons(a_label,  make_cons(f_label,nul)));

        boost::shared_ptr<lisp::object> a_tee(new lisp::object(std::string("#T")));
        tee = a_tee;
        nil = make_cons(nul,nul);

        return env;
}


boost::shared_ptr<lisp::object> eval_fn (boost::shared_ptr<lisp::object> sexp, boost::shared_ptr<lisp::object> env) {
        boost::shared_ptr<lisp::object> symbol = car(sexp);
        boost::shared_ptr<lisp::object> args = cdr(sexp);

        if (symbol->which() == lisp::e_LAMBDA)
                return fn_lambda(sexp,env);
        else if(symbol->which() == lisp::e_FUNC)
                return ((boost::get<lisp::func>(*symbol)).fn)(args, env);
        else
                return sexp;
}

boost::shared_ptr<lisp::object> eval(boost::shared_ptr<lisp::object> sexp, boost::shared_ptr<lisp::object> env) {

        boost::shared_ptr<lisp::object> nul;

        if(sexp == NULL)
                return nil;

        if (sexp->which() == lisp::e_CONS) {
                if ((car(sexp)->which() == lisp::e_ATOM) && (name(car(sexp)) == "LAMBDA")) {
                        boost::shared_ptr<lisp::object> largs = car(cdr(sexp));
                        boost::shared_ptr<lisp::object> lsexp = car(cdr(cdr(sexp)));
                        return make_lambda(largs,lsexp);
                } else {
                        boost::shared_ptr<lisp::object> accum = make_cons(eval(car(sexp),env), nul);
                        sexp = cdr(sexp);

                        while ((sexp != NULL) && (sexp->which() == lisp::e_CONS)) {
                                append(accum,eval(car(sexp),env));
                                sexp = cdr(sexp);
                        }
                        return eval_fn(accum,env);
                }
        } else {
                boost::shared_ptr<lisp::object> val = lookup(name(sexp),env);
                if (val == NULL)
                        return sexp;
                else
                        return val;
        }
}


//
// REPL
//
int main(int argc, char *argv[]) {
        boost::shared_ptr<lisp::object> env = init_env();
        //std::istream& in(std::cin);
        std::ifstream inf;
        std::ostream& out(std::cout);
        inf.open(argv[1], std::ifstream::in);
        if (inf.good()) {
                do {
                        out.put('>');
                        out.put(' ');
                        print(out, eval(read(inf), env));
                        out << std::endl;
                } while (inf.good());
        }
        inf.close();
        return 0;
}