# Symbolic arithmetic in Erlang

The following is an exercise in the O'Reilly Erlang book:

Build a collection of functions that manipulate arithmetical expressions. Start with an expression such as the following:

`(~((2*3)+(3*4)))`

which is fully bracketed and where you use a tilde (~) for unary minus.

First, write a parser for these, turning them into Erlang representations, such as the following:

`{minus, {plus, {num, 2}, {num,3}}, {num, 4}}`

which represents `((2+3)-4) ...`

How can I do this?

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+1 for learning Erlang. – Jason Sep 2 '13 at 6:31

Well, how you do it depends on what kind of parser you want. The easiest way is probably to use something like yecc or neotoma to generate a parser for this language.

If you are trying to write a parser by hand, that's certainly possible. Here's how you might start writing one:

``````-module(parser).
-export([parse/1]).

%% parser:parse("((2+3)+4)") =:= {plus, {plus, {num, 2}, {num, 3}}, {num, 4}}.

parse(S) ->
{[Expr], ""} = parse(S, expr, []),
Expr.

-define(IS_DIGIT(C), (C >= \$0 andalso C =< \$9)).
-define(IS_SPACE(C),
(C =:= \$\s orelse C =:= \$\t orelse C =:= \$\r orelse C =:= \$\n)).
is_space(C) ->
?IS_SPACE(C).
is_digit(C) ->
?IS_DIGIT(C).

skip_space(S) ->
lists:dropwhile(fun is_space/1, S).

parse([\$( | Rest], expr, []) ->
{[Expr], Rest1} = parse(Rest, expr, []),
[\$) | Rest2] = skip_space(Rest1),
parse(Rest2, op, [Expr]);
parse(S=[D | _], expr, []) when ?IS_DIGIT(D) ->
{Ds, Rest1} = lists:splitwith(fun is_digit/1, S),
parse(Rest1, op, [{num, list_to_integer(Ds)}]);
parse([\$+ | Rest], op, [Left]) ->
{[Right], Rest1} = parse(Rest, expr, []),
{[{plus, Left, Right}], Rest1};
parse([C|Rest], State, Acc) when ?IS_SPACE(C) ->
parse(skip_space(Rest), State, Acc);
parse(S, _State, Acc) ->
{Acc, S}.
``````
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You can look on mine code for inspiration: https://github.com/pichi/epexercises/blob/master/Exercise3-8/e38.erl It uses hand written lexer and parser. There is also compiler to stack machine code and stack machine simulator.

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