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%% ---------------------------------------------------------------------
%% Licensed under the Apache License, Version 2.0 (the "License"); you may
%% not use this file except in compliance with the License. You may obtain
%% a copy of the License at <http://www.apache.org/licenses/LICENSE-2.0>
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% @author Richard Carlsson <[email protected]>
%% @copyright 2012 Richard Carlsson
%% @doc Lisp compiler in Erlang.
-module(lispc).
-export([eval/1]).
-record(st, {}).
-include("lisp_test.erl").
-include("merl.hrl").
eval(Lisp) ->
compile(Lisp, tmp),
tmp:eval().
compile(Lisp, ModName) ->
{Code, _} = gen(Lisp, #st{}),
Main = ?Q(["() ->",
" __print = fun (S, Xs) -> io:format(S,Xs), [] end,",
" __apply = fun erlang:apply/2,",
" __plus = fun erlang:'+'/2,",
" __equal = fun lisp:equal/2,",
" __gt = fun lisp:gt/2,",
" __knot = fun lisp:knot/1,",
" __y = fun (F) ->",
" (fun (X) -> F(fun (Y) -> (X(X))(Y) end) end)",
" (fun (X) -> F(fun (Y) -> (X(X))(Y) end) end)",
" end,",
" _@Code"]),
Forms = merl_build:module_forms(
merl_build:add_function(true, eval, [Main],
merl_build:init_module(ModName))),
%% %% Write source to file for debugging
%% file:write_file(lists:concat([ModName, "_gen.erl"]),
%% erl_prettypr:format(erl_syntax:form_list(Forms),
%% [{paper,160},{ribbon,80}])),
merl:compile_and_load(Forms, [verbose]).
var(Atom) ->
merl:var(list_to_atom("__" ++ atom_to_list(Atom))).
gen([lambda, Ps, B], St) when is_list(Ps) ->
case lists:all(fun is_atom/1, Ps) andalso
(length(Ps) =:= length(lists:usort(Ps))) of
true ->
Vars = [var(P) || P <- Ps],
{Body, St1} = gen(B, St),
{?Q("fun (_@Vars) -> _@Body end"), St1};
false ->
throw(bad_lambda)
end;
gen([lambda | _], _) ->
throw(bad_lambda);
gen([def, A, V, B], St) when is_atom(A) ->
Var = var(A),
{Val, St1} = gen(V, St),
{Body, St2} = gen(B, St1),
{?Q("(fun (_@Var) -> _@Body end)(_@Val)"), St2};
gen([def | _], _) ->
throw(bad_def);
gen([quote, A], St) ->
{merl:term(A), St};
gen([quote | _], _) ->
throw(bad_quote);
gen([iff, X, A, B], St) ->
{Cond, St1} = gen(X, St),
{True, St2} = gen(A, St1),
{False, St3} = gen(B, St2),
{?Q(["case _@Cond of",
" [] -> _@False;",
" _ -> _@True",
"end"]),
St3};
gen([do], _) ->
throw(bad_do);
gen([do | As], St0) ->
{Body, St1} = lists:mapfoldl(fun gen/2, St0, As),
{?Q("begin _@Body end"), St1};
gen([list | As], St0) ->
{Elem, St1} = lists:mapfoldl(fun gen/2, St0, As),
{?Q("[ _@Elem ]"), St1};
gen([_|_]=L, St) ->
{[F | As], St1} = lists:mapfoldl(fun gen/2, St, L),
{?Q("((_@F)(_@As))"), St1};
gen(A, St) when is_atom(A) ->
{var(A), St};
gen(C, St) ->
{merl:term(C), St}.
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