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path: root/src/binding.c
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#include <stdio.h>
#include <stdlib.h>
#include <limits.h>
#include <string.h>
#include <emacs-module.h>
#include "helper.h"

int plugin_is_GPL_compatible = 3;

emacs_value
rep_new_parser
(emacs_env *env, ptrdiff_t narg, emacs_value *args, void *data)
{
  char *buffer = NULL;
  ptrdiff_t len = 0;
  emacs_value error_data[1];

  unsigned char error_vec_len[8] = { 0 };
  unsigned char error_vec_cap[8] = { 0 };

  struct SignedVec error_vec = { 0 };

  error_vec.len = error_vec_len;
  error_vec.capacity = error_vec_cap;

  env->copy_string_contents(env, *args, NULL, &len);
  len++;
  buffer = malloc(sizeof(char) * len);

  if (buffer == NULL) return env->intern(env, "nil");

  env->copy_string_contents(env, *args, buffer, &len);

  struct parser *new_parser_result = new_parser(buffer, &error_vec);

  free(buffer);

  uint64_t error_length = from_big_endian(error_vec.len);

  if (error_length) {
    error_data[0] =
      env->make_string(env, error_vec.data, (ptrdiff_t) error_length);

    clean_signed(&error_vec, 4);

    env->non_local_exit_signal
      (env, env->intern(env, "error"),
       env->funcall(env, env->intern(env, "list"),
                    1, error_data));

    return env->intern(env, "nil");
  }

  return env->make_user_ptr(env, clean_parser, new_parser_result);
}

emacs_value
rep_parser_recognize
(emacs_env *env, ptrdiff_t narg, emacs_value *args, void *data)
{
  struct parser *parser = env->get_user_ptr(env, *args);

  if (env->non_local_exit_check(env) != emacs_funcall_exit_return)
    return env->intern(env, "nil");

  unsigned char *buffer = NULL;
  ptrdiff_t len = 0;

  emacs_value error_data[1];

  if (!env->eq(env,
               env->type_of(env, *(args+1)),
               env->intern(env, "vector"))) {
    error_data[0] = env->make_string
      (env, "INPUT should be a vector of integers", 36);

    env->non_local_exit_signal
      (env, env->intern(env, "wrong-type-argument"),
       env->funcall(env, env->intern(env, "list"),
                    1, error_data));

    return env->intern(env, "nil");
  }

  len = env->vec_size(env, *(args+1));

  buffer = malloc(sizeof(unsigned char) * len * 8);

  if (buffer == NULL) {
    error_data[0] = env->make_string(env, "out of memory", 13);

    env->non_local_exit_signal
      (env, env->intern(env, "error"),
       env->funcall(env, env->intern(env, "list"),
                    1, error_data));

    return env->intern(env, "nil");
  }

  for (ptrdiff_t i = 0; i < len; i++) {
    emacs_value element = env->vec_get(env, *(args+1), i);

    to_big_endian((uint64_t) env->extract_integer(env, element),
                  buffer + 8 * i);
  }

  if (env->non_local_exit_check(env) != emacs_funcall_exit_return) {
    free(buffer);
    return env->intern(env, "nil");
  }

  unsigned char error_vec_len[8] = { 0 };
  unsigned char error_vec_cap[8] = { 0 };

  struct SignedVec error_vec = { 0 };

  error_vec.len = error_vec_len;
  error_vec.capacity = error_vec_cap;

  unsigned char input_len[8] = { 0 };

  to_big_endian((uint64_t) len * 8, input_len);

  struct UnsignedVec input_vec = (struct UnsignedVec)
    { input_len, NULL, buffer };

  int result =
    parser_recognize
    (parser, &input_vec, &error_vec, (unsigned char) 1);

  free(buffer);

  uint64_t error_length = from_big_endian(error_vec.len);

  if (error_length) {
    error_data[0] =
      env->make_string(env, error_vec.data, (ptrdiff_t) error_length);

    clean_signed(&error_vec, 4);

    env->non_local_exit_signal
      (env, env->intern(env, "error"),
       env->funcall(env, env->intern(env, "list"),
                    1, error_data));

    return env->intern(env, "nil");
  }

  return (result) ? env->intern(env, "t") : env->intern(env, "nil");
}

void
clean_forest(void *ptr)
{
  clean_unsigned((struct UnsignedVec *) ptr, 15);
}

emacs_value
rep_parser_parse
(emacs_env *env, ptrdiff_t narg, emacs_value *args, void *data)
{
  struct parser *parser = env->get_user_ptr(env, *args);

  if (env->non_local_exit_check(env) != emacs_funcall_exit_return)
    return env->intern(env, "nil");

  unsigned char *buffer = NULL;
  ptrdiff_t len = 0;

  emacs_value error_data[1];

  if (!env->eq(env,
               env->type_of(env, *(args+1)),
               env->intern(env, "vector"))) {
    error_data[0] = env->make_string
      (env, "INPUT should be a vector of integers", 36);

    env->non_local_exit_signal
      (env, env->intern(env, "wrong-type-argument"),
       env->funcall(env, env->intern(env, "list"),
                    1, error_data));

    return env->intern(env, "nil");
  }

  len = env->vec_size(env, *(args+1));

  buffer = malloc(sizeof(char) * len * 8);

  if (buffer == NULL) {
    error_data[0] = env->make_string(env, "out of memory", 13);

    env->non_local_exit_signal
      (env, env->intern(env, "error"),
       env->funcall(env, env->intern(env, "list"),
                    1, error_data));

    return env->intern(env, "nil");
  }

  for (ptrdiff_t i = 0; i < len; i++) {
    emacs_value element = env->vec_get(env, *(args+1), i);

    to_big_endian((uint64_t) env->extract_integer(env, element),
                  buffer + 8 * i);
  }

  if (env->non_local_exit_check(env) != emacs_funcall_exit_return) {
    free(buffer);
    return env->intern(env, "nil");
  }

  unsigned char error_vec_len[8] = { 0 };
  unsigned char error_vec_cap[8] = { 0 };

  struct SignedVec error_vec = { 0 };

  error_vec.len = error_vec_len;
  error_vec.capacity = error_vec_cap;

  unsigned char input_len[8] = { 0 };

  to_big_endian((uint64_t) len * 8, input_len);

  struct UnsignedVec input_vec = (struct UnsignedVec)
    { input_len, NULL, buffer };

  struct UnsignedVec *result =
    parser_parse(parser, &input_vec, &error_vec, (unsigned char) 1);
  
  free(buffer);

  uint64_t error_length = from_big_endian(error_vec.len);

  if (error_length) {
    error_data[0] =
      env->make_string(env, error_vec.data, (ptrdiff_t) error_length);

    clean_signed(&error_vec, 4);

    env->non_local_exit_signal
      (env, env->intern(env, "error"),
       env->funcall(env, env->intern(env, "list"),
                    1, error_data));

    return env->intern(env, "nil");
  }

  if (result) {
    return env->make_user_ptr(env, clean_forest, result);
  }

  return env->intern(env, "nil");
}

int
emacs_module_init(struct emacs_runtime *ert)
{
  emacs_env *env = ert->get_environment(ert);

  unsigned char emacs_version = 0;

  if ((unsigned long) env->size >= sizeof(struct emacs_env_27))
    emacs_version = 27;
  else if ((unsigned long) env->size >= sizeof(struct emacs_env_26))
    emacs_version = 26;
  else if ((unsigned long) env->size >= sizeof(struct emacs_env_25))
    emacs_version = 25;
  else return 2;

  emacs_value newfunc = env->make_function
    (env, 1, 1, rep_new_parser,
     "Create a new parser from the grammar string GRAMMAR_STRING."
     "\n\n\(fn grammar_string)",
     NULL);

  env->funcall
    (env, env->intern(env, "defalias"), 2,
     (emacs_value[]){ env->intern(env, "rep-new-parser"), newfunc });

  emacs_value recognizefunc = env->make_function
    (env, 2, 2, rep_parser_recognize,
     "Recognize an INPUT using PARSER."
     "\n\n\(fn parser INPUT)",
     NULL);

  env->funcall(env, env->intern(env, "defalias"), 2,
               (emacs_value[])
               {
                 env->intern(env, "rep-recognize"), recognizefunc
               });

  emacs_value parsefunc = env->make_function
    (env, 2, 2, rep_parser_parse,
     "Parse an INPUT using PARSER."
     "\n\n\(fn parser input)",
     NULL);

  env->funcall(env, env->intern(env, "defalias"), 2,
               (emacs_value[])
               {
                 env->intern(env, "rep-parse"), parsefunc
               });

  env->funcall(env, env->intern(env, "provide"),
               1, (emacs_value[]){ env->intern(env, "rep") });

  return 0;
}