kc3-lang/kc3/libkc3/fact.c

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• Hash : 83f088cb
  Author : Thomas de Grivel
  Date : 2024-08-16T23:55:27
  

  Facts.with_tags(Facts.env_facts(), ?, ?, ?, fn (fact) { puts(fact) })

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• libkc3/fact.c

• /* kc3
   * Copyright 2022,2023,2024 kmx.io <contact@kmx.io>
   *
   * Permission is hereby granted to use this software granted the above
   * copyright notice and this permission paragraph are included in all
   * copies and substantial portions of this software.
   *
   * THIS SOFTWARE IS PROVIDED "AS-IS" WITHOUT ANY GUARANTEE OF
   * PURPOSE AND PERFORMANCE. IN NO EVENT WHATSOEVER SHALL THE
   * AUTHOR BE CONSIDERED LIABLE FOR THE USE AND PERFORMANCE OF
   * THIS SOFTWARE.
   */
  #include "assert.h"
  #include "buf.h"
  #include "buf_inspect.h"
  #include "hash.h"
  #include "fact.h"
  #include "sym.h"
  #include "tag.h"
  
  uw * fact_hash_uw (const s_fact *fact, uw *dest)
  {
    t_hash hash;
    assert(fact);
    hash_init(&hash);
    if (! hash_update_fact(&hash, fact))
      return NULL;
    *dest = hash_to_uw(&hash);
    return dest;
  }
  
  s_fact * fact_init (s_fact *fact, const s_tag *subject,
                      const s_tag *predicate, const s_tag *object)
  {
    assert(fact);
    fact->subject = subject;
    fact->predicate = predicate;
    fact->object = object;
    fact->id = 0;
    return fact;
  }
  
  s_fact * fact_init_cast (s_fact *fact, const s_sym * const *type,
                           const s_tag *tag)
  {
    assert(fact);
    assert(type);
    assert(tag);
    switch (tag->type) {
    case TAG_FACT:
      return fact_init_copy(fact, &tag->data.fact);
    default:
      break;
    }
    err_write_1("fact_init_cast: cannot cast ");
    err_write_1(tag_type_to_string(tag->type));
    if (*type == &g_sym_Fact)
      err_puts(" to Fact");
    else {
      err_write_1(" to ");
      err_inspect_sym(type);
      err_puts(" aka Fact");
    }
    assert(! "fact_init_cast: cannot cast to Fact");
    return NULL;
  }
  
  s_fact * fact_init_copy (s_fact *fact, const s_fact *src)
  {
    assert(src);
    assert(fact);
    *fact = *src;
    return fact;
  }
  
  void fact_r (const s_fact_w *fact, s_fact *dest)
  {
    s_fact tmp = {0};
    tmp.subject = &fact->subject;
    tmp.predicate = &fact->predicate;
    tmp.object = &fact->object;
    tmp.id = fact->id;
    *dest = tmp;
  }
  
  void fact_w_clean (s_fact_w *fact)
  {
    tag_clean(&fact->subject);
    tag_clean(&fact->predicate);
    tag_clean(&fact->object);
  }
  
  s_fact_w * fact_w_eval (const s_fact_w *fact, s_fact_w *dest)
  {
    return env_fact_w_eval(&g_kc3_env, fact, dest);
  }
  
  s_fact_w * fact_w_init (s_fact_w *fact)
  {
    s_fact_w tmp = {0};
    assert(fact);
    *fact = tmp;
    return fact;
  }
  
  s_fact_w * fact_w_init_cast (s_fact_w *fact, const s_sym * const *type,
                               const s_tag *tag)
  {
    assert(fact);
    assert(type);
    assert(*type);
    assert(tag);
    switch (tag->type) {
    case TAG_FACT:
      return fact_w_init_fact(fact, &tag->data.fact);
    default:
      break;
    }
    err_write_1("fact_w_init_cast: cannot cast from ");
    err_write_1(tag_type_to_string(tag->type));
    err_write_1(" to ");
    if (*type == &g_sym_FactW)
      err_puts("FactW");
    else {
      err_inspect_sym(type);
      err_puts(" aka FactW");
    }
    assert(! "fact_w_init_cast: cannot cast");
    return NULL;
  }
  
  s_fact_w * fact_w_init_fact (s_fact_w *fact, const s_fact *src)
  {
    s_fact_w tmp = {0};
    if (! tag_init_copy(&tmp.subject, src->subject))
      return NULL;
    if (! tag_init_copy(&tmp.predicate, src->predicate)) {
      tag_clean(&tmp.subject);
      return NULL;
    }
    if (! tag_init_copy(&tmp.object, src->object)) {
      tag_clean(&tmp.predicate);
      tag_clean(&tmp.subject);
      return NULL;
    }
    *fact = tmp;
    return fact;
  }
  
  

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