Esempio n. 1
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/**
 * Conveniece function -- is the type unsigned?
 */
bool is_unsigned(const typet &t)
{
  return t.id()==ID_bv ||
         t.id()==ID_unsignedbv ||
         t.id()==ID_pointer ||
         t.id()==ID_bool;
}
Esempio n. 2
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 bool is_string_type(const typet &t) const
 {
   return
     (t.id()==ID_pointer || t.id()==ID_array) &&
     (t.subtype().id()==ID_signedbv || t.subtype().id()==ID_unsignedbv) &&
     (to_bitvector_type(t.subtype()).get_width()==config.ansi_c.char_width);
 }
Esempio n. 3
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File: util.cpp Progetto: Dthird/CBMC
/**
 * Convenience function -- is the type a bitvector of some kind?
 */
bool is_bitvector(const typet &t) {
  return t.id() == ID_bv ||
         t.id() == ID_signedbv ||
         t.id() == ID_unsignedbv ||
         t.id() == ID_pointer ||
         t.id() == ID_bool;
}
Esempio n. 4
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void cpp_declarationt::name_anon_struct_union(typet &dest)
{
  // We name any anon struct/unions according to the first
  // declarator. No need to do anon enums, which get
  // a name based on the enum elements.

  if(dest.id()==ID_struct || dest.id()==ID_union)
  {
    if(dest.find(ID_tag).is_nil())
    {
      // it's anonymous

      const declaratorst &d=declarators();

      if(!d.empty() &&
         d.front().name().is_simple_name())
      {
        // Anon struct/unions without declarator are pretty
        // useless, but still possible.

        irep_idt base_name="anon-"+id2string(d.front().name().get_base_name());
        dest.set(ID_tag, cpp_namet(base_name));
        dest.set(ID_C_is_anonymous, true);
      }
    }
  }
  else if(dest.id()==ID_merged_type)
  {
    Forall_subtypes(it, dest)
      name_anon_struct_union(*it);
  }
}
Esempio n. 5
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bool type_eq(const typet &type1, const typet &type2, const namespacet &ns)
{
  if(type1 == type2)
    return true;

  if(type1.id() == "symbol")
  {
    const symbolt &symbol = ns.lookup(type1);
    if(!symbol.is_type)
      throw "symbol " + id2string(symbol.name) + " is not a type";

    return type_eq(symbol.type, type2, ns);
  }

  if(type2.id() == "symbol")
  {
    const symbolt &symbol = ns.lookup(type2);
    if(!symbol.is_type)
      throw "symbol " + id2string(symbol.name) + " is not a type";

    return type_eq(type1, symbol.type, ns);
  }

  return false;
}
Esempio n. 6
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void java_bytecode_parsert::get_class_refs_rec(const typet &src)
{
  if(src.id()==ID_code)
  {
    const code_typet &ct=to_code_type(src);
    const typet &rt=ct.return_type();
    get_class_refs_rec(rt);
    for(const auto &p : ct.parameters())
      get_class_refs_rec(p.type());
  }
  else if(src.id()==ID_symbol)
  {
    irep_idt name=src.get(ID_C_base_name);
    if(has_prefix(id2string(name), "array["))
    {
      const typet &element_type=
        static_cast<const typet &>(src.find(ID_C_element_type));
      get_class_refs_rec(element_type);
    }
    else
      parse_tree.class_refs.insert(name);
  }
  else if(src.id()==ID_struct)
  {
    const struct_typet &struct_type=to_struct_type(src);
    for(const auto &c : struct_type.components())
      get_class_refs_rec(c.type());
  }
  else if(src.id()==ID_pointer)
    get_class_refs_rec(src.subtype());
}
Esempio n. 7
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void c_storage_spect::read(const typet &type)
{
  if(type.id()==ID_merged_type ||
     type.id()==ID_code)
  {
    forall_subtypes(it, type)
      read(*it);
  }
  else if(type.id()==ID_static)
    is_static=true;
  else if(type.id()==ID_thread_local)
    is_thread_local=true;
  else if(type.id()==ID_inline)
    is_inline=true;
  else if(type.id()==ID_extern)
    is_extern=true;
  else if(type.id()==ID_typedef)
    is_typedef=true;
  else if(type.id()==ID_register)
    is_register=true;
  else if(type.id()==ID_weak)
    is_weak=true;
  else if(type.id()==ID_auto)
  {
    // ignore
  }
  else if(type.id()==ID_msc_declspec)
  {
    const exprt &as_expr=
      static_cast<const exprt &>(static_cast<const irept &>(type));
    forall_operands(it, as_expr)
      if(it->id()==ID_thread)
        is_thread_local=true;
  }
  else if(type.id()==ID_alias &&
Esempio n. 8
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static bool is_a_bv_type(const typet &type)
{
  return type.id()==ID_unsignedbv ||
         type.id()==ID_signedbv ||
         type.id()==ID_bv ||
         type.id()==ID_fixedbv ||
         type.id()==ID_floatbv ||
         type.id()==ID_c_enum_tag;
}
Esempio n. 9
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void base_type_rec(
  typet &type, const namespacet &ns, std::set<irep_idt> &symb)
{
  if(type.id()==ID_symbol ||
     type.id()==ID_c_enum_tag ||
     type.id()==ID_struct_tag ||
     type.id()==ID_union_tag)
  {
    const symbolt *symbol;

    if(!ns.lookup(type.get(ID_identifier), symbol) &&
       symbol->is_type &&
       !symbol->type.is_nil())
    {
      type=symbol->type;
      base_type_rec(type, ns, symb); // recursive call
      return;
    }
  }
  else if(type.id()==ID_array)
  {
    base_type_rec(to_array_type(type).subtype(), ns, symb);
  }
  else if(type.id()==ID_struct ||
          type.id()==ID_union)
  {
    struct_union_typet::componentst &components=
      to_struct_union_type(type).components();

    for(auto &component : components)
      base_type_rec(component.type(), ns, symb);
  }
  else if(type.id()==ID_pointer)
  {
    typet &subtype=to_pointer_type(type).subtype();

    // we need to avoid running into an infinite loop
    if(subtype.id()==ID_symbol ||
       subtype.id()==ID_c_enum_tag ||
       subtype.id()==ID_struct_tag ||
       subtype.id()==ID_union_tag)
    {
      const irep_idt &id=subtype.get(ID_identifier);

      if(symb.find(id)!=symb.end())
        return;

      symb.insert(id);

      base_type_rec(subtype, ns, symb);

      symb.erase(id);
    }
    else
      base_type_rec(subtype, ns, symb);
  }
}
Esempio n. 10
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bv_semt bv_sem(const typet &type)
{
  if(type.id()==ID_bv)
    return BV_NONE;
  else if(type.id()==ID_unsignedbv)
    return BV_UNSIGNED;
  else if(type.id()==ID_signedbv)
    return BV_SIGNED;

  return BV_UNKNOWN;
}
Esempio n. 11
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void bv_spect::from_type(const typet &type)
{
  if(type.id()==ID_unsignedbv)
    is_signed=false;
  else if(type.id()==ID_signedbv)
    is_signed=true;
  else
    assert(0);
  
  width=atoi(type.get(ID_width).c_str());
}
Esempio n. 12
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static std::string type_max(const typet &src)
{
  if(src.id()==ID_signedbv)
    return integer2string(
      power(2, to_signedbv_type(src).get_width()-1)-1);
  else if(src.id()==ID_unsignedbv)
    return integer2string(
      power(2, to_unsignedbv_type(src).get_width()-1)-1);
  else
    assert(false);
}
Esempio n. 13
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void bv_spect::from_type(const typet &type)
{
  if(type.id()==ID_unsignedbv)
    is_signed=false;
  else if(type.id()==ID_signedbv)
    is_signed=true;
  else
    assert(0);

  width=unsafe_string2unsigned(type.get_string(ID_width));
}
Esempio n. 14
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exprt c_typecheck_baset::do_initializer_list(
  const exprt &value,
  const typet &type,
  bool force_constant)
{
  assert(value.id()==ID_initializer_list);

  if(type.id()==ID_symbol)
    return do_initializer_list(
      value, follow(type), force_constant);

  exprt result;
  if(type.id()==ID_struct ||
     type.id()==ID_array ||
     type.id()==ID_union)
  {
    // start with zero everywhere
    result=zero_initializer(type, value.location());
  }
  else if(type.id()==ID_incomplete_array)
  {
    // start with empty array
    result=exprt(ID_array, type);
    result.location()=value.location();
  }
  else
  {
    // The initializer for a scalar shall be a single expression,
    // * optionally enclosed in braces. *

    if(value.operands().size()==1)
      return do_initializer_rec(value.op0(), type, force_constant);
    
    err_location(value);
    str << "cannot initialize `" << to_string(type) << "' with "
           "an initializer list";
    throw 0;
  }

  designatort current_designator;
  
  designator_enter(type, current_designator);
    
  forall_operands(it, value)
  {
    do_designated_initializer(
      result, current_designator, *it, force_constant);

    // increase designator -- might go up    
    increment_designator(current_designator);
  }
Esempio n. 15
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bool jsil_is_subtype(const typet &type1, const typet &type2)
{
  if(type2.id()==ID_union)
  {
    const jsil_union_typet &type2_union=to_jsil_union_type(type2);

    if(type1.id()==ID_union)
      return to_jsil_union_type(type1).is_subtype(type2_union);
    else
      return jsil_union_typet(type1).is_subtype(type2_union);
  }
  else
    return type1.id()==type2.id();
}
Esempio n. 16
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exprt pointer_logict::pointer_expr(
  const pointert &pointer,
  const typet &type) const
{
  if(pointer.object==null_object) // NULL?
  {
    if(pointer.offset==0)
    {
      constant_exprt result(type);
      result.set_value(ID_NULL);
      return result;
    }
    else
    {
      constant_exprt null(type);
      null.set_value(ID_NULL);
      return plus_exprt(null,
        from_integer(pointer.offset, pointer_diff_type()));
    }
  }
  else if(pointer.object==invalid_object) // INVALID?
  {
    constant_exprt result(type);
    result.set_value("INVALID");
    return result;
  }

  if(pointer.object>=objects.size())
  {
    constant_exprt result(type);
    result.set_value("INVALID-"+std::to_string(pointer.object));
    return result;
  }

  const exprt &object_expr=objects[pointer.object];

  exprt deep_object=object_rec(pointer.offset, type, object_expr);

  exprt result;

  if(type.id()==ID_pointer)
    result=exprt(ID_address_of, type);
  else if(type.id()==ID_reference)
    result=exprt("reference_to", type);
  else
    assert(0);

  result.copy_to_operands(deep_object);
  return result;
}
Esempio n. 17
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/// \par parameters: a type
/// \return Boolean telling whether the type is that of java string
bool refined_string_typet::is_java_string_type(const typet &type)
{
  if(type.id()==ID_symbol)
  {
    irep_idt tag=to_symbol_type(type).get_identifier();
    return tag=="java::java.lang.String";
  }
  else if(type.id()==ID_struct)
  {
    irep_idt tag=to_struct_type(type).get_tag();
    return tag=="java.lang.String";
  }
  return false;
}
Esempio n. 18
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bool refined_string_typet::is_c_string_type(const typet &type)
{
  if (type.id() == ID_struct) {
    irep_idt tag = to_struct_type(type).get_tag();
    return (tag == irep_idt("__CPROVER_string"));
  } else return false;
}
Esempio n. 19
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void c_typecheck_baset::do_initializer(
  exprt &initializer,
  const typet &type,
  bool force_constant)
{
  exprt result=do_initializer_rec(initializer, type, force_constant);

  if(type.id()==ID_array)
  {
    // any arrays must have a size
    const typet &result_type=follow(result.type());
    assert(result_type.id()==ID_array &&
           to_array_type(result_type).size().is_not_nil());

    // we don't allow initialisation with symbols of array type
    if(result.id()!=ID_array)
    {
      err_location(result);
      error() << "invalid array initializer " << to_string(result)
              << eom;
      throw 0;
    }
  }

  initializer=result;
}
Esempio n. 20
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void c_typecheck_baset::typecheck_c_bit_field_type(typet &type)
{
  typecheck_type(type.subtype());

  exprt &width_expr=static_cast<exprt &>(type.add(ID_size));

  typecheck_expr(width_expr);
  make_constant_index(width_expr);

  mp_integer i;
  if(to_integer(width_expr, i))
  {
    err_location(type);
    throw "failed to convert bit field width";
  }

  if(i<0)
  {
    err_location(type);
    throw "bit field width is negative";
  }

  const typet &base_type=follow(type.subtype());
  
  if(base_type.id()==ID_bool)
  {
    if(i>1)
    {
      err_location(type);
      throw "bit field width too large";
    }

    // We don't use bool, as it's really a byte long.
    type.id(ID_unsignedbv);
    type.set(ID_width, integer2long(i));
  }
  else if(base_type.id()==ID_signedbv ||
          base_type.id()==ID_unsignedbv ||
          base_type.id()==ID_c_enum)
  {
    unsigned width=base_type.get_int(ID_width);

    if(i>width)
    {
      err_location(type);
      throw "bit field width too large";
    }

    typet tmp(base_type);
    type.swap(tmp);
    type.set(ID_width, integer2string(i));
  }
  else
  {
    err_location(type);
    str << "bit field with non-integer type: "
        << to_string(base_type);
    throw 0;
  }
}
Esempio n. 21
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c_typecastt::c_typet c_typecastt::minimum_promotion(
  const typet &type) const
{
  c_typet c_type=get_c_type(type);

  // 6.3.1.1, par 2

  // "If an int can represent all values of the original type, the
  // value is converted to an int; otherwise, it is converted to
  // an unsigned int."

  c_typet max_type=std::max(c_type, INT); // minimum promotion

  // The second case can arise if we promote any unsigned type
  // that is as large as unsigned int.

  if(config.ansi_c.short_int_width==config.ansi_c.int_width &&
     max_type==USHORT)
    max_type=UINT;
  else if(config.ansi_c.char_width==config.ansi_c.int_width &&
          max_type==UCHAR)
    max_type=UINT;
  else
    max_type=std::max(max_type, INT);

  if(max_type==UINT &&
     type.id()==ID_c_bit_field &&
     to_c_bit_field_type(type).get_width()<config.ansi_c.int_width)
    max_type=INT;

  return max_type;
}
Esempio n. 22
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exprt from_integer(const mp_integer &int_value, const typet &type)
{
  exprt expr;

  expr.clear();
  expr.type() = type;
  expr.id("constant");

  const irep_idt &type_id = type.id();

  if(type_id == "unsignedbv" || type_id == "signedbv")
  {
    expr.value(integer2binary(int_value, bv_width(type)));
    return expr;
  }
  if(type_id == "bool")
  {
    if(int_value == 0)
    {
      expr.make_false();
      return expr;
    }
    if(int_value == 1)
    {
      expr.make_true();
      return expr;
    }
  }

  expr.make_nil();
  return expr;
}
Esempio n. 23
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code_function_callt get_destructor(
  const namespacet &ns,
  const typet &type)
{
  if(type.id()==ID_symbol)
  {
    return get_destructor(ns, ns.follow(type));
  }
  else if(type.id()==ID_struct)
  {
    const struct_typet &struct_type=to_struct_type(type);

    const struct_typet::componentst &components=
      struct_type.components();

    for(struct_typet::componentst::const_iterator
        it=components.begin();
        it!=components.end();
        it++)
    {
      if(it->type().id()==ID_code)
      {
        const code_typet &code_type=to_code_type(it->type());
        
        if(code_type.return_type().id()==ID_destructor &&
           code_type.parameters().size()==1)
        {
          const typet &arg_type=code_type.parameters().front().type();
          
          if(arg_type.id()==ID_pointer &&
             ns.follow(arg_type.subtype())==type)
          {
            exprt symbol_expr(ID_symbol, it->type());
            symbol_expr.set(ID_identifier, it->get(ID_name));      

            code_function_callt function_call;
            function_call.function()=symbol_expr;
            
            return function_call;
          }
        }
      }
    }
  }

  return static_cast<const code_function_callt &>(get_nil_irep());
}
Esempio n. 24
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bool refined_string_typet::is_java_string_type(const typet &type)
{
  if(type.id() == ID_pointer) {
    pointer_typet pt = to_pointer_type(type);
    typet subtype = pt.subtype();
    return is_java_deref_string_type(subtype);
  } else return false;
}
Esempio n. 25
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bool refined_string_typet::is_java_deref_string_type(const typet &type)
{
  if(type.id() == ID_struct) {
    irep_idt tag = to_struct_type(type).get_tag();
    return (tag == irep_idt("java.lang.String"));
  } 
  else return false;
}
Esempio n. 26
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void ranking_synthesis_satt::adjust_type(typet &type) const
{
  if(type.id()=="bool")
  {
    type=uint_type();
    type.set("width", 1);
  }
}
Esempio n. 27
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void boolbvt::convert_with(
  const typet &type,
  const exprt &op1,
  const exprt &op2,
  const bvt &prev_bv,
  bvt &next_bv)
{
  // we only do that on arrays, bitvectors, structs, and unions

  next_bv.resize(prev_bv.size());

  if(type.id()==ID_array)
    return convert_with_array(to_array_type(type), op1, op2, prev_bv, next_bv);
  else if(type.id()==ID_bv ||
          type.id()==ID_unsignedbv ||
          type.id()==ID_signedbv)
    return convert_with_bv(type, op1, op2, prev_bv, next_bv);
  else if(type.id()==ID_struct)
    return convert_with_struct(to_struct_type(type), op1, op2, prev_bv, next_bv);
  else if(type.id()==ID_union)
    return convert_with_union(to_union_type(type), op1, op2, prev_bv, next_bv);
  else if(type.id()==ID_symbol)
    return convert_with(ns.follow(type), op1, op2, prev_bv, next_bv);

  error().source_location=type.source_location();
  error() << "unexpected with type: " << type.id();
  throw 0;
}
Esempio n. 28
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bool is_jsa_heap(const typet &type)
{
  const irep_idt &type_id=type.id();
  if (ID_symbol == type_id)
    return id2string(to_symbol_type(type).get_identifier()) == JSA_HEAP_TAG;
  if (ID_struct != type_id) return false;
  const irep_idt tag(to_struct_type(type).get_tag());
  return id2string(tag) == JSA_HEAP_TAG;
}
Esempio n. 29
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/// \par parameters: a type
/// \return Boolean telling whether the type is that of java string pointers
bool refined_string_typet::is_java_string_pointer_type(const typet &type)
{
  if(type.id()==ID_pointer)
  {
    const pointer_typet &pt=to_pointer_type(type);
    const typet &subtype=pt.subtype();
    return is_java_string_type(subtype);
  }
  return false;
}
Esempio n. 30
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typet fence_insertert::type_component(std::list<std::string>::const_iterator it,
  std::list<std::string>::const_iterator end, const typet& type)
{
  if(it==end)
    return type;

  if(type.id()==ID_struct) {
    const struct_union_typet& str=to_struct_union_type(type);
    typet comp_type=str.component_type(*it);
    ++it;
    return type_component(it, end, comp_type);
  }

  if(type.id()==ID_symbol) {
    return type;
  }

  assert(0);
}