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453 lines
12 KiB
C++
453 lines
12 KiB
C++
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// Methods for type_info for -*- C++ -*- Run Time Type Identification.
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// Copyright (C) 1994, 1996, 1997, 1998, 1999, 2000 Free Software Foundation
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// This file is part of GNU CC.
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// GNU CC is free software; you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation; either version 2, or (at your option)
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// any later version.
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// GNU CC is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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// You should have received a copy of the GNU General Public License
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// along with GNU CC; see the file COPYING. If not, write to
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// the Free Software Foundation, 59 Temple Place - Suite 330,
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// Boston, MA 02111-1307, USA.
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// As a special exception, you may use this file as part of a free software
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// library without restriction. Specifically, if other files instantiate
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// templates or use macros or inline functions from this file, or you compile
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// this file and link it with other files to produce an executable, this
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// file does not by itself cause the resulting executable to be covered by
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// the GNU General Public License. This exception does not however
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// invalidate any other reasons why the executable file might be covered by
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// the GNU General Public License.
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#include <stddef.h>
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#include "tinfo.hP"
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#include "new" // for placement new
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// We can't rely on having stdlib.h if we're freestanding.
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extern "C" void abort ();
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using std::type_info;
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#if !defined(__GXX_ABI_VERSION) || __GXX_ABI_VERSION < 100
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bool
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type_info::before (const type_info &arg) const
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{
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return __builtin_strcmp (name (), arg.name ()) < 0;
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}
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// type info for pointer type.
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struct __pointer_type_info : public type_info {
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const type_info& type;
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__pointer_type_info (const char *n, const type_info& ti)
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: type_info (n), type (ti) {}
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};
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// type info for attributes
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struct __attr_type_info : public type_info {
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enum cv { NONE = 0, CONST = 1, VOLATILE = 2, CONSTVOL = 1 | 2 };
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const type_info& type;
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cv attr;
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__attr_type_info (const char *n, cv a, const type_info& t)
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: type_info (n), type (t), attr (a) {}
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};
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// type_info for builtin type
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struct __builtin_type_info : public type_info {
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__builtin_type_info (const char *n): type_info (n) {}
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};
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// type info for function.
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struct __func_type_info : public type_info {
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__func_type_info (const char *n) : type_info (n) {}
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};
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// type info for pointer to member function.
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struct __ptmf_type_info : public type_info {
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__ptmf_type_info (const char *n) : type_info (n) {}
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};
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// type info for pointer to data member.
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struct __ptmd_type_info : public type_info {
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__ptmd_type_info (const char *n): type_info (n) {}
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};
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// type info for array.
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struct __array_type_info : public type_info {
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__array_type_info (const char *n): type_info (n) {}
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};
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#else
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#include <cxxabi.h>
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#endif
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#if defined(__GXX_ABI_VERSION) && __GXX_ABI_VERSION >= 100
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namespace __cxxabiv1 {
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using namespace std;
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// This has special meaning to the compiler, and will cause it
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// to emit the type_info structures for the fundamental types which are
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// mandated to exist in the runtime.
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__fundamental_type_info::
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~__fundamental_type_info ()
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{}
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__array_type_info::
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~__array_type_info ()
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{}
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__function_type_info::
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~__function_type_info ()
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{}
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__enum_type_info::
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~__enum_type_info ()
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{}
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__pbase_type_info::
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~__pbase_type_info ()
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{}
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__pointer_type_info::
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~__pointer_type_info ()
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{}
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__pointer_to_member_type_info::
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~__pointer_to_member_type_info ()
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{}
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bool __pointer_type_info::
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__is_pointer_p () const
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{
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return true;
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}
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bool __function_type_info::
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__is_function_p () const
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{
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return true;
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}
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bool __pbase_type_info::
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__do_catch (const type_info *thr_type,
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void **thr_obj,
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unsigned outer) const
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{
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if (*this == *thr_type)
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return true; // same type
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if (typeid (*this) != typeid (*thr_type))
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return false; // not both same kind of pointers
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if (!(outer & 1))
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// We're not the same and our outer pointers are not all const qualified
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// Therefore there must at least be a qualification conversion involved
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// But for that to be valid, our outer pointers must be const qualified.
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return false;
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const __pbase_type_info *thrown_type =
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static_cast <const __pbase_type_info *> (thr_type);
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if (thrown_type->__qualifier_flags & ~__qualifier_flags)
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// We're less qualified.
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return false;
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if (!(__qualifier_flags & __const_mask))
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outer &= ~1;
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return __pointer_catch (thrown_type, thr_obj, outer);
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}
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inline bool __pbase_type_info::
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__pointer_catch (const __pbase_type_info *thrown_type,
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void **thr_obj,
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unsigned outer) const
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{
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return __pointee->__do_catch (thrown_type->__pointee, thr_obj, outer + 2);
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}
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bool __pointer_type_info::
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__pointer_catch (const __pbase_type_info *thrown_type,
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void **thr_obj,
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unsigned outer) const
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{
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if (outer < 2 && *__pointee == typeid (void))
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{
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// conversion to void
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return !thrown_type->__pointee->__is_function_p ();
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}
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return __pbase_type_info::__pointer_catch (thrown_type, thr_obj, outer);
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}
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bool __pointer_to_member_type_info::
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__pointer_catch (const __pbase_type_info *thr_type,
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void **thr_obj,
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unsigned outer) const
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{
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// This static cast is always valid, as our caller will have determined that
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// thr_type is really a __pointer_to_member_type_info.
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const __pointer_to_member_type_info *thrown_type =
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static_cast <const __pointer_to_member_type_info *> (thr_type);
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if (*__context_class != *thrown_type->__context_class)
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return false; // not pointers to member of same class
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return __pbase_type_info::__pointer_catch (thrown_type, thr_obj, outer);
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}
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} // namespace std
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#endif
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// Entry points for the compiler.
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/* Low level match routine used by compiler to match types of catch
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variables and thrown objects. */
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extern "C" int
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__throw_type_match_rtti_2 (const void *catch_type_r, const void *throw_type_r,
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void *objptr, void **valp)
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{
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const type_info &catch_type = *(const type_info *)catch_type_r;
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const type_info &throw_type = *(const type_info *)throw_type_r;
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*valp = objptr;
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#if !defined(__GXX_ABI_VERSION) || __GXX_ABI_VERSION < 100
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// old abi
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if (catch_type == throw_type)
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return 1;
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if (const __user_type_info *p
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= dynamic_cast <const __user_type_info *> (&throw_type))
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{
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return p->upcast (catch_type, objptr, valp);
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}
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else if (const __pointer_type_info *fr =
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dynamic_cast <const __pointer_type_info *> (&throw_type))
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{
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const __pointer_type_info *to =
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dynamic_cast <const __pointer_type_info *> (&catch_type);
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if (! to)
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return 0;
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const type_info *subfr = &fr->type, *subto = &to->type;
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__attr_type_info::cv cvfrom, cvto;
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if (const __attr_type_info *at
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= dynamic_cast <const __attr_type_info *> (subfr))
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{
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cvfrom = at->attr;
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subfr = &at->type;
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}
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else
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cvfrom = __attr_type_info::NONE;
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if (const __attr_type_info *at
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= dynamic_cast <const __attr_type_info *> (subto))
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{
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cvto = at->attr;
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subto = &at->type;
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}
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else
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cvto = __attr_type_info::NONE;
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if (((cvfrom & __attr_type_info::CONST)
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> (cvto & __attr_type_info::CONST))
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|| ((cvfrom & __attr_type_info::VOLATILE)
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> (cvto & __attr_type_info::VOLATILE)))
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return 0;
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if (*subto == *subfr)
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return 1;
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else if (*subto == typeid (void)
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&& dynamic_cast <const __func_type_info *> (subfr) == 0)
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return 1;
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else if (const __user_type_info *p
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= dynamic_cast <const __user_type_info *> (subfr))
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return p->upcast (*subto, objptr, valp);
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else if (const __pointer_type_info *pfr
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= dynamic_cast <const __pointer_type_info *> (subfr))
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{
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// Multi-level pointer conversion.
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const __pointer_type_info *pto
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= dynamic_cast <const __pointer_type_info *> (subto);
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if (! pto)
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return 0;
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bool constp = (cvto & __attr_type_info::CONST);
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for (subto = &pto->type, subfr = &pfr->type; ;
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subto = &pto->type, subfr = &pfr->type)
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{
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if (const __attr_type_info *at
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= dynamic_cast <const __attr_type_info *> (subfr))
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{
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cvfrom = at->attr;
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subfr = &at->type;
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}
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else
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cvfrom = __attr_type_info::NONE;
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if (const __attr_type_info *at
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= dynamic_cast <const __attr_type_info *> (subto))
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{
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cvto = at->attr;
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subto = &at->type;
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}
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else
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cvto = __attr_type_info::NONE;
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if (((cvfrom & __attr_type_info::CONST)
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> (cvto & __attr_type_info::CONST))
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|| ((cvfrom & __attr_type_info::VOLATILE)
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> (cvto & __attr_type_info::VOLATILE)))
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return 0;
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if (! constp
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&& (((cvfrom & __attr_type_info::CONST)
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< (cvto & __attr_type_info::CONST))
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|| ((cvfrom & __attr_type_info::VOLATILE)
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< (cvto & __attr_type_info::VOLATILE))))
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return 0;
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if (*subto == *subfr)
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return 1;
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pto = dynamic_cast <const __pointer_type_info *> (subto);
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pfr = dynamic_cast <const __pointer_type_info *> (subfr);
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if (! pto || ! pfr)
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return 0;
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if (! (cvto & __attr_type_info::CONST))
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constp = false;
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}
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}
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}
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#else
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// new abi
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return catch_type.__do_catch (&throw_type, valp, 1);
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#endif
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return 0;
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}
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#if !defined(__GXX_ABI_VERSION) || __GXX_ABI_VERSION < 100
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/* Backward compatibility wrapper. */
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extern "C" void*
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__throw_type_match_rtti (const void *catch_type_r, const void *throw_type_r,
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void *objptr)
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{
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void *ret;
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if (__throw_type_match_rtti_2 (catch_type_r, throw_type_r, objptr, &ret))
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return ret;
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return NULL;
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}
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#endif
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/* Called from __cp_pop_exception. Is P the type_info node for a pointer
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of some kind? */
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bool
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__is_pointer (void *p)
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{
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const type_info *t = reinterpret_cast <const type_info *>(p);
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#if !defined(__GXX_ABI_VERSION) || __GXX_ABI_VERSION < 100
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// old abi
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const __pointer_type_info *pt =
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dynamic_cast <const __pointer_type_info *> (t);
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return pt != 0;
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#else
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// new abi
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return t->__is_pointer_p ();
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#endif
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}
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#if !defined(__GXX_ABI_VERSION) || __GXX_ABI_VERSION < 100
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// old abi
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extern "C" void
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__rtti_ptr (void *addr, const char *n, const type_info *ti)
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{ new (addr) __pointer_type_info (n, *ti); }
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extern "C" void
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__rtti_attr (void *addr, const char *n, int attrval, const type_info *ti)
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{
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new (addr) __attr_type_info
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(n, static_cast <__attr_type_info::cv> (attrval), *ti);
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}
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extern "C" void
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__rtti_func (void *addr, const char *name)
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{ new (addr) __func_type_info (name); }
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extern "C" void
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__rtti_ptmf (void *addr, const char *name)
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{ new (addr) __ptmf_type_info (name); }
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extern "C" void
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__rtti_ptmd (void *addr, const char *name)
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{ new (addr) __ptmd_type_info (name); }
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extern "C" void
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__rtti_array (void *addr, const char *name)
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{ new (addr) __array_type_info (name); }
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extern "C" void *
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__dynamic_cast (const type_info& (*from)(void), const type_info& (*to)(void),
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int require_public, void *address, const type_info & (*sub)(void), void *subptr)
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{
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if (!require_public) abort();
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return static_cast <__user_type_info const &> (from ()).dyncast
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(/*boff=*/-1, to (), address, sub (), subptr);
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}
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extern "C" void *
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__dynamic_cast_2 (const type_info& (*from)(void), const type_info& (*to)(void),
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int boff,
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void *address, const type_info & (*sub)(void), void *subptr)
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{
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return static_cast <__user_type_info const &> (from ()).dyncast
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(boff, to (), address, sub (), subptr);
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}
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// type_info nodes and functions for the builtin types. The mangling here
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// must match the mangling in gcc/cp/rtti.c.
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#define BUILTIN(mangled) \
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unsigned char __ti##mangled [sizeof (__builtin_type_info)] \
|
||
|
__attribute__ ((aligned (__alignof__ (void *)))); \
|
||
|
extern "C" const type_info &__tf##mangled (void) { \
|
||
|
if ((*(void **) __ti##mangled) == 0) \
|
||
|
new (__ti##mangled) __builtin_type_info (#mangled); \
|
||
|
return *(type_info *)__ti##mangled; \
|
||
|
}
|
||
|
|
||
|
BUILTIN (v); BUILTIN (x); BUILTIN (l); BUILTIN (i); BUILTIN (s); BUILTIN (b);
|
||
|
BUILTIN (c); BUILTIN (w); BUILTIN (r); BUILTIN (d); BUILTIN (f);
|
||
|
BUILTIN (Ui); BUILTIN (Ul); BUILTIN (Ux); BUILTIN (Us); BUILTIN (Uc);
|
||
|
BUILTIN (Sc);
|
||
|
|
||
|
#endif
|