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Use Boost.TypeIndex to work with type_info to avoid bunch of workarounds and non-optimal operators. Added RTTI-off tests

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This commit is contained in:
Antony Polukhin
2015-04-25 17:45:13 +03:00
parent fde855afb0
commit 8998778f51
3 changed files with 22 additions and 54 deletions
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72
include/boost/function/function_base.hpp
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@ -16,9 +16,9 @@
#include <memory>
#include <new>
#include <boost/config.hpp>
#include <boost/detail/sp_typeinfo.hpp>
#include <boost/assert.hpp>
#include <boost/integer.hpp>
#include <boost/type_index.hpp>
#include <boost/type_traits/has_trivial_copy.hpp>
#include <boost/type_traits/has_trivial_destructor.hpp>
#include <boost/type_traits/is_const.hpp>
@ -44,28 +44,6 @@
# pragma warning( disable : 4127 ) // "conditional expression is constant"
#endif
// Define BOOST_FUNCTION_STD_NS to the namespace that contains type_info.
#ifdef BOOST_NO_STD_TYPEINFO
// Embedded VC++ does not have type_info in namespace std
# define BOOST_FUNCTION_STD_NS
#else
# define BOOST_FUNCTION_STD_NS std
#endif
// Borrowed from Boost.Python library: determines the cases where we
// need to use std::type_info::name to compare instead of operator==.
#if defined( BOOST_NO_TYPEID )
# define BOOST_FUNCTION_COMPARE_TYPE_ID(X,Y) ((X)==(Y))
#elif defined(__GNUC__) \
|| defined(_AIX) \
|| ( defined(__sgi) && defined(__host_mips))
# include <cstring>
# define BOOST_FUNCTION_COMPARE_TYPE_ID(X,Y) \
(std::strcmp((X).name(),(Y).name()) == 0)
# else
# define BOOST_FUNCTION_COMPARE_TYPE_ID(X,Y) ((X)==(Y))
#endif
#if defined(__ICL) && __ICL <= 600 || defined(__MWERKS__) && __MWERKS__ < 0x2406 && !defined(BOOST_STRICT_CONFIG)
# define BOOST_FUNCTION_TARGET_FIX(x) x
#else
@ -105,7 +83,7 @@ namespace boost {
// For pointers to std::type_info objects
struct type_t {
// (get_functor_type_tag, check_functor_type_tag).
const detail::sp_typeinfo* type;
const boost::typeindex::type_info* type;
// Whether the type is const-qualified.
bool const_qualified;
@ -217,12 +195,9 @@ namespace boost {
case check_functor_type_tag:
{
const detail::sp_typeinfo& check_type
= *out_buffer.type.type;
// Check whether we have the same type. We can add
// cv-qualifiers, but we can't take them away.
if (BOOST_FUNCTION_COMPARE_TYPE_ID(check_type, BOOST_SP_TYPEID(F))
if (*out_buffer.type.type == boost::typeindex::type_id<F>()
&& (!in_buffer.obj_ref.is_const_qualified
|| out_buffer.type.const_qualified)
&& (!in_buffer.obj_ref.is_volatile_qualified
@ -234,7 +209,7 @@ namespace boost {
return;
case get_functor_type_tag:
out_buffer.type.type = &BOOST_SP_TYPEID(F);
out_buffer.type.type = &boost::typeindex::type_id<F>().type_info();
out_buffer.type.const_qualified = in_buffer.obj_ref.is_const_qualified;
out_buffer.type.volatile_qualified = in_buffer.obj_ref.is_volatile_qualified;
return;
@ -294,14 +269,12 @@ namespace boost {
} else if (op == destroy_functor_tag)
out_buffer.func_ptr = 0;
else if (op == check_functor_type_tag) {
const boost::detail::sp_typeinfo& check_type
= *out_buffer.type.type;
if (BOOST_FUNCTION_COMPARE_TYPE_ID(check_type, BOOST_SP_TYPEID(Functor)))
if (*out_buffer.type.type == boost::typeindex::type_id<Functor>())
out_buffer.obj_ptr = &in_buffer.func_ptr;
else
out_buffer.obj_ptr = 0;
} else /* op == get_functor_type_tag */ {
out_buffer.type.type = &BOOST_SP_TYPEID(Functor);
out_buffer.type.type = &boost::typeindex::type_id<Functor>().type_info();
out_buffer.type.const_qualified = false;
out_buffer.type.volatile_qualified = false;
}
@ -328,14 +301,12 @@ namespace boost {
(void)f; // suppress warning about the value of f not being used (MSVC)
f->~Functor();
} else if (op == check_functor_type_tag) {
const detail::sp_typeinfo& check_type
= *out_buffer.type.type;
if (BOOST_FUNCTION_COMPARE_TYPE_ID(check_type, BOOST_SP_TYPEID(Functor)))
if (*out_buffer.type.type == boost::typeindex::type_id<Functor>())
out_buffer.obj_ptr = &in_buffer.data;
else
out_buffer.obj_ptr = 0;
} else /* op == get_functor_type_tag */ {
out_buffer.type.type = &BOOST_SP_TYPEID(Functor);
out_buffer.type.type = &boost::typeindex::type_id<Functor>().type_info();
out_buffer.type.const_qualified = false;
out_buffer.type.volatile_qualified = false;
}
@ -389,14 +360,12 @@ namespace boost {
delete f;
out_buffer.obj_ptr = 0;
} else if (op == check_functor_type_tag) {
const detail::sp_typeinfo& check_type
= *out_buffer.type.type;
if (BOOST_FUNCTION_COMPARE_TYPE_ID(check_type, BOOST_SP_TYPEID(Functor)))
if (*out_buffer.type.type == boost::typeindex::type_id<Functor>())
out_buffer.obj_ptr = in_buffer.obj_ptr;
else
out_buffer.obj_ptr = 0;
} else /* op == get_functor_type_tag */ {
out_buffer.type.type = &BOOST_SP_TYPEID(Functor);
out_buffer.type.type = &boost::typeindex::type_id<Functor>().type_info();
out_buffer.type.const_qualified = false;
out_buffer.type.volatile_qualified = false;
}
@ -431,7 +400,7 @@ namespace boost {
typedef typename get_function_tag<functor_type>::type tag_type;
switch (op) {
case get_functor_type_tag:
out_buffer.type.type = &BOOST_SP_TYPEID(functor_type);
out_buffer.type.type = &boost::typeindex::type_id<functor_type>().type_info();
out_buffer.type.const_qualified = false;
out_buffer.type.volatile_qualified = false;
return;
@ -500,14 +469,12 @@ namespace boost {
wrapper_allocator.deallocate(victim,1);
out_buffer.obj_ptr = 0;
} else if (op == check_functor_type_tag) {
const detail::sp_typeinfo& check_type
= *out_buffer.type.type;
if (BOOST_FUNCTION_COMPARE_TYPE_ID(check_type, BOOST_SP_TYPEID(Functor)))
if (*out_buffer.type.type == boost::typeindex::type_id<Functor>())
out_buffer.obj_ptr = in_buffer.obj_ptr;
else
out_buffer.obj_ptr = 0;
} else /* op == get_functor_type_tag */ {
out_buffer.type.type = &BOOST_SP_TYPEID(Functor);
out_buffer.type.type = &boost::typeindex::type_id<Functor>().type_info();
out_buffer.type.const_qualified = false;
out_buffer.type.volatile_qualified = false;
}
@ -534,7 +501,7 @@ namespace boost {
typedef typename get_function_tag<functor_type>::type tag_type;
switch (op) {
case get_functor_type_tag:
out_buffer.type.type = &BOOST_SP_TYPEID(functor_type);
out_buffer.type.type = &boost::typeindex::type_id<functor_type>().type_info();
out_buffer.type.const_qualified = false;
out_buffer.type.volatile_qualified = false;
return;
@ -635,11 +602,11 @@ public:
/** Determine if the function is empty (i.e., has no target). */
bool empty() const { return !vtable; }
/** Retrieve the type of the stored function object, or BOOST_SP_TYPEID(void)
/** Retrieve the type of the stored function object, or type_id<void>()
if this is empty. */
const detail::sp_typeinfo& target_type() const
const boost::typeindex::type_info& target_type() const
{
if (!vtable) return BOOST_SP_TYPEID(void);
if (!vtable) return boost::typeindex::type_id<void>().type_info();
detail::function::function_buffer type;
get_vtable()->manager(functor, type, detail::function::get_functor_type_tag);
@ -652,7 +619,7 @@ public:
if (!vtable) return 0;
detail::function::function_buffer type_result;
type_result.type.type = &BOOST_SP_TYPEID(Functor);
type_result.type.type = &boost::typeindex::type_id<Functor>().type_info();
type_result.type.const_qualified = is_const<Functor>::value;
type_result.type.volatile_qualified = is_volatile<Functor>::value;
get_vtable()->manager(functor, type_result,
@ -666,7 +633,7 @@ public:
if (!vtable) return 0;
detail::function::function_buffer type_result;
type_result.type.type = &BOOST_SP_TYPEID(Functor);
type_result.type.type = &boost::typeindex::type_id<Functor>().type_info();
type_result.type.const_qualified = true;
type_result.type.volatile_qualified = is_volatile<Functor>::value;
get_vtable()->manager(functor, type_result,
@ -893,7 +860,6 @@ namespace detail {
} // end namespace boost
#undef BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL
#undef BOOST_FUNCTION_COMPARE_TYPE_ID
#if defined(BOOST_MSVC)
# pragma warning( pop )