/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*/
#ifndef INCLUDED_O3TL_ANY_HXX
#define INCLUDED_O3TL_ANY_HXX
#include <sal/config.h>
#include <cassert>
#include <type_traits>
#include <utility>
#include <optional>
#include <com/sun/star/uno/Any.hxx>
#include <com/sun/star/uno/RuntimeException.hpp>
#include <com/sun/star/uno/Reference.hxx>
#include <com/sun/star/uno/XInterface.hpp>
#include <cppu/unotype.hxx>
#include <rtl/ustring.hxx>
#include <sal/types.h>
// Some functionality related to css::uno::Any that would ideally be part of
// <com/sun/star/uno/Any.hxx>, but (for now) cannot be for some reason.
namespace o3tl {
namespace detail {
struct Void {};
template<
typename T>
struct Optional {
using type = T
const *; };
template<>
struct Optional<
void> {
using type = std::optional<
Void const>; };
template<>
struct Optional<
bool> {
using type = std::optional<
bool const>; };
template<>
struct Optional<sal_Int8> {
using type = std::optional<sal_Int8
const>;
};
template<>
struct Optional<sal_Int16> {
using type = std::optional<sal_Int16
const>;
};
template<>
struct Optional<sal_uInt16> {
using type = std::optional<sal_uInt16
const>;
};
template<>
struct Optional<sal_Int32> {
using type = std::optional<sal_Int32
const>;
};
template<>
struct Optional<sal_uInt32> {
using type = std::optional<sal_uInt32
const>;
};
template<>
struct Optional<sal_Int64> {
using type = std::optional<sal_Int64
const>;
};
template<>
struct Optional<sal_uInt64> {
using type = std::optional<sal_uInt64
const>;
};
template<>
struct Optional<
float> {
using type = std::optional<
float const>;
};
template<>
struct Optional<
double> {
using type = std::optional<
double const>;
};
template<
typename T>
struct Optional<css::uno::Reference<T>> {
using type = std::optional<css::uno::Reference<T>
const>;
};
template<>
struct Optional<css::uno::Reference<css::uno::XInterface>> {
using type = css::uno::Reference<css::uno::XInterface>
const *;
};
template<
typename>
struct IsDerivedReference: std::false_type {};
template<
typename T>
struct IsDerivedReference<css::uno::Reference<T>>:
std::true_type
{};
template<>
struct IsDerivedReference<css::uno::Reference<css::uno::XInterface>>:
std::false_type
{};
template<
typename>
struct IsUnoSequenceType: std::false_type {};
template<
typename T>
struct IsUnoSequenceType<cppu::UnoSequenceType<T>>:
std::true_type
{};
template<
typename T>
inline std::optional<T
const> tryGetConverted(
css::uno::Any
const & any)
{
T v;
return (any >>= v)
? std::optional<T
const>(std::move(v)) : std::optional<T
const>();
}
}
/** Try to access the value of a specific type stored in an Any.
In trying to obtain a value, the same set of conversions as supported by
">>=" are considered.
The returned object is a proxy. Proxies can be either positive or negative.
Each proxy can be contextually converted to bool, yielding true iff the
proxy is positive. For a positive proxy P representing a value of requested
type T, for any T other than void, the expression *P yields that value of
type T. (Technically, the proxy is either a plain pointer or a
std::optional, depending on whether a plain pointer into the given Any can
be returned for the specified type.)
@attention A proxy returned from this function must not outlive the
corresponding Any passed into this function (as it may constitute a pointer
into the Any's internals). That is the reason why this function is
restricted to lvalue arguments (i.e., to non-temporary Any objects), to
avoid misuses like
@code
css::uno::Any f();
if (auto p = o3tl::tryAccess<css::beans::NamedValue>(f())) {
return p->Name;
}
@endcode
@note Ideally this would be a public member function of css::uno::Any (at
least conditional on LIBO_INTERNAL_ONLY, as it requires C++11). However, as
std::optional (which would be needed to implement the proxies) is only
available since C++14, we need to use std::optional for now. But To not
make every entity that includes <com/sun/star/uno/Any.hxx> depend on
boost_headers, keep this here for now.
@tparam T the C++ representation of a UNO type that can be contained in a
UNO ANY (i.e., any UNO type other than ANY itself). The legacy C++
representations sal_Bool, cppu::UnoVoidType, cppu::UnoUnsignedShortType,
cppu::UnoCharType, and cppu::UnoSequenceType are not supported. Must be a
complete type or void.
@param any an Any value.
@return a positive proxy for the value of the specified type obtained from
the given Any, or a negative proxy if no such value can be obtained.
*/
template<
typename T>
inline
typename std::enable_if<
!(detail::IsDerivedReference<T>::value
|| detail::IsUnoSequenceType<T>::value
|| std::is_base_of<css::uno::XInterface, T>::value),
typename detail::Optional<T>::type>::type
tryAccess(css::uno::Any
const & any) {
// CHAR, STRING, TYPE, sequence types, enum types, struct types, exception
// types, and com.sun.star.uno.XInterface interface type:
return cppu::UnoType<T>::get().isAssignableFrom(any.getValueType())
?
static_cast<T
const *>(any.getValue()) : nullptr;
}
template<>
inline detail::Optional<
void>::type tryAccess<
void>(
css::uno::Any
const & any)
{
return any.hasValue()
? std::optional<detail::
Void const>()
: std::optional<detail::
Void const>(detail::
Void());
}
template<>
inline detail::Optional<
bool>::type tryAccess<
bool>(
css::uno::Any
const & any)
{
return detail::tryGetConverted<
bool>(any);
}
template<>
inline detail::Optional<sal_Int8>::type tryAccess<sal_Int8>(
css::uno::Any
const & any)
{
return detail::tryGetConverted<sal_Int8>(any);
}
template<>
inline detail::Optional<sal_Int16>::type tryAccess<sal_Int16>(
css::uno::Any
const & any)
{
return detail::tryGetConverted<sal_Int16>(any);
}
template<>
inline detail::Optional<sal_uInt16>::type tryAccess<sal_uInt16>(
css::uno::Any
const & any)
{
return detail::tryGetConverted<sal_uInt16>(any);
}
template<>
inline detail::Optional<sal_Int32>::type tryAccess<sal_Int32>(
css::uno::Any
const & any)
{
return detail::tryGetConverted<sal_Int32>(any);
}
template<>
inline detail::Optional<sal_uInt32>::type tryAccess<sal_uInt32>(
css::uno::Any
const & any)
{
return detail::tryGetConverted<sal_uInt32>(any);
}
template<>
inline detail::Optional<sal_Int64>::type tryAccess<sal_Int64>(
css::uno::Any
const & any)
{
return detail::tryGetConverted<sal_Int64>(any);
}
template<>
inline detail::Optional<sal_uInt64>::type tryAccess<sal_uInt64>(
css::uno::Any
const & any)
{
return detail::tryGetConverted<sal_uInt64>(any);
}
template<>
inline detail::Optional<
float>::type tryAccess<
float>(
css::uno::Any
const & any)
{
return detail::tryGetConverted<
float>(any);
}
template<>
inline detail::Optional<
double>::type tryAccess<
double>(
css::uno::Any
const & any)
{
return detail::tryGetConverted<
double>(any);
}
template<> detail::Optional<css::uno::Any>::type tryAccess<css::uno::Any>(
css::uno::Any
const &) =
delete;
template<> detail::Optional<sal_Bool>::type tryAccess<sal_Bool>(
css::uno::Any
const &) =
delete;
/*
// Already prevented by std::is_base_of<css::uno::XInterface, T> requiring T to
// be complete:
template<> detail::Optional<cppu::UnoVoidType>::type
tryAccess<cppu::UnoVoidType>(css::uno::Any const &) = delete;
template<> detail::Optional<cppu::UnoUnsignedShortType>::type
tryAccess<cppu::UnoUnsignedShortType>(css::uno::Any const &) = delete;
template<> detail::Optional<cppu::UnoCharType>::type
tryAccess<cppu::UnoCharType>(css::uno::Any const &) = delete;
*/
template<
typename T>
inline
typename std::enable_if<
detail::IsDerivedReference<T>::value,
typename detail::Optional<T>::type>::type
tryAccess(css::uno::Any
const & any) {
return detail::tryGetConverted<T>(any);
}
template<
typename T>
typename detail::Optional<T>::type tryAccess(
css::uno::Any
const volatile &&) =
delete;
/** Access the value of a specific type stored in an Any, throwing an exception
on failure.
@attention A proxy returned from this function must not outlive the
corresponding Any passed into this function (as it may constitute a pointer
into the Any's internals). However, unlike with tryAccess, the benefit of
allowing this function to operate on temporaries appears to outweigh its
dangers.
@note Ideally this would be a public member function of css::uno::Any. See
tryAccess for details.
@tparam T the C++ representation of a UNO type that can be contained in a
UNO ANY. See tryAccess for details.
@param any an Any value.
@return a positive proxy for the value of the specified type obtained from
the given Any. See tryAccess for details.
@throws css::uno::RuntimeException when a value of the requested type
cannot be obtained.
*/
template<
typename T>
inline typename detail::Optional<T>::type doAccess(
css::uno::Any
const & any)
{
auto opt = tryAccess<T>(any);
if (!opt) {
throw css::uno::RuntimeException(
OUString(
cppu_Any_extraction_failure_msg(
&any, cppu::UnoType<T>::get().getTypeLibType()),
SAL_NO_ACQUIRE));
}
return opt;
}
/** Access the value of a specific type stored in an Any, knowing the Any
contains a value of a matching type.
@attention A proxy returned from this function must not outlive the
corresponding Any passed into this function (as it may constitute a pointer
into the Any's internals). However, unlike with tryAccess, the benefit of
allowing this function to operate on temporaries appears to outweigh its
dangers.
@note Ideally this would be a public member function of css::uno::Any. See
tryAccess for details.
@tparam T the C++ representation of a UNO type that can be contained in a
UNO ANY. See tryAccess for details.
@param any an Any value.
@return a positive proxy for the value of the specified type obtained from
the given Any. See tryAccess for details.
*/
template<
typename T>
inline typename detail::Optional<T>::type forceAccess(
css::uno::Any
const & any)
{
auto opt = tryAccess<T>(any);
assert(opt);
return opt;
}
}
#endif
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