4coder/non-source/test_data/lots_of_files/collection.h

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/***
* collection.h - Windows Runtime Collection/Iterator Wrappers
*
* Copyright (c) Microsoft Corporation. All rights reserved.
****/
#pragma once
#ifndef _COLLECTION_H_
#define _COLLECTION_H_
#ifndef RC_INVOKED
#ifndef __cplusplus_winrt
#error collection.h requires the /ZW compiler option.
#endif
#include <stddef.h>
#include <algorithm>
#include <array>
#include <exception>
#include <functional>
#include <iterator>
#include <map>
#include <memory>
#include <new>
#include <type_traits>
#include <unordered_map>
#include <utility>
#include <vector>
#include <agile.h>
#define _COLLECTION_ATTRIBUTES [::Platform::Metadata::RuntimeClassName] [::Windows::Foundation::Metadata::Default]
#define _COLLECTION_TRANSLATE \
} catch (const ::std::bad_alloc&) { \
throw ref new OutOfMemoryException; \
} catch (const ::std::exception&) { \
throw ref new FailureException; \
}
#ifndef _COLLECTION_WUXI
#define _COLLECTION_WUXI 1
#endif
#ifdef _WIN64
#pragma pack(push, 16)
#else
#pragma pack(push, 8)
#endif
#pragma warning(push, 4)
#pragma warning(disable: 4451) // Usage of ref class 'Meow' inside this context can lead to invalid marshaling of object across contexts
namespace Platform {
namespace Collections {
namespace Details {
namespace WFC = ::Windows::Foundation::Collections;
#if _COLLECTION_WUXI
namespace WUXI = ::Windows::UI::Xaml::Interop;
#endif // _COLLECTION_WUXI
typedef ::Windows::Foundation::EventRegistrationToken Token;
inline void ValidateBounds(bool b) {
if (!b) {
throw ref new OutOfBoundsException;
}
}
inline void ValidateCounter(const ::std::shared_ptr<unsigned int>& ctr, unsigned int good_ctr) {
if (*ctr != good_ctr) {
throw ref new ChangedStateException;
}
}
inline void ValidateSize(size_t n) {
if (n > 0x7FFFFFFFUL) {
throw ref new OutOfMemoryException;
}
}
template <typename T> struct AlwaysFalse
: public ::std::false_type { };
template <typename T> struct Wrap {
typedef T type;
};
template <typename T> struct Wrap<T^>
: public ::std::conditional<__is_winrt_agile(T), T^, Agile<T^>> { };
template <typename T> inline const T& MakeWrap(const T& t) {
return t;
}
template <typename T> inline typename ::std::enable_if<!__is_winrt_agile(T), Agile<T^>>::type MakeWrap(T^ const & t) {
return Agile<T^>(t);
}
template <typename T> inline const T& Unwrap(const T& t) {
return t;
}
template <typename T> inline T^ Unwrap(const Agile<T^>& a) {
return a.Get();
}
template <typename T, typename U> struct VectorEnableIf
: public ::std::enable_if< ::std::is_same<T, U>::value || ::std::is_same<typename Wrap<T>::type, U>::value, void **> { };
template <typename X> inline void Init(::std::shared_ptr<unsigned int>& ctr, ::std::shared_ptr<X>& sp) {
try {
ctr = ::std::make_shared<unsigned int>(0);
sp = ::std::make_shared<X>();
_COLLECTION_TRANSLATE
}
template <typename X, typename A> inline void Init(::std::shared_ptr<unsigned int>& ctr, ::std::shared_ptr<X>& sp, A&& a) {
try {
ctr = ::std::make_shared<unsigned int>(0);
sp = ::std::make_shared<X>(::std::forward<A>(a));
ValidateSize(sp->size());
_COLLECTION_TRANSLATE
}
template <typename X, typename A, typename B> inline void Init(::std::shared_ptr<unsigned int>& ctr, ::std::shared_ptr<X>& sp, A&& a, B&& b) {
try {
ctr = ::std::make_shared<unsigned int>(0);
sp = ::std::make_shared<X>(::std::forward<A>(a), ::std::forward<B>(b));
ValidateSize(sp->size());
_COLLECTION_TRANSLATE
}
template <typename X, typename A, typename B, typename C> inline void Init(::std::shared_ptr<unsigned int>& ctr, ::std::shared_ptr<X>& sp, A&& a, B&& b, C&& c) {
try {
ctr = ::std::make_shared<unsigned int>(0);
sp = ::std::make_shared<X>(::std::forward<A>(a), ::std::forward<B>(b), ::std::forward<C>(c));
ValidateSize(sp->size());
_COLLECTION_TRANSLATE
}
template <typename X, typename A> inline void InitMoveVector(::std::shared_ptr<unsigned int>& ctr, ::std::shared_ptr<X>& sp, A&& a) {
Init(ctr, sp, a.begin(), a.end());
}
template <typename X> inline void InitMoveVector(::std::shared_ptr<unsigned int>& ctr, ::std::shared_ptr<X>& sp, X&& x) {
Init(ctr, sp, ::std::move(x));
}
template <typename K, typename V, typename M, typename InIt> inline void EmplaceWrappedRange(M& m, InIt first, InIt last) {
for ( ; first != last; ++first) {
::std::pair<const K, V> p(*first);
m.emplace(MakeWrap(p.first), MakeWrap(p.second));
}
}
template <typename K, typename V, typename X, typename A> inline void InitMoveMap(::std::shared_ptr<unsigned int>& ctr, ::std::shared_ptr<X>& sp, A&& a) {
Init(ctr, sp, a.key_comp());
EmplaceWrappedRange<K, V>(*sp, a.begin(), a.end());
}
template <typename K, typename V, typename X> inline void InitMoveMap(::std::shared_ptr<unsigned int>& ctr, ::std::shared_ptr<X>& sp, X&& x) {
Init(ctr, sp, ::std::move(x));
}
inline void IncrementCounter(::std::shared_ptr<unsigned int>& ctr) {
if (++*ctr == static_cast<unsigned int>(-1)) {
// Wraparound is imminent! Create a fresh counter.
ctr = ::std::make_shared<unsigned int>(0);
}
}
ref class VectorChangedEventArgs sealed : public _COLLECTION_ATTRIBUTES WFC::IVectorChangedEventArgs {
internal:
VectorChangedEventArgs(WFC::CollectionChange change, unsigned int index)
: m_change(change), m_index(index) { }
public:
virtual property WFC::CollectionChange CollectionChange {
virtual WFC::CollectionChange get() {
return m_change;
}
}
virtual property unsigned int Index {
virtual unsigned int get() {
if (m_change == WFC::CollectionChange::Reset) {
throw ref new FailureException;
}
return m_index;
}
}
private:
WFC::CollectionChange m_change;
unsigned int m_index;
};
template <typename K> ref class MapChangedEventArgsReset sealed : public _COLLECTION_ATTRIBUTES WFC::IMapChangedEventArgs<K> {
public:
virtual property WFC::CollectionChange CollectionChange {
virtual WFC::CollectionChange get() {
return WFC::CollectionChange::Reset;
}
}
virtual property K Key {
virtual K get() {
throw ref new FailureException;
}
}
};
template <typename K> ref class MapChangedEventArgs sealed : public _COLLECTION_ATTRIBUTES WFC::IMapChangedEventArgs<K> {
internal:
MapChangedEventArgs(WFC::CollectionChange change, K key)
: m_change(change), m_key(key) { }
public:
virtual property WFC::CollectionChange CollectionChange {
virtual WFC::CollectionChange get() {
return m_change;
}
}
virtual property K Key {
virtual K get() {
return Unwrap(m_key);
}
}
private:
WFC::CollectionChange m_change;
typename Wrap<K>::type m_key;
};
template <typename T, typename E> inline bool VectorIndexOf(const ::std::vector<typename Wrap<T>::type>& v, T value, unsigned int * index) {
auto pred = [&](const typename Wrap<T>::type& elem) { return E()(Unwrap(elem), value); };
*index = static_cast<unsigned int>(::std::find_if(v.begin(), v.end(), pred) - v.begin());
return *index < v.size();
}
#if _COLLECTION_WUXI
template <typename T> struct is_hat : public ::std::false_type { };
template <typename U> struct is_hat<U^> : public ::std::true_type { };
template <typename T, typename E> inline bool VectorBindableIndexOf(::std::false_type, const ::std::vector<typename Wrap<T>::type>& v, Object^ o, unsigned int * index) {
IBox<T>^ ib = dynamic_cast<IBox<T>^>(o);
if (ib) {
return VectorIndexOf<T, E>(v, ib->Value, index);
} else {
*index = static_cast<unsigned int>(v.size());
return false;
}
}
template <typename T, typename E> inline bool VectorBindableIndexOf(::std::true_type, const ::std::vector<typename Wrap<T>::type>& v, Object^ o, unsigned int * index) {
T t = dynamic_cast<T>(o);
if (!o || t) {
return VectorIndexOf<T, E>(v, t, index);
} else {
*index = static_cast<unsigned int>(v.size());
return false;
}
}
template <typename T, typename E> inline bool VectorBindableIndexOf(const ::std::vector<typename Wrap<T>::type>& v, Object^ o, unsigned int * index) {
return VectorBindableIndexOf<T, E>(is_hat<T>(), v, o, index);
}
#endif // _COLLECTION_WUXI
template <typename T> inline unsigned int VectorGetMany(const ::std::vector<typename Wrap<T>::type>& v, unsigned int startIndex, WriteOnlyArray<T>^ dest) {
unsigned int capacity = dest->Length;
unsigned int actual = static_cast<unsigned int>(v.size()) - startIndex;
if (actual > capacity) {
actual = capacity;
}
for (unsigned int i = 0; i < actual; ++i) {
dest->set(i, Unwrap(v[startIndex + i]));
}
return actual;
}
template <typename T> ref class IteratorForVectorView sealed
: public _COLLECTION_ATTRIBUTES WFC::IIterator<T>
#if _COLLECTION_WUXI
, public WUXI::IBindableIterator
#endif // _COLLECTION_WUXI
{
private:
typedef ::std::vector<typename Wrap<T>::type> WrappedVector;
typedef WFC::IIterator<T> WFC_Base;
#if _COLLECTION_WUXI
typedef WUXI::IBindableIterator WUXI_Base;
#endif // _COLLECTION_WUXI
internal:
IteratorForVectorView(const ::std::shared_ptr<unsigned int>& ctr, const ::std::shared_ptr<WrappedVector>& vec)
: m_ctr(ctr), m_vec(vec), m_good_ctr(*ctr), m_index(0) { }
public:
virtual property T Current {
virtual T get() = WFC_Base::Current::get {
ValidateCounter(m_ctr, m_good_ctr);
ValidateBounds(m_index < m_vec->size());
return Unwrap((*m_vec)[m_index]);
}
}
virtual property bool HasCurrent {
virtual bool get() {
ValidateCounter(m_ctr, m_good_ctr);
return m_index < m_vec->size();
}
}
virtual bool MoveNext() {
ValidateCounter(m_ctr, m_good_ctr);
ValidateBounds(m_index < m_vec->size());
++m_index;
return m_index < m_vec->size();
}
virtual unsigned int GetMany(WriteOnlyArray<T>^ dest) {
ValidateCounter(m_ctr, m_good_ctr);
unsigned int actual = VectorGetMany(*m_vec, m_index, dest);
m_index += actual;
return actual;
}
private:
#if _COLLECTION_WUXI
virtual Object^ BindableCurrent() = WUXI_Base::Current::get {
return Current;
}
#endif // _COLLECTION_WUXI
::std::shared_ptr<unsigned int> m_ctr;
::std::shared_ptr<WrappedVector> m_vec;
unsigned int m_good_ctr;
unsigned int m_index;
};
} // namespace Details
template <typename T, typename E = ::std::equal_to<T>, bool = __is_valid_winrt_type(T)> ref class Vector;
template <typename T, typename E = ::std::equal_to<T>, bool = __is_valid_winrt_type(T)> ref class VectorView;
template <typename T, typename E> ref class VectorView<T, E, false> {
static_assert(Details::AlwaysFalse<T>::value, "Platform::Collections::VectorView<T, E> requires T to be a valid Windows Runtime type.");
};
template <typename T, typename E, bool> ref class VectorView sealed
: public _COLLECTION_ATTRIBUTES Details::WFC::IVectorView<T>
#if _COLLECTION_WUXI
, public Details::WUXI::IBindableVectorView
#endif // _COLLECTION_WUXI
{
private:
typedef ::std::vector<typename Details::Wrap<T>::type> WrappedVector;
typedef Details::WFC::IVectorView<T> WFC_Base;
#if _COLLECTION_WUXI
typedef Details::WUXI::IBindableVectorView WUXI_Base;
#endif // _COLLECTION_WUXI
internal:
VectorView() {
Details::Init(m_ctr, m_vec);
m_good_ctr = 0;
}
explicit VectorView(unsigned int size) {
Details::Init(m_ctr, m_vec, size);
m_good_ctr = 0;
}
VectorView(unsigned int size, T value) {
Details::Init(m_ctr, m_vec, size, Details::MakeWrap(value));
m_good_ctr = 0;
}
template <typename U> explicit VectorView(const ::std::vector<U>& v, typename Details::VectorEnableIf<T, U>::type = nullptr) {
Details::Init(m_ctr, m_vec, v.begin(), v.end());
m_good_ctr = 0;
}
template <typename U> explicit VectorView(::std::vector<U>&& v, typename Details::VectorEnableIf<T, U>::type = nullptr) {
Details::InitMoveVector(m_ctr, m_vec, ::std::move(v));
m_good_ctr = 0;
}
VectorView(const T * ptr, unsigned int size) {
Details::Init(m_ctr, m_vec, ptr, ptr + size);
m_good_ctr = 0;
}
template <size_t N> explicit VectorView(const T (&arr)[N]) {
Details::Init(m_ctr, m_vec, arr, arr + N);
m_good_ctr = 0;
}
template <size_t N> explicit VectorView(const ::std::array<T, N>& a) {
Details::Init(m_ctr, m_vec, a.begin(), a.end());
m_good_ctr = 0;
}
explicit VectorView(const Array<T>^ arr) {
Details::Init(m_ctr, m_vec, arr->begin(), arr->end());
m_good_ctr = 0;
}
template <typename InIt> VectorView(InIt first, InIt last) {
// SFINAE is unnecessary here.
Details::Init(m_ctr, m_vec, first, last);
m_good_ctr = 0;
}
VectorView(::std::initializer_list<T> il) {
Details::Init(m_ctr, m_vec, il.begin(), il.end());
m_good_ctr = 0;
}
public:
virtual Details::WFC::IIterator<T>^ First() = WFC_Base::First {
Details::ValidateCounter(m_ctr, m_good_ctr);
return ref new Details::IteratorForVectorView<T>(m_ctr, m_vec);
}
virtual T GetAt(unsigned int index) = WFC_Base::GetAt {
Details::ValidateCounter(m_ctr, m_good_ctr);
Details::ValidateBounds(index < m_vec->size());
return Details::Unwrap((*m_vec)[index]);
}
virtual property unsigned int Size {
virtual unsigned int get() {
Details::ValidateCounter(m_ctr, m_good_ctr);
return static_cast<unsigned int>(m_vec->size());
}
}
virtual bool IndexOf(T value, unsigned int * index) = WFC_Base::IndexOf {
*index = 0;
Details::ValidateCounter(m_ctr, m_good_ctr);
return Details::VectorIndexOf<T, E>(*m_vec, value, index);
}
virtual unsigned int GetMany(unsigned int startIndex, WriteOnlyArray<T>^ dest) {
Details::ValidateCounter(m_ctr, m_good_ctr);
Details::ValidateBounds(startIndex <= m_vec->size());
return Details::VectorGetMany(*m_vec, startIndex, dest);
}
private:
friend ref class Vector<T, E>;
VectorView(const ::std::shared_ptr<unsigned int>& ctr, const ::std::shared_ptr<WrappedVector>& vec)
: m_ctr(ctr), m_vec(vec), m_good_ctr(*ctr) { }
#if _COLLECTION_WUXI
virtual Details::WUXI::IBindableIterator^ BindableFirst() = WUXI_Base::First {
return safe_cast<Details::WUXI::IBindableIterator^>(First());
}
virtual Object^ BindableGetAt(unsigned int index) = WUXI_Base::GetAt {
return GetAt(index);
}
virtual bool BindableIndexOf(Object^ value, unsigned int * index) = WUXI_Base::IndexOf {
*index = 0;
Details::ValidateCounter(m_ctr, m_good_ctr);
return Details::VectorBindableIndexOf<T, E>(*m_vec, value, index);
}
#endif // _COLLECTION_WUXI
::std::shared_ptr<unsigned int> m_ctr;
::std::shared_ptr<WrappedVector> m_vec;
unsigned int m_good_ctr;
};
template <typename T, typename E> ref class Vector<T, E, false> {
static_assert(Details::AlwaysFalse<T>::value, "Platform::Collections::Vector<T, E> requires T to be a valid Windows Runtime type.");
};
template <typename T, typename E, bool> ref class Vector sealed
: public _COLLECTION_ATTRIBUTES Details::WFC::IObservableVector<T>
#if _COLLECTION_WUXI
, public Details::WUXI::IBindableObservableVector
#endif // _COLLECTION_WUXI
{
private:
typedef ::std::vector<typename Details::Wrap<T>::type> WrappedVector;
typedef Details::WFC::IObservableVector<T> WFC_Base;
typedef Details::WFC::VectorChangedEventHandler<T> WFC_Handler;
#if _COLLECTION_WUXI
typedef Details::WUXI::IBindableObservableVector WUXI_Base;
typedef Details::WUXI::BindableVectorChangedEventHandler WUXI_Handler;
#endif // _COLLECTION_WUXI
internal:
Vector() {
Details::Init(m_ctr, m_vec);
m_observed = false;
}
explicit Vector(unsigned int size) {
Details::Init(m_ctr, m_vec, size);
m_observed = false;
}
Vector(unsigned int size, T value) {
Details::Init(m_ctr, m_vec, size, Details::MakeWrap(value));
m_observed = false;
}
template <typename U> explicit Vector(const ::std::vector<U>& v, typename Details::VectorEnableIf<T, U>::type = nullptr) {
Details::Init(m_ctr, m_vec, v.begin(), v.end());
m_observed = false;
}
template <typename U> explicit Vector(::std::vector<U>&& v, typename Details::VectorEnableIf<T, U>::type = nullptr) {
Details::InitMoveVector(m_ctr, m_vec, ::std::move(v));
m_observed = false;
}
Vector(const T * ptr, unsigned int size) {
Details::Init(m_ctr, m_vec, ptr, ptr + size);
m_observed = false;
}
template <size_t N> explicit Vector(const T (&arr)[N]) {
Details::Init(m_ctr, m_vec, arr, arr + N);
m_observed = false;
}
template <size_t N> explicit Vector(const ::std::array<T, N>& a) {
Details::Init(m_ctr, m_vec, a.begin(), a.end());
m_observed = false;
}
explicit Vector(const Array<T>^ arr) {
Details::Init(m_ctr, m_vec, arr->begin(), arr->end());
m_observed = false;
}
template <typename InIt> Vector(InIt first, InIt last) {
// SFINAE is unnecessary here.
Details::Init(m_ctr, m_vec, first, last);
m_observed = false;
}
Vector(::std::initializer_list<T> il) {
Details::Init(m_ctr, m_vec, il.begin(), il.end());
m_observed = false;
}
public:
virtual Details::WFC::IIterator<T>^ First() = WFC_Base::First {
return ref new Details::IteratorForVectorView<T>(m_ctr, m_vec);
}
virtual T GetAt(unsigned int index) = WFC_Base::GetAt {
Details::ValidateBounds(index < m_vec->size());
return Details::Unwrap((*m_vec)[index]);
}
virtual property unsigned int Size {
virtual unsigned int get() {
return static_cast<unsigned int>(m_vec->size());
}
}
virtual bool IndexOf(T value, unsigned int * index) = WFC_Base::IndexOf {
*index = 0;
return Details::VectorIndexOf<T, E>(*m_vec, value, index);
}
virtual unsigned int GetMany(unsigned int startIndex, WriteOnlyArray<T>^ dest) {
Details::ValidateBounds(startIndex <= m_vec->size());
return Details::VectorGetMany(*m_vec, startIndex, dest);
}
virtual Details::WFC::IVectorView<T>^ GetView() = WFC_Base::GetView {
return ref new VectorView<T, E>(m_ctr, m_vec);
}
virtual void SetAt(unsigned int index, T item) = WFC_Base::SetAt {
try {
Details::IncrementCounter(m_ctr);
Details::ValidateBounds(index < m_vec->size());
(*m_vec)[index] = item;
NotifyChanged(index);
_COLLECTION_TRANSLATE
}
virtual void InsertAt(unsigned int index, T item) = WFC_Base::InsertAt {
try {
Details::IncrementCounter(m_ctr);
Details::ValidateBounds(index <= m_vec->size());
Details::ValidateSize(m_vec->size() + 1);
Emplace(m_vec->begin() + index, item, ::std::is_same<T, bool>());
NotifyInserted(index);
_COLLECTION_TRANSLATE
}
virtual void Append(T item) = WFC_Base::Append {
try {
Details::IncrementCounter(m_ctr);
size_t n = m_vec->size();
Details::ValidateSize(n + 1);
EmplaceBack(item, ::std::is_same<T, bool>());
NotifyInserted(static_cast<unsigned int>(n));
_COLLECTION_TRANSLATE
}
virtual void RemoveAt(unsigned int index) {
try {
Details::IncrementCounter(m_ctr);
Details::ValidateBounds(index < m_vec->size());
m_vec->erase(m_vec->begin() + index);
NotifyRemoved(index);
_COLLECTION_TRANSLATE
}
virtual void RemoveAtEnd() {
try {
Details::IncrementCounter(m_ctr);
Details::ValidateBounds(!m_vec->empty());
m_vec->pop_back();
NotifyRemoved(static_cast<unsigned int>(m_vec->size()));
_COLLECTION_TRANSLATE
}
virtual void Clear() {
try {
Details::IncrementCounter(m_ctr);
m_vec->clear();
NotifyReset();
_COLLECTION_TRANSLATE
}
virtual void ReplaceAll(const Array<T>^ arr) {
try {
Details::IncrementCounter(m_ctr);
Details::ValidateSize(arr->Length);
m_vec->assign(arr->begin(), arr->end());
NotifyReset();
_COLLECTION_TRANSLATE
}
virtual event WFC_Handler^ VectorChanged {
virtual Details::Token add(WFC_Handler^ e) = WFC_Base::VectorChanged::add {
m_observed = true;
return m_wfc_event += e;
}
virtual void remove(Details::Token t) = WFC_Base::VectorChanged::remove {
m_wfc_event -= t;
}
};
private:
template <typename A, typename B> void Emplace(A&& a, B&& b, ::std::false_type) {
m_vec->emplace(::std::forward<A>(a), ::std::forward<B>(b));
}
template <typename A, typename B> void Emplace(A&& a, B&& b, ::std::true_type) {
m_vec->insert(::std::forward<A>(a), ::std::forward<B>(b));
}
template <typename A> void EmplaceBack(A&& a, ::std::false_type) {
m_vec->emplace_back(::std::forward<A>(a));
}
template <typename A> void EmplaceBack(A&& a, ::std::true_type) {
m_vec->push_back(::std::forward<A>(a));
}
void Notify(Details::WFC::CollectionChange change, unsigned int index) {
if (m_observed) {
auto args = ref new Details::VectorChangedEventArgs(change, index);
m_wfc_event(this, args);
#if _COLLECTION_WUXI
m_wuxi_event(this, args);
#endif // _COLLECTION_WUXI
}
}
void NotifyReset() {
Notify(Details::WFC::CollectionChange::Reset, 0);
}
void NotifyInserted(unsigned int index) {
Notify(Details::WFC::CollectionChange::ItemInserted, index);
}
void NotifyRemoved(unsigned int index) {
Notify(Details::WFC::CollectionChange::ItemRemoved, index);
}
void NotifyChanged(unsigned int index) {
Notify(Details::WFC::CollectionChange::ItemChanged, index);
}
#if _COLLECTION_WUXI
virtual Details::WUXI::IBindableIterator^ BindableFirst() = WUXI_Base::First {
return safe_cast<Details::WUXI::IBindableIterator^>(First());
}
virtual Object^ BindableGetAt(unsigned int index) = WUXI_Base::GetAt {
return GetAt(index);
}
virtual bool BindableIndexOf(Object^ value, unsigned int * index) = WUXI_Base::IndexOf {
*index = 0;
return Details::VectorBindableIndexOf<T, E>(*m_vec, value, index);
}
virtual Details::WUXI::IBindableVectorView^ BindableGetView() = WUXI_Base::GetView {
return safe_cast<Details::WUXI::IBindableVectorView^>(GetView());
}
virtual void BindableSetAt(unsigned int index, Object^ item) = WUXI_Base::SetAt {
SetAt(index, safe_cast<T>(item));
}
virtual void BindableInsertAt(unsigned int index, Object^ item) = WUXI_Base::InsertAt {
InsertAt(index, safe_cast<T>(item));
}
virtual void BindableAppend(Object^ item) = WUXI_Base::Append {
Append(safe_cast<T>(item));
}
virtual Details::Token BindableEventAdd(WUXI_Handler^ e) = WUXI_Base::VectorChanged::add {
m_observed = true;
return m_wuxi_event += e;
}
virtual void BindableEventRemove(Details::Token t) = WUXI_Base::VectorChanged::remove {
m_wuxi_event -= t;
}
#endif // _COLLECTION_WUXI
::std::shared_ptr<unsigned int> m_ctr;
::std::shared_ptr<WrappedVector> m_vec;
bool m_observed;
event WFC_Handler^ m_wfc_event;
#if _COLLECTION_WUXI
event WUXI_Handler^ m_wuxi_event;
#endif // _COLLECTION_WUXI
};
namespace Details {
template <typename K, typename V> ref class KeyValuePair sealed : public _COLLECTION_ATTRIBUTES WFC::IKeyValuePair<K, V> {
internal:
KeyValuePair(const typename Wrap<K>::type& key, const typename Wrap<V>::type& value)
: m_key(key), m_value(value) { }
public:
virtual property K Key {
virtual K get() {
return Unwrap(m_key);
}
}
virtual property V Value {
virtual V get() {
return Unwrap(m_value);
}
}
private:
typename Wrap<K>::type m_key;
typename Wrap<V>::type m_value;
};
template <typename K, typename F, bool = ::std::is_same<typename Wrap<K>::type, K>::value> class WrapFunc {
public:
typedef F type;
};
template <typename K, typename F> class WrapFunc<K, F, false> {
public:
typedef WrapFunc type;
WrapFunc(const F& func)
: m_func(func) { }
size_t operator()(const Agile<K>& k) const {
return m_func(k.Get());
}
bool operator()(const Agile<K>& l, const Agile<K>& r) const {
return m_func(l.Get(), r.Get());
}
private:
F m_func;
};
template <typename K, typename V, typename C> struct WrapMap {
typedef ::std::map<typename Wrap<K>::type, typename Wrap<V>::type, typename WrapFunc<K, C>::type> type;
};
template <typename K, typename V, typename H, typename P> struct WrapUnorderedMap {
typedef ::std::unordered_map<typename Wrap<K>::type, typename Wrap<V>::type, typename WrapFunc<K, H>::type, typename WrapFunc<K, P>::type> type;
};
template <typename K, typename V, typename WrappedMap> ref class IteratorForAnyMapView sealed : public _COLLECTION_ATTRIBUTES WFC::IIterator<WFC::IKeyValuePair<K, V>^> {
internal:
IteratorForAnyMapView(const ::std::shared_ptr<unsigned int>& ctr, const ::std::shared_ptr<WrappedMap>& m)
: m_ctr(ctr), m_map(m), m_good_ctr(*ctr), m_iter(m->begin()) { }
public:
virtual property WFC::IKeyValuePair<K, V>^ Current {
virtual WFC::IKeyValuePair<K, V>^ get() {
ValidateCounter(m_ctr, m_good_ctr);
ValidateBounds(m_iter != m_map->end());
return ref new KeyValuePair<K, V>(m_iter->first, m_iter->second);
}
}
virtual property bool HasCurrent {
virtual bool get() {
ValidateCounter(m_ctr, m_good_ctr);
return m_iter != m_map->end();
}
}
virtual bool MoveNext() {
ValidateCounter(m_ctr, m_good_ctr);
ValidateBounds(m_iter != m_map->end());
++m_iter;
return m_iter != m_map->end();
}
virtual unsigned int GetMany(WriteOnlyArray<WFC::IKeyValuePair<K, V>^>^ dest) {
ValidateCounter(m_ctr, m_good_ctr);
unsigned int capacity = dest->Length;
unsigned int actual = 0;
while (capacity > 0 && m_iter != m_map->end()) {
dest->set(actual, ref new KeyValuePair<K, V>(m_iter->first, m_iter->second));
++m_iter;
--capacity;
++actual;
}
return actual;
}
private:
::std::shared_ptr<unsigned int> m_ctr;
::std::shared_ptr<WrappedMap> m_map;
unsigned int m_good_ctr;
typename WrappedMap::const_iterator m_iter;
};
} // namespace Details
template <typename K, typename V, typename C = ::std::less<K>, bool = __is_valid_winrt_type(K), bool = __is_valid_winrt_type(V)> ref class Map;
template <typename K, typename V, typename C = ::std::less<K>, bool = __is_valid_winrt_type(K), bool = __is_valid_winrt_type(V)> ref class MapView;
template <typename K, typename V, typename H = ::std::hash<K>, typename P = ::std::equal_to<K>, bool = __is_valid_winrt_type(K), bool = __is_valid_winrt_type(V)> ref class UnorderedMap;
template <typename K, typename V, typename H = ::std::hash<K>, typename P = ::std::equal_to<K>, bool = __is_valid_winrt_type(K), bool = __is_valid_winrt_type(V)> ref class UnorderedMapView;
template <typename K, typename V, typename C> ref class MapView<K, V, C, false, false> {
static_assert(Details::AlwaysFalse<K>::value, "Platform::Collections::MapView<K, V, C> requires K and V to be valid Windows Runtime types.");
};
template <typename K, typename V, typename C> ref class MapView<K, V, C, false, true> {
static_assert(Details::AlwaysFalse<K>::value, "Platform::Collections::MapView<K, V, C> requires K to be a valid Windows Runtime type.");
};
template <typename K, typename V, typename C> ref class MapView<K, V, C, true, false> {
static_assert(Details::AlwaysFalse<K>::value, "Platform::Collections::MapView<K, V, C> requires V to be a valid Windows Runtime type.");
};
template <typename K, typename V, typename C, bool, bool> ref class MapView sealed : public _COLLECTION_ATTRIBUTES Details::WFC::IMapView<K, V> {
private:
typedef typename Details::WrapMap<K, V, C>::type WrappedMap;
typedef Details::IteratorForAnyMapView<K, V, WrappedMap> MyIterator;
friend ref class Map<K, V, C>;
internal:
explicit MapView(const C& comp = C()) {
Details::Init(m_ctr, m_map, comp);
m_good_ctr = 0;
}
explicit MapView(const ::std::map<K, V, C>& m) {
Details::Init(m_ctr, m_map, m.key_comp());
Details::EmplaceWrappedRange<K, V>(*m_map, m.begin(), m.end());
m_good_ctr = 0;
}
explicit MapView(::std::map<K, V, C>&& m) {
Details::InitMoveMap<K, V>(m_ctr, m_map, ::std::move(m));
m_good_ctr = 0;
}
template <typename InIt> MapView(InIt first, InIt last, const C& comp = C()) {
Details::Init(m_ctr, m_map, comp);
Details::EmplaceWrappedRange<K, V>(*m_map, first, last);
m_good_ctr = 0;
}
MapView(::std::initializer_list< ::std::pair<const K, V>> il, const C& comp = C()) {
Details::Init(m_ctr, m_map, comp);
Details::EmplaceWrappedRange<K, V>(*m_map, il.begin(), il.end());
m_good_ctr = 0;
}
public:
virtual Details::WFC::IIterator<Details::WFC::IKeyValuePair<K, V>^>^ First() {
Details::ValidateCounter(m_ctr, m_good_ctr);
return ref new MyIterator(m_ctr, m_map);
}
virtual V Lookup(K key) {
Details::ValidateCounter(m_ctr, m_good_ctr);
auto i = m_map->find(Details::MakeWrap(key));
Details::ValidateBounds(i != m_map->end());
return Details::Unwrap(i->second);
}
virtual property unsigned int Size {
virtual unsigned int get() {
Details::ValidateCounter(m_ctr, m_good_ctr);
return static_cast<unsigned int>(m_map->size());
}
}
virtual bool HasKey(K key) {
Details::ValidateCounter(m_ctr, m_good_ctr);
return m_map->find(Details::MakeWrap(key)) != m_map->end();
}
virtual void Split(Details::WFC::IMapView<K, V>^ * firstPartition, Details::WFC::IMapView<K, V>^ * secondPartition) {
*firstPartition = nullptr;
*secondPartition = nullptr;
Details::ValidateCounter(m_ctr, m_good_ctr);
}
private:
MapView(const ::std::shared_ptr<unsigned int>& ctr, const ::std::shared_ptr<WrappedMap>& m)
: m_ctr(ctr), m_map(m), m_good_ctr(*ctr) { }
::std::shared_ptr<unsigned int> m_ctr;
::std::shared_ptr<WrappedMap> m_map;
unsigned int m_good_ctr;
};
template <typename K, typename V, typename H, typename P> ref class UnorderedMapView<K, V, H, P, false, false> {
static_assert(Details::AlwaysFalse<K>::value, "Platform::Collections::UnorderedMapView<K, V, H, P> requires K and V to be valid Windows Runtime types.");
};
template <typename K, typename V, typename H, typename P> ref class UnorderedMapView<K, V, H, P, false, true> {
static_assert(Details::AlwaysFalse<K>::value, "Platform::Collections::UnorderedMapView<K, V, H, P> requires K to be a valid Windows Runtime type.");
};
template <typename K, typename V, typename H, typename P> ref class UnorderedMapView<K, V, H, P, true, false> {
static_assert(Details::AlwaysFalse<K>::value, "Platform::Collections::UnorderedMapView<K, V, H, P> requires V to be a valid Windows Runtime type.");
};
template <typename K, typename V, typename H, typename P, bool, bool> ref class UnorderedMapView sealed
: public _COLLECTION_ATTRIBUTES Details::WFC::IMapView<K, V> {
private:
typedef typename Details::WrapUnorderedMap<K, V, H, P>::type WrappedMap;
typedef Details::IteratorForAnyMapView<K, V, WrappedMap> MyIterator;
friend ref class UnorderedMap<K, V, H, P>;
internal:
UnorderedMapView() {
Details::Init(m_ctr, m_map);
m_good_ctr = 0;
}
explicit UnorderedMapView(size_t n) {
Details::Init(m_ctr, m_map, n, H(), P());
m_good_ctr = 0;
}
UnorderedMapView(size_t n, const H& h) {
Details::Init(m_ctr, m_map, n, h, P());
m_good_ctr = 0;
}
UnorderedMapView(size_t n, const H& h, const P& p) {
Details::Init(m_ctr, m_map, n, h, p);
m_good_ctr = 0;
}
explicit UnorderedMapView(const ::std::unordered_map<K, V, H, P>& m) {
Details::Init(m_ctr, m_map, m.bucket_count(), m.hash_function(), m.key_eq());
Details::EmplaceWrappedRange<K, V>(*m_map, m.begin(), m.end());
m_good_ctr = 0;
}
explicit UnorderedMapView(::std::unordered_map<K, V, H, P>&& m) {
Details::InitMoveMap<K, V>(m_ctr, m_map, ::std::move(m));
m_good_ctr = 0;
}
template <typename InIt> UnorderedMapView(InIt first, InIt last) {
Details::Init(m_ctr, m_map);
Details::EmplaceWrappedRange<K, V>(*m_map, first, last);
m_good_ctr = 0;
}
template <typename InIt> UnorderedMapView(InIt first, InIt last, size_t n) {
Details::Init(m_ctr, m_map, n, H(), P());
Details::EmplaceWrappedRange<K, V>(*m_map, first, last);
m_good_ctr = 0;
}
template <typename InIt> UnorderedMapView(InIt first, InIt last, size_t n, const H& h) {
Details::Init(m_ctr, m_map, n, h, P());
Details::EmplaceWrappedRange<K, V>(*m_map, first, last);
m_good_ctr = 0;
}
template <typename InIt> UnorderedMapView(InIt first, InIt last, size_t n, const H& h, const P& p) {
Details::Init(m_ctr, m_map, n, h, p);
Details::EmplaceWrappedRange<K, V>(*m_map, first, last);
m_good_ctr = 0;
}
UnorderedMapView(::std::initializer_list< ::std::pair<const K, V>> il) {
Details::Init(m_ctr, m_map);
Details::EmplaceWrappedRange<K, V>(*m_map, il.begin(), il.end());
m_good_ctr = 0;
}
UnorderedMapView(::std::initializer_list< ::std::pair<const K, V>> il, size_t n) {
Details::Init(m_ctr, m_map, n, H(), P());
Details::EmplaceWrappedRange<K, V>(*m_map, il.begin(), il.end());
m_good_ctr = 0;
}
UnorderedMapView(::std::initializer_list< ::std::pair<const K, V>> il, size_t n, const H& h) {
Details::Init(m_ctr, m_map, n, h, P());
Details::EmplaceWrappedRange<K, V>(*m_map, il.begin(), il.end());
m_good_ctr = 0;
}
UnorderedMapView(::std::initializer_list< ::std::pair<const K, V>> il, size_t n, const H& h, const P& p) {
Details::Init(m_ctr, m_map, n, h, p);
Details::EmplaceWrappedRange<K, V>(*m_map, il.begin(), il.end());
m_good_ctr = 0;
}
public:
virtual Details::WFC::IIterator<Details::WFC::IKeyValuePair<K, V>^>^ First() {
Details::ValidateCounter(m_ctr, m_good_ctr);
return ref new MyIterator(m_ctr, m_map);
}
virtual V Lookup(K key) {
Details::ValidateCounter(m_ctr, m_good_ctr);
auto i = m_map->find(Details::MakeWrap(key));
Details::ValidateBounds(i != m_map->end());
return Details::Unwrap(i->second);
}
virtual property unsigned int Size {
virtual unsigned int get() {
Details::ValidateCounter(m_ctr, m_good_ctr);
return static_cast<unsigned int>(m_map->size());
}
}
virtual bool HasKey(K key) {
Details::ValidateCounter(m_ctr, m_good_ctr);
return m_map->find(Details::MakeWrap(key)) != m_map->end();
}
virtual void Split(Details::WFC::IMapView<K, V>^ * firstPartition, Details::WFC::IMapView<K, V>^ * secondPartition) {
*firstPartition = nullptr;
*secondPartition = nullptr;
Details::ValidateCounter(m_ctr, m_good_ctr);
}
private:
UnorderedMapView(const ::std::shared_ptr<unsigned int>& ctr, const ::std::shared_ptr<WrappedMap>& m)
: m_ctr(ctr), m_map(m), m_good_ctr(*ctr) { }
::std::shared_ptr<unsigned int> m_ctr;
::std::shared_ptr<WrappedMap> m_map;
unsigned int m_good_ctr;
};
template <typename K, typename V, typename C> ref class Map<K, V, C, false, false> {
static_assert(Details::AlwaysFalse<K>::value, "Platform::Collections::Map<K, V, C> requires K and V to be valid Windows Runtime types.");
};
template <typename K, typename V, typename C> ref class Map<K, V, C, false, true> {
static_assert(Details::AlwaysFalse<K>::value, "Platform::Collections::Map<K, V, C> requires K to be a valid Windows Runtime type.");
};
template <typename K, typename V, typename C> ref class Map<K, V, C, true, false> {
static_assert(Details::AlwaysFalse<K>::value, "Platform::Collections::Map<K, V, C> requires V to be a valid Windows Runtime type.");
};
template <typename K, typename V, typename C, bool, bool> ref class Map sealed : public _COLLECTION_ATTRIBUTES Details::WFC::IObservableMap<K, V> {
private:
typedef typename Details::WrapMap<K, V, C>::type WrappedMap;
typedef Details::IteratorForAnyMapView<K, V, WrappedMap> MyIterator;
typedef MapView<K, V, C> MyView;
typedef Details::WFC::MapChangedEventHandler<K, V> WFC_Handler;
internal:
explicit Map(const C& comp = C()) {
Details::Init(m_ctr, m_map, comp);
m_observed = false;
}
explicit Map(const ::std::map<K, V, C>& m) {
Details::Init(m_ctr, m_map, m.key_comp());
Details::EmplaceWrappedRange<K, V>(*m_map, m.begin(), m.end());
m_observed = false;
}
explicit Map(::std::map<K, V, C>&& m) {
Details::InitMoveMap<K, V>(m_ctr, m_map, ::std::move(m));
m_observed = false;
}
template <typename InIt> Map(InIt first, InIt last, const C& comp = C()) {
Details::Init(m_ctr, m_map, comp);
Details::EmplaceWrappedRange<K, V>(*m_map, first, last);
m_observed = false;
}
Map(::std::initializer_list< ::std::pair<const K, V>> il, const C& comp = C()) {
Details::Init(m_ctr, m_map, comp);
Details::EmplaceWrappedRange<K, V>(*m_map, il.begin(), il.end());
m_observed = false;
}
public:
virtual Details::WFC::IIterator<Details::WFC::IKeyValuePair<K, V>^>^ First() {
return ref new MyIterator(m_ctr, m_map);
}
virtual V Lookup(K key) {
auto i = m_map->find(Details::MakeWrap(key));
Details::ValidateBounds(i != m_map->end());
return Details::Unwrap(i->second);
}
virtual property unsigned int Size {
virtual unsigned int get() {
return static_cast<unsigned int>(m_map->size());
}
}
virtual bool HasKey(K key) {
return m_map->find(Details::MakeWrap(key)) != m_map->end();
}
virtual Details::WFC::IMapView<K, V>^ GetView() {
return ref new MyView(m_ctr, m_map);
}
virtual bool Insert(K key, V value) {
try {
Details::IncrementCounter(m_ctr);
Details::ValidateSize(m_map->size() + 1);
auto p = m_map->emplace(Details::MakeWrap(key), Details::MakeWrap(value));
if (p.second) {
NotifyInserted(key);
} else {
p.first->second = value;
NotifyChanged(key);
}
return !p.second;
_COLLECTION_TRANSLATE
}
virtual void Remove(K key) {
try {
Details::IncrementCounter(m_ctr);
Details::ValidateBounds(m_map->erase(Details::MakeWrap(key)) == 1);
NotifyRemoved(key);
_COLLECTION_TRANSLATE
}
virtual void Clear() {
try {
Details::IncrementCounter(m_ctr);
m_map->clear();
NotifyReset();
_COLLECTION_TRANSLATE
}
virtual event WFC_Handler^ MapChanged {
virtual Details::Token add(WFC_Handler^ e) {
m_observed = true;
return m_wfc_event += e;
}
virtual void remove(Details::Token t) {
m_wfc_event -= t;
}
};
private:
void NotifyReset() {
if (m_observed) {
m_wfc_event(this, ref new Details::MapChangedEventArgsReset<K>);
}
}
void NotifyInserted(K key) {
if (m_observed) {
m_wfc_event(this, ref new Details::MapChangedEventArgs<K>(Details::WFC::CollectionChange::ItemInserted, key));
}
}
void NotifyRemoved(K key) {
if (m_observed) {
m_wfc_event(this, ref new Details::MapChangedEventArgs<K>(Details::WFC::CollectionChange::ItemRemoved, key));
}
}
void NotifyChanged(K key) {
if (m_observed) {
m_wfc_event(this, ref new Details::MapChangedEventArgs<K>(Details::WFC::CollectionChange::ItemChanged, key));
}
}
::std::shared_ptr<unsigned int> m_ctr;
::std::shared_ptr<WrappedMap> m_map;
bool m_observed;
event WFC_Handler^ m_wfc_event;
};
template <typename K, typename V, typename H, typename P> ref class UnorderedMap<K, V, H, P, false, false> {
static_assert(Details::AlwaysFalse<K>::value, "Platform::Collections::UnorderedMap<K, V, H, P> requires K and V to be valid Windows Runtime types.");
};
template <typename K, typename V, typename H, typename P> ref class UnorderedMap<K, V, H, P, false, true> {
static_assert(Details::AlwaysFalse<K>::value, "Platform::Collections::UnorderedMap<K, V, H, P> requires K to be a valid Windows Runtime type.");
};
template <typename K, typename V, typename H, typename P> ref class UnorderedMap<K, V, H, P, true, false> {
static_assert(Details::AlwaysFalse<K>::value, "Platform::Collections::UnorderedMap<K, V, H, P> requires V to be a valid Windows Runtime type.");
};
template <typename K, typename V, typename H, typename P, bool, bool> ref class UnorderedMap sealed : public _COLLECTION_ATTRIBUTES Details::WFC::IObservableMap<K, V> {
private:
typedef typename Details::WrapUnorderedMap<K, V, H, P>::type WrappedMap;
typedef Details::IteratorForAnyMapView<K, V, WrappedMap> MyIterator;
typedef UnorderedMapView<K, V, H, P> MyView;
typedef Details::WFC::MapChangedEventHandler<K, V> WFC_Handler;
internal:
UnorderedMap() {
Details::Init(m_ctr, m_map);
m_observed = false;
}
explicit UnorderedMap(size_t n) {
Details::Init(m_ctr, m_map, n, H(), P());
m_observed = false;
}
UnorderedMap(size_t n, const H& h) {
Details::Init(m_ctr, m_map, n, h, P());
m_observed = false;
}
UnorderedMap(size_t n, const H& h, const P& p) {
Details::Init(m_ctr, m_map, n, h, p);
m_observed = false;
}
explicit UnorderedMap(const ::std::unordered_map<K, V, H, P>& m) {
Details::Init(m_ctr, m_map, m.bucket_count(), m.hash_function(), m.key_eq());
Details::EmplaceWrappedRange<K, V>(*m_map, m.begin(), m.end());
m_observed = false;
}
explicit UnorderedMap(::std::unordered_map<K, V, H, P>&& m) {
Details::InitMoveMap<K, V>(m_ctr, m_map, ::std::move(m));
m_observed = false;
}
template <typename InIt> UnorderedMap(InIt first, InIt last) {
Details::Init(m_ctr, m_map);
Details::EmplaceWrappedRange<K, V>(*m_map, first, last);
m_observed = false;
}
template <typename InIt> UnorderedMap(InIt first, InIt last, size_t n) {
Details::Init(m_ctr, m_map, n, H(), P());
Details::EmplaceWrappedRange<K, V>(*m_map, first, last);
m_observed = false;
}
template <typename InIt> UnorderedMap(InIt first, InIt last, size_t n, const H& h) {
Details::Init(m_ctr, m_map, n, h, P());
Details::EmplaceWrappedRange<K, V>(*m_map, first, last);
m_observed = false;
}
template <typename InIt> UnorderedMap(InIt first, InIt last, size_t n, const H& h, const P& p) {
Details::Init(m_ctr, m_map, n, h, p);
Details::EmplaceWrappedRange<K, V>(*m_map, first, last);
m_observed = false;
}
UnorderedMap(::std::initializer_list< ::std::pair<const K, V>> il) {
Details::Init(m_ctr, m_map);
Details::EmplaceWrappedRange<K, V>(*m_map, il.begin(), il.end());
m_observed = false;
}
UnorderedMap(::std::initializer_list< ::std::pair<const K, V>> il, size_t n) {
Details::Init(m_ctr, m_map, n, H(), P());
Details::EmplaceWrappedRange<K, V>(*m_map, il.begin(), il.end());
m_observed = false;
}
UnorderedMap(::std::initializer_list< ::std::pair<const K, V>> il, size_t n, const H& h) {
Details::Init(m_ctr, m_map, n, h, P());
Details::EmplaceWrappedRange<K, V>(*m_map, il.begin(), il.end());
m_observed = false;
}
UnorderedMap(::std::initializer_list< ::std::pair<const K, V>> il, size_t n, const H& h, const P& p) {
Details::Init(m_ctr, m_map, n, h, p);
Details::EmplaceWrappedRange<K, V>(*m_map, il.begin(), il.end());
m_observed = false;
}
public:
virtual Details::WFC::IIterator<Details::WFC::IKeyValuePair<K, V>^>^ First() {
return ref new MyIterator(m_ctr, m_map);
}
virtual V Lookup(K key) {
auto i = m_map->find(Details::MakeWrap(key));
Details::ValidateBounds(i != m_map->end());
return Details::Unwrap(i->second);
}
virtual property unsigned int Size {
virtual unsigned int get() {
return static_cast<unsigned int>(m_map->size());
}
}
virtual bool HasKey(K key) {
return m_map->find(Details::MakeWrap(key)) != m_map->end();
}
virtual Details::WFC::IMapView<K, V>^ GetView() {
return ref new MyView(m_ctr, m_map);
}
virtual bool Insert(K key, V value) {
try {
Details::IncrementCounter(m_ctr);
Details::ValidateSize(m_map->size() + 1);
auto p = m_map->emplace(Details::MakeWrap(key), Details::MakeWrap(value));
if (p.second) {
NotifyInserted(key);
} else {
p.first->second = value;
NotifyChanged(key);
}
return !p.second;
_COLLECTION_TRANSLATE
}
virtual void Remove(K key) {
try {
Details::IncrementCounter(m_ctr);
Details::ValidateBounds(m_map->erase(Details::MakeWrap(key)) == 1);
NotifyRemoved(key);
_COLLECTION_TRANSLATE
}
virtual void Clear() {
try {
Details::IncrementCounter(m_ctr);
m_map->clear();
NotifyReset();
_COLLECTION_TRANSLATE
}
virtual event WFC_Handler^ MapChanged {
virtual Details::Token add(WFC_Handler^ e) {
m_observed = true;
return m_wfc_event += e;
}
virtual void remove(Details::Token t) {
m_wfc_event -= t;
}
};
private:
void NotifyReset() {
if (m_observed) {
m_wfc_event(this, ref new Details::MapChangedEventArgsReset<K>);
}
}
void NotifyInserted(K key) {
if (m_observed) {
m_wfc_event(this, ref new Details::MapChangedEventArgs<K>(Details::WFC::CollectionChange::ItemInserted, key));
}
}
void NotifyRemoved(K key) {
if (m_observed) {
m_wfc_event(this, ref new Details::MapChangedEventArgs<K>(Details::WFC::CollectionChange::ItemRemoved, key));
}
}
void NotifyChanged(K key) {
if (m_observed) {
m_wfc_event(this, ref new Details::MapChangedEventArgs<K>(Details::WFC::CollectionChange::ItemChanged, key));
}
}
::std::shared_ptr<unsigned int> m_ctr;
::std::shared_ptr<WrappedMap> m_map;
bool m_observed;
event WFC_Handler^ m_wfc_event;
};
template <typename X> class InputIterator;
template <typename T> class VectorIterator;
template <typename T> class VectorViewIterator;
template <typename T> class BackInsertIterator;
} // namespace Collections
} // namespace Platform
template <typename X> struct ::std::_Is_checked_helper< ::Platform::Collections::InputIterator<X>>
: public ::std::true_type { };
template <typename T> struct ::std::_Is_checked_helper< ::Platform::Collections::VectorIterator<T>>
: public ::std::true_type { };
template <typename T> struct ::std::_Is_checked_helper< ::Platform::Collections::VectorViewIterator<T>>
: public ::std::true_type { };
template <typename T> struct ::std::_Is_checked_helper< ::Platform::Collections::BackInsertIterator<T>>
: public ::std::true_type { };
namespace Platform {
namespace Collections {
template <typename X> class InputIterator {
public:
typedef ::std::input_iterator_tag iterator_category;
typedef X value_type;
typedef ptrdiff_t difference_type;
typedef const X * pointer;
typedef const X & reference;
InputIterator() { }
explicit InputIterator(Details::WFC::IIterator<X>^ iter) {
if (iter->HasCurrent) {
m_iter = iter;
m_val = iter->Current;
}
}
bool operator==(const InputIterator& other) const {
return !!m_iter == !!other.m_iter;
}
bool operator!=(const InputIterator& other) const {
return !(*this == other);
}
reference operator*() const {
return m_val;
}
pointer operator->() const {
return &m_val;
}
InputIterator& operator++() {
if (m_iter->MoveNext()) {
m_val = m_iter->Current;
} else {
m_iter = nullptr;
}
return *this;
}
InputIterator operator++(int) {
InputIterator old(*this);
++*this;
return old;
}
private:
Details::WFC::IIterator<X>^ m_iter;
X m_val;
};
namespace Details {
template <typename T> class VectorProxy {
public:
VectorProxy(WFC::IVector<T>^ v, ptrdiff_t n)
: m_v(v), m_i(static_cast<unsigned int>(n)) { }
VectorProxy& operator=(const VectorProxy& other) {
m_v->SetAt(m_i, other.m_v->GetAt(other.m_i));
return *this;
}
VectorProxy& operator=(T t) {
m_v->SetAt(m_i, t);
return *this;
}
operator T() const {
return m_v->GetAt(m_i);
}
T operator->() const {
return m_v->GetAt(m_i);
}
void swap(const VectorProxy& other) const {
T t1(m_v->GetAt(m_i));
T t2(other.m_v->GetAt(other.m_i));
m_v->SetAt(m_i, t2);
other.m_v->SetAt(other.m_i, t1);
}
void swap(T& t) const {
T temp(t);
t = m_v->GetAt(m_i);
m_v->SetAt(m_i, temp);
}
private:
WFC::IVector<T>^ m_v;
unsigned int m_i;
};
template <typename T> inline void swap(const VectorProxy<T>& l, const VectorProxy<T>& r) {
l.swap(r);
}
template <typename T> inline void swap(const VectorProxy<T>& p, T& t) {
p.swap(t);
}
template <typename T> inline void swap(T& t, const VectorProxy<T>& p) {
p.swap(t);
}
template <typename T> inline bool operator==(const VectorProxy<T>& l, const VectorProxy<T>& r) {
return static_cast<T>(l) == static_cast<T>(r);
}
template <typename T> inline bool operator==(const VectorProxy<T>& l, const T& t) {
return static_cast<T>(l) == t;
}
template <typename T> inline bool operator==(const T& t, const VectorProxy<T>& r) {
return t == static_cast<T>(r);
}
template <typename T> inline bool operator!=(const VectorProxy<T>& l, const VectorProxy<T>& r) {
return static_cast<T>(l) != static_cast<T>(r);
}
template <typename T> inline bool operator!=(const VectorProxy<T>& l, const T& t) {
return static_cast<T>(l) != t;
}
template <typename T> inline bool operator!=(const T& t, const VectorProxy<T>& r) {
return t != static_cast<T>(r);
}
template <typename T> inline bool operator<(const VectorProxy<T>& l, const VectorProxy<T>& r) {
return static_cast<T>(l) < static_cast<T>(r);
}
template <typename T> inline bool operator<(const VectorProxy<T>& l, const T& t) {
return static_cast<T>(l) < t;
}
template <typename T> inline bool operator<(const T& t, const VectorProxy<T>& r) {
return t < static_cast<T>(r);
}
template <typename T> inline bool operator<=(const VectorProxy<T>& l, const VectorProxy<T>& r) {
return static_cast<T>(l) <= static_cast<T>(r);
}
template <typename T> inline bool operator<=(const VectorProxy<T>& l, const T& t) {
return static_cast<T>(l) <= t;
}
template <typename T> inline bool operator<=(const T& t, const VectorProxy<T>& r) {
return t <= static_cast<T>(r);
}
template <typename T> inline bool operator>(const VectorProxy<T>& l, const VectorProxy<T>& r) {
return static_cast<T>(l) > static_cast<T>(r);
}
template <typename T> inline bool operator>(const VectorProxy<T>& l, const T& t) {
return static_cast<T>(l) > t;
}
template <typename T> inline bool operator>(const T& t, const VectorProxy<T>& r) {
return t > static_cast<T>(r);
}
template <typename T> inline bool operator>=(const VectorProxy<T>& l, const VectorProxy<T>& r) {
return static_cast<T>(l) >= static_cast<T>(r);
}
template <typename T> inline bool operator>=(const VectorProxy<T>& l, const T& t) {
return static_cast<T>(l) >= t;
}
template <typename T> inline bool operator>=(const T& t, const VectorProxy<T>& r) {
return t >= static_cast<T>(r);
}
template <typename T> class ArrowProxy {
public:
explicit ArrowProxy(T t)
: m_val(t) { }
const T * operator->() const {
return &m_val;
}
private:
T m_val;
};
} // namespace Details
template <typename T> class VectorIterator {
public:
typedef ::std::random_access_iterator_tag iterator_category;
typedef T value_type;
typedef ptrdiff_t difference_type;
typedef Details::VectorProxy<T> * pointer;
typedef Details::VectorProxy<T> reference;
VectorIterator()
: m_v(nullptr), m_i(0) { }
explicit VectorIterator(Details::WFC::IVector<T>^ v)
: m_v(v), m_i(0) { }
reference operator*() const {
return reference(m_v, m_i);
}
Details::ArrowProxy<T> operator->() const {
return Details::ArrowProxy<T>(m_v->GetAt(static_cast<unsigned int>(m_i)));
}
reference operator[](difference_type n) const {
return reference(m_v, m_i + n);
}
VectorIterator& operator++() {
++m_i;
return *this;
}
VectorIterator& operator--() {
--m_i;
return *this;
}
VectorIterator operator++(int) {
VectorIterator old(*this);
++*this;
return old;
}
VectorIterator operator--(int) {
VectorIterator old(*this);
--*this;
return old;
}
VectorIterator& operator+=(difference_type n) {
m_i += n;
return *this;
}
VectorIterator& operator-=(difference_type n) {
m_i -= n;
return *this;
}
VectorIterator operator+(difference_type n) const {
VectorIterator ret(*this);
ret += n;
return ret;
}
VectorIterator operator-(difference_type n) const {
VectorIterator ret(*this);
ret -= n;
return ret;
}
difference_type operator-(const VectorIterator& other) const {
return m_i - other.m_i;
}
bool operator==(const VectorIterator& other) const {
return m_i == other.m_i;
}
bool operator!=(const VectorIterator& other) const {
return m_i != other.m_i;
}
bool operator<(const VectorIterator& other) const {
return m_i < other.m_i;
}
bool operator>(const VectorIterator& other) const {
return m_i > other.m_i;
}
bool operator<=(const VectorIterator& other) const {
return m_i <= other.m_i;
}
bool operator>=(const VectorIterator& other) const {
return m_i >= other.m_i;
}
private:
Details::WFC::IVector<T>^ m_v;
difference_type m_i;
};
template <typename T> inline VectorIterator<T> operator+(ptrdiff_t n, const VectorIterator<T>& i) {
return i + n;
}
template <typename T> class VectorViewIterator {
public:
typedef ::std::random_access_iterator_tag iterator_category;
typedef T value_type;
typedef ptrdiff_t difference_type;
typedef T * pointer;
typedef T reference;
VectorViewIterator()
: m_v(nullptr), m_i(0) { }
explicit VectorViewIterator(Details::WFC::IVectorView<T>^ v)
: m_v(v), m_i(0) { }
reference operator*() const {
return m_v->GetAt(static_cast<unsigned int>(m_i));
}
Details::ArrowProxy<T> operator->() const {
return Details::ArrowProxy<T>(m_v->GetAt(static_cast<unsigned int>(m_i)));
}
reference operator[](difference_type n) const {
return m_v->GetAt(static_cast<unsigned int>(m_i + n));
}
VectorViewIterator& operator++() {
++m_i;
return *this;
}
VectorViewIterator& operator--() {
--m_i;
return *this;
}
VectorViewIterator operator++(int) {
VectorViewIterator old(*this);
++*this;
return old;
}
VectorViewIterator operator--(int) {
VectorViewIterator old(*this);
--*this;
return old;
}
VectorViewIterator& operator+=(difference_type n) {
m_i += n;
return *this;
}
VectorViewIterator& operator-=(difference_type n) {
m_i -= n;
return *this;
}
VectorViewIterator operator+(difference_type n) const {
VectorViewIterator ret(*this);
ret += n;
return ret;
}
VectorViewIterator operator-(difference_type n) const {
VectorViewIterator ret(*this);
ret -= n;
return ret;
}
difference_type operator-(const VectorViewIterator& other) const {
return m_i - other.m_i;
}
bool operator==(const VectorViewIterator& other) const {
return m_i == other.m_i;
}
bool operator!=(const VectorViewIterator& other) const {
return m_i != other.m_i;
}
bool operator<(const VectorViewIterator& other) const {
return m_i < other.m_i;
}
bool operator>(const VectorViewIterator& other) const {
return m_i > other.m_i;
}
bool operator<=(const VectorViewIterator& other) const {
return m_i <= other.m_i;
}
bool operator>=(const VectorViewIterator& other) const {
return m_i >= other.m_i;
}
private:
Details::WFC::IVectorView<T>^ m_v;
difference_type m_i;
};
template <typename T> inline VectorViewIterator<T> operator+(ptrdiff_t n, const VectorViewIterator<T>& i) {
return i + n;
}
template <typename T> class BackInsertIterator
: public ::std::iterator< ::std::output_iterator_tag, void, void, void, void> {
public:
explicit BackInsertIterator(Details::WFC::IVector<T>^ v) : m_v(v) { }
BackInsertIterator& operator=(const T& t) {
m_v->Append(t);
return *this;
}
BackInsertIterator& operator*() {
return *this;
}
BackInsertIterator& operator++() {
return *this;
}
BackInsertIterator operator++(int) {
return *this;
}
private:
Details::WFC::IVector<T>^ m_v;
};
namespace Details {
template <typename T, typename I> inline ::std::vector<T> ToVector(I^ v) {
unsigned int size = v->Size;
::std::vector<T> ret(size);
for (unsigned int actual = 0; actual < size; ) {
Array<T>^ arr = ref new Array<T>(size - actual);
unsigned int n = v->GetMany(actual, arr);
if (n == 0) {
throw ref new FailureException;
}
::std::copy_n(arr->begin(), n, ret.begin() + actual);
actual += n;
}
return ret;
}
} // namespace Details
} // namespace Collections
} // namespace Platform
namespace Windows {
namespace Foundation {
namespace Collections {
template <typename X> inline ::Platform::Collections::InputIterator<X> begin(IIterable<X>^ i) {
return ::Platform::Collections::InputIterator<X>(i->First());
}
template <typename X> inline ::Platform::Collections::InputIterator<X> end(IIterable<X>^) {
return ::Platform::Collections::InputIterator<X>();
}
template <typename T> inline ::Platform::Collections::VectorIterator<T> begin(IVector<T>^ v) {
return ::Platform::Collections::VectorIterator<T>(v);
}
template <typename T> inline ::Platform::Collections::VectorIterator<T> end(IVector<T>^ v) {
return ::Platform::Collections::VectorIterator<T>(v) + v->Size;
}
template <typename T> inline ::Platform::Collections::VectorViewIterator<T> begin(IVectorView<T>^ v) {
return ::Platform::Collections::VectorViewIterator<T>(v);
}
template <typename T> inline ::Platform::Collections::VectorViewIterator<T> end(IVectorView<T>^ v) {
return ::Platform::Collections::VectorViewIterator<T>(v) + v->Size;
}
template <typename T> inline ::std::vector<T> to_vector(IVector<T>^ v) {
return ::Platform::Collections::Details::ToVector<T>(v);
}
template <typename T> inline ::std::vector<T> to_vector(IVectorView<T>^ v) {
return ::Platform::Collections::Details::ToVector<T>(v);
}
template <typename T> inline ::Platform::Collections::BackInsertIterator<T> back_inserter(IVector<T>^ v) {
return ::Platform::Collections::BackInsertIterator<T>(v);
}
template <typename T> inline ::Platform::Collections::BackInsertIterator<T> back_inserter(IObservableVector<T>^ v) {
return ::Platform::Collections::BackInsertIterator<T>(v);
}
} // namespace Collections
} // namespace Foundation
} // namespace Windows
namespace Platform {
namespace Collections {
template <typename T, typename E> inline BackInsertIterator<T> back_inserter(Vector<T, E>^ v) {
return BackInsertIterator<T>(v);
}
} // namespace Collections
} // namespace Platform
template <> struct ::std::hash< ::Platform::String^>
: public ::std::unary_function< ::Platform::String^, size_t> {
size_t operator()(::Platform::String^ s) const {
return ::std::_Hash_seq(reinterpret_cast<const unsigned char *>(s->Data()), s->Length() * sizeof(wchar_t));
}
};
#undef _COLLECTION_ATTRIBUTES
#undef _COLLECTION_TRANSLATE
#undef _COLLECTION_WUXI
#pragma warning(pop)
#pragma pack(pop)
#endif // RC_INVOKED
#endif // _COLLECTION_H_