skstd -> std for unique_ptr
TBR=reed@google.com No public API changes. BUG=skia:4564 Review URL: https://codereview.chromium.org/1436033003
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@ -410,7 +410,6 @@
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'<(skia_include_path)/private/SkTHash.h',
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'<(skia_include_path)/private/SkThreadID.h',
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'<(skia_include_path)/private/SkTLogic.h',
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'<(skia_include_path)/private/SkUniquePtr.h',
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'<(skia_include_path)/private/SkUtility.h',
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'<(skia_include_path)/private/SkWeakRefCnt.h',
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@ -9,8 +9,8 @@
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#define SkRefCnt_DEFINED
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#include "../private/SkAtomics.h"
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#include "../private/SkUniquePtr.h"
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#include "SkTypes.h"
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#include <memory>
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/** \class SkRefCntBase
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@ -185,9 +185,9 @@ template <typename T> struct SkTUnref {
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/**
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* Utility class that simply unref's its argument in the destructor.
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*/
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template <typename T> class SkAutoTUnref : public skstd::unique_ptr<T, SkTUnref<T>> {
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template <typename T> class SkAutoTUnref : public std::unique_ptr<T, SkTUnref<T>> {
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public:
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explicit SkAutoTUnref(T* obj = nullptr) : skstd::unique_ptr<T, SkTUnref<T>>(obj) {}
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explicit SkAutoTUnref(T* obj = nullptr) : std::unique_ptr<T, SkTUnref<T>>(obj) {}
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T* detach() { return this->release(); }
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operator T*() const { return this->get(); }
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@ -257,7 +257,7 @@ typedef uint8_t SkBool8;
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/** Returns 0 or 1 based on the condition
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*/
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#define SkToBool(cond) ((cond) != 0)
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#define SkToBool(cond) ((cond) != (decltype(cond))0)
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#define SK_MaxS16 32767
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#define SK_MinS16 -32767
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@ -9,7 +9,7 @@
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#define SkOncePtr_DEFINED
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#include "../private/SkAtomics.h"
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#include "SkUniquePtr.h"
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#include <memory>
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template <typename T> class SkBaseOncePtr;
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@ -17,7 +17,7 @@ template <typename T> class SkBaseOncePtr;
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#define SK_DECLARE_STATIC_ONCE_PTR(type, name) namespace {} static SkBaseOncePtr<type> name;
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// Use this for a local or member pointer that's initialized exactly once when you call get().
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template <typename T, typename Delete = skstd::default_delete<T>>
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template <typename T, typename Delete = std::default_delete<T>>
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class SkOncePtr : SkNoncopyable {
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public:
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SkOncePtr() { sk_bzero(this, sizeof(*this)); }
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@ -42,7 +42,7 @@ private:
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// If you ask for SkOncePtr<T[]>, we'll clean up with delete[] by default.
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template <typename T>
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class SkOncePtr<T[]> : public SkOncePtr<T, skstd::default_delete<T[]>> {};
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class SkOncePtr<T[]> : public SkOncePtr<T, std::default_delete<T[]>> {};
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/* TODO(mtklein): in next CL
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typedef SkBaseOncePtr<void> SkOnceFlag;
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@ -13,9 +13,9 @@
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#include "SkMath.h"
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#include "SkTLogic.h"
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#include "SkTypes.h"
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#include "SkUniquePtr.h"
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#include "SkUtility.h"
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#include <limits.h>
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#include <memory>
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#include <new>
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/** \file SkTemplates.h
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@ -59,9 +59,9 @@ template <typename R, typename T, R (*P)(T*)> struct SkFunctionWrapper {
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function.
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*/
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template <typename T, void (*P)(T*)> class SkAutoTCallVProc
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: public skstd::unique_ptr<T, SkFunctionWrapper<void, T, P>> {
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: public std::unique_ptr<T, SkFunctionWrapper<void, T, P>> {
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public:
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SkAutoTCallVProc(T* obj): skstd::unique_ptr<T, SkFunctionWrapper<void, T, P>>(obj) {}
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SkAutoTCallVProc(T* obj): std::unique_ptr<T, SkFunctionWrapper<void, T, P>>(obj) {}
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operator T*() const { return this->get(); }
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T* detach() { return this->release(); }
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@ -76,9 +76,9 @@ reference is null when the destructor is called, we do not call the
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function.
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*/
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template <typename T, int (*P)(T*)> class SkAutoTCallIProc
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: public skstd::unique_ptr<T, SkFunctionWrapper<int, T, P>> {
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: public std::unique_ptr<T, SkFunctionWrapper<int, T, P>> {
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public:
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SkAutoTCallIProc(T* obj): skstd::unique_ptr<T, SkFunctionWrapper<int, T, P>>(obj) {}
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SkAutoTCallIProc(T* obj): std::unique_ptr<T, SkFunctionWrapper<int, T, P>>(obj) {}
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operator T*() const { return this->get(); }
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T* detach() { return this->release(); }
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@ -94,18 +94,18 @@ public:
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The size of a SkAutoTDelete is small: sizeof(SkAutoTDelete<T>) == sizeof(T*)
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*/
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template <typename T> class SkAutoTDelete : public skstd::unique_ptr<T> {
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template <typename T> class SkAutoTDelete : public std::unique_ptr<T> {
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public:
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SkAutoTDelete(T* obj = NULL) : skstd::unique_ptr<T>(obj) {}
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SkAutoTDelete(T* obj = NULL) : std::unique_ptr<T>(obj) {}
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operator T*() const { return this->get(); }
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void free() { this->reset(nullptr); }
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T* detach() { return this->release(); }
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};
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template <typename T> class SkAutoTDeleteArray : public skstd::unique_ptr<T[]> {
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template <typename T> class SkAutoTDeleteArray : public std::unique_ptr<T[]> {
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public:
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SkAutoTDeleteArray(T array[]) : skstd::unique_ptr<T[]>(array) {}
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SkAutoTDeleteArray(T array[]) : std::unique_ptr<T[]>(array) {}
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void free() { this->reset(nullptr); }
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T* detach() { return this->release(); }
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@ -1,396 +0,0 @@
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/*
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* Copyright 2015 Google Inc.
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#ifndef SkUniquePtr_DEFINED
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#define SkUniquePtr_DEFINED
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#include "SkTLogic.h"
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#include "SkUtility.h"
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namespace skstd {
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template <typename T> struct default_delete {
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/*constexpr*/ default_delete() /*noexcept*/ = default;
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template <typename U, typename = enable_if_t<is_convertible<U*, T*>::value>>
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default_delete(const default_delete<U>&) /*noexcept*/ {}
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void operator()(T* obj) const {
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static_assert(sizeof(T) > 0, "Deleting pointer to incomplete type!");
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delete obj;
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}
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};
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template <typename T> struct default_delete<T[]> {
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/*constexpr*/ default_delete() /*noexcept*/ = default;
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void operator()(T* obj) const {
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static_assert(sizeof(T) > 0, "Deleting pointer to incomplete type!");
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delete [] obj;
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}
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};
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template <typename T, typename D = default_delete<T>> class unique_ptr {
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// remove_reference_t<D>::pointer if that type exists, otherwise T*.
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struct pointer_type_detector {
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template <typename U> static typename U::pointer detector(typename U::pointer*);
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template <typename U> static T* detector(...);
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using type = decltype(detector<remove_reference_t<D>>(0));
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};
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public:
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using pointer = typename pointer_type_detector::type;
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using element_type = T;
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using deleter_type = D;
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private:
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template <typename B, bool = is_empty<B>::value /*&& !is_final<B>::value*/>
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struct compressed_base : private B {
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/*constexpr*/ compressed_base() : B() {}
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/*constexpr*/ compressed_base(const B& b) : B(b) {}
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/*constexpr*/ compressed_base(const B&& b) : B(move(b)) {}
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/*constexpr*/ B& get() /*noexcept*/ { return *this; }
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/*constexpr*/ B const& get() const /*noexcept*/ { return *this; }
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void swap(compressed_base&) /*noexcept*/ { }
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};
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template <typename B> struct compressed_base<B, false> {
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B fb;
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/*constexpr*/ compressed_base() : B() {}
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/*constexpr*/ compressed_base(const B& b) : fb(b) {}
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/*constexpr*/ compressed_base(const B&& b) : fb(move(b)) {}
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/*constexpr*/ B& get() /*noexcept*/ { return fb; }
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/*constexpr*/ B const& get() const /*noexcept*/ { return fb; }
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void swap(compressed_base& that) /*noexcept*/ { SkTSwap(fb, that.fB); }
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};
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struct compressed_data : private compressed_base<deleter_type> {
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pointer fPtr;
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/*constexpr*/ compressed_data() : compressed_base<deleter_type>(), fPtr() {}
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/*constexpr*/ compressed_data(const pointer& ptr, const deleter_type& d)
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: compressed_base<deleter_type>(d), fPtr(ptr) {}
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template <typename U1, typename U2, typename = enable_if_t<
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is_convertible<U1, pointer>::value && is_convertible<U2, deleter_type>::value
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>> /*constexpr*/ compressed_data(U1&& ptr, U2&& d)
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: compressed_base<deleter_type>(skstd::forward<U2>(d)), fPtr(skstd::forward<U1>(ptr)) {}
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/*constexpr*/ pointer& getPointer() /*noexcept*/ { return fPtr; }
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/*constexpr*/ pointer const& getPointer() const /*noexcept*/ { return fPtr; }
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/*constexpr*/ deleter_type& getDeleter() /*noexcept*/ {
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return compressed_base<deleter_type>::get();
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}
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/*constexpr*/ deleter_type const& getDeleter() const /*noexcept*/ {
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return compressed_base<deleter_type>::get();
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}
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void swap(compressed_data& that) /*noexcept*/ {
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compressed_base<deleter_type>::swap(static_cast<compressed_base<deleter_type>>(that));
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SkTSwap(fPtr, that.fPtr);
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}
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};
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compressed_data data;
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public:
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/*constexpr*/ unique_ptr() /*noexcept*/ : data() {
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static_assert(!is_pointer<deleter_type>::value, "Deleter is nullptr function pointer!");
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}
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/*constexpr*/ unique_ptr(skstd::nullptr_t) /*noexcept*/ : unique_ptr() { }
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explicit unique_ptr(pointer ptr) /*noexcept*/ : data(ptr, deleter_type()) {
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static_assert(!is_pointer<deleter_type>::value, "Deleter is nullptr function pointer!");
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}
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unique_ptr(pointer ptr,
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conditional_t<is_reference<deleter_type>::value, deleter_type,const deleter_type&> d)
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/*noexcept*/ : data(ptr, d)
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{}
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unique_ptr(pointer ptr, remove_reference_t<deleter_type>&& d) /*noexcept*/
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: data(move(ptr), move(d))
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{
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static_assert(!is_reference<deleter_type>::value,
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"Binding an rvalue reference deleter as an lvalue reference deleter is not allowed.");
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}
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unique_ptr(unique_ptr&& that) /*noexcept*/
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: data(that.release(), forward<deleter_type>(that.get_deleter()))
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{}
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template <typename U, typename ThatD, typename = enable_if_t<
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is_convertible<typename unique_ptr<U, ThatD>::pointer, pointer>::value &&
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!is_array<U>::value &&
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conditional_t<is_reference<D>::value, is_same<ThatD, D>, is_convertible<ThatD, D>>::value>>
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unique_ptr(unique_ptr<U, ThatD>&& that) /*noexcept*/
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: data(that.release(), forward<ThatD>(that.get_deleter()))
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{}
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~unique_ptr() /*noexcept*/ {
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pointer& ptr = data.getPointer();
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if (ptr != nullptr) {
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get_deleter()(ptr);
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}
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ptr = pointer();
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}
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unique_ptr& operator=(unique_ptr&& that) /*noexcept*/ {
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reset(that.release());
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get_deleter() = forward<deleter_type>(that.get_deleter());
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return *this;
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}
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template <typename U, typename ThatD> enable_if_t<
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is_convertible<typename unique_ptr<U, ThatD>::pointer, pointer>::value &&
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!is_array<U>::value,
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unique_ptr&> operator=(unique_ptr<U, ThatD>&& that) /*noexcept*/ {
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reset(that.release());
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get_deleter() = forward<ThatD>(that.get_deleter());
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return *this;
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}
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unique_ptr& operator=(skstd::nullptr_t) /*noexcept*/ {
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reset();
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return *this;
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}
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add_lvalue_reference_t<element_type> operator*() const {
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SkASSERT(get() != pointer());
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return *get();
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}
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pointer operator->() const /*noexcept*/ {
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SkASSERT(get() != pointer());
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return get();
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}
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pointer get() const /*noexcept*/ {
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return data.getPointer();
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}
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deleter_type& get_deleter() /*noexcept*/ {
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return data.getDeleter();
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}
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const deleter_type& get_deleter() const /*noexcept*/ {
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return data.getDeleter();
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}
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//explicit operator bool() const noexcept {
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bool is_attached() const /*noexcept*/ {
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return get() == pointer() ? false : true;
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}
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pointer release() /*noexcept*/ {
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pointer ptr = get();
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data.getPointer() = pointer();
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return ptr;
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}
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void reset(pointer ptr = pointer()) /*noexcept*/ {
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SkTSwap(data.getPointer(), ptr);
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if (ptr != pointer()) {
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get_deleter()(ptr);
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}
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}
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void swap(unique_ptr& that) /*noexcept*/ {
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SkTSwap(data, that.data);
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}
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unique_ptr(const unique_ptr&) = delete;
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unique_ptr& operator=(const unique_ptr&) = delete;
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};
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template <typename T, typename D> class unique_ptr<T[], D> {
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// remove_reference_t<D>::pointer if that type exists, otherwise T*.
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struct pointer_type_detector {
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template <typename U> static typename U::pointer detector(typename U::pointer*);
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template <typename U> static T* detector(...);
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using type = decltype(detector<remove_reference_t<D>>(0));
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};
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public:
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using pointer = typename pointer_type_detector::type;
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using element_type = T;
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using deleter_type = D;
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private:
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template <typename B, bool = is_empty<B>::value /*&& !is_final<B>::value*/>
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struct compressed_base : private B {
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/*constexpr*/ compressed_base() : B() {}
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/*constexpr*/ compressed_base(const B& b) : B(b) {}
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/*constexpr*/ compressed_base(const B&& b) : B(move(b)) {}
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/*constexpr*/ B& get() /*noexcept*/ { return *this; }
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/*constexpr*/ B const& get() const /*noexcept*/ { return *this; }
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void swap(compressed_base&) /*noexcept*/ { }
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};
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template <typename B> struct compressed_base<B, false> {
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B fb;
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/*constexpr*/ compressed_base() : B() {}
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/*constexpr*/ compressed_base(const B& b) : fb(b) {}
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/*constexpr*/ compressed_base(const B&& b) : fb(move(b)) {}
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/*constexpr*/ B& get() /*noexcept*/ { return fb; }
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/*constexpr*/ B const& get() const /*noexcept*/ { return fb; }
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void swap(compressed_base& that) /*noexcept*/ { SkTSwap(fb, that.fB); }
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};
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struct compressed_data : private compressed_base<deleter_type> {
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pointer fPtr;
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/*constexpr*/ compressed_data() : compressed_base<deleter_type>(), fPtr() {}
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/*constexpr*/ compressed_data(const pointer& ptr, const deleter_type& d)
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: compressed_base<deleter_type>(d), fPtr(ptr) {}
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template <typename U1, typename U2, typename = enable_if_t<
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is_convertible<U1, pointer>::value && is_convertible<U2, deleter_type>::value
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>> /*constexpr*/ compressed_data(U1&& ptr, U2&& d)
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: compressed_base<deleter_type>(skstd::forward<U2>(d)), fPtr(skstd::forward<U1>(ptr)) {}
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/*constexpr*/ pointer& getPointer() /*noexcept*/ { return fPtr; }
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/*constexpr*/ pointer const& getPointer() const /*noexcept*/ { return fPtr; }
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/*constexpr*/ deleter_type& getDeleter() /*noexcept*/ {
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return compressed_base<deleter_type>::get();
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}
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/*constexpr*/ deleter_type const& getDeleter() const /*noexcept*/ {
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return compressed_base<deleter_type>::get();
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}
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void swap(compressed_data& that) /*noexcept*/ {
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compressed_base<deleter_type>::swap(static_cast<compressed_base<deleter_type>>(that));
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SkTSwap(fPtr, that.fPtr);
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}
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};
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compressed_data data;
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public:
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/*constexpr*/ unique_ptr() /*noexcept*/ : data() {
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static_assert(!is_pointer<deleter_type>::value, "Deleter is nullptr function pointer!");
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}
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/*constexpr*/ unique_ptr(skstd::nullptr_t) /*noexcept*/ : unique_ptr() { }
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explicit unique_ptr(pointer ptr) /*noexcept*/ : data(ptr, deleter_type()) {
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static_assert(!is_pointer<deleter_type>::value, "Deleter is nullptr function pointer!");
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}
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unique_ptr(pointer ptr,
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conditional_t<is_reference<deleter_type>::value, deleter_type,const deleter_type&> d)
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/*noexcept*/ : data(ptr, d)
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{}
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unique_ptr(pointer ptr, remove_reference_t<deleter_type>&& d) /*noexcept*/
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: data(move(ptr), move(d))
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{
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static_assert(!is_reference<deleter_type>::value,
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"Binding an rvalue reference deleter as an lvalue reference deleter is not allowed.");
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}
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unique_ptr(unique_ptr&& that) /*noexcept*/
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: data(that.release(), forward<deleter_type>(that.get_deleter()))
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{}
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~unique_ptr() {
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pointer& ptr = data.getPointer();
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if (ptr != nullptr) {
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get_deleter()(ptr);
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}
|
||||
ptr = pointer();
|
||||
}
|
||||
|
||||
unique_ptr& operator=(unique_ptr&& that) /*noexcept*/ {
|
||||
reset(that.release());
|
||||
get_deleter() = forward<deleter_type>(that.get_deleter());
|
||||
return *this;
|
||||
}
|
||||
|
||||
unique_ptr& operator=(skstd::nullptr_t) /*noexcept*/ {
|
||||
reset();
|
||||
return *this;
|
||||
}
|
||||
|
||||
add_lvalue_reference_t<element_type> operator[](size_t i) const {
|
||||
SkASSERT(get() != pointer());
|
||||
return get()[i];
|
||||
}
|
||||
|
||||
pointer get() const /*noexcept*/ {
|
||||
return data.getPointer();
|
||||
}
|
||||
|
||||
deleter_type& get_deleter() /*noexcept*/ {
|
||||
return data.getDeleter();
|
||||
}
|
||||
|
||||
const deleter_type& get_deleter() const /*noexcept*/ {
|
||||
return data.getDeleter();
|
||||
}
|
||||
|
||||
//explicit operator bool() const noexcept {
|
||||
bool is_attached() const /*noexcept*/ {
|
||||
return get() == pointer() ? false : true;
|
||||
}
|
||||
|
||||
pointer release() /*noexcept*/ {
|
||||
pointer ptr = get();
|
||||
data.getPointer() = pointer();
|
||||
return ptr;
|
||||
}
|
||||
|
||||
void reset(pointer ptr = pointer()) /*noexcept*/ {
|
||||
SkTSwap(data.getPointer(), ptr);
|
||||
if (ptr != pointer()) {
|
||||
get_deleter()(ptr);
|
||||
}
|
||||
}
|
||||
|
||||
template <typename U> void reset(U*) = delete;
|
||||
|
||||
void swap(unique_ptr& that) /*noexcept*/ {
|
||||
data.swap(that.data);
|
||||
}
|
||||
|
||||
unique_ptr(const unique_ptr&) = delete;
|
||||
unique_ptr& operator=(const unique_ptr&) = delete;
|
||||
};
|
||||
|
||||
template <typename T, typename D>
|
||||
inline void swap(unique_ptr<T, D>& a, unique_ptr<T, D>& b) /*noexcept*/ {
|
||||
a.swap(b);
|
||||
}
|
||||
|
||||
template <typename T, typename D, typename U, typename ThatD>
|
||||
inline bool operator==(const unique_ptr<T, D>& a, const unique_ptr<U, ThatD>& b) {
|
||||
return a.get() == b.get();
|
||||
}
|
||||
|
||||
template <typename T, typename D>
|
||||
inline bool operator==(const unique_ptr<T, D>& a, skstd::nullptr_t) /*noexcept*/ {
|
||||
//return !a;
|
||||
return !a.is_attached();
|
||||
}
|
||||
|
||||
template <typename T, typename D>
|
||||
inline bool operator==(skstd::nullptr_t, const unique_ptr<T, D>& b) /*noexcept*/ {
|
||||
//return !b;
|
||||
return !b.is_attached();
|
||||
}
|
||||
|
||||
template <typename T, typename D, typename U, typename ThatD>
|
||||
inline bool operator!=(const unique_ptr<T, D>& a, const unique_ptr<U, ThatD>& b) {
|
||||
return a.get() != b.get();
|
||||
}
|
||||
|
||||
template <typename T, typename D>
|
||||
inline bool operator!=(const unique_ptr<T, D>& a, skstd::nullptr_t) /*noexcept*/ {
|
||||
//return (bool)a;
|
||||
return a.is_attached();
|
||||
}
|
||||
|
||||
template <typename T, typename D>
|
||||
inline bool operator!=(skstd::nullptr_t, const unique_ptr<T, D>& b) /*noexcept*/ {
|
||||
//return (bool)b;
|
||||
return b.is_attached();
|
||||
}
|
||||
|
||||
} // namespace skstd
|
||||
|
||||
#endif
|
@ -49,9 +49,9 @@ SkBitmapRegionDecoder* SkBitmapRegionDecoder::Create(
|
||||
case kAndroidCodec_Strategy: {
|
||||
SkAutoTDelete<SkAndroidCodec> codec =
|
||||
SkAndroidCodec::NewFromStream(streamDeleter.detach());
|
||||
if (NULL == codec) {
|
||||
if (!codec) {
|
||||
SkCodecPrintf("Error: Failed to create codec.\n");
|
||||
return NULL;
|
||||
return nullptr;
|
||||
}
|
||||
return new SkBitmapRegionCodec(codec.detach());
|
||||
}
|
||||
|
@ -14,7 +14,7 @@
|
||||
|
||||
#ifdef SK_DEBUG
|
||||
#include "SkMutex.h"
|
||||
#include "SkUniquePtr.h"
|
||||
#include <memory>
|
||||
#endif // SK_DEBUG
|
||||
|
||||
// There are two shared lock implementations one debug the other is high performance. They implement
|
||||
@ -50,9 +50,9 @@ public:
|
||||
private:
|
||||
#ifdef SK_DEBUG
|
||||
class ThreadIDSet;
|
||||
skstd::unique_ptr<ThreadIDSet> fCurrentShared;
|
||||
skstd::unique_ptr<ThreadIDSet> fWaitingExclusive;
|
||||
skstd::unique_ptr<ThreadIDSet> fWaitingShared;
|
||||
std::unique_ptr<ThreadIDSet> fCurrentShared;
|
||||
std::unique_ptr<ThreadIDSet> fWaitingExclusive;
|
||||
std::unique_ptr<ThreadIDSet> fWaitingShared;
|
||||
int fSharedQueueSelect{0};
|
||||
mutable SkMutex fMu;
|
||||
SkSemaphore fSharedQueue[2];
|
||||
|
@ -27,72 +27,3 @@ DEF_TEST(CPlusPlusEleven_RvalueAndMove, r) {
|
||||
Moveable src1; Moveable dst1(skstd::move(src1));
|
||||
Moveable src2, dst2; dst2 = skstd::move(src2);
|
||||
}
|
||||
|
||||
#define TOO_BIG "The unique_ptr was bigger than expected."
|
||||
#define WEIRD_SIZE "The unique_ptr was a different size than expected."
|
||||
|
||||
DEF_TEST(CPlusPlusEleven_UniquePtr, r) {
|
||||
struct SmallUniquePtr {
|
||||
Moveable* p;
|
||||
};
|
||||
struct BigUniquePtr {
|
||||
void(*d)(Moveable*);
|
||||
Moveable* p;
|
||||
};
|
||||
|
||||
static_assert(sizeof(skstd::unique_ptr<Moveable>) == sizeof(SmallUniquePtr), TOO_BIG);
|
||||
static_assert(sizeof(skstd::unique_ptr<Moveable[]>) == sizeof(SmallUniquePtr), TOO_BIG);
|
||||
|
||||
using proc = void(*)(Moveable*);
|
||||
static_assert(sizeof(skstd::unique_ptr<Moveable, proc>) == sizeof(BigUniquePtr), WEIRD_SIZE);
|
||||
static_assert(sizeof(skstd::unique_ptr<Moveable[], proc>) == sizeof(BigUniquePtr), WEIRD_SIZE);
|
||||
|
||||
{
|
||||
skstd::unique_ptr<Moveable, void(*)(Moveable*)> u(nullptr, deleter<Moveable>);
|
||||
static_assert(sizeof(u) == sizeof(BigUniquePtr), WEIRD_SIZE);
|
||||
|
||||
auto u2 = skstd::move(u);
|
||||
static_assert(sizeof(u2) == sizeof(BigUniquePtr), WEIRD_SIZE);
|
||||
}
|
||||
|
||||
{
|
||||
skstd::unique_ptr<Moveable, void(*)(Moveable*)> u(nullptr, [](Moveable* m){ deleter(m); });
|
||||
static_assert(sizeof(u) == sizeof(BigUniquePtr), WEIRD_SIZE);
|
||||
|
||||
auto u2 = skstd::move(u);
|
||||
static_assert(sizeof(u2) == sizeof(BigUniquePtr), WEIRD_SIZE);
|
||||
}
|
||||
|
||||
{
|
||||
auto d = [](Moveable* m){ deleter(m); };
|
||||
skstd::unique_ptr<Moveable, decltype(d)> u(nullptr, d);
|
||||
static_assert(sizeof(u) == sizeof(SmallUniquePtr), TOO_BIG);
|
||||
|
||||
auto u2 = skstd::move(u);
|
||||
static_assert(sizeof(u2) == sizeof(SmallUniquePtr), TOO_BIG);
|
||||
}
|
||||
|
||||
{
|
||||
skstd::unique_ptr<Moveable, Deleter<Moveable>> u(nullptr, Deleter<Moveable>());
|
||||
static_assert(sizeof(u) == sizeof(SmallUniquePtr), TOO_BIG);
|
||||
|
||||
auto u2 = skstd::move(u);
|
||||
static_assert(sizeof(u2) == sizeof(SmallUniquePtr), TOO_BIG);
|
||||
}
|
||||
|
||||
{
|
||||
skstd::unique_ptr<Moveable, Deleter<Moveable>> u(new Moveable(), Deleter<Moveable>());
|
||||
static_assert(sizeof(u) == sizeof(SmallUniquePtr), TOO_BIG);
|
||||
|
||||
auto u2 = skstd::move(u);
|
||||
static_assert(sizeof(u2) == sizeof(SmallUniquePtr), TOO_BIG);
|
||||
}
|
||||
|
||||
{
|
||||
skstd::unique_ptr<const void, Deleter<const void>> u(new Moveable(), Deleter<const void>());
|
||||
static_assert(sizeof(u) == sizeof(SmallUniquePtr), TOO_BIG);
|
||||
|
||||
auto u2 = skstd::move(u);
|
||||
static_assert(sizeof(u2) == sizeof(SmallUniquePtr), TOO_BIG);
|
||||
}
|
||||
}
|
||||
|
@ -987,7 +987,6 @@ SRCS = ['include/private/SkAtomics.h',
|
||||
'include/private/SkTLogic.h',
|
||||
'include/private/SkTemplates.h',
|
||||
'include/private/SkThreadID.h',
|
||||
'include/private/SkUniquePtr.h',
|
||||
'include/private/SkUtility.h',
|
||||
'include/private/SkWeakRefCnt.h',
|
||||
'src/c/sk_c_from_to.h',
|
||||
|
Loading…
Reference in New Issue
Block a user