X-Git-Url: https://gerrit.akraino.org/r/gitweb?a=blobdiff_plain;f=src%2Ftype3_AndroidCloud%2Fanbox-master%2Fexternal%2Fandroid-emugl%2Fshared%2Femugl%2Fcommon%2Fpod_vector.h;fp=src%2Ftype3_AndroidCloud%2Fanbox-master%2Fexternal%2Fandroid-emugl%2Fshared%2Femugl%2Fcommon%2Fpod_vector.h;h=c4e184bdf34d96e8ca3083f4089ecdb8c24be629;hb=e26c1ec581be598521517829adba8c8dd23a768f;hp=0000000000000000000000000000000000000000;hpb=6699c1aea74eeb0eb400e6299079f0c7576f716f;p=iec.git diff --git a/src/type3_AndroidCloud/anbox-master/external/android-emugl/shared/emugl/common/pod_vector.h b/src/type3_AndroidCloud/anbox-master/external/android-emugl/shared/emugl/common/pod_vector.h new file mode 100644 index 0000000..c4e184b --- /dev/null +++ b/src/type3_AndroidCloud/anbox-master/external/android-emugl/shared/emugl/common/pod_vector.h @@ -0,0 +1,265 @@ +// Copyright (C) 2014 The Android Open Source Project +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +#ifndef EMUGL_COMMON_POD_VECTOR_H +#define EMUGL_COMMON_POD_VECTOR_H + + +#include + +#ifndef __STDC_LIMIT_MACROS +#define __STDC_LIMIT_MACROS 1 +#endif +#ifndef __STDC_FORMAT_MACROS +#define __STDC_FORMAT_MACROS 1 +#endif +#include + +#ifndef SIZE_MAX +#error "You must define __STDC_LIMIT_MACROS before including " +#endif + +namespace emugl { + +// A PodVector is a templated vector-like type that is used to store +// POD-struct compatible items only. This allows the implementation to +// use ::memmove() to move items, and also malloc_usable_size() to +// determine the best capacity. +// +// std::vector<> is capable of doing this in theory, using horrible +// templating tricks that make error messages very difficult to +// understand. +// +// Note that a PodVector can be used to store items that contain pointers, +// as long as these do not point to items in the same container. +// +// The PodVector provides methods that also follow the std::vector<> +// conventions, i.e. push_back() is an alias for append(). +// + +// NOTE: This is a re-implementation of +// external/qemu/android/base/containers/PodVector.h for emugl. + +// PodVectorBase is a base, non-templated, implementation class that all +// PodVector instances derive from. This is used to reduce template +// specialization. Do not use directly, i..e it's an implementation detail. +class PodVectorBase { +protected: + PodVectorBase() : mBegin(NULL), mEnd(NULL), mLimit(NULL) {} + explicit PodVectorBase(const PodVectorBase& other); + PodVectorBase& operator=(const PodVectorBase& other); + ~PodVectorBase(); + + bool empty() const { return mEnd == mBegin; } + + size_t byteSize() const { return mEnd - mBegin; } + + size_t byteCapacity() const { return mLimit - mBegin; } + + void* begin() { return mBegin; } + const void* begin() const { return mBegin; } + void* end() { return mEnd; } + const void* end() const { return mEnd; } + + void* itemAt(size_t pos, size_t itemSize) { + return mBegin + pos * itemSize; + } + + const void* itemAt(size_t pos, size_t itemSize) const { + return mBegin + pos * itemSize; + } + + void assignFrom(const PodVectorBase& other); + + inline size_t itemCount(size_t itemSize) const { + return byteSize() / itemSize; + } + + inline size_t itemCapacity(size_t itemSize) const { + return byteCapacity() / itemSize; + } + + inline size_t maxItemCapacity(size_t itemSize) const { + return SIZE_MAX / itemSize; + } + + void resize(size_t newSize, size_t itemSize); + void reserve(size_t newSize, size_t itemSize); + + void removeAt(size_t index, size_t itemSize); + void* insertAt(size_t index, size_t itemSize); + void swapAll(PodVectorBase* other); + + char* mBegin; + char* mEnd; + char* mLimit; + +private: + void initFrom(const void* from, size_t fromLen); +}; + + +// A PodVector holds a vector (dynamically resizable array) or items +// that must be POD-struct compatible (i.e. they cannot have constructors, +// destructors, or virtual members). This allows the implementation to be +// small, fast and efficient, memory-wise. +// +// If you want to implement a vector of C++ objects, consider using +// std::vector<> instead, but keep in mind that this implies a non-trivial +// cost when appending, inserting, removing items in the collection. +// +template +class PodVector : public PodVectorBase { +public: + // Default constructor for an empty PodVector + PodVector() : PodVectorBase() {} + + // Copy constructor. This copies all items from |other| into + // the new instance with ::memmove(). + PodVector(const PodVector& other) : PodVectorBase(other) {} + + // Assignment operator. + PodVector& operator=(const PodVector& other) { + this->assignFrom(other); + return *this; + } + + // Destructor, this simply releases the internal storage block that + // holds all the items, but doesn't touch them otherwise. + ~PodVector() {} + + // Return true iff the PodVector instance is empty, i.e. does not + // have any items. + bool empty() const { return PodVectorBase::empty(); } + + // Return the number of items in the current PodVector instance. + size_t size() const { return PodVectorBase::itemCount(sizeof(T)); } + + // Return the current capacity in the current PodVector instance. + // Do not use directly, except if you know what you're doing. Try to + // use resize() or reserve() instead. + size_t capacity() const { + return PodVectorBase::itemCapacity(sizeof(T)); + } + + // Return the maximum capacity of any PodVector instance. + static inline size_t maxCapacity() { return SIZE_MAX / sizeof(T); } + + // Resize the vector to ensure it can hold |newSize| + // items. This may or may not call reserve() under the hood. + // It's a fatal error to try to resize above maxCapacity(). + void resize(size_t newSize) { + PodVectorBase::resize(newSize, sizeof(T)); + } + + // Resize the vector's storage array to ensure that it can hold at + // least |newSize| items. It's a fatal error to try to resize above + // maxCapacity(). + void reserve(size_t newSize) { + PodVectorBase::reserve(newSize, sizeof(T)); + } + + // Return a pointer to the first item in the vector. This is only + // valid until the next call to any function that changes the size + // or capacity of the vector. Can be NULL if the vector is empty. + T* begin() { + return reinterpret_cast(PodVectorBase::begin()); + } + + // Return a constant pointer to the first item in the vector. This is + // only valid until the next call to any function that changes the + // size of capacity of the vector. + const T* begin() const { + return reinterpret_cast(PodVectorBase::begin()); + } + + // Return a pointer past the last item in the vector. I.e. if the + // result is not NULL, then |result - 1| points to the last item. + // Can be NULL if the vector is empty. + T* end() { + return reinterpret_cast(PodVectorBase::end()); + } + + // Return a constant pointer past the last item in the vector. I.e. if + // the result is not NULL, then |result - 1| points to the last item. + // Can be NULL if the vector is empty. + const T* end() const { + return reinterpret_cast(PodVectorBase::end()); + } + + // Returns a reference to the item a position |index| in the vector. + // It may be a fatal error to access an out-of-bounds position. + T& operator[](size_t index) { + return *reinterpret_cast( + PodVectorBase::itemAt(index, sizeof(T))); + } + + const T& operator[](size_t index) const { + return *reinterpret_cast( + PodVectorBase::itemAt(index, sizeof(T))); + } + + // Increase the vector's size by 1, then move all items past a given + // position to the right. Return the position of the insertion point + // to let the caller copy the content it desires there. It's preferrable + // to use insert() directly, which will do the item copy for you. + T* emplace(size_t index) { + return reinterpret_cast( + PodVectorBase::insertAt(index, sizeof(T))); + } + + // Insert an item at a given position. |index| is the insertion position + // which must be between 0 and size() included, or a fatal error may + // occur. |item| is a reference to an item to copy into the array, + // byte-by-byte. + void insert(size_t index, const T& item) { + *(this->emplace(index)) = item; + } + + // Prepend an item at the start of a vector. This moves all vector items + // to the right, and is thus costly. |item| is a reference to an item + // to copy to the start of the vector. + void prepend(const T& item) { + *(this->emplace(0U)) = item; + } + + // Append an item at the end of a vector. Specialized version of insert() + // which always uses size() as the insertion position. + void append(const T& item) { + *(this->emplace(this->size())) = item; + } + + // Remove the item at a given position. |index| is the position of the + // item to delete. It must be between 0 and size(), included, or + // a fatal error may occur. Deleting the item at position size() + // doesn't do anything. + void remove(size_t index) { + PodVectorBase::removeAt(index, sizeof(T)); + } + + void swap(PodVector* other) { + PodVectorBase::swapAll(other); + } + + // Compatibility methods for std::vector<> + void push_back(const T& item) { append(item); } + void pop() { remove(0U); } + + typedef T* iterator; + typedef const T* const_iterator; +}; + +} // namespace emugl + +#endif // EMUGL_COMMON_POD_VECTOR_H