assimp/include/assimp/SmallVector.h

165 lines
4.9 KiB
C++

/*
Open Asset Import Library (assimp)
----------------------------------------------------------------------
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All rights reserved.
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following disclaimer.
* Redistributions in binary form must reproduce the above
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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*/
/** @file Defines small vector with inplace storage.
Based on CppCon 2016: Chandler Carruth "High Performance Code 201: Hybrid Data Structures" */
#pragma once
#ifndef AI_SMALLVECTOR_H_INC
#define AI_SMALLVECTOR_H_INC
#ifdef __GNUC__
# pragma GCC system_header
#endif
namespace Assimp {
// --------------------------------------------------------------------------------------------
/// @brief Small vector with inplace storage.
///
/// Reduces heap allocations when list is shorter. It uses a small array for a dedicated size.
/// When the growing gets bigger than this small cache a dynamic growing algorithm will be
/// used.
// --------------------------------------------------------------------------------------------
template<typename T, unsigned int Capacity>
class SmallVector {
public:
/// @brief The default class constructor.
SmallVector() :
mStorage(mInplaceStorage),
mSize(0),
mCapacity(Capacity) {
// empty
}
/// @brief The class destructor.
~SmallVector() {
if (mStorage != mInplaceStorage) {
delete [] mStorage;
}
}
/// @brief Will push a new item. The capacity will grow in case of a too small capacity.
/// @param item [in] The item to push at the end of the vector.
void push_back(const T& item) {
if (mSize < mCapacity) {
mStorage[mSize++] = item;
return;
}
push_back_and_grow(item);
}
/// @brief Will resize the vector.
/// @param newSize [in] The new size.
void resize(size_t newSize) {
if (newSize > mCapacity) {
grow(newSize);
}
mSize = newSize;
}
/// @brief Returns the current size of the vector.
/// @return The current size.
size_t size() const {
return mSize;
}
/// @brief Returns a pointer to the first item.
/// @return The first item as a pointer.
T* begin() {
return mStorage;
}
/// @brief Returns a pointer to the end.
/// @return The end as a pointer.
T* end() {
return &mStorage[mSize];
}
/// @brief Returns a const pointer to the first item.
/// @return The first item as a const pointer.
T* begin() const {
return mStorage;
}
/// @brief Returns a const pointer to the end.
/// @return The end as a const pointer.
T* end() const {
return &mStorage[mSize];
}
SmallVector(const SmallVector &) = delete;
SmallVector(SmallVector &&) = delete;
SmallVector &operator = (const SmallVector &) = delete;
SmallVector &operator = (SmallVector &&) = delete;
private:
void grow( size_t newCapacity) {
T* oldStorage = mStorage;
T* newStorage = new T[newCapacity];
std::memcpy(newStorage, oldStorage, mSize * sizeof(T));
mStorage = newStorage;
mCapacity = newCapacity;
if (oldStorage != mInplaceStorage) {
delete [] oldStorage;
}
}
void push_back_and_grow(const T& item) {
grow(mCapacity + Capacity);
mStorage[mSize++] = item;
}
T* mStorage;
size_t mSize;
size_t mCapacity;
T mInplaceStorage[Capacity];
};
} // end namespace Assimp
#endif // !! AI_SMALLVECTOR_H_INC