virtualx-engine/thirdparty/thekla_atlas/nvcore/Array.h

183 lines
5.5 KiB
C++
Raw Normal View History

// This code is in the public domain -- Ignacio Castaño <castano@gmail.com>
#pragma once
#ifndef NV_CORE_ARRAY_H
#define NV_CORE_ARRAY_H
/*
This array class requires the elements to be relocable; it uses memmove and realloc. Ideally I should be
using swap, but I honestly don't care. The only thing that you should be aware of is that internal pointers
are not supported.
Note also that push_back and resize does not support inserting arguments elements that are in the same
container. This is forbidden to prevent an extra copy.
*/
#include "Memory.h"
#include "Debug.h"
#include "ForEach.h" // PseudoIndex
namespace nv
{
class Stream;
/**
* Replacement for std::vector that is easier to debug and provides
* some nice foreach enumerators.
*/
template<typename T>
class NVCORE_CLASS Array {
public:
typedef uint size_type;
// Default constructor.
NV_FORCEINLINE Array() : m_buffer(NULL), m_capacity(0), m_size(0) {}
// Copy constructor.
NV_FORCEINLINE Array(const Array & a) : m_buffer(NULL), m_capacity(0), m_size(0) {
copy(a.m_buffer, a.m_size);
}
// Constructor that initializes the vector with the given elements.
NV_FORCEINLINE Array(const T * ptr, uint num) : m_buffer(NULL), m_capacity(0), m_size(0) {
copy(ptr, num);
}
// Allocate array.
NV_FORCEINLINE explicit Array(uint capacity) : m_buffer(NULL), m_capacity(0), m_size(0) {
setArrayCapacity(capacity);
}
// Destructor.
NV_FORCEINLINE ~Array() {
clear();
free<T>(m_buffer);
}
/// Const element access.
NV_FORCEINLINE const T & operator[]( uint index ) const
{
nvDebugCheck(index < m_size);
return m_buffer[index];
}
NV_FORCEINLINE const T & at( uint index ) const
{
nvDebugCheck(index < m_size);
return m_buffer[index];
}
/// Element access.
NV_FORCEINLINE T & operator[] ( uint index )
{
nvDebugCheck(index < m_size);
return m_buffer[index];
}
NV_FORCEINLINE T & at( uint index )
{
nvDebugCheck(index < m_size);
return m_buffer[index];
}
/// Get vector size.
NV_FORCEINLINE uint size() const { return m_size; }
/// Get vector size.
NV_FORCEINLINE uint count() const { return m_size; }
/// Get vector capacity.
NV_FORCEINLINE uint capacity() const { return m_capacity; }
/// Get const vector pointer.
NV_FORCEINLINE const T * buffer() const { return m_buffer; }
/// Get vector pointer.
NV_FORCEINLINE T * buffer() { return m_buffer; }
/// Provide begin/end pointers for C++11 range-based for loops.
NV_FORCEINLINE T * begin() { return m_buffer; }
NV_FORCEINLINE T * end() { return m_buffer + m_size; }
NV_FORCEINLINE const T * begin() const { return m_buffer; }
NV_FORCEINLINE const T * end() const { return m_buffer + m_size; }
/// Is vector empty.
NV_FORCEINLINE bool isEmpty() const { return m_size == 0; }
/// Is a null vector.
NV_FORCEINLINE bool isNull() const { return m_buffer == NULL; }
T & append();
void push_back( const T & val );
void pushBack( const T & val );
Array<T> & append( const T & val );
Array<T> & operator<< ( T & t );
void pop_back();
void popBack(uint count = 1);
void popFront(uint count = 1);
const T & back() const;
T & back();
const T & front() const;
T & front();
bool contains(const T & e) const;
bool find(const T & element, uint * indexPtr) const;
bool find(const T & element, uint begin, uint end, uint * indexPtr) const;
void removeAt(uint index);
bool remove(const T & element);
void insertAt(uint index, const T & val = T());
void append(const Array<T> & other);
void append(const T other[], uint count);
void replaceWithLast(uint index);
void resize(uint new_size);
void resize(uint new_size, const T & elem);
void fill(const T & elem);
void clear();
void shrink();
void reserve(uint desired_size);
void copy(const T * data, uint count);
Array<T> & operator=( const Array<T> & a );
T * release();
// Array enumerator.
typedef uint PseudoIndex;
NV_FORCEINLINE PseudoIndex start() const { return 0; }
NV_FORCEINLINE bool isDone(const PseudoIndex & i) const { nvDebugCheck(i <= this->m_size); return i == this->m_size; }
NV_FORCEINLINE void advance(PseudoIndex & i) const { nvDebugCheck(i <= this->m_size); i++; }
#if NV_NEED_PSEUDOINDEX_WRAPPER
NV_FORCEINLINE T & operator[]( const PseudoIndexWrapper & i ) {
return m_buffer[i(this)];
}
NV_FORCEINLINE const T & operator[]( const PseudoIndexWrapper & i ) const {
return m_buffer[i(this)];
}
#endif
// Friends.
template <typename Typ>
friend Stream & operator<< ( Stream & s, Array<Typ> & p );
template <typename Typ>
friend void swap(Array<Typ> & a, Array<Typ> & b);
protected:
void setArraySize(uint new_size);
void setArrayCapacity(uint new_capacity);
T * m_buffer;
uint m_capacity;
uint m_size;
};
} // nv namespace
#endif // NV_CORE_ARRAY_H