bsnes-libretro/nall/vector.hpp

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#ifndef NALL_VECTOR_HPP
#define NALL_VECTOR_HPP
#include <algorithm>
#include <initializer_list>
#include <new>
#include <utility>
#include <nall/algorithm.hpp>
#include <nall/bit.hpp>
#include <nall/sort.hpp>
#include <nall/utility.hpp>
namespace nall {
template<typename T> struct vector {
struct exception_out_of_bounds{};
protected:
T* pool = nullptr;
unsigned poolbase = 0;
unsigned poolsize = 0;
unsigned objectsize = 0;
public:
explicit operator bool() const { return pool; }
T* data() { return pool + poolbase; }
const T* data() const { return pool + poolbase; }
bool empty() const { return objectsize == 0; }
unsigned size() const { return objectsize; }
unsigned capacity() const { return poolsize; }
T* move() {
T* result = pool + poolbase;
pool = nullptr;
poolbase = 0;
poolsize = 0;
objectsize = 0;
return result;
}
void reset() {
if(pool) {
for(unsigned n = 0; n < objectsize; n++) pool[poolbase + n].~T();
free(pool);
}
pool = nullptr;
poolbase = 0;
poolsize = 0;
objectsize = 0;
}
void reserve(unsigned size) {
if(size <= poolsize) return;
size = bit::round(size); //amortize growth
T* copy = (T*)calloc(size, sizeof(T));
for(unsigned n = 0; n < objectsize; n++) new(copy + n) T(std::move(pool[poolbase + n]));
free(pool);
pool = copy;
poolbase = 0;
poolsize = size;
}
void resize(unsigned size) {
T* copy = (T*)calloc(size, sizeof(T));
for(unsigned n = 0; n < size && n < objectsize; n++) new(copy + n) T(std::move(pool[poolbase + n]));
reset();
pool = copy;
poolbase = 0;
poolsize = size;
objectsize = size;
}
template<typename... Args> void prepend(const T& data, Args&&... args) {
prepend(std::forward<Args>(args)...);
prepend(data);
}
T& prepend(const T& data) {
reserve(objectsize + 1);
if(poolbase == 0) {
unsigned available = poolsize - objectsize;
poolbase = max(1u, available >> 1);
for(signed n = objectsize - 1; n >= 0; n--) {
pool[poolbase + n] = std::move(pool[n]);
}
}
new(pool + --poolbase) T(data);
objectsize++;
return first();
}
template<typename... Args> void append(const T& data, Args&&... args) {
append(data);
append(std::forward<Args>(args)...);
}
T& append(const T& data) {
reserve(poolbase + objectsize + 1);
new(pool + poolbase + objectsize++) T(data);
return last();
}
bool appendonce(const T& data) {
if(find(data)) return false;
return append(data), true;
}
void insert(unsigned position, const T& data) {
if(position == 0) return prepend(data);
append(data);
if(position == ~0u) return;
for(signed n = objectsize - 1; n > position; n--) {
pool[poolbase + n] = std::move(pool[poolbase + n - 1]);
}
pool[poolbase + position] = data;
}
void remove(unsigned position = ~0u, unsigned length = 1) {
if(position == ~0u) position = objectsize - 1;
if(position + length > objectsize) throw exception_out_of_bounds{};
if(position == 0) {
for(unsigned n = 0; n < length; n++) pool[poolbase + n].~T();
poolbase += length;
} else {
for(unsigned n = position; n < objectsize; n++) {
if(n + length < objectsize) {
pool[poolbase + n] = std::move(pool[poolbase + n + length]);
} else {
pool[poolbase + n].~T();
}
}
}
objectsize -= length;
}
T take(unsigned position = ~0u) {
if(position == ~0u) position = objectsize - 1;
T object = pool[poolbase + position];
remove(position);
return object;
}
void reverse() {
unsigned pivot = size() / 2;
for(unsigned l = 0, r = size() - 1; l < pivot; l++, r--) {
std::swap(pool[poolbase + l], pool[poolbase + r]);
}
}
void sort() {
nall::sort(pool + poolbase, objectsize);
}
template<typename Comparator> void sort(const Comparator &lessthan) {
nall::sort(pool + poolbase, objectsize, lessthan);
}
optional<unsigned> find(const T& data) {
for(unsigned n = 0; n < objectsize; n++) if(pool[poolbase + n] == data) return {true, n};
return false;
}
T& first() {
if(objectsize == 0) throw exception_out_of_bounds();
return pool[poolbase];
}
const T& first() const {
if(objectsize == 0) throw exception_out_of_bounds();
return pool[poolbase];
}
T& last() {
if(objectsize == 0) throw exception_out_of_bounds();
return pool[poolbase + objectsize - 1];
}
const T& last() const {
if(objectsize == 0) throw exception_out_of_bounds();
return pool[poolbase + objectsize - 1];
}
//access
inline T& operator[](unsigned position) {
if(position >= objectsize) throw exception_out_of_bounds();
return pool[poolbase + position];
}
inline const T& operator[](unsigned position) const {
if(position >= objectsize) throw exception_out_of_bounds();
return pool[poolbase + position];
}
inline T& operator()(unsigned position) {
if(position >= poolsize) reserve(position + 1);
while(position >= objectsize) append(T());
return pool[poolbase + position];
}
inline const T& operator()(unsigned position, const T& data) const {
if(position >= objectsize) return data;
return pool[poolbase + position];
}
//iteration
struct iterator {
T& operator*() { return source.operator[](position); }
bool operator!=(const iterator& source) const { return position != source.position; }
iterator& operator++() { position++; return *this; }
iterator(vector& source, unsigned position) : source(source), position(position) {}
private:
vector& source;
unsigned position;
};
iterator begin() { return iterator(*this, 0); }
iterator end() { return iterator(*this, size()); }
struct const_iterator {
const T& operator*() const { return source.operator[](position); }
bool operator!=(const const_iterator& source) const { return position != source.position; }
const_iterator& operator++() { position++; return *this; }
const_iterator(const vector& source, unsigned position) : source(source), position(position) {}
private:
const vector& source;
unsigned position;
};
const const_iterator begin() const { return const_iterator(*this, 0); }
const const_iterator end() const { return const_iterator(*this, size()); }
//copy
inline vector& operator=(const vector& source) {
reset();
reserve(source.size());
for(auto& data : source) append(data);
return *this;
}
//move
inline vector& operator=(vector&& source) {
reset();
pool = source.pool;
poolbase = source.poolbase;
poolsize = source.poolsize;
objectsize = source.objectsize;
source.pool = nullptr;
source.poolbase = 0;
source.poolsize = 0;
source.objectsize = 0;
return *this;
}
//construction and destruction
vector() = default;
vector(std::initializer_list<T> list) { for(auto& data : list) append(data); }
vector(const vector& source) { operator=(source); }
vector(vector&& source) { operator=(std::move(source)); }
~vector() { reset(); }
};
}
#endif