#pragma once #include #include #include #include namespace nall { template struct array; //usage: int x[256] => array x template struct array { array() = default; array(const initializer_list& source) { uint index = 0; for(auto& value : source) { operator[](index++) = value; } } operator array_span() { return {data(), size()}; } operator array_view() const { return {data(), size()}; } alwaysinline auto operator[](uint index) -> T& { #ifdef DEBUG struct out_of_bounds {}; if(index >= Size) throw out_of_bounds{}; #endif return values[index]; } alwaysinline auto operator[](uint index) const -> const T& { #ifdef DEBUG struct out_of_bounds {}; if(index >= Size) throw out_of_bounds{}; #endif return values[index]; } alwaysinline auto operator()(uint index, const T& fallback = {}) const -> const T& { if(index >= Size) return fallback; return values[index]; } auto fill(const T& fill = {}) -> array& { for(auto& value : values) value = fill; return *this; } auto data() -> T* { return values; } auto data() const -> const T* { return values; } auto size() const -> uint { return Size; } auto begin() -> T* { return &values[0]; } auto end() -> T* { return &values[Size]; } auto begin() const -> const T* { return &values[0]; } auto end() const -> const T* { return &values[Size]; } private: T values[Size]; }; template auto from_array(uint index) -> T { static const array table{p...}; struct out_of_bounds {}; #if defined(DEBUG) if(index >= sizeof...(p)) throw out_of_bounds{}; #endif return table[index]; } template auto from_array(uint index) -> int64_t { static const array table{p...}; struct out_of_bounds {}; #if defined(DEBUG) if(index >= sizeof...(p)) throw out_of_bounds{}; #endif return table[index]; } }