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a64c1adaa8
SFC: Disable color blending for first hires pixel with accuracy PPU (fixes a green scanline on the left-edge of Jurassic Park) libco: Don't include <sys/mman.h> when not using mprotect nall: Detect Windows without invoking uname [Alcaro]
202 lines
5.9 KiB
C++
Executable File
202 lines
5.9 KiB
C++
Executable File
#pragma once
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//serializer: a class designed to save and restore the state of classes.
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//
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//benefits:
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//- data() will be portable in size (it is not necessary to specify type sizes.)
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//- data() will be portable in endianness (always stored internally as little-endian.)
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//- one serialize function can both save and restore class states.
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//
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//caveats:
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//- only plain-old-data can be stored. complex classes must provide serialize(serializer&);
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//- floating-point usage is not portable across different implementations
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#include <nall/array.hpp>
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#include <nall/range.hpp>
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#include <nall/stdint.hpp>
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#include <nall/traits.hpp>
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#include <nall/utility.hpp>
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namespace nall {
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struct serializer;
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template<typename T>
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struct has_serialize {
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template<typename C> static auto test(decltype(std::declval<C>().serialize(std::declval<serializer&>()))*) -> char;
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template<typename C> static auto test(...) -> long;
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static const bool value = sizeof(test<T>(0)) == sizeof(char);
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};
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struct serializer {
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enum Mode : uint { Load, Save, Size };
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explicit operator bool() const {
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return _size;
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}
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auto setMode(Mode mode) -> void {
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_mode = mode;
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_size = 0;
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}
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auto mode() const -> Mode {
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return _mode;
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}
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auto data() const -> const uint8_t* {
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return _data;
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}
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auto size() const -> uint {
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return _size;
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}
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auto capacity() const -> uint {
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return _capacity;
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}
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template<typename T> auto real(T& value) -> serializer& {
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enum : uint { size = sizeof(T) };
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//this is rather dangerous, and not cross-platform safe;
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//but there is no standardized way to export FP-values
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auto p = (uint8_t*)&value;
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if(_mode == Save) {
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for(uint n : range(size)) _data[_size++] = p[n];
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} else if(_mode == Load) {
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for(uint n : range(size)) p[n] = _data[_size++];
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} else {
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_size += size;
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}
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return *this;
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}
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template<typename T> auto boolean(T& value) -> serializer& {
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if(_mode == Save) {
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_data[_size++] = (bool)value;
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} else if(_mode == Load) {
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value = (bool)_data[_size++];
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} else if(_mode == Size) {
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_size += 1;
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}
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return *this;
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}
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template<typename T> auto integer(T& value) -> serializer& {
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enum : uint { size = std::is_same<bool, T>::value ? 1 : sizeof(T) };
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if(_mode == Save) {
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T copy = value;
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for(uint n : range(size)) _data[_size++] = copy, copy >>= 8;
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} else if(_mode == Load) {
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value = 0;
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for(uint n : range(size)) value |= (T)_data[_size++] << (n << 3);
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} else if(_mode == Size) {
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_size += size;
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}
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return *this;
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}
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template<typename T, int N> auto array(T (&array)[N]) -> serializer& {
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for(uint n : range(N)) operator()(array[n]);
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return *this;
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}
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template<typename T> auto array(T array, uint size) -> serializer& {
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for(uint n : range(size)) operator()(array[n]);
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return *this;
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}
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template<typename T, uint Size> auto array(nall::array<T[Size]>& array) -> serializer& {
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for(auto& value : array) operator()(value);
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return *this;
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}
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//optimized specializations
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auto array(uint8_t* data, uint size) -> serializer& {
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if(_mode == Save) {
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memory::copy(_data + _size, data, size);
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} else if(_mode == Load) {
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memory::copy(data, _data + _size, size);
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} else {
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}
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_size += size;
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return *this;
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}
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template<int N> auto array(uint8_t (&data)[N]) -> serializer& {
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return array(data, N);
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}
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//nall/serializer saves data in little-endian ordering
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#if defined(ENDIAN_LSB)
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auto array(uint16_t* data, uint size) -> serializer& { return array((uint8_t*)data, size * sizeof(uint16_t)); }
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auto array(uint32_t* data, uint size) -> serializer& { return array((uint8_t*)data, size * sizeof(uint32_t)); }
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auto array(uint64_t* data, uint size) -> serializer& { return array((uint8_t*)data, size * sizeof(uint64_t)); }
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template<int N> auto array(uint16_t (&data)[N]) -> serializer& { return array(data, N); }
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template<int N> auto array(uint32_t (&data)[N]) -> serializer& { return array(data, N); }
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template<int N> auto array(uint64_t (&data)[N]) -> serializer& { return array(data, N); }
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#endif
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template<typename T> auto operator()(T& value, typename std::enable_if<has_serialize<T>::value>::type* = 0) -> serializer& { value.serialize(*this); return *this; }
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template<typename T> auto operator()(T& value, typename std::enable_if<std::is_integral<T>::value>::type* = 0) -> serializer& { return integer(value); }
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template<typename T> auto operator()(T& value, typename std::enable_if<std::is_floating_point<T>::value>::type* = 0) -> serializer& { return real(value); }
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template<typename T> auto operator()(T& value, typename std::enable_if<std::is_array<T>::value>::type* = 0) -> serializer& { return array(value); }
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template<typename T> auto operator()(T& value, uint size, typename std::enable_if<std::is_pointer<T>::value>::type* = 0) -> serializer& { return array(value, size); }
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auto operator=(const serializer& s) -> serializer& {
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if(_data) delete[] _data;
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_mode = s._mode;
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_data = new uint8_t[s._capacity];
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_size = s._size;
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_capacity = s._capacity;
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memcpy(_data, s._data, s._capacity);
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return *this;
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}
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auto operator=(serializer&& s) -> serializer& {
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if(_data) delete[] _data;
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_mode = s._mode;
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_data = s._data;
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_size = s._size;
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_capacity = s._capacity;
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s._data = nullptr;
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return *this;
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}
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serializer() = default;
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serializer(const serializer& s) { operator=(s); }
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serializer(serializer&& s) { operator=(move(s)); }
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serializer(uint capacity) {
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_mode = Save;
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_data = new uint8_t[capacity]();
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_size = 0;
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_capacity = capacity;
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}
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serializer(const uint8_t* data, uint capacity) {
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_mode = Load;
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_data = new uint8_t[capacity];
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_size = 0;
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_capacity = capacity;
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memcpy(_data, data, capacity);
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}
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~serializer() {
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if(_data) delete[] _data;
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}
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private:
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Mode _mode = Size;
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uint8_t* _data = nullptr;
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uint _size = 0;
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uint _capacity = 0;
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};
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}
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