bsnes/nall/array-span.hpp

#pragma once

#include <nall/array-view.hpp>

namespace nall {

template<typename T> struct array_span : array_view<T> {
  using type = array_span;
  using super = array_view<T>;

  inline array_span() {
    super::_data = nullptr;
    super::_size = 0;
  }

  inline array_span(nullptr_t) {
    super::_data = nullptr;
    super::_size = 0;
  }

  inline array_span(void* data, uint64_t size) {
    super::_data = (T*)data;
    super::_size = (int)size;
  }

  inline operator T*() { return (T*)super::operator const T*(); }

  inline auto operator[](uint index) -> T& { return (T&)super::operator[](index); }

  template<typename U = T> inline auto data() -> U* { return (U*)super::_data; }

  inline auto begin() -> iterator<T> { return {(T*)super::_data, (uint)0}; }
  inline auto end() -> iterator<T> { return {(T*)super::_data, (uint)super::_size}; }

  inline auto rbegin() -> reverse_iterator<T> { return {(T*)super::_data, (uint)super::_size - 1}; }
  inline auto rend() -> reverse_iterator<T> { return {(T*)super::_data, (uint)-1}; }

  auto write(T value) -> void {
    operator[](0) = value;
    super::_data++;
    super::_size--;
  }

  auto span(uint offset, uint length) const -> type {
    #ifdef DEBUG
    struct out_of_bounds {};
    if(offset + length >= super::_size) throw out_of_bounds{};
    #endif
    return {super::_data + offset, length};
  }

  //array_span<uint8_t> specializations
  template<typename U> auto writel(U value, uint size) -> void;
  template<typename U> auto writem(U value, uint size) -> void;
  template<typename U> auto writevn(U value, uint size) -> void;
  template<typename U> auto writevi(U value, uint size) -> void;
};

//array_span<uint8_t>

template<> inline auto array_span<uint8_t>::write(uint8_t value) -> void {
  operator[](0) = value;
  _data++;
  _size--;
}

template<> template<typename U> inline auto array_span<uint8_t>::writel(U value, uint size) -> void {
  for(uint byte : range(size)) write(value >> byte * 8);
}

template<> template<typename U> inline auto array_span<uint8_t>::writem(U value, uint size) -> void {
  for(uint byte : reverse(range(size))) write(value >> byte * 8);
}

template<> template<typename U> inline auto array_span<uint8_t>::writevn(U value, uint size) -> void {
  while(true) {
    auto byte = value & 0x7f;
    value >>= 7;
    if(value == 0) return write(0x80 | byte);
    write(byte);
    value--;
  }
}

template<> template<typename U> inline auto array_span<uint8_t>::writevi(U value, uint size) -> void {
  bool negate = value < 0;
  if(negate) value = ~value;
  value = value << 1 | negate;
  writevn(value);
}

}
Update to v106r60 release. byuu says: I added (imperfect) memory conflict timing to the SA1. Before: - WRAM↔↔ROM ran 7% too fast - ROM↔↔ROM ran 100% too fast - WRAM↔↔IRAM ran 7% too fast - ROM↔↔IRAM ran 7% too fast - IRAM↔↔IRAM ran 287% too fast - BWRAM↔↔BWRAM ran 100% too fast - HDMA ROM↔↔ROM ran 15% too fast - HDMA WRAM↔↔ROM ran 15% too fast - DMA ROM↔↔ROM ran 100% too fast After: - ROM↔↔ROM runs 14% too fast - HDMA WRAM↔↔ROM runs 7% too fast - DMA ROM↔↔ROM runs 4% too fast If you enable this with the fast PPU + DSP, your framerate in SA1 games will drop by 51%. And even if you disable it, you'll still lose 9% speed in SA1 games, and 2% speed in non-SA1 games, because of changes needed to make this support possible. By default, I'm leaving this off. Compile with `-DACCURATE_SA1` (or uncomment the line in sfc/sfc.hpp) if you want to try it out. This'll almost certainly cause some SA1 regressions, so I guess we'll tackle those as they arise. 2018-09-02 14:06:41 +00:00			`#pragma once`

			`#include <nall/array-view.hpp>`

			`namespace nall {`

			`template<typename T> struct array_span : array_view<T> {`
			`using type = array_span;`
			`using super = array_view<T>;`

			`inline array_span() {`
			`super::_data = nullptr;`
			`super::_size = 0;`
			`}`

			`inline array_span(nullptr_t) {`
			`super::_data = nullptr;`
			`super::_size = 0;`
			`}`

			`inline array_span(void* data, uint64_t size) {`
			`super::_data = (T*)data;`
			`super::_size = (int)size;`
			`}`

			`inline operator T() { return (T)super::operator const T*(); }`

			`inline auto operator[](uint index) -> T& { return (T&)super::operator[](index); }`

			`template<typename U = T> inline auto data() -> U* { return (U*)super::_data; }`

			`inline auto begin() -> iterator<T> { return {(T*)super::_data, (uint)0}; }`
			`inline auto end() -> iterator<T> { return {(T*)super::_data, (uint)super::_size}; }`

			`inline auto rbegin() -> reverse_iterator<T> { return {(T*)super::_data, (uint)super::_size - 1}; }`
			`inline auto rend() -> reverse_iterator<T> { return {(T*)super::_data, (uint)-1}; }`

			`auto write(T value) -> void {`
			`operator[](0) = value;`
			`super::_data++;`
			`super::_size--;`
			`}`

Update to v106r65 release. byuu says: This synchronizes bsnes/higan with many recent internal nall changes. This will be the last WIP until I am situated in Japan. Apologies for the bugfixes that didn't get applied yet, I ran out of time. 2018-10-04 10:11:23 +00:00			`auto span(uint offset, uint length) const -> type {`
			`#ifdef DEBUG`
			`struct out_of_bounds {};`
			`if(offset + length >= super::_size) throw out_of_bounds{};`
			`#endif`
			`return {super::_data + offset, length};`
			`}`

Update to v106r60 release. byuu says: I added (imperfect) memory conflict timing to the SA1. Before: - WRAM↔↔ROM ran 7% too fast - ROM↔↔ROM ran 100% too fast - WRAM↔↔IRAM ran 7% too fast - ROM↔↔IRAM ran 7% too fast - IRAM↔↔IRAM ran 287% too fast - BWRAM↔↔BWRAM ran 100% too fast - HDMA ROM↔↔ROM ran 15% too fast - HDMA WRAM↔↔ROM ran 15% too fast - DMA ROM↔↔ROM ran 100% too fast After: - ROM↔↔ROM runs 14% too fast - HDMA WRAM↔↔ROM runs 7% too fast - DMA ROM↔↔ROM runs 4% too fast If you enable this with the fast PPU + DSP, your framerate in SA1 games will drop by 51%. And even if you disable it, you'll still lose 9% speed in SA1 games, and 2% speed in non-SA1 games, because of changes needed to make this support possible. By default, I'm leaving this off. Compile with `-DACCURATE_SA1` (or uncomment the line in sfc/sfc.hpp) if you want to try it out. This'll almost certainly cause some SA1 regressions, so I guess we'll tackle those as they arise. 2018-09-02 14:06:41 +00:00			`//array_span<uint8_t> specializations`
			`template<typename U> auto writel(U value, uint size) -> void;`
			`template<typename U> auto writem(U value, uint size) -> void;`
			`template<typename U> auto writevn(U value, uint size) -> void;`
			`template<typename U> auto writevi(U value, uint size) -> void;`
			`};`

			`//array_span<uint8_t>`

			`template<> inline auto array_span<uint8_t>::write(uint8_t value) -> void {`
			`operator[](0) = value;`
			`_data++;`
			`_size--;`
			`}`

			`template<> template<typename U> inline auto array_span<uint8_t>::writel(U value, uint size) -> void {`
			`for(uint byte : range(size)) write(value >> byte * 8);`
			`}`

			`template<> template<typename U> inline auto array_span<uint8_t>::writem(U value, uint size) -> void {`
			`for(uint byte : reverse(range(size))) write(value >> byte * 8);`
			`}`

			`template<> template<typename U> inline auto array_span<uint8_t>::writevn(U value, uint size) -> void {`
			`while(true) {`
			`auto byte = value & 0x7f;`
			`value >>= 7;`
			`if(value == 0) return write(0x80 \| byte);`
			`write(byte);`
			`value--;`
			`}`
			`}`

			`template<> template<typename U> inline auto array_span<uint8_t>::writevi(U value, uint size) -> void {`
			`bool negate = value < 0;`
			`if(negate) value = ~value;`
			`value = value << 1 \| negate;`
			`writevn(value);`
			`}`

			`}`