rsx_decode.h

#pragma once
#include "Utilities/types.h"
#include "Utilities/BitField.h"
#include "Utilities/StrFmt.h"
#include <tuple>
#include <climits>
#include "gcm_enums.h"
#pragma warning(disable:4503)

namespace
{
	std::string get_subreg_name(u8 subreg)
	{
		return subreg == 0 ? "x" :
			subreg == 1 ? "y" :
			subreg == 2 ? "z" :
			"w";
	}

	std::string print_vertex_attribute_format(rsx::vertex_base_type type)
	{
		switch (type)
		{
		case rsx::vertex_base_type::s1: return "Signed short normalized";
		case rsx::vertex_base_type::f: return "Float";
		case rsx::vertex_base_type::sf: return "Half float";
		case rsx::vertex_base_type::ub: return "Unsigned byte normalized";
		case rsx::vertex_base_type::s32k: return "Signed short unormalized";
		case rsx::vertex_base_type::cmp: return "CMP";
		case rsx::vertex_base_type::ub256: return "Unsigned byte unormalized";
		}
		fmt::throw_exception("Unexpected enum found" HERE);
	}
}

namespace rsx
{
	std::string print_boolean(bool b);
	std::string to_string(comparison_function f);
	std::string to_string(stencil_op op);
	std::string to_string(fog_mode op);
	std::string to_string(logic_op op);
	std::string to_string(front_face op);
	std::string to_string(cull_face op);
	std::string to_string(surface_target target);
	std::string to_string(primitive_type draw_mode);
	std::string to_string(blit_engine::transfer_operation op);
	std::string to_string(blit_engine::transfer_source_format op);
	std::string to_string(blit_engine::context_surface op);
	std::string to_string(blit_engine::transfer_destination_format op);
	std::string to_string(blend_equation op);
	std::string to_string(blend_factor factor);
	std::string to_string(window_origin origin);
	std::string to_string(window_pixel_center in);
	std::string to_string(user_clip_plane_op op);
	std::string to_string(surface_depth_format format);
	std::string to_string(surface_antialiasing format);
	std::string to_string(surface_color_format format);
	std::string to_string(index_array_type arg);
	std::string to_string(blit_engine::context_dma op);
	std::string to_string(blit_engine::transfer_origin op);
	std::string to_string(blit_engine::transfer_interpolator op);
	std::string to_string(shading_mode op);
	std::string to_string(polygon_mode op);

template<uint32_t Register>
struct registers_decoder
{};

// Use the smallest type by default
template<u32 I, u32 N, typename T = get_int_t<std::max<size_t>(static_cast<size_t>((UINTMAX_C(1) << ::ceil2(N)) / CHAR_BIT), 1)>>
static constexpr inline T bf_decoder(const u32& bits)
{
	return static_cast<T>(bf_t<u32, I, N>::extract(bits));
}

template<>
struct registers_decoder<NV4097_SET_VIEWPORT_HORIZONTAL>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 origin_x() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 width() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Viewport: x = " + std::to_string(decoded_values.origin_x()) + " width = " + std::to_string(decoded_values.width());
	}
};

template<>
struct registers_decoder<NV4097_SET_VIEWPORT_VERTICAL>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 origin_y() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 height() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Viewport: y = " + std::to_string(decoded_values.origin_y()) + " height = " + std::to_string(decoded_values.height());
	}
};

template<>
struct registers_decoder<NV4097_SET_SCISSOR_HORIZONTAL>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 origin_x() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 width() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Scissor: x = " + std::to_string(decoded_values.origin_x()) + " width = " + std::to_string(decoded_values.width());
	}
};

template<>
struct registers_decoder<NV4097_SET_SCISSOR_VERTICAL>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 origin_y() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 height() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Scissor: y  = " + std::to_string(decoded_values.origin_y()) + " height = " + std::to_string(decoded_values.height());
	}
};

template<>
struct registers_decoder<NV4097_SET_SURFACE_CLIP_HORIZONTAL>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 origin_x() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 width() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: clip x  = " + std::to_string(decoded_values.origin_x()) + " width = " + std::to_string(decoded_values.width());
	}
};

template<>
struct registers_decoder< NV4097_SET_SURFACE_CLIP_VERTICAL>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 origin_y() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 height() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: clip y  = " + std::to_string(decoded_values.origin_y()) + " height = " + std::to_string(decoded_values.height());
	}
};

template<>
struct registers_decoder<NV4097_SET_CLEAR_RECT_HORIZONTAL>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 origin_x() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 width() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Clear: rect x  = " + std::to_string(decoded_values.origin_x()) + " width = " + std::to_string(decoded_values.width());
	}
};

template<>
struct registers_decoder<NV4097_SET_CLEAR_RECT_VERTICAL>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 origin_y() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 height() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Clear: rect y  = " + std::to_string(decoded_values.origin_y()) + " height = " + std::to_string(decoded_values.height());
	}
};

template<>
struct registers_decoder< NV3089_CLIP_POINT>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 clip_x() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 clip_y() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Blit engine: clip x  = " + std::to_string(decoded_values.clip_x()) + " y = " + std::to_string(decoded_values.clip_y());
	}
};

template<>
struct registers_decoder<NV3089_CLIP_SIZE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 clip_width() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 clip_height() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Blit engine: clip width  = " + std::to_string(decoded_values.clip_width()) + " height = " + std::to_string(decoded_values.clip_height());
	}
};

template<>
struct registers_decoder<NV3089_IMAGE_OUT_POINT>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 x() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 y() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Blit engine: output x  = " + std::to_string(decoded_values.x()) + " y = " + std::to_string(decoded_values.y());
	}
};

template<>
struct registers_decoder<NV4097_SET_WINDOW_OFFSET>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 window_offset_x() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 window_offset_y() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Window: offset x  = " + std::to_string(decoded_values.window_offset_x()) + " y = " + std::to_string(decoded_values.window_offset_y());
	}
};


template<>
struct registers_decoder<NV3089_IMAGE_OUT_SIZE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 width() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 height() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Blit engine: output width  = " + std::to_string(decoded_values.width()) + " height = " + std::to_string(decoded_values.height());
	}
};

template<>
struct registers_decoder<NV3089_IMAGE_IN_SIZE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 width() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 height() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Blit engine: input width  = " + std::to_string(decoded_values.width()) + " height = " + std::to_string(decoded_values.height());
	}
};

template<>
struct registers_decoder<NV3062_SET_PITCH>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 alignment() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 pitch() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Blit engine: output alignment  = " + std::to_string(decoded_values.alignment()) + " pitch = " + std::to_string(decoded_values.pitch());
	}
};

template<>
struct registers_decoder< NV308A_POINT>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 x() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 y() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV308A: x  = " + std::to_string(decoded_values.x()) + " y = " + std::to_string(decoded_values.y());
	}
};

template<>
struct registers_decoder<NV4097_SET_VERTEX_ATTRIB_INPUT_MASK>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 mask() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		std::string result = "Transform program enabled inputs:";
		const std::string input_names[] =
		{
			"in_pos", "in_weight", "in_normal",
			"in_diff_color", "in_spec_color",
			"in_fog",
			"in_point_size", "in_7",
			"in_tc0", "in_tc1", "in_tc2", "in_tc3",
			"in_tc4", "in_tc5", "in_tc6", "in_tc7"
		};
		for (unsigned i = 0; i < 16; i++)
			if (decoded_values.mask() & (1 << i))
				result += input_names[i] + " ";
		return result;
	}
};

template<>
struct registers_decoder<NV4097_SET_FREQUENCY_DIVIDER_OPERATION>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 frequency_divider_operation_mask() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		std::string result = "Frequency divider: ";
		for (unsigned i = 0; i < 16; i++)
			if (decoded_values.frequency_divider_operation_mask() & (1 << i))
				result += std::to_string(i) + " ";
		return result;
	}
};

template<>
struct registers_decoder<NV4097_SET_DEPTH_TEST_ENABLE>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool depth_test_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Depth: test " + print_boolean(decoded_values.depth_test_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_DEPTH_MASK>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool depth_write_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Depth: write " + print_boolean(decoded_values.depth_write_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_ZMIN_MAX_CONTROL>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		bool depth_clip_enabled() const
		{
			return bf_decoder<0, 4, bool>(value);
		}

		bool depth_clamp_enabled() const
		{
			return bf_decoder<4, 4, bool>(value);
		}

		bool depth_clip_ignore_w() const
		{
			return bf_decoder<8, 4, bool>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Depth: clip_enabled " + print_boolean(decoded_values.depth_clip_enabled()) +
			" clamp " + print_boolean(decoded_values.depth_clamp_enabled()) +
			" ignore_w " + print_boolean(decoded_values.depth_clip_ignore_w());
	}
};

template<>
struct registers_decoder<NV4097_SET_ALPHA_TEST_ENABLE>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool alpha_test_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Alpha: test " + print_boolean(decoded_values.alpha_test_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_STENCIL_TEST_ENABLE>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool stencil_test_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Stencil: test " + print_boolean(decoded_values.stencil_test_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_RESTART_INDEX_ENABLE>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool restart_index_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Restart Index: " + print_boolean(decoded_values.restart_index_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_DEPTH_BOUNDS_TEST_ENABLE>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool depth_bound_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Depth: bound test " + print_boolean(decoded_values.depth_bound_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_LOGIC_OP_ENABLE>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool logic_op_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Logic: " + print_boolean(decoded_values.logic_op_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_DITHER_ENABLE>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool dither_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Dither: " + print_boolean(decoded_values.dither_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_BLEND_ENABLE>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool blend_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Blend: " + print_boolean(decoded_values.blend_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_LINE_SMOOTH_ENABLE>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool line_smooth_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Line: smooth " + print_boolean(decoded_values.line_smooth_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_POLY_OFFSET_POINT_ENABLE>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool poly_offset_point_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Polygon: offset point " + print_boolean(decoded_values.poly_offset_point_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_POLY_OFFSET_LINE_ENABLE>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool poly_offset_line_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Polygon: offset line " + print_boolean(decoded_values.poly_offset_line_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_POLY_OFFSET_FILL_ENABLE>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool poly_offset_fill_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Polygon: offset fill " + print_boolean(decoded_values.poly_offset_fill_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_CULL_FACE_ENABLE>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool cull_face_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Cull face: " + print_boolean(decoded_values.cull_face_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_POLY_SMOOTH_ENABLE>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool poly_smooth_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Polygon: smooth " + print_boolean(decoded_values.poly_smooth_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_TWO_SIDED_STENCIL_TEST_ENABLE>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool two_sided_stencil_test_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Stencil: per side " + print_boolean(decoded_values.two_sided_stencil_test_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_TWO_SIDE_LIGHT_EN>
{
	struct decoded_type
	{
	private:
		u32 enabled;

	public:
		decoded_type(u32 value) : enabled(value) {}

		bool two_sided_lighting_enabled() const
		{
			return bool(enabled);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Light: per side " + print_boolean(decoded_values.two_sided_lighting_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_DEPTH_BOUNDS_MIN>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 depth_bound_min() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Depth: bound min = " + std::to_string(decoded_values.depth_bound_min());
	}
};

template<>
struct registers_decoder<NV4097_SET_DEPTH_BOUNDS_MAX>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 depth_bound_max() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Depth: bound max = " + std::to_string(decoded_values.depth_bound_max());
	}
};

template<>
struct registers_decoder<NV4097_SET_FOG_PARAMS>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 fog_param_0() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Fog: param 0 = " + std::to_string(decoded_values.fog_param_0());
	}
};

template<>
struct registers_decoder<NV4097_SET_FOG_PARAMS + 1>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 fog_param_1() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Fog: param 1 = " + std::to_string(decoded_values.fog_param_1());
	}
};

template<>
struct registers_decoder<NV4097_SET_CLIP_MIN>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 clip_min() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Depth: clip min = " + std::to_string(decoded_values.clip_min());
	}
};

template<>
struct registers_decoder<NV4097_SET_CLIP_MAX>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 clip_max() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Depth: clip max = " + std::to_string(decoded_values.clip_max());
	}
};

template<>
struct registers_decoder<NV4097_SET_POLYGON_OFFSET_SCALE_FACTOR>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 polygon_offset_scale_factor() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Polygon: offset scale = " + std::to_string(decoded_values.polygon_offset_scale_factor());
	}
};

template<>
struct registers_decoder<NV4097_SET_POLYGON_OFFSET_BIAS>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 polygon_offset_scale_bias() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Polygon: offset bias = " + std::to_string(decoded_values.polygon_offset_scale_bias());
	}
};

template<>
struct registers_decoder<NV4097_SET_VIEWPORT_SCALE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 viewport_scale_x() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Viewport: scale x = " + std::to_string(decoded_values.viewport_scale_x());
	}
};

template<>
struct registers_decoder<NV4097_SET_VIEWPORT_SCALE + 1>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 viewport_scale_y() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Viewport: scale y = " + std::to_string(decoded_values.viewport_scale_y());
	}
};

template<>
struct registers_decoder<NV4097_SET_VIEWPORT_SCALE + 2>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 viewport_scale_z() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Viewport: scale z = " + std::to_string(decoded_values.viewport_scale_z());
	}
};

template<>
struct registers_decoder<NV4097_SET_VIEWPORT_SCALE + 3>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 viewport_scale_w() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Viewport: scale w = " + std::to_string(decoded_values.viewport_scale_w());
	}
};

template<>
struct registers_decoder<NV4097_SET_VIEWPORT_OFFSET>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 viewport_offset_x() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Viewport: offset x = " + std::to_string(decoded_values.viewport_offset_x());
	}
};

template<>
struct registers_decoder<NV4097_SET_VIEWPORT_OFFSET + 1>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 viewport_offset_y() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Viewport: offset y = " + std::to_string(decoded_values.viewport_offset_y());
	}
};

template<>
struct registers_decoder<NV4097_SET_VIEWPORT_OFFSET + 2>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 viewport_offset_z() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Viewport: offset z = " + std::to_string(decoded_values.viewport_offset_z());
	}
};

template<>
struct registers_decoder<NV4097_SET_VIEWPORT_OFFSET + 3>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 viewport_offset_w() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Viewport: offset w = " + std::to_string(decoded_values.viewport_offset_w());
	}
};

template<>
struct registers_decoder<NV4097_SET_RESTART_INDEX>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 restart_index() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Restart index: " + std::to_string(decoded_values.restart_index());
	}
};

template<>
struct registers_decoder<NV4097_SET_SURFACE_COLOR_AOFFSET>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 surface_a_offset() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: A offset " + std::to_string(decoded_values.surface_a_offset());
	}
};

template<>
struct registers_decoder<NV4097_SET_SURFACE_COLOR_BOFFSET>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 surface_b_offset() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: B offset " + std::to_string(decoded_values.surface_b_offset());
	}
};

template<>
struct registers_decoder<NV4097_SET_SURFACE_COLOR_COFFSET>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 surface_c_offset() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: C offset " + std::to_string(decoded_values.surface_c_offset());
	}
};

template<>
struct registers_decoder<NV4097_SET_SURFACE_COLOR_DOFFSET>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 surface_d_offset() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: D offset " + std::to_string(decoded_values.surface_d_offset());
	}
};

template<>
struct registers_decoder<NV4097_SET_SURFACE_PITCH_A>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 surface_a_pitch() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: A pitch " + std::to_string(decoded_values.surface_a_pitch());
	}
};

template<>
struct registers_decoder<NV4097_SET_SURFACE_PITCH_B>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 surface_b_pitch() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: B pitch " + std::to_string(decoded_values.surface_b_pitch());
	}
};

template<>
struct registers_decoder<NV4097_SET_SURFACE_PITCH_C>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 surface_c_pitch() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: C pitch " + std::to_string(decoded_values.surface_c_pitch());
	}
};

template<>
struct registers_decoder<NV4097_SET_SURFACE_PITCH_D>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 surface_d_pitch() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: D pitch " + std::to_string(decoded_values.surface_d_pitch());
	}
};

template<>
struct registers_decoder<NV4097_SET_SURFACE_ZETA_OFFSET>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 surface_z_offset() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: Z offset " + std::to_string(decoded_values.surface_z_offset());
	}
};

template<>
struct registers_decoder<NV4097_SET_SURFACE_PITCH_Z>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 surface_z_pitch() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: Z pitch " + std::to_string(decoded_values.surface_z_pitch());
	}
};

template<>
struct registers_decoder<NV4097_SET_VERTEX_ATTRIB_OUTPUT_MASK>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 output_mask() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		const std::string output_names[] =
		{
			"diffuse_color",
			"specular_color",
			"back_diffuse_color",
			"back_specular_color",
			"fog",
			"point_size",
			"clip_distance[0]",
			"clip_distance[1]",
			"clip_distance[2]",
			"clip_distance[3]",
			"clip_distance[4]",
			"clip_distance[5]",
			"tc8",
			"tc9",
			"tc0",
			"tc1",
			"tc2",
			"tc3",
			"tc4",
			"tc5",
			"tc6",
			"tc7"
		};
		std::string result = "Transform program outputs:";
		for (unsigned i = 0; i < 22; i++)
			if (decoded_values.output_mask() & (1 << i))
				result += output_names[i] + " ";
		return result;
	}
};

template<>
struct registers_decoder<NV4097_SET_SHADER_CONTROL>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 shader_ctrl() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Shader control: raw_value =" + std::to_string(decoded_values.shader_ctrl()) +
			" reg_count = " + std::to_string((decoded_values.shader_ctrl() >> 24) & 0xFF) +
			((decoded_values.shader_ctrl() & CELL_GCM_SHADER_CONTROL_DEPTH_EXPORT) ? " depth_replace " : "") +
			((decoded_values.shader_ctrl() & CELL_GCM_SHADER_CONTROL_32_BITS_EXPORTS) ? " 32b_exports " : "");
	}
};

template<>
struct registers_decoder<NV4097_SET_SHADER_PACKER>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		bool srgb_output_enabled() const
		{
			return !!value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Shader packer control: srgb_enabled = " + std::to_string(decoded_values.srgb_output_enabled());
	}
};

template<>
struct registers_decoder<NV4097_SET_VERTEX_DATA_BASE_OFFSET>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 vertex_data_base_offset() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Vertex: base offset " + std::to_string(decoded_values.vertex_data_base_offset());
	}
};

template<>
struct registers_decoder<NV4097_SET_INDEX_ARRAY_ADDRESS>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 index_array_offset() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Index: array offset " + std::to_string(decoded_values.index_array_offset());
	}
};

template<>
struct registers_decoder<NV4097_SET_VERTEX_DATA_BASE_INDEX>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 vertex_data_base_index() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Vertex: base index " + std::to_string(decoded_values.vertex_data_base_index());
	}
};

template<>
struct registers_decoder<NV4097_SET_SHADER_PROGRAM>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 shader_program_address() const
		{
			return bf_decoder<0, 31>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Shader: program offset = " + std::to_string(decoded_values.shader_program_address());
	}
};

template<>
struct registers_decoder<NV4097_SET_TRANSFORM_PROGRAM_START>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 transform_program_start() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Transform program: start = " + std::to_string(decoded_values.transform_program_start());
	}
};

template<>
struct registers_decoder<NV406E_SET_CONTEXT_DMA_SEMAPHORE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 context_dma() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV406E semaphore: context = " + std::to_string(decoded_values.context_dma());
	}
};


template<>
struct registers_decoder<NV406E_SEMAPHORE_OFFSET>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 semaphore_offset() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV406E semaphore: offset = " + std::to_string(decoded_values.semaphore_offset());
	}
};

template<>
struct registers_decoder<NV4097_SET_CONTEXT_DMA_SEMAPHORE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 context_dma() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV4097 semaphore: context = " + std::to_string(decoded_values.context_dma());
	}
};

template<>
struct registers_decoder<NV4097_SET_SEMAPHORE_OFFSET>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 semaphore_offset() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "semaphore: offset = " + std::to_string(decoded_values.semaphore_offset());
	}
};

template<>
struct registers_decoder<NV3089_IMAGE_IN_OFFSET>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 input_offset() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV3089: input offset = " + std::to_string(decoded_values.input_offset());
	}
};

template<>
struct registers_decoder<NV3062_SET_OFFSET_DESTIN>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 output_offset() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV3062: output offset = " + std::to_string(decoded_values.output_offset());
	}
};

template<>
struct registers_decoder<NV309E_SET_OFFSET>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 offset() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV309E: offset = " + std::to_string(decoded_values.offset());
	}
};

template<>
struct registers_decoder<NV3089_DS_DX>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		// Convert signed fixed point 32-bit format
		f32 ds_dx() const
		{
			const u32 val = value;

			if ((val & ~(1<<31)) == 0)
			{
				return 0;
			}

			if ((s32)val < 0)
			{
				return 1.f / (((val & ~(1<<31)) / 1048576.f) - 2048.f);
			}

			return 1048576.f / val;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV3089: dsdx = " + std::to_string(decoded_values.ds_dx());
	}
};

template<>
struct registers_decoder<NV3089_DT_DY>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		// Convert signed fixed point 32-bit format
		f32 dt_dy() const
		{
		    const u32 val = value;

			if ((val & ~(1<<31)) == 0)
			{
				return 0;
			}

			if ((s32)val < 0)
			{
				return 1.f / (((val & ~(1<<31)) / 1048576.f) - 2048.f);
			}

			return 1048576.f / val;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV3089: dtdy = " + std::to_string(decoded_values.dt_dy());
	}
};

template<>
struct registers_decoder<NV0039_PITCH_IN>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 input_pitch() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV0039: input pitch = " + std::to_string(decoded_values.input_pitch());
	}
};

template<>
struct registers_decoder<NV0039_PITCH_OUT>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 output_pitch() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV0039: output pitch = " + std::to_string(decoded_values.output_pitch());
	}
};

template<>
struct registers_decoder<NV0039_LINE_LENGTH_IN>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 input_line_length() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV0039: line length input = " + std::to_string(decoded_values.input_line_length());
	}
};

template<>
struct registers_decoder<NV0039_LINE_COUNT>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 line_count() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV0039: line count = " + std::to_string(decoded_values.line_count());
	}
};

template<>
struct registers_decoder<NV0039_OFFSET_OUT>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 output_offset() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV0039: output offset = " + std::to_string(decoded_values.output_offset());
	}
};

template<>
struct registers_decoder<NV0039_OFFSET_IN>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 input_offset() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV0039: input offset = " + std::to_string(decoded_values.input_offset());
	}
};

template<>
struct registers_decoder<NV4097_SET_DEPTH_FUNC>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		rsx::comparison_function depth_func() const
		{
			return to_comparison_function(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Depth: compare_function = " + to_string(decoded_values.depth_func());
	}
};

template<>
struct registers_decoder<NV4097_SET_STENCIL_FUNC>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		rsx::comparison_function stencil_func() const
		{
			return to_comparison_function(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Stencil: (front) compare_function = " + to_string(decoded_values.stencil_func());
	}
};

template<>
struct registers_decoder<NV4097_SET_BACK_STENCIL_FUNC>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		rsx::comparison_function back_stencil_func() const
		{
			return to_comparison_function(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Stencil: back compare_function = " + to_string(decoded_values.back_stencil_func());
	}
};

template<>
struct registers_decoder<NV4097_SET_ALPHA_FUNC>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		rsx::comparison_function alpha_func() const
		{
			return to_comparison_function(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Alpha: compare_function = " + to_string(decoded_values.alpha_func());
	}
};

template<>
struct registers_decoder<NV4097_SET_STENCIL_OP_FAIL>
{
	struct decoded_type
	{
	private:
		u32 value;
	
	public:
		decoded_type(u32 value) : value(value) {}

		rsx::stencil_op fail() const
		{
			return to_stencil_op(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Stencil: (front) fail op = " + to_string(decoded_values.fail());
	}
};

template<>
struct registers_decoder<NV4097_SET_STENCIL_OP_ZFAIL>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		rsx::stencil_op zfail() const
		{
			return to_stencil_op(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Stencil: (front) zfail op = " + to_string(decoded_values.zfail());
	}
};

template<>
struct registers_decoder<NV4097_SET_STENCIL_OP_ZPASS>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		rsx::stencil_op zpass() const
		{
			return to_stencil_op(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Stencil: (front) zpass op = " + to_string(decoded_values.zpass());
	}
};

template<>
struct registers_decoder<NV4097_SET_BACK_STENCIL_OP_FAIL>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		rsx::stencil_op back_fail() const
		{
			return to_stencil_op(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Stencil: (back) fail op = " + to_string(decoded_values.back_fail());
	}
};

template<>
struct registers_decoder<NV4097_SET_BACK_STENCIL_OP_ZFAIL>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		rsx::stencil_op back_zfail() const
		{
			return to_stencil_op(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Stencil: (back) zfail op = " + to_string(decoded_values.back_zfail());
	}
};

template<>
struct registers_decoder<NV4097_SET_BACK_STENCIL_OP_ZPASS>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		rsx::stencil_op back_zpass() const
		{
			return to_stencil_op(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Stencil: (back) zpass op = " + to_string(decoded_values.back_zpass());
	}
};

template<>
struct registers_decoder<NV4097_SET_STENCIL_FUNC_REF>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u8 stencil_func_ref() const
		{
			return bf_decoder<0, 8>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Stencil: (front) func ref = " + std::to_string(decoded_values.stencil_func_ref());
	}
};

template<>
struct registers_decoder<NV4097_SET_BACK_STENCIL_FUNC_REF>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u8 back_stencil_func_ref() const
		{
			return bf_decoder<0, 8>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Stencil: (back) func ref = " + std::to_string(decoded_values.back_stencil_func_ref());
	}
};

template<>
struct registers_decoder<NV4097_SET_STENCIL_FUNC_MASK>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u8 stencil_func_mask() const 
		{
			return bf_decoder<0, 8>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Stencil: (front) func mask = " + std::to_string(decoded_values.stencil_func_mask());
	}
};

template<>
struct registers_decoder<NV4097_SET_BACK_STENCIL_FUNC_MASK>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u8 back_stencil_func_mask() const 
		{
			return bf_decoder<0, 8>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Stencil: (back) func mask = " + std::to_string(decoded_values.back_stencil_func_mask());
	}
};

template<>
struct registers_decoder<NV4097_SET_ALPHA_REF>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u8 alpha_ref() const
		{
			return bf_decoder<0, 8>(value); 
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Alpha: ref = " + std::to_string(decoded_values.alpha_ref());
	}
};

template<>
struct registers_decoder<NV4097_SET_COLOR_CLEAR_VALUE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u8 blue() const { return bf_decoder<0, 8>(value); }
		u8 green() const { return bf_decoder<8, 8>(value); }
		u8 red() const { return bf_decoder<16, 8>(value); }
		u8 alpha() const { return bf_decoder<24, 8>(value); }
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Clear: R = " + std::to_string(decoded_values.red()) +
			" G = " + std::to_string(decoded_values.green()) +
			" B = " + std::to_string(decoded_values.blue()) +
			" A = " + std::to_string(decoded_values.alpha());
	}
};

template<>
struct registers_decoder<NV4097_SET_STENCIL_MASK>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u8 stencil_mask() const
		{
			return bf_decoder<0, 8>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Stencil: (front) mask = " + std::to_string(decoded_values.stencil_mask());
	}
};

template<>
struct registers_decoder<NV4097_SET_BACK_STENCIL_MASK>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u8 back_stencil_mask() const
		{
			return bf_decoder<0, 8>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Stencil: (back) mask = " + std::to_string(decoded_values.back_stencil_mask());
	}
};

template<>
struct registers_decoder<NV4097_SET_LOGIC_OP>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		logic_op logic_operation() const
		{
			return to_logic_op(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Logic: op = " + to_string(decoded_values.logic_operation());
	}
};

template<>
struct registers_decoder<NV4097_SET_FRONT_FACE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		front_face front_face_mode() const
		{
			return to_front_face(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Front Face: " + to_string(decoded_values.front_face_mode());
	}
};


template<>
struct registers_decoder<NV4097_SET_CULL_FACE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		cull_face cull_face_mode() const
		{
			return static_cast<cull_face>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Cull Face: " + to_string(decoded_values.cull_face_mode());
	}
};

template<>
struct registers_decoder<NV4097_SET_SURFACE_COLOR_TARGET>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		surface_target target() const
		{
			return to_surface_target(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: Color target(s) = " + to_string(decoded_values.target());
	}
};

template<>
struct registers_decoder<NV4097_SET_FOG_MODE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		fog_mode fog_equation() const
		{
			return to_fog_mode(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Fog: " + to_string(decoded_values.fog_equation());
	}
};

template<>
struct registers_decoder<NV4097_SET_BEGIN_END>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		primitive_type primitive() const
		{
			return to_primitive_type(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "-- " + to_string(decoded_values.primitive()) + " --";
	}
};

template<>
struct registers_decoder<NV3089_SET_OPERATION>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		blit_engine::transfer_operation transfer_op() const
		{
			return blit_engine::to_transfer_operation(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV3089: op = " + to_string(decoded_values.transfer_op());
	}
};

template<>
struct registers_decoder<NV3089_SET_COLOR_FORMAT>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		blit_engine::transfer_source_format transfer_source_fmt() const
		{
			return blit_engine::to_transfer_source_format(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV3089: source fmt = " + to_string(decoded_values.transfer_source_fmt());
	}
};

template<>
struct registers_decoder<NV3089_SET_CONTEXT_SURFACE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		blit_engine::context_surface ctx_surface() const
		{
			return blit_engine::to_context_surface(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV3089: context surface = " + to_string(decoded_values.ctx_surface());
	}
};

template<>
struct registers_decoder<NV3062_SET_COLOR_FORMAT>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		blit_engine::transfer_destination_format transfer_dest_fmt() const
		{
			return blit_engine::to_transfer_destination_format(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV3062: output fmt = " + to_string(decoded_values.transfer_dest_fmt());
	}
};

template<>
struct registers_decoder<NV4097_SET_BLEND_EQUATION>
{
	struct decoded_type
	{
	private:
		u32 value;

		u16 blend_rgb_raw() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 blend_a_raw() const
		{
			return bf_decoder<16, 16>(value);
		}
	public:
		decoded_type(u32 value) : value(value) {}

		blend_equation blend_rgb() const
		{
			return to_blend_equation(blend_rgb_raw());
		}

		blend_equation blend_a() const
		{
			return to_blend_equation(blend_a_raw());
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Blend: equation rgb = " + to_string(decoded_values.blend_rgb()) +
			" a = " + to_string(decoded_values.blend_a());
	}
};

template<>
struct registers_decoder<NV4097_SET_BLEND_FUNC_SFACTOR>
{
	struct decoded_type
	{
	private:
		u32 value;
		
		u16 src_blend_rgb_raw() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 src_blend_a_raw() const
		{
			return bf_decoder<16, 16>(value);
		}
	public:
		decoded_type(u32 value) : value(value) {}

		blend_factor src_blend_rgb() const
		{
			return to_blend_factor(src_blend_rgb_raw());
		}

		blend_factor src_blend_a() const
		{
			return to_blend_factor(src_blend_a_raw());
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Blend: sfactor rgb = " + to_string(decoded_values.src_blend_rgb()) +
			" a = " + to_string(decoded_values.src_blend_a());
	}
};

template<>
struct registers_decoder<NV4097_SET_BLEND_FUNC_DFACTOR>
{
	struct decoded_type
	{
	private:
		u32 value;
		
		u16 dst_blend_rgb_raw() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 dst_blend_a_raw() const
		{
			return bf_decoder<16, 16>(value);
		}
	public:
		decoded_type(u32 value) : value(value) {}

		blend_factor dst_blend_rgb() const
		{
			return to_blend_factor(dst_blend_rgb_raw());
		}

		blend_factor dst_blend_a() const
		{
			return to_blend_factor(dst_blend_a_raw());
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Blend: dfactor rgb = " + to_string(decoded_values.dst_blend_rgb()) +
			" a = " + to_string(decoded_values.dst_blend_a());
	}
};

template<>
struct registers_decoder<NV4097_SET_COLOR_MASK>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		bool color_b() const
		{
			return bf_decoder<0, 8, bool>(value);
		}

		bool color_g() const
		{
			return bf_decoder<8, 8, bool>(value);
		}

		bool color_r() const
		{
			return bf_decoder<16, 8, bool>(value);
		}

		bool color_a() const
		{
			return bf_decoder<24, 8, bool>(value);
		}

		bool color_write_enabled() const
		{
			return value != 0;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: color mask A = " + print_boolean(decoded_values.color_a()) +
			" R = " + print_boolean(decoded_values.color_r()) +
			" G = " + print_boolean(decoded_values.color_g()) +
			" B = " + print_boolean(decoded_values.color_b());
	}
};

template<>
struct registers_decoder<NV4097_SET_SHADER_WINDOW>
{
	struct decoded_type
	{
	private:
		u32 value;

		u8 window_shader_origin_raw() const { return bf_decoder<12, 4>(value); }
		u8 window_shader_pixel_center_raw() const { return bf_decoder<16, 4>(value); }

	public:
		decoded_type(u32 value) : value(value) {}

		window_origin window_shader_origin() const
		{
			return to_window_origin(window_shader_origin_raw());
		}

		window_pixel_center window_shader_pixel_center() const
		{
			return to_window_pixel_center(window_shader_pixel_center_raw());
		}

		u16 window_shader_height() const
		{
			return bf_decoder<0, 12>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Viewport: height = " + std::to_string(decoded_values.window_shader_height()) +
			" origin = " + to_string(decoded_values.window_shader_origin()) +
			" pixel center = " + to_string(decoded_values.window_shader_pixel_center());
	}
};

template<>
struct registers_decoder<NV4097_SET_BLEND_ENABLE_MRT>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		bool blend_surface_b() const
		{
			return bf_decoder<1, 1, bool>(value);
		}

		bool blend_surface_c() const
		{
			return bf_decoder<2, 1, bool>(value);
		}

		bool blend_surface_d() const
		{
			return bf_decoder<3, 1, bool>(value);
		}
	};

	static std::string dump(decoded_type&& decoded_values)
	{
		return "Blend: mrt1 = " + print_boolean(decoded_values.blend_surface_b()) +
			" mrt2 = " + print_boolean(decoded_values.blend_surface_c()) +
			" mrt3 = " + print_boolean(decoded_values.blend_surface_d());
	}
};

template<>
struct registers_decoder<NV4097_SET_USER_CLIP_PLANE_CONTROL>
{

	struct decoded_type
	{
	private:
		u32 value;

		u8 clip_plane0_raw() const { return bf_decoder<0, 4>(value); }
		u8 clip_plane1_raw() const { return bf_decoder<4, 4>(value); }
		u8 clip_plane2_raw() const { return bf_decoder<8, 4>(value); }
		u8 clip_plane3_raw() const { return bf_decoder<12, 4>(value); }
		u8 clip_plane4_raw() const { return bf_decoder<16, 4>(value); }
		u8 clip_plane5_raw() const { return bf_decoder<20, 4>(value); }

	public:
		decoded_type(u32 value) : value(value) {}

		user_clip_plane_op clip_plane0() const
		{
			return to_user_clip_plane_op(clip_plane0_raw());
		}

		user_clip_plane_op clip_plane1() const
		{
			return to_user_clip_plane_op(clip_plane1_raw());
		}

		user_clip_plane_op clip_plane2() const
		{
			return to_user_clip_plane_op(clip_plane2_raw());
		}

		user_clip_plane_op clip_plane3() const
		{
			return to_user_clip_plane_op(clip_plane3_raw());
		}

		user_clip_plane_op clip_plane4() const
		{
			return to_user_clip_plane_op(clip_plane4_raw());
		}

		user_clip_plane_op clip_plane5() const
		{
			return to_user_clip_plane_op(clip_plane5_raw());
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "User clip: UC0 = " + to_string(decoded_values.clip_plane0()) +
			" UC1 = " + to_string(decoded_values.clip_plane1()) +
			" UC2 = " + to_string(decoded_values.clip_plane2()) +
			" UC2 = " + to_string(decoded_values.clip_plane3()) +
			" UC2 = " + to_string(decoded_values.clip_plane4()) +
			" UC2 = " + to_string(decoded_values.clip_plane5());
	}
};

template<>
struct registers_decoder<NV4097_SET_LINE_WIDTH>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 line_width() const
		{
			return (value >> 3) + (value & 7) / 8.f;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Line width: " + std::to_string(decoded_values.line_width());
	}
};

template<>
struct registers_decoder<NV4097_SET_POINT_SIZE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 point_size() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Point size: " + std::to_string(decoded_values.point_size());
	}
};

template<>
struct registers_decoder<NV4097_SET_SURFACE_FORMAT>
{
	struct decoded_type
	{
	private:
		u32 value;

		u8 color_fmt_raw() const { return bf_decoder<0, 5>(value); }
		u8 depth_fmt_raw() const { return bf_decoder<5, 3>(value); }
		u8 type_raw() const { return bf_decoder<8, 4>(value); }
		u8 antialias_raw() const { return bf_decoder<12, 4>(value); }

	public:
		decoded_type(u32 value) : value(value) {}

		surface_color_format color_fmt() const
		{
			return to_surface_color_format(color_fmt_raw());
		}

		surface_depth_format depth_fmt() const
		{
			return to_surface_depth_format(depth_fmt_raw());
		}

		surface_raster_type type() const
		{
			return static_cast<surface_raster_type>(type_raw());
		}

		surface_antialiasing antialias() const
		{
			return to_surface_antialiasing(antialias_raw());
		}

		u8 log2width() const
		{
			return bf_decoder<16, 8>(value);
		}

		u8 log2height() const
		{
			return bf_decoder<24, 8>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: Color format = " + to_string(decoded_values.color_fmt()) +
			" DepthStencil format = " + to_string(decoded_values.depth_fmt()) +
			" Anti aliasing =" + to_string(decoded_values.antialias()) +
			" w = " + std::to_string(decoded_values.log2width()) +
			" h = " + std::to_string(decoded_values.log2height());
	}
};

template<>
struct registers_decoder<NV4097_SET_ZSTENCIL_CLEAR_VALUE>
{
	struct decoded_type
	{
	private:
		u32 value;

		u32 clear_z16() const { return bf_decoder<0, 16, u32>(value); }
		u32 clear_z24() const { return bf_decoder<8, 24>(value); }

	public:
		decoded_type(u32 value) : value(value) {}

		u8 clear_stencil() const
		{
			return bf_decoder<0, 8>(value);
		}

		u32 clear_z(bool is_depth_stencil) const
		{
			if (is_depth_stencil)
				return clear_z24();

			return clear_z16();
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Clear: Z24 = " + std::to_string(decoded_values.clear_z(true)) +
			" z16 = " + std::to_string(decoded_values.clear_z(false)) +
			" Stencil = " + std::to_string(decoded_values.clear_stencil());
	}
};

template<>
struct registers_decoder<NV4097_SET_INDEX_ARRAY_DMA>
{
	struct decoded_type
	{
	private:
		u32 value;

		u32 type_raw() const { return bf_decoder<4, 28>(value); }

	public:
		decoded_type(u32 value) : value(value) {}

		u8 index_dma() const
		{
			return bf_decoder<0, 4>(value);
		}

		index_array_type type() const
		{
			// Why truncate??
			return to_index_array_type(static_cast<u8>(type_raw()));
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Index: type = " + to_string(decoded_values.type()) +
			" dma = " + std::to_string(decoded_values.index_dma());
	}
};

template<>
struct registers_decoder<NV4097_SET_CONTEXT_DMA_COLOR_A>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 dma_surface_a() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: A DMA = " + std::to_string(decoded_values.dma_surface_a());
	}
};

template<>
struct registers_decoder<NV4097_SET_CONTEXT_DMA_COLOR_B>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 dma_surface_b() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: B DMA = " + std::to_string(decoded_values.dma_surface_b());
	}
};

template<>
struct registers_decoder<NV4097_SET_CONTEXT_DMA_COLOR_C>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 dma_surface_c() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: C DMA = " + std::to_string(decoded_values.dma_surface_c());
	}
};

template<>
struct registers_decoder<NV4097_SET_CONTEXT_DMA_COLOR_D>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 dma_surface_d() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: D DMA = " + std::to_string(decoded_values.dma_surface_d());
	}
};

template<>
struct registers_decoder<NV4097_SET_CONTEXT_DMA_ZETA>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 dma_surface_z() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Surface: Z DMA = " + std::to_string(decoded_values.dma_surface_z());
	}
};

template<>
struct registers_decoder<NV3089_SET_CONTEXT_DMA_IMAGE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 context_dma() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV3089: input DMA = " + std::to_string(decoded_values.context_dma());
	}
};

template<>
struct registers_decoder<NV3062_SET_CONTEXT_DMA_IMAGE_DESTIN>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 output_dma() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV3062: output DMA = " + std::to_string(decoded_values.output_dma());
	}
};

template<>
struct registers_decoder<NV309E_SET_CONTEXT_DMA_IMAGE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 context_dma() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV309E: output DMA = " + std::to_string(decoded_values.context_dma());
	}
};

template<>
struct registers_decoder<NV0039_SET_CONTEXT_DMA_BUFFER_OUT>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 output_dma() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV0039: output DMA = " + std::to_string(decoded_values.output_dma());
	}
};

template<>
struct registers_decoder<NV0039_SET_CONTEXT_DMA_BUFFER_IN>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 input_dma() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV0039: input DMA = " + std::to_string(decoded_values.input_dma());
	}
};

template<>
struct registers_decoder<NV4097_SET_CONTEXT_DMA_REPORT>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		blit_engine::context_dma context_dma_report() const
		{
			return blit_engine::to_context_dma(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Report: context DMA = " + to_string(decoded_values.context_dma_report());
	}
};

template<>
struct registers_decoder<NV4097_SET_CONTEXT_DMA_NOTIFIES>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 context_dma_notify() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return fmt::format("NOTIFY: context DMA = 0x%x, index=%d", decoded_values.context_dma_notify(), (decoded_values.context_dma_notify() & 7) ^ 7);
	}
};

template<>
struct registers_decoder<NV3089_IMAGE_IN_FORMAT>
{
	struct decoded_type
	{
	private:
		u32 value;

		u8 transfer_origin_raw() const { return bf_decoder<16, 8>(value); }
		u8 transfer_interpolator_raw() const { return bf_decoder<24, 8>(value); }

	public:
		decoded_type(u32 value) : value(value) {}

		u16 format() const
		{
			return bf_decoder<0, 16>(value);
		}

		blit_engine::transfer_origin transfer_origin() const
		{
			return blit_engine::to_transfer_origin(transfer_origin_raw());
		}

		blit_engine::transfer_interpolator transfer_interpolator() const
		{
			return blit_engine::to_transfer_interpolator(transfer_interpolator_raw());
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV3089: input fmt " + std::to_string(decoded_values.format()) +
			" origin = " + to_string(decoded_values.transfer_origin()) +
			" interp = " + to_string(decoded_values.transfer_interpolator());
	}
};

template<>
struct registers_decoder<NV309E_SET_FORMAT>
{
	struct decoded_type
	{
	private:
		u32 value;

		u32 transfer_destination_fmt() const { return bf_decoder<0, 16, u32>(value); }
	public:
		decoded_type(u32 value) : value(value) {}

		blit_engine::transfer_destination_format format() const
		{
			// Why truncate??
			return blit_engine::to_transfer_destination_format(static_cast<u8>(transfer_destination_fmt()));
		}

		u8 sw_height_log2() const
		{
			return bf_decoder<16, 8>(value);
		}

		u8 sw_width_log2() const
		{
			return bf_decoder<24, 8>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV309E: output fmt = " + to_string(decoded_values.format()) +
			" log2-width = " + std::to_string(decoded_values.sw_width_log2()) +
			" log2-height = " + std::to_string(decoded_values.sw_height_log2());
	}
};

template<>
struct registers_decoder<NV0039_FORMAT>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u8 input_format() const
		{
			return bf_decoder<0, 8>(value);
		}

		u8 output_format() const
		{
			return bf_decoder<8, 8>(value);
		}
	};

	static auto decode(u32 value) {
		return std::make_tuple(static_cast<u8>(value & 0xff), static_cast<u8>(value >> 8));
	}

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV0039: input format = " + std::to_string(decoded_values.input_format()) +
			" output format = " + std::to_string(decoded_values.output_format());
	}
};

template<>
struct registers_decoder<NV4097_SET_BLEND_COLOR2>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 blue() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 alpha() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Blend color: 16b BA = " + std::to_string(decoded_values.blue()) +
			", " + std::to_string(decoded_values.alpha());
	}
};

template<>
struct registers_decoder<NV4097_SET_BLEND_COLOR>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u16 red16() const
		{
			return bf_decoder<0, 16>(value);
		}

		u16 green16() const
		{
			return bf_decoder<16, 16>(value);
		}

		u8 blue8() const
		{
			return bf_decoder<0, 8>(value);
		}

		u8 green8() const
		{
			return bf_decoder<8, 8>(value);
		}

		u8 red8() const
		{
			return bf_decoder<16, 8>(value);
		}

		u8 alpha8() const
		{
			return bf_decoder<24, 8>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Blend color: 8b RGBA = " +
			std::to_string(decoded_values.red8()) + ", " + std::to_string(decoded_values.green8()) + ", " + std::to_string(decoded_values.blue8()) + ", " + std::to_string(decoded_values.alpha8()) +
			" 16b RG = " + std::to_string(decoded_values.red16()) + ", " + std::to_string(decoded_values.green16());
	}
};

template<>
struct registers_decoder<NV3089_IMAGE_IN>
{
	struct decoded_type
	{
	private:
		u32 value;

		u32 x_raw() const
		{
			return bf_decoder<0, 16, u32>(value);
		}

		u32 y_raw() const
		{
			return bf_decoder<16, 16, u32>(value);
		}
	
	public:
		decoded_type(u32 value) : value(value) {}

		// x and y given as 16 bit fixed point

		f32 x() const
		{
			return x_raw() / 16.f;
		}

		f32 y() const
		{
			return y_raw() / 16.f;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "NV3089: in x = " + std::to_string(decoded_values.x()) +
			" y = " + std::to_string(decoded_values.y());
	}
};

template<>
struct registers_decoder<NV4097_NO_OPERATION>
{
	struct decoded_type
	{
		decoded_type(u32) {}
	};

	static std::string dump(u32 &&)
	{
		return "(nop)";
	}
};

template<>
struct registers_decoder<NV4097_INVALIDATE_VERTEX_CACHE_FILE>
{
	struct decoded_type
	{
		decoded_type(u32) {}
	};

	static std::string dump(u32 &&)
	{
		return "(invalidate vertex cache file)";
	}
};

template<>
struct registers_decoder<NV4097_INVALIDATE_VERTEX_FILE>
{
	struct decoded_type
	{
		decoded_type(u32) {}
	};

	static std::string dump(u32 &&)
	{
		return "(invalidate vertex file)";
	}
};

template<>
struct registers_decoder<NV4097_SET_ANTI_ALIASING_CONTROL>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		bool msaa_enabled() const
		{
			return bf_decoder<0, 1, bool>(value);
		}

		bool msaa_alpha_to_coverage() const
		{
			return bf_decoder<4, 1, bool>(value);
		}

		bool msaa_alpha_to_one() const
		{
			return bf_decoder<8, 1, bool>(value);
		}

		u16 msaa_sample_mask() const
		{
			return bf_decoder<16, 16>(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Anti_aliasing: " + print_boolean(decoded_values.msaa_enabled()) +
			" alpha_to_coverage = " + print_boolean(decoded_values.msaa_alpha_to_coverage()) +
			" alpha_to_one = " + print_boolean(decoded_values.msaa_alpha_to_one()) +
			" sample_mask = " + std::to_string(decoded_values.msaa_sample_mask());
	}
};

template<>
struct registers_decoder<NV4097_SET_SHADE_MODE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		shading_mode shading() const
		{
			return to_shading_mode(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Shading mode: " + to_string(decoded_values.shading());
	}
};

template<>
struct registers_decoder<NV4097_SET_FRONT_POLYGON_MODE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		polygon_mode front_polygon_mode() const
		{
			return to_polygon_mode(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Front polygon mode: " + to_string(decoded_values.front_polygon_mode());
	}
};

template<>
struct registers_decoder<NV4097_SET_BACK_POLYGON_MODE>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		polygon_mode back_polygon_mode() const
		{
			return to_polygon_mode(value);
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "back polygon mode: " + to_string(decoded_values.back_polygon_mode());
	}
};

template<>
struct registers_decoder<NV4097_SET_TRANSFORM_CONSTANT_LOAD>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 transform_constant_load() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Set transform constant pointer at " + std::to_string(decoded_values.transform_constant_load());
	}
};

#define EXPAND_RANGE_1(index, MACRO) \
	MACRO(index)

#define EXPAND_RANGE_2(index, MACRO) \
	EXPAND_RANGE_1((index), MACRO) \
	EXPAND_RANGE_1((index) + 1, MACRO)

#define EXPAND_RANGE_4(index, MACRO) \
	EXPAND_RANGE_2((index), MACRO) \
	EXPAND_RANGE_2((index) + 2, MACRO)

#define EXPAND_RANGE_8(index, MACRO) \
	EXPAND_RANGE_4((index), MACRO) \
	EXPAND_RANGE_4((index) + 4, MACRO)

#define EXPAND_RANGE_16(index, MACRO) \
	EXPAND_RANGE_8((index), MACRO) \
	EXPAND_RANGE_8((index) + 8, MACRO)

#define EXPAND_RANGE_32(index, MACRO) \
	EXPAND_RANGE_16((index), MACRO) \
	EXPAND_RANGE_16((index) + 16, MACRO)

#define EXPAND_RANGE_64(index, MACRO) \
	EXPAND_RANGE_32((index), MACRO) \
	EXPAND_RANGE_32((index) + 32, MACRO)

#define EXPAND_RANGE_128(index, MACRO) \
	EXPAND_RANGE_64((index), MACRO) \
	EXPAND_RANGE_64((index) + 64, MACRO)

#define EXPAND_RANGE_256(index, MACRO) \
	EXPAND_RANGE_128((index), MACRO) \
	EXPAND_RANGE_128((index) + 128, MACRO)

#define EXPAND_RANGE_512(index, MACRO) \
	EXPAND_RANGE_256((index), MACRO) \
	EXPAND_RANGE_256((index) + 256, MACRO)

template<u32 index>
struct transform_constant_helper
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		f32 constant_value() const
		{
			return std::bit_cast<f32>(value);
		}
	};

	static constexpr u32 reg = index / 4;
	static constexpr u8 subreg = index % 4;

	static std::string dump(decoded_type &&decoded_values)
	{
		return "TransformConstant[base + " + std::to_string(reg) + "]." + get_subreg_name(subreg) + " = " + std::to_string(decoded_values.constant_value());
	}
};

#define TRANSFORM_CONSTANT(index) template<> struct registers_decoder<NV4097_SET_TRANSFORM_CONSTANT + index> : public transform_constant_helper<index> {};
#define DECLARE_TRANSFORM_CONSTANT(index) NV4097_SET_TRANSFORM_CONSTANT + index,

EXPAND_RANGE_32(0, TRANSFORM_CONSTANT)

template<u32 index>
struct transform_program_helper
{
	struct decoded_type
	{
		const u32 value;

		decoded_type(u32 value) : value(value) {}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Transform Program (" + std::to_string(index) + "):"+ std::to_string(decoded_values.value);
	}
};

template<>
struct registers_decoder<NV4097_SET_TRANSFORM_PROGRAM_LOAD>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 transform_program_load() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Transform Program pointer :" + std::to_string(decoded_values.transform_program_load());
	}
};

template <>
struct registers_decoder<NV4097_DRAW_ARRAYS>
{
	struct decoded_type
	{
	private:
		u32 value;

		u16 count_raw() const
		{
			return bf_decoder<24, 8>(value);
		}

	public:
		decoded_type(u32 value) : value(value) {}

		u32 start() const
		{
			return bf_decoder<0, 24>(value);
		}

		u16 count() const
		{
			return count_raw() + 1;
		}
	};

	static std::string dump(decoded_type&& decoded_values)
	{
		return "Draw vertexes range [" + std::to_string(decoded_values.start()) + ", " +
			      std::to_string(decoded_values.start() + decoded_values.count()) + "]";
	}
};

template <>
struct registers_decoder<NV4097_DRAW_INDEX_ARRAY>
{
	struct decoded_type
	{
	private:
		u32 value;

	public:
		decoded_type(u32 value) : value(value) {}

		u32 start() const
		{
			return bf_decoder<0, 24>(value);
		}

		u16 count() const
		{
			return static_cast<u16>(bf_decoder<24, 8>(value) + 1);
		}
	};

	static std::string dump(decoded_type&& decoded_values)
	{
		return "Draw vertexes range [IdxArray[" + std::to_string(decoded_values.start()) +
			      "], IdxArray[" + std::to_string(decoded_values.start() + decoded_values.count()) + "}]";
	}
};

#define TRANSFORM_PROGRAM(index) template<> struct registers_decoder<NV4097_SET_TRANSFORM_PROGRAM + index> : public transform_program_helper<index> {};
#define DECLARE_TRANSFORM_PROGRAM(index) NV4097_SET_TRANSFORM_PROGRAM + index,
EXPAND_RANGE_512(0, TRANSFORM_PROGRAM)

template<u32 index>
struct vertex_array_helper
{
	struct decoded_type
	{
	private:
		u32 value;

		u8 type_raw() const
		{
			return bf_decoder<0, 3>(value);
		}
	public:
		decoded_type(u32 value) : value(value) {}

		u16 frequency() const
		{
			return bf_decoder<16, 16>(value);
		}

		u8 stride() const
		{
			return bf_decoder<8, 8>(value);
		}

		u8 size() const
		{
			return bf_decoder<4, 4>(value);
		}

		rsx::vertex_base_type type() const
		{
			return rsx::to_vertex_base_type(type_raw());
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		if (decoded_values.size() == 0)
			return "(disabled)";

		return "Vertex array " + std::to_string(index) + ": Type = " + print_vertex_attribute_format(decoded_values.type()) +
			" size = " + std::to_string(decoded_values.size()) +
			" stride = " + std::to_string(decoded_values.stride()) +
			" frequency = " + std::to_string(decoded_values.frequency());
	}
};

#define VERTEX_DATA_ARRAY_FORMAT(index) template<> struct registers_decoder<NV4097_SET_VERTEX_DATA_ARRAY_FORMAT + index> : public vertex_array_helper<index> {};
#define DECLARE_VERTEX_DATA_ARRAY_FORMAT(index) NV4097_SET_VERTEX_DATA_ARRAY_FORMAT + index,

EXPAND_RANGE_16(0, VERTEX_DATA_ARRAY_FORMAT)

template<u32 index>
struct vertex_array_offset_helper
{
	struct decoded_type
	{
	private:
		u32 value;
	public:
		decoded_type(u32 value) : value(value) {}

		u32 offset() const
		{
			return value;
		}
	};

	static std::string dump(decoded_type &&decoded_values)
	{
		return "Vertex array " + std::to_string(index) + ": Offset = " + std::to_string(decoded_values.offset());
	}
};

#define VERTEX_DATA_ARRAY_OFFSET(index) template<> struct registers_decoder<NV4097_SET_VERTEX_DATA_ARRAY_OFFSET + index> : public vertex_array_offset_helper<index> {};
#define DECLARE_VERTEX_DATA_ARRAY_OFFSET(index) NV4097_SET_VERTEX_DATA_ARRAY_OFFSET + index,

EXPAND_RANGE_16(0, VERTEX_DATA_ARRAY_OFFSET)

template<typename type, int count>
struct register_vertex_printer;

template<int count>
struct register_vertex_printer<f32, count>
{
	static std::string type()
	{
		return "float" + std::to_string(count);
	}

	static std::string value(u32 v)
	{
		return std::to_string(std::bit_cast<f32>(v));
	}
};

template<int count>
struct register_vertex_printer<u16, count>
{
	static std::string type()
	{
		return "short" + std::to_string(count);
	}

	static std::string value(u32 v)
	{
		return std::to_string(v & 0xffff) + std::to_string(v >> 16);
	}
};

template<>
struct register_vertex_printer<u8, 4>
{
	static std::string type()
	{
		return "uchar4";
	}

	static std::string value(u32 v)
	{
		return std::to_string(v & 0xff) + std::to_string((v >> 8) & 0xff) + std::to_string((v >> 16) & 0xff) + std::to_string((v >> 24) & 0xff);
	}
};

template<u32 index, typename type, int count>
struct register_vertex_helper
{
	struct decoded_type
	{
		const u32 value;

		decoded_type(u32 value) : value(value) {}
	};

	static constexpr size_t increment_per_array_index = (count * sizeof(type)) / sizeof(u32);
	static constexpr size_t attribute_index = index / increment_per_array_index;
	static constexpr size_t vertex_subreg = index % increment_per_array_index;

	static std::string dump(decoded_type&& decoded_values)
	{
		return "register vertex " + std::to_string(attribute_index) + " as " + register_vertex_printer<type, count>::type() + ": " +
			register_vertex_printer<type, count>::value(decoded_values.value);
	}
};

#define VERTEX_DATA4UB(index) \
	template<> struct registers_decoder<NV4097_SET_VERTEX_DATA4UB_M + index> : public register_vertex_helper<index, u8, 4> {};
#define VERTEX_DATA1F(index) \
	template<> struct registers_decoder<NV4097_SET_VERTEX_DATA1F_M + index> : public register_vertex_helper<index, f32, 1> {};
#define VERTEX_DATA2F(index) \
	template<> struct registers_decoder<NV4097_SET_VERTEX_DATA2F_M + index> : public register_vertex_helper<index, f32, 2> {};
#define VERTEX_DATA3F(index) \
	template<> struct registers_decoder<NV4097_SET_VERTEX_DATA3F_M + index> : public register_vertex_helper<index, f32, 3> {};
#define VERTEX_DATA4F(index) \
	template<> struct registers_decoder<NV4097_SET_VERTEX_DATA4F_M + index> : public register_vertex_helper<index, f32, 4> {};
#define VERTEX_DATA2S(index) \
	template<> struct registers_decoder<NV4097_SET_VERTEX_DATA2S_M + index> : public register_vertex_helper<index, u16, 2> {};
#define VERTEX_DATA4S(index) \
	template<> struct registers_decoder<NV4097_SET_VERTEX_DATA4S_M + index> : public register_vertex_helper<index, u16, 4> {};

#define DECLARE_VERTEX_DATA4UB(index) \
	NV4097_SET_VERTEX_DATA4UB_M + index,
#define DECLARE_VERTEX_DATA1F(index) \
	NV4097_SET_VERTEX_DATA1F_M + index,
#define DECLARE_VERTEX_DATA2F(index) \
	NV4097_SET_VERTEX_DATA2F_M + index,
#define DECLARE_VERTEX_DATA3F(index) \
	NV4097_SET_VERTEX_DATA3F_M + index,
#define DECLARE_VERTEX_DATA4F(index) \
	NV4097_SET_VERTEX_DATA4F_M + index,
#define DECLARE_VERTEX_DATA2S(index) \
	NV4097_SET_VERTEX_DATA2S_M + index,
#define DECLARE_VERTEX_DATA4S(index) \
	NV4097_SET_VERTEX_DATA4S_M + index,

EXPAND_RANGE_16(0, VERTEX_DATA4UB)
EXPAND_RANGE_16(0, VERTEX_DATA1F)
EXPAND_RANGE_16(0, VERTEX_DATA2F)
EXPAND_RANGE_16(0, VERTEX_DATA3F)
EXPAND_RANGE_16(0, VERTEX_DATA4F)
EXPAND_RANGE_16(0, VERTEX_DATA2S)
EXPAND_RANGE_16(0, VERTEX_DATA4S)

constexpr std::integer_sequence<u32, NV4097_SET_VIEWPORT_HORIZONTAL, NV4097_SET_VIEWPORT_VERTICAL,
	   NV4097_SET_SCISSOR_HORIZONTAL, NV4097_SET_SCISSOR_VERTICAL, NV4097_SET_SURFACE_CLIP_HORIZONTAL,
	   NV4097_SET_SURFACE_CLIP_VERTICAL, NV4097_SET_CLEAR_RECT_HORIZONTAL,
	   NV4097_SET_CLEAR_RECT_VERTICAL, NV3089_CLIP_POINT, NV3089_CLIP_SIZE, NV3089_IMAGE_OUT_POINT,
	   NV3089_IMAGE_OUT_SIZE, NV3089_IMAGE_IN_SIZE, NV3062_SET_PITCH, NV308A_POINT,
	   NV4097_SET_DEPTH_TEST_ENABLE, NV4097_SET_DEPTH_MASK, NV4097_SET_ALPHA_TEST_ENABLE,
	   NV4097_SET_STENCIL_TEST_ENABLE, NV4097_SET_RESTART_INDEX_ENABLE,
	   NV4097_SET_DEPTH_BOUNDS_TEST_ENABLE, NV4097_SET_LOGIC_OP_ENABLE, NV4097_SET_DITHER_ENABLE,
	   NV4097_SET_BLEND_ENABLE, NV4097_SET_LINE_SMOOTH_ENABLE, NV4097_SET_POLY_OFFSET_POINT_ENABLE,
	   NV4097_SET_POLY_OFFSET_LINE_ENABLE, NV4097_SET_POLY_OFFSET_FILL_ENABLE,
	   NV4097_SET_CULL_FACE_ENABLE, NV4097_SET_POLY_SMOOTH_ENABLE,
	   NV4097_SET_TWO_SIDED_STENCIL_TEST_ENABLE, NV4097_SET_TWO_SIDE_LIGHT_EN,
	   NV4097_SET_RESTART_INDEX, NV4097_SET_SURFACE_COLOR_AOFFSET, NV4097_SET_SURFACE_COLOR_BOFFSET,
	   NV4097_SET_SURFACE_COLOR_COFFSET, NV4097_SET_SURFACE_COLOR_DOFFSET, NV4097_SET_SURFACE_PITCH_A,
	   NV4097_SET_SURFACE_PITCH_B, NV4097_SET_SURFACE_PITCH_C, NV4097_SET_SURFACE_PITCH_D,
	   NV4097_SET_SURFACE_ZETA_OFFSET, NV4097_SET_SURFACE_PITCH_Z,
	   NV4097_SET_VERTEX_ATTRIB_OUTPUT_MASK, NV4097_SET_SHADER_CONTROL,
	   NV4097_SET_VERTEX_DATA_BASE_OFFSET, NV4097_SET_INDEX_ARRAY_ADDRESS,
	   NV4097_SET_VERTEX_DATA_BASE_INDEX, NV4097_SET_SHADER_PROGRAM,
	   NV4097_SET_TRANSFORM_PROGRAM_START, NV406E_SET_CONTEXT_DMA_SEMAPHORE, NV406E_SEMAPHORE_OFFSET, NV4097_SET_SEMAPHORE_OFFSET,
	   NV3089_IMAGE_IN_OFFSET, NV3062_SET_OFFSET_DESTIN, NV309E_SET_OFFSET, NV3089_DS_DX, NV3089_DT_DY,
	   NV0039_PITCH_IN, NV0039_PITCH_OUT, NV0039_LINE_LENGTH_IN, NV0039_LINE_COUNT, NV0039_OFFSET_OUT,
	   NV0039_OFFSET_IN, NV4097_SET_VERTEX_ATTRIB_INPUT_MASK, NV4097_SET_FREQUENCY_DIVIDER_OPERATION,
	   NV4097_SET_DEPTH_BOUNDS_MIN, NV4097_SET_DEPTH_BOUNDS_MAX, NV4097_SET_FOG_PARAMS,
	   NV4097_SET_FOG_PARAMS + 1, NV4097_SET_CLIP_MIN, NV4097_SET_CLIP_MAX,
	   NV4097_SET_POLYGON_OFFSET_SCALE_FACTOR, NV4097_SET_POLYGON_OFFSET_BIAS,
	   NV4097_SET_VIEWPORT_SCALE, NV4097_SET_VIEWPORT_SCALE + 1, NV4097_SET_VIEWPORT_SCALE + 2,
	   NV4097_SET_VIEWPORT_SCALE + 3, NV4097_SET_VIEWPORT_OFFSET, NV4097_SET_VIEWPORT_OFFSET + 1,
	   NV4097_SET_VIEWPORT_OFFSET + 2, NV4097_SET_VIEWPORT_OFFSET + 3, NV4097_SET_DEPTH_FUNC,
	   NV4097_SET_STENCIL_FUNC, NV4097_SET_BACK_STENCIL_FUNC, NV4097_SET_STENCIL_OP_FAIL,
	   NV4097_SET_STENCIL_OP_ZFAIL, NV4097_SET_STENCIL_OP_ZPASS, NV4097_SET_BACK_STENCIL_OP_FAIL,
	   NV4097_SET_BACK_STENCIL_OP_ZFAIL, NV4097_SET_BACK_STENCIL_OP_ZPASS, NV4097_SET_LOGIC_OP,
	   NV4097_SET_FRONT_FACE, NV4097_SET_CULL_FACE, NV4097_SET_SURFACE_COLOR_TARGET,
	   NV4097_SET_FOG_MODE, NV4097_SET_ALPHA_FUNC, NV4097_SET_BEGIN_END, NV3089_SET_OPERATION,
	   NV3089_SET_COLOR_FORMAT, NV3089_SET_CONTEXT_SURFACE, NV3062_SET_COLOR_FORMAT,
	   NV4097_SET_STENCIL_FUNC_REF, NV4097_SET_BACK_STENCIL_FUNC_REF, NV4097_SET_STENCIL_FUNC_MASK,
	   NV4097_SET_BACK_STENCIL_FUNC_MASK, NV4097_SET_ALPHA_REF, NV4097_SET_COLOR_CLEAR_VALUE,
	   NV4097_SET_STENCIL_MASK, NV4097_SET_BACK_STENCIL_MASK, NV4097_SET_BLEND_EQUATION,
	   NV4097_SET_BLEND_FUNC_SFACTOR, NV4097_SET_BLEND_FUNC_DFACTOR, NV4097_SET_COLOR_MASK,
	   NV4097_SET_SHADER_WINDOW, NV4097_SET_BLEND_ENABLE_MRT, NV4097_SET_USER_CLIP_PLANE_CONTROL,
	   NV4097_SET_LINE_WIDTH, NV4097_SET_SURFACE_FORMAT, NV4097_SET_WINDOW_OFFSET,
	   NV4097_SET_ZSTENCIL_CLEAR_VALUE, NV4097_SET_INDEX_ARRAY_DMA, NV4097_SET_CONTEXT_DMA_COLOR_A,
	   NV4097_SET_CONTEXT_DMA_COLOR_B, NV4097_SET_CONTEXT_DMA_COLOR_C, NV4097_SET_CONTEXT_DMA_COLOR_D,
	   NV4097_SET_CONTEXT_DMA_ZETA, NV3089_SET_CONTEXT_DMA_IMAGE, NV3062_SET_CONTEXT_DMA_IMAGE_DESTIN,
	   NV309E_SET_CONTEXT_DMA_IMAGE, NV0039_SET_CONTEXT_DMA_BUFFER_OUT,
	   NV0039_SET_CONTEXT_DMA_BUFFER_IN, NV4097_SET_CONTEXT_DMA_REPORT, NV3089_IMAGE_IN_FORMAT,
	   NV309E_SET_FORMAT, NV0039_FORMAT, NV4097_SET_BLEND_COLOR2, NV4097_SET_BLEND_COLOR,
	   NV3089_IMAGE_IN, NV4097_NO_OPERATION, NV4097_INVALIDATE_VERTEX_CACHE_FILE,
	   NV4097_INVALIDATE_VERTEX_FILE, NV4097_SET_ANTI_ALIASING_CONTROL, NV4097_SET_FRONT_POLYGON_MODE,
	   NV4097_SET_BACK_POLYGON_MODE,
	   EXPAND_RANGE_16(0, DECLARE_VERTEX_DATA_ARRAY_FORMAT)
	       EXPAND_RANGE_16(0, DECLARE_VERTEX_DATA_ARRAY_OFFSET)
	           EXPAND_RANGE_32(0, DECLARE_TRANSFORM_CONSTANT) NV4097_SET_TRANSFORM_CONSTANT_LOAD,
	   NV4097_DRAW_ARRAYS, NV4097_DRAW_INDEX_ARRAY,
	   EXPAND_RANGE_512(0, DECLARE_TRANSFORM_PROGRAM) NV4097_SET_TRANSFORM_PROGRAM_LOAD>
	   opcode_list{};
} // end namespace rsx