dolphin/Source/Core/VideoCommon/BPFunctions.h

167 lines
5.9 KiB
C++

// Copyright 2009 Dolphin Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
// ------------------------------------------
// Video backend must define these functions
// ------------------------------------------
#pragma once
#include <utility>
#include <vector>
#include "Common/MathUtil.h"
#include "VideoCommon/BPMemory.h"
struct XFMemory;
namespace BPFunctions
{
struct ScissorRange
{
constexpr ScissorRange() = default;
constexpr ScissorRange(int offset_, int start_, int end_)
: offset(offset_), start(start_), end(end_)
{
}
int offset = 0;
int start = 0;
int end = 0;
};
struct ScissorRect
{
constexpr ScissorRect(ScissorRange x_range, ScissorRange y_range)
: // Rectangle ctor takes x0, y0, x1, y1.
rect(x_range.start, y_range.start, x_range.end, y_range.end), x_off(x_range.offset),
y_off(y_range.offset)
{
}
MathUtil::Rectangle<int> rect;
int x_off;
int y_off;
int GetArea() const;
};
// Although the GameCube/Wii have only one scissor configuration and only one viewport
// configuration, some values can result in multiple parts of the screen being updated.
// This can happen if the scissor offset combined with the bottom or right coordinate ends up
// exceeding 1024; then, both sides of the screen will be drawn to, while the middle is not.
// Major Minor's Majestic March causes this to happen during loading screens and other scrolling
// effects, though it draws on top of one of them.
// This can also happen if the scissor rectangle is particularly large, but this will usually
// involve drawing content outside of the viewport, which Dolphin does not currently handle.
//
// The hardware backends can currently only use one viewport and scissor rectangle, so we need to
// pick the "best" rectangle based on how much of the viewport would be rendered to the screen.
// If we choose the wrong one, then content might not actually show up when the game is expecting it
// to. This does happen on Major Minor's Majestic March for the final few frames of the horizontal
// scrolling animation, but it isn't that important. Note that the assumption that a "best"
// rectangle exists is based on games only wanting to draw one rectangle, and accidentally
// configuring the scissor offset and size of the scissor rectangle such that multiple show up;
// there are no known games where this is not the case.
//
// An ImGui overlay that displays the scissor rectangle configuration as well as the generated
// rectangles is available by setting OverlayScissorStats (GFX_OVERLAY_SCISSOR_STATS)
// under [Settings] to True in GFX.ini.
struct ScissorResult
{
ScissorResult(const BPMemory& bpmem, const XFMemory& xfmem);
~ScissorResult() = default;
ScissorResult(const ScissorResult& other)
: scissor_tl{.hex = other.scissor_tl.hex}, scissor_br{.hex = other.scissor_br.hex},
scissor_off{.hex = other.scissor_off.hex}, viewport_left{other.viewport_left},
viewport_right{other.viewport_right}, viewport_top{other.viewport_top},
viewport_bottom{other.viewport_bottom}, m_result{other.m_result}
{
}
ScissorResult& operator=(const ScissorResult& other)
{
if (this == &other)
return *this;
scissor_tl.hex = other.scissor_tl.hex;
scissor_br.hex = other.scissor_br.hex;
scissor_off.hex = other.scissor_off.hex;
viewport_left = other.viewport_left;
viewport_right = other.viewport_right;
viewport_top = other.viewport_top;
viewport_bottom = other.viewport_bottom;
m_result = other.m_result;
return *this;
}
ScissorResult(ScissorResult&& other)
: scissor_tl{.hex = other.scissor_tl.hex}, scissor_br{.hex = other.scissor_br.hex},
scissor_off{.hex = other.scissor_off.hex}, viewport_left{other.viewport_left},
viewport_right{other.viewport_right}, viewport_top{other.viewport_top},
viewport_bottom{other.viewport_bottom}, m_result{std::move(other.m_result)}
{
}
ScissorResult& operator=(ScissorResult&& other)
{
if (this == &other)
return *this;
scissor_tl.hex = other.scissor_tl.hex;
scissor_br.hex = other.scissor_br.hex;
scissor_off.hex = other.scissor_off.hex;
viewport_left = other.viewport_left;
viewport_right = other.viewport_right;
viewport_top = other.viewport_top;
viewport_bottom = other.viewport_bottom;
m_result = std::move(other.m_result);
return *this;
}
// Input values, for use in statistics
ScissorPos scissor_tl;
ScissorPos scissor_br;
ScissorOffset scissor_off;
float viewport_left;
float viewport_right;
float viewport_top;
float viewport_bottom;
// Actual result
std::vector<ScissorRect> m_result;
ScissorRect Best() const;
bool ScissorMatches(const ScissorResult& other) const
{
return scissor_tl.hex == other.scissor_tl.hex && scissor_br.hex == other.scissor_br.hex &&
scissor_off.hex == other.scissor_off.hex;
}
bool ViewportMatches(const ScissorResult& other) const
{
return viewport_left == other.viewport_left && viewport_right == other.viewport_right &&
viewport_top == other.viewport_top && viewport_bottom == other.viewport_bottom;
}
bool Matches(const ScissorResult& other, bool compare_scissor, bool compare_viewport) const
{
if (compare_scissor && !ScissorMatches(other))
return false;
if (compare_viewport && !ViewportMatches(other))
return false;
return true;
}
private:
ScissorResult(const BPMemory& bpmem, std::pair<float, float> viewport_x,
std::pair<float, float> viewport_y);
int GetViewportArea(const ScissorRect& rect) const;
bool IsWorse(const ScissorRect& lhs, const ScissorRect& rhs) const;
};
ScissorResult ComputeScissorRects();
void FlushPipeline();
void SetGenerationMode();
void SetScissorAndViewport();
void SetDepthMode();
void SetBlendMode();
void ClearScreen(const MathUtil::Rectangle<int>& rc);
void OnPixelFormatChange();
void SetInterlacingMode(const BPCmd& bp);
} // namespace BPFunctions