9f2cb0ae1b
Effects are given the interval between two consecutive frames. The main flaw of this approach is that if the Compositor transitions from the idle state to "active" state, i.e. when there is something to repaint, effects may see a very large interval between the last painted frame and the current. In order to address this issue, the Scene invalidates the timer that is used to measure time between consecutive frames before the Compositor is about to become idle. While this works perfectly fine with Xinerama-style rendering, with per screen rendering, determining whether the compositor is about to idle is rather a tedious task mostly because a single output can't be used for the test. Furthermore, since the Compositor schedules pointless repaints just to ensure that it's idle, it might take several attempts to figure out whether the scene timer must be invalidated if you use (true) per screen rendering. Ideally, all effects should use a timeline helper that is aware of the underlying render loop and its timings. However, this option is off the table because it will involve a lot of work to implement it. Alternative and much simpler option is to pass the expected presentation time to effects rather than time between consecutive frames. This means that effects are responsible for determining how much animation timelines have to be advanced. Typically, an effect would have to store the presentation timestamp provided in either prePaint{Screen,Window} and use it in the subsequent prePaint{Screen,Window} call to estimate the amount of time passed between the next and the last frames. Unfortunately, this is an API incompatible change. However, it shouldn't take a lot of work to port third-party binary effects, which don't use the AnimationEffect class, to the new API. On the bright side, we no longer need to be concerned about the Compositor getting idle. We do still try to determine whether the Compositor is about to idle, primarily, because the OpenGL render backend swaps buffers on present, but that will change with the ongoing compositing timing rework.
73 lines
1.7 KiB
C++
73 lines
1.7 KiB
C++
/*
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KWin - the KDE window manager
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This file is part of the KDE project.
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SPDX-FileCopyrightText: 2007 Rivo Laks <rivolaks@hot.ee>
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SPDX-FileCopyrightText: 2007 Christian Nitschkowski <christian.nitschkowski@kdemail.net>
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SPDX-License-Identifier: GPL-2.0-or-later
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*/
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#ifndef KWIN_LOOKINGGLASS_H
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#define KWIN_LOOKINGGLASS_H
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#include <kwineffects.h>
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namespace KWin
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{
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class GLRenderTarget;
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class GLShader;
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class GLTexture;
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class GLVertexBuffer;
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/**
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* Enhanced magnifier
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*/
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class LookingGlassEffect : public Effect
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{
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Q_OBJECT
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Q_PROPERTY(int initialRadius READ initialRadius)
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public:
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LookingGlassEffect();
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~LookingGlassEffect() override;
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void reconfigure(ReconfigureFlags) override;
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void prePaintScreen(ScreenPrePaintData& data, std::chrono::milliseconds presentTime) override;
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void paintScreen(int mask, const QRegion ®ion, ScreenPaintData &data) override;
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bool isActive() const override;
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static bool supported();
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// for properties
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int initialRadius() const {
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return initialradius;
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}
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public Q_SLOTS:
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void toggle();
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void zoomIn();
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void zoomOut();
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void slotMouseChanged(const QPoint& pos, const QPoint& old,
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Qt::MouseButtons buttons, Qt::MouseButtons oldbuttons,
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Qt::KeyboardModifiers modifiers, Qt::KeyboardModifiers oldmodifiers);
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private:
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bool loadData();
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double zoom;
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double target_zoom;
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bool polling; // Mouse polling
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int radius;
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int initialradius;
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GLTexture *m_texture;
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GLRenderTarget *m_fbo;
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GLVertexBuffer *m_vbo;
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GLShader *m_shader;
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std::chrono::milliseconds m_lastPresentTime;
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bool m_enabled;
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bool m_valid;
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};
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} // namespace
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#endif
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