/* ============================================================================== This file is part of the JUCE library. Copyright (c) 2017 - ROLI Ltd. JUCE is an open source library subject to commercial or open-source licensing. By using JUCE, you agree to the terms of both the JUCE 5 End-User License Agreement and JUCE 5 Privacy Policy (both updated and effective as of the 27th April 2017). End User License Agreement: www.juce.com/juce-5-licence Privacy Policy: www.juce.com/juce-5-privacy-policy Or: You may also use this code under the terms of the GPL v3 (see www.gnu.org/licenses). JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE DISCLAIMED. ============================================================================== */ namespace juce { //============================================================================== /** Models a 1-dimensional position that can be dragged around by the user, and which will then continue moving with a customisable physics behaviour when released. This is useful for things like scrollable views or objects that can be dragged and thrown around with the mouse/touch, and by writing your own behaviour class, you can customise the trajectory that it follows when released. The class uses its own Timer to continuously change its value when a drag ends, and Listener objects can be registered to receive callbacks whenever the value changes. The value is stored as a double, and can be used to represent whatever units you need. The template parameter Behaviour must be a class that implements various methods to return the physics of the value's movement - you can use the classes provided for this in the AnimatedPositionBehaviours namespace, or write your own custom behaviour. @see AnimatedPositionBehaviours::ContinuousWithMomentum, AnimatedPositionBehaviours::SnapToPageBoundaries @tags{GUI} */ template class AnimatedPosition : private Timer { public: AnimatedPosition() : range (-std::numeric_limits::max(), std::numeric_limits::max()) { } /** Sets a range within which the value will be constrained. */ void setLimits (Range newRange) noexcept { range = newRange; } //============================================================================== /** Called to indicate that the object is now being controlled by a mouse-drag or similar operation. After calling this method, you should make calls to the drag() method each time the mouse drags the position around, and always be sure to finish with a call to endDrag() when the mouse is released, which allows the position to continue moving freely according to the specified behaviour. */ void beginDrag() { grabbedPos = position; releaseVelocity = 0; stopTimer(); } /** Called during a mouse-drag operation, to indicate that the mouse has moved. The delta is the difference between the position when beginDrag() was called and the new position that's required. */ void drag (double deltaFromStartOfDrag) { moveTo (grabbedPos + deltaFromStartOfDrag); } /** Called after beginDrag() and drag() to indicate that the drag operation has now finished. */ void endDrag() { startTimerHz (60); } /** Called outside of a drag operation to cause a nudge in the specified direction. This is intended for use by e.g. mouse-wheel events. */ void nudge (double deltaFromCurrentPosition) { startTimerHz (10); moveTo (position + deltaFromCurrentPosition); } //============================================================================== /** Returns the current position. */ double getPosition() const noexcept { return position; } /** Explicitly sets the position and stops any further movement. This will cause a synchronous call to any listeners if the position actually changes. */ void setPosition (double newPosition) { stopTimer(); setPositionAndSendChange (newPosition); } //============================================================================== /** Implement this class if you need to receive callbacks when the value of an AnimatedPosition changes. @see AnimatedPosition::addListener, AnimatedPosition::removeListener */ class Listener { public: virtual ~Listener() = default; /** Called synchronously when an AnimatedPosition changes. */ virtual void positionChanged (AnimatedPosition&, double newPosition) = 0; }; /** Adds a listener to be called when the value changes. */ void addListener (Listener* listener) { listeners.add (listener); } /** Removes a previously-registered listener. */ void removeListener (Listener* listener) { listeners.remove (listener); } //============================================================================== /** The behaviour object. This is public to let you tweak any parameters that it provides. */ Behaviour behaviour; private: //============================================================================== double position = 0.0, grabbedPos = 0.0, releaseVelocity = 0.0; Range range; Time lastUpdate, lastDrag; ListenerList listeners; static double getSpeed (const Time last, double lastPos, const Time now, double newPos) { auto elapsedSecs = jmax (0.005, (now - last).inSeconds()); auto v = (newPos - lastPos) / elapsedSecs; return std::abs (v) > 0.2 ? v : 0.0; } void moveTo (double newPos) { auto now = Time::getCurrentTime(); releaseVelocity = getSpeed (lastDrag, position, now, newPos); behaviour.releasedWithVelocity (newPos, releaseVelocity); lastDrag = now; setPositionAndSendChange (newPos); } void setPositionAndSendChange (double newPosition) { newPosition = range.clipValue (newPosition); if (position != newPosition) { position = newPosition; listeners.call ([this, newPosition] (Listener& l) { l.positionChanged (*this, newPosition); }); } } void timerCallback() override { auto now = Time::getCurrentTime(); auto elapsed = jlimit (0.001, 0.020, (now - lastUpdate).inSeconds()); lastUpdate = now; auto newPos = behaviour.getNextPosition (position, elapsed); if (behaviour.isStopped (newPos)) stopTimer(); else startTimerHz (60); setPositionAndSendChange (newPos); } JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (AnimatedPosition) }; } // namespace juce