/* ============================================================================== This file is part of the JUCE examples. Copyright (c) 2017 - ROLI Ltd. The code included in this file is provided under the terms of the ISC license http://www.isc.org/downloads/software-support-policy/isc-license. Permission To use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE DISCLAIMED. ============================================================================== */ /******************************************************************************* The block below describes the properties of this PIP. A PIP is a short snippet of code that can be read by the Projucer and used to generate a JUCE project. BEGIN_JUCE_PIP_METADATA name: MultithreadingDemo version: 1.0.0 vendor: JUCE website: http://juce.com description: Demonstrates multi-threading. dependencies: juce_core, juce_data_structures, juce_events, juce_graphics, juce_gui_basics exporters: xcode_mac, vs2019, linux_make, androidstudio, xcode_iphone moduleFlags: JUCE_STRICT_REFCOUNTEDPOINTER=1 type: Component mainClass: MultithreadingDemo useLocalCopy: 1 END_JUCE_PIP_METADATA *******************************************************************************/ #pragma once #include "../Assets/DemoUtilities.h" //============================================================================== class BouncingBallComp : public Component { public: BouncingBallComp() { auto speed = 5.0f; // give each ball a fixed speed so we can // see the effects of thread priority on how fast // they actually go. auto angle = Random::getSystemRandom().nextFloat() * MathConstants::twoPi; dx = std::sin (angle) * speed; dy = std::cos (angle) * speed; colour = Colour ((juce::uint32) Random::getSystemRandom().nextInt()) .withAlpha (0.5f) .withBrightness (0.7f); } void paint (Graphics& g) override { g.setColour (colour); g.fillEllipse (innerX, innerY, size, size); g.setColour (Colours::black); g.setFont (10.0f); g.drawText (String::toHexString ((int64) threadId), getLocalBounds(), Justification::centred, false); } void parentSizeChanged() override { parentWidth = getParentWidth() - size; parentHeight = getParentHeight() - size; } void moveBall() { threadId = Thread::getCurrentThreadId(); // this is so the component can print the thread ID inside the ball x += dx; y += dy; if (x < 0) dx = std::abs (dx); if (x > parentWidth) dx = -std::abs (dx); if (y < 0) dy = std::abs (dy); if (y > parentHeight) dy = -std::abs (dy); setBounds (((int) x) - 2, ((int) y) - 2, ((int) size) + 4, ((int) size) + 4); innerX = x - getX(); innerY = y - getY(); repaint(); } private: float x = Random::getSystemRandom().nextFloat() * 200.0f, y = Random::getSystemRandom().nextFloat() * 200.0f, size = Random::getSystemRandom().nextFloat() * 30.0f + 30.0f, dx = 0.0f, dy = 0.0f, innerX = 0.0f, innerY = 0.0f, parentWidth = 50.0f, parentHeight = 50.0f; Colour colour; Thread::ThreadID threadId = {}; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (BouncingBallComp) }; //============================================================================== class DemoThread : public BouncingBallComp, public Thread { public: DemoThread() : Thread ("JUCE Demo Thread") { // give the threads a random priority, so some will move more // smoothly than others.. startThread (Random::getSystemRandom().nextInt (3) + 3); } ~DemoThread() override { // allow the thread 2 seconds to stop cleanly - should be plenty of time. stopThread (2000); } void run() override { // this is the code that runs this thread - we'll loop continuously, // updating the coordinates of our blob. // threadShouldExit() returns true when the stopThread() method has been // called, so we should check it often, and exit as soon as it gets flagged. while (! threadShouldExit()) { // sleep a bit so the threads don't all grind the CPU to a halt.. wait (interval); // because this is a background thread, we mustn't do any UI work without // first grabbing a MessageManagerLock.. const MessageManagerLock mml (Thread::getCurrentThread()); if (! mml.lockWasGained()) // if something is trying to kill this job, the lock return; // will fail, in which case we'd better return.. // now we've got the UI thread locked, we can mess about with the components moveBall(); } } private: int interval = Random::getSystemRandom().nextInt (50) + 6; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (DemoThread) }; //============================================================================== class DemoThreadPoolJob : public BouncingBallComp, public ThreadPoolJob { public: DemoThreadPoolJob() : ThreadPoolJob ("Demo Threadpool Job") {} JobStatus runJob() override { // this is the code that runs this job. It'll be repeatedly called until we return // jobHasFinished instead of jobNeedsRunningAgain. Thread::sleep (30); // because this is a background thread, we mustn't do any UI work without // first grabbing a MessageManagerLock.. const MessageManagerLock mml (this); // before moving the ball, we need to check whether the lock was actually gained, because // if something is trying to stop this job, it will have failed.. if (mml.lockWasGained()) moveBall(); return jobNeedsRunningAgain; } void removedFromQueue() { // This is called to tell us that our job has been removed from the pool. // In this case there's no need to do anything here. } private: JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (DemoThreadPoolJob) }; //============================================================================== class MultithreadingDemo : public Component, private Timer { public: MultithreadingDemo() { setOpaque (true); addAndMakeVisible (controlButton); controlButton.changeWidthToFitText (24); controlButton.setTopLeftPosition (20, 20); controlButton.setTriggeredOnMouseDown (true); controlButton.setAlwaysOnTop (true); controlButton.onClick = [this] { showMenu(); }; setSize (500, 500); } ~MultithreadingDemo() override { pool.removeAllJobs (true, 2000); } void resetAllBalls() { stopTimer(); pool.removeAllJobs (true, 4000); balls.clear(); if (isShowing()) { while (balls.size() < 5) addABall(); startTimer (300); } } void paint (Graphics& g) override { g.fillAll (getUIColourIfAvailable (LookAndFeel_V4::ColourScheme::UIColour::windowBackground)); } private: ThreadPool pool { 3 }; TextButton controlButton { "Thread type" }; bool isUsingPool = false; OwnedArray balls; void setUsingPool (bool usePool) { isUsingPool = usePool; resetAllBalls(); } void addABall() { if (isUsingPool) { auto* newBall = new DemoThreadPoolJob(); balls.add (newBall); addAndMakeVisible (newBall); newBall->parentSizeChanged(); pool.addJob (newBall, false); } else { auto* newBall = new DemoThread(); balls.add (newBall); addAndMakeVisible (newBall); newBall->parentSizeChanged(); } } void removeABall() { if (balls.size() > 0) { auto indexToRemove = Random::getSystemRandom().nextInt (balls.size()); if (isUsingPool) pool.removeJob (dynamic_cast (balls[indexToRemove]), true, 4000); balls.remove (indexToRemove); } } // this gets called when a component is added or removed from a parent component. void parentHierarchyChanged() override { // we'll use this as an opportunity to start and stop the threads, so that // we don't leave them going when the component's not actually visible. resetAllBalls(); } void timerCallback() override { if (Random::getSystemRandom().nextBool()) { if (balls.size() <= 10) addABall(); } else { if (balls.size() > 3) removeABall(); } } void showMenu() { PopupMenu m; m.addItem (1, "Use one thread per ball", true, ! isUsingPool); m.addItem (2, "Use a thread pool", true, isUsingPool); m.showMenuAsync (PopupMenu::Options().withTargetComponent (controlButton), ModalCallbackFunction::forComponent (menuItemChosenCallback, this)); } static void menuItemChosenCallback (int result, MultithreadingDemo* demoComponent) { if (result != 0 && demoComponent != nullptr) demoComponent->setUsingPool (result == 2); } JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (MultithreadingDemo) };