Backend DevelopmentC#.Net TutorialBrief analysis of the usage of Unity timer script Timer (with code)
Timer rendering:
?x-oss-process=image/resize,p_40 "153266273684196Brief analysis of the usage of Unity timer script Timer (with code)")
Timer usage:
First type: Add the script to the object and check "Automatic timing".
Second type: Add the script to the object and call the timer.start() method to start.
Third method: Dynamically add the Timer script in the code.
using UnityEngine;
public class TimerTest : MonoBehaviour {
private void Start () {
// 创建一个Timer并开始计时
gameObject.AddComponent<Timer>().start(1.5f, onTimeup);
// 倒计时3秒
gameObject.AddComponent<Timer>().start(1, 3, onCD, onCDEnd);
// 无限计数(repeatCount为<=0时 无限重复)
gameObject.AddComponent<Timer>().start(1, -1, onCount, null);
// Timer API
Timer timer = gameObject.AddComponent<Timer>();
timer.delay = 10;// 延迟10秒开始
timer.start(); // 开始计时
timer.stop(); // 暂停计时
timer.reset(); // 重置已计时的时间和次数
timer.restart();// 重新开始计时 reset() + start()
}
/// <summary> 正常计时 </summary>
private void onTimeup(Timer timer) {
print("计时完成");
}
/// <summary> 倒计时间隔 </summary>
private void onCD(Timer timer) {
print(timer.repeatCount - timer.currentCount); // 3, 2, 1
}
/// <summary> 倒计时结束 </summary>
private void onCDEnd(Timer timer) {
print(timer.repeatCount - timer.currentCount); // 0
}
/// <summary> 无限计数 </summary>
private void onCount(Timer timer) {
print(timer.currentCount); // 1, 2, 3……
}
}Timer API:
// 开始/继续计时
public void start() {}
// 暂停计时
public void stop() {}
// 停止Timer并重置数据
public void reset() {}
// 重置数据并重新开始计时
public void restart() {}
// 开始计时 time时间(秒) onComplete(Timer timer)计时完成回调事件
public void start(float time, TimerCallback onComplete) {}
// 开始计时 interval计时间隔 repeatCount重复次数 onComplete(Timer timer)计时完成回调事件
public void start(float interval, int repeatCount, TimerCallback onComplete) {}
// 开始计时 interval计时间隔 repeatCount重复次数
// onInterval(Timer timer)计时间隔回调事件
// onComplete(Timer timer)计时完成回调事件
public void start(float interval, int repeatCount, TimerCallback onInterval, TimerCallback onComplete) {}Timer.cs
using UnityEngine;
using UnityEngine.Events;
/// <summary>
/// 计时器
/// <para>ZhangYu 2018-04-08</para>
/// </summary>
public class Timer : MonoBehaviour {
// 延迟时间(秒)
public float delay = 0;
// 间隔时间(秒)
public float interval = 1;
// 重复次数
public int repeatCount = 1;
// 自动计时
public bool autoStart = false;
// 自动销毁
public bool autoDestory = true;
// 当前时间
public float currentTime = 0;
// 当前次数
public int currentCount = 0;
// 计时间隔
public UnityEvent onIntervalEvent;
// 计时完成
public UnityEvent onCompleteEvent;
// 回调事件代理
public delegate void TimerCallback(Timer timer);
// 上一次间隔时间
private float lastTime = 0;
// 计时间隔
private TimerCallback onIntervalCall;
// 计时结束
private TimerCallback onCompleteCall;
private void Start () {
enabled = autoStart;
}
private void FixedUpdate () {
if (!enabled) return;
addInterval(Time.deltaTime);
}
/// <summary> 增加间隔时间 </summary>
private void addInterval(float deltaTime) {
currentTime += deltaTime;
if (currentTime < delay) return;
if (currentTime - lastTime >= interval) {
currentCount++;
lastTime = currentTime;
if (repeatCount <= 0) {
// 无限重复
if (currentCount == int.MaxValue) reset();
if (onIntervalCall != null) onIntervalCall(this);
if (onIntervalEvent != null) onIntervalEvent.Invoke();
} else {
if (currentCount < repeatCount) {
//计时间隔
if (onIntervalCall != null) onIntervalCall(this);
if (onIntervalEvent != null) onIntervalEvent.Invoke();
} else {
//计时结束
stop();
if (onCompleteCall != null) onCompleteCall(this);
if (onCompleteEvent != null) onCompleteEvent.Invoke();
if (autoDestory && !enabled) Destroy(this);
}
}
}
}
/// <summary> 开始/继续计时 </summary>
public void start() {
enabled = autoStart = true;
}
/// <summary> 开始计时 </summary>
/// <param name="time">时间(秒)</param>
/// <param name="onComplete(Timer timer)">计时完成回调事件</param>
public void start(float time, TimerCallback onComplete) {
start(time, 1, null, onComplete);
}
/// <summary> 开始计时 </summary>
/// <param name="interval">计时间隔</param>
/// <param name="repeatCount">重复次数</param>
/// <param name="onComplete(Timer timer)">计时完成回调事件</param>
public void start(float interval, int repeatCount, TimerCallback onComplete) {
start(interval, repeatCount, null, onComplete);
}
/// <summary> 开始计时 </summary>
/// <param name="interval">计时间隔</param>
/// <param name="repeatCount">重复次数</param>
/// <param name="onInterval(Timer timer)">计时间隔回调事件</param>
/// <param name="onComplete(Timer timer)">计时完成回调事件</param>
public void start(float interval, int repeatCount, TimerCallback onInterval, TimerCallback onComplete) {
this.interval = interval;
this.repeatCount = repeatCount;
onIntervalCall = onInterval;
onCompleteCall = onComplete;
reset();
enabled = autoStart = true;
}
/// <summary> 暂停计时 </summary>
public void stop() {
enabled = autoStart = false;
}
/// <summary> 停止Timer并重置数据 </summary>
public void reset(){
lastTime = currentTime = currentCount = 0;
}
/// <summary> 重置数据并重新开始计时 </summary>
public void restart() {
reset();
start();
}
}TimerEditor.cs
using UnityEditor;
using UnityEngine;
/// <summary>
/// 计时器 编辑器
/// <para>ZhangYu 2018-04-08</para>
/// </summary>
[CanEditMultipleObjects]
[CustomEditor(typeof(Timer))]
public class TimerEditor : Editor {
public override void OnInspectorGUI() {
Timer script = (Timer)target;
// 重绘GUI
EditorGUI.BeginChangeCheck();
// 公开属性
drawProperty("delay", "延迟时间(秒)");
drawProperty("interval", "间隔时间(秒)");
drawProperty("repeatCount", "重复次数");
if (script.repeatCount <= 0) EditorGUILayout.LabelField(" ", "<=0 时无限重复", GUILayout.ExpandWidth(true));
EditorGUILayout.BeginHorizontal();
drawProperty("autoStart", "自动计时");
drawProperty("autoDestory", "自动销毁");
EditorGUILayout.EndHorizontal();
// 只读属性
GUI.enabled = false;
drawProperty("currentTime", "当前时间(秒)");
drawProperty("currentCount", "当前次数");
GUI.enabled = true;
// 回调事件
drawProperty("onIntervalEvent", "计时间隔事件");
drawProperty("onCompleteEvent", "计时完成事件");
if (EditorGUI.EndChangeCheck()) serializedObject.ApplyModifiedProperties();
}
private void drawProperty(string property, string label) {
EditorGUILayout.PropertyField(serializedObject.FindProperty(property), new GUIContent(label), true);
}
}Related articles:
Use PEAR::Benchmarking’s Timer to implement PHP program timing
How to use pure PHP to implement timer tasks (Timer ), timer timer
Related videos:
Play with javascript audio calculator example
The above is the detailed content of Brief analysis of the usage of Unity timer script Timer (with code). For more information, please follow other related articles on the PHP Chinese website!
C# and .NET: Understanding the Relationship Between the TwoApr 17, 2025 am 12:07 AMThe relationship between C# and .NET is inseparable, but they are not the same thing. C# is a programming language, while .NET is a development platform. C# is used to write code, compile into .NET's intermediate language (IL), and executed by the .NET runtime (CLR).
The Continued Relevance of C# .NET: A Look at Current UsageApr 16, 2025 am 12:07 AMC#.NET is still important because it provides powerful tools and libraries that support multiple application development. 1) C# combines .NET framework to make development efficient and convenient. 2) C#'s type safety and garbage collection mechanism enhance its advantages. 3) .NET provides a cross-platform running environment and rich APIs, improving development flexibility.
From Web to Desktop: The Versatility of C# .NETApr 15, 2025 am 12:07 AMC#.NETisversatileforbothwebanddesktopdevelopment.1)Forweb,useASP.NETfordynamicapplications.2)Fordesktop,employWindowsFormsorWPFforrichinterfaces.3)UseXamarinforcross-platformdevelopment,enablingcodesharingacrossWindows,macOS,Linux,andmobiledevices.
C# .NET and the Future: Adapting to New TechnologiesApr 14, 2025 am 12:06 AMC# and .NET adapt to the needs of emerging technologies through continuous updates and optimizations. 1) C# 9.0 and .NET5 introduce record type and performance optimization. 2) .NETCore enhances cloud native and containerized support. 3) ASP.NETCore integrates with modern web technologies. 4) ML.NET supports machine learning and artificial intelligence. 5) Asynchronous programming and best practices improve performance.
Is C# .NET Right for You? Evaluating its ApplicabilityApr 13, 2025 am 12:03 AMC#.NETissuitableforenterprise-levelapplicationswithintheMicrosoftecosystemduetoitsstrongtyping,richlibraries,androbustperformance.However,itmaynotbeidealforcross-platformdevelopmentorwhenrawspeediscritical,wherelanguageslikeRustorGomightbepreferable.
C# Code within .NET: Exploring the Programming ProcessApr 12, 2025 am 12:02 AMThe programming process of C# in .NET includes the following steps: 1) writing C# code, 2) compiling into an intermediate language (IL), and 3) executing by the .NET runtime (CLR). The advantages of C# in .NET are its modern syntax, powerful type system and tight integration with the .NET framework, suitable for various development scenarios from desktop applications to web services.
C# .NET: Exploring Core Concepts and Programming FundamentalsApr 10, 2025 am 09:32 AMC# is a modern, object-oriented programming language developed by Microsoft and as part of the .NET framework. 1.C# supports object-oriented programming (OOP), including encapsulation, inheritance and polymorphism. 2. Asynchronous programming in C# is implemented through async and await keywords to improve application responsiveness. 3. Use LINQ to process data collections concisely. 4. Common errors include null reference exceptions and index out-of-range exceptions. Debugging skills include using a debugger and exception handling. 5. Performance optimization includes using StringBuilder and avoiding unnecessary packing and unboxing.
Testing C# .NET Applications: Unit, Integration, and End-to-End TestingApr 09, 2025 am 12:04 AMTesting strategies for C#.NET applications include unit testing, integration testing, and end-to-end testing. 1. Unit testing ensures that the minimum unit of the code works independently, using the MSTest, NUnit or xUnit framework. 2. Integrated tests verify the functions of multiple units combined, commonly used simulated data and external services. 3. End-to-end testing simulates the user's complete operation process, and Selenium is usually used for automated testing.
Hot AI Tools
Undresser.AI Undress
AI-powered app for creating realistic nude photos
AI Clothes Remover
Online AI tool for removing clothes from photos.
Undress AI Tool
Undress images for free
Clothoff.io
AI clothes remover
AI Hentai Generator
Generate AI Hentai for free.
Hot Article
Hot Tools
MinGW - Minimalist GNU for Windows
This project is in the process of being migrated to osdn.net/projects/mingw, you can continue to follow us there. MinGW: A native Windows port of the GNU Compiler Collection (GCC), freely distributable import libraries and header files for building native Windows applications; includes extensions to the MSVC runtime to support C99 functionality. All MinGW software can run on 64-bit Windows platforms.
EditPlus Chinese cracked version
Small size, syntax highlighting, does not support code prompt function
SublimeText3 Chinese version
Chinese version, very easy to use
SublimeText3 Linux new version
SublimeText3 Linux latest version
Zend Studio 13.0.1
Powerful PHP integrated development environment
