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OverviewFull Product DetailsAuthor: HcySun YangPublisher: Springer Verlag, Singapore Imprint: Springer Verlag, Singapore Edition: 1st ed. 2023 Weight: 0.896kg ISBN: 9789819949465ISBN 10: 9819949467 Pages: 574 Publication Date: 24 September 2023 Audience: Professional and scholarly , Professional & Vocational Format: Paperback Publisher's Status: Active Availability: Manufactured on demand  We will order this item for you from a manufactured on demand supplier. Table of ContentsPart I Overview of Framework Design Chapter 1 Art of Trade-Offs 1.1 Imperative and Declarative 1.2 Trade-Offs Between Performance and Maintainability 1.3 How Does the Virtual DOM Perform 1.4 Run Time and Compile Time 1.5 Summary Chapter 2 Core Elements of Framework Design 2.1 Improving User Experience in Development 2.2 Controlling the Volume of the Framework Code 2.3 Frameworks Need Good Tree-Shaking 2.4 What Kind of Bundle Should Frameworks Output 2.5 Feature Switches 2.6 Error Handling 2.7 Excellent TypeScript Support 2.8 Summary Chapter 3 Design Ideas of Vue.js 3 3.1 Describing UI Declaratively 3.2 Getting to Know Renderers 3.3 Essence of Components 3.4 Working Principle of Templates 3.5 Vue.js Is an Organic Whole Composed of Various Modules 3.6 Summary Part II Response System Chapter 4 The Role and Implementation of Response System 4.1 Responsive Data and Side Effect Functions 4.2 Basic Implementation of Responsive Data 4.3 Designing a Perfect Response System 4.4 Branch Switching and Cleanup 4.5 Nested Effects and Effect Stacks 4.6 Avoiding Infinite Recursive Loops 4.7 Scheduling Execution 4.8 Computation Attributes Computed and Lazy 4.9 Implementation Principles of Watch 4.10 Immediate Watch and Callback Execution Timing 4.11 Side Effects of Expiration 4.12 Summary Chapter 5 Responsive Schemes for Non-Original Values 5.1 Understanding Proxy and Reflect 5.2 How JavaScript Objects and Proxy Work 5.3 How to Proxy Objects 5.4 Reasonable Response Trigger 5.5 Shallow Response VS Deep Response 5.6 Read-Only and Shallow Read-Only 5.7 Proxy Arrays 5.7.1 Index and Length of Arrays 5.7.2 Traversal of Arrays 5.7.3 Array Search Method 5.7.4 Prototype Method for Implicitly Modifying Array Length 5.8 Proxies Set and Map 5.8.1 How to Proxy Set and Map 5.8.2 Establishing Responsive Linkages 5.8.3 Avoiding Contaminating the Original Data Source 5.8.4 Handling forEach 5.8.5 Iterator Methods 5.8.6 Values and Keys Methods 5.9 Summary Chapter 6 Responsive Schemes for Raw Values 6.1 Introducing the Concept of Ref 6.2 Response Loss Problems 6.3 Automatic Ref Removal 6.4 Summary Part III Renderers Chapter 7 Renderer Design 7.1 Integration of Renderers and Response System 7.2 Fundamentals of Renderers 7.3 Custom Renderers 7.4 Summary Chapter 8 Mount and Update 8.1 Mounting Properties of Sub-nodes and Elements 8.2 HTML Attributes and DOM Properties 8.3 Setting Element Properties Correctly 8.4 Class Processing 8.5 Unloading Operations 8.6 Distinguishing the Type of Vnode 8.7 Handling of Events 8.8 Event Bubbling and Update Timing Issues 8.9 Updating Sub-nodes 8.10 Text Nodes and Comment Nodes 8.11 Fragment 8.12 Summary Chapter 9 Simple Diff Algorithms 9.1 Reducing Performance Overhead for DOM Operations 9.2 DOM Replication and the Role of Key 9.3 Finding the Elements That Need to Be Moved 9.4 How to Move Elements 9.5 Adding New Elements 9.6 Removing Non-existent Elements 9.7 Summary Chapter 10 Double-Ended Diff Algorithms 10.1 Principles of Double-Ended Comparison 10.2 Advantages of Double-Ended Comparison 10.3 Treatment of Non-ideal Conditions 10.4 Adding New Elements 10.5 Removing Non-existent Elements 10.6 Summary Chapter 11 Fast Diff Algorithms 11.1 Same Precondition and Postcondition Elements 11.2 Determining Whether DOM Movement Operation Is Required 11.3 How to Move Elements 11.4 Summary Part IV Componentization Chapter 12 Implementation Principles of Components 12.1 Rendering Components 12.2 Component Status and Self-Updating 12.3 Component Instances and Component Lifetime 12.4 Passive Update of Props and Components 12.5 The Role and Implementation of Setup Functions 12.6 Implementation of Component Events and Emit 12.7 Working Principles and Implementation of Slots 12.8 Registration Lifetime 12.9 Summary Chapter 13 Asynchronous Components and Functional Components 13.1 Problems to Be Solved by Asynchronous Components 13.2 Implementation Principles of Asynchronous Components 13.2.1 Encapsulation of defineAsyncComponent Function 13.2.2 Timeout and Error Components 13.2.3 Delay and Loading Components 13.2.4 Retry Mechanism 13.3 Functional Components 13.4 Summary Chapter 14 Built-In Components and Modules 14.1 Implementation Principles of KeepAlive Component 14.1.1 Activation and Deactivation of Components 14.1.2 Include and Exclude 14.1.3 Cache Management 14.2 Implementation Principles of Teleport Components 14.2.1 Problems to Be Solved by Teleport Components 14.2.2 Implementing Teleport Components 14.3 Implementation Principles of Transition Components 14.3.1 Transition of Native DOM 14.3.2 Implementation of Transition Components 14.4 Summary Part V Compilers Chapter 15 Overview of Core Technologies of Compilers 15.1 Compilers for Template DSL 15.2 Implementation Principles of Parsers and Finite State Machines 15.3 Constructing AST 15.4 AST Transformation and Plug-In Architecture 15.4.1 Access to Nodes 15.4.2 Conversion and Node Operations 15.4.3 Entry and Exit 15.5 Converting Template AST to JavaScript AST 15.6 Code Generation 15.7 Summary Chapter 16 Parsers 16.1 Text Patterns and Their Impact on Parsers 16.2 Recursive Descent Algorithm Construction Template AST 16.3 Start and Stop of Finite State Machines 16.4 Parsing Label Nodes 16.5 Parsing Attributes 16.6 Parsing Text and Decoding HTML Entities 16.6.1 Parsing Text 16.6.2 Decode Named Character References 16.6.3 Decode Numeric Character References 16.7 Analytic Interpolation and Annotation 16.8 Summary Chapter 17 Compilation Optimization 17.1 Dynamic Node Collection and Patch Flags 17.1.1 Problems of Traditional Diff Algorithms 17.1.2 Block and PatchFlags 17.1.3 Collecting Dynamic Nodes 17.1.4 Runtime Support for Renderers 17.2 Block Trees 17.2.1 Nodes with V-if Instructions 17.2.2 Nodes with V-for Instructions 17.2.3 Fragment Stability 17.3 Static Lifting 17.4 Pre-stringing 17.5 Caching Inline Event Handlers 17.6 V-once 17.7 Summary Part VI Server-Side Rendering Chapter 18 Isomorphic Rendering 18.1 CSR, SSR, and Isomorphic Rendering 18.2 Rendering Virtual DOM as HTML Strings 18.3 Rendering Components as HTML Strings 18.4 Principles of Client-Side Activation 18.5 Writing Isomorphic Code 18.5.1 Component Lifetime 18.5.2 Using Cross-Platform APIs 18.5.3 Introducing Modules Only at One End 18.5.4 Avoiding State Contamination Caused by Cross Requests 18.5.5 < ClientOnly > Components 18.6 SummaryReviewsAuthor InformationHcySun Yang is the core member of the official Vue.js team, focusing on web R&D. He is one of the core contributors of Vue.js 3, the author of Vuese (a vue.js document generator), an active member of the technical community. He has written a number of well-received technical blogs. He is also an inspirational programmer who has worked for ByteDance, Meituan, and other major Internet companies. In addition, he was a special guest speaker at the 2021 Vue Conf conference. Tab Content 6Author Website:Countries AvailableAll regions |
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