"Tutorial" "Reprint" C # Sharp Experience (Li Jianzhong)-03

Source: Internet
Author: User
Tags execution garbage collection soap microsoft sql server net xml reference thread web services
Tutorial C # Sharp Experience
The third part is about Microsoft.NET Platform Foundation construction

Nanjing University of Posts and Telecommunications Li Jianzhong (cornyfield@263.net)
It is meaningless to talk about C # without the Microsoft.NET platform, and the "Sharp" of C # is also a powerful platform behind it. Just adhere to the grammatical level is not experienced C # sharp Place, C # program Many secretive place must rely on Microsoft.NET platform to the depth of mastery and application. Simply put, the Microsoft.NET platform is a revolutionary new XML Web Intelligent Computing Service platform built on open Internet protocols and standards, using new tools and services to meet people's computing and communication needs. It allows applications to communicate with each other easily and quickly on the internet without having to worry about which operating system and programming language to use.
Technically, the Microsoft.NET platform consists of two cores, the common language runtime (Common Language Runtime, the CLR), and the Microsoft.NET Framework class library, They provide the underlying technical support for the implementation of the Microsoft.NET platform. The common language runtime is a service that is built at the bottom of the operating system and is the execution engine for the Microsoft.NET platform. The Microsoft.NET framework includes a set of class libraries that can be used in any programming language to make it easier for programmers to build web-based applications and services. On top of this are many application templates that provide advanced components and services for developing network applications and services. The vastness of the Microsoft.NET platform is not the thousands of words that can be clarified here, and we will focus on the platform infrastructure that is critical to our development of applications in C #.
Common Language Runtime (CLR)
The common language runtime is the foundation upon which the entire Microsoft.NET framework is built, and it provides a managed code execution environment for Microsoft.NET applications. It is actually a piece of proxy code that resides in memory and is responsible for code management throughout the execution of the application, typically: memory management, thread management, security management, remote management, Just-in-time compilation, code-enforced security type checking, and more. These can be called the lifeline of the Microsoft.NET framework.
In fact, we can see that the CLR is acting as a part of the traditional operating system management capabilities. Code under the CLR is called managed code, otherwise it is referred to as unmanaged code. We can also view the CLR as a technical specification that can be run with its support, regardless of the language in which the program is written, as long as it is compiled into Microsoft intermediate Language (MSIL), which enables the application to be independent of the language. There are currently up to twenty or thirty programming languages that support the CLR. The Microsoft intermediate language is the language of the PE file that we output from the compiler in the Microsoft.NET platform. It is the most complete language set of the Microsoft.NET platform, very similar to the assembly language on the PC. The Just-in-time compiler compiles the intermediate language into a cost-binary code at run time. It provides low-level technical support for the Microsoft.NET platform in multiple languages. In addition, as needed, the Microsoft.NET Just-in-time compiler provides economical just-in-time compilation and installation-time compilation techniques in exceptional cases.
The purpose of the CLR is to provide first-order support for component-based programming directly in the application's operating environment. Just as you add a pair of Windows, direct support for controls, graphics, and menus, adding the underlying structure for message-based programming, and adding abstract content to support device independence, the CLR directly supports components (including properties and events), objects, inheritance, polymorphism, and interfaces. Direct support for properties and events makes component-based programming simpler, without the need for special interfaces and adaptive design patterns. While the component is running, the CLR is responsible for managing memory allocations, starting and aborting threads and processes, hardening safety factors, and also adjusting the satellite configuration of any other components involved in the component. Serialization support allows you to manipulate components stored on disk in a variety of formats, including soap based on industry-standard XML. The CLR provides a powerful, coordinated way to handle error conditions. Each module has built-in complete metadata, which means that features such as dynamic creation and method invocation are easier and more secure. Mapping even allows us to flexibly create and execute code. We can control the version of the components that the application uses, which makes the application more reliable. Component code is a processor-independent and easily verifiable intermediate language (IL), not a particular machine language, which means that components can run not only on a variety of computers, but also ensure that they do not overwrite memory that they do not use, and do not potentially cause system crashes. The CLR determines to them the appropriate level of trust based on factors such as the source of the managed components (such as from the Internet, corporate LANs, local machines), so that the CLR qualifies them for certain sensitive operations such as reading files, modifying the registry, and so on, based on their degree of trust. Strict security checks on code types with a common type system (Common type systems, abbreviated as CTS) avoid the possibility of type mismatch between different components. All programming under the CLR is done around the component.
It is worth noting that the CLR is typically hosted in other High-performance server applications, such as Internet Information Server (IIS), Microsoft SQL Server. This allows us to leverage the common language runtime's many security, efficient advantages to deploy its own business logic.
Memory Management
The most important thing the CLR has to do with programmers is its memory management capabilities, so much so that we need to list it separately. It provides a high-performance garbage collection environment for applications. The garbage collector automatically tracks the objects of application operations, and programmers no longer have to deal with complex memory management. In some of the so-called masters who like to open their mouth to the bottom of the program, automatic memory management has always been the object of ridicule. Indeed, an automated memory manager designed for a common software environment will never be built on the hand-made custom tailored to a particular program. But the modern software industry is no longer a hundreds of line of code workshop operations, tens of thousands of lines of code, a large number of business logic is no longer the dexterity of the algorithm, but manageability, maintainable engineering code. Net/c# is not prepared for such a workshop master, C language is their beauty. In a Microsoft.NET managed environment, the CLR handles the memory layout of objects, manages references to objects, and frees up memory (automatic garbage collection) that the system is no longer using. This fundamentally solves the memory leakage and invalid memory reference problem which has plagued the software for a long time, which greatly reduces the programmer's development burden and improves the robustness of the program. In fact, we can't find the language instructions for memory operation or release in the managed environment at all. It is worth noting that microsoft.net applications can use managed data or unmanaged data, but the CLR cannot judge managed and unmanaged data.
The garbage collector is responsible for management. NET application memory allocation and release. When a new object is created with the Managed, the garbage collector allocates memory resources for the object in the managed heap (HEAP). As long as the memory space within the managed heap is available, the garbage collector allocates memory for each newly created object. When an application no longer holds a reference to an object, the garbage collector detects and releases the object. It is worth noting that the garbage collector does not start releasing work immediately when an object reference is not valid, but based on an algorithm to determine when to collect and what objects to collect. The memory resources of any one machine are always limited, and when the memory space in the managed heap is insufficient, the garbage collector initiates the collection thread to release the system memory. The garbage collector determines which objects are freed from memory, depending on how long the object is alive, and how many times the object has been collected. In macroscopic view, we do not know the exact behavior of garbage collection, but the Microsoft.NET class library provides us with some functions to control the garbage collection behavior, in some special cases, we need to do some limited operation.
The garbage collector does not mean that the programmer will ever be able to do this once and for all, if you are working on an object that wraps the underlying operating system resources such as files, network Connections, Windows handles, bitmaps, and so on, we still need to explicitly release these unmanaged resources. This is explained in detail in "The five-talk constructor and the destructor".
Microsoft.NET Framework Class library
The Microsoft.NET Framework class library is a broad set of object-oriented reusable classes that provide a variety of advanced components and services for applications. It frees programmers from heavy programming details to focus on the business logic of the program, providing various development support for the application-whether it's a traditional command-line program or a Windows graphical interface program, or a asp.net or XML Web service designed for the next generation of distributed computing platforms on the Internet. The following is a generalization of these components and services.
  • System Framework Services
    The service framework includes a set of base-class libraries that developers want to exist in the standard language library, such as collections, input/output, strings, and data classes. In addition, the base class library provides classes that access operating system services such as drawings, networks, threads, globalization, and encryption. The service framework also includes data access class libraries, and development tools such as debugging and profiling services that can be used by classes.
  • Ado. NET components
    Ado. NET provides data access services for network-based, extensible applications and services. Ado. NET not only supports traditional data access based on connection pointer style, but also provides high performance access support for connectionless data templates that are more suitable for returning data to client applications.
  • XML Data Components
    All data can be thought of as XML, and developers can use XML to transform, transfer, and validate services for any data. The system framework provides first-level operational support for XML data. The system also supports a common conversion between ado.net data and XML data.
  • Windows Form Components
    The Windows Forms component provides developers with a powerful Windows application model and a rich Windows user interface, including traditional ActiveX controls and new Windows XP interfaces, such as transparent, layered, floating windows. Strong design-time support is also an exciting place for Windows Form components.
  • Asp. NET Application Services
    Asp. NET is a high-performance language for handling HTTP requests based on low-level architecture. The way of compiling and running greatly improves its performance. Asp. NET uses component-based Microsoft. NET Framework, so it obtains such advantages as Xcopy compounding, component parallel compounding, and xml-based compounding. It supports real-time updates of applications, providing high-speed buffering services to improve performance.
  • asp.net Web Forms
    asp.net Web Forms bring the high productivity benefits of VB based forms to the development of Web applications. asp.net Web Forms support the traditional ASP syntax of mixing HTML content with corner code, but it proposes a more structured approach to separating application code from user interface content. Asp. NET provides a set of ASP.net Web Form controls that map traditional HTML user interface parts (including list boxes, text boxes, and buttons) and a more complex and powerful network application control (such as calendars and ad boards).
  • XML Web Services
    Asp. NET Application Service architecture provides an advanced programmable template for building XML Web services with asp.net. Although building an XML Web service does not limit the use of a particular service platform, it offers many advantages that simplify the development process. With this programming model, developers do not even need to understand HTTP, soap, or any other network service specification. asp.net XML Web Services provides a simple, flexible, industry-standard model that leverages existing architectures and applications for binding applications on the Internet.


Related Article

Contact Us

The content source of this page is from Internet, which doesn't represent Alibaba Cloud's opinion; products and services mentioned on that page don't have any relationship with Alibaba Cloud. If the content of the page makes you feel confusing, please write us an email, we will handle the problem within 5 days after receiving your email.

If you find any instances of plagiarism from the community, please send an email to: info-contact@alibabacloud.com and provide relevant evidence. A staff member will contact you within 5 working days.

A Free Trial That Lets You Build Big!

Start building with 50+ products and up to 12 months usage for Elastic Compute Service

  • Sales Support

    1 on 1 presale consultation

  • After-Sales Support

    24/7 Technical Support 6 Free Tickets per Quarter Faster Response

  • Alibaba Cloud offers highly flexible support services tailored to meet your exact needs.