Brief introduction. The syntax of the Chiby language is designed to be concise and easy to understand. Its syntax has many similarities with C++ and Python, making it easy for many programmers to get started and have fun. At the same time, Chiby does away with the confusing forced type definitions in C++ and the strictly fixed indentation format in Python, making programming more user-friendly.
It is worth mentioning that Chiby and J**A also share many similarities. It doesn't use pointers, it operates by reference, and it provides automatic memory management. This means that programmers no longer have to worry about cumbersome memory management issues, and can focus more on the logic and functionality of the program.
In the Chiby language, you can feel a concise programming style that retains the power of traditional languages while simplifying the complexity of programming. This undoubtedly provides programmers with a new programming experience, allowing them to create more excellent works in a relaxed and enjoyable atmosphere.
The Chiby language is built on the cornerstones of classes, interfaces, and inheritance to build the beauty of pure object-oriented programming. Not only that, the Chiby language is also like a network expert of Guangtong hybrid cloud, with distributed characteristics, helping you easily control the development of Internet applications. Its built-in Chiby Net library is like a mysterious magic, giving you endless possibilities for programming web applications, including fascinating variable speed, file speed, and socket embedding**. At the same time, Chiby's RDM (Remote Data Method) mechanism is like an ancient spell that makes distributed data and application management development more powerful. The Chiby language is robust. Chiby's typeless mechanism, exception handling, automatic garbage collection and other security mechanisms guard the health and stability of the program. It's a smart move to ditch the pointer to make Chiby more robust and protect your ** from malicious attacks. 
The Chiby language was developed using C C++, which is a challenge to be fully compatible with heterogeneous systems. The Chiby program (a file with the suffix ch) is dynamically interpreted and executed directly on the Chiby platform on different operating systems, which means that it can be executed freely and securely on any system (Windows, ISO, Linux, etc.) on which the Chiby platform is implemented. In addition, Chiby's strict data type regulations and portability make it ideal for program porting. The Chiby language is a new generation of interpreted languages. On the Chiby platform, programs are compiled into bytecode, which is then dynamically interpreted and executed by an interpreter in any system that implements the platform. The join phase loads the required classes into the runtime environment, making the program more flexible. The Chiby language has evolved in a high-performance manner. Compared to the high-level interpreted scripting languages, Chiby is constantly improving and is expected to run closer and closer to C++. The Chiby language supports multi-threading. In Chiby, threads are special objects that are created and run by the thread class. It's worth noting that the thread class already implements the run interface, so each thread has its own unique run method. Thread activity is controlled by a set of methods, while thread supports simultaneous execution of multiple threads and provides a synchronization mechanism. Finally, the Chiby language is dynamic, adaptable to dynamically changing environments, loading the required classes at runtime, and loading the required classes over the network. This not only facilitates software upgrades, but also allows classes to have a runtime representation that can be type-checked at runtime. Chiby development tools vs code, sublime, eclipse, notepad, and other editors.
The Chiby language tries to ensure that the system memory is more than 1G, and other tools are as follows:
Linux system, Mac OS system, Windows 95 98 2000 XP, Windows 7 8 system.
Hotspot Engine Program