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Item type | Location | Call Number | Status | Notes | Date Due |
---|---|---|---|---|---|
Book | AUM Main Library English Collections Hall | 005.133 L881 (Browse Shelf) | Available | inv 202301028 |
005.133 L693Introduction to JAVA programming : | 005.133 L693Introduction to JAVA programming : | 005.133 L783Python machine learning by example : | 005.133 L881C++ crash course : | 005.133 M118C# programmer's handbook / | 005.133 M118C# programmer's handbook / |
Includes bibliographical references and index
Up and running -- Types -- Reference types -- The object life cycle -- Runtime polymorphism -- Compile-time polymorphism -- Expressions -- Statements -- Functions -- Testing -- Smart pointers -- Utilities -- Containers -- Iterators -- Strings -- Streams -- Filestreams -- Algorithms -- Concurrency and parallelism -- Network programming with boost Asio -- Writing applications
Available to OhioLINK libraries
A fast-paced, thorough introduction to modern C++ written for experienced programmers. After readingC++ Crash Course, you'll be proficient in the core language concepts, the C++ Standard Library, and the Boost Libraries. C++ is one of the most widely used languages for real-world software. Wherever performance matters, C++ is thede factostandard. It's the language behind operating systems, embedded devices, games, web browsers, and virtual reality systems. As a C++ developer, you can program efficient software on virtually any platform. C++ Crash Course cuts through the weeds to get you straight to the core of C++17, the most modern revision of the ISO standard. In Part I, you'll learn about all of the essential core language features. Part II introduces you to the C++ Standard Library and Boost Libraries, where you'll learn about high-quality, fully-featured facilities immediately available to you. You'll learn all the major features of modern C++, including: - Fundamental types, reference types, and user-defined types - The object lifecycle including storage duration, memory management, exceptions, call stacks, and the RAII (resource acquisition is initialization) paradigm - Compile-time polymorphism with templates and run-time polymorphism with virtual classes - Advanced expressions, statements, and functions - Smart pointers, data structures, dates and times, numerics, and probability/statistics facilities - Containers, iterators, strings, and algorithms - Streams and files, concurrency, networking, and application development
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