Explains the basic concepts of assembly language and how to apply it for use on the Amiga, and includes programming examples and discussions of the Amiga's software and hardware
The Commodore Amiga is known for the great capabilities it introduced at the time of its launch. These capabilities were down to the hardware as well as it's graphical pre-emptive multitasking operating system, now usually referred to as the classic AmigaOS. This book provides an introduction into the programming of the classic AmigaOS using C as well as assembly language. It is aimed at programmers who have not programmed for the Amiga before as well as programmers who did this years ago and would like a refresher before diving back in. A general knowledge of computer programming is therefore assumed. The beauty of the classic AmigaOS is that it provides most of the things one would expect of a modern graphical pre-emptive multitasking operating system, but at the same time the OS is lean enough for the programmer to understand what is going on under the hood. The first chapters provide information on setting up programming software on a classic Amiga. The chapter about the 68000 processor will provide an overview of the processor's inner workings and instructions. The chapters about Exec, Intuition, GadTools, ASL, Graphics and Diskfont will explain the usage of these libraries and the functionality they provide. The use of files, directories as well as low-level disk access is detailed in the DOS and Trackdisk chapters.
Unlike high-level languages such as Java and C++, assembly language is much closer to the machine code that actually runs computers; it's used to create programs or modules that are very fast and efficient, as well as in hacking exploits and reverse engineering Covering assembly language in the Pentium microprocessor environment, this code-intensive guide shows programmers how to create stand-alone assembly language programs as well as how to incorporate assembly language libraries or routines into existing high-level applications Demonstrates how to manipulate data, incorporate advanced functions and libraries, and maximize application performance Examples use C as a high-level language, Linux as the development environment, and GNU tools for assembling, compiling, linking, and debugging
Explains how the Commodore 64 home computer works, looks at program writing, data transfer, logic and arithmetic operations, loops, sound generation, and graphics, and introduces assembly language
Assembly language is as close to writing machine code as you can get without writing in pure hexadecimal. Since it is such a low-level language, it's not practical in all cases, but should definitely be considered when you're looking to maximize performance. With Assembly Language by Chris Rose, you'll learn how to write x64 assembly for modern CPUs, first by writing inline assembly for 32-bit applications, and then writing native assembly for C++ projects. You'll learn the basics of memory spaces, data segments, CISC instructions, SIMD instructions, and much more. Whether you're working with Intel, AMD, or VIA CPUs, you'll find this book a valuable starting point since many of the instructions are shared between processors. This updated and expanded second edition of Book provides a user-friendly introduction to the subject, Taking a clear structural framework, it guides the reader through the subject's core elements. A flowing writing style combines with the use of illustrations and diagrams throughout the text to ensure the reader understands even the most complex of concepts. This succinct and enlightening overview is a required reading for all those interested in the subject . We hope you find this book useful in shaping your future career & Business.