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Learn LLVM 17

You're reading from   Learn LLVM 17 A beginner's guide to learning LLVM compiler tools and core libraries with C++

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Product type Paperback
Published in Jan 2024
Publisher Packt
ISBN-13 9781837631346
Length 416 pages
Edition 2nd Edition
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Authors (2):
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Kai Nacke Kai Nacke
Author Profile Icon Kai Nacke
Kai Nacke
Amy Kwan Amy Kwan
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Amy Kwan
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Table of Contents (20) Chapters Close

Preface 1. Part 1: The Basics of Compiler Construction with LLVM
2. Chapter 1: Installing LLVM FREE CHAPTER 3. Chapter 2: The Structure of a Compiler 4. Part 2: From Source to Machine Code Generation
5. Chapter 3: Turning the Source File into an Abstract Syntax Tree 6. Chapter 4: Basics of IR Code Generation 7. Chapter 5: IR Generation for High-Level Language Constructs 8. Chapter 6: Advanced IR Generation 9. Chapter 7: Optimizing IR 10. Part 3: Taking LLVM to the Next Level
11. Chapter 8: The TableGen Language 12. Chapter 9: JIT Compilation 13. Chapter 10: Debugging Using LLVM Tools 14. Part 4: Roll Your Own Backend
15. Chapter 11: The Target Description 16. Chapter 12: Instruction Selection 17. Chapter 13: Beyond Instruction Selection 18. Index 19. Other Books You May Enjoy

Working with arrays, structs, and pointers

For almost all applications, basic types such as INTEGER are not sufficient. For example, to represent mathematical objects such as a matrix or a complex number, you must construct new data types based on existing ones. These new data types are generally known as aggregate or composite.

Arrays are a sequence of elements of the same type. In LLVM, arrays are always static, which means that the number of elements is constant. The tinylang type ARRAY [10] OF INTEGER or the C type long[10] is expressed in IR as follows:

[10 x i64]

Structures are composites of different types. In programming languages, they are often expressed with named members. For example, in tinylang, a structure is written as RECORD x: REAL; color: INTEGER; y: REAL; END; and the same structure in C is struct { float x; long color; float y; };. In LLVM IR, only the type names are listed:

{ float, i64, float }

To access a member, a numerical index is used. Like...

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