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Learn LLVM 12
Learn LLVM 12

Learn LLVM 12: A beginner's guide to learning LLVM compiler tools and core libraries with C++

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Learn LLVM 12

Chapter 1: Installing LLVM

To learn how to work with LLVM, it is best to begin by compiling LLVM from the source. LLVM is an umbrella project, and its GitHub repository contains the sources for all the projects that belong to LLVM. Each LLVM project is in a top-level directory of the repository. Besides cloning the repository, your system must also have all tools that are required by the build system installed.

In this chapter, you will learn about the following topics:

  • Getting the prerequisites ready, which will show you how to set up your build system.
  • Building with CMake, which will cover how to compile and install the LLVM core libraries and Clang with CMake and Ninja.
  • Customizing the build process, which will talk about the various way we can influence the build process.

Getting the prerequisites ready

To work with LLVM, your development system must run a common operating system such as Linux, FreeBSD, macOS, or Windows. Building LLVM and Clang with debug symbols enabled easily need tens of gigabytes of disk space, so be sure that your system has plenty of disk space available – in this scenario, you should have 30 GB of free space.

The required disk space depends heavily on the chosen build options. For example, building only the LLVM core libraries in release mode, while targeting only one platform, requires about 2 GB of free disk space, which is the bare minimum needed. To reduce compile times, a fast CPU (such as a quadcore CPU with 2.5 GHz clock speed) and a fast SSD would also be helpful.

It is even possible to build LLVM on a small device such as a Raspberry Pi – it just takes a lot of time to do so. I developed the examples in this book on a laptop with an Intel quadcore CPU running at 2.7 GHz clock speed, with 40 GB RAM and 2.5 TB SSD disk space. This system is well-suited for the development task at hand.

Your development system must have some prerequisite software installed. Let's review the minimal required versions of these software packages.

Note

Linux distributions often contain more recent versions that can be used. The version numbers are suitable for LLVM 12. Later versions of LLVM may require more recent versions of the packages mentioned here.

To check out the source from GitHub, you need git (https://git-scm.com/). There is no requirement for a specific version. The GitHub help pages recommend using at least version 1.17.10.

The LLVM project uses CMake (https://cmake.org/) as the build file generator. At least version 3.13.4 is required. CMake can generate build files for various build systems. In this book, Ninja (https://ninja-build.org/) is being used because it is fast and available on all platforms. The latest version, 1.9.0, is recommended.

Obviously, you also need a C/C++ compiler. The LLVM projects are written in modern C++, based on the C++14 standard. A conforming compiler and standard library are required. The following compilers are known to work with LLVM 12:

  • gcc 5.1.0 or later
  • Clang 3.5 or later
  • Apple Clang 6.0 or later
  • Visual Studio 2017 or later

Please be aware that with further development of the LLVM project, the requirements for the compiler are most likely to change. At the time of writing, there are discussions to use C++17 and drop Visual Studio 2017 support. In general, you should use the latest compiler version available for your system.

Python (https://python.org/) is used to generate the build files and to run the test suite. It should be at least version 3.6.

Although not covered in this book, there may be reasons why you need to use Make instead of Ninja. In this case, you need to use GNU Make (https://www.gnu.org/software/make/) version 3.79 or later. The usage of both build tools is very similar. It is sufficient to replace ninja in each command with make for the scenarios described here.

To install the prerequisite software, the easiest thing to do is use the package manager from your operating system. In the following sections, the commands you must enter to install the software for the most popular operating systems are shown.

Ubuntu

Ubuntu 20.04 uses the APT package manager. Most of the basic utilities are already installed; only the development tools are missing. To install all the packages at once, type the following:

$ sudo apt install –y gcc g++ git cmake ninja-build

Fedora and RedHat

The package manager for Fedora 33 and RedHat Enterprise Linux 8.3 is called DNF. Like Ubuntu, most of the basic utilities are already installed. To install all the packages at once, type the following:

$ sudo dnf install –y gcc gcc-c++ git cmake ninja-build

FreeBSD

On FreeBSD 12 or later, you must use the PKG package manager. FreeBSD differs from Linux-based systems in that Clang is the preferred compiler. To install all the packages at once, type the following:

$ sudo pkg install –y clang git cmake ninja

OS X

For development on OS X, it is best to install Xcode from the Apple store. While the XCode IDE is not used in this book, it comes with the required C/C++ compilers and supporting utilities. To install the other tools, you can use the Homebrew package manager (https://brew.sh/). To install all the packages at once, type the following:

$ brew install git cmake ninja

Windows

Like OS X, Windows does not come with a package manager. The easiest way to install all the software is to use the Chocolately (https://chocolatey.org/) package manager. To install all the packages at once, type the following:

$ choco install visualstudio2019buildtools cmake ninja git\
  gzip bzip2 gnuwin32-coreutils.install

Please note that this only installs the build tools from Visual Studio 2019. If you would like to get the Community Edition (which includes the IDE), then you must install package visualstudio2019community instead of visualstudio2019buildtools. Part of the Visual Studio 2019 installation is the x64 Native Tools Command Prompt for VS 2019. Upon using this command prompt, the compiler is automatically added to the search path.

Configuring Git

The LLVM project uses Git for version control. If you have not used Git before, then you should do some basic configuration of Git first before continuing; that is, setting a username and email address. Both pieces of information are used if you commit changes. In the following commands, replace Jane with your name and jane@email.org with your email:

$ git config --global user.email "jane@email.org"
$ git config --global user.name "Jane"

By default, Git uses the vi editor for commit messages. If you would prefer using another editor, then you can change the configuration in a similar way. To use the nano editor, type the following:

$ git config --global core.editor nano

For more information about git, please see the Git Version Control Cookbook - Second Edition by Packt Publishing (https://www.packtpub.com/product/git-version-control-cookbook/9781782168454).

Building with CMake

With the build tools ready, you can now check out all the LLVM projects from GitHub. The command for doing this is essentially the same on all platforms. However, on Windows, it is recommended to turn off auto-translation for line endings.

Let's review this process in three parts: cloning the repository, creating a build directory, and generating the build system files.

Cloning the repository

On all non-Windows platforms, type in the following command to clone the repository:

$ git clone https://github.com/llvm/llvm-project.git

On Windows, you must add the option to disable line endings from being auto-translated. Here, type the following:

$ git clone --config core.autocrlf=false\  https://github.com/llvm/llvm-project.git

This git command clones the latest source code from GitHub into a local directory named llvm-project. Now, change the current directory to the new llvm-project directory with the following command:

$ cd llvm-project

Inside the directory is all the LLVM projects, each in its own directory. Most notably, the LLVM core libraries are in the llvm subdirectory. The LLVM project uses branches for subsequent release development ("release/12.x") and tags ("llvmorg-12.0.0") to mark a certain release. With the preceding clone command, you get the current development state. This book uses LLVM 12. To check out the first release of LLVM 12, type the following:

$ git checkout -b llvmorg-12.0.0

With this, you have cloned the whole repository and checked out a tag. This is the most flexible approach.

Git also allows you to clone only a branch or a tag (including history). With git clone --branch llvmorg-12.0.0 https://github.com/llvm/llvm-project, you check out the same label, as we did previously, but only the history for this tag is cloned. With the additional–-depth=1 option, you prevent the history from being cloned too. This saves time and space but obviously limits what you can do locally.

The next step is to create a build directory.

Creating a build directory

Unlike many other projects, LLVM does not support inline builds and requires a separate build directory. This can easily be created inside the llvm-project directory. Change into this directory with the following command:

$ cd llvm-project

Then, create a build directory called build for simplicity. Here, the commands for Unix and Windows systems differ. On Unix-likes system, you should use the following command:

$ mkdir build

On Windows, you should use the following command:

$ md build

Then, change into the build directory:

$ cd build

Now, you are ready to create the build system files with the CMake tool inside this directory.

Generating the build system files

To generate the build system files that will compile LLVM and Clang using Ninja, run the following command:

$ cmake –G Ninja -DLLVM_ENABLE_PROJECTS=clang ../llvm

Tip

On Windows, the backslash character, \, is the directory name separator. On Windows, CMake automatically translates the Unix separator, /, into the Windows one.

The -G option tells CMake which system to generate build files for. The most often used options are as follows:

  • Ninja: For the Ninja build system
  • Unix Makefiles: For GNU Make
  • Visual Studio 15 VS2017 and Visual Studio 16 VS2019: For Visual Studio and MS Build
  • Xcode: For XCode projects

The generation process can be influenced by setting various variables with the –D option. Usually, they are prefixed with CMAKE_ (if defined by CMake) or LLVM_ (if defined by LLVM). With the LLVM_ENABLE_PROJECTS=clang variable setting, CMake generates build files for Clang in addition to LLVM. The last part of the command tells CMake where to find the LLVM core library source. More on that in the next section.

Once the build files have been generated, LLVM and Clang can be compiled with the following command:

$ ninja

Depending on the hardware resources, this command takes between 15 minutes (a server with lots of CPU cores and memory and fast storage) and several hours (dual-core Windows notebook with limited memory) to run. By default, Ninja utilizes all available CPU cores. This is good for compilation speed but may prevent other tasks from running. For example, on a Windows-based notebook, it is almost impossible to surf the internet while Ninja is running. Fortunately, you can limit resource usage with the –j option.

Let's assume you have four CPU cores available and that Ninja should only use two (because you have parallel tasks to run). Here, you should use the following command for compilation:

$ ninja –j2

Once compilation is finished, a best practice is to run the test suite to check if everything works as expected:

$ ninja check-all

Again, the runtime of this command varies widely due to the available hardware resources. The Ninja check-all target runs all test cases. Targets are generated for each directory containing test cases. Using check-llvm, instead of check-all runs the LLVM tests but not the Clang tests; check-llvm-codegen only runs the tests in the CodeGen directory from LLVM (that is, the llvm/test/CodeGen directory).

You can also do a quick manual check. One of the LLVM applications you will be using is llc, the LLVM compiler. If you run it with the -version option, it shows the LLVM version of it, its host CPU, and all its supported architectures:

$ bin/llc -version

If you have trouble getting LLVM compiled, then you should consult the Common Problems section of the Getting Started with the LLVM System documentation (https://llvm.org/docs/GettingStarted.html#common-problems) for solutions to typical problems.

Finally, install the binaries:

$ ninja install

On a Unix-like system, the install directory is /usr/local. On Windows, C:\Program Files\LLVM is used. This can be changed, of course. The next section explains how.

Customizing the build process

The CMake system uses a project description in the CMakeLists.txt file. The top-level file is in the llvm directory; that is, llvm/CMakeLists.txt. Other directories also contain CMakeLists.txt files, which are recursively included during the build-file generation.

Based on the information provided in the project description, CMake checks which compilers have been installed, detects libraries and symbols, and creates the build system files, such as build.ninja or Makefile (depending on the chosen generator). It is also possible to define reusable modules, such as a function to detect if LLVM is installed. These scripts are placed in the special cmake directory (llvm/cmake), which is searched automatically during the generation process.

The build process can be customized by defining CMake variables. The–D command-line option is used to set a variable to a value. These variables are used in CMake scripts. Variables defined by CMake itself are almost always prefixed with CMAKE_, and these variables can be used in all projects. Variables defined by LLVM are prefixed with LLVM_ but they can only be used if the project definition includes the use of LLVM.

Variables defined by CMake

Some variables are initialized with the values of environment variables. The most notable are CC and CXX, which define the C and C++ compilers to be used for building. CMake tries to locate a C and a C++ compiler automatically, using the current shell search path. It picks the first compiler that's found. If you have several compilers installed, such as gcc and Clang or different versions of Clang, then this might not be the compiler you want for building LLVM.

Suppose you like to use clang9 as a C compiler and clang++9 as a C++ compiler. Here, you can invoke CMake in a Unix shell in the following way:

$ CC=clang9 CXX=clang++9 cmake ../llvm

This sets the value of the environment variables for the invocation of cmake. If necessary, you can specify an absolute path for the compiler executables.

CC is the default value of the CMAKE_C_COMPILER CMake variable, while CXX is the default value of the CMAKE_CXX_COMPILER CMake variable. Instead of using the environment variables, you can set the CMake variables directly. This is equivalent to the preceding call:

$ cmake –DCMAKE_C_COMPILER=clang9\
  -DCMAKE_CXX_COMPILER=clang++9 ../llvm

Other useful variables defined by CMake are as follows:

  • CMAKE_INSTALL_PREFIX: A path prefix that is prepended to every path during installation. The default is /usr/local on Unix and C:\Program Files\<Project> on Windows. To install LLVM in the /opt/llvm directory, you must specify -DCMAKE_INSTALL_PREFIX=/opt/llvm. The binaries are copied to /opt/llvm/bin, the library files are copied to /opt/llvm/lib, and so on.
  • CMAKE_BUILD_TYPE: Different types of builds require different settings. For example, a debug build needs to specify options for generating debug symbols and are usually linking against debug versions of system libraries. In contrast, a release build uses optimization flags and links against production versions of libraries. This variable is only used for build systems that can only handle one build type, such as Ninja or Make. For IDE build systems, all variants are generated, and you must use the mechanism of the IDE to switch between build types. Some possible values are as follows:

    DEBUG: Build with debug symbols

    RELEASE: Build with optimization for speed

    RELWITHDEBINFO: Release build with debug symbols

    MINSIZEREL: Build with optimization for size

    The default build type is DEBUG. To generate build files for a release build, you must specify -DCMAKE_BUILD_TYPE=RELEASE.

  • CMAKE_C_FLAGS and CMAKE_CXX_FLAGS: These are extra flags that are used when we're compiling C and C++ source files. The initial values are taken from the CFLAGS and CXXFLAGS environment variables, which can be used as alternatives.
  • CMAKE_MODULE_PATH: Specifies additional directories that are searched for in CMake modules. The specified directories are searched before the default ones. The value is a semicolon-separated list of directories.
  • PYTHON_EXECUTABLE: If the Python interpreter is not found or if the wrong one is picked if you have installed multiple versions of it, you can set this variable to the path of the Python binary. This variable only takes effect if the Python module of CMake is included (which is the case for LLVM).

CMake provides built-in help for variables. The --help-variable var option prints help for the var variable. For instance, you can type the following to get help for CMAKE_BUILD_TYPE:

$ cmake --help-variable CMAKE_BUILD_TYPE

You can also list all the variables with the following command:

$ cmake --help-variablelist

This list is very long. You may want to pipe the output to more or a similar program.

Variables defined by LLVM

The variables defined by LLVM work in the same way as those defined by CMake, except that there is no built-in help. The most useful variables are as follows:

  • LLVM_TARGETS_TO_BUILD: LLVM supports code generation for different CPU architectures. By default, all these targets are built. Use this variable to specify the list of targets to build, separated by semicolons. The current targets are AArch64, AMDGPU, ARM, BPF, Hexagon, Lanai, Mips, MSP430, NVPTX, PowerPC, RISCV, Sparc, SystemZ, WebAssembly, X86, and XCore. all can be used as shorthand for all targets. The names are case-sensitive. To only enable PowerPC and the System Z target, you must specify -DLLVM_TARGETS_TO_BUILD="PowerPC;SystemZ".
  • LLVM_ENABLE_PROJECTS: This is a list of the projects you want to build, separated by semicolons. The source for the projects must be at the same level as the llvm directory (side-by-side layout). The current list is clang, clang-tools-extra, compiler-rt, debuginfo-tests, lib, libclc, libcxx, libcxxabi, libunwind, lld, lldb, llgo, mlir, openmp, parallel-libs, polly, and pstl. all can be used as shorthand for all the projects in this list. To build Clang and llgo together with LLVM, you must specify -DLLVM_ENABLE_PROJECT="clang;llgo".
  • LLVM_ENABLE_ASSERTIONS: If set to ON, then assertion checks are enabled. These checks help find errors and are very useful during development. The default value is ON for a DEBUG build and OFF otherwise. To turn assertion checks on (for example, for a RELEASE build), you must specify –DLLVM_ENABLE_ASSERTIONS=ON.
  • LLVM_ENABLE_EXPENSIVE_CHECKS: This enables some expensive checks that can really slow down your compilation speed or consume large amounts of memory. The default value is OFF. To turn these checks on, you must specify -DLLVM_ENABLE_EXPENSIVE_CHECKS=ON.
  • LLVM_APPEND_VC_REV: LLVM tools such as llc display the LLVM version they are based on, besides other information if the–version command-line option is provided. This version information is based on the LLVM_REVISION C macro. By default, not only the LLVM version but also the Git hash of the latest commit is part of the version information. This is handy in case you are following the development of the master branch because it makes it clear which Git commit the tool is based on. If this isn't required, then this can be turned off with –DLLVM_APPEND_VC_REV=OFF.
  • LLVM_ENABLE_THREADS: LLVM automatically includes thread support if a threading library is detected (usually, the pthreads library). Furthermore, in this case, LLVM assumes that the compiler supports thread-local storage (TLS). If you don't want thread support or your compiler does not support TLS, then you can turn it off with -DLLVM_ENABLE_THREADS=OFF.
  • LLVM_ENABLE_EH: The LLVM projects do not use C++ exception handling, so they turn exception support off by default. This setting can be incompatible with other libraries your project is linking with. If needed, you can enable exception support by specifying –DLLVM_ENABLE_EH=ON.
  • LLVM_ENABLE_RTTI: LVM uses a lightweight, self-built system for runtime type information. Generating C++ RTTI is turned off by default. Like the exception handling support, this may be incompatible with other libraries. To turn generation for C++ RTTI on, you must specify –DLLVM_ENABLE_RTTI=ON.
  • LLVM_ENABLE_WARNINGS: Compiling LLVM should generate no warning messages if possible. Due to this, the option to print warning messages is turned on by default. To turn it off, you must specify –DLLVM_ENABLE_WARNINGS=OFF.
  • LLVM_ENABLE_PEDANTIC: The LLVM source should be C/C++ language standard-conforming; hence, pedantic checking of the source is enabled by default. If possible, compiler-specific extensions are also disabled. To reverse this setting, you must specify –DLLVM_ENABLE_PEDANTIC=OFF.
  • LLVM_ENABLE_WERROR: If set to ON, then all the warnings are treated as errors – the compilation aborts as soon as warnings are found. It helps to find all the remaining warnings in the source. By default, it is turned off. To turn it on, you must specify –DLLVM_ENABLE_WERROR=ON.
  • LLVM_OPTIMIZED_TABLEGEN: Usually, the tablegen tool is built with the same options as the other parts of LLVM. At the same time, tablegen is used to generate large parts of the code generator. As a result, tablegen is much slower in a debug build, thus increasing the compile time noticeably. If this option is set to ON, then tablegen is compiled with optimization turned on, even for a debug build, possibly reducing compile time. The default is OFF. To turn this on, you must specify –DLLVM_OPTIMIZED_TABLEGEN=ON.
  • LLVM_USE_SPLIT_DWARF: If the build compiler is gcc or Clang, then turning on this option will instruct the compiler to generate the DWARF debug information in a separate file. The reduced size of the object files reduces the link time of debug builds significantly. The default is OFF. To turn this on, you must specify -LLVM_USE_SPLIT_DWARF=ON.

LLVM defines many more CMake variables. You can find the complete list in the LLVM documentation of CMake (https://releases.llvm.org/12.0.0/docs/CMake.html#llvm-specific-variables). The preceding list only contains the ones you are likely to need.

Summary

In this chapter, you prepared your development machine to compile LLVM. You cloned the LLVM GitHub repository and compiled your own versions of LLVM and Clang. The build process can be customized with CMake variables. You also learned about useful variables and how to change them. Equipped with this knowledge, you can tweak LLVM for your needs.

In the next chapter, we will take a closer look at the contents of the LLVM mono repository. You will learn which projects are in it and how the projects are structured. You will then use this information to create your own project using LLVM libraries. Finally, you will learn how to compile LLVM for a different CPU architecture.

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Key benefits

  • Get to grips with effectively using LLVM libraries step-by-step
  • Understand LLVM compiler high-level design and apply the same principles to your own compiler
  • Use compiler-based tools to improve the quality of code in C++ projects

Description

LLVM was built to bridge the gap between compiler textbooks and actual compiler development. It provides a modular codebase and advanced tools which help developers to build compilers easily. This book provides a practical introduction to LLVM, gradually helping you navigate through complex scenarios with ease when it comes to building and working with compilers. You’ll start by configuring, building, and installing LLVM libraries, tools, and external projects. Next, the book will introduce you to LLVM design and how it works in practice during each LLVM compiler stage: frontend, optimizer, and backend. Using a subset of a real programming language as an example, you will then learn how to develop a frontend and generate LLVM IR, hand it over to the optimization pipeline, and generate machine code from it. Later chapters will show you how to extend LLVM with a new pass and how instruction selection in LLVM works. You’ll also focus on Just-in-Time compilation issues and the current state of JIT-compilation support that LLVM provides, before finally going on to understand how to develop a new backend for LLVM. By the end of this LLVM book, you will have gained real-world experience in working with the LLVM compiler development framework with the help of hands-on examples and source code snippets.

Who is this book for?

This book is for compiler developers, enthusiasts, and engineers who are new to LLVM and are interested in learning about the LLVM framework. It is also useful for C++ software engineers looking to use compiler-based tools for code analysis and improvement, as well as casual users of LLVM libraries who want to gain more knowledge of LLVM essentials. Intermediate-level experience with C++ programming is mandatory to understand the concepts covered in this book more effectively.

What you will learn

  • Configure, compile, and install the LLVM framework
  • Understand how the LLVM source is organized
  • Discover what you need to do to use LLVM in your own projects
  • Explore how a compiler is structured, and implement a tiny compiler
  • Generate LLVM IR for common source language constructs
  • Set up an optimization pipeline and tailor it for your own needs
  • Extend LLVM with transformation passes and clang tooling
  • Add new machine instructions and a complete backend
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Table of Contents

16 Chapters
Section 1 – The Basics of Compiler Construction with LLVM Chevron down icon Chevron up icon
Chapter 1: Installing LLVM Chevron down icon Chevron up icon
Chapter 2: Touring the LLVM Source Chevron down icon Chevron up icon
Chapter 3: The Structure of a Compiler Chevron down icon Chevron up icon
Section 2 – From Source to Machine Code Generation Chevron down icon Chevron up icon
Chapter 4: Turning the Source File into an Abstract Syntax Tree Chevron down icon Chevron up icon
Chapter 5: Basics of IR Code Generation Chevron down icon Chevron up icon
Chapter 6: IR Generation for High-Level Language Constructs Chevron down icon Chevron up icon
Chapter 7: Advanced IR Generation Chevron down icon Chevron up icon
Chapter 8: Optimizing IR Chevron down icon Chevron up icon
Section 3 –Taking LLVM to the Next Level Chevron down icon Chevron up icon
Chapter 9: Instruction Selection Chevron down icon Chevron up icon
Chapter 10: JIT Compilation Chevron down icon Chevron up icon
Chapter 11: Debugging Using LLVM Tools Chevron down icon Chevron up icon
Chapter 12: Create Your Own Backend Chevron down icon Chevron up icon
Other Books You May Enjoy Chevron down icon Chevron up icon

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Amazon Customer May 28, 2021
Full star icon Full star icon Full star icon Full star icon Full star icon 5
The book provides an end-to-end guide to build a compiler from scratch using the latest version of LLVM. It is a truly beginner friendly book -- readers don't even need to have any previous compiler knowledge to start with. Nevertheless, the content doesn't stop at beginner level: It is not only professional, but also gives you certain level of insights into LLVM. On top of this, I really love the fact that this book is based on the latest version of LLVM and includes lots of exciting new features introduced in the recent years. Which is really impressive because many of the online learning resources about LLVM are outdated or only limited to "essential" features in LLVM. Probably the only downside is that since this book wants to cover broad range of topics, it doesn't really provide an in-depth knowledge for certain part of LLVM, which is not really ideal if you're going to directly hack on LLVM or working closely with upstream (e.g. submitting a patch or even adding new features).In short, it is a good book if you want to build your own programming language from scratch using LLVM.I was supplied a free eBook sample for evaluation.
Amazon Verified review Amazon
abross Nov 22, 2023
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I love this book. Anyone can start from scratch, follow the book and become really good at using LLVM libraries along with lexer, parser , Semantic Analyzer and Code generation. All CS students should use this and get an idea of compiler development.
Amazon Verified review Amazon
Lin-Ya May 28, 2021
Full star icon Full star icon Full star icon Full star icon Full star icon 5
This is a practical book with up-to-dated information (the latest version of LLVM).It covers a wide range of content in LLVM, including front-end, middle-end, back-end, Just-In-Time compiler, and debug tools. A tiny hands-on project is provided to help readers quickly go through phases of LLVM.For LLVM beginners, this book is a good starting point for getting into it. Since it’s a book targeted beginners, it doesn’t cover all the information in depth. And I feel it would be much easier for those who have zero experience about LLVM to understand the LLVM concept with more diagrams presented.Overall, it’s a definitely worth-reading book for people who’s interested in LLVM!*I received a sample product for an honest review.
Amazon Verified review Amazon
POE Jun 27, 2021
Full star icon Full star icon Full star icon Full star icon Full star icon 5
Nacke’s latest book on LLVM 12 is noted as a beginner’s guide to this technology. While it does introduce readers to the LLVM compiler, it is not an introductory book in any other respect. Readers without significant C++ knowledge or experience will likely be lost. That notwithstanding, this is an excellent book. If you are already a compiler developer or want to jump into that fascinating area of software engineering and have C++ experience, then this book is for you.The book is organized well and starting with the second chapter, starts with technical requirements and ends with a brief summary. There are a lot of technical requirements the reader must contend with in order to fully enjoy the book and the author walks the reader through each step and process. The source code is provided as you would expect. “Code in action” videos are provided for chapters 2-12 but do not contain audio. The videos still provide value as you can watch the code in action and benefit from the few on screen text items added.Highlights of this book include depth of coverage, logical organization, information on compiler structures, intermediate code generation, creating your own compiler, debugging, using LLVM tools, and extending LLVM.
Amazon Verified review Amazon
josua goebel Jul 13, 2021
Full star icon Full star icon Full star icon Full star icon Full star icon 5
The Book gives me a lot of Information about LLVM. The example are really good to understand and it help me a lot to get my problems done.
Amazon Verified review Amazon
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