Table of Contents

Graal Compiler

The Graal compiler is a dynamic just-in-time (JIT) compiler, written in Java, that transforms bytecode into machine code. The Graal compiler integrates with the Java HotSpot VM, which supports a compatible version of the JVM Compiler Interface (JVMCI). JVMCI is a privileged, low-level interface to the JVM, enabling a compiler written in Java to be used by the JVM as a dynamic compiler (see JEP 243). It can read metadata from the VM, such as method bytecode, and install machine code into the VM. GraalVM includes a version of the HotSpot JVM that supports JVMCI.

Compiler Advantages

The Graal compiler provides optimized performance for programs running on the JVM through unique approaches to code analysis and optimization. It includes multiple optimization algorithms (called “Phases”), like aggressive inlining, polymorphic inlining, and others. Find some of the platform-independent compiler optimizations in GraalVM Community Edition here.

The Graal compiler can bring performance advantages for highly-abstracted programs. For example, it includes a partial-escape-analysis optimization that can remove costly allocations of certain objects. This optimization determines when a new object is accessible outside a compilation unit and only allocates it on paths that “escape” the compilation unit (e.g. the object is passed as a parameter, stored in a field, or returned from a method). This can greatly improve performance of an application by reducing the number of heap allocations. Code using more modern Java features like Streams or Lambdas will see greater speedups as this type of code involves a significant number of such non- or partially-escaping objects. Code that is bound by things like I/O or memory allocations that cannot be removed by the compiler will see less improvement. For more information on performance tuning, refer to Compiler Configuration on JVM.

Graph Compilation

To run guest programming languages, namely JavaScript, Ruby, R, Python, and WebAssembly in the same runtime as the host JVM-based language, the compiler should work with a language-independent intermediate representation (IR) between the source language and the machine code to be generated. A graph was selected for this role.

The graph can represent similar statements of different languages in the same way, like “if” statements or loops, which makes it possible to mix languages in the same program. The Graal compiler can then perform language-independent optimization and generate machine code on this graph.

GraalVM also includes the Truffle language implementation framework – a library, written in Java – to build interpreters for programming languages, which then run on GraalVM. These languages can consequently benefit from the optimization possibilities of the Graal compiler. The pipeline for such compilation is:

  • The Truffle framework code and data (Abstract Syntax Trees) is partially evaluated to produce a compilation graph. When such an Abstract Syntax Tree (AST) is hot (i.e., called many times), it is scheduled for compilation by the compiler.
  • The compilation graph is optimized by the Graal compiler to produce machine code.
  • JVMCI installs this machine code in the VM’s code cache.
  • The AST will automatically redirect execution to the installed machine code once it is available.

Ahead-of-time Compilation

Besides the Truffle framework, GraalVM incorporates its optimizing compiler into an advanced ahead-of-time (AOT) compilation technology – Native Image – which translates Java and JVM-based code into a native platform executable. These native executables start nearly instantaneously, are smaller, and consume less resources of the same Java application, making them ideal for cloud deployments and microservices. For more information about the AOT compilation, go to Native Image.

Compiler Operating Modes

There are two operating modes of the Graal compiler when used as the HotSpot JIT compiler: as pre-compiled machine code (“libgraal”), or as dynamically executed Java bytecode (“jargraal”).

libgraal: the Graal compiler is compiled ahead-of-time into a native shared library. In this operating mode, the shared library is loaded by the HotSpot VM. The compiler uses memory separate from the HotSpot heap. It runs fast from the start since it does not need to warm up. This is the default and recommended mode of operation.

jargraal: the Graal compiler goes through the same warm-up phase that the rest of the Java application does. That is, it is first interpreted before its hot methods are compiled. This mode is selected with the -XX:-UseJVMCINativeLibrary command line option.

Diagnostic Data

If an uncaught exception is thrown by the compiler, the compilation is simply discarded and execution continues. The Graal compiler can instead produce diagnostic data (such as immediate representation graphs) that can be submitted along with a bug report. This is enabled with -Dgraal.CompilationFailureAction=Diagnose. The default location of the diagnostics output is in graal_dumps/ under the current working directory of the process but can be changed with the -Dgraal.DumpPath option. During the VM shutdown, the location of the archive containing the diagnostic data is printed to the console.

Furthermore, diagnostic data can be produced for any compilation performed by the Graal compiler with the -Dgraal.Dump option. This will produce diagnostic data for every method compiled by the compiler. To refine the set of methods for which diagnostic data is produced, use the -Dgraal.MethodFilter=<class>.<method> option. For example, -Dgraal.MethodFilter=java.lang.String.*,HashMap.get will produce diagnostic data only for methods in the java.lang.String class as well as methods named get in a class whose non-qualified name is HashMap.

Instead of being written to a file, diagnostic data can also be sent over the network to the Ideal Graph Visualizer. This requires the -Dgraal.PrintGraph=Network option, upon which the compiler will try to send diagnostic data to 127.0.0.1:4445. This network endpoint can be configured with the -Dgraal.PrintGraphHost and -Dgraal.PrintGraphPort options.