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Adding a new compiler
This document explains how to add a new compiler to Compiler Explorer ("CE" from here on), first for a local instance, and then how to submit PRs to get it into the main CE site.
Quick method: Using ce-properties-wizard
The easiest way to add a compiler to your local Compiler Explorer instance is to use the ce-properties-wizard tool. This interactive command-line tool automatically detects compiler information and updates your configuration files.
Basic usage
From the Compiler Explorer root directory:
# Interactive mode - guides you through the process
etc/scripts/ce-properties-wizard/run.sh
# Path-first mode - provide compiler path directly
etc/scripts/ce-properties-wizard/run.sh /usr/bin/g++-13
# Fully automated mode - accepts all defaults
etc/scripts/ce-properties-wizard/run.sh /usr/bin/g++-13 --yes
Examples
Add a custom GCC installation:
etc/scripts/ce-properties-wizard/run.sh /opt/gcc-14.2.0/bin/g++
Add a cross-compiler:
etc/scripts/ce-properties-wizard/run.sh /usr/bin/arm-linux-gnueabihf-g++ \
--name "ARM GCC 11.2" \
--group arm-gcc \
--yes
The wizard will:
- Automatically detect the compiler type, version, and language
- Generate appropriate compiler IDs and display names
- Add the compiler to the correct properties file
- Suggest appropriate groups for organization
- Validate the configuration with
propscheck.py
For more options and examples, see the ce-properties-wizard README.
Manual configuration
If you need more control or want to understand how the configuration works, read on for the manual approach.
Configuration
Compiler configuration is done through the etc/config/c++.*.properties files (for C++, other languages follow the
obvious pattern, replace as needed for your case).
For a comprehensive overview of the configuration system, including file hierarchy, property types, and group inheritance, refer to Configuration.md.
Below are compiler-specific configuration details:
The list of compilers is set by the compilers key and is a list of compiler identifiers or groups, separated by colons.
Group names have an & prepended. The identifier itself is not important, but must be unique to that compiler.
An example configuration:
compilers=gcc620:gcc720:&clang
This says there are two compilers with identifiers gcc620 and gcc720, and a group of compilers called clang. For
the compilers, CE will look for some keys named compiler.ID.name and compiler.ID.exe (and some others, detailed
later). The ID is the identifier of the compiler being looked up. The name value is used as the human-readable
compiler name shown to users, and the exe should be the path name of the compiler executable.
For example:
compiler.gcc620.name=GCC 6.2.0
compiler.gcc620.exe=/usr/bin/gcc-6.2.0
compiler.gcc720.name=GCC 7.2.0
compiler.gcc720.exe=/usr/bin/gcc-7.2.0
In addition to the name and exe per-compiler configuration keys, there are also some other options. Most of them
default to sensible values for GCC-like compilers.
A group is defined similar to a list of compilers, and may contain other groups. Keys for groups start with group.ID.
Configuration keys applied to the group apply to all compilers in that group (unless overridden by the compiler itself).
An example:
group.clang.compilers=clang4:clang5
group.clang.intelAsm=-mllvm -x86-asm-syntax=intel
compiler.clang4.name=Clang 4
compiler.clang4.exe=/usr/bin/clang4
compiler.clang5.name=Clang 5
compiler.clang5.exe=/usr/bin/clang5
Note about group properties: Properties defined for a group in one configuration file (e.g., defaults) will not be carried
forward if that group is redefined in a higher-priority configuration file (e.g., amazon) without that property.
Configuration keys
| Key Name | Type | Description |
|---|---|---|
| name | String | Human readable name of the compiler |
| exe | Path | Path to the executable |
| alias | Identifier | Another identifier for this compiler (mostly deprecated, used for backwards compatibility with very old CE URLs) |
| options | String | Additional compiler options passed to the compiler when running it |
| intelAsm | String | Flags used to select intel assembly format (if not detected automatically) |
| needsMulti | Boolean | Whether the compiler needs multi arch support (defaults to yes if the host has multiarch enabled) |
| supportsBinary | Boolean | Whether this compiler supports linking to binary (e.g. compile, assemble and link to final executable program) |
| supportsBinaryObject | Boolean | Whether this compiler supports compiling to binary object (e.g. compile and assemble to binary object) |
| supportsExecute | Boolean | Whether binary output from this compiler can be executed |
| versionFlag | String | The flag to pass to the compiler to make it emit its version |
| versionRe | RegExp | A regular expression used to capture the version from the version output |
| compilerType | String | The name of the class handling this compiler |
| interpreted | Boolean | Whether this is an interpreted language, and so the "compiler" is really an interpreter |
| emulated | Boolean | Whether the compiler's output is run via an emulator (specified by executionWrapper) rather than natively |
| executionWrapper | Path | Path to script that can execute the compiler's output (e.g. could run under qemu or mpi_run or similar) |
| executionWrapperArgs | String | List of arguments passed to the execution wrapper (separated by | character) |
| demangler | String | Path to the demangler tool |
| demanglerArgs | String | List of arguments passed to the demangler binary (separated by | character) |
| objdumper | String | Path to the object dump tool |
| objdumperArgs | String | List of arguments passed to the object dump tool (separated by | character) |
| instructionSet | String | The default set for the compiler, it will fall into that group of compilers (so you can filter by it) and get different instruction set documentation if available |
The compilerType option is special: it refers to the Javascript class in lib/compilers/*.ts which handles running
and handling output for this compiler type.
Adding a new compiler manually
If the wizard doesn't work for your use case or you need fine-grained control, you can manually add a compiler. Create a etc/config/c++.local.properties file and
override the compilers list to include your own compiler, and its configuration.
Once you've done that, running make should pick up the configuration and during startup you should see your compiler
being run and its version being extracted. If you don't, check for any errors, and try running with
make EXTRA_ARGS='--debug' to see (a lot of) debug output.
If you're looking to add other language compilers for another language, obviously create the
etc/config/LANG.local.properties in the above steps, and run with make EXTRA_ARGS='--language LANG' (e.g.
etc/config/rust.local.properties and make EXTRA_ARGS='--language Rust').
Test locally, and for many compilers that's probably all you need to do. Some compilers might need a few options tweaks
(like the intel asm setting, or the version flag). For a completely new compiler, you might need to define a whole new
compilerType. Doing so is beyond this document's scope at present, but take a look inside lib/compilers/ to get some
idea what might need to be done.
Adding a new compiler running remotely to your locally built compiler explorer
If you would like to have both gcc and MSVC running in the "same" compiler explorer, one option would be running gcc on your local Linux machine and add a proxy to the MSVC compiler, which is running on a remote Window host. To achieve this, you could
- Setup compiler explorer on your Linux host as usual
- Follow this guide to set up another compiler explorer instance on your Windows host
- Add your Windows compiler explorer as a proxy to your Linux compiler explorer. You can simply modify your
etc/config/c++.local.propertieson your Linux host
compilers=&gcc:&clang:myWindowsHost@10240
Yes it is the @ symbol rather than the : before the port number. Restart the Linux compiler explorer, and you will
be able to see the MSVC compiler in the compiler list.
Adding a new compiler to the live site
On the main CE website, compilers are installed into a /opt/compiler-explorer/ directory by a set of scripts in the
sister GitHub repo: https://github.com/compiler-explorer/infra
In the update_compilers directory in that repository are a set of scripts that download and install binaries and
compilers. If you wish to test locally, and can create a /opt/compiler-explorer directory on your machine which is
readable and writable by your current user, then you can run the scripts directly. The binaries and the free compilers
can be installed - the commercial compilers live in the install_nonfree_compilers.sh and won't work.
If your compiler fits nicely into the harness then it should be straightforward to add it there. Anything more complex: contact the CE authors for more help.
Putting it all together
Hopefully that's enough to get an idea. The ideal case of a GCC-like compiler should be a pull request to add a couple
of lines to the infra repository to install the compiler, and a pull request to add a few lines to the
LANG.amazon.properties file in this repository.
If you feel like we could improve this document in any way, please contact us. We'd love to hear from you!