Adding a new tool

Tools are a way to execute something on your code or the output of a compilation.

Adding tools requires adding configuration to a properties file for a specific language:

tools=rewritecpp

tools.rewritecpp.name=rewritecpp
tools.rewritecpp.exe=/opt/compiler-explorer/rewritertool/bin/rewritecpp
tools.rewritecpp.type=independent
tools.rewritecpp.exclude=
tools.rewritecpp.class=base-tool
tools.rewritecpp.stdinHint=disabled
tools.rewritecpp.monacoStdin=false
tools.rewritecpp.languageId=cppp
tools.rewritecpp.options=--a
tools.rewritecpp.args=--b

The name and exe are what they say they are, this is the display name for within CE and the tool executable that will be used.

The type of the tool represents the stage in which the tool will run:

  • independent - when running a tool on sourcecode
  • postcompilation - when running a tool on the assembly or a binary

The exclude property is to indicate which compilers are proven to be incompatible with the tool. You can supply the full id of the compiler, or a partial id (for example ‘arm’ to exclude all arm compilers).

The class of the tool says which javascript class is needed to run the tool and process its output. The folder lib/tooling is used for these classes.

Should you want to deviate from the standard behaviour of base-tool, which runs the tool on the sourcecode filename, you should add a new class that extends from base-tool.

The stdinHint is there to show the user a hint as to what the stdin field is used for in the tool. To disable stdin you can use disabled here.

The monacoStdin option makes the stdin editor a separate pane containing a monaco editor. This is useful when a tool has complex input spanning multiple lines and it's more friendly to indent it.

The languageId can be used to highlight the output of the tool according to a language known within CE. For example cppp will highlight c++ output. Leaving languageId empty will use the terminal-like output.

The options field is useful for tools that derive base-tool and want to add non-user configurable options to it

The args field is shown and editable by the user in the UI, and passed automatically to the tool

compilationInfo

When writing a special class for a tool, you will probably need the compilationInfo parameter to pass the correct parameters to the tool.

The contents of compilationInfo varies slightly between the different types of tools.

compilationInfo for independent tools

{
    "backendOptions": {"produceGccDump": {}, "produceCfg": false},
    "compiler": {"id": "clang_trunk", "exe": "clang++", ...},
    "filters": {"binary": false, "commentOnly": true, "demangle": true, ... },
    "inputFilename": "/tmp/ce-tmp/example.cpp",
    "dirPath": "/tmp/ce-tmp",
    "libraries": [{"id": "ctre", "version": "v2"}],
    "options": ["-O3"],
    "source": "int main() {\nreturn 1;\n}\n"
}

The filters can be used to assert boundary conditions or adjust the tooling process based on the filters the user checked on or off.

The inputFilename contains the path to the sourcecode stored on disk. The source contains the sourcecode as text.

The dirPath can be used to write extra files to disk which the tool might need.

The options are the arguments the user gave for the compilation.

compilationInfo for postcompilation tools

{
    ... everything from the compilationInfo for independent tools
    "compilationOptions": ["-O3", "-S", "/tmp/ce-tmp/example.cpp", ...],
    "code": 0,
    "asm": [
        {"text": "main:", "source": null},
        {"text": "  mov eax, 1", "source": {"file": null, "line": 2}}
        {"text": "  ret", "source": {"file": null, "line": 3}}
    ],
    "asmSize": 123,
    "stderr": [
        {"text": "warning: 'x' is used uninitialized in this function [-Wuninitialized]", "tag": {"line": 4, "column": 16}}
    ],
    "stdout": [],
    "outputFilename": "/tmp/ce-tmp/example.o",
    "executableFilename": "/tmp/ce-tmp/a.out"
}

code indicates the exitcode of the compilation. Usually, 0 means everything's ok.

asm contains the returned assembly. This is the same assembly that is shown within compiler-explorer, including extra information like for which sourcecode line the assembly was generated.

stderr and stdout contain the different outputs from the compilation process.

The outputFilename is always filled, but not guaranteed to exist, for example when the compilation has failed.

The executableFilename is always filled, but does not guarantee the existence of an executable.