docs/AddingATool.md - compiler-explorer - Rivoreo Source Code Repositories

 # 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:

 ```yaml
 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 `type`s of tools.

 ## compilationInfo for independent tools

 ```json
 {
     "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

 ```json
 {
     ... 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.
	# 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:

	```yaml
	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 `type`s of tools.

	## compilationInfo for independent tools

	```json
	{
	"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

	```json
	{
	... 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.