Ejemplo n.º 1
0
    def parse_args_galaxy(self, *args, **kwargs):
        try:
            version = self.print_version() or '1.0'
        except AttributeError:  # handle the potential absence of print_version
            version = '1.0'
        self.tool = gxt.Tool(self.prog,
                             self.prog,
                             version,
                             self.description,
                             self.prog,
                             interpreter='python',
                             version_command='python %s --version' %
                             sys.argv[0])

        self.inputs = gxtp.Inputs()
        self.outputs = gxtp.Outputs()

        self.at = agt.ArgparseGalaxyTranslation()
        # Only build up arguments if the user actually requests it
        for result in self.argument_list:
            # I am SO thankful they return the argument here. SO useful.
            argument_type = result.__class__.__name__
            # http://stackoverflow.com/a/3071
            if hasattr(self.at, argument_type):
                methodToCall = getattr(self.at, argument_type)
                gxt_parameter = methodToCall(result, tool=self.tool)
                if gxt_parameter is not None:
                    if isinstance(gxt_parameter, gxtp.InputParameter):
                        self.inputs.append(gxt_parameter)
                    else:
                        self.outputs.append(gxt_parameter)

        # TODO: replace with argparse-esque library to do this.
        stdout = gxtp.OutputData('default', 'txt')
        stdout.command_line_override = '> $default'
        self.outputs.append(stdout)

        self.tool.inputs = self.inputs
        self.tool.outputs = self.outputs
        if self.epilog is not None:
            self.tool.help = self.epilog
        else:
            self.tool.help = "TODO: Write help"

        data = self.tool.export()
        print(data)
        sys.exit()
Ejemplo n.º 2
0
    def _parse_args_galaxy_argp(self, argp):
        try:
            version = self.print_version() or '1.0'
        except AttributeError:  # handle the potential absence of print_version
            version = '1.0'
        tool = gxt.Tool(argp.prog,
                        argp.prog.replace(" ", "_"),
                        version,
                        argp.description,
                        "python " + argp.prog,
                        interpreter=None,
                        version_command='python %s --version' % argp.prog)

        inputs = gxtp.Inputs()
        outputs = gxtp.Outputs()

        at = agt.ArgparseGalaxyTranslation()
        # Only build up arguments if the user actually requests it
        for result in argp.argument_list:
            # I am SO thankful they return the argument here. SO useful.
            argument_type = result.__class__.__name__
            # http://stackoverflow.com/a/3071
            if hasattr(at, argument_type):
                methodToCall = getattr(at, argument_type)
                gxt_parameter = methodToCall(result, tool=tool)
                if gxt_parameter is not None:
                    if isinstance(gxt_parameter, gxtp.InputParameter):
                        inputs.append(gxt_parameter)
                    else:
                        outputs.append(gxt_parameter)

        # TODO: replace with argparse-esque library to do this.
        stdout = gxtp.OutputData('default', 'txt')
        stdout.command_line_override = '> $default'
        outputs.append(stdout)

        tool.inputs = inputs
        tool.outputs = outputs
        if argp.epilog is not None:
            tool.help = argp.epilog
        else:
            tool.help = "TODO: Write help"

        return tool.export()
Ejemplo n.º 3
0
    def add_input_file(self, input_obj):
        """
        Add an input to the tool (XML: <inputs>).

        :param input_obj: Input object.
        :type input_obj: :class:`tooldog.biotool_model.Input`
        """
        LOGGER.debug("Adding input to GalaxyToolGen object...")
        if not hasattr(self.tool, 'inputs'):
            self.tool.inputs = gxtp.Inputs()
        # Build parameter
        self.input_ct += 1
        data_uri = input_obj.data_type.get_edam_id()
        # Give unique name to the input
        name = 'INPUT' + str(self.input_ct)
        # Get all different format for this input
        list_formats = []
        if not input_obj.formats:
            list_formats.append(self.etog.get_datatype(edam_data=data_uri))
        else:
            for format_obj in input_obj.formats:
                format_uri = format_obj.get_edam_id()
                list_formats.append(
                    self.etog.get_datatype(edam_data=data_uri,
                                           edam_format=format_uri))
        formats = ', '.join(list_formats)
        # Create the parameter
        param = gxtp.DataParam(name,
                               label=input_obj.data_type.term,
                               help=input_obj.description,
                               format=formats)
        # Override the corresponding arguments in the command line
        param.command_line_override = '--' + name + ' $' + name
        # Write comment about this param
        param.node.insert(0, etree.Comment(FIXME))
        param.node.insert(0, etree.Comment(PARAM_COMMENT % (self.biotool_id)))
        # Appends parameter to inputs
        self.tool.inputs.append(param)
Ejemplo n.º 4
0
    def __init__(self, args=None):  # noqa
        """
        prepare command line cl for running the tool here
        and prepare elements needed for galaxyxml tool generation
        """
        self.ourcwd = os.getcwd()
        self.collections = []
        if len(args.collection) > 0:
            try:
                self.collections = [
                    json.loads(x) for x in args.collection
                    if len(x.strip()) > 1
                ]
            except Exception:
                print(
                    f"--collections parameter {str(args.collection)} is malformed - should be a dictionary"
                )
        try:
            self.infiles = [
                json.loads(x) for x in args.input_files if len(x.strip()) > 1
            ]
        except Exception:
            print(
                f"--input_files parameter {str(args.input_files)} is malformed - should be a dictionary"
            )
        try:
            self.outfiles = [
                json.loads(x) for x in args.output_files if len(x.strip()) > 1
            ]
        except Exception:
            print(
                f"--output_files parameter {args.output_files} is malformed - should be a dictionary"
            )
        try:
            self.addpar = [
                json.loads(x) for x in args.additional_parameters
                if len(x.strip()) > 1
            ]
        except Exception:
            print(
                f"--additional_parameters {args.additional_parameters} is malformed - should be a dictionary"
            )
        try:
            self.selpar = [
                json.loads(x) for x in args.selecttext_parameters
                if len(x.strip()) > 1
            ]
        except Exception:
            print(
                f"--selecttext_parameters {args.selecttext_parameters} is malformed - should be a dictionary"
            )
        self.args = args
        self.cleanuppar()
        self.lastxclredirect = None
        self.xmlcl = []
        self.is_positional = self.args.parampass == "positional"
        if self.args.sysexe:
            if " " in self.args.sysexe:
                self.executeme = self.args.sysexe.split(" ")
            else:
                self.executeme = [
                    self.args.sysexe,
                ]
        else:
            if self.args.packages:
                self.executeme = [
                    self.args.packages.split(",")[0].split(":")[0].strip(),
                ]
            else:
                self.executeme = None
        aXCL = self.xmlcl.append
        assert args.parampass in [
            "0",
            "argparse",
            "positional",
        ], 'args.parampass must be "0","positional" or "argparse"'
        self.tool_name = re.sub("[^a-zA-Z0-9_]+", "", args.tool_name)
        self.tool_id = self.tool_name
        self.newtool = gxt.Tool(
            self.tool_name,
            self.tool_id,
            self.args.tool_version,
            self.args.tool_desc,
            FAKEEXE,
        )
        self.newtarpath = "%s_not_tested.toolshed.gz" % self.tool_name
        self.tooloutdir = "./tfout"
        self.repdir = "./toolgen"
        self.testdir = os.path.join(self.tooloutdir, "test-data")
        if not os.path.exists(self.tooloutdir):
            os.mkdir(self.tooloutdir)
        if not os.path.exists(self.testdir):
            os.mkdir(self.testdir)
        if not os.path.exists(self.repdir):
            os.mkdir(self.repdir)
        self.tinputs = gxtp.Inputs()
        self.toutputs = gxtp.Outputs()
        self.testparam = []
        if self.args.script_path:
            self.prepScript()
        if self.args.command_override:
            scos = open(self.args.command_override, "r").readlines()
            self.command_override = [x.rstrip() for x in scos]
        else:
            self.command_override = None
        if self.args.test_override:
            stos = open(self.args.test_override, "r").readlines()
            self.test_override = [x.rstrip() for x in stos]
        else:
            self.test_override = None
        if self.args.script_path:
            for ex in self.executeme:
                aXCL(ex)
            aXCL("$runme")
        else:
            for ex in self.executeme:
                aXCL(ex)

        if self.args.parampass == "0":
            self.clsimple()
        else:
            if self.args.parampass == "positional":
                self.prepclpos()
                self.clpositional()
            else:
                self.prepargp()
                self.clargparse()