Exemplo n.º 1
0
def miniLanguage(key, text, position, parameters):
    try:
        code, parameters = Utilities.importModule('Inputs', key,
                                                  'Parse').Parse.parse(
                                                      text, parameters)
        result = etree.tostring(code)
        return result
    except:
        Utilities.logging.error("Failed to parse mini-language " + key)
Exemplo n.º 2
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 def test_isDefined(self):
     self.assertTrue(Utilities.isDefined({'a': {'b': {'c': 'd'}}}, '/a'))
     self.assertTrue(Utilities.isDefined({'a': {'b': {'c': 'd'}}}, '/a/b'))
     self.assertTrue(Utilities.isDefined({'a': {
         'b': {
             'c': 'd'
         }
     }}, '/a/b/c'))
     self.assertFalse(
         Utilities.isDefined({'a': {
             'b': {
                 'c': 'd'
             }
         }}, '/a/b/c/d'))
     self.assertFalse(Utilities.isDefined({'a': {
         'b': {
             'c': 'd'
         }
     }}, 'a/z/c'))
Exemplo n.º 3
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def prepareGroups(parameters):
    groups = {}

    for keyword, value in parameters['language'].iteritems():
        group, module = tuple(value['package'].split(':'))
        if not Utilities.isDefined(groups, '/' + group + '/' + module):
            dpath.util.new(groups, '/' + group + '/' + module, [])

        groups[group][module].append(keyword)

    return groups
Exemplo n.º 4
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def createCustomGrammar(parameters, input):
    # @BUG if first element of the custom vector is '' it does not work
    # initialise variables
    keywords = {}

    # load language definitions for all modules
    for transform in parameters['manifesto']['Transformers'].keys():
        keywords.update(
            Utilities.importModule('Transformers', transform,
                                   'Language').Language.language)

    grammar = ''
    operators = []

    for key, value in keywords.iteritems():
        if 'input' in value.keys():
            if input in value['input'].keys():
                if 'custom' in value['input'][input].keys():
                    custom = value['input'][input]['custom']
                    expressions = [
                        'expression:e' + str(i)
                        for i in range(len(custom) - 1)
                    ]
                    infixes = [
                        ' ws \'' + custom[i] + '\' ws '
                        for i in range(1,
                                       len(custom) - 1)
                    ]

                    fullexpression = [
                        x for t in zip(expressions, infixes) for x in t
                    ]
                    fullexpression.append(expressions[-1])

                    if custom[0] is not '':
                        fullexpression.insert(0, '\'' + custom[0] + '\' ws ')

                    if custom[-1] is not '':
                        fullexpression.append(' ws \'' + custom[0] + '\'')

                    grammar += key + ' = ' + ''.join(
                        fullexpression
                    ) + ' -> xml(\'' + key + '\', ' + '+'.join([
                        'e' + str(i) for i in range(len(custom) - 1)
                    ]) + ', self.input.position, dictionary)\n'
                    operators.append(key)

    grammar += 'customElements = ' + ' | '.join(operators) + '\n'

    return grammar
Exemplo n.º 5
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def parse(text, parameters):

    # @BUG If the command line flag --language is used may need to recompute dictionary
    # load cached language and grammar or create from scratch if needed
    grammar, dictionary = Utilities.cache(
        'RoL-language-grammar', lambda: prepareGrammarEngine(parameters))

    if parameters['Inputs']['RoL']['debug']['grammar']:
        print(grammar)

    # @NOTE could not pickle the language itself. Is there a way to solve this?
    # create the grammar
    language = parsley.makeGrammar(
        grammar, {
            'xml': xml,
            'xmlInfix': xmlInfix,
            'dictionary': dictionary,
            'miniLanguage': lambda x, y, z: miniLanguage(x, y, z, parameters)
        })

    try:
        # parse the text against the grammar
        parsed_xml_text = ''.join(language(text).main())
    except parsley.ParseError as error:
        Utilities.logErrors(Utilities.formatParsleyErrorMessage(error),
                            parameters)
        sys.exit(1)

    try:
        # create XML object from xml string
        parsed_xml = etree.fromstring(parsed_xml_text)
    except etree.XMLSyntaxError as error:
        Utilities.logErrors(Utilities.formatLxmlErrorMessage(error),
                            parameters)
        sys.exit(1)

    # If the node has parameters, then add them to the global parameters dictionary
    parameters = Utilities.mergeDictionaries(
        nodeParametersToDictionary(parsed_xml), parameters)

    # apply semantic changes
    parsed_xml = semanticTransformations(parsed_xml)

    return parsed_xml, parameters
Exemplo n.º 6
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def output(xml, parameters):

  # get node name
  node_name_underscore = Utilities.underscore(parameters['node']['name'])

  # make a copy of the xml tree
  xml_copy = copy.deepcopy(xml)

  # delete all atributes
  for element in xml_copy.iter():
    element.attrib.clear()

  # save the tree into a file
  with open(parameters['globals']['deploy'] + '/' + node_name_underscore + '.xml', 'w') as xml_file:
    xml_file.write('<?xml version="1.0"?>\n' + etree.tostring(xml_copy, pretty_print = True))

    Utilities.logging.debug('Wrote file '+parameters['globals']['deploy'] + '/' + node_name_underscore + '.xml...')

  return 0
Exemplo n.º 7
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    def test_templateEngine(self):
        # create test folders
        Utilities.createFolder('/tmp/RoL/templates/_foldername_')
        Utilities.createFolder('/tmp/RoL/deploy')

        # create a temporary file to copy
        with open('/tmp/RoL/templates/_foldername_/copy.txt',
                  'w') as template_file:
            template_file.write('A file to copy')

        # create a temporary template
        with open('/tmp/RoL/templates/_foldername_/_test_.txt.template',
                  'w') as template_file:
            template_file.write(
                'A template for a {{code|xpath("/node")|text}}')

        # some sample code
        code = etree.fromstring('<node>hello</node>')
        parameters = {}
        filepatterns = {'foldername': 'testfolder', 'test': 'hello'}
        templates_path = '/tmp/RoL/templates'
        deploy_path = '/tmp/RoL/deploy'

        # run template engine
        Utilities.templateEngine(code, parameters, filepatterns,
                                 templates_path, deploy_path)

        # check if files exist:
        result1 = os.path.isfile('/tmp/RoL/deploy/testfolder/hello.txt')
        result2 = os.path.isfile('/tmp/RoL/deploy/testfolder/copy.txt')

        # check is content of the files is correct
        if result1:
            with open('/tmp/RoL/deploy/testfolder/hello.txt',
                      'r') as template_file:
                text = template_file.read()
                result3 = (text == 'A template for a hello')

        if result2:
            with open('/tmp/RoL/deploy/testfolder/copy.txt',
                      'r') as template_file:
                text = template_file.read()
                result4 = (text == 'A file to copy')

        self.assertTrue(result1)
        self.assertTrue(result2)
        self.assertTrue(result3)
        self.assertTrue(result4)
Exemplo n.º 8
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 def test_smartTitle(self):
     self.assertEqual(Utilities.smartTitle('this test is OK and RoL'),
                      'This Test Is OK And RoL')
Exemplo n.º 9
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 def test_mergeDictionaries(self):
     self.assertEqual(
         Utilities.mergeDictionaries({'a': {
             'b': '1'
         }}, {'a': {
             'b': '1'
         }}), {'a': {
             'b': '1'
         }})
     self.assertEqual(Utilities.mergeDictionaries({'a': '1'}, {'b': '2'}), {
         'a': '1',
         'b': '2'
     })
     self.assertEqual(
         Utilities.mergeDictionaries({
             'a': '1',
             'b': '2'
         }, {
             'a': '2',
             'c': '3'
         }), {
             'a': '1',
             'b': '2',
             'c': '3'
         })
     self.assertEqual(
         Utilities.mergeDictionaries({
             'a': {
                 'b': '1',
                 'c': '3'
             },
             'b': '2'
         }, {
             'a': {
                 'b': '2',
                 'f': '5'
             },
             'z': '9'
         }), {
             'a': {
                 'b': '1',
                 'f': '5',
                 'c': '3'
             },
             'z': '9',
             'b': '2'
         })
     self.assertEqual(
         Utilities.mergeDictionaries(
             {
                 'a': {
                     'b': {
                         'x': '1',
                         'w': '6'
                     },
                     'c': '3'
                 },
                 'b': '2'
             }, {
                 'a': {
                     'b': {
                         'x': '2',
                         'y': '7'
                     },
                     'f': '5'
                 },
                 'z': '9'
             }), {
                 'a': {
                     'b': {
                         'x': '1',
                         'w': '6',
                         'y': '7'
                     },
                     'f': '5',
                     'c': '3'
                 },
                 'z': '9',
                 'b': '2'
             })
Exemplo n.º 10
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def createInfixGrammar(parameters, input):
    # initialise variables
    keywords = {}

    # load language definitions for all modules
    for transform in parameters['manifesto']['Transformers'].keys():
        keywords.update(
            Utilities.importModule('Transformers', transform,
                                   'Language').Language.language)

    infix_grammar = ''
    infix_operators = []
    orders = {}

    for key, value in keywords.iteritems():
        if 'input' in value.keys():
            if input in value['input'].keys():
                if 'infix' in value['input'][input].keys():
                    infix_operators.append({
                        'key':
                        key,
                        'infix':
                        value['input'][input]['infix'],
                        'order':
                        value['input'][input]['infixOrder']
                    })

                    if value['input'][input]['infixOrder'] not in orders.keys(
                    ):
                        orders[value['input'][input]['infixOrder']] = []

                    orders[value['input'][input]['infixOrder']].append(key)

    sorted_orders = sorted(orders)

    # definition of parenthesis
    infix_grammar += 'parenthesis = \'(\' ws infixElements:e ws \')\' -> e\n'

    # create language infix clauses
    for infix in infix_operators:
        if isinstance(infix['infix'], list):
            symbol = '( \'' + '\' | \''.join(infix['infix']) + '\' )'
        else:
            symbol = '\'' + infix['infix'] + '\''

        infix_grammar += infix['key'] + ' = ' + symbol + ' ws level' + str(
            infix['order']) + ':n -> (\'' + infix['key'] + '\', n )\n'

    infix_grammar += 'level' + str(
        sorted_orders[-1]
    ) + ' = language | prefixElements | customElements | preinpostfixElements | function | type | variable | parenthesis\n'

    # create language level groups
    for key, value in orders.iteritems():
        if len(value) > 1:
            symbol = '( ' + ' | '.join(value) + ' )'
        else:
            symbol = '' + value[0] + ''
        infix_grammar += 'level' + str(key) + 'keys = ws ' + symbol + '\n'

    infix_grammar += 'infixElements = level' + str(
        sorted_orders[0]) + ':left level' + str(
            sorted_orders[0]
        ) + 'keys*:right -> xmlInfix(left,right, self.input.position)\n'

    for i in range(1, len(sorted_orders)):
        infix_grammar += 'level' + str(sorted_orders[
            i - 1]) + ' = level' + str(sorted_orders[i]) + ':left level' + str(
                sorted_orders[i]
            ) + 'keys*:right -> xmlInfix(left,right, self.input.position)\n'

    return infix_grammar
Exemplo n.º 11
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 def test_isKeyDefined(self):
     self.assertTrue(Utilities.isKeyDefined('test', {'test': 'ok'}))
     self.assertFalse(Utilities.isKeyDefined('ok', {'test': 'ok'}))
Exemplo n.º 12
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 def test_cache(self):
     Utilities.removeCache()
     self.assertEqual(Utilities.cache('test-cache', cache_some_string),
                      'hello')
     self.assertEqual(Utilities.cache('test-cache', cache_some_string),
                      'hello')
Exemplo n.º 13
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 def test_importModule(self):
     self.assertEqual(
         Utilities.importModule(
             'Outputs', 'RosCpp',
             'Parameters').Parameters.manifesto['packageShortName'],
         'roscpp')
Exemplo n.º 14
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    def test_ensureList(self):
        self.assertEqual(Utilities.ensureList([1, 2, 3]), [1, 2, 3])

        self.assertEqual(Utilities.ensureList(1), [1])
Exemplo n.º 15
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    def test_text(self):
        xml1 = etree.fromstring('<string>some text</string>')
        xml2 = etree.fromstring('<xml><string>some text</string></xml>')

        self.assertEqual(Utilities.text(xml1), 'some text')
        self.assertEqual(Utilities.text(xml2), '')
    def test_ProcessArguments(self):
        Utilities.createFolder('/tmp/RoL/')
        Utilities.createFolder(os.path.expanduser('~') + '/.rol/')

        # create a user wide parameter files
        global_parameters_file = os.path.expanduser(
            '~') + '/.rol/parameters.yaml'

        if os.path.isfile(global_parameters_file):
            # file exist!!! make a backup
            global_parameters_file_exists = True
            os.rename(global_parameters_file,
                      global_parameters_file + '.backup')
        else:
            global_parameters_file_exists = False

        with open(global_parameters_file, 'w') as parameter_file:
            parameter_file.write(
                'testing:\n  parameterA: 1\n  repeatedParameter: 1')

        # create a local parameter file
        with open('/tmp/RoL/.rol.parameters.yaml', 'w') as parameter_file:
            parameter_file.write(
                'testing:\n  parameterB: 2\n  repeatedParameter: 2')

        # create extra parameter file 1
        with open('/tmp/RoL/test1.yaml', 'w') as parameter_file:
            parameter_file.write(
                'testing:\n  parameterC: 3\n  repeatedParameter: 3')

        # create extra parameter file 2
        with open('/tmp/RoL/test2.yaml', 'w') as parameter_file:
            parameter_file.write(
                'testing:\n  parameterD: 4\n  repeatedParameter: 4')

        # create RoL file
        with open('/tmp/RoL/test.rol', 'w') as template_file:
            template_file.write('print(\'hello\')')

        # set command line parameters
        command_line_parameters = [
            'rol', '/tmp/RoL/test.rol', '/tmp/RoL/test1.yaml',
            '/tmp/RoL/test2.yaml', '-o', 'RoLXML'
        ]

        parameters = {
            'debug': {},
            'Information': {},
            'Transformers': {},
            'Outputs': {},
            'Inputs': {},
            'manifesto': {
                'Inputs': {
                    'RoL': {
                        'fileFormat': 'rol',
                        'packageName': 'Robotics Language',
                        'packageShortName': 'RoL'
                    }
                },
                'Transformers': {},
                'Outputs': {}
            },
            'command_line_flags': {
                'globals:output': {
                    'choices': ['RoLXML'],
                    'description': 'Outputs',
                    'flag': 'o',
                    'longFlag': 'output',
                    'numberArguments': '*'
                },
            },
            'globals': {
                'output': ''
            }
        }

        # run the command line parser
        filename, filetype, outputs, parameters = CommandLine.ProcessArguments(
            command_line_parameters, parameters)

        # clean up
        if global_parameters_file_exists:
            # delete test file
            os.remove(global_parameters_file)

            # put back the original file
            os.rename(global_parameters_file + '.backup',
                      global_parameters_file)

        # check filename
        self.assertEqual(filename, '/tmp/RoL/test.rol')

        # check filetype
        self.assertEqual(filetype, 'rol')

        # check list of outputs
        self.assertEqual(outputs, ['RoLXML'])

        # check parameters
        self.assertEqual(parameters['testing']['parameterA'], 1)
        self.assertEqual(parameters['testing']['parameterB'], 2)
        self.assertEqual(parameters['testing']['parameterC'], 3)
        self.assertEqual(parameters['testing']['parameterD'], 4)
        self.assertEqual(parameters['testing']['repeatedParameter'], 4)
Exemplo n.º 17
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 def test_camelCase(self):
     self.assertEqual(Utilities.camelCase('/this_test is.OK and RoL'),
                      'ThisTestIsOKAndRoL')
Exemplo n.º 18
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 def test_fullCaps(self):
     self.assertEqual(Utilities.fullCaps('/Here Is_A.Phrase'),
                      'HEREISAPHRASE')
Exemplo n.º 19
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 def test_underscoreFullCaps(self):
     self.assertEqual(Utilities.underscoreFullCaps('/Here Is A.Phrase'),
                      '_HERE_IS_A_PHRASE')
Exemplo n.º 20
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 def test_underscore(self):
     self.assertEqual(Utilities.underscore('/Here Is A.Phrase'),
                      '_here_is_a_phrase')
Exemplo n.º 21
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 def test_lowerSpaceToDash(self):
     self.assertEqual(Utilities.lowerSpaceToDash('Here Is A Phrase'),
                      'here-is-a-phrase')
Exemplo n.º 22
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 def test_lowerNoSpace(self):
     self.assertEqual(Utilities.lowerNoSpace('Here Is A Phrase'),
                      'hereisaphrase')