def setUp(cls): # Elements cls.years = ("No Year", "1989", "1990", "1991", "1992") cls.extra_year = "4321" # Element Attributes cls.attributes = ('Previous Year', 'Next Year') cls.alias_attributes = ("Financial Year", ) # create dimension with a default hierarchy d = Dimension(DIMENSION_NAME) h = Hierarchy(DIMENSION_NAME, HIERARCHY_NAME) h.add_element('Total Years', 'Consolidated') h.add_element('All Consolidations', 'Consolidated') h.add_edge("All Consolidations", "Total Years", 1) for year in cls.years: h.add_element(year, 'Numeric') h.add_edge('Total Years', year, 1) for attribute in cls.attributes: h.add_element_attribute(attribute, "String") for attribute in cls.alias_attributes: h.add_element_attribute(attribute, "Alias") d.add_hierarchy(h) cls.tm1.dimensions.create(d) # write attribute values cls.tm1.cubes.cells.write_value('1988', '}ElementAttributes_' + DIMENSION_NAME, ('1989', 'Previous Year')) cls.tm1.cubes.cells.write_value('1989', '}ElementAttributes_' + DIMENSION_NAME, ('1990', 'Previous Year')) cls.tm1.cubes.cells.write_value('1990', '}ElementAttributes_' + DIMENSION_NAME, ('1991', 'Previous Year')) cls.tm1.cubes.cells.write_value('1991', '}ElementAttributes_' + DIMENSION_NAME, ('1992', 'Previous Year')) cls.tm1.cubes.cells.write_value('1988/89', '}ElementAttributes_' + DIMENSION_NAME, ('1989', 'Financial Year')) cls.tm1.cubes.cells.write_value('1989/90', '}ElementAttributes_' + DIMENSION_NAME, ('1990', 'Financial Year')) cls.tm1.cubes.cells.write_value('1990/91', '}ElementAttributes_' + DIMENSION_NAME, ('1991', 'Financial Year')) cls.tm1.cubes.cells.write_value('1991/92', '}ElementAttributes_' + DIMENSION_NAME, ('1992', 'Financial Year'))
def create_dimension_with_multiple_hierarchies(cls): dimension = Dimension(cls.dimension_name_with_multi_hierarchy) dimension.add_hierarchy( Hierarchy(name="Hierarchy1", dimension_name=dimension.name, elements=[ Element("Elem1", "Numeric"), Element("Elem2", "Numeric"), Element("Elem3", "Numeric") ])) dimension.add_hierarchy( Hierarchy(name="Hierarchy2", dimension_name=dimension.name, elements=[ Element("Elem1", "Numeric"), Element("Elem2", "Numeric"), Element("Elem3", "Numeric") ])) dimension.add_hierarchy( Hierarchy(name="Hierarchy3", dimension_name=dimension.name, elements=[ Element("Elem1", "Numeric"), Element("Elem2", "Numeric"), Element("Elem3", "Numeric") ])) cls.tm1.dimensions.create(dimension)
def create_or_update_dimension_with_hierarchies(cls): dimension = Dimension(cls.dimension_with_hierarchies_name) dimension.add_hierarchy( Hierarchy(name="Hierarchy1", dimension_name=dimension.name, elements=[ Element("Elem1", "Numeric"), Element("Elem2", "Numeric"), Element("Elem3", "Numeric") ])) dimension.add_hierarchy( Hierarchy(name="Hierarchy2", dimension_name=dimension.name, elements=[ Element("Elem4", "Numeric"), Element("Elem6", "Numeric"), Element("Cons1", "Consolidated") ])) dimension.add_hierarchy( Hierarchy(name="Hierarchy3", dimension_name=dimension.name, elements=[ Element("Elem5", "Numeric"), Element("Cons2", "Consolidated"), Element("Cons3", "Consolidated") ])) cls.tm1.dimensions.update_or_create(dimension)
def setUpClass(cls): # Namings cls.prefix = "TM1py_unittest_server_" cls.dimension_name1 = cls.prefix + str(uuid.uuid4()) cls.dimension_name2 = cls.prefix + str(uuid.uuid4()) cls.cube_name = cls.prefix + str(uuid.uuid4()) cls.process_name1 = cls.prefix + str(uuid.uuid4()) cls.process_name2 = cls.prefix + str(uuid.uuid4()) # Connect to TM1 cls.tm1 = TM1Service(**config['tm1srv01']) # create a simple cube with dimensions to test transactionlog methods if not cls.tm1.dimensions.exists(cls.dimension_name1): d = Dimension(cls.dimension_name1) h = Hierarchy(cls.dimension_name1, cls.dimension_name1) h.add_element('Total Years', 'Consolidated') h.add_element('No Year', 'Numeric') for year in range(1989, 2040, 1): h.add_element(str(year), 'Numeric') h.add_edge('Total Years', str(year), 1) d.add_hierarchy(h) cls.tm1.dimensions.create(d) if not cls.tm1.dimensions.exists(cls.dimension_name2): d = Dimension(cls.dimension_name2) h = Hierarchy(cls.dimension_name2, cls.dimension_name2) h.add_element('Value', 'Numeric') d.add_hierarchy(h) cls.tm1.dimensions.create(d) if not cls.tm1.cubes.exists(cls.cube_name): cube = Cube(cls.cube_name, [cls.dimension_name1, cls.dimension_name2]) cls.tm1.cubes.create(cube)
def create_dimension(cls): dimension = Dimension(cls.dimension_name) hierarchy = Hierarchy(name=cls.dimension_name, dimension_name=cls.dimension_name) hierarchy.add_element('Total Years', 'Consolidated') hierarchy.add_element('No Year', 'Numeric') hierarchy.add_element('1989', 'Numeric') hierarchy.add_element("My Element", "Numeric") hierarchy.add_element_attribute('Previous Year', 'String') hierarchy.add_element_attribute('Next Year', 'String') hierarchy.add_element_attribute('Updateable Attribute', 'String') hierarchy.add_edge('Total Years', '1989', 2) dimension.add_hierarchy(hierarchy) cls.tm1.dimensions.create(dimension)
def create_dimension_with_multiple_hierarchies(cls): dimension = Dimension(DIMENSION_NAME_WITH_MULTI_HIERARCHY) dimension.add_hierarchy( Hierarchy(name="Hierarchy1", dimension_name=dimension.name, elements=[ Element("Elem1", "Numeric"), Element("Elem2", "Numeric"), Element("Elem3", "Numeric") ])) dimension.add_hierarchy( Hierarchy(name="Hierarchy2", dimension_name=dimension.name, elements=[ Element("Elem1", "Numeric"), Element("Elem2", "Numeric"), Element("Elem3", "Numeric") ])) dimension.add_hierarchy( Hierarchy(name="Hierarchy3", dimension_name=dimension.name, elements=[ Element("Elem1", "Numeric"), Element("Elem2", "Numeric"), Element("Elem3", "Numeric") ])) cls.tm1.dimensions.create(dimension)
def setUpClass(cls): """ Establishes a connection to TM1 and creates TM1 objects to use across all tests """ # Connection to TM1 cls.config = configparser.ConfigParser() cls.config.read(Path(__file__).parent.joinpath("config.ini")) cls.tm1 = TM1Service(**cls.config["tm1srv01"]) # Build 4 Dimensions cls.dim1_name = PREFIX + "Dimension1" cls.dim1_element_names = ["A " + str(i) for i in range(10)] cls.dim1 = Dimension(cls.dim1_name) h = Hierarchy(cls.dim1_name, cls.dim1_name) for element_name in cls.dim1_element_names: h.add_element(element_name, "Numeric") cls.dim1.add_hierarchy(h) cls.dim2_name = PREFIX + "Dimension2" cls.dim2_element_names = ["B " + str(i) for i in range(10)] cls.dim2 = Dimension(cls.dim2_name) h = Hierarchy(cls.dim2_name, cls.dim2_name) for element_name in cls.dim2_element_names: h.add_element(element_name, "Numeric") cls.dim2.add_hierarchy(h) cls.dim3_name = PREFIX + "Dimension3" cls.dim3_element_names = ["C " + str(i) for i in range(10)] cls.dim3 = Dimension(cls.dim3_name) h = Hierarchy(cls.dim3_name, cls.dim3_name) for element_name in cls.dim3_element_names: h.add_element(element_name, "Numeric") cls.dim3.add_hierarchy(h) cls.dim4_name = PREFIX + "Dimension4" cls.dim4_element_names = ["D " + str(i) for i in range(10)] cls.dim4 = Dimension(cls.dim4_name) h = Hierarchy(cls.dim4_name, cls.dim4_name) for element_name in cls.dim4_element_names: h.add_element(element_name, "Numeric") cls.dim4.add_hierarchy(h) # Define cube with 4 dimensions cls.cube_name = PREFIX + "Cube" cls.cube = Cube( name=cls.cube_name, dimensions=[cls.dim1_name, cls.dim2_name, cls.dim3_name, cls.dim4_name], )
def setUp(cls): # create dimension with a default hierarchy d = Dimension(cls.dimension_name) h = Hierarchy(cls.dimension_name, cls.hierarchy_name) # add elements cls.years = ("No Year", "1989", "1990", "1991", "1992") cls.extra_year = "4321" h.add_element('Total Years', 'Consolidated') h.add_element('All Consolidations', 'Consolidated') h.add_edge("All Consolidations", "Total Years", 1) for year in cls.years: h.add_element(year, 'Numeric') h.add_edge('Total Years', year, 1) # add attributes cls.attributes = ('Previous Year', 'Next Year') cls.alias_attributes = ("Financial Year", ) for attribute in cls.attributes: h.add_element_attribute(attribute, "String") for attribute in cls.alias_attributes: h.add_element_attribute(attribute, "Alias") d.add_hierarchy(h) cls.tm1.dimensions.update_or_create(d) cls.added_attribute_name = "NewAttribute" # write attribute values cls.tm1.cubes.cells.write_value('1988', cls.attribute_cube_name, ('1989', 'Previous Year')) cls.tm1.cubes.cells.write_value('1989', cls.attribute_cube_name, ('1990', 'Previous Year')) cls.tm1.cubes.cells.write_value('1990', cls.attribute_cube_name, ('1991', 'Previous Year')) cls.tm1.cubes.cells.write_value('1991', cls.attribute_cube_name, ('1992', 'Previous Year')) cls.tm1.cubes.cells.write_value('1988/89', cls.attribute_cube_name, ('1989', 'Financial Year')) cls.tm1.cubes.cells.write_value('1989/90', cls.attribute_cube_name, ('1990', 'Financial Year')) cls.tm1.cubes.cells.write_value('1990/91', cls.attribute_cube_name, ('1991', 'Financial Year')) cls.tm1.cubes.cells.write_value('1991/92', cls.attribute_cube_name, ('1992', 'Financial Year')) cls.create_or_update_dimension_with_hierarchies()
def setup_class(cls): cls.tm1 = TM1Service(**test_config) # Do random stuff cls.private = bool(random.getrandbits(1)) # Define Names cls.prefix = 'TM1py_unittest_dimension_' cls.dimension_name = cls.prefix + str(uuid.uuid4()) cls.subset_name_static = cls.prefix + str(uuid.uuid4()) cls.subset_name_dynamic = cls.prefix + str(uuid.uuid4()) # Instantiate Subsets cls.static_subset = Subset(dimension_name=cls.dimension_name, subset_name=cls.subset_name_static, elements=['USD', 'EUR', 'NZD']) cls.dynamic_subset = Subset( dimension_name=cls.dimension_name, subset_name=cls.subset_name_dynamic, expression='{ HIERARCHIZE( {TM1SUBSETALL( [' + cls.dimension_name + '] )} ) }') elements = [ Element('USD', 'Numeric'), Element('EUR', 'Numeric'), Element('JPY', 'Numeric'), Element('CNY', 'Numeric'), Element('GBP', 'Numeric'), Element('NZD', 'Numeric') ] element_attributes = [ElementAttribute('Currency Name', 'String')] h = Hierarchy(cls.dimension_name, cls.dimension_name, elements, element_attributes) d = Dimension(cls.dimension_name, hierarchies=[h]) cls.tm1.dimensions.create(d)
def setUp(cls): # Connection to TM1 cls.config = configparser.ConfigParser() cls.config.read(Path(__file__).parent.joinpath('config.ini')) cls.tm1 = TM1Service(**cls.config['tm1srv01']) for dimension_name in cls.dimension_names: elements = [ Element('Element {}'.format(str(j)), 'Numeric') for j in range(1, 1001) ] hierarchy = Hierarchy(dimension_name=dimension_name, name=dimension_name, elements=elements) dimension = Dimension(dimension_name, [hierarchy]) if not cls.tm1.dimensions.exists(dimension.name): cls.tm1.dimensions.create(dimension) # Build Cube cube = Cube(cls.cube_name, cls.dimension_names) if not cls.tm1.cubes.exists(cls.cube_name): cls.tm1.cubes.create(cube) c = Cube(cls.cube_name, dimensions=cls.dimension_names, rules=Rules('')) if cls.tm1.cubes.exists(c.name): cls.tm1.cubes.delete(c.name) cls.tm1.cubes.create(c) if not cls.tm1.sandboxes.exists(cls.sandbox_name1): cls.tm1.sandboxes.create( Sandbox(name=cls.sandbox_name1, include_in_sandbox_dimension=True))
def test1_create_dimension(self): root_element = Element(name='Root', element_type='Consolidated') elements = [root_element] edges = {} for i in range(1000): element_name = str(uuid.uuid4()) elements.append(Element(name=element_name, element_type='Numeric')) edges[('Root', element_name)] = i element_attributes = [ ElementAttribute(name='Name Long', attribute_type='Alias'), ElementAttribute(name='Name Short', attribute_type='Alias') ] h = Hierarchy(name=self.dimension_name, dimension_name=self.dimension_name, elements=elements, edges=edges, element_attributes=element_attributes) d = Dimension(name=self.dimension_name, hierarchies=[h]) self.tm1.dimensions.create(d) # Test dimensions = self.tm1.dimensions.get_all_names() self.assertIn(self.dimension_name, dimensions) # Get it d = self.tm1.dimensions.get(dimension_name=self.dimension_name) h = d.hierarchies[0] # Test self.assertEqual(len(h.elements), 1001) self.assertEqual(len(h.element_attributes), 2)
def setUp(self): # Instantiate Subsets self.static_subset = Subset(dimension_name=self.dimension_name, subset_name=self.subset_name_static, elements=['USD', 'EUR', 'NZD', 'Dum\'my']) self.dynamic_subset = Subset( dimension_name=self.dimension_name, subset_name=self.subset_name_dynamic, expression='{ HIERARCHIZE( {TM1SUBSETALL( [' + self.dimension_name + '] )} ) }') elements = [ Element('USD', 'Numeric'), Element('EUR', 'Numeric'), Element('JPY', 'Numeric'), Element('CNY', 'Numeric'), Element('GBP', 'Numeric'), Element('NZD', 'Numeric'), Element('Dum\'my', 'Numeric') ] element_attributes = [ElementAttribute('Currency Name', 'String')] h = Hierarchy(self.dimension_name, self.dimension_name, elements, element_attributes) d = Dimension(self.dimension_name, hierarchies=[h]) self.tm1.dimensions.create(d) for private in (True, False): self.tm1.dimensions.subsets.create(subset=self.static_subset, private=private) self.tm1.dimensions.subsets.create(subset=self.dynamic_subset, private=private)
def setUpClass(cls): """ Establishes a connection to TM1 and creates a dimensions and a cube to use across all tests """ # Connection to TM1 cls.config = configparser.ConfigParser() cls.config.read(Path(__file__).parent.joinpath('config.ini')) cls.tm1 = TM1Service(**cls.config['tm1srv01']) # Build Dimensions cls.dimension_names = ("TM1py_tests_annotations_dimension1", "TM1py_tests_annotations_dimension2", "TM1py_tests_annotations_dimension3") for dimension_name in cls.dimension_names: elements = [ Element('Element {}'.format(str(j)), 'Numeric') for j in range(1, 1001) ] hierarchy = Hierarchy(dimension_name=dimension_name, name=dimension_name, elements=elements) dimension = Dimension(dimension_name, [hierarchy]) cls.tm1.dimensions.update_or_create(dimension) # Build Cube cls.cube_name = "TM1py_tests_annotations" cube = Cube(cls.cube_name, cls.dimension_names) cls.tm1.cubes.update_or_create(cube)
def setUpClass(cls): """ Establishes a connection to TM1 and creates TM! objects to use across all tests """ # Connection to TM1 cls.config = configparser.ConfigParser() cls.config.read(Path(__file__).parent.joinpath('config.ini')) cls.tm1 = TM1Service(**cls.config['tm1srv01']) # Build Dimensions for i in range(3): elements = [ Element('Element {}'.format(str(j)), 'Numeric') for j in range(1, 1001) ] hierarchy = Hierarchy(dimension_name=cls.dimension_names[i], name=cls.dimension_names[i], elements=elements) dimension = Dimension(name=cls.dimension_names[i], hierarchies=[hierarchy]) if not cls.tm1.dimensions.exists(dimension_name=dimension.name): cls.tm1.dimensions.create(dimension=dimension) # Build Cube cube = Cube(cls.cube_name, cls.dimension_names) if not cls.tm1.cubes.exists(cls.cube_name): cls.tm1.cubes.create(cube) # Write data into cube cellset = {} for i in range(20000): element1 = 'Element ' + str(random.randint(1, 1000)) element2 = 'Element ' + str(random.randint(1, 1000)) element3 = 'Element ' + str(random.randint(1, 1000)) cellset[(element1, element2, element3)] = random.randint(1, 1000) cls.tm1.cells.write_values(cls.cube_name, cellset)
def setup_class(cls): # Build Dimensions for i in range(3): elements = [Element('Element {}'.format(str(j)), 'Numeric') for j in range(1, 1001)] hierarchy = Hierarchy( dimension_name=DIMENSION_NAMES[i], name=DIMENSION_NAMES[i], elements=elements) dimension = Dimension( name=DIMENSION_NAMES[i], hierarchies=[hierarchy]) if not cls.tm1.dimensions.exists(dimension_name=dimension.name): cls.tm1.dimensions.create(dimension=dimension) # Build Cube cube = Cube(CUBE_NAME, DIMENSION_NAMES) if not cls.tm1.cubes.exists(CUBE_NAME): cls.tm1.cubes.create(cube) # Write data into cube cellset = {} for i in range(20000): element1 = 'Element ' + str(random.randint(1, 1000)) element2 = 'Element ' + str(random.randint(1, 1000)) element3 = 'Element ' + str(random.randint(1, 1000)) cellset[(element1, element2, element3)] = random.randint(1, 1000) cls.tm1.data.write_values(CUBE_NAME, cellset)
def setup_class(cls): # Connection to TM1 cls.tm1 = TM1Service(**config['tm1srv01']) # generate random coordinates cls.target_coordinates = list( zip(('Element ' + str(random.randint(1, 1000)) for _ in range(100)), ('Element ' + str(random.randint(1, 1000)) for _ in range(100)), ('Element ' + str(random.randint(1, 1000)) for _ in range(100)))) # Build Dimensions for i in range(3): elements = [ Element('Element {}'.format(str(j)), 'Numeric') for j in range(1, 1001) ] hierarchy = Hierarchy(dimension_names[i], dimension_names[i], elements) dimension = Dimension(dimension_names[i], [hierarchy]) if not cls.tm1.dimensions.exists(dimension.name): cls.tm1.dimensions.create(dimension) # Build Cube cube = Cube(cube_name, dimension_names) if not cls.tm1.cubes.exists(cube_name): cls.tm1.cubes.create(cube) # Build cube view view = NativeView(cube_name=cube_name, view_name=view_name, suppress_empty_columns=True, suppress_empty_rows=True) subset = AnonymousSubset(dimension_name=dimension_names[0], expression='{[' + dimension_names[0] + '].Members}') view.add_row(dimension_name=dimension_names[0], subset=subset) subset = AnonymousSubset(dimension_name=dimension_names[1], expression='{[' + dimension_names[1] + '].Members}') view.add_row(dimension_name=dimension_names[1], subset=subset) subset = AnonymousSubset(dimension_name=dimension_names[2], expression='{[' + dimension_names[2] + '].Members}') view.add_column(dimension_name=dimension_names[2], subset=subset) cls.tm1.cubes.views.create(view, private=False) # Sum of all the values that we write in the cube. serves as a checksum cls.total_value = 0 # cellset of data that shall be written cls.cellset = {} for element1, element2, element3 in cls.target_coordinates: value = random.randint(1, 1000) cls.cellset[(element1, element2, element3)] = value # update the checksum cls.total_value += value
def test1_create_hierarchy(self): d = Dimension(self.dimension_name) h = Hierarchy(self.dimension_name, self.dimension_name) h.add_element('Total Years', 'Consolidated') h.add_element('No Year', 'Numeric') h.add_element('1989', 'Numeric') h.add_element_attribute('Previous Year', 'String') h.add_element_attribute('Next Year', 'String') h.add_edge('Total Years', '1989', 2) d.add_hierarchy(h) self.tm1.dimensions.create(d) time.sleep(1) s = Subset(self.subset_name, self.dimension_name, self.dimension_name, expression="{{[{}].Members}}".format(self.dimension_name)) self.tm1.dimensions.subsets.create(s, False)
def setUpClass(cls): # Connect to TM1 cls.tm1 = TM1Service(**config['tm1srv01']) # Build 4 Dimensions cls.dim1_name = PREFIX + "Dimension1" cls.dim1_element_names = ["A " + str(i) for i in range(10)] cls.dim1 = Dimension(cls.dim1_name) h = Hierarchy(cls.dim1_name, cls.dim1_name) for element_name in cls.dim1_element_names: h.add_element(element_name, 'Numeric') cls.dim1.add_hierarchy(h) cls.dim2_name = PREFIX + "Dimension2" cls.dim2_element_names = ["B " + str(i) for i in range(10)] cls.dim2 = Dimension(cls.dim2_name) h = Hierarchy(cls.dim2_name, cls.dim2_name) for element_name in cls.dim2_element_names: h.add_element(element_name, 'Numeric') cls.dim2.add_hierarchy(h) cls.dim3_name = PREFIX + "Dimension3" cls.dim3_element_names = ["C " + str(i) for i in range(10)] cls.dim3 = Dimension(cls.dim3_name) h = Hierarchy(cls.dim3_name, cls.dim3_name) for element_name in cls.dim3_element_names: h.add_element(element_name, 'Numeric') cls.dim3.add_hierarchy(h) cls.dim4_name = PREFIX + "Dimension4" cls.dim4_element_names = ["D " + str(i) for i in range(10)] cls.dim4 = Dimension(cls.dim4_name) h = Hierarchy(cls.dim4_name, cls.dim4_name) for element_name in cls.dim4_element_names: h.add_element(element_name, 'Numeric') cls.dim4.add_hierarchy(h) # Define cube with 4 dimensions cls.cube_name = PREFIX + "Cube" cls.cube = Cube(name=cls.cube_name, dimensions=[ cls.dim1_name, cls.dim2_name, cls.dim3_name, cls.dim4_name ])
def create_dimensions_and_cube(): with TM1Service(**config['tm1srv01']) as tm1: # Build Measure Dimension element = Element('Numeric Element', 'Numeric') hierarchy1 = Hierarchy('Python Cube Measure', 'Python Cube Measure', [element]) dimension1 = Dimension('Python Cube Measure', [hierarchy1]) if not tm1.dimensions.exists(dimension1.name): tm1.dimensions.create(dimension1) # Build Index Dimension elements = [Element(str(num), 'Numeric') for num in range(1, 100000)] hierarchy2 = Hierarchy('Big Dimension', 'Big Dimension', elements) dimension2 = Dimension('Big Dimension', [hierarchy2]) if not tm1.dimensions.exists(dimension2.name): tm1.dimensions.create(dimension2) cube = Cube('Python Cube', [dimension2.name, dimension1.name]) if cube.name not in tm1.cubes.get_all_names(): tm1.cubes.create(cube)
def get(self, dimension_name): """ Get a Dimension :param dimension_name: :return: """ request = "/api/v1/Dimensions('{}')?$expand=Hierarchies($expand=*)".format( dimension_name) dimension_as_json = self._rest.GET(request) return Dimension.from_json(dimension_as_json)
def setUpClass(cls): """ Establishes a connection to TM1 and creates TM! objects to use across all tests """ # Connection to TM1 cls.config = configparser.ConfigParser() cls.config.read(Path(__file__).parent.joinpath('config.ini')) cls.tm1 = TM1Service(**cls.config['tm1srv01']) cls.prefix = 'TM1py_unittest_element_' cls.dimension_name = f"{cls.prefix}{uuid.uuid4()}" cls.hierarchy_name = cls.dimension_name cls.attribute_cube_name = '}ElementAttributes_' + cls.dimension_name # create dimension with a default hierarchy d = Dimension(cls.dimension_name) h = Hierarchy(cls.dimension_name, cls.hierarchy_name) # add elements cls.years = ("No Year", "1989", "1990", "1991", "1992") cls.extra_year = "4321" h.add_element('Total Years', 'Consolidated') h.add_element('All Consolidations', 'Consolidated') h.add_edge("All Consolidations", "Total Years", 1) for year in cls.years: h.add_element(year, 'Numeric') h.add_edge('Total Years', year, 1) # add attributes cls.attributes = ('Previous Year', 'Next Year') cls.alias_attributes = ("Financial Year",) for attribute in cls.attributes: h.add_element_attribute(attribute, "String") for attribute in cls.alias_attributes: h.add_element_attribute(attribute, "Alias") d.add_hierarchy(h) cls.tm1.dimensions.create(d) cls.added_attribute_name = "NewAttribute"
def setUpClass(cls): """ Establishes a connection to TM1 and creates TM! objects to use across all tests """ # Connection to TM1 cls.config = configparser.ConfigParser() cls.config.read(Path(__file__).parent.joinpath('config.ini')) cls.tm1 = TM1Service(**cls.config['tm1srv01']) # Namings cls.dimension_name1 = PREFIX + "Dimension1" cls.dimension_name2 = PREFIX + "Dimension2" cls.cube_name = PREFIX + "Cube1" cls.process_name1 = PREFIX + "Process1" cls.process_name2 = PREFIX + "Process2" # create a simple cube with dimensions to test transactionlog methods if not cls.tm1.dimensions.exists(cls.dimension_name1): d = Dimension(cls.dimension_name1) h = Hierarchy(cls.dimension_name1, cls.dimension_name1) h.add_element('Total Years', 'Consolidated') h.add_element('No Year', 'Numeric') for year in range(1989, 2040, 1): h.add_element(str(year), 'Numeric') h.add_edge('Total Years', str(year), 1) d.add_hierarchy(h) cls.tm1.dimensions.update_or_create(d) if not cls.tm1.dimensions.exists(cls.dimension_name2): d = Dimension(cls.dimension_name2) h = Hierarchy(cls.dimension_name2, cls.dimension_name2) h.add_element('Value', 'Numeric') d.add_hierarchy(h) cls.tm1.dimensions.update_or_create(d) if not cls.tm1.cubes.exists(cls.cube_name): cube = Cube(cls.cube_name, [cls.dimension_name1, cls.dimension_name2]) cls.tm1.cubes.update_or_create(cube) # inject process with ItemReject cls.process1 = Process(name=cls.process_name1, prolog_procedure="ItemReject('TM1py Tests');") cls.tm1.processes.update_or_create(cls.process1) # inject process that does nothing and runs successful cls.process2 = Process(name=cls.process_name2, prolog_procedure="sText = 'text';") cls.tm1.processes.update_or_create(cls.process2) cls.tm1.server.activate_audit_log()
def test_rename_dimension(self): original_dimension_name = self.prefix + "Original_Dimension" renamed_dimension_name = self.prefix + "Renamed_Dimension" # if dimensions exist in TM1.. delete them for dim_name in (original_dimension_name, renamed_dimension_name): if self.tm1.dimensions.exists(dim_name): self.tm1.dimensions.delete(dimension_name=dim_name) # create dimension original_dimension = Dimension(original_dimension_name) hierarchy = Hierarchy(name=original_dimension_name, dimension_name=original_dimension_name) hierarchy.add_element(element_name="Total", element_type="Consolidated") hierarchy.add_element(element_name="Elem1", element_type="Numeric") hierarchy.add_element(element_name="Elem2", element_type="Numeric") hierarchy.add_element(element_name="Elem3", element_type="Numeric") hierarchy.add_edge(parent="Total", component="Elem1", weight=1) hierarchy.add_edge(parent="Total", component="Elem2", weight=1) hierarchy.add_edge(parent="Total", component="Elem3", weight=1) original_dimension.add_hierarchy(hierarchy) self.tm1.dimensions.create(original_dimension) # rename renamed_dimension = self.tm1.dimensions.get(original_dimension.name) renamed_dimension.name = renamed_dimension_name self.tm1.dimensions.create(renamed_dimension) # challenge equality of dimensions summary1 = self.tm1.dimensions.hierarchies.get_hierarchy_summary( dimension_name=original_dimension_name, hierarchy_name=original_dimension_name) summary2 = self.tm1.dimensions.hierarchies.get_hierarchy_summary( dimension_name=renamed_dimension_name, hierarchy_name=renamed_dimension_name) self.assertEqual(summary1, summary2) # delete for dim_name in (original_dimension_name, renamed_dimension_name): self.tm1.dimensions.delete(dimension_name=dim_name)
def setup_class(cls): elements = [ Element('USD', 'Numeric'), Element('EUR', 'Numeric'), Element('JPY', 'Numeric'), Element('CNY', 'Numeric'), Element('GBP', 'Numeric'), Element('NZD', 'Numeric') ] element_attributes = [ElementAttribute('Currency Name', 'String')] h = Hierarchy(cls.dimension_name, cls.dimension_name, elements, element_attributes) d = Dimension(cls.dimension_name, hierarchies=[h]) cls.tm1.dimensions.create(d)
def create_dimensions_and_cube(): with TM1Service(address='localhost', port=12354, user='******', password='******', ssl=True) as tm1: # Build Measure Dimension element = Element('Numeric Element', 'Numeric') hierarchy1 = Hierarchy('Python Cube Measure', 'Python Cube Measure', [element]) dimension1 = Dimension('Python Cube Measure', [hierarchy1]) if not tm1.dimensions.exists(dimension1.name): tm1.dimensions.create(dimension1) # Build Index Dimension elements = [Element(str(num), 'Numeric') for num in range(1, 100000)] hierarchy2 = Hierarchy('Big Dimension', 'Big Dimension', elements) dimension2 = Dimension('Big Dimension', [hierarchy2]) if not tm1.dimensions.exists(dimension2.name): tm1.dimensions.create(dimension2) cube = Cube('Python Cube', [dimension2.name, dimension1.name]) if cube.name not in tm1.cubes.get_all_names(): tm1.cubes.create(cube)
def setUpClass(cls): # Namings cls.dimension_name1 = PREFIX + "Dimension1" cls.dimension_name2 = PREFIX + "Dimension2" cls.cube_name = PREFIX + "Cube1" cls.process_name1 = PREFIX + "Process1" cls.process_name2 = PREFIX + "Process2" # Connect to TM1 cls.tm1 = TM1Service(**config['tm1srv01']) # create a simple cube with dimensions to test transactionlog methods if not cls.tm1.dimensions.exists(cls.dimension_name1): d = Dimension(cls.dimension_name1) h = Hierarchy(cls.dimension_name1, cls.dimension_name1) h.add_element('Total Years', 'Consolidated') h.add_element('No Year', 'Numeric') for year in range(1989, 2040, 1): h.add_element(str(year), 'Numeric') h.add_edge('Total Years', str(year), 1) d.add_hierarchy(h) cls.tm1.dimensions.create(d) if not cls.tm1.dimensions.exists(cls.dimension_name2): d = Dimension(cls.dimension_name2) h = Hierarchy(cls.dimension_name2, cls.dimension_name2) h.add_element('Value', 'Numeric') d.add_hierarchy(h) cls.tm1.dimensions.create(d) if not cls.tm1.cubes.exists(cls.cube_name): cube = Cube(cls.cube_name, [cls.dimension_name1, cls.dimension_name2]) cls.tm1.cubes.create(cube) # inject process with ItemReject cls.process1 = Process(name=cls.process_name1, prolog_procedure="ItemReject('TM1py Tests');") cls.tm1.processes.create(cls.process1) # inject process that does nothing and runs successfull cls.process2 = Process(name=cls.process_name2, prolog_procedure="sText = 'text';") cls.tm1.processes.create(cls.process2)
def create_dimension(cls): root_element = Element(name='Root', element_type='Consolidated') elements = [root_element] edges = {} for i in range(1, 1001): element_name = "Element {}".format(i) elements.append(Element(name=element_name, element_type='Numeric')) edges[('Root', element_name)] = i element_attributes = [ ElementAttribute(name='Name Long', attribute_type='Alias'), ElementAttribute(name='Name Short', attribute_type='Alias')] h = Hierarchy( name=DIMENSION_NAME, dimension_name=DIMENSION_NAME, elements=elements, edges=edges, element_attributes=element_attributes) d = Dimension(name=DIMENSION_NAME, hierarchies=[h]) cls.tm1.dimensions.create(d)
def test1_create_dimension(self): root_element = Element(name='Root', element_type='Consolidated') elements = [root_element] edges = {} for i in range(1000): element_name = str(uuid.uuid4()) elements.append(Element(name=element_name, element_type='Numeric')) edges[('Root', element_name)] = i h = Hierarchy(name=self.dimension_name, dimension_name=self.dimension_name, elements=elements, edges=edges) d = Dimension(name=self.dimension_name, hierarchies=[h]) # create it self.tm1.dimensions.create(d) # Test dimensions = self.tm1.dimensions.get_all_names() self.assertIn(self.dimension_name, dimensions)
def build_simple_dimension(tm1, dimension_name, dimension_elements, overwrite): elements = [ Element(name=element_name, element_type='Numeric') for element_name in dimension_elements ] total_element = 'Total ' + dimension_name elements.append(Element(name=total_element, element_type='Consolidated')) edges = {(total_element, element): 1 for element in dimension_elements} # Build Hierarchy, Dimension hier = Hierarchy(name=dimension_name, dimension_name=dimension_name, elements=elements, edges=edges) dim = Dimension(name=dimension_name, hierarchies=[hier]) # Interaction with TM1 exists = tm1.dimensions.exists(dimension_name) if not exists: tm1.dimensions.create(dim) elif exists and overwrite: tm1.dimensions.update(dim)
elements.append(Element('Even', 'Consolidated')) elements.append(Element('Odd', 'Consolidated')) elements.append(Element('4 Digit', 'Consolidated')) elements.append(Element('3 Digit', 'Consolidated')) edges = Utils.CaseAndSpaceInsensitiveTuplesDict() for i in range(2, 100001, 2): parent_child = ('Even', 'Element {}'.format(i)) edges[parent_child] = 1 for i in range(1, 100001, 2): parent_child = ('Odd', 'Element {}'.format(i)) edges[parent_child] = 1 for i in range(1000, 9999, 1): parent_child = ('4 Digit', 'Element {}'.format(i)) edges[parent_child] = 1 for i in range(100, 999, 1): parent_child = ('3 Digit', 'Element {}'.format(i)) edges[parent_child] = 1 hierarchy = Hierarchy(name=DIMENSION_NAME, dimension_name=DIMENSION_NAME, elements=elements, edges=edges) dimension = Dimension(name=DIMENSION_NAME, hierarchies=[hierarchy]) # Send everything to TM1 tm1.dimensions.create(dimension)