def test1_create_view(self):
# create instance of native View
native_view = NativeView(cube_name='Plan_BudgetPlan',
view_name=self.native_view_name)
# set up native view - put subsets on Rows, Columns and Titles
subset = self.tm1.get_subset(dimension_name='plan_version', subset_name='FY 2004 Budget', private=False)
native_view.add_row(dimension_name='plan_version', subset=subset)
subset = self.tm1.get_subset(dimension_name='plan_business_unit', subset_name='n level business unit',
private=False)
native_view.add_row(dimension_name='plan_business_unit', subset=subset)
subset = self.tm1.get_subset(dimension_name='plan_department', subset_name='n level departments', private=False)
native_view.add_row(dimension_name='plan_department', subset=subset)
subset = self.tm1.get_subset(dimension_name='plan_chart_of_accounts', subset_name='Consolidations',
private=False)
native_view.add_row(dimension_name='plan_chart_of_accounts', subset=subset)
subset = self.tm1.get_subset(dimension_name='plan_exchange_rates', subset_name='local', private=False)
native_view.add_title(dimension_name='plan_exchange_rates', subset=subset, selection='local')
subset = self.tm1.get_subset(dimension_name='plan_time', subset_name='2004 Total Year', private=False)
native_view.add_column(dimension_name='plan_time', subset=subset)
subset = self.tm1.get_subset(dimension_name='plan_source', subset_name='budget', private=False)
native_view.add_column(dimension_name='plan_source', subset=subset)
# create native view on Server
self.tm1.create_view(view=native_view, private=self.random_boolean)
# create instance of MDXView
nv_view = self.tm1.get_native_view(cube_name='Plan_BudgetPlan', view_name=self.native_view_name,
private=self.random_boolean)
mdx = nv_view.as_MDX
mdx_view = MDXView(cube_name='Plan_BudgetPlan',
view_name=self.mdx_view_name,
MDX=mdx)
# create mdx view on Server
self.tm1.create_view(view=mdx_view, private=self.random_boolean)
def test_as_mdx_happy_case(self):
native_view = NativeView(
cube_name="c1",
view_name="not_relevant",
suppress_empty_columns=True,
suppress_empty_rows=False,
titles=[
ViewTitleSelection("d3",
AnonymousSubset("d3", "d3", "",
["e3"]), "e3")
],
columns=[
ViewAxisSelection("d1",
AnonymousSubset("d1", "d1", "{[d1].[e1]}"))
],
rows=[
ViewAxisSelection("d2",
AnonymousSubset("d2", "d2", "{[d2].[e2]}"))
])
self.assertEqual(
"SELECT\r\n"
"NON EMPTY {[d1].[e1]} ON 0,\r\n"
"{[d2].[e2]} ON 1\r\n"
"FROM [C1]\r\n"
"WHERE ([D3].[D3].[E3])", native_view.mdx)
def test_as_mdx_multi_rows_multi_columns(self):
native_view = NativeView(
cube_name="c1",
view_name="not_relevant",
suppress_empty_columns=True,
suppress_empty_rows=True,
titles=[
ViewTitleSelection("d5",
AnonymousSubset("d5", "d5", "",
["e5"]), "e5"),
ViewTitleSelection("d6",
AnonymousSubset("d6", "d6", "",
["e6"]), "e6")
],
columns=[
ViewAxisSelection("d1",
AnonymousSubset("d1", "d1", "{[d1].[e1]}")),
ViewAxisSelection("d2",
AnonymousSubset("d2", "d2", "{[d2].[e2]}"))
],
rows=[
ViewAxisSelection("d3",
AnonymousSubset("d3", "d3", "{[d3].[e3]}")),
ViewAxisSelection("d4",
AnonymousSubset("d4", "d4", "{[d4].[e4]}"))
])
self.assertEqual(
"SELECT\r\n"
"NON EMPTY {[d1].[e1]} * {[d2].[e2]} ON 0,\r\n"
"NON EMPTY {[d3].[e3]} * {[d4].[e4]} ON 1\r\n"
"FROM [C1]\r\n"
"WHERE ([D5].[D5].[E5],[D6].[D6].[E6])", native_view.mdx)
def test_substitute_title(self):
s1 = Subset("s1", "d1", "d1", None, None, ["e1", "e2"])
s2 = Subset("s2", "d2", "d2", None, None, ["e1", "e2"])
s3 = Subset("s3", "d3", "d3", None, None, ["e1", "e2"])
native_view = NativeView(cube_name="c1",
view_name="not_relevant",
suppress_empty_columns=True,
suppress_empty_rows=False,
titles=[ViewTitleSelection("d1", s1, "e1")],
columns=[ViewAxisSelection("d2", s2)],
rows=[ViewAxisSelection("d3", s3)])
native_view.substitute_title("d1", "e2")
self.assertEqual(native_view.titles[0].selected, "e2")
def build_views(tm1: TM1Service):
for file_name in VIEW_FILES:
with open(file_name, "r", encoding="utf-8") as file:
view = NativeView.from_json(file.read(), CUBE_NAME)
if tm1.cubes.views.exists(CUBE_NAME, view.name, False):
tm1.cubes.views.update(view, False)
else:
tm1.cubes.views.create(view, False)
def test_as_mdx_no_titles(self):
native_view = NativeView(
cube_name="c1",
view_name="not_relevant",
suppress_empty_columns=True,
suppress_empty_rows=False,
columns=[
ViewAxisSelection("d1",
AnonymousSubset("d1", "d1", "{[d1].[e1]}"))
])
self.assertEqual(
"SELECT\r\n"
"NON EMPTY {[d1].[e1]} ON 0\r\n"
"FROM [C1]", native_view.mdx)
def test_as_mdx_no_columns(self):
with self.assertRaises(ValueError) as _:
native_view = NativeView(
cube_name="c1",
view_name="not_relevant",
suppress_empty_columns=True,
suppress_empty_rows=False,
titles=[
ViewTitleSelection("d3",
AnonymousSubset("d3", "d3", "", ["e3"]),
"e3")
],
rows=[
ViewAxisSelection(
"d1", AnonymousSubset("d1", "d1", "{[d1].[e1]}"))
])
_ = native_view.mdx
def test_as_mdx_registered_subsets(self):
s1 = Subset("s1", "d1", "d1", None, None, ["e1", "e2"])
s2 = Subset("s2", "d2", "d2", None, None, ["e1", "e2"])
s3 = Subset("s3", "d3", "d3", None, None, ["e1", "e2"])
native_view = NativeView(cube_name="c1",
view_name="not_relevant",
suppress_empty_columns=True,
suppress_empty_rows=False,
titles=[ViewTitleSelection("d1", s1, "e1")],
columns=[ViewAxisSelection("d2", s2)],
rows=[ViewAxisSelection("d3", s3)])
self.assertEqual(
"SELECT\r\n"
"NON EMPTY {TM1SUBSETTOSET([D2].[D2],\"s2\")} ON 0,\r\n"
"{TM1SUBSETTOSET([D3].[D3],\"s3\")} ON 1\r\n"
"FROM [C1]\r\n"
"WHERE ([D1].[D1].[E1])", native_view.mdx)
config.read(r'..\config.ini')
mdx = """
SELECT
NON EMPTY {[Date].[2017-11-26], [Date].[2017-11-27]} * {[Bike Shares Measure].[Count]} ON ROWS,
NON EMPTY {[City].[NYC], [City].[Chicago]} ON COLUMNS
FROM [Bike Shares]
WHERE ([Version].[Actual])
"""
with TM1Service(**config['tm1srv01']) as tm1:
pivot = tm1.cubes.cells.execute_mdx_dataframe_pivot(mdx=mdx)
print(pivot)
view = NativeView(cube_name="Bike Shares",
view_name="Bike Shares By City",
suppress_empty_columns=True,
suppress_empty_rows=True)
view.add_row(dimension_name="Date",
subset=AnonymousSubset(dimension_name="Date",
expression="{Tm1SubsetAll([Date])}"))
view.add_row(dimension_name="Bike Shares Measure",
subset=AnonymousSubset(dimension_name="Bike Shares Measure",
elements=["Count"]))
view.add_column(dimension_name="City",
subset=AnonymousSubset(dimension_name="City",
elements=["NYC", "Chicago"]))
view.add_title(dimension_name="Version",
selection="Actual",
subset=AnonymousSubset(dimension_name="Version",
elements=["Actual"]))
def setUpClass(cls) -> None:
# Build Dimensions
for dimension_name in DIMENSION_NAMES:
elements = [
Element('Element {}'.format(str(j)), 'Numeric')
for j in range(1, 1001)
]
element_attributes = [
ElementAttribute("Attr1", "String"),
ElementAttribute("Attr2", "Numeric"),
ElementAttribute("Attr3", "Numeric")
]
hierarchy = Hierarchy(dimension_name=dimension_name,
name=dimension_name,
elements=elements,
element_attributes=element_attributes)
dimension = Dimension(dimension_name, [hierarchy])
if cls.tm1.dimensions.exists(dimension.name):
cls.tm1.dimensions.update(dimension)
else:
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)
view.add_row(dimension_name=DIMENSION_NAMES[0],
subset=AnonymousSubset(dimension_name=DIMENSION_NAMES[0],
expression='{[' +
DIMENSION_NAMES[0] + '].Members}'))
view.add_row(dimension_name=DIMENSION_NAMES[1],
subset=AnonymousSubset(dimension_name=DIMENSION_NAMES[1],
expression='{[' +
DIMENSION_NAMES[1] + '].Members}'))
view.add_column(
dimension_name=DIMENSION_NAMES[2],
subset=AnonymousSubset(dimension_name=DIMENSION_NAMES[2],
expression='{[' + DIMENSION_NAMES[2] +
'].Members}'))
if not cls.tm1.cubes.views.exists(CUBE_NAME, view.name, private=False):
cls.tm1.cubes.views.create(view=view, private=False)
# Build subset
subset = Subset(SUBSET_NAME, DIMENSION_NAMES[0], DIMENSION_NAMES[0],
None, None, ["Element 1"])
if cls.tm1.dimensions.hierarchies.subsets.exists(
subset.name, subset.dimension_name, subset.hierarchy_name,
False):
cls.tm1.dimensions.hierarchies.subsets.delete(
subset.name, subset.dimension_name, subset.hierarchy_name,
False)
cls.tm1.dimensions.hierarchies.subsets.create(subset, False)
# Build process
p1 = Process(name=PROCESS_NAME)
p1.add_parameter('pRegion', 'pRegion (String)', value='US')
if cls.tm1.processes.exists(p1.name):
cls.tm1.processes.delete(p1.name)
cls.tm1.processes.create(p1)
# Build chore
c1 = Chore(name=CHORE_NAME,
start_time=ChoreStartTime(datetime.now().year,
datetime.now().month,
datetime.now().day,
datetime.now().hour,
datetime.now().minute,
datetime.now().second),
dst_sensitivity=False,
active=True,
execution_mode=Chore.MULTIPLE_COMMIT,
frequency=ChoreFrequency(days=int(random.uniform(0, 355)),
hours=int(random.uniform(0, 23)),
minutes=int(random.uniform(0, 59)),
seconds=int(random.uniform(0,
59))),
tasks=[
ChoreTask(0,
PROCESS_NAME,
parameters=[{
'Name': 'pRegion',
'Value': 'UK'
}])
])
cls.tm1.chores.create(c1)
# create Folder
app = FolderApplication("", TM1PY_APP_FOLDER)
cls.tm1.applications.create(application=app, private=False)
def setUpClass(cls) -> None:
"""
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 Dimensions
for dimension_name in cls.dimension_names:
elements = [
Element('Element {}'.format(str(j)), 'Numeric')
for j in range(1, 1001)
]
element_attributes = [
ElementAttribute("Attr1", "String"),
ElementAttribute("Attr2", "Numeric"),
ElementAttribute("Attr3", "Numeric")
]
hierarchy = Hierarchy(dimension_name=dimension_name,
name=dimension_name,
elements=elements,
element_attributes=element_attributes)
dimension = Dimension(dimension_name, [hierarchy])
if cls.tm1.dimensions.exists(dimension.name):
cls.tm1.dimensions.update(dimension)
else:
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)
# Build cube view
view = NativeView(cube_name=cls.cube_name,
view_name=cls.view_name,
suppress_empty_columns=True,
suppress_empty_rows=True)
view.add_row(
dimension_name=cls.dimension_names[0],
subset=AnonymousSubset(dimension_name=cls.dimension_names[0],
expression='{[' + cls.dimension_names[0] +
'].Members}'))
view.add_row(
dimension_name=cls.dimension_names[1],
subset=AnonymousSubset(dimension_name=cls.dimension_names[1],
expression='{[' + cls.dimension_names[1] +
'].Members}'))
view.add_column(
dimension_name=cls.dimension_names[2],
subset=AnonymousSubset(dimension_name=cls.dimension_names[2],
expression='{[' + cls.dimension_names[2] +
'].Members}'))
if not cls.tm1.cubes.views.exists(
cls.cube_name, view.name, private=False):
cls.tm1.cubes.views.create(view=view, private=False)
# Build subset
subset = Subset(cls.subset_name, cls.dimension_names[0],
cls.dimension_names[0], None, None, ["Element 1"])
if cls.tm1.dimensions.hierarchies.subsets.exists(
subset.name, subset.dimension_name, subset.hierarchy_name,
False):
cls.tm1.dimensions.hierarchies.subsets.delete(
subset.name, subset.dimension_name, subset.hierarchy_name,
False)
cls.tm1.dimensions.hierarchies.subsets.create(subset, False)
# Build process
p1 = Process(name=cls.process_name)
p1.add_parameter('pRegion', 'pRegion (String)', value='US')
if cls.tm1.processes.exists(p1.name):
cls.tm1.processes.delete(p1.name)
cls.tm1.processes.create(p1)
# Build chore
c1 = Chore(name=cls.chore_name,
start_time=ChoreStartTime(datetime.now().year,
datetime.now().month,
datetime.now().day,
datetime.now().hour,
datetime.now().minute,
datetime.now().second),
dst_sensitivity=False,
active=True,
execution_mode=Chore.MULTIPLE_COMMIT,
frequency=ChoreFrequency(days=int(random.uniform(0, 355)),
hours=int(random.uniform(0, 23)),
minutes=int(random.uniform(0, 59)),
seconds=int(random.uniform(0,
59))),
tasks=[
ChoreTask(0,
cls.process_name,
parameters=[{
'Name': 'pRegion',
'Value': 'UK'
}])
])
cls.tm1.chores.create(c1)
# create Folder
app = FolderApplication("", cls.tm1py_app_folder)
cls.tm1.applications.create(application=app, private=False)
if not tm1.cubes.exists(cube.name):
tm1.cubes.create(cube)
# create cube 2
cube = Cube(
name="Py Project Summary", dimensions=["Py Project", "Py Project Summary Measure"])
if not tm1.cubes.exists(cube.name):
tm1.cubes.create(cube)
# create views
for project in ("Project1", "Project2", "Project3"):
# Project Summary
cube_name = "Py Project Summary"
view = NativeView(
cube_name=cube_name,
view_name=project + " NPV",
format_string="0.#########",
suppress_empty_columns=False,
suppress_empty_rows=False)
view.add_row(
dimension_name="Py Project Summary Measure",
subset=AnonymousSubset(
dimension_name="Py Project Summary Measure",
elements=["NPV"]))
view.add_column(
dimension_name="Py Project",
subset=AnonymousSubset(
dimension_name="Py Project",
elements=[project]))
if tm1.cubes.views.exists(cube_name=view.cube, view_name=view.name, private=False):
tm1.cubes.views.delete(cube_name=view.cube, view_name=view.name, private=False)
tm1.cubes.views.create(view=view, private=False)
def test_tm1io_input_nativeview_output_nativeview(self):
# create input view
view_input = NativeView(cube_name=CUBE_NAME_SOURCE,
view_name=VIEW_NAME_SOURCE,
suppress_empty_columns=False,
suppress_empty_rows=False)
view_input.add_row(
dimension_name=DIMENSION_NAMES[0],
subset=AnonymousSubset(dimension_name=DIMENSION_NAMES[0],
expression="{ HEAD ( { [" +
DIMENSION_NAMES[0] + "].Members}," +
str(len(IRR_INPUT_VALUES)) + ") }"))
view_input.add_column(
dimension_name=DIMENSION_NAMES[1],
subset=AnonymousSubset(dimension_name=DIMENSION_NAMES[1],
expression="{[" + DIMENSION_NAMES[1] +
"].[Element_1]}"))
self.tm1.cubes.views.create(view=view_input, private=False)
# create output view
view_output = NativeView(cube_name=CUBE_NAME_TARGET,
view_name=VIEW_NAME_TARGET,
suppress_empty_columns=False,
suppress_empty_rows=False)
view_output.add_row(
dimension_name=DIMENSION_NAMES[0],
subset=AnonymousSubset(dimension_name=DIMENSION_NAMES[0],
expression="{[" + DIMENSION_NAMES[0] +
"].[Element_1]}"))
view_output.add_column(
dimension_name=DIMENSION_NAMES[1],
subset=AnonymousSubset(dimension_name=DIMENSION_NAMES[1],
expression="{[" + DIMENSION_NAMES[1] +
"].[Element_1]}"))
self.tm1.cubes.views.create(view=view_output, private=False)
# write values into input view
mdx = view_input.MDX
self.tm1.cubes.cells.write_values_through_cellset(
mdx, IRR_INPUT_VALUES)
# execute method
result = irr(tm1_services={
"tm1srv01": self.tm1,
"tm1srv02": self.tm1
},
tm1_source="tm1srv01",
tm1_target="tm1srv02",
cube_source=CUBE_NAME_SOURCE,
cube_target=CUBE_NAME_TARGET,
view_source=VIEW_NAME_SOURCE,
view_target=VIEW_NAME_TARGET)
self.assertAlmostEqual(IRR_EXPECTED_RESULT,
result,
delta=IRR_TOLERANCE)
# check output view
cell_value = next(
self.tm1.cubes.cells.execute_view_values(
cube_name=CUBE_NAME_TARGET,
view_name=VIEW_NAME_TARGET,
private=False))
self.assertAlmostEqual(cell_value,
IRR_EXPECTED_RESULT,
delta=IRR_TOLERANCE)
def test1_create_view(self):
# create instance of native View
native_view = NativeView(cube_name='Plan_BudgetPlan',
view_name=self.native_view_name)
# set up native view - put subsets on Rows, Columns and Titles
subset = self.tm1.get_subset(dimension_name='plan_version',
subset_name='FY 2004 Budget',
private=False)
native_view.add_row(dimension_name='plan_version', subset=subset)
subset = self.tm1.get_subset(dimension_name='plan_business_unit',
subset_name='n level business unit',
private=False)
native_view.add_row(dimension_name='plan_business_unit', subset=subset)
subset = self.tm1.get_subset(dimension_name='plan_department',
subset_name='n level departments',
private=False)
native_view.add_row(dimension_name='plan_department', subset=subset)
subset = self.tm1.get_subset(dimension_name='plan_chart_of_accounts',
subset_name='Consolidations',
private=False)
native_view.add_row(dimension_name='plan_chart_of_accounts',
subset=subset)
subset = self.tm1.get_subset(dimension_name='plan_exchange_rates',
subset_name='local',
private=False)
native_view.add_title(dimension_name='plan_exchange_rates',
subset=subset,
selection='local')
subset = self.tm1.get_subset(dimension_name='plan_time',
subset_name='2004 Total Year',
private=False)
native_view.add_column(dimension_name='plan_time', subset=subset)
subset = self.tm1.get_subset(dimension_name='plan_source',
subset_name='budget',
private=False)
native_view.add_column(dimension_name='plan_source', subset=subset)
# create native view on Server
self.tm1.create_view(view=native_view, private=self.random_boolean)
# create instance of MDXView
nv_view = self.tm1.get_native_view(cube_name='Plan_BudgetPlan',
view_name=self.native_view_name,
private=self.random_boolean)
mdx = nv_view.as_MDX
mdx_view = MDXView(cube_name='Plan_BudgetPlan',
view_name=self.mdx_view_name,
MDX=mdx)
# create mdx view on Server
self.tm1.create_view(view=mdx_view, private=self.random_boolean)
from TM1py import TM1pyQueries as TM1, TM1pyLogin, NativeView
login = TM1pyLogin.native('admin', 'apple')
# establish connection to TM1 Server
with TM1(ip='', port=8001, login=login, ssl=False) as tm1:
native_view = NativeView(cube_name='Plan_BudgetPlan',
view_name='TM1py View')
# set up native view - put subsets on Rows, Columns and Titles
subset = tm1.get_subset(dimension_name='plan_version', subset_name='FY 2004 Budget', private=False)
native_view.add_row(dimension_name='plan_version', subset=subset)
subset = tm1.get_subset(dimension_name='plan_business_unit', subset_name='n level business unit', private=False)
native_view.add_row(dimension_name='plan_business_unit', subset=subset)
subset = tm1.get_subset(dimension_name='plan_department', subset_name='n level departments', private=False)
native_view.add_row(dimension_name='plan_department', subset=subset)
subset = tm1.get_subset(dimension_name='plan_chart_of_accounts', subset_name='Consolidations', private=False)
native_view.add_row(dimension_name='plan_chart_of_accounts', subset=subset)
subset = tm1.get_subset(dimension_name='plan_exchange_rates', subset_name='local', private=False)
native_view.add_title(dimension_name='plan_exchange_rates', subset=subset, selection='local')
subset = tm1.get_subset(dimension_name='plan_time', subset_name='2004 Total Year', private=False)
native_view.add_column(dimension_name='plan_time', subset=subset)
subset = tm1.get_subset(dimension_name='plan_source', subset_name='budget', private=False)
native_view.add_column(dimension_name='plan_source', subset=subset)
from TM1py import TM1Queries, NativeView, MDXView import uuid # establish connection to TM1 Server q = TM1Queries(ip='', port=8008, user='******', password='******', ssl=True) # random text random_string = str(uuid.uuid4()) # create native view view = NativeView(name_cube='plan_Budgetplan', name_view=random_string) # assign subsets to rows, columns, titles view.add_row(dimension_name='plan_version', subset_name='FY 2004 Budget') view.add_row(dimension_name='plan_business_unit', subset_name='n level business unit') view.add_row(dimension_name='plan_department', subset_name='n level departments') view.add_row(dimension_name='plan_chart_of_accounts', subset_name='Consolidations') view.add_row(dimension_name='plan_source', subset_name='budget') view.add_title(dimension_name='plan_exchange_rates', subset_name='actual', selection='actual') view.add_column(dimension_name='plan_time', subset_name='2003 Total Year') # create native view against TM1 Server q.create_view(view=view) # delete native view from server q.delete_view(view.get_cube(), view.get_name()) # random text random_string = str(uuid.uuid4()) # create mdx view
def test1_create_view(self):
# create instance of native View
native_view = NativeView(name_cube='Plan_BudgetPlan',
name_view=self.native_view_name)
# set up native view - put subsets on Rows, Columns and Titles
subset = self.tm1.get_subset(dimension_name='plan_version', subset_name='FY 2004 Budget')
native_view.add_row(dimension_name='plan_version', subset=subset)
subset = self.tm1.get_subset(dimension_name='plan_business_unit', subset_name='n level business unit')
native_view.add_row(dimension_name='plan_business_unit', subset=subset)
subset = self.tm1.get_subset(dimension_name='plan_department', subset_name='n level departments')
native_view.add_row(dimension_name='plan_department', subset=subset)
subset = self.tm1.get_subset(dimension_name='plan_chart_of_accounts', subset_name='Consolidations')
native_view.add_row(dimension_name='plan_chart_of_accounts', subset=subset)
subset = self.tm1.get_subset(dimension_name='plan_source', subset_name='budget')
native_view.add_row(dimension_name='plan_source', subset=subset)
subset = self.tm1.get_subset(dimension_name='plan_exchange_rates', subset_name='actual')
native_view.add_title(dimension_name='plan_exchange_rates', subset=subset, selection='actual')
subset = self.tm1.get_subset(dimension_name='plan_time', subset_name='2003 Total Year')
native_view.add_column(dimension_name='plan_time', subset=subset)
# create native view on Server
self.tm1.create_view(view=native_view, private=self.random_boolean)
# create instance of MDXView
mdx = "SELECT {([plan_version].[FY 2003 Budget], [plan_department].[105], [plan_chart_of_accounts].[61030], " \
"[plan_exchange_rates].[local], [plan_source].[goal] , [plan_time].[Jan-2004]) } on COLUMNS," \
"{[plan_business_unit].[10110]} on ROWS FROM [plan_BudgetPlan]"
mdx_view = MDXView(cube_name='Plan_BudgetPlan',
view_name=self.mdx_view_name,
MDX=mdx)
# create mdx view on Server
self.tm1.create_view(view=mdx_view, private=self.random_boolean)
