def testDefaults(self):
tdf = TicDatFactory(one=[["a"], ["b", "c"]],
two=[["a", "b"], ["c"]],
three=[["a", "b", "c"], []])
dat = tdf.TicDat(one=[[1, 2, 3], [4, 5, 6]],
two=[[1, 2, 3], [4, 5, 6]],
three=[[1, 2, 3], [4, 5, 6]])
filePath = makeCleanPath(os.path.join(_scratchDir, "defaults.sql"))
tdf.sql.write_sql_file(dat, filePath)
tdf2 = TicDatFactory(one=[["a"], ["b", "c"]],
two=[["a", "b"], ["c"]],
three=[["a", "b", "c"], ["d"]])
dat2 = tdf2.TicDat(one=dat.one,
two=dat.two,
three={k: {}
for k in dat.three})
dat22 = tdf2.sql.create_tic_dat_from_sql(filePath)
self.assertTrue(tdf2._same_data(dat2, dat22))
tdf2 = TicDatFactory(one=[["a"], ["b", "c"]],
two=[["a", "b"], ["c"]],
three=[["a", "b", "c"], ["d"]])
tdf2.set_default_value("three", "d", float("inf"))
dat2_b = tdf2.TicDat(one=dat.one,
two=dat.two,
three={k: {}
for k in dat.three})
dat22_b = tdf2.sql.create_tic_dat_from_sql(filePath)
self.assertTrue(tdf2._same_data(dat2_b, dat22_b))
self.assertFalse(tdf2._same_data(dat2, dat2_b))
def test_empty_text_none(self):
# this is a naive data scientist who isn't using the parameters functionality
filePath = os.path.join(_scratchDir, "empty.xls")
tdf = TicDatFactory(parameters=[["Key"], ["Value"]])
dat_n = tdf.TicDat(parameters=[[None, 100], ["b", 10.01],
["three", 200], ["d", None]])
dat_s = tdf.TicDat(
parameters=[["", 100], ["b", 10.01], ["three", 200], ["d", ""]])
def round_trip():
tdf.xls.write_file(dat_n, filePath, allow_overwrite=True)
return tdf.xls.create_tic_dat(filePath)
dat2 = round_trip()
self.assertTrue(
tdf._same_data(dat_s, dat2) and not tdf._same_data(dat_n, dat2))
tdf = TicDatFactory(parameters=[["Key"], ["Value"]])
tdf.set_data_type("parameters", "Key", nullable=True)
tdf.set_default_value(
"parameters", "Value",
None) # this default alone will mess with number reading
dat2 = round_trip()
self.assertTrue(not tdf._same_data(dat_s, dat2)
and tdf._same_data(dat_n, dat2))
tdf = TicDatFactory(parameters='*')
dat = tdf.xls.create_tic_dat(filePath)
self.assertTrue(dat.parameters.shape == (4, 2))
def testSeven(self):
tdf = TicDatFactory(**dietSchema())
def makeIt() :
rtn = tdf.TicDat()
rtn.foods["a"] = {}
rtn.categories["1"] = {}
rtn.categories["2"] = [0,1]
self.assertTrue(rtn.categories["2"]["minNutrition"] == 0)
self.assertTrue(rtn.categories["2"]["maxNutrition"] == 1)
rtn.nutritionQuantities['junk',1] = {}
return tdf.freeze_me(rtn)
td = makeIt()
self.assertTrue(td.foods["a"]["cost"]==0 and td.categories["1"].values() == (0,0) and
td.nutritionQuantities['junk',1]["qty"] == 0)
tdf = TicDatFactory(**dietSchema())
tdf.set_default_values(foods = {"cost":"dontcare"},nutritionQuantities = {"qty":100} )
td = makeIt()
self.assertTrue(td.foods["a"]["cost"]=='dontcare' and td.categories["1"].values() == (0,0) and
td.nutritionQuantities['junk',1]["qty"] == 100)
tdf = TicDatFactory(**dietSchema())
tdf.set_default_value("categories", "minNutrition", 1)
tdf.set_default_value("categories", "maxNutrition", 2)
td = makeIt()
self.assertTrue(td.foods["a"]["cost"]==0 and td.categories["1"].values() == (1,2) and
td.nutritionQuantities['junk',1]["qty"] == 0)
def test_empty_text_none(self):
dir_path = os.path.join(_scratchDir, "empty_text")
tdf = TicDatFactory(parameters=[["Key"], ["Value"]])
dat_n = tdf.TicDat(parameters=[[None, 100], ["b", 10.01],
["three", 200], ["d", None]])
dat_s = tdf.TicDat(
parameters=[["", 100], ["b", 10.01], ["three", 200], ["d", ""]])
def round_trip():
tdf.csv.write_directory(dat_n, makeCleanDir(dir_path))
return tdf.csv.create_tic_dat(dir_path)
dat2 = round_trip()
self.assertTrue(
tdf._same_data(dat_s, dat2) and not tdf._same_data(dat_n, dat2))
tdf = TicDatFactory(parameters=[["Key"], ["Value"]])
tdf.set_data_type("parameters", "Key", nullable=True)
tdf.set_default_value(
"parameters", "Value",
None) # this default alone will mess with number reading
dat2 = round_trip()
self.assertFalse(
tdf._same_data(dat_s, dat2) or tdf._same_data(dat_n, dat2))
self.assertTrue(
any(r["Value"] is None for r in dat2.parameters.values()))
tdf = TicDatFactory(parameters=[["Key"], ["Value"]])
tdf.set_data_type("parameters", "Key", nullable=True)
tdf.set_data_type("parameters",
"Value",
nullable=True,
must_be_int=True)
dat2 = round_trip()
self.assertTrue(not tdf._same_data(dat_s, dat2)
and tdf._same_data(dat_n, dat2))
def test_numericish_text(self):
dir_path = os.path.join(_scratchDir, "numericish")
tdf = TicDatFactory(parameters=[["Key"], ["Value"]])
dat = tdf.TicDat(
parameters=[["a", "100"], ["b", "010"], [3, "200"], ["d", "020"]])
def round_trip():
tdf.csv.write_directory(dat, makeCleanDir(dir_path))
return tdf.csv.create_tic_dat(dir_path)
dat2 = round_trip()
self.assertFalse(tdf._same_data(dat, dat2))
tdf = TicDatFactory(parameters=[["Key"], ["Value"]])
tdf.set_data_type("parameters",
"Key",
strings_allowed='*',
number_allowed=True)
tdf.set_default_value("parameters", "Value", "")
dat2 = round_trip()
self.assertTrue(tdf._same_data(dat, dat2))
tdf = TicDatFactory(parameters=[["Key"], ["Value"]])
tdf.set_data_type("parameters",
"Value",
strings_allowed='*',
number_allowed=False)
dat = tdf.TicDat(parameters=[["a", "100"], ["b", "010"], ["c", "200"],
["d", "020"]])
dat2 = round_trip()
self.assertTrue(tdf._same_data(dat, dat2))
def testEight(self):
tdf = TicDatFactory(**dietSchema())
def makeIt() :
rtn = tdf.TicDat()
rtn.foods["a"] = 12
rtn.foods["b"] = None
rtn.categories["1"] = {"maxNutrition":100, "minNutrition":40}
rtn.categories["2"] = [10,20]
for f, p in itertools.product(rtn.foods, rtn.categories):
rtn.nutritionQuantities[f,p] = 5
rtn.nutritionQuantities['a', 2] = 12
return tdf.freeze_me(rtn)
dat = makeIt()
self.assertFalse(tdf.find_data_type_failures(dat))
tdf = TicDatFactory(**dietSchema())
tdf.set_data_type("foods", "cost", nullable=False)
tdf.set_data_type("nutritionQuantities", "qty", min=5, inclusive_min=False, max=12, inclusive_max=True)
tdf.set_default_value("foods", "cost", 2)
dat = makeIt()
failed = tdf.find_data_type_failures(dat)
self.assertTrue(set(failed) == {('foods', 'cost'), ('nutritionQuantities', 'qty')})
self.assertTrue(set(failed['nutritionQuantities', 'qty'].pks) ==
{('b', '1'), ('a', '2'), ('a', '1'), ('b', '2')})
self.assertTrue(failed['nutritionQuantities', 'qty'].bad_values == (5,))
ex = self.firesException(lambda : tdf.replace_data_type_failures(tdf.copy_tic_dat(dat)))
self.assertTrue(all(_ in ex for _ in ("replacement value", "nutritionQuantities", "qty")))
fixedDat = tdf.replace_data_type_failures(tdf.copy_tic_dat(dat),
replacement_values={("nutritionQuantities", "qty"):5.001})
self.assertFalse(tdf.find_data_type_failures(fixedDat) or tdf._same_data(fixedDat, dat))
self.assertTrue(all(fixedDat.nutritionQuantities[pk]["qty"] == 5.001 for pk in
failed['nutritionQuantities', 'qty'].pks))
self.assertTrue(fixedDat.foods["a"]["cost"] == 12 and fixedDat.foods["b"]["cost"] == 2 and
fixedDat.nutritionQuantities['a', 2]["qty"] == 12)
tdf = TicDatFactory(**dietSchema())
tdf.set_data_type("foods", "cost", nullable=False)
tdf.set_data_type("nutritionQuantities", "qty", min=5, inclusive_min=False, max=12, inclusive_max=True)
fixedDat2 = tdf.replace_data_type_failures(tdf.copy_tic_dat(dat),
replacement_values={("nutritionQuantities", "qty"):5.001, ("foods", "cost") : 2})
self.assertTrue(tdf._same_data(fixedDat, fixedDat2))
tdf = TicDatFactory(**dietSchema())
tdf.set_data_type("foods", "cost", nullable=True)
tdf.set_data_type("nutritionQuantities", "qty",number_allowed=False)
failed = tdf.find_data_type_failures(dat)
self.assertTrue(set(failed) == {('nutritionQuantities', 'qty')})
self.assertTrue(set(failed['nutritionQuantities', 'qty'].pks) == set(dat.nutritionQuantities))
ex = self.firesException(lambda : tdf.replace_data_type_failures(tdf.copy_tic_dat(dat)))
self.assertTrue(all(_ in ex for _ in ("replacement value", "nutritionQuantities", "qty")))
tdf = TicDatFactory(**dietSchema())
tdf.set_data_type("foods", "cost")
fixedDat = tdf.replace_data_type_failures(tdf.copy_tic_dat(makeIt()))
self.assertTrue(fixedDat.foods["a"]["cost"] == 12 and fixedDat.foods["b"]["cost"] == 0)
tdf = TicDatFactory(**netflowSchema())
addNetflowForeignKeys(tdf)
dat = tdf.copy_tic_dat(netflowData(), freeze_it=1)
self.assertFalse(hasattr(dat.nodes["Detroit"], "arcs_source"))
tdf = TicDatFactory(**netflowSchema())
addNetflowForeignKeys(tdf)
tdf.enable_foreign_key_links()
dat = tdf.copy_tic_dat(netflowData(), freeze_it=1)
self.assertTrue(hasattr(dat.nodes["Detroit"], "arcs_source"))
tdf = TicDatFactory(**netflowSchema())
def makeIt() :
if not tdf.foreign_keys:
tdf.enable_foreign_key_links()
addNetflowForeignKeys(tdf)
orig = netflowData()
rtn = tdf.copy_tic_dat(orig)
for n in rtn.nodes["Detroit"].arcs_source:
rtn.arcs["Detroit", n] = n
self.assertTrue(all(len(getattr(rtn, t)) == len(getattr(orig, t)) for t in tdf.all_tables))
return tdf.freeze_me(rtn)
dat = makeIt()
self.assertFalse(tdf.find_data_type_failures(dat))
tdf = TicDatFactory(**netflowSchema())
tdf.set_data_type("arcs", "capacity", strings_allowed="*")
dat = makeIt()
self.assertFalse(tdf.find_data_type_failures(dat))
tdf = TicDatFactory(**netflowSchema())
tdf.set_data_type("arcs", "capacity", strings_allowed=["Boston", "Seattle", "lumberjack"])
dat = makeIt()
failed = tdf.find_data_type_failures(dat)
self.assertTrue(failed == {('arcs', 'capacity'):(("New York",), (("Detroit", "New York"),))})
fixedDat = tdf.replace_data_type_failures(tdf.copy_tic_dat(makeIt()))
netflowData_ = tdf.copy_tic_dat(netflowData())
self.assertFalse(tdf.find_data_type_failures(fixedDat) or tdf._same_data(dat, netflowData_))
fixedDat = tdf.copy_tic_dat(tdf.replace_data_type_failures(tdf.copy_tic_dat(makeIt()),
{("arcs", "capacity"):80, ("cost","cost") :"imok"}))
fixedDat.arcs["Detroit", "Boston"] = 100
fixedDat.arcs["Detroit", "Seattle"] = 120
self.assertTrue(tdf._same_data(fixedDat, netflowData_))
def test_diet_amplpy(self):
dat = _diet_input_tdf.copy_to_ampl(
_diet_dat,
field_renamings={
("foods", "Cost"): "cost",
("categories", "Min Nutrition"): "n_min",
("categories", "Max Nutrition"): "n_max",
("nutrition_quantities", "Quantity"): "amt",
("nutrition_quantities", "Other Quantity"): "other_amt"
})
self.assertTrue({"n_min",
"n_max"}.issubset(dat.categories.toPandas().columns))
ampl = amplpy.AMPL()
ampl.setOption('solver', 'gurobi')
ampl.eval(_diet_mod)
_diet_input_tdf.set_ampl_data(dat, ampl, {
"categories": "CAT",
"foods": "FOOD"
})
ampl.solve()
sln = _diet_sln_tdf.copy_from_ampl_variables({
("buy_food", "Quantity"):
ampl.getVariable("Buy"),
("consume_nutrition", "Quantity"):
ampl.getVariable("Consume")
})
sln.parameters['Total Cost'] = ampl.getObjective('Total_Cost').value()
diet_dat_two = _diet_input_tdf.copy_tic_dat(_diet_dat)
for r in diet_dat_two.nutrition_quantities.values():
r["Quantity"], r["Other Quantity"] = [0.5 * r["Quantity"]] * 2
dat = _diet_input_tdf.copy_to_ampl(
diet_dat_two,
field_renamings={
("foods", "Cost"): "cost",
("categories", "Min Nutrition"): "n_min",
("categories", "Max Nutrition"): "n_max",
("nutrition_quantities", "Quantity"): "amt",
("nutrition_quantities", "Other Quantity"): "other_amt"
})
ampl = amplpy.AMPL()
ampl.setOption('solver', 'gurobi')
ampl.eval(_diet_mod)
_diet_input_tdf.set_ampl_data(dat, ampl, {
"categories": "CAT",
"foods": "FOOD"
})
ampl.solve()
self.assertTrue("solved" == ampl.getValue("solve_result"))
sln = _diet_sln_tdf.copy_from_ampl_variables({
("buy_food", "Quantity"):
ampl.getVariable("Buy"),
("consume_nutrition", "Quantity"):
ampl.getVariable("Consume")
})
sln.parameters['Total Cost'] = ampl.getObjective('Total_Cost').value()
self.assertTrue(_nearly_same_dat(_diet_sln_tdf, sln, _diet_sln_ticdat))
dat = _diet_input_tdf.copy_to_ampl(
_diet_dat, {
("foods", "Cost"): "cost",
("categories", "Min Nutrition"): "",
("categories", "Max Nutrition"): "n_max"
}, ["nutrition_quantities"])
self.assertFalse(hasattr(dat, "nutrition_quantities"))
self.assertTrue({"n_min", "n_max"}.intersection(
dat.categories.toPandas().columns) == {"n_max"})
sln_tdf_2 = TicDatFactory(buy_food=[["Food"], ["Quantity"]],
consume_nutrition=[["Category"], []])
sln_tdf_2.set_default_value("buy_food", "Quantity", 1)
sln_2 = sln_tdf_2.copy_from_ampl_variables({
("buy_food", False):
ampl.getVariable("Buy"),
("consume_nutrition", False):
(ampl.getVariable("Consume"), lambda x: x < 100)
})
self.assertTrue(
set(sln_2.buy_food) == set(sln.buy_food)
and all(v["Quantity"] == 1 for v in sln_2.buy_food.values()))
self.assertTrue(sln_2.consume_nutrition
and set(sln_2.consume_nutrition) == {
k
for k, v in sln.consume_nutrition.items()
if v["Quantity"] < 100
})
diet_dat_two = _diet_input_tdf.copy_tic_dat(_diet_dat)
diet_dat_two.categories["calories"] = [0, 200]
dat = _diet_input_tdf.copy_to_ampl(
diet_dat_two,
field_renamings={
("foods", "Cost"): "cost",
("categories", "Min Nutrition"): "n_min",
("categories", "Max Nutrition"): "n_max",
("nutrition_quantities", "Quantity"): "amt",
("nutrition_quantities", "Other Quantity"): "other_amt"
})
ampl = amplpy.AMPL()
ampl.setOption('solver', 'gurobi')
ampl.eval(_diet_mod)
_diet_input_tdf.set_ampl_data(dat, ampl, {
"categories": "CAT",
"foods": "FOOD"
})
ampl.solve()
self.assertTrue("infeasible" == ampl.getValue("solve_result"))
diet_dat_two = _diet_input_tdf.copy_tic_dat(_diet_dat)
for v in diet_dat_two.categories.values():
v["Max Nutrition"] = float("inf")
diet_dat_two.foods["hamburger"] = -1
dat = _diet_input_tdf.copy_to_ampl(
diet_dat_two,
field_renamings={
("foods", "Cost"): "cost",
("categories", "Min Nutrition"): "n_min",
("categories", "Max Nutrition"): "n_max",
("nutrition_quantities", "Quantity"): "amt",
("nutrition_quantities", "Other Quantity"): "other_amt"
})
ampl = amplpy.AMPL()
ampl.setOption('solver', 'gurobi')
ampl.eval(_diet_mod)
_diet_input_tdf.set_ampl_data(dat, ampl, {
"categories": "CAT",
"foods": "FOOD"
})
ampl.solve()
self.assertTrue("unbounded" == ampl.getValue("solve_result"))
