def fracking_direct_investments_tab():
return [['Name', "='Full Data'!A2"],
['Total holdings', "=SUM('Full Data'!G1:G)"],
['Total fracking holdings', "=SUM('Full Data'!F2:F)"],
['Percentage in fracking',
spreadsheet.percentage("=B3/B2")], [], [],
[
'Top 10 Fracking Holdings', '', '', '',
'This excludes holdings through pooled funds - see next sheet'
], ['Amount', 'Percentage', 'Name'],
[
formula.largest_value('Full Data', 'F', 1),
spreadsheet.percentage("=A9/$B$2"),
formula.largest_value_name('Full Data', 'F', 'E', 1)
],
[
formula.largest_value('Full Data', 'F', 2),
spreadsheet.percentage("=A10/$B$2"),
formula.largest_value_name('Full Data', 'F', 'E', 2)
],
[
formula.largest_value('Full Data', 'F', 3),
spreadsheet.percentage("=A11/$B$2"),
formula.largest_value_name('Full Data', 'F', 'E', 3)
],
[
formula.largest_value('Full Data', 'F', 4),
spreadsheet.percentage("=A12/$B$2"),
formula.largest_value_name('Full Data', 'F', 'E', 4)
],
[
formula.largest_value('Full Data', 'F', 5),
spreadsheet.percentage("=A13/$B$2"),
formula.largest_value_name('Full Data', 'F', 'E', 5)
],
[
formula.largest_value('Full Data', 'F', 6),
spreadsheet.percentage("=A14/$B$2"),
formula.largest_value_name('Full Data', 'F', 'E', 6)
],
[
formula.largest_value('Full Data', 'F', 7),
spreadsheet.percentage("=A15/$B$2"),
formula.largest_value_name('Full Data', 'F', 'E', 7)
],
[
formula.largest_value('Full Data', 'F', 8),
spreadsheet.percentage("=A16/$B$2"),
formula.largest_value_name('Full Data', 'F', 'E', 8)
],
[
formula.largest_value('Full Data', 'F', 9),
spreadsheet.percentage("=A17/$B$2"),
formula.largest_value_name('Full Data', 'F', 'E', 9)
],
[
formula.largest_value('Full Data', 'F', 10),
spreadsheet.percentage("=A18/$B$2"),
formula.largest_value_name('Full Data', 'F', 'E', 10)
]]
def addPooledTab():
headers = ["Rank", "Name", "Category", "Amount", "Is Pooled? (Y/N)"]
rows = []
rankCol = 'A' # in this sheet
nameCol = 'A'
categoryCol = 'B'
amount = 'C'
for i in range(1, 16):
rankCell = 'A' + str(i + 1)
row = [
s.number_cell(i),
f.largest_value_name('Full Data', 'C', 'A', rankCell),
f.largest_value_name('Full Data', 'C', 'B', rankCell),
f.largest_value('Full Data', 'C', rankCell)
]
rows.append(row)
return [headers] + rows
def fracking_pooled_data_tab(pooled_matches, investment_length):
top_bit = [['Pooled fund estimate',
spreadsheet.percentage(0.055)],
[
None, 'Amount', 'Percentage', 'Name', 'Pooled fund',
'Estimated fracking holdings', 'in % of total holdings'
], [], ['Total', "='Fracking Direct Investments'!B2"]]
pooled_rows = []
for i in range(1, 16):
pc_formula = lambda i: "=B{0}/$B$4".format(i)
row = [
i,
formula.largest_value('Full Data', 'G', i)
if investment_length >= i else 0,
pc_formula(i + 4),
formula.largest_value_name('Full Data', 'G', 'B', i)
if investment_length >= i else 0,
formula.pooled_match('D5:D19', pooled_matches) if i == 1 else None,
'=IF(E{0}="yes",B{0}*$B$1,0)'.format(i + 4),
'=F{0}/$B$4'.format(i + 4)
]
pooled_rows.append(row)
totals = [[
None, None, None, None,
'Total estimated fracking in largest pooled funds', '=SUM(F5:F19)',
'=SUM(G5:G19)'
],
[
None, None, None, None, 'Total direct fracking',
"='Fracking Direct Investments'!B3",
"='Fracking Direct Investments'!B4"
], [],
[
None, None, None, None, 'Total fracking', '=F20+F21',
'=G20+G21'
],
[
None, None, None, None, 'Total holdings',
"='Fracking Direct Investments'!B2"
]]
return top_bit + pooled_rows + totals
def test_direct_investments_tab():
expected = [
['Name', "='Full Data'!A2"],
['Total holdings', "=SUM('Full Data'!H1:H)"],
['Total fossil fuel holdings', "=SUM('Full Data'!G2:G)"],
['Percentage in fossil fuels',
percentage("=B3/B2")], [], [],
[
'Top 10 Fossil Fuel Holdings', '', '', '',
'This excludes holdings through pooled funds - see next sheet'
], ['Amount', 'Percentage', 'Name'],
[
formula.largest_value('Full Data', 'G', 1),
percentage("=A9/$B$2"),
formula.largest_value_name('Full Data', 'G', 'F', 1)
],
[
formula.largest_value('Full Data', 'G', 2),
percentage("=A10/$B$2"),
formula.largest_value_name('Full Data', 'G', 'F', 2)
],
[
formula.largest_value('Full Data', 'G', 3),
percentage("=A11/$B$2"),
formula.largest_value_name('Full Data', 'G', 'F', 3)
],
[
formula.largest_value('Full Data', 'G', 4),
percentage("=A12/$B$2"),
formula.largest_value_name('Full Data', 'G', 'F', 4)
],
[
formula.largest_value('Full Data', 'G', 5),
percentage("=A13/$B$2"),
formula.largest_value_name('Full Data', 'G', 'F', 5)
],
[
formula.largest_value('Full Data', 'G', 6),
percentage("=A14/$B$2"),
formula.largest_value_name('Full Data', 'G', 'F', 6)
],
[
formula.largest_value('Full Data', 'G', 7),
percentage("=A15/$B$2"),
formula.largest_value_name('Full Data', 'G', 'F', 7)
],
[
formula.largest_value('Full Data', 'G', 8),
percentage("=A16/$B$2"),
formula.largest_value_name('Full Data', 'G', 'F', 8)
],
[
formula.largest_value('Full Data', 'G', 9),
percentage("=A17/$B$2"),
formula.largest_value_name('Full Data', 'G', 'F', 9)
],
[
formula.largest_value('Full Data', 'G', 10),
percentage("=A18/$B$2"),
formula.largest_value_name('Full Data', 'G', 'F', 10)
]
]
assert stage5.direct_investments_tab() == expected
def test_fracking_pooled_data_tab():
pool_matches = [{
'Name': 'ABC',
'Is Pooled? (Y/N)': 'Y'
}, {
'Name': 'DEF',
'Is Pooled? (Y/N)': 'N'
}]
expected = [['Pooled fund estimate',
percentage(0.055)],
[
None, 'Amount', 'Percentage', 'Name', 'Pooled fund',
'Estimated fracking holdings', 'in % of total holdings'
], [], ['Total', "='Fracking Direct Investments'!B2"],
[
1,
formula.largest_value('Full Data', 'G', 1), "=B5/$B$4",
formula.largest_value_name('Full Data', 'G', 'B', 1),
formula.pooled_match('D5:D19', pool_matches),
'=IF(E5="yes",B5*$B$1,0)', '=F5/$B$4'
],
[
2,
formula.largest_value('Full Data', 'G', 2), "=B6/$B$4",
formula.largest_value_name('Full Data', 'G', 'B', 2), None,
'=IF(E6="yes",B6*$B$1,0)', '=F6/$B$4'
],
[
3,
formula.largest_value('Full Data', 'G', 3), "=B7/$B$4",
formula.largest_value_name('Full Data', 'G', 'B', 3), None,
'=IF(E7="yes",B7*$B$1,0)', '=F7/$B$4'
],
[
4,
formula.largest_value('Full Data', 'G', 4), "=B8/$B$4",
formula.largest_value_name('Full Data', 'G', 'B', 4), None,
'=IF(E8="yes",B8*$B$1,0)', '=F8/$B$4'
],
[
5,
formula.largest_value('Full Data', 'G', 5), "=B9/$B$4",
formula.largest_value_name('Full Data', 'G', 'B', 5), None,
'=IF(E9="yes",B9*$B$1,0)', '=F9/$B$4'
],
[
6,
formula.largest_value('Full Data', 'G', 6), "=B10/$B$4",
formula.largest_value_name('Full Data', 'G', 'B', 6), None,
'=IF(E10="yes",B10*$B$1,0)', '=F10/$B$4'
],
[
7,
formula.largest_value('Full Data', 'G', 7), "=B11/$B$4",
formula.largest_value_name('Full Data', 'G', 'B', 7), None,
'=IF(E11="yes",B11*$B$1,0)', '=F11/$B$4'
],
[
8,
formula.largest_value('Full Data', 'G', 8), "=B12/$B$4",
formula.largest_value_name('Full Data', 'G', 'B', 8), None,
'=IF(E12="yes",B12*$B$1,0)', '=F12/$B$4'
],
[
9,
formula.largest_value('Full Data', 'G', 9), "=B13/$B$4",
formula.largest_value_name('Full Data', 'G', 'B', 9), None,
'=IF(E13="yes",B13*$B$1,0)', '=F13/$B$4'
],
[
10,
formula.largest_value('Full Data', 'G', 10), "=B14/$B$4",
formula.largest_value_name('Full Data', 'G', 'B', 10),
None, '=IF(E14="yes",B14*$B$1,0)', '=F14/$B$4'
],
[
11,
formula.largest_value('Full Data', 'G', 11), "=B15/$B$4",
formula.largest_value_name('Full Data', 'G', 'B', 11),
None, '=IF(E15="yes",B15*$B$1,0)', '=F15/$B$4'
],
[
12,
formula.largest_value('Full Data', 'G', 12), "=B16/$B$4",
formula.largest_value_name('Full Data', 'G', 'B', 12),
None, '=IF(E16="yes",B16*$B$1,0)', '=F16/$B$4'
],
[
13,
formula.largest_value('Full Data', 'G', 13), "=B17/$B$4",
formula.largest_value_name('Full Data', 'G', 'B', 13),
None, '=IF(E17="yes",B17*$B$1,0)', '=F17/$B$4'
],
[
14,
formula.largest_value('Full Data', 'G', 14), "=B18/$B$4",
formula.largest_value_name('Full Data', 'G', 'B', 14),
None, '=IF(E18="yes",B18*$B$1,0)', '=F18/$B$4'
],
[
15,
formula.largest_value('Full Data', 'G', 15), "=B19/$B$4",
formula.largest_value_name('Full Data', 'G', 'B', 15),
None, '=IF(E19="yes",B19*$B$1,0)', '=F19/$B$4'
],
[
None, None, None, None,
'Total estimated fracking in largest pooled funds',
'=SUM(F5:F19)', '=SUM(G5:G19)'
],
[
None, None, None, None, 'Total direct fracking',
"='Fracking Direct Investments'!B3",
"='Fracking Direct Investments'!B4"
], [],
[
None, None, None, None, 'Total fracking', '=F20+F21',
'=G20+G21'
],
[
None, None, None, None, 'Total holdings',
"='Fracking Direct Investments'!B2"
]]
assert expected == stage5.fracking_pooled_data_tab(pool_matches, 20)
def test_largest_value():
expected = "=LARGE('Full Data'!G:G,1)"
assert formula.largest_value('Full Data', 'G', 1) == expected