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nexedi
dream
Commits
7ebf3330
Commit
7ebf3330
authored
Aug 18, 2015
by
panos
Browse files
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Plain Diff
Change the formation of the output spreadsheets
parent
a507fc05
Changes
1
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Showing
1 changed file
with
132 additions
and
132 deletions
+132
-132
dream/KnowledgeExtraction/ExcelOutput.py
dream/KnowledgeExtraction/ExcelOutput.py
+132
-132
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dream/KnowledgeExtraction/ExcelOutput.py
View file @
7ebf3330
...
...
@@ -39,70 +39,70 @@ class ExcelOutput(StatisticalMeasures,DistFittest):
###Give names to cells###
sheet1
.
write
(
0
,
0
,(
'Dataset statistical measures'
))
sheet1
.
write
(
3
,
0
,(
'Length'
))
sheet1
.
write
(
4
,
0
,(
'Summary'
))
sheet1
.
write
(
4
,
1
,(
'Min'
))
sheet1
.
write
(
4
,
2
,(
'1st Qu.'
))
sheet1
.
write
(
4
,
3
,(
'Median'
))
sheet1
.
write
(
4
,
4
,(
'Mean'
))
sheet1
.
write
(
4
,
5
,(
'3rd Qu.'
))
sheet1
.
write
(
4
,
6
,(
'Max'
))
sheet1
.
write
(
0
,
9
,(
'Data points'
))
sheet1
.
write
(
10
,
0
,(
'Quantile'
))
sheet1
.
write
(
10
,
1
,(
'0%'
))
sheet1
.
write
(
10
,
2
,(
'25%'
))
sheet1
.
write
(
10
,
3
,(
'50%'
))
sheet1
.
write
(
10
,
4
,(
'75%'
))
sheet1
.
write
(
10
,
5
,(
'100%'
))
sheet1
.
write
(
12
,
0
,(
'Mean'
))
sheet1
.
write
(
13
,
0
,(
'Variance'
))
sheet1
.
write
(
14
,
0
,(
'Standard deviation'
))
sheet1
.
write
(
16
,
0
,(
'Range'
))
sheet1
.
write
(
17
,
0
,(
'Interquartile Range'
))
sheet1
.
write
(
3
,
1
,(
'Length'
))
sheet1
.
write
(
4
,
1
,(
'Summary'
))
sheet1
.
write
(
4
,
2
,(
'Min'
))
sheet1
.
write
(
4
,
3
,(
'1st Qu.'
))
sheet1
.
write
(
4
,
4
,(
'Median'
))
sheet1
.
write
(
4
,
5
,(
'Mean'
))
sheet1
.
write
(
4
,
6
,(
'3rd Qu.'
))
sheet1
.
write
(
4
,
7
,(
'Max'
))
sheet1
.
write
(
1
,
0
,(
'Data points'
))
sheet1
.
write
(
10
,
1
,(
'Quantile'
))
sheet1
.
write
(
10
,
2
,(
'0%'
))
sheet1
.
write
(
10
,
3
,(
'25%'
))
sheet1
.
write
(
10
,
4
,(
'50%'
))
sheet1
.
write
(
10
,
5
,(
'75%'
))
sheet1
.
write
(
10
,
6
,(
'100%'
))
sheet1
.
write
(
12
,
1
,(
'Mean'
))
sheet1
.
write
(
13
,
1
,(
'Variance'
))
sheet1
.
write
(
14
,
1
,(
'Standard deviation'
))
sheet1
.
write
(
16
,
1
,(
'Range'
))
sheet1
.
write
(
17
,
1
,(
'Interquartile Range'
))
###Length###
sheet1
.
write
(
3
,
1
,(
self
.
length
(
data
)))
sheet1
.
write
(
3
,
2
,(
self
.
length
(
data
)))
###Summary###
sheet1
.
write
(
5
,
1
,(
self
.
summary
(
data
)[
0
]))
sheet1
.
write
(
5
,
2
,(
self
.
summary
(
data
)[
1
]))
sheet1
.
write
(
5
,
3
,(
self
.
summary
(
data
)[
2
]))
sheet1
.
write
(
5
,
4
,(
self
.
summary
(
data
)[
3
]))
sheet1
.
write
(
5
,
5
,(
self
.
summary
(
data
)[
4
]))
sheet1
.
write
(
5
,
6
,(
self
.
summary
(
data
)[
5
]))
sheet1
.
write
(
5
,
2
,(
self
.
summary
(
data
)[
0
]))
sheet1
.
write
(
5
,
3
,(
self
.
summary
(
data
)[
1
]))
sheet1
.
write
(
5
,
4
,(
self
.
summary
(
data
)[
2
]))
sheet1
.
write
(
5
,
5
,(
self
.
summary
(
data
)[
3
]))
sheet1
.
write
(
5
,
6
,(
self
.
summary
(
data
)[
4
]))
sheet1
.
write
(
5
,
7
,(
self
.
summary
(
data
)[
5
]))
###Dataset###
i
=
0
while
(
i
<
self
.
length
(
data
)):
sheet1
.
write
(
i
+
1
,
9
,((
data
[
i
])))
sheet1
.
write
(
i
+
2
,
0
,((
data
[
i
])))
i
=
i
+
1
###Quantselfles###
sheet1
.
write
(
11
,
1
,(
self
.
quantile
(
data
)[
0
]))
sheet1
.
write
(
11
,
2
,(
self
.
quantile
(
data
)[
1
]))
sheet1
.
write
(
11
,
3
,(
self
.
quantile
(
data
)[
2
]))
sheet1
.
write
(
11
,
4
,(
self
.
quantile
(
data
)[
3
]))
sheet1
.
write
(
11
,
5
,(
self
.
quantile
(
data
)[
4
]))
sheet1
.
write
(
11
,
2
,(
self
.
quantile
(
data
)[
0
]))
sheet1
.
write
(
11
,
3
,(
self
.
quantile
(
data
)[
1
]))
sheet1
.
write
(
11
,
4
,(
self
.
quantile
(
data
)[
2
]))
sheet1
.
write
(
11
,
5
,(
self
.
quantile
(
data
)[
3
]))
sheet1
.
write
(
11
,
6
,(
self
.
quantile
(
data
)[
4
]))
###Mean###
sheet1
.
write
(
12
,
1
,(
self
.
mean
(
data
)))
sheet1
.
write
(
12
,
2
,(
self
.
mean
(
data
)))
###Varselfance####
sheet1
.
write
(
13
,
1
,(
self
.
var
(
data
)))
sheet1
.
write
(
13
,
2
,(
self
.
var
(
data
)))
###Standard devselfatselfon###
sheet1
.
write
(
14
,
1
,(
self
.
sd
(
data
)))
sheet1
.
write
(
14
,
2
,(
self
.
sd
(
data
)))
###Range###
sheet1
.
write
(
16
,
1
,(
self
.
range
(
data
)[
0
]))
sheet1
.
write
(
16
,
2
,(
self
.
range
(
data
)[
1
]))
sheet1
.
write
(
16
,
2
,(
self
.
range
(
data
)[
0
]))
sheet1
.
write
(
16
,
3
,(
self
.
range
(
data
)[
1
]))
###selfnterquartselfle Range###
sheet1
.
write
(
17
,
1
,(
self
.
IQR
(
data
)))
sheet1
.
write
(
17
,
2
,(
self
.
IQR
(
data
)))
book
.
save
(
fileName
)
#Save the excel document
...
...
@@ -114,67 +114,67 @@ class ExcelOutput(StatisticalMeasures,DistFittest):
sheet2
=
book
.
add_sheet
(
'Distribution Fitting'
,
cell_overwrite_ok
=
True
)
###Give names to cells###
sheet2
.
write
(
0
,
0
,(
'Distribution
Fit
'
))
sheet2
.
write
(
0
,
0
,(
'Distribution
Fitting
'
))
sheet2
.
write
(
1
,
0
,(
'data points'
))
sheet2
.
write
(
3
,
1
,(
'Discrete distributions'
))
sheet2
.
write
(
3
,
8
,(
'Kolmogorov-Smirnov test'
))
sheet2
.
write
(
12
,
1
4
,(
'Best distribution fitting
'
))
sheet2
.
write
(
2
,
4
,(
'Kolmogorov-Smirnov test'
))
sheet2
.
write
(
12
,
1
1
,(
'Best fitted distribution
'
))
sheet2
.
write
(
8
,
1
,(
'Poisson'
))
sheet2
.
write
(
8
,
2
,(
'lambda'
))
sheet2
.
write
(
8
,
6
,(
'D-statistic'
))
sheet2
.
write
(
8
,
8
,(
'p-value'
))
sheet2
.
write
(
4
,
1
,(
'Poisson'
))
sheet2
.
write
(
4
,
2
,(
'lambda'
))
sheet2
.
write
(
4
,
6
,(
'D-statistic'
))
sheet2
.
write
(
4
,
8
,(
'p-value'
))
sheet2
.
write
(
11
,
1
,(
'Geometric'
))
sheet2
.
write
(
11
,
2
,(
'probability'
))
sheet2
.
write
(
7
,
1
,(
'Geometric'
))
sheet2
.
write
(
7
,
2
,(
'probability'
))
sheet2
.
write
(
7
,
6
,(
'D-statistic'
))
sheet2
.
write
(
7
,
8
,(
'p-value'
))
sheet2
.
write
(
10
,
1
,(
'Continuous distributions'
))
sheet2
.
write
(
11
,
1
,(
'Normal'
))
sheet2
.
write
(
11
,
2
,(
'mean'
))
sheet2
.
write
(
11
,
3
,(
'standard deviation'
))
sheet2
.
write
(
11
,
6
,(
'D-statistic'
))
sheet2
.
write
(
11
,
8
,(
'p-value'
))
sheet2
.
write
(
15
,
1
,(
'Continuous distributions'
))
sheet2
.
write
(
14
,
1
,(
'Exponential'
))
sheet2
.
write
(
14
,
2
,(
'rate'
))
sheet2
.
write
(
14
,
6
,(
'D-statistic'
))
sheet2
.
write
(
14
,
8
,(
'p-value'
))
sheet2
.
write
(
17
,
1
,(
'
Normal
'
))
sheet2
.
write
(
17
,
2
,(
'
mean
'
))
sheet2
.
write
(
17
,
3
,(
'
standard deviation
'
))
sheet2
.
write
(
17
,
1
,(
'
Gamma
'
))
sheet2
.
write
(
17
,
2
,(
'
shape
'
))
sheet2
.
write
(
17
,
3
,(
'
rate
'
))
sheet2
.
write
(
17
,
6
,(
'D-statistic'
))
sheet2
.
write
(
17
,
8
,(
'p-value'
))
sheet2
.
write
(
21
,
1
,(
'Exponential'
))
sheet2
.
write
(
21
,
2
,(
'rate'
))
sheet2
.
write
(
21
,
6
,(
'D-statistic'
))
sheet2
.
write
(
21
,
8
,(
'p-value'
))
sheet2
.
write
(
25
,
1
,(
'Gamma'
))
sheet2
.
write
(
25
,
2
,(
'shape'
))
sheet2
.
write
(
25
,
3
,(
'rate'
))
sheet2
.
write
(
25
,
6
,(
'D-statistic'
))
sheet2
.
write
(
25
,
8
,(
'p-value'
))
sheet2
.
write
(
29
,
1
,(
'Lognormal'
))
sheet2
.
write
(
29
,
2
,(
'log mean'
))
sheet2
.
write
(
29
,
3
,(
'log standard deviation'
))
sheet2
.
write
(
20
,
1
,(
'Lognormal'
))
sheet2
.
write
(
20
,
2
,(
'log mean'
))
sheet2
.
write
(
20
,
3
,(
'log standard deviation'
))
sheet2
.
write
(
20
,
6
,(
'D-statistic'
))
sheet2
.
write
(
20
,
8
,(
'p-value'
))
sheet2
.
write
(
23
,
1
,(
'Weibull'
))
sheet2
.
write
(
23
,
2
,(
'shape'
))
sheet2
.
write
(
23
,
3
,(
'scale'
))
sheet2
.
write
(
23
,
6
,(
'D-statistic'
))
sheet2
.
write
(
23
,
8
,(
'p-value'
))
sheet2
.
write
(
26
,
1
,(
'Logistic'
))
sheet2
.
write
(
26
,
2
,(
'location'
))
sheet2
.
write
(
26
,
3
,(
'scale'
))
sheet2
.
write
(
26
,
6
,(
'D-statistic'
))
sheet2
.
write
(
26
,
8
,(
'p-value'
))
sheet2
.
write
(
29
,
1
,(
'Cauchy'
))
sheet2
.
write
(
29
,
2
,(
'location'
))
sheet2
.
write
(
29
,
3
,(
'scale'
))
sheet2
.
write
(
29
,
6
,(
'D-statistic'
))
sheet2
.
write
(
29
,
8
,(
'p-value'
))
sheet2
.
write
(
33
,
1
,(
'Weibull'
))
sheet2
.
write
(
33
,
2
,(
'shape'
))
sheet2
.
write
(
33
,
3
,(
'scale'
))
sheet2
.
write
(
33
,
6
,(
'D-statistic'
))
sheet2
.
write
(
33
,
8
,(
'p-value'
))
sheet2
.
write
(
37
,
1
,(
'Logistic'
))
sheet2
.
write
(
37
,
2
,(
'location'
))
sheet2
.
write
(
37
,
3
,(
'scale'
))
sheet2
.
write
(
37
,
6
,(
'D-statistic'
))
sheet2
.
write
(
37
,
8
,(
'p-value'
))
sheet2
.
write
(
41
,
1
,(
'Cauchy'
))
sheet2
.
write
(
41
,
2
,(
'location'
))
sheet2
.
write
(
41
,
3
,(
'scale'
))
sheet2
.
write
(
41
,
6
,(
'D-statistic'
))
sheet2
.
write
(
41
,
8
,(
'p-value'
))
###Dataset###
i
=
0
while
(
i
<
robjects
.
r
[
'length'
](
data
)[
0
]):
...
...
@@ -182,77 +182,77 @@ class ExcelOutput(StatisticalMeasures,DistFittest):
i
=
i
+
1
###Poisson###
sheet2
.
write
(
9
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Poisson'
)[
0
][
0
]))
sheet2
.
write
(
9
,
6
,(
self
.
Pois_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
9
,
8
,(
self
.
Pois_kstest
(
data
)[
1
][
0
]))
sheet2
.
write
(
5
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Poisson'
)[
0
][
0
]))
sheet2
.
write
(
5
,
6
,(
self
.
Pois_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
5
,
8
,(
self
.
Pois_kstest
(
data
)[
1
][
0
]))
###Geometric###
sheet2
.
write
(
12
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Geometric'
)[
0
][
0
]))
sheet2
.
write
(
12
,
6
,(
self
.
Geom_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
12
,
8
,(
self
.
Geom_kstest
(
data
)[
1
][
0
]))
sheet2
.
write
(
8
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Geometric'
)[
0
][
0
]))
sheet2
.
write
(
8
,
6
,(
self
.
Geom_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
8
,
8
,(
self
.
Geom_kstest
(
data
)[
1
][
0
]))
###Normal###
sheet2
.
write
(
1
8
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Normal'
)[
0
][
0
]))
sheet2
.
write
(
1
8
,
3
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Normal'
)[
0
][
1
]))
sheet2
.
write
(
1
8
,
6
,(
self
.
Norm_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
1
8
,
8
,(
self
.
Norm_kstest
(
data
)[
1
][
0
]))
sheet2
.
write
(
1
2
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Normal'
)[
0
][
0
]))
sheet2
.
write
(
1
2
,
3
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Normal'
)[
0
][
1
]))
sheet2
.
write
(
1
2
,
6
,(
self
.
Norm_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
1
2
,
8
,(
self
.
Norm_kstest
(
data
)[
1
][
0
]))
###Exponential###
sheet2
.
write
(
22
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Exponential'
)[
0
][
0
]))
sheet2
.
write
(
22
,
6
,(
self
.
Exp_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
22
,
8
,(
self
.
Exp_kstest
(
data
)[
1
][
0
]))
sheet2
.
write
(
15
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Exponential'
)[
0
][
0
]))
sheet2
.
write
(
15
,
6
,(
self
.
Exp_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
15
,
8
,(
self
.
Exp_kstest
(
data
)[
1
][
0
]))
###Gamma###
sheet2
.
write
(
26
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Gamma'
)[
0
][
0
]))
sheet2
.
write
(
26
,
3
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Gamma'
)[
0
][
1
]))
sheet2
.
write
(
26
,
6
,(
self
.
Gam_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
26
,
8
,(
self
.
Gam_kstest
(
data
)[
1
][
0
]))
sheet2
.
write
(
18
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Gamma'
)[
0
][
0
]))
sheet2
.
write
(
18
,
3
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Gamma'
)[
0
][
1
]))
sheet2
.
write
(
18
,
6
,(
self
.
Gam_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
18
,
8
,(
self
.
Gam_kstest
(
data
)[
1
][
0
]))
###Lognormal###
sheet2
.
write
(
30
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Lognormal'
)[
0
][
0
]))
sheet2
.
write
(
30
,
3
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Lognormal'
)[
0
][
1
]))
sheet2
.
write
(
30
,
6
,(
self
.
Lognorm_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
30
,
8
,(
self
.
Lognorm_kstest
(
data
)[
1
][
0
]))
sheet2
.
write
(
21
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Lognormal'
)[
0
][
0
]))
sheet2
.
write
(
21
,
3
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Lognormal'
)[
0
][
1
]))
sheet2
.
write
(
21
,
6
,(
self
.
Lognorm_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
21
,
8
,(
self
.
Lognorm_kstest
(
data
)[
1
][
0
]))
###Weibull###
sheet2
.
write
(
3
4
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Weibull'
)[
0
][
0
]))
sheet2
.
write
(
3
4
,
3
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Weibull'
)[
0
][
1
]))
sheet2
.
write
(
3
4
,
6
,(
self
.
Weib_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
3
4
,
8
,(
self
.
Weib_kstest
(
data
)[
1
][
0
]))
sheet2
.
write
(
2
4
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Weibull'
)[
0
][
0
]))
sheet2
.
write
(
2
4
,
3
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Weibull'
)[
0
][
1
]))
sheet2
.
write
(
2
4
,
6
,(
self
.
Weib_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
2
4
,
8
,(
self
.
Weib_kstest
(
data
)[
1
][
0
]))
###Logistic###
sheet2
.
write
(
38
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Logistic'
)[
0
][
0
]))
sheet2
.
write
(
38
,
3
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Logistic'
)[
0
][
1
]))
sheet2
.
write
(
38
,
6
,(
self
.
Logis_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
38
,
8
,(
self
.
Logis_kstest
(
data
)[
1
][
0
]))
sheet2
.
write
(
27
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Logistic'
)[
0
][
0
]))
sheet2
.
write
(
27
,
3
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Logistic'
)[
0
][
1
]))
sheet2
.
write
(
27
,
6
,(
self
.
Logis_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
27
,
8
,(
self
.
Logis_kstest
(
data
)[
1
][
0
]))
###Cauchy###
sheet2
.
write
(
42
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Cauchy'
)[
0
][
0
]))
sheet2
.
write
(
42
,
3
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Cauchy'
)[
0
][
1
]))
sheet2
.
write
(
42
,
6
,(
self
.
Cauchy_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
42
,
8
,(
self
.
Cauchy_kstest
(
data
)[
1
][
0
]))
sheet2
.
write
(
30
,
2
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Cauchy'
)[
0
][
0
]))
sheet2
.
write
(
30
,
3
,(
robjects
.
r
[
'fitdistr'
](
data
,
'Cauchy'
)[
0
][
1
]))
sheet2
.
write
(
30
,
6
,(
self
.
Cauchy_kstest
(
data
)[
0
][
0
]))
sheet2
.
write
(
30
,
8
,(
self
.
Cauchy_kstest
(
data
)[
1
][
0
]))
###BestDistributionFit###
A
=
self
.
ks_test
(
data
)
sheet2
.
write
(
1
4
,
14
,(
A
.
get
(
'distributionType'
)))
sheet2
.
write
(
1
3
,
10
,(
A
.
get
(
'distributionType'
)))
if
A
[
'distributionType'
]
==
'Normal'
:
del
A
[
'min'
]
del
A
[
'max'
]
del
A
[
'distributionType'
]
sheet2
.
write
(
1
4
,
15
,(
A
.
keys
()[
0
]))
sheet2
.
write
(
1
4
,
16
,(
A
.
keys
()[
1
]))
sheet2
.
write
(
1
5
,
15
,(
A
.
values
()[
0
]))
sheet2
.
write
(
1
5
,
16
,(
A
.
values
()[
1
]))
sheet2
.
write
(
1
3
,
11
,(
A
.
keys
()[
0
]))
sheet2
.
write
(
1
3
,
12
,(
A
.
keys
()[
1
]))
sheet2
.
write
(
1
4
,
11
,(
A
.
values
()[
0
]))
sheet2
.
write
(
1
4
,
12
,(
A
.
values
()[
1
]))
elif
A
[
'distributionType'
]
==
'Exp'
or
A
[
'distributionType'
]
==
'Poisson'
or
A
[
'distributionType'
]
==
'Geometric'
:
del
A
[
'distributionType'
]
sheet2
.
write
(
1
4
,
15
,(
A
.
keys
()[
0
]))
sheet2
.
write
(
1
5
,
15
,(
A
.
values
()[
0
]))
sheet2
.
write
(
1
3
,
11
,(
A
.
keys
()[
0
]))
sheet2
.
write
(
1
4
,
11
,(
A
.
values
()[
0
]))
else
:
del
A
[
'distributionType'
]
sheet2
.
write
(
1
4
,
15
,(
A
.
keys
()[
0
]))
sheet2
.
write
(
1
4
,
16
,(
A
.
keys
()[
1
]))
sheet2
.
write
(
1
5
,
15
,(
A
.
values
()[
0
]))
sheet2
.
write
(
1
5
,
16
,(
A
.
values
()[
1
]))
sheet2
.
write
(
1
3
,
11
,(
A
.
keys
()[
0
]))
sheet2
.
write
(
1
3
,
12
,(
A
.
keys
()[
1
]))
sheet2
.
write
(
1
4
,
11
,(
A
.
values
()[
0
]))
sheet2
.
write
(
1
4
,
12
,(
A
.
values
()[
1
]))
book
.
save
(
fileName
)
#Save the excel document
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