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A lot of the nuance to formatting descriptive statistics layers was covered in the descriptive statistic layer vignette, but there are a couple more tricks to getting the most out of Tplyr. In this vignette, we’ll cover some of the options in more detail.
By default, if there is no available value for a summary in a particular observation, the result being presented will be blanked out.
Note: Tplyr generally respects factor levels - so in instances of a missing row or column group, if the factor level is present, then the variable or row will still generate)
tplyr_adsl$TRT01P <- as.factor(tplyr_adsl$TRT01P)
tplyr_adlb$TRTA <- as.factor(tplyr_adlb$TRTA)
tplyr_adlb_2 <- tplyr_adlb %>%
filter(TRTA != "Placebo")
tplyr_table(tplyr_adlb_2, TRTA) %>%
set_pop_data(tplyr_adsl) %>%
set_pop_treat_var(TRT01P) %>%
add_layer(
group_desc(AVAL, by=PARAMCD) %>%
set_format_strings('Mean (SD)' = f_str('xxx (xxx)', mean, sd))
) %>%
build() %>%
head() %>%
select(-starts_with("ord")) %>%
kable()
row_label1 | row_label2 | var1_Placebo | var1_Xanomeline High Dose | var1_Xanomeline Low Dose |
---|---|---|---|---|
BUN | Mean (SD) | 5 ( 1) | 6 ( 3) | |
CA | Mean (SD) | 2 ( 0) | 2 ( 0) | |
CK | Mean (SD) | 64 ( 94) | 58 ( 78) | |
GGT | Mean (SD) | 17 ( 49) | 21 ( 27) | |
URATE | Mean (SD) | 271 ( 88) | 231 ( 87) |
Note how the entire example above has all records in
var1_Placebo
missing. Tplyr gives you
control over how you fill this space. Let’s say that we wanted instead
to make that space say “Missing”. You can control this with the
f_str()
object using the empty
parameter.
tplyr_table(tplyr_adlb_2, TRTA) %>%
set_pop_data(tplyr_adsl) %>%
set_pop_treat_var(TRT01P) %>%
add_layer(
group_desc(AVAL, by=PARAMCD) %>%
set_format_strings('Mean (SD)' = f_str('xxx.xx (xxx.xxx)', mean, sd, empty=c(.overall="MISSING")))
) %>%
build() %>%
head() %>%
select(-starts_with("ord")) %>%
kable()
row_label1 | row_label2 | var1_Placebo | var1_Xanomeline High Dose | var1_Xanomeline Low Dose |
---|---|---|---|---|
BUN | Mean (SD) | MISSING | 4.57 ( 1.301) | 5.71 ( 2.940) |
CA | Mean (SD) | MISSING | 2.19 ( 0.137) | 2.15 ( 0.083) |
CK | Mean (SD) | MISSING | 64.25 ( 93.986) | 58.33 ( 77.915) |
GGT | Mean (SD) | MISSING | 16.75 ( 48.692) | 21.33 ( 26.989) |
URATE | Mean (SD) | MISSING | 271.23 ( 88.161) | 230.98 ( 87.006) |
Look at the empty
parameter above. Here, we use a named
character vector, where the name is .overall
. When this
name is used, if all elements within the cell are missing, they will be
filled with the specified text. Otherwise, the provided string will fill
just the missing parameter. In some cases, this may not be what you’d
like to see. Perhaps we want a string that fills each missing space.
tplyr_table(tplyr_adlb_2, TRTA) %>%
set_pop_data(tplyr_adsl) %>%
set_pop_treat_var(TRT01P) %>%
add_layer(
group_desc(AVAL, by=PARAMCD) %>%
set_format_strings('Mean (SD)' = f_str('xxx.xx (xxx.xxx)', mean, sd, empty=c("NA")))
) %>%
build() %>%
head() %>%
select(-starts_with("ord")) %>%
kable()
row_label1 | row_label2 | var1_Placebo | var1_Xanomeline High Dose | var1_Xanomeline Low Dose |
---|---|---|---|---|
BUN | Mean (SD) | NA ( NA) | 4.57 ( 1.301) | 5.71 ( 2.940) |
CA | Mean (SD) | NA ( NA) | 2.19 ( 0.137) | 2.15 ( 0.083) |
CK | Mean (SD) | NA ( NA) | 64.25 ( 93.986) | 58.33 ( 77.915) |
GGT | Mean (SD) | NA ( NA) | 16.75 ( 48.692) | 21.33 ( 26.989) |
URATE | Mean (SD) | NA ( NA) | 271.23 ( 88.161) | 230.98 ( 87.006) |
In the example above, instead of filling the whole space, the
empty
text of “NA” replaces the empty value for each
element. So for ‘Mean (SD)’, we now have ‘NA ( NA)’. Note that the
proper padding was still used for ‘NA’ to make sure the parentheses
still align with populated records.
You may have noticed that the approach to formatting covered so far leaves a lot to be desired. Consider analyzing lab results, where you may want precision to vary based on the collected precision of the tests. Furthermore, depending on the summary being presented, you may wish to increase the precision further. For example, you may want the mean to be at collected precision +1 decimal place, and for standard deviation +2.
Tplyr has this covered using auto-precision.
Auto-precision allows you to format your numeric summaries based on the
precision of the data collected. This has all been built into the format
strings, because a natural place to specify your desired format is where
you specify how you want your data presented. If you wish to use
auto-precision, use a
instead of x
when
creating your summaries. Note that only one a
is needed on
each side of a decimal. To use increased precision, use a+n
where n
is the number of additional spaces you wish to
add.
tplyr_table(tplyr_adlb, TRTA) %>%
add_layer(
group_desc(AVAL, by = PARAMCD) %>%
set_format_strings(
'Mean (SD)' = f_str('a.a+1 (a.a+2)', mean, sd)
)
) %>%
build() %>%
head(20) %>%
select(-starts_with("ord")) %>%
kable()
row_label1 | row_label2 | var1_Placebo | var1_Xanomeline High Dose | var1_Xanomeline Low Dose |
---|---|---|---|---|
BUN | Mean (SD) | 4.7430 ( 2.05463) | 4.5696 ( 1.30148) | 5.7120 ( 2.94018) |
CA | Mean (SD) | 2.165660 (0.0692494) | 2.189362 (0.1372011) | 2.145700 (0.0830867) |
CK | Mean (SD) | 72.4 ( 288.41) | 64.2 ( 93.99) | 58.3 ( 77.91) |
GGT | Mean (SD) | 17.8 ( 34.77) | 16.8 ( 48.69) | 21.3 ( 26.99) |
URATE | Mean (SD) | 235.9373 ( 83.69662) | 271.2288 ( 88.16093) | 230.9807 ( 87.00646) |
As you can see, the decimal precision is now varying depending on the
test being performed. Notice that both the integer and the decimal side
of each number fluctuate as well. Tplyr collects both
the integer and decimal precision, and you can specify both separately.
For example, you could use x
’s to specify a default number
of spaces for your integers that are used consistently across by
variables, but vary the decimal precision based on collected data. You
can also increment the number of spaces for both integer and decimal
separately.
But - this is kind of ugly, isn’t it? Do we really need all 6 decimal places collected for CA? For this reason, you’re able to set a cap on the precision that’s displayed:
tplyr_table(tplyr_adlb, TRTA) %>%
add_layer(
group_desc(AVAL, by = PARAMCD) %>%
set_format_strings(
'Mean (SD)' = f_str('a.a+1 (a.a+2)', mean, sd),
cap = c(int=3, dec=2)
)
) %>%
build() %>%
head(20) %>%
select(-starts_with("ord")) %>%
kable()
row_label1 | row_label2 | var1_Placebo | var1_Xanomeline High Dose | var1_Xanomeline Low Dose |
---|---|---|---|---|
BUN | Mean (SD) | 4.743 ( 2.0546) | 4.570 ( 1.3015) | 5.712 ( 2.9402) |
CA | Mean (SD) | 2.166 (0.0692) | 2.189 (0.1372) | 2.146 (0.0831) |
CK | Mean (SD) | 72.4 (288.41) | 64.2 ( 93.99) | 58.3 ( 77.91) |
GGT | Mean (SD) | 17.8 ( 34.77) | 16.8 ( 48.69) | 21.3 ( 26.99) |
URATE | Mean (SD) | 235.937 ( 83.6966) | 271.229 ( 88.1609) | 230.981 ( 87.0065) |
Now that looks better. The cap
argument is part of
set_format_strings()
. You need to specify the integer and
decimal caps separately. Note that integer precision works slightly
differently than decimal precision. Integer precision relates to the
length allotted for the left side of a decimal, but integers will not
truncate. When using ‘x’ formatting, if an integer exceeds the set
length, it will push the number over. If the integer side of
auto-precision is not capped, the necessary length for an integer in the
associated by group will be as long as necessary. Decimals, on the other
hand, round to the specified length. These caps apply to the length
allotted for the “a” on either the integer or the decimal. So for
example, if the decimal length is capped at 2 and the selected precision
is “a+1”, then 3 decimal places will be allotted.
This was a basic situation, but if you’re paying close attention, you may have some questions. What if you have more by variables, like by visit AND test. Do we then calculate precision by visit and test? What if collected precision is different per visit and we don’t want that? What about multiple summary variables? How do we determine precision then? We have modifier functions for this:
tplyr_table(tplyr_adlb, TRTA) %>%
add_layer(
group_desc(vars(AVAL, CHG, BASE), by = PARAMCD) %>%
set_format_strings(
'Mean (SD)' = f_str('a.a+1 (a.a+2)', mean, sd, empty="NA"),
cap = c(int=3, dec=2)
) %>%
set_precision_on(AVAL) %>%
set_precision_by(PARAMCD)
) %>%
build() %>%
head() %>%
select(-starts_with("ord")) %>%
kable()
row_label1 | row_label2 | var1_Placebo | var1_Xanomeline High Dose | var1_Xanomeline Low Dose | var2_Placebo | var2_Xanomeline High Dose | var2_Xanomeline Low Dose | var3_Placebo | var3_Xanomeline High Dose | var3_Xanomeline Low Dose |
---|---|---|---|---|---|---|---|---|---|---|
BUN | Mean (SD) | 4.743 ( 2.0546) | 4.570 ( 1.3015) | 5.712 ( 2.9402) | -0.765 ( 1.6734) | -0.428 ( 1.5910) | -0.428 ( 1.3299) | 5.457 ( 1.5661) | 4.712 ( 1.6382) | 6.497 ( 2.7940) |
CA | Mean (SD) | 2.166 (0.0692) | 2.189 (0.1372) | 2.146 (0.0831) | -0.105 (0.0972) | -0.100 (0.1242) | -0.141 (0.0621) | 2.290 (0.0923) | 2.289 (0.0828) | 2.304 (0.0719) |
CK | Mean (SD) | 72.4 (288.41) | 64.2 ( 93.99) | 58.3 ( 77.91) | -3.9 (275.75) | -15.2 ( 77.56) | -14.7 ( 51.54) | 83.4 ( 38.13) | 84.8 ( 64.27) | 72.3 ( 35.71) |
GGT | Mean (SD) | 17.8 ( 34.77) | 16.8 ( 48.69) | 21.3 ( 26.99) | -1.2 ( 21.67) | -1.5 ( 41.48) | -0.3 ( 20.55) | 24.2 ( 19.36) | 18.8 ( 25.84) | 22.7 ( 11.05) |
URATE | Mean (SD) | 235.937 ( 83.6966) | 271.229 ( 88.1609) | 230.981 ( 87.0065) | -23.792 ( 37.1799) | -28.550 ( 55.6673) | -40.645 ( 24.7959) | 272.617 ( 65.7021) | 310.486 ( 61.8285) | 273.608 ( 86.9470) |
Three variables are being summarized here - AVAL, CHG, and BASE. So
which should be used for precision? set_precision_on()
allows you to specify this, where the precision_on()
variable must be one of the variables within target_var
.
Similarly, set_precision_by()
changes the by
variables used to determine collected precision. If no
precision_on()
variable is specified, the first variable in
target_var
is used. If no precision_by
variables are specified, then the default by
variables are
used.
Lastly, while dynamic precision might be what you’re looking for, you may not want precision driven by the data. Perhaps there’s a company standard that dictates what decimal precision should be used for each separate lab test. Maybe even deeper down to the lab test and category. New in Tplyr 1.0.0 we’ve added the ability to take decimal precision from an external source.
The principal of external precision is exactly the same as
auto-precision. The only difference is that you - the user - provide the
precision table that Tplyr was automatically
calculating in the background. This is done using the new function
set_precision_data()
. In the output below, Notice how the
precision by PARAMCD varies depending on what was specified in the data
frame prec_data
.
prec_data <- tibble::tribble(
~PARAMCD, ~max_int, ~max_dec,
"BUN", 1, 0,
"CA", 2, 4,
"CK", 3, 1,
"GGT", 3, 0,
"URATE", 3, 1,
)
tplyr_table(tplyr_adlb, TRTA) %>%
add_layer(
group_desc(AVAL, by = PARAMCD) %>%
set_format_strings(
'Mean (SD)' = f_str('a.a+1 (a.a+2)', mean, sd, empty="NA")
) %>%
set_precision_on(AVAL) %>%
set_precision_by(PARAMCD) %>%
set_precision_data(prec_data)
) %>%
build() %>%
head() %>%
select(-starts_with("ord")) %>%
kable()
row_label1 | row_label2 | var1_Placebo | var1_Xanomeline High Dose | var1_Xanomeline Low Dose |
---|---|---|---|---|
BUN | Mean (SD) | 4.7 (2.05) | 4.6 (1.30) | 5.7 (2.94) |
CA | Mean (SD) | 2.16566 ( 0.069249) | 2.18936 ( 0.137201) | 2.14570 ( 0.083087) |
CK | Mean (SD) | 72.43 (288.405) | 64.25 ( 93.986) | 58.33 ( 77.915) |
GGT | Mean (SD) | 17.8 ( 34.77) | 16.8 ( 48.69) | 21.3 ( 26.99) |
URATE | Mean (SD) | 235.94 ( 83.697) | 271.23 ( 88.161) | 230.98 ( 87.006) |
If one of your by variable groups are missing in the precision data,
Tplyr can default back to using auto-precision by using
the option default=auto
.
prec_data <- tibble::tribble(
~PARAMCD, ~max_int, ~max_dec,
"BUN", 1, 0,
"CA", 2, 4,
"CK", 3, 1,
"GGT", 3, 0,
)
tplyr_table(tplyr_adlb, TRTA) %>%
add_layer(
group_desc(AVAL, by = PARAMCD) %>%
set_format_strings(
'Mean (SD)' = f_str('a.a+1 (a.a+2)', mean, sd, empty="NA")
) %>%
set_precision_on(AVAL) %>%
set_precision_by(PARAMCD) %>%
set_precision_data(prec_data, default="auto")
) %>%
build() %>%
head() %>%
select(-starts_with("ord")) %>%
kable()
#> Unhandled precision cases were found - calculating precision based on source data
row_label1 | row_label2 | var1_Placebo | var1_Xanomeline High Dose | var1_Xanomeline Low Dose |
---|---|---|---|---|
BUN | Mean (SD) | 4.7 (2.05) | 4.6 (1.30) | 5.7 (2.94) |
CA | Mean (SD) | 2.16566 ( 0.069249) | 2.18936 ( 0.137201) | 2.14570 ( 0.083087) |
CK | Mean (SD) | 72.43 (288.405) | 64.25 ( 93.986) | 58.33 ( 77.915) |
GGT | Mean (SD) | 17.8 ( 34.77) | 16.8 ( 48.69) | 21.3 ( 26.99) |
URATE | Mean (SD) | 235.9373 ( 83.69662) | 271.2288 ( 88.16093) | 230.9807 ( 87.00646) |
By default, when using ‘x’ or ‘a’, any other character within a format string will stay stationary. Consider the standard example from the descriptive statistic layer vignette.
tplyr_table(tplyr_adsl, TRT01P) %>%
add_layer(
group_desc(AGE, by = "Age (years)", where= SAFFL=="Y") %>%
set_format_strings(
"n" = f_str("xx", n),
"Mean (SD)"= f_str("xx.x (xx.xx)", mean, sd),
"Median" = f_str("xx.x", median),
"Q1, Q3" = f_str("xx, xx", q1, q3),
"Min, Max" = f_str("xx, xx", min, max),
"Missing" = f_str("xx", missing)
)
) %>%
build() %>%
select(-starts_with('ord'))
#> # A tibble: 6 × 5
#> row_label1 row_label2 var1_Placebo `var1_Xanomeline High Dose`
#> <chr> <chr> <chr> <chr>
#> 1 Age (years) n "86" "84"
#> 2 Age (years) Mean (SD) "76.3 ( 8.59)" "75.9 ( 7.89)"
#> 3 Age (years) Median "76.0" "76.0"
#> 4 Age (years) Q1, Q3 "69, 82" "71, 80"
#> 5 Age (years) Min, Max "52, 89" "56, 88"
#> 6 Age (years) Missing " 0" " 0"
#> # ℹ 1 more variable: `var1_Xanomeline Low Dose` <chr>
Note that if a certain number of integers are alotted, space will be
left for the numbers that fill that space, but the position of the
parenthesis stays fixed. In some displays, you may want the parenthesis
to ‘hug’ your number - the “format group” width should stay fixed, the
parenthesis should move to the right along with the numbers consuming
less integer space. Within your f_str()
, you can achieve
this by using a capital ‘X’. For example, focusing on the mean and
standard deviation line:
tplyr_table(tplyr_adlb, TRTA, PARAMCD == "CK") %>%
add_layer(
group_desc(AVAL, by=vars(PARAMCD, AVISIT)) %>%
set_format_strings(
TEST = f_str("xxx.x (XXX.x)", mean, sd, empty="NA")
) %>%
set_precision_by(PARAMCD)
) %>%
build() %>%
head() %>%
select(-starts_with('ord'))
#> # A tibble: 3 × 6
#> row_label1 row_label2 row_label3 var1_Placebo `var1_Xanomeline High Dose`
#> <chr> <chr> <chr> <chr> <chr>
#> 1 CK Week 12 TEST " 67.5 (148.6)" "122.0 (115.5)"
#> 2 CK Week 24 TEST " 73.2 (438.5)" " 55.5 (3.5)"
#> 3 CK Week 8 TEST " 82.0 (78.9)" " 67.5 (80.6)"
#> # ℹ 1 more variable: `var1_Xanomeline Low Dose` <chr>
Similarly, the same functionality works with auto precision by using a capital A.
tplyr_table(tplyr_adlb, TRTA, PARAMCD == "CK") %>%
add_layer(
group_desc(AVAL, by=vars(PARAMCD, AVISIT)) %>%
set_format_strings(
TEST = f_str("a.a (A.a)", mean, sd, empty="NA")
) %>%
set_precision_by(PARAMCD)
) %>%
build() %>%
head() %>%
select(-starts_with('ord'))
#> # A tibble: 3 × 6
#> row_label1 row_label2 row_label3 var1_Placebo `var1_Xanomeline High Dose`
#> <chr> <chr> <chr> <chr> <chr>
#> 1 CK Week 12 TEST " 68 (149)" " 122 (115)"
#> 2 CK Week 24 TEST " 73 (438)" " 56 (4)"
#> 3 CK Week 8 TEST " 82 (79)" " 68 (81)"
#> # ℹ 1 more variable: `var1_Xanomeline Low Dose` <chr>
There are a two rules when using ‘parenthesis hugging’:
Aside from these rules, parenthesis hugging can be combined with all other valid format string capabilities.
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.