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This vignette covers other functions that don’t fit in other vignettes, but still seem useful. Mainly this involves import and export, and some helper functions.
One of the most useful functions is export_to_excel()
.
This can be used to export the contents of a coin to Excel at at any
point in its construction, and is very simple to run. We first build the
example coin:
Then export to Excel:
This exports every data frame in the coin to a separate tab in the workbook, named according to its position in the coin. By default it excludes the Log of the coin, but this can be optionally included. The function is very useful for passing the results to people who don’t use R (let’s face it, that’s most people).
Data can also be imported directly into COINr from the COIN
Tool which is an Excel-based tool for building and analysing
composite indicators, similar in fact to COINr1. With the
import_coin_tool()
function you can import data directly
from the COIN Tool to cross check or extend your analysis in COINr.
To demonstrate, we can take the example version of the COIN Tool, which you can download here. Then it’s as simple as running:
# make sure file is in working directory!
coin_import <- import_coin_tool("COIN_Tool_v1_LITE_exampledata.xlsm",
makecodes = TRUE, out2 = "coin")
This will directly generate a coin from the COIN Tool.
COINr changed drastically from v0.6 to v1.0. So drastically that I
skipped several version numbers. From v1.0, the main object of COINr is
called a “coin” and this is different from the “COIN” used up to v0.6.x.
If you have worked in COINr before v1.0, you can use the
COIN_to_coin()
function to convert old COINs into new
coins:
This comes with some limitations: any data sets present in the coin
will not be passed on unless recover_dsets = TRUE
. However,
if this is specified, the coin cannot be regenerated because it is not
possible to translate the log from the older COIN class (called the
“Method”) to the log in the new coin class. Still, the conversion avoids
having to reformat iData
and iMeta
.
Here we list some accessory functions that could be useful in some circumstances.
The rank_df()
function converts a data frame to ranks,
ignoring non-numeric columns. Taking some sample data:
X <- ASEM_iData[1:5,c(2,10:12)]
X
#> uCode GDP Population LPI
#> 1 AUT 390.79999 8735.453 4.097985
#> 2 BEL 467.95527 11429.336 4.108538
#> 3 BGR 53.23964 7084.571 2.807685
#> 4 HRV 51.23100 4189.353 3.160829
#> 5 CYP 20.04623 1179.551 2.999061
This looks like
rank_df(X)
#> uCode GDP Population LPI
#> 1 AUT 2 2 2
#> 2 BEL 1 1 1
#> 3 BGR 3 3 5
#> 4 HRV 4 4 3
#> 5 CYP 5 5 4
The replace_df()
function replaces values found anywhere
in a data frame with corresponding new values:
replace_df(X, data.frame(old = c("AUT", "BEL"), new = c("test1", "test2")))
#> uCode GDP Population LPI
#> 1 test1 390.79999 8735.453 4.097985
#> 2 test2 467.95527 11429.336 4.108538
#> 3 BGR 53.23964 7084.571 2.807685
#> 4 HRV 51.23100 4189.353 3.160829
#> 5 CYP 20.04623 1179.551 2.999061
The round_df()
rounds to a specified number of decimal
places, ignoring non-numeric columns:
round_df(X, 1)
#> uCode GDP Population LPI
#> 1 AUT 390.8 8735.5 4.1
#> 2 BEL 468.0 11429.3 4.1
#> 3 BGR 53.2 7084.6 2.8
#> 4 HRV 51.2 4189.4 3.2
#> 5 CYP 20.0 1179.6 3.0
The signif_df()
is equivalent but for a number of
significant figures:
signif_df(X, 3)
#> uCode GDP Population LPI
#> 1 AUT 391.0 8740 4.10
#> 2 BEL 468.0 11400 4.11
#> 3 BGR 53.2 7080 2.81
#> 4 HRV 51.2 4190 3.16
#> 5 CYP 20.0 1180 3.00
Finally, the compare_df()
function gives a detailed
comparison between two similar data frames that are indexed by a
specified column. This function is tailored to compare results in
composite indicators. Say you have a set of results from COINr and want
to cross check against a separate calculation. Often, you end up with a
data frame with the same columns, but possibly in a different order.
Rows could be in a different order but are indexed by an identifier,
here “uCode”. The compare_df()
function gives a detailed
comparison between the two data frames and points out any
differences.
We’ll demonstrate this by copying the example data frame, altering some values and seeing what happens:
# copy
X1 <- X
# change three values
X1$GDP[3] <- 101
X1$Population[1] <- 10000
X1$Population[2] <- 70000
# reorder
X1 <- X1[order(X1$uCode), ]
# now compare
compare_df(X, X1, matchcol = "uCode")
#> $Same
#> [1] FALSE
#>
#> $Details
#> Column TheSame Comment NDifferent
#> 1 uCode TRUE Non-numerical and identical 0
#> 2 GDP FALSE Numerical and different at 5 sf. 1
#> 3 Population FALSE Numerical and different at 5 sf. 2
#> 4 LPI TRUE Numerical and identical to 5 sf. 0
#>
#> $Differences
#> $Differences$GDP
#> uCode df1 df2
#> 3 BGR 53.23964 101
#>
#> $Differences$Population
#> uCode df1 df2
#> 1 AUT 8735.453 10000
#> 2 BEL 11429.336 70000
The output is a list with several entries. First, it tells us that the two data frames are not the same. The “Details” data frame lists each column and says whether it is identical or not, and how many different points there are. Finally, the “Differences” list has one entry for each column that differs, and details the value of the point from the first data frame compared to the value from the second.
From experience, this kind of output can be very helpful in quickly zooming in on differences between possibly large data frames of results. It is mainly intended for the use case described above, where the data frames are known to be similar, are of the same size, but we want to check for precise differences.
Full disclosure, I was also involved in the development of the COIN Tool↩︎
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.