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DataSailr is an R package which enables row by row data manipulation.
The data manipulation process is instructed using DataSailr script, which is designed specifically for data manipulation. The internal data manipulation engine is a library called libsailr, which is written in C/C++. If you are interested in DataSailr’s internal implementation, please also have a look at libsailr library.
This package is still in development. Please let me know if you find bugs or inconsistent behaviors. Please also read community guidelines at the end of this document, when you wish to contribute to this software, report issues or problems, or need supports.
Data processing and data cleaning are essential steps before applying statistical or machine learning procedures. R provides a flexible way for data processing using vectors. Additional R packages also provide other ways for manipulating data such as using SQL and using chained functions. The datasailr package provides yet another way to process data in a row by row manner using data manipulation oriented script, DataSailr script. The script enables users to instruct data processing in a row wise manner, and the script is intuitive and easy to learn. This row by row approach is different from R’s built-in functionality, which provides data processing through column vector calculations. Row wise approach does not require vectors, and can be intuitive compared to R’s default column vector approach.
DataSailr script is a domain specific language for data processing. Using domain specific language for data manipulation is a similar approach to SAS software (SAS and all other SAS Institute Inc. product or service names are registered trademarks or trademarks of SAS Institute Inc. in the USA and other countries). SAS software provides DATA blocks, within which users can write scripts that are specific for data manipulation in a row wise manner. The separation of data manipulation steps and statistical procedures has a benefit of improved readability. Its row wise data manipulation script is easy to understand and learn. DataSailr brings the same kind of experience to R.
As mentioned, there are R packages that have been improving data manipulation, such as sqldf and dplyr. The sqldf package enables users to write SQL for data manipulation. The dplyr package enables users to write data manipulation procedures in a sequential way by chaining functions without thinking much about column vectors. DataSailr enables the same kind of things with a single DataSailr script.
DataSailr package is available on CRAN.
# Start R interpreter
install.packages("datasailr")
Binaries are provided at “https://datasailr.io/download”
For compilation, autotools, bison, flex and some other UNIX programs are required.
DataSailr_toolchain repository provides a way to create CRAN package, and to install it. CRAN package requires some rules. For example, std::cout is not used, but Rcpp::Rcout needs to be used. Also, DataSailr repository itself does not include libsailr and Onigmo. When including those libraries for CRAN package, additional copy right holders need to be listed in DESCRIPTION file. If you do not need these modifications, installing from DataSailr repository itself is also an acceptable way..
git clone https://github.com/niceume/datasailr_toolchain.git
cd datasailr_toolchain
./create_datasailr_pkg.sh
./create_packages.sh
git clone <datasailr repository>
cd datasailr/src
./update_3rd_party_library.sh # This downloads Onigmo library.
cd ..
autoconf # Generate configure script.
cd ..
R CMD INSTALL datasailr --preclean --no-multiarch --build
datasailr::sail() is the main function of this package. This function takes data.frame as the 1st argument and DataSailr script as the 2nd argument. (Note that the 1st argument is data.frame, so you can use this package with %>% operator (in magrittr package), and combine this with functions of dplyr.)
library(datasailr)
datasailr::sail( df, '
<DataSailr script>
'
)
In this quick introduction, built-in R dataframe called mtcars is going to be used. The mtcars datafram has automobile information in 1970’s. The detail of this dataframe is described here. (https://www.rdocumentation.org/packages/datasets/versions/3.6.1/topics/mtcars)
data(mtcars)
head(mtcars,2)
(OUTPUT)
mpg | cyl | disp | hp | drat | wt | qsec | vs | am | gear | carb | |
---|---|---|---|---|---|---|---|---|---|---|---|
Mazda RX4 | 21 | 6 | 160 | 110 | 3.9 | 2.620 | 16.46 | 0 | 1 | 4 | 4 |
Mazda RX4 Wag | 21 | 6 | 160 | 110 | 3.9 | 2.875 | 17.02 | 0 | 1 | 4 | 4 |
Before executing the following code, install DataSailr package (and magrittr package.) Installation instruction is mentioned later in this README (Binary package is the easiest way to try, until this package becomes available on CRAN).
library(datasailr)
library(magrittr)
mtcars %>% datasailr::sail('
if( hp > 145 ){ power = "high" }
else if( 145 >= hp && hp > 0){ power = "low" }
else{ print("hp variable has missing value")}
germany = re/(^Merc|^Porsche|^Volvo)/
usa = re/(^Hornet|^Cadillac|^Lincoln|^Chrysler|^Dodge|^AMC|^Camaro|^Chevrolet|^Pontiac|^Ford)/
japan = re/(^Mazda|^Datsun|^Honda|^Toyota)/
if ( _rowname_ =~ germany ) { country = "Germany" ; type = rexp_matched(1); }
else if( _rowname_ =~ usa ) { country = "USA" ; type = rexp_matched(1); }
else if( _rowname_ =~ japan ) { country = "Japan" ; type = rexp_matched(1); }
else { country = "Other" }
') %>% head(10)
power | country | type | |
---|---|---|---|
1 | low | Japan | Mazda |
2 | low | Japan | Mazda |
3 | low | Japan | Datsun |
4 | low | USA | Hornet |
5 | high | USA | Hornet |
6 | low | Other | |
7 | high | Other | |
8 | low | Germany | Merc |
9 | low | Germany | Merc |
10 | low | Germany | Merc |
Before describing grammar details, I need to mention that DataSailr script and Sailr script are essentially the same script. DataSailr script, script for DataSailr, is just an extended version of Sailr script(, script of libsailr). DataSailr and Sailr have the same grammar, and DataSailr just has additional built-in functions, such as push!() and discard!(). What is mentioned about Sailr script can be completely applied to DataSailr script.
Sailr script is especially intended for use of data manipulation. From the programming language view, the functionality is not enough and is not a general-purpose programming language, but you can write instructions and manipulate data in an intuitive way. For SAS(*) software users, the grammar of Sailr script is relatively easy to understand. Differences are mentioned later in this README.
(*) SAS is the world’s largest privately held software company. SAS provides SAS software which is used by professional data analysts.
In general-purpose programming language, variables usually mean identifiers to point to some memory or some objects. However in statistics, dataset column names are usually called variables. Sailr script follows the statistics way because it is designed not for general-purpose programming language, but is designed for processing dataset. Variables in codes correspond to the column with the same name.
(e.g.) The following code print the value of column X.
print(X)
(e.g.) The following code assign the value of column X to column Y.
Y = X
Sailr script can deal with the following types.
R can handle vectors, list, S4 class objects, and so on. Among those R objects, dataframe usually consists of only vectors. The following list shows which data types are supported by Sailr. Supporting vectors of numbers and strings is enough in most of the cases of data analysis.
Column of R data.frame | Sailr |
---|---|
Integer Vector | Int |
Double (Real) Vector | Double |
Character Vector | String |
Boolean Vector | Int (0/1) |
Factor | String |
List (No plan) | No plan to be supported |
The following operators can be applied to numbers (int + double).
Only plus (+) operator can deal with strings. It can concatenate strings.
+ add
- subtract
* multiply
/ divide
** power
^ power
=~ regular expression matching ( )
The following operators are not supported in Sailr
++ // Increment operator
-- // Decrement operator
+=
-=
*=
/=
The following syntax is accepted. The former one is more familiar to programmers, though the latter is easier to read and may be better for data scientists.
if(bmi >= 40){
weight_level = .
}else if( bmi >= 35 ){
weight_level = .
}else if( bmi >= 30 ){
weight_level = 3
}else if( bmi >= 25 ){
weight_level = 2
}else if( bmi >= 20 ){
weight_level = 1
}else{
weight_level = .
}
if(bmi >= 40){ weight_level = . }
else if( bmi >= 35 ){ weight_level = . }
else if( bmi >= 30 ){ weight_level = 3 }
else if( bmi >= 25 ){ weight_level = 2 }
else if( bmi >= 20 ){ weight_level = 1 }
else { weight_level = . }
The following is the list of built-in functions.
print( str1, str2 ... )
num_to_str( num )
str_strip( str )
str_lstrip( str )
str_rstrip( str )
str_concat( str1, str2 ... ) // numbers are also accepted as input.
str_repeat( str , num )
str_subset( str, num, num ) // index starts from one. UTF8 compatible.
str_to_num( str )
rexp_matched( num ) // back reference
date_ymd( year, month, day ) // convert a combination of year, month and day into numbers that is a day from Jan 1st 1970.
date_ym_weekday_nth( year, month, weekday, nth ) // weekday should be "Sun", "Mon" ...
date_add_n_years( unix_date, years )
date_add_n_months( unix_date, months )
date_add_n_days( unix_date, days )
date_format( unix_date, str_format ) // This format should follow C++'s std::chrono::format. "%m/%d/%y" or "%Y-%m-%d" is popular.
Currently, users cannot implement functions of Sailr script by themselves.
If you want to implement your own function, you need to modify libsailr or libsailr’s external function mechanism.
The libsailr C API is not mature. The interface for users is not organized. Please feel free to contact the author if you want your own function.
For numbers (integer or double), single dot (.) represents missing value in code. Internally missing value is defined as -nan in C (which is generated by sqrt(-1)). See libsailr’s node.c file and new_node_nan_double () function. ) Any calculation with this value always results in -nan.
For string, empty string (““) represents missing string.
Note that in vanilla R, calculation with missing value returns missing value, and missing values act like TRUE in logical vector. In vanilla R, filtering of vectors and dataframes is done using logical vectors. If missing values are treated like TRUE, unintended elements or rows that have missing values are extracted. For example, you are calculating BMI (body mass index) from body weight and height. One person has a missing for body weight. His/her BMI will be calculated as missing value. You would like to categorize this person as “unknown BMI” category, then missingness should be checked first and these people should be categorized first. Otherwise, missing values in logical vector works like TRUE, so these people are categorized into some BMI categories, such as “high BMI” or “low BMI”.
In Sailr, on the other hand, comparison operators with missing values return false except that missing is compared with missing.
library(datasailr)
col1 = c(1.7, 1.5 , 1.5 , 1.65 , 1.5)
col2 = c(50 , 60 , 80 , NA , 100)
df = data.frame(height = col1, bw = col2)
code ='
bmi = bw / (height ^ 2)
if(bmi >= 40){ overweight = 5 }
else if( bmi >= 35 ){ overweight = 4 }
else if( bmi >= 30 ){ overweight = 3 }
else if( bmi >= 25 ){ overweight = 2 }
else if( bmi >= 20 ){ overweight = 1 }
else if( bmi >= 0 ){ overweight = 0 }
else { overweight = . }
'
new_df = datasailr::sail( df, code , fullData = T);
new_df
height bw bmi overweight
1 1.70 50 17.30104 0
2 1.50 60 26.66667 2
3 1.50 80 35.55556 4
4 1.65 NA NA NaN
5 1.50 100 44.44444 5
Infinite numbers are also supported. Internally this is implemented as Inf in C. The behavior is same as C.
(ref.) NAN and infinity in C Standard ( https://www.gnu.org/software/libc/manual/html_node/Infinity-and-NaN.html ) (ref.) This support seems to require at least C99. ( https://stackoverflow.com/questions/6235847/how-to-generate-nan-infinity-and-infinity-in-ansi-c )
x = 10
y = 0
z = -10
a = x / y /* INF */
b = z / y /* -INF */
c = (-1) ** (-1/2) /* sqrt(-1) => -nan */
print("a is ", a , "\n")
print("b is ", b , "\n")
print("c is ", c , "\n")
if( a >= 0 ){
print("a is zero or more than zero. \n")
}else if( a < 0){
print("a is less than zero. \n")
}else{
print("a is not a number. \n")
}
if( b >= 0 ){
print("b is zero or more than zero. \n")
}else if( b < 0){
print("b is less than zero. \n")
}else{
print("b is not a number. \n")
}
if( c >= 0 ){
print("c is zero or more than zero. \n")
}else if(c < 0){
print("c is less than zero. \n")
}else if(c == .){
print("c is not a number. \n")
}
a is inf
b is -inf
c is -nan
a is zero or more than zero.
b is less than zero.
c is not a number.
UTF8 encoding is strongly encouraged. The recommended way is to have dataframe as UTF8, and also have your code as UTF8. ASCII or latin1 is compatible with UTF8, so they must also work properly. (Your terminal encoding also need to be UTF8 for properly printing out UTF8 strings.)
In Sailr (libsailr), strings are stored just as a sequence of bytes. So even if you use other encodings, just copying and concatenating strings must work fine. Problems must happen when your source code and dataframe do not have the same encoding. Encoding of source code affects the string objects that are generated during parsing phase (=string objects that are generated before running code), dataframe encoding affects the string that are accessed via variables.
For functions that process strings, UFF8-CPP library is used internally. ( UTF8-CPP:UTF-8 with C++ in a Portable Way https://github.com/nemtrif/utfcpp )
greeting = "Hello World" // Only ascii string
str_len(greeting) // 11
str_subset(1,5) // Hello
greeting_jp = "こんにちは! 世界" // Mixture of single byte string and multi byte strings.
str_len(greeting_jp) // 8
str_subset(1,5) // こんにちは
str_subset(8,9) // 世界
Currently, the regular expression objects are not generated during run time but only in parsing phase. In other words, regular expressions can be generated only in regular expression literal. Regular expression syntax is re/pattern/ , which start with re/ and end with /.
The regular expression engine used internally is Onigmo ( https://github.com/k-takata/Onigmo ). The source code must be written in UTF8, because regular expression object is programmed to assume UTF8 for its input (in libsailr).
As the following code shows, backreference (outside of the pattern) can be used via regexp_matched() function.
germany = re/(^Merc|^Porsche|^Volvo)/
if ( _rowname_ =~ germany ) {
country = "Germany" ;
type = rexp_matched(1);
}
In Sailr(libsair), there are no specific types for dates, and dates are stored as just integers in Sailr. The number represents the day from Jan 1st 1970, which is the same as UNIX date. (Be careful that SAS software also store date information as numbers, but their starting date is 1/1/1960. https://support.sas.com/resources/papers/proceedings12/244-2012.pdf )
Internally for date calculation, date library is used ( “date.h” is a
header-only library which builds upon
date_ymd( year, month, day )
date_ym_weekday_nth( year, month, weekday, nth ) // weekday should be "Sun", "Mon" ...
date_add_n_years( unix_date, years )
date_add_n_months( unix_date, months )
date_add_n_days( unix_date, days )
date_format( unix_date, str_format ) // This format should follow C++'s std::chrono::format. "%m/%d/%y" or "%Y-%m-%d" is popular.
As already mentioned, DataSailr script is an extended version of Sailr script, and DataSailr has additional built-in functions to Sailr. Functions of Sailr script only conduct calculation within each row because that is what libsailr does. However, there are cases where users need to discard rows or output multiple rows from one row. DataSailr implements additional these functions using libsailr’s external function mechanism. Currently, push!() and discard!() functions are provided using this mechanism. These functions can change the number of rows of input dataset, unlike libsailr’s original built-in functions.
push!() function changes dataframe structure, for which reason it is not (cannot be) implemented as a libsailr internal function. What push!() function does is to push the current variable values onto the result dataframe. Even after push!() function is executed, the script execution continues on the same input row. This results in creating multiple rows from one input row.
As the following example shows, it is useful to convert wide format dataframe into long format.
wide_df = data.frame(
subj = c("Tom", "Mary", "Jack"),
t0 = c( 50, 42, 80),
t1 = c( 48, 42, 75),
t2 = c( 46, 44, 72),
t3 = c( 42, 42, 73)
)
code = "
OriRowNum = _n_
subj = subj
time = 0
bw = t0
push!()
time = 1
bw = t1
push!()
time = 2
bw = t2
push!()
time = 3
bw = t3
"
wide_df
datasailr::sail(wide_df , code = code)
> wide_df
subj t0 t1 t2 t3
1 Tom 50 48 46 42
2 Mary 42 42 44 42
3 Jack 80 75 72 73
> datasailr::sail(wide_df , code = code)
subj OriRowNum time bw
1 Tom 1 0 50
2 Tom 1 1 48
3 Tom 1 2 46
4 Tom 1 3 42
5 Mary 2 0 42
6 Mary 2 1 42
7 Mary 2 2 44
8 Mary 2 3 42
9 Jack 3 0 80
10 Jack 3 1 75
11 Jack 3 2 72
12 Jack 3 3 73
discard!() function drops the current row from the result dataframe. A common usage of this function is to filter out specific rows using if condition.
data(mtcars)
datasailr::sail(mtcars, code='
n = _n_
cyl = cyl
if(cyl != 4){
discard!(); // Filter out rows that do not have 4 for cyl. i.e. Keep rows with 4 for cyl.
}
')
List of major differences between DataSailr and DATA Step in SAS software.
DataSailr does not compete with dplyr. DataSailr focuses on row by row manipulation, and dplyr has more functionalities about the whole dataframe manipulation (e.g. arrange(), select(), group_by() & summarize()).
DataSailr’s special feature is that you can write multiple row level manipulations in one code, though dplyr enables it with a chain of functions.
DataSailr | dplyr | |
---|---|---|
How to manipulate data | Apply a single DataSailr code | Apply multiple functions using (%>%) |
Create new column | assign value to new variable | mutate() |
Keep some columns | (Not implemented yet) | select() |
Keep some rows | discard!() drops rows | filter() |
Summarize columns | No use for this purpose | summarize() |
Sort rows | No use for this purpose | arrange() |
Regular expression | Built-in | Partially available with another R package |
Available functions | Can call only DataSailr functions | Can call R functions |
Convert wide to long format | push!() function | (not dplyr but reshape2 package) |
Convert long to wide format | (Not implemented yet) | (not dplyr but reshape2 package) |
The core engine of this package is libsailr. Libsailr takes Sailr script and does arithmetic calculations and string/character manipulations. This R package wraps libsair, and passes values of each row to the libsailr library. The results of each row will be returned as each row of new dataframe.
DataSailr internals are described in the official website.
This project’s repository is on Github. Currently, for both development and releases, only master branch is used.
Please feel free to fork the branch, and please send pull requests to me.
Please report issues or problems on Github.
For support, there are online resources, a duscussion board and an email.
Your feedback is welcome.
Maintainer: Toshi Umehara toshi@niceume.com
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.