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Quickstart: Run simple R scripts with SQL machine learning

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Applies to: SQL Server 2016 (13.x) and later Azure SQL Managed Instance

In this quickstart, you'll run a set of simple R scripts using SQL Server Machine Learning Services or on Big Data Clusters. You'll learn how to use the stored procedure sp_execute_external_script to execute the script in a SQL Server instance.

In this quickstart, you'll run a set of simple R scripts using SQL Server Machine Learning Services. You'll learn how to use the stored procedure sp_execute_external_script to execute the script in a SQL Server instance.

In this quickstart, you'll run a set of simple R scripts using SQL Server R Services. You'll learn how to use the stored procedure sp_execute_external_script to execute the script in a SQL Server instance.

In this quickstart, you'll run a set of simple R scripts using Azure SQL Managed Instance Machine Learning Services. You'll learn how to use the stored procedure sp_execute_external_script to execute the script in your database.

Prerequisites

You need the following prerequisites to run this quickstart.

  • A tool for running SQL queries that contain R scripts. This quickstart uses Azure Data Studio.

Run a simple script

To run an R script, you'll pass it as an argument to the system stored procedure, sp_execute_external_script. This system stored procedure starts the R runtime, passes data to R, manages R user sessions securely, and returns any results to the client.

In the following steps, you'll run this example R script:

a <- 1
b <- 2
c <- a/b
d <- a*b
print(c(c, d))

  1. Open Azure Data Studio and connect to your server.

  2. Pass the complete R script to the sp_execute_external_script stored procedure.

    The script is passed through the @script argument. Everything inside the @script argument must be valid R code.

    EXECUTE sp_execute_external_script @language = N'R'
    , @script = N'
a <- 1
b <- 2
c <- a/b
d <- a*b
print(c(c, d))
'

  3. The correct result is calculated and the R print function returns the result to the Messages window.

    It should look something like this.

    Results

    STDOUT message(s) from external script:
0.5 2

Run a Hello World script

A typical example script is one that just outputs the string "Hello World". Run the following command.

EXECUTE sp_execute_external_script @language = N'R'
    , @script = N'OutputDataSet<-InputDataSet'
    , @input_data_1 = N'SELECT 1 AS hello'
WITH RESULT SETS(([Hello World] INT));
GO

Inputs to the sp_execute_external_script stored procedure include:

Input Description
@language defines the language extension to call, in this case, R
@script defines the commands passed to the R runtime. Your entire R script must be enclosed in this argument, as Unicode text. You could also add the text to a variable of type nvarchar and then call the variable
@input_data_1 data returned by the query, passed to the R runtime, which returns the data as a data frame
WITH RESULT SETS clause defines the schema of the returned data table, adding "Hello World" as the column name, int for the data type

The command outputs the following text:

Hello World
1

Use inputs and outputs

By default, sp_execute_external_script accepts a single dataset as input, which typically you supply in the form of a valid SQL query. It then returns a single R data frame as output.

For now, let's use the default input and output variables of sp_execute_external_script: InputDataSet and OutputDataSet.

  1. Create a small table of test data.

    CREATE TABLE RTestData (col1 INT NOT NULL)

INSERT INTO RTestData
VALUES (1);

INSERT INTO RTestData
VALUES (10);

INSERT INTO RTestData
VALUES (100);
GO

  2. Use the SELECT statement to query the table.

    SELECT *
FROM RTestData

    Results

    Contents of the RTestData table

  3. Run the following R script. It retrieves the data from the table using the SELECT statement, passes it through the R runtime, and returns the data as a data frame. The WITH RESULT SETS clause defines the schema of the returned data table for SQL, adding the column name NewColName.

    EXECUTE sp_execute_external_script @language = N'R'
    , @script = N'OutputDataSet <- InputDataSet;'
    , @input_data_1 = N'SELECT * FROM RTestData;'
WITH RESULT SETS(([NewColName] INT NOT NULL));

    Results

    Output from R script that returns data from a table

  4. Now let's change the names of the input and output variables. The default input and output variable names are InputDataSet and OutputDataSet, this script changes the names to SQL_in and SQL_out:

    EXECUTE sp_execute_external_script @language = N'R'
    , @script = N' SQL_out <- SQL_in;'
    , @input_data_1 = N' SELECT 12 as Col;'
    , @input_data_1_name = N'SQL_in'
    , @output_data_1_name = N'SQL_out'
WITH RESULT SETS(([NewColName] INT NOT NULL));

    Note that R is case-sensitive. The input and output variables used in the R script (SQL_out, SQL_in) need to match the names defined with @input_data_1_name and @output_data_1_name, including case.

    Tip

    Only one input dataset can be passed as a parameter, and you can return only one dataset. However, you can call other datasets from inside your R code and you can return outputs of other types in addition to the dataset. You can also add the OUTPUT keyword to any parameter to have it returned with the results.

  5. You also can generate values just using the R script with no input data (@input_data_1 is set to blank).

    The following script outputs the text "hello" and "world".

    EXECUTE sp_execute_external_script @language = N'R'
    , @script = N'
mytextvariable <- c("hello", " ", "world");
OutputDataSet <- as.data.frame(mytextvariable);
'
    , @input_data_1 = N''
WITH RESULT SETS(([Col1] CHAR(20) NOT NULL));

    Results

    Query results using <span class=@script as input" />

Check R version

If you would like to see which version of R is installed, run the following script.

EXECUTE sp_execute_external_script @language = N'R'
    , @script = N'print(version)';
GO

The R print function returns the version to the Messages window. In the example output below, you can see that in this case, R version 3.4.4 is installed.

Results

STDOUT message(s) from external script:
                   _
platform       x86_64-w64-mingw32
arch           x86_64
os             mingw32
system         x86_64, mingw32
status
major          3
minor          4.4
year           2018
month          03
day            15
svn rev        74408
language       R
version.string R version 3.4.4 (2018-03-15)
nickname       Someone to Lean On

List R packages

Microsoft provides a number of R packages pre-installed with Machine Learning Services.

Microsoft provides a number of R packages pre-installed with R Services.

To see a list of which R packages are installed, including version, dependencies, license, and library path information, run the following script.

EXEC sp_execute_external_script @language = N'R'
    , @script = N'
OutputDataSet <- data.frame(installed.packages()[,c("Package", "Version", "Depends", "License", "LibPath")]);'
WITH result sets((
            Package NVARCHAR(255)
            , Version NVARCHAR(100)
            , Depends NVARCHAR(4000)
            , License NVARCHAR(1000)
            , LibPath NVARCHAR(2000)
            ));

The output is from installed.packages() in R and is returned as a result set.

Results

Installed packages in R

Next steps

To learn how to use data structures when using R with SQL machine learning, follow this quickstart:

Handle data types and objects using R with SQL machine learning