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sqlouterjoin

Outer join between two database tables

Description

example

data = sqlouterjoin(conn,lefttable,righttable) returns a table resulting from an outer join between the left and right database tables. This function matches rows using all shared columns, or keys, in both database tables. The outer join retains the matched and unmatched rows between the two tables. Executing this function is the equivalent of writing the SQL statement SELECT * FROM lefttable,righttable OUTER JOIN lefttable.key = righttable.key.

example

data = sqlouterjoin(conn,lefttable,righttable,Name,Value) uses additional options specified by one or more name-value arguments. For example, specify Keys = "productNumber" to use the productNumber column as a key for joining the two database tables.

Examples

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Use an ODBC connection to import product data from an outer join between two Microsoft® SQL Server® database tables into MATLAB®.

Create an ODBC database connection to a Microsoft SQL Server database with Windows® authentication. Specify a blank user name and password. The database contains the tables productTable and suppliers.

datasource = 'MS SQL Server Auth';
conn = database(datasource,'','');

Check the database connection. If the Message property is empty, then the connection is successful.

conn.Message
ans =

     []

Join two database tables, productTable and suppliers. The productTable table is the left table of the join, and the suppliers table is the right table of the join. The sqlouterjoin function automatically detects the shared column between the tables.

data is a table that contains the matched and unmatched rows from the two tables.

lefttable = 'productTable';
righttable = 'suppliers';
data = sqlouterjoin(conn,lefttable,righttable);

Display the first three rows of joined data. The columns from the right table appear to the right of the columns from the left table.

head(data,3)
ans =

  3×10 table

    productNumber    stockNumber    supplierNumber    unitCost    productDescription    SupplierNumber      SupplierName          City           Country           FaxNumber   
    _____________    ___________    ______________    ________    __________________    ______________    _________________    __________    ________________    ______________

          1          4.0035e+05          1001            14       'Building Blocks'          1001         'Wonder Products'    'New York'    'United States'     '212 435 1617'
          2          4.0031e+05          1002             9       'Painting Set'             1002         'Terrific Toys'      'London'      'United Kingdom'    '44 456 9345' 
          3            4.01e+05          1009            17       'Slinky'                   1009         'Doll's Galore'      'London'      'United Kingdom'    '44 222 2397' 

Close the database connection.

close(conn)

Use an ODBC connection to import product data from an outer join between two Microsoft® SQL Server® database tables into MATLAB®. Specify the database catalog and schema where the tables are stored.

Create an ODBC database connection to a Microsoft SQL Server database with Windows® authentication. Specify a blank user name and password. The database contains the tables productTable and suppliers.

datasource = 'MS SQL Server Auth';
conn = database(datasource,'','');

Check the database connection. If the Message property is empty, then the connection is successful.

conn.Message
ans =

     []

Join two database tables, productTable and suppliers. The productTable table is the left table of the join, and the suppliers table is the right table of the join. The sqlouterjoin function automatically detects the shared column between the tables. Specify the toy_store catalog and the dbo schema for both the left and right tables. Use the 'LeftCatalog' and 'LeftSchema' name-value pair arguments for the left table, and the 'RightCatalog' and 'RightSchema' name-value pair arguments for the right table.

data is a table that contains the matched and unmatched rows from the two tables.

lefttable = 'productTable';
righttable = 'suppliers';
data = sqlouterjoin(conn,lefttable,righttable,'LeftCatalog','toy_store', ...
    'LeftSchema','dbo','RightCatalog','toy_store','RightSchema','dbo');

Display the first three rows of joined data. The columns from the right table appear to the right of the columns from the left table.

head(data,3)
ans =

  3×10 table

    productNumber    stockNumber    supplierNumber    unitCost    productDescription    SupplierNumber      SupplierName          City           Country           FaxNumber   
    _____________    ___________    ______________    ________    __________________    ______________    _________________    __________    ________________    ______________

          1          4.0035e+05          1001            14       'Building Blocks'          1001         'Wonder Products'    'New York'    'United States'     '212 435 1617'
          2          4.0031e+05          1002             9       'Painting Set'             1002         'Terrific Toys'      'London'      'United Kingdom'    '44 456 9345' 
          3            4.01e+05          1009            17       'Slinky'                   1009         'Doll's Galore'      'London'      'United Kingdom'    '44 222 2397' 

Close the database connection.

close(conn)

Use an ODBC connection to import joined product data from two Microsoft® SQL Server® database tables into MATLAB®. Specify the key to use for joining the tables.

Create an ODBC database connection to a Microsoft SQL Server database with Windows® authentication. Specify a blank user name and password. The database contains the tables productTable and suppliers.

datasource = 'MS SQL Server Auth';
conn = database(datasource,'','');

Check the database connection. If the Message property is empty, then the connection is successful.

conn.Message
ans =

     []

Join two database tables, productTable and suppliers. The productTable table is the left table of the join, and the suppliers table is the right table of the join. Specify the key, or shared column, between the tables using the 'Keys' name-value pair argument.

data is a table that contains the matched and unmatched rows from the two tables.

lefttable = 'productTable';
righttable = 'suppliers';
data = sqlouterjoin(conn,lefttable,righttable,'Keys','supplierNumber');

Display the first three rows of joined data. The columns from the right table appear to the right of the columns from the left table.

head(data,3)
ans =

  3×10 table

    productNumber    stockNumber    supplierNumber    unitCost    productDescription    SupplierNumber      SupplierName          City           Country           FaxNumber   
    _____________    ___________    ______________    ________    __________________    ______________    _________________    __________    ________________    ______________

          1          4.0035e+05          1001            14       'Building Blocks'          1001         'Wonder Products'    'New York'    'United States'     '212 435 1617'
          2          4.0031e+05          1002             9       'Painting Set'             1002         'Terrific Toys'      'London'      'United Kingdom'    '44 456 9345' 
          3            4.01e+05          1009            17       'Slinky'                   1009         'Doll's Galore'      'London'      'United Kingdom'    '44 222 2397' 

Close the database connection.

close(conn)

Use an ODBC connection to import employee data from an outer join between two Microsoft® SQL Server® database tables into MATLAB®. Specify the left and right keys for the join.

Create an ODBC database connection to a Microsoft SQL Server database with Windows® authentication. Specify a blank user name and password. The database contains the tables employees and departments.

datasource = 'MS SQL Server Auth';
conn = database(datasource,'','');

Check the database connection. If the Message property is empty, then the connection is successful.

conn.Message
ans =

     []

Join two database tables, employees and departments, to find the managers for particular departments. The employees table is the left table of the join, and the departments table is the right table of the join. Here, the column names of the keys are different. Specify the MANAGER_ID key in the left table using the 'LeftKeys' name-value pair argument. Specify the DEPT_MANAGER_ID key in the right table using the 'RightKeys' name-value pair argument.

data is a table that contains the matched and unmatched rows from the two tables.

lefttable = 'employees';
righttable = 'departments';
data = sqlouterjoin(conn,lefttable,righttable,'LeftKeys','MANAGER_ID', ...
    'RightKeys','DEPT_MANAGER_ID');

Display the last three unmatched rows of joined data. Display the last five variables of the joined data.

tail(data(:,end-4:end),3)
ans =

  3×5 table

    DEPARTMENT_ID    DEPARTMENT_ID_1     DEPARTMENT_NAME     DEPT_MANAGER_ID    LOCATION_ID
    _____________    _______________    _________________    _______________    ___________

         NaN               230          'IT Helpdesk'              NaN             1700    
         NaN                40          'Human Resources'          203             2400    
         NaN                10          'Administration'           200             1700    

Close the database connection.

close(conn)

Use an ODBC connection to import joined employee data from two Microsoft® SQL Server® database tables into MATLAB®. Create a right join and specify the left and right keys for the join.

Create an ODBC database connection to a Microsoft SQL Server database with Windows® authentication. Specify a blank user name and password. The database contains the tables employees and departments.

datasource = 'MS SQL Server Auth';
conn = database(datasource,'','');

Check the database connection. If the Message property is empty, then the connection is successful.

conn.Message
ans =

     []

Join two database tables, employees and departments, to find the managers for particular departments. The employees table is the left table of the join, and the departments table is the right table of the join. Here, the column names of the keys are different. Specify the MANAGER_ID key in the left table using the 'LeftKeys' name-value pair argument. Specify the DEPT_MANAGER_ID key in the right table using the 'RightKeys' name-value pair argument. Create a right join using the 'Type' name-value pair argument.

lefttable = 'employees';
righttable = 'departments';
data = sqlouterjoin(conn,lefttable,righttable,'LeftKeys','MANAGER_ID', ...
    'RightKeys','DEPT_MANAGER_ID','Type','right');

data is a table that contains the matched rows from the two tables and the unmatched rows from the right table only.

Display the last three unmatched rows of joined data. Display the last five variables of the joined data.

tail(data(:,end-4:end),3)
ans =

  3×5 table

    DEPARTMENT_ID    DEPARTMENT_ID_1    DEPARTMENT_NAME    DEPT_MANAGER_ID    LOCATION_ID
    _____________    _______________    _______________    _______________    ___________

         NaN               250          'Retail Sales'           NaN             1700    
         NaN               260          'Recruiting'             NaN             1700    
         NaN               270          'Payroll'                NaN             1700    

Close the database connection.

close(conn)

Use an ODBC connection to import joined product data from two Microsoft® SQL Server® database tables into MATLAB®. Specify the number of rows to return.

Create an ODBC database connection to a Microsoft SQL Server database with Windows® authentication. Specify a blank user name and password. The database contains the tables productTable and suppliers.

datasource = 'MS SQL Server Auth';
conn = database(datasource,'','');

Check the database connection. If the Message property is empty, then the connection is successful.

conn.Message
ans =

     []

Join two database tables, productTable and suppliers. The productTable table is the left table of the join, and the suppliers table is the right table of the join. The sqlouterjoin function automatically detects the shared column between the tables. Specify the number of rows to return using the 'MaxRows' name-value pair argument.

lefttable = 'productTable';
righttable = 'suppliers';
data = sqlouterjoin(conn,lefttable,righttable,'MaxRows',3)
data =

  3×10 table

    productNumber    stockNumber    supplierNumber    unitCost    productDescription    SupplierNumber            SupplierName                City            Country           FaxNumber   
    _____________    ___________    ______________    ________    __________________    ______________    _____________________________    ___________    _______________    _______________

          7          3.8912e+05          1007            16        'Engine Kit'              1007         'Garvin's Electrical  Gizmos'    'Wellesley'    'United States'    '617 919 3456' 
          8          2.1257e+05          1001             5        'Train Set'               1001         'Wonder Products'                'New York'     'United States'    '212 435 1617' 
          9          1.2597e+05          1003            13        'Victorian Doll'          1003         'Wacky Widgets'                  'Adelaide'     'Australia'        '618 8490 2211'

data is a table that contains three of the matched and unmatched rows from the two tables. The columns from the right table appear to the right of the columns from the left table.

Close the database connection.

close(conn)

Import joined product data from two Microsoft® SQL Server® database tables into MATLAB® by using an ODBC connection. One of the tables contains a variable name with a non-ASCII character. When importing data, preserve the names of all the variables.

Create an ODBC database connection to an SQL Server database with Windows® authentication. Specify a blank user name and password. The database contains the tables productTable and suppliers.

datasource = "MSSQLServerAuth";
conn = database(datasource,"","");

Check the database connection. If the Message property is empty, then the connection is successful.

conn.Message
ans =

     []

Add a column to the database table productTable. The column name contains a non-ASCII character.

sqlquery = "ALTER TABLE productTable ADD tamaño varchar(30)"; 
execute(conn,sqlquery)

Join two database tables, productTable and suppliers. The productTable table is the left table of the join, and the suppliers table is the right table of the join. The sqlouterjoin function automatically detects the shared column between the tables. Specify the number of rows to return using the 'MaxRows' name-value pair argument.

lefttable = 'productTable'; 
righttable = 'suppliers'; 
data = sqlouterjoin(conn,lefttable,righttable,'MaxRows',3) 
data=3×11 table
    productNumber    stockNumber    supplierNumber    unitCost    productDescription      tama_o      SupplierNumber             SupplierName                  City              Country             FaxNumber    
    _____________    ___________    ______________    ________    __________________    __________    ______________    _______________________________    _____________    _________________    _________________

          7          3.8912e+05          1007            16       {'Engine Kit'    }    {0×0 char}         1007         {'Garvin's Electrical  Gizmos'}    {'Wellesley'}    {'United States'}    {'617 919 3456' }
          8          2.1257e+05          1001             5       {'Train Set'     }    {0×0 char}         1001         {'Wonder Products'            }    {'New York' }    {'United States'}    {'212 435 1617' }
          9          1.2597e+05          1003            13       {'Victorian Doll'}    {0×0 char}         1003         {'Wacky Widgets'              }    {'Adelaide' }    {'Australia'    }    {'618 8490 2211'}

data is a table that contains three of the matched rows from the two tables. The sqlouterjoin function converts the name of the new variable into ASCII characters.

Preserve the name of the variable that contains the non-ASCII character by specifying the VariableNamingRule name-value pair argument. Import the data again.

data = sqlouterjoin(conn,lefttable,righttable,'MaxRows',3, ...
    'VariableNamingRule',"preserve") 
data=3×11 table
    productNumber    stockNumber    supplierNumber    unitCost    productDescription      tamaño      SupplierNumber             SupplierName                  City              Country             FaxNumber    
    _____________    ___________    ______________    ________    __________________    __________    ______________    _______________________________    _____________    _________________    _________________

          7          3.8912e+05          1007            16       {'Engine Kit'    }    {0×0 char}         1007         {'Garvin's Electrical  Gizmos'}    {'Wellesley'}    {'United States'}    {'617 919 3456' }
          8          2.1257e+05          1001             5       {'Train Set'     }    {0×0 char}         1001         {'Wonder Products'            }    {'New York' }    {'United States'}    {'212 435 1617' }
          9          1.2597e+05          1003            13       {'Victorian Doll'}    {0×0 char}         1003         {'Wacky Widgets'              }    {'Adelaide' }    {'Australia'    }    {'618 8490 2211'}

The sqlouterjoin function preserves the non-ASCII character in the variable name.

Close the database connection.

close(conn)

Use an ODBC connection to import product data from an outer join between two Microsoft® SQL Server® database tables into MATLAB®. Specify the row filter condition to use for joining the tables.

Create an ODBC database connection to a Microsoft SQL Server database with Windows® authentication. Specify a blank username and password. The database contains the tables productTable and suppliers.

datasource = 'MS SQL Server Auth';
conn = database(datasource,'','');

Check the database connection. If the Message property is empty, then the connection is successful.

conn.Message
ans =

     []

Join the two database tables, productTable and suppliers. The productTable table is the left table of the join, and the suppliers table is the right table of the join. The sqlouterjoin function automatically detects the shared column between the tables. The table data contains the matched and unmatched rows from the two tables..

lefttable = "productTable";
righttable = "suppliers";
data = sqlouterjoin(conn,lefttable,righttable);

Display the first five rows of matched data. The columns from the right table appear to the right of the columns from the left table.

head(data,5)
    productNumber    stockNumber    supplierNumber    unitCost    productDescription     SupplierNumber           SupplierName                City             Country             FaxNumber    
    _____________    ___________    ______________    ________    ___________________    ______________    ___________________________    ____________    __________________    ________________

          1          4.0034e+05          1001            14       {'Building Blocks'}         1001         {'Wonder Products'        }    {'New York'}    {'United States' }    {'212 435 1617'}
          2          4.0031e+05          1002             9       {'Painting Set'   }         1002         {'Terrific Toys'          }    {'London'  }    {'United Kingdom'}    {'44 456 9345' }
          3            4.01e+05          1009            17       {'Slinky'         }         1009         {'Doll's Galore'          }    {'London'  }    {'United Kingdom'}    {'44 222 2397' }
          4          4.0034e+05          1008            21       {'Space Cruiser'  }         1008         {'The Great Train Company'}    {'Nashua'  }    {'United States' }    {'403 121 3478'}
          5          4.0046e+05          1005             3       {'Tin Soldier'    }         1005         {'Custers Tin Soldiers'   }    {'Boston'  }    {'United States' }    {'617 939 1234'}

Join the same tables, but this time use a row filter. The filter condition is that unitCost must be less than 15. Again, display the first five rows of matched data.

rf = rowfilter("unitCost");
rf = rf.unitCost < 15;
data = sqlouterjoin(conn,lefttable,righttable,"RowFilter",rf);
head(data,5)
    productNumber    stockNumber    supplierNumber    unitCost    productDescription     SupplierNumber          SupplierName              City             Country             FaxNumber    
    _____________    ___________    ______________    ________    ___________________    ______________    ________________________    ____________    __________________    ________________

          1          4.0034e+05          1001            14       {'Building Blocks'}         1001         {'Wonder Products'     }    {'New York'}    {'United States' }    {'212 435 1617'}
          2          4.0031e+05          1002             9       {'Painting Set'   }         1002         {'Terrific Toys'       }    {'London'  }    {'United Kingdom'}    {'44 456 9345' }
          5          4.0046e+05          1005             3       {'Tin Soldier'    }         1005         {'Custers Tin Soldiers'}    {'Boston'  }    {'United States' }    {'617 939 1234'}
          6          4.0088e+05          1004             8       {'Sail Boat'      }         1004         {'Incredible Machines' }    {'Dublin'  }    {'Ireland'       }    {'01 222 3456' }
          8          2.1257e+05          1001             5       {'Train Set'      }         1001         {'Wonder Products'     }    {'New York'}    {'United States' }    {'212 435 1617'}

Input Arguments

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Database connection, specified as an ODBC connection object or JDBC connection object created using the database function.

Left table, specified as a character vector or string scalar. Specify the name of the database table on the left side of the join.

Example: 'inventoryTable'

Data Types: char | string

Right table, specified as a character vector or string scalar. Specify the name of the database table on the right side of the join.

Example: 'productTable'

Data Types: char | string

Name-Value Arguments

Specify optional pairs of arguments as Name1=Value1,...,NameN=ValueN, where Name is the argument name and Value is the corresponding value. Name-value arguments must appear after other arguments, but the order of the pairs does not matter.

Before R2021a, use commas to separate each name and value, and enclose Name in quotes.

Example: data = sqlouterjoin(conn,lefttable,righttable,'Type','left','MaxRows',5) performs an outer left join between left and right tables and returns five rows of the joined data.

Left catalog, specified as the comma-separated pair consisting of 'LeftCatalog' and a character vector or string scalar. Specify the database catalog name where the left table of the join is stored.

Example: 'LeftCatalog','toy_store'

Data Types: char | string

Right catalog, specified as the comma-separated pair consisting of 'RightCatalog' and a character vector or string scalar. Specify the database catalog name where the right table of the join is stored.

Example: 'RightCatalog','toy_store'

Data Types: char | string

Left schema, specified as the comma-separated pair consisting of 'LeftSchema' and a character vector or string scalar. Specify the database schema name where the left table of the join is stored.

Example: 'LeftSchema','dbo'

Data Types: char | string

Right schema, specified as the comma-separated pair consisting of 'RightSchema' and a character vector or string scalar. Specify the database schema name where the right table of the join is stored.

Example: 'RightSchema','dbo'

Data Types: char | string

Keys, specified as the comma-separated pair consisting of 'Keys' and a character vector, string scalar, cell array of character vectors, or string array. Specify a character vector or string scalar to indicate one key. For multiple keys, specify a cell array of character vectors or a string array. Use this name-value pair argument to identify the shared keys (columns) between the two tables to join.

You cannot use this name-value pair argument with the 'LeftKeys' and 'RightKeys' name-value pair arguments.

Example: 'Keys','MANAGER_ID'

Data Types: char | string | cell

Left keys, specified as the comma-separated pair consisting of 'LeftKeys' and a character vector, string scalar, cell array of character vectors, or string array. Specify a character vector or string scalar to indicate one key. For multiple keys, specify a cell array of character vectors or a string array. This name-value pair argument identifies the keys in the left table for the join to the right table.

Use this name-value pair argument with the 'RightKeys' name-value pair argument. Both arguments must specify the same number of keys. The sqlouterjoin function pairs the values of the keys based on their order.

Example: 'LeftKeys',["productNumber" "Price"],'RightKeys',["productNumber" "Price"]

Data Types: char | string | cell

Right keys, specified as the comma-separated pair consisting of 'RightKeys' and a character vector, string scalar, cell array of character vectors, or string array. Specify a character vector or string scalar to indicate one key. For multiple keys, specify a cell array of character vectors or a string array. This name-value pair argument identifies the keys in the right table for the join to the left table.

Use this name-value pair argument with the 'LeftKeys' name-value pair argument. Both arguments must specify the same number of keys. The sqlouterjoin function pairs the values of the keys based on their order.

Example: 'LeftKeys',["productIdentifier" "Cost"],'RightKeys',["productNumber" "Price"]

Data Types: char | string | cell

Maximum number of rows to return, specified as the comma-separated pair consisting of 'MaxRows' and a positive numeric scalar. By default, the sqlouterjoin function returns all rows from the executed SQL query. Use this name-value pair argument to limit the number of rows imported into MATLAB®.

Example: 'MaxRows',10

Data Types: double

Outer join type, specified as the comma-separated pair consisting of 'Type' and one of these values:

  • 'full' — A full join retrieves records that have matching values in the selected column of both tables, and unmatched records from both the left and right tables.

  • 'left' — A left join retrieves records that have matching values in the selected column of both tables, and unmatched records from the left table only.

  • 'right' — A right join retrieves records that have matching values in the selected column of both tables, and unmatched records from the right table only.

You can specify these values as a character vector or string scalar.

Not all databases support all join types. For an unsupported database, you must use the sqlread function to import data from both tables into MATLAB. Then, use the outerjoin function to join tables in the MATLAB workspace.

Example: 'Type','left'

Variable naming rule, specified as the comma-separated pair consisting of 'VariableNamingRule' and one of these values:

  • "modify" — Remove non-ASCII characters from variable names when the sqlouterjoin function imports data.

  • "preserve" — Preserve most variable names when the sqlouterjoin function imports data. For details, see the Limitations section.

Example: 'VariableNamingRule',"modify"

Data Types: string

Row filter condition, specified as a matlab.io.RowFilter object.

Example: rf = rowfilter("productnumber"); rf = rf.productnumber <= 5; sqlouterjoin(conn,lefttable,righttable,"RowFilter",rf)

Output Arguments

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Joined data, returned as a table that contains rows matched by keys in the left and right database tables and the retained unmatched rows. data also contains a variable for each column in the left and right tables.

By default, the variable data types are double for columns that have numeric data types in the database table. For any text, date, time, or timestamp data types in the database table, the variable data type is a cell array of character vectors by default.

If the column names are shared between the joined database tables and have the same case, then the outerjoin function adds a unique suffix to the corresponding variable names in data.

The variables in data that correspond to columns in the left table contain NULL values when no matched rows exist in the right database table. Similarly, the variables that correspond to columns in the right table contain NULL values when no matched rows exist in the left database table.

Limitations

The name-value argument VariableNamingRule has these limitations:

  • The sqlouterjoin function returns an error if you specify the VariableNamingRule name-value argument with the SQLImportOptions object opts.

  • When the VariableNamingRule name-value argument is set to the value "modify":

    • The variable names Properties, RowNames, and VariableNames are reserved identifiers for the table data type.

    • The length of each variable name must be less than the number returned by namelengthmax.

Version History

Introduced in R2018a

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