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Use real SQL SELECT syntax to filter your Google Sheets data using a simple custom function.

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About

gsSQL is a high-quality custom function for Google Sheets that aims to provide standard SQL SELECT syntax to quickly filter and summarize data, using any sheet or range as an SQL table.

Easy to learn and understand: the SQL query consists mainly of English statements, making it easy to write - rather than the cryptic syntax of the Google Sheet QUERY function.



Example Use

Left Join Example

Multiple Left Joins - try doing this using QUERY using built in Sheets functions! See my test worksheet on gsSqlTest tab. (https://docs.google.com/spreadsheets/d/1Zmyk7a7u0xvICrxen-c0CdpssrLTkHwYx6XL00Tb1ws/edit?usp=sharing))



gsSQL GIF Demo

gsSQL Demo of SELECT statement using JOIN and calculated fields.



Why use gsSQL

  • It's easier and less work than using QUERY.
  • It is less cryptic when attempting simple things like JOIN and SELECT IN.

Example Data

  • See table data that was used below.
  • Each table is in its own sheet, where the sheet name is the table name.
  • Example Data Used


Inner Join

gsSQL QUERY
=gsSQL("SELECT books.id, books.title, authors.first_name, authors.last_name FROM books INNER JOIN authors ON books.author_id = authors.id ORDER BY books.id") No easy solution just using QUERY. Not sure how to make it work 100%. Book '9' should not be included.
=ArrayFormula({Books!A1:B10,vlookup(Books!D1:D10, {Authors!A1:A6, Authors!B1:C6}, {2,3}, false)})                                              

gsSQL Results

books.id books.title authors.first_name authors.last_name
1 Time to Grow Up! Ellen Writer
2 Your Trip Yao Dou
3 Lovely Love Donald Brain
4 Dream Your Life Ellen Writer
5 Oranges Olga Savelieva
6 Your Happy Life Yao Dou
7 Applied AI Jack Smart
8 My Last Book Ellen Writer

QUERY Results

id title #N/A #N/A
1 Time to Grow Up! Ellen Writer
2 Your Trip Yao Dou
3 Lovely Love Donald Brain
4 Dream Your Life Ellen Writer
5 Oranges Olga Savelieva
6 Your Happy Life Yao Dou
7 Applied AI Jack Smart
9 Book with Mysterious Author #N/A #N/A
8 My Last Book Ellen Writer


Multiple Inner Joins

gsSQL QUERY
=gsSQL("SELECT books.id, books.title, books.type, authors.last_name, translators.last_name FROM books INNER JOIN authors ON books.author_id = authors.id INNER JOIN translators ON books.translator_id = translators.id ORDER BY books.id") No easy solution just using QUERY                                                                                                                                                          

Results

books.id books.title books.type authors.last_name translators.last_name
2 Your Trip translated Dou Weng
5 Oranges translated Savelieva Davies
6 Your Happy Life translated Dou Green
7 Applied AI translated Smart Edwards

Multiple Right Joins

gsSQL QUERY
=gsSQL("SELECT books.id, books.title, books.translator_id, editors.last_name, editors.id, translators.last_name FROM books RIGHT JOIN editors ON books.editor_id = editors.id RIGHT JOIN translators ON books.translator_id = translators.id ORDER BY books.id") ={query(Books!A1:F10,"Select A,B,F where E matches '"&TEXTJOIN("|",true,Editors!A1:A11)&"' AND F matches '"&TEXTJOIN("|",true,Translators!A1:A5)&"' order by A", 1), {"Editors.Last_Name"; ARRAYFORMULA( VLOOKUP(query(Books!A2:F10,"Select E where E matches '"&TEXTJOIN("|",true,Editors!A2:A11)&"' AND F matches '"&TEXTJOIN("|",true,Translators!A2:A5)&"' order by A", -1), Editors!A2:C11, 3))}, {"Editors.ID"; ARRAYFORMULA( VLOOKUP(query(Books!A2:F10,"Select E where E matches '"&TEXTJOIN("|",true,Editors!A2:A11)&"' AND F matches '"&TEXTJOIN("|",true,Translators!A2:A5)&"' order by A", -1), Editors!A2:C11, 1))}, {"Translators.Last_Name"; ARRAYFORMULA( VLOOKUP(query(Books!A2:F10,"Select F where E matches '"&TEXTJOIN("|",true,Editors!A2:A11)&"' AND F matches '"&TEXTJOIN("|",true,Translators!A2:A5)&"' order by A", -1), Translators!A2:C11, 3))} }

gsSQL Results

books.id books.title books.translator_id editors.last_name editors.id translators.last_name
2 Your Trip 32 Johnson 22 Weng
5 Oranges 31 Wright 25 Davies
6 Your Happy Life 33 Johnson 22 Green
7 Applied AI 34 Evans 23 Edwards
9 Book with Mysterious Author 34 Evans 23 Edwards

QUERY Results

id title translator id Editors.Last_Name Editors.ID Translators.Last_Name
2 Your Trip 32 Johnson 22 Weng
5 Oranges 31 Wright 25 Davies
6 Your Happy Life 33 Johnson 22 Green
7 Applied AI 34 Evans 23 Edwards
9 Book with Mysterious Author 34 Evans 23 Edwards


Full Join

gsSQL QUERY
=gsSQL("SELECT authors.id, authors.last_name, editors.id, editors.last_name FROM authors FULL JOIN editors ON authors.id = editors.id") Life is too short finding a replacement QUERY.                                                                                                                                                              

Results

authors.id authors.last_name editors.id editors.last_name
11 Writer
12 Savelieva
13 Smart 13 Smart
14 Brain
15 Dou
21 Brown
22 Johnson
23 Evans
24 Roberts
25 Wright
26 Jones
27 Smith
50 Dumb
51 Smart

Select Where IN Select

gsSQL QUERY
=gsSQL("SELECT books.id, books.title, books.author_id FROM books WHERE books.author_id IN (SELECT id from authors)ORDER BY books.title") =QUERY(Books!A1:F10,"Select A,B,D where D matches '"&TEXTJOIN("|",true,Authors!A1:A6)&"' order by B", 1)
books.id books.title books.author_id
7 Applied AI 13
4 Dream Your Life 11
3 Lovely Love 14
8 My Last Book 11
5 Oranges 12
1 Time to Grow Up! 11
6 Your Happy Life 15
2 Your Trip 15

Select Like

gsSQL QUERY
=gsSQL("SELECT id, title, author_id FROM books WHERE author_id IN (select id from authors where first_name like '%ald') ORDER BY title") =QUERY(Books!A1:F10,"Select A,B,D where D matches '"&TEXTJOIN("|",true, query(Authors!A1:C5,"Select A where B contains 'ald'"))&"' order by B", 1))
id title author_id
3 Lovely Love 14

Example Summary

  • We could go on with more examples, but in general, using gsSQL is easier.
  • You can see that most standard SELECT syntax is supported.

Usage

=gsSQL( SelectSqlStatement, [TableDefinitions], [ColumnOutputFlag], [BindVariableData])

  1. SelectSqlStatement. (Required)

    • Only the SELECT statement is supported.
    • Most all common usage is supported (see below).
    • The first row of the table MUST contain unique column titles (for field names).
      • To reference a field where the title contains spaces, just use the underscore in place of the space.
        • e.g. Title = "Transaction Date", SELECT="SELECT transaction_date from master_transactions"
    • If parameter 2 is to be omitted, the table must be a sheet name. If the sheet name contains spaces, you must use the underscore in place of the space in the table name within the select.
      • e.g. Sheet name is "Master Transactions".
        select * from master_transactions where account = 'bank'
    • Bind variables use the question mark as a placeholder. There must be matching question marks to bind variable data - which is specified starting in parameter 4.
    • Each bind placeholder must reference a specific bind data point by its position in the bind data list. For example:
      • ?1 - references first bind data in list.
      • ?2 - references second bind data in list, and so on.
      • e.g. gsSQL("select * from transactions where transaction_date >= ?1 and transaction_date <= ?2",, true, '05/01/2023', '05/30/2023')
    • The PIVOT command is also supported. The 'PIVOT field' if used is the last part of the statement. It must be used in conjunction with 'group by'.
      • e.g. select transaction_date, sum(gross), sum(amount) from mastertransactions where transaction_date >= '01/01/2022' and transaction_date <= '05/19/2022' and expense_category in (select income from budgetCategories where income <> '') group by transaction_date pivot account
  2. TableDefinitions (Optional)

    • Defines each table referenced in SELECT statement.
    • If not specified, the SELECT statement is parsed to determine the sheet(s) to use for the table data.
      • The TABLE name in the SELECT will read from the Google Sheet TAB name with the same name.
      • Excluding table definitions means that the custom function will not automatically re-run if the table data changes.
    • If a table does not encompass an entire sheet or you need to specify a range for the data, a table definition is required.
    • The Table Definition syntax supports two different ways to define a table. If used, you cannot mix the definition syntaxes.
      • Original syntax.
        • Disadvantage of this syntax:
          • This syntax will NOT cause the custom function to re-run if table data changes.
          • You will need to force a refresh if your table data has changed.
            • Forcing a refresh.
              • Add a checkbox anywhere on your sheet.
              • Give this checkbox a named range. (Data ==> Named Ranges)
              • Add the named range of the checkbox as the VERY LAST parameter in gsSQL(). gsSQL() will ignore it, but sheets reacts to data changes.
              • When you want to update your data, just click on the checkbox. Changing from TRUE -> FALSE or FALSE -> TRUE, will trigger ALL custom functions that have this named checkbox in the parameter list.
        • Advantage of this syntax:
          • Extremely large tables can be loaded within the function.
          • Data from tables is loaded WITHIN the custom function and is not passed in through the function parameter.
        • The table definition is an Array of arrays. Each inner array defines ONE table.
          • a) Table name - this is the table name referenced in the select. This is a logical table name which will be associated with the data range. It does not have to be the sheet name (string).
          • b) Range of data - the google range that contains the data with the first row containing titles (used as field names). This is any valid Google Sheet range name (i.e. Sheet Name, A1 notation or named range), but it must be passed in as a STRING (string)
          • c) Cache seconds - (integer) number of seconds that data loaded from range is held in cache memory before another select of the same range would load again. (default=60)
          • d) Has Column Title - (boolean) set to false if no column title in first row of data. Columns are then referenced as column letter. The first column of DATA is column A. (default=true)
        • Use the CURLY bracket notations to create the double array of table definitions. If two separate tables are used within your SELECT, the table specifications would be entered as follows.
          • {{a, b, c}; {a, b, c}}
          • e.g. gsSQL("select transaction_date, sum(gross), sum(amount) from mastertransactions where transaction_date >= '01/01/2022' and transaction_date <= '05/19/2022' and expense_category in (select income from budgetCategories where income <> '') group by transaction_date pivot account", {{"mastertransactions", "Master Transactions!$A$1:$I", 60};{"budgetCategories","budgetIncomeCategories", 3600}}, true)
      • New syntax.. Recommended format.
        • Disadvantage of this syntax:
          • Extremely large tables will fail to load. Google has a limit on the size of arrays passed into custom functions.
          • If you have a very large table with many columns and many of the columns are not needed within the SELECT, you can limit the total amount of data read by just selecting the columns you need when defining the table range, for example:
          =gsSQL("select * from booksales", "BookSales", {BookSales!A1:A, BookSales!C1:C, BookSales!E1:E})
          
        • Advantage of this syntax:
          • This syntax WILL automatically trigger the custom function to re-run if table data changes (which keeps results up to date).
        • Unique Column titles are REQUIRED in the data.
          • The first row of data in the Sheets Range MUST contain titles that will be used as the field name.
        • Each table requires two entries. This is repeated for each table referenced in the SQL.
          • a) Table name - this is the table name referenced in the select. This is a logical table name which will be associated with the data range. It does not have to be the sheet name (string).
          • b) Range of data - the google range that contains the data with the first row containing titles (used as field names). This is any valid Google Sheet range name (i.e. Sheet Name, A1 notation or named range).
          • e.g. gsSQL("select transaction_date, sum(gross), sum(amount) from mastertransactions where transaction_date >= '01/01/2022' and transaction_date <= '05/19/2022' and expense_category in (select income from budgetCategories where income <> '') group by transaction_date pivot account", "mastertransactions", 'Master Transactions'!$A$1:$I, "budgetCategories",budgetIncomeCategories, true)
  3. ColumnOutputFlag (Optional)

    • Include column title in output or not. (true adds column titles, false omits the title row).
      • This example will include the title row on output.

Title SELECTED

  1. BindVariableData. (Optional)
    • There should be one data item listed PER question mark in the SELECT statement. Data for the variables can be literal data, cell references (A1 notation), and named fields.
    • Using the data from the GIF above, here is an example a date input and appropriate data selected.
    • The dates are stored in named ranges startDate and endDate.

Bind Variables


Usage Bonus (for all you GAS lovers)

  1. The Google QUERY is only available as a sheet function and it is not available for use for your javascript functions.

  2. The Sql.gs (Sql.js) contains the Sql() class. This is what the gsSQL() custom function uses to implement the data selects.

    • Commands can be chained.

    • Sql() Methods

      • addTableData(table, data, cacheSeconds, hasColumnTitle)
        • table name referenced in SQL statement.
        • data either a double array with column title in first row OR a string indicating a sheet range (named range or A1 notation).
        • cacheSeconds number of seconds that loaded table data will be available from the cache after the initial loading. default=0.
        • hasColumnTitle first row of data is a column title (true). If not available (false), columns are referenced by letter, where the first column is A
      • enableColumnTitle(true)
        • true or false. Output a column title (default is none or false)
      • addBindParameter(value)
        • For every question mark (no quotes) in your SELECT statement, there needs to be a matching bind variable data. Call this method as for as many question marks in the select are used - in the order that they are found.
        • Do not use for named range data, in that case use the method addBindNamedRangeParameter
      • addBindNamedRangeParameter(nameRange)
        • For a bind variable that references a SINGLE cell named range. Input is a STRING.
      • execute(stmt)
        • stmt: SQL SELECT statement to run.
          Returns a double array of data (first row is column title - if enabled).
  3. Example usage:

let stmt = "select date, sum(quantity) from bookReturns where date >= ?1 and date <= ?2 group by date pivot customer_id";

let data = new Sql()
            .addTableData("bookReturns", this.bookReturnsTable())
            .enableColumnTitle(true)
            .addBindParameter("05/01/2022")
            .addBindParameter("05/04/2022")
            .execute(stmt);
  1. Documentation for using:
  1. Select2Object Class
    • The Sql() class returns selected data as a double array. The Select2Object() class returns the same data, but in the form of an array of objects.

    • Each column is referenced as a property value rather than data in a column. Using Sql() object, the column number of expected data would be the offset of select column in the SQL statement. If the column position changed, your javascript code would require updating.

    • Using Select2Object().

      • Executes a SELECT statement on sheet data.
      • Returned data will be any array of objects, where each item is one row of data.
      • The property values in the object are the column names.
        • The column names will be in lower case.
        • If more than one table is referenced, the column name will be: "table.column", otherwise it will just be the column name.
        • Spaces in the column name use the underscore, so something like "Transaction Date" would be referenced as "transaction_date".
    • When defining each table (addTableData()), you set the name and the data source. This source can be

      • a double array of data (with column titles)
      • a sheet name
      • a named range
      • an A1 notation range.
    • Example:

        let stmt = "select * from authors";

        let data = new Select2Object()
            .addTableData("authors", this.authorsTable())
            .execute(stmt);

Installing

  1. Copy files manually.

    • In the ./dist folder there is ONE required file:
      • gssql.js
      • If you never plan to run the test suite, just use this ONE file in your app script.
      • None of the files in ./src are required if you use gssql.js
    • OR in the ./src folder there are SEVEN required files:
      • JoinTables.js
      • SimpleParser.js
      • Sql.js
      • Table.js
      • TableData.js
      • Views.js
      • ScriptSettings.js
    • And the optional file
      • SqlTest.js
    • The simple approach is to copy and paste each file.
      • From your sheets Select Extensions and then Apps Script
      • Ensure that Editor is selected. It is the < >
      • Click the PLUS sign beside File and then select Script
      • Find each file in turn in the src OR dist folder in the Github repository.
      • Click on a file, and then click on Copy Raw Contents which puts the file into your copy buffer.
      • Back in your Google Project, rename Untitled to the file name you just selected in Github. It is not necessary to enter the .gs extension.
      • Remove the default contents of the file myFunction() and paste in the new content you have copied from Github (Ctrl-v).
      • Click the little diskette icon to save.
      • Continue with all five files until done.
      • Change to your spreadsheet screen and try typing in any cell
        • =gsSQL(). The new function with online help should be available.
  2. clasp push

    • Install the gsSQL source files locally.
      • Use npm install @demmings/gssql to install to node_modules folder.
        • I have included a sanity check after you have installed to your node_modules folder. Look for "@demmings/gssql" folder and run npm test
        • To find where your node_modules folder is just type npm root
        • Please note that gsSQL is not really a node package since Google Sheets does not recognize this. The use of npm to install is just a simple way to get the javascript to your local machine.
      • Clone the project from github repository to a local local.
        • In your existing local Google Sheet project, create a folder called SQL below your existing javascript source folder.
        • clasp push all your source files to Google.
  3. Library

    • Add the library to your project.
    • For detailed install notes see: https://demmings.github.io/gssql/2024/02/15/gsSQL-Library.html
    • The Library Script ID:
      • 1ZfedAgGG2K5kPLC2NPfe0Kb1xAg-0gvmliR3V8pRNk6DZMTUQyCbMW1W
    • After adding the library, you have access to gsSQL() function in your Google Apps Script javascript code like:
gsSqlLibrary.gsSQL("select * from authorts");
  • To add the ability to use as a custom function within your sheets, you need to add the following code:
/**
 * @param {String} sqlStatement - e.g. "select * from authors"
 * @param {...any} parms - Optional ["tableName", range, "tableName2", range2,...][addTitle][bindVariables]
 * @returns {any[][]}
 * @customfunction
 */
    function gsSQL(sqlStatement, ...parms) {
        return gsSqlLibrary.gsSQL(sqlStatement, ...parms);
    }
  • After saving this to any apps script code file, you will have the ability to perform SQL SELECT statements on your sheet by typing into any cell code like this example:
=gsSQL("select * from authors", "authors", authors!A1:C, true)

Supported SELECT syntax.

  • All supported major keywords.
    • 'SELECT',
    • 'FROM',
    • 'JOIN',
    • 'LEFT JOIN',
    • 'RIGHT JOIN',
    • 'INNER JOIN',
    • 'FULL JOIN',
    • 'ORDER BY',
    • 'GROUP BY',
    • 'HAVING',
    • 'WHERE',
    • 'LIMIT',
    • 'UNION ALL',
    • 'UNION',
    • 'INTERSECT',
    • 'EXCEPT',
    • 'PIVOT'
  • Supported JOINS
    • 'FULL JOIN'
    • 'RIGHT JOIN'
    • 'INNER JOIN'
    • 'LEFT JOIN'
  • Supported SET commands.
    • 'UNION',
    • 'UNION ALL',
    • 'INTERSECT',
    • 'EXCEPT'
  • Aggregate Functions (group by)
    • "SUM",
    • "MIN",
    • "MAX",
    • "COUNT",
    • "AVG",
    • "DISTINCT"
  • SQL Server Functions (syntax reference https://dev.mysql.com/doc/refman/8.0/en/built-in-function-reference.html)
    • "ABS",
    • "ADDDATE",       (ADDDATE(date, days))
    • "CASE",
    • "CEILING",
    • "CHARINDEX",
    • "COALESCE",
    • "CONCAT"
    • "CONCAT_WS",
    • "CURDATE",
    • "DATEDIFF"
    • "DAY",
    • "FLOOR",
    • "IF",
    • "INSTR",
    • "LAST_DAY",
    • "LEFT",
    • "LEN",
    • "LENGTH",
    • "LOCATE",
    • "LOG",
    • "LOG10",
    • "LOWER",
    • "LTRIM",
    • "MONTH",
    • "NOW",
    • "POWER",
    • "RAND",
    • "REPLICATE",
    • "REVERSE",
    • "RIGHT",
    • "ROUND",
    • "RTRIM",
    • "SPACE",
    • "STUFF",
    • "SUBSTRING",
    • "SQRT",
    • "TRIM",
    • "UPPER",
    • "YEAR"
  • Logical Operators.
    • '='
    • '>'
    • '<'
    • '>='
    • '<>'
    • '!='
    • 'EXISTS'
    • 'NOT EXISTS'
    • 'LIKE'
    • 'NOT LIKE'
    • 'IN'
    • 'NOT IN'
    • 'IS NOT'
    • 'IS'
    • 'BETWEEN'
    • 'NOT BETWEEN'

NOTES

  1. First ROW of data MUST be the column name.
  2. If the column includes spaces, the SELECT statement must replace the spaces with an underscore. e.g.: "First Name" is the column and the select would be "select first_name from myTable"
  3. Column names do not support the period ".", so you must remove periods before trying the select.
  4. Column names must be unique (obviously).
  5. When specifying the input table definitions, you should only specify tables referenced in the SELECT as all data from every table is loaded into memory for processing.
  6. When gsSQL is used within your sheet multiple times and the same tables are also referenced multiple times, it makes sense to specify a cache seconds value. For tables that change often and up to date info is required, keep the cache either very low or zero. However, for tables that rarely change, it makes sense to cache for a longer period.
  7. The Google cache does have size and duration limits. If the table is huge, it is probably best to set the cache size to zero. Also note that the cache has a duration limit of 21600 seconds. Beyond that number of saeconds, the script properties are used to store the data - which may not be as quick as the cache and the long term cache has VERY limited capacity.
  8. Use BIND variables to simplify the SELECT statement. Each bind placeholder is substituted with the data from the bind list. The bind name starts with '?' followed immediately by the position of the bind data list. For example:
    select * from table where id = ?1 and date > ?2
    • ?1 - references first bind data
    • ?2 - references second bind data
  9. BIND variables simplify the use of date comparisons. The QUERY statement requires that you format the date in your SELECT. Any DATE BIND variables are converted automatically. Just specify the named range or A1 range in your gsSQL statement (without quotes) for each parameter and in your SELECT, just substitute with a question mark.

Known Issues:

Most all SELECT functionality is implemented, however if you want to do anything extremely fancy, it may not to work. Check out the SqlTest.js to get an idea of the kind of commands that will work.

  1. Field alias syntax is not fully supported. It is currently only used for column titles that can be returned with the select data.

  2. Moderate amount of error checking. When developing your SQL SELECT statements and something is not correct or not supported, the application may just fail without giving any real indication of the problem. This needs improvements (although it is much improved since the first version).

  3. Not really an issue, but the use of bind variables does not mean that the SELECT is compiled and reused. It is only to make your SELECT easier to read.

  4. If no column titles are available and the column is referenced by letter, the first column in the data is column A. So if the table is defined by a range, and the range does not start in column A, gsSQL() still references the first column as A. This is different from QUERY(), as the absolute column letter is always used. Also QUERY() requires references to the column to be upper case, this is not required by gsSQL(). For example:

=gsSQL("select a, B, C, D, E, F from invoice where c = 'C4'", {{"invoice", "BookSales", 0, false}}, true )

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Use real SQL SELECT syntax to filter your Google Sheets data using a simple custom function.

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