docs.sheetjs.com/docz/docs/03-demos/32-extensions/11-matlab.md

---
title: Modern Spreadsheets in MATLAB
sidebar_label: MATLAB
description: Build complex data pipelines in MATLAB M-Files. Seamlessly create MATLAB tables with SheetJS. Leverage the MATLAB toolbox ecosystem to analyze data from Excel workbooks.
pagination_prev: demos/cloud/index
pagination_next: demos/bigdata/index
sidebar_custom_props:
  summary: Convert between MATLAB tables and spreadsheets
---

import current from '/version.js';
import CodeBlock from '@theme/CodeBlock';

[MATLAB](https://www.mathworks.com/products/matlab.html) is a numeric computing
platform. It has a native `table` type with limited support for spreadsheets.

[SheetJS](https://sheetjs.com) is a JavaScript library for reading and writing
data from spreadsheets.

This demo uses SheetJS to pull data from a spreadsheet for further analysis
within MATLAB. We'll explore how to run an external tool to convert complex
spreadsheets into simple XLSX files for MATLAB.

:::note Tested Deployments

This demo was tested by SheetJS users in the following deployments:

| Architecture | Version | Date       |
|:-------------|:--------|:-----------|
| `darwin-x64` | R2024a  | 2024-06-09 |
| `win10-x64`  | R2024a  | 2024-06-09 |

:::

:::info pass

MATLAB has limited support for processing spreadsheets through `readtable`[^1]
and `writetable`[^2]. At the time of writing, it lacked support for XLSB,
NUMBERS, and other common spreadsheet formats.

SheetJS libraries help fill the gap by normalizing spreadsheets to a form that
MATLAB can understand.

:::

## Integration Details

:::note pass

MATLAB does not currently provide a way to parse a CSV string or a character
array representing file data. `readtable`, `writetable`, `csvread`, and
`csvwrite` work with the file system directly. `strread` and `textscan` are
designed specifically for reading numbers.

:::

The current recommendation involves a dedicated command-line tool that leverages
SheetJS libraries to to perform spreadsheet processing.

The [SheetJS NodeJS module](/docs/getting-started/installation/nodejs) can be
loaded in NodeJS scripts and bundled in standalone command-line tools.

### Command-Line Tools

The ["Command-Line Tools" demo](/docs/demos/cli) creates `xlsx-cli`, a
command-line tool that reads a spreadsheet file and generates output. The
examples in the "NodeJS" section are able to generate XLSX spreadsheets using
the `--xlsx` command line flag:

```bash
$ xlsx-cli --xlsx ./pres.numbers ## generates pres.numbers.xlsx
```

:::note pass

The command-line tool supports a number of formats including XLSB (`--xlsb`).

:::

The tools pair the SheetJS `readFile`[^3] and `writeFile`[^4] methods to read
data from arbitrary spreadsheet files and convert to XLSX:

```js
const XLSX = require("xlsx"); // load the SheetJS library
const wb = XLSX.readFile("input.xlsb"); // read input.xlsb
XLSX.writeFile(wb, "output.xlsx"); // export to output.xlsx
```

### MATLAB commands

The MATLAB `system` command[^5] can run command-line tools in M-files. For
example, if the `xlsx-cli` tool is placed in the workspace folder and the
test file `pres.numbers` is in the Downloads folder, the following command
generates the XLSX file `pres.numbers.xlsx` :

```matlab
% generate ~/Downloads/pres.numbers.xlsx from ~/Downloads/pres.numbers
system("./xlsx-cli --xlsx ~/Downloads/pres.numbers");
```

:::note pass

In an interactive session, the exclamation point operator `!`[^6] can be used:

```matlab
% generate ~/Downloads/pres.numbers.xlsx from ~/Downloads/pres.numbers
!./xlsx-cli --xlsx ~/Downloads/pres.numbers
```

:::

### Reading Files

Starting from an arbitrary spreadsheet, `xlsx-cli` can generate a XLSX workbook.
Once the workbook is written, the XLSX file can be parsed with `readtable`:

```matlab
% `filename` points to the file to be parsed
filename = "~/Downloads/pres.numbers";
% generate filename+".xlsx"
system("./xlsx-cli --xlsx " + filename)
% read using `readtable`
tbl = readtable(filename + ".xlsx");
```

The following diagram depicts the workbook waltz:

```mermaid
flowchart LR
  subgraph MATLAB `system` invocation
    file[(workbook\nunknown type)]
    xlsx(XLSX\nNormalized Data)
  end
  data[(table)]
  file --> |`xlsx-cli`\nSheetJS| xlsx
  xlsx --> |`readtable`\nMATLAB| data
```

### Write Files

Starting from an MATLAB table, `writetable` can generate a XLSX workbook. Once
the workbook is written, `xlsx-cli` can translate to NUMBERS or other formats:

```matlab
% tbl is the table
tbl = table({"Sheet";"JS"}, [72;62], 'VariableNames', ["Name", "Index"])
% `filename` points to the file to be written
filename = "~/Downloads/sorted.xlsx";
% write using `writetable`
writetable(tbl, filename);
% generate filename+".xlsb"
system("./xlsx-cli --xlsb " + filename);
```

The following diagram depicts the workbook waltz:

```mermaid
flowchart LR
  subgraph MATLAB `system` invocation
    file[(XLSB\nworkbook)]
    xlsx(XLSX\nNormalized Data)
  end
  data[(table)]
  data --> |`writetable`\nMATLAB| xlsx
  xlsx --> |`xlsx-cli`\nSheetJS| file
```

## Complete Demo

:::info pass

This demo was tested in macOS.  The path names will differ in other platforms.

:::

This demo processes [`pres.numbers`](https://docs.sheetjs.com/pres.numbers).
There are 3 parts to the demo:

A) "Import": SheetJS tooling will read the test file and generate a clean XLSX
file. MATLAB will read the file using `readtable`.

B) "Process": Using `sortrows`, MATLAB will reverse the table order.

C) "Export": The modified table will be exported to XLSX using `writetable`.
SheetJS tooling will convert the file to XLSB.

```mermaid
flowchart LR
  ifile[(NUMBERS)]
  ixlsx(XLSX)
  ofile[(XLSB)]
  oxlsx(XLSX)
  data[(table)]
  ifile --> |`xlsx-cli`\nSheetJS| ixlsx
  ixlsx --> |`readtable`\nMATLAB| data
  data -.-> |Data Processing| data
  data --> |`writetable`\nMATLAB| oxlsx
  oxlsx --> |`xlsx-cli`\nSheetJS| ofile

```

1) Create the standalone `xlsx-cli` binary[^7]:

<CodeBlock language="bash">{`\
cd /tmp
npm i --save https://cdn.sheetjs.com/xlsx-${current}/xlsx-${current}.tgz exit-on-epipe commander@2
curl -LO https://docs.sheetjs.com/cli/xlsx-cli.js
npx nexe -t 14.15.3 xlsx-cli.js`}
</CodeBlock>

2) Move the generated `xlsx-cli` to the MATLAB workspace folder. On macOS, this
folder is typically `~/Documents/MATLAB/`:

```bash
mkdir -p ~/Documents/MATLAB/
mv xlsx-cli ~/Documents/MATLAB/
```

3) Download https://docs.sheetjs.com/pres.numbers and save to Downloads folder:

```bash
cd ~/Downloads/
curl -LO https://docs.sheetjs.com/pres.numbers
```

4) Save the following to `SheetJSMATLAB.m` in the workspace folder:

```matlab title="SheetJSMATLAB.m"
% Import data from NUMBERS file
system("./xlsx-cli --xlsx ~/Downloads/pres.numbers");
tbl = readtable("~/Downloads/pres.numbers.xlsx");
% Process data (reverse sort)
sorted = sortrows(tbl,"Index", "descend");
% Export data to XLSB workbook
writetable(sorted,"~/Downloads/sorted.xlsx");
system("./xlsx-cli --xlsb ~/Downloads/sorted.xlsx");
```

5) In a MATLAB desktop session, run the `SheetJSMATLAB` command:

```matlab
>> SheetJSMATLAB
```

It will create the file `sorted.xlsx.xlsb` in the `~/Downloads` folder. Open the
file and confirm that the table is sorted by Index in descending order:

```
Name           Index
Joseph Biden      46
Donald Trump      45
Barack Obama      44
GeorgeW Bush      43
Bill Clinton      42
```

:::tip pass

If the `matlab` command is available on the system `PATH`, the "headless"
version of the command is:

```bash
cd ~/Documents/MATLAB
matlab -batch SheetJSMATLAB
```

:::

[^1]: See [`readtable`](https://www.mathworks.com/help/matlab/ref/readtable.html) in the MATLAB documentation.
[^2]: See [`writetable`](https://www.mathworks.com/help/matlab/ref/writetable.html) in the MATLAB documentation.
[^3]: See [`readFile` in "Reading Files"](/docs/api/parse-options)
[^4]: See [`writeFile` in "Writing Files"](/docs/api/write-options)
[^5]: See [`system`](https://www.mathworks.com/help/matlab/ref/system.html) in the MATLAB documentation.
[^6]: See ["MATLAB Operators and Special Characters](https://www.mathworks.com/help/matlab/matlab_prog/matlab-operators-and-special-characters.html) in the MATLAB documentation.
[^7]: See ["Command-line Tools"](/docs/demos/cli) for more details.
math 2023-09-14 08:19:13 +00:00			`---`
			`title: Modern Spreadsheets in MATLAB`
			`sidebar_label: MATLAB`
			`description: Build complex data pipelines in MATLAB M-Files. Seamlessly create MATLAB tables with SheetJS. Leverage the MATLAB toolbox ecosystem to analyze data from Excel workbooks.`
			`pagination_prev: demos/cloud/index`
			`pagination_next: demos/bigdata/index`
MariaDB and FerretDB 2024-05-04 16:15:00 +00:00			`sidebar_custom_props:`
			`summary: Convert between MATLAB tables and spreadsheets`
math 2023-09-14 08:19:13 +00:00			`---`

			`import current from '/version.js';`
			`import CodeBlock from '@theme/CodeBlock';`

			`[MATLAB](https://www.mathworks.com/products/matlab.html) is a numeric computing`
			platform. It has a native `table` type with limited support for spreadsheets.

			`[SheetJS](https://sheetjs.com) is a JavaScript library for reading and writing`
			`data from spreadsheets.`

			`This demo uses SheetJS to pull data from a spreadsheet for further analysis`
			`within MATLAB. We'll explore how to run an external tool to convert complex`
			`spreadsheets into simple XLSX files for MATLAB.`

dojo 2023-11-28 07:05:59 +00:00			`:::note Tested Deployments`
math 2023-09-14 08:19:13 +00:00
Flutter Mobile demo refresh 2024-06-09 21:48:23 +00:00			`This demo was tested by SheetJS users in the following deployments:`

			`\| Architecture \| Version \| Date \|`
			`\|:-------------\|:--------\|:-----------\|`
			\| `darwin-x64` \| R2024a \| 2024-06-09 \|
			\| `win10-x64` \| R2024a \| 2024-06-09 \|
math 2023-09-14 08:19:13 +00:00
			`:::`

			`:::info pass`

			MATLAB has limited support for processing spreadsheets through `readtable`[^1]
			and `writetable`[^2]. At the time of writing, it lacked support for XLSB,
			`NUMBERS, and other common spreadsheet formats.`

			`SheetJS libraries help fill the gap by normalizing spreadsheets to a form that`
			`MATLAB can understand.`

			`:::`

			`## Integration Details`

			`:::note pass`

			`MATLAB does not currently provide a way to parse a CSV string or a character`
			array representing file data. `readtable`, `writetable`, `csvread`, and
			`csvwrite` work with the file system directly. `strread` and `textscan` are
			`designed specifically for reading numbers.`

			`:::`

			`The current recommendation involves a dedicated command-line tool that leverages`
			`SheetJS libraries to to perform spreadsheet processing.`

			`The [SheetJS NodeJS module](/docs/getting-started/installation/nodejs) can be`
			`loaded in NodeJS scripts and bundled in standalone command-line tools.`

			`### Command-Line Tools`

node-sea 2024-03-18 08:24:41 +00:00			The ["Command-Line Tools" demo](/docs/demos/cli) creates `xlsx-cli`, a
math 2023-09-14 08:19:13 +00:00			`command-line tool that reads a spreadsheet file and generates output. The`
			`examples in the "NodeJS" section are able to generate XLSX spreadsheets using`
			the `--xlsx` command line flag:

			```bash
			`$ xlsx-cli --xlsx ./pres.numbers ## generates pres.numbers.xlsx`
			```

			`:::note pass`

			The command-line tool supports a number of formats including XLSB (`--xlsb`).

			`:::`

			The tools pair the SheetJS `readFile`[^3] and `writeFile`[^4] methods to read
			`data from arbitrary spreadsheet files and convert to XLSX:`

			```js
			`const XLSX = require("xlsx"); // load the SheetJS library`
			`const wb = XLSX.readFile("input.xlsb"); // read input.xlsb`
			`XLSX.writeFile(wb, "output.xlsx"); // export to output.xlsx`
			```

			`### MATLAB commands`

			The MATLAB `system` command[^5] can run command-line tools in M-files. For
			example, if the `xlsx-cli` tool is placed in the workspace folder and the
			test file `pres.numbers` is in the Downloads folder, the following command
			generates the XLSX file `pres.numbers.xlsx` :

			```matlab
			`% generate ~/Downloads/pres.numbers.xlsx from ~/Downloads/pres.numbers`
			`system("./xlsx-cli --xlsx ~/Downloads/pres.numbers");`
			```

			`:::note pass`

			In an interactive session, the exclamation point operator `!`[^6] can be used:

			```matlab
			`% generate ~/Downloads/pres.numbers.xlsx from ~/Downloads/pres.numbers`
			`!./xlsx-cli --xlsx ~/Downloads/pres.numbers`
			```

			`:::`

			`### Reading Files`

			Starting from an arbitrary spreadsheet, `xlsx-cli` can generate a XLSX workbook.
			Once the workbook is written, the XLSX file can be parsed with `readtable`:

			```matlab
			% `filename` points to the file to be parsed
			`filename = "~/Downloads/pres.numbers";`
			`% generate filename+".xlsx"`
			`system("./xlsx-cli --xlsx " + filename)`
			% read using `readtable`
			`tbl = readtable(filename + ".xlsx");`
			```

			`The following diagram depicts the workbook waltz:`

			```mermaid
			`flowchart LR`
			subgraph MATLAB `system` invocation
			`file[(workbook\nunknown type)]`
			`xlsx(XLSX\nNormalized Data)`
			`end`
			`data[(table)]`
			file --> \|`xlsx-cli`\nSheetJS\| xlsx
			xlsx --> \|`readtable`\nMATLAB\| data
			```

			`### Write Files`

			Starting from an MATLAB table, `writetable` can generate a XLSX workbook. Once
			the workbook is written, `xlsx-cli` can translate to NUMBERS or other formats:

			```matlab
			`% tbl is the table`
			`tbl = table({"Sheet";"JS"}, [72;62], 'VariableNames', ["Name", "Index"])`
			% `filename` points to the file to be written
			`filename = "~/Downloads/sorted.xlsx";`
			% write using `writetable`
			`writetable(tbl, filename);`
			`% generate filename+".xlsb"`
			`system("./xlsx-cli --xlsb " + filename);`
			```

			`The following diagram depicts the workbook waltz:`

			```mermaid
			`flowchart LR`
			subgraph MATLAB `system` invocation
			`file[(XLSB\nworkbook)]`
			`xlsx(XLSX\nNormalized Data)`
			`end`
			`data[(table)]`
			data --> \|`writetable`\nMATLAB\| xlsx
			xlsx --> \|`xlsx-cli`\nSheetJS\| file
			```

			`## Complete Demo`

			`:::info pass`

			`This demo was tested in macOS. The path names will differ in other platforms.`

			`:::`

Added Test Data to docs site 2024-04-26 04:16:13 +00:00			This demo processes [`pres.numbers`](https://docs.sheetjs.com/pres.numbers).
math 2023-09-14 08:19:13 +00:00			`There are 3 parts to the demo:`

			`A) "Import": SheetJS tooling will read the test file and generate a clean XLSX`
			file. MATLAB will read the file using `readtable`.

			B) "Process": Using `sortrows`, MATLAB will reverse the table order.

			C) "Export": The modified table will be exported to XLSX using `writetable`.
			`SheetJS tooling will convert the file to XLSB.`

			```mermaid
			`flowchart LR`
			`ifile[(NUMBERS)]`
			`ixlsx(XLSX)`
			`ofile[(XLSB)]`
			`oxlsx(XLSX)`
			`data[(table)]`
			ifile --> \|`xlsx-cli`\nSheetJS\| ixlsx
			ixlsx --> \|`readtable`\nMATLAB\| data
			`data -.-> \|Data Processing\| data`
			data --> \|`writetable`\nMATLAB\| oxlsx
			oxlsx --> \|`xlsx-cli`\nSheetJS\| ofile

			```

			1) Create the standalone `xlsx-cli` binary[^7]:

			<CodeBlock language="bash">{`\
			`cd /tmp`
			`npm i --save https://cdn.sheetjs.com/xlsx-${current}/xlsx-${current}.tgz exit-on-epipe commander@2`
			`curl -LO https://docs.sheetjs.com/cli/xlsx-cli.js`
			npx nexe -t 14.15.3 xlsx-cli.js`}
			`</CodeBlock>`

			2) Move the generated `xlsx-cli` to the MATLAB workspace folder. On macOS, this
			folder is typically `~/Documents/MATLAB/`:

			```bash
			`mkdir -p ~/Documents/MATLAB/`
			`mv xlsx-cli ~/Documents/MATLAB/`
			```

Added Test Data to docs site 2024-04-26 04:16:13 +00:00			`3) Download https://docs.sheetjs.com/pres.numbers and save to Downloads folder:`
math 2023-09-14 08:19:13 +00:00
			```bash
			`cd ~/Downloads/`
Added Test Data to docs site 2024-04-26 04:16:13 +00:00			`curl -LO https://docs.sheetjs.com/pres.numbers`
math 2023-09-14 08:19:13 +00:00			```

			4) Save the following to `SheetJSMATLAB.m` in the workspace folder:

			```matlab title="SheetJSMATLAB.m"
			`% Import data from NUMBERS file`
			`system("./xlsx-cli --xlsx ~/Downloads/pres.numbers");`
			`tbl = readtable("~/Downloads/pres.numbers.xlsx");`
			`% Process data (reverse sort)`
			`sorted = sortrows(tbl,"Index", "descend");`
			`% Export data to XLSB workbook`
			`writetable(sorted,"~/Downloads/sorted.xlsx");`
			`system("./xlsx-cli --xlsb ~/Downloads/sorted.xlsx");`
			```

			5) In a MATLAB desktop session, run the `SheetJSMATLAB` command:

			```matlab
			`>> SheetJSMATLAB`
			```

			It will create the file `sorted.xlsx.xlsb` in the `~/Downloads` folder. Open the
			`file and confirm that the table is sorted by Index in descending order:`

			```
			`Name Index`
			`Joseph Biden 46`
			`Donald Trump 45`
			`Barack Obama 44`
			`GeorgeW Bush 43`
			`Bill Clinton 42`
			```

			`:::tip pass`

			If the `matlab` command is available on the system `PATH`, the "headless"
			`version of the command is:`

			```bash
			`cd ~/Documents/MATLAB`
			`matlab -batch SheetJSMATLAB`
			```

			`:::`

			[^1]: See [`readtable`](https://www.mathworks.com/help/matlab/ref/readtable.html) in the MATLAB documentation.
			[^2]: See [`writetable`](https://www.mathworks.com/help/matlab/ref/writetable.html) in the MATLAB documentation.
			[^3]: See [`readFile` in "Reading Files"](/docs/api/parse-options)
			[^4]: See [`writeFile` in "Writing Files"](/docs/api/write-options)
			[^5]: See [`system`](https://www.mathworks.com/help/matlab/ref/system.html) in the MATLAB documentation.
			`[^6]: See ["MATLAB Operators and Special Characters](https://www.mathworks.com/help/matlab/matlab_prog/matlab-operators-and-special-characters.html) in the MATLAB documentation.`
node-sea 2024-03-18 08:24:41 +00:00			`[^7]: See ["Command-line Tools"](/docs/demos/cli) for more details.`
math 2023-09-14 08:19:13 +00:00