docs.sheetjs.com/docz/docs/03-demos/12-static/05-vitejs.md

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ViteJS Spreadsheet Plugins red ViteJS Make static websites from spreadsheets using ViteJS. Seamlessly integrate data into your website using SheetJS. Empower non-technical people to write content from Excel. demos/net/index demos/mobile/index
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bundler

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

ViteJS is a build tool for generating static websites. It has a robust JavaScript-powered plugin system1.

SheetJS is a JavaScript library for reading and writing data from spreadsheets.

This demo uses ViteJS and SheetJS to pull data from a spreadsheet and display the content in an HTML table. We'll explore how to load SheetJS in a ViteJS plugin and evaluate data loading strategies.

The "Complete Demo" section creates a complete website powered by a XLSX spreadsheet.

:::info pass

This demo covers use cases where data is available at build time. This flow is suitable for end of week or end of month (EOM) reports published in HTML tables.

For processing user-submitted files in the browser, the ViteJS "Bundlers" demo shows client-side bundling of SheetJS libraries. The "ReactJS" demo shows example sites using ViteJS with the ReactJS starter.

:::

Plugins

ViteJS supports static asset imports2, but the default raw loader interprets data as UTF-8 strings. This corrupts binary formats including XLSX and XLS. A custom loader can bypass the raw loader and directly read files.

Since a custom loader must be used, some data processing work can be performed by the loader. Three approaches are explored in this demo.

The following diagrams show the ViteJS data flow. The pink "Main Script import" boxes represent the division between the loader and the main script. The green "SheetJS Operations" boxes represent the steps performed by SheetJS libraries.

[HTML](#html-plugin) [Data](#pure-data-plugin) [Base64](#base64-plugin)
flowchart TB
  file[(workbook\nfile)]
  buffer(NodeJS\nBuffer)
  sheetjs[[SheetJS Operations]]
  tabeller{{HTML\nString}}
  handoff[[Main Script import]]
  html{{HTML\nTABLE}}
  style handoff fill:#FFC7CE
  style sheetjs fill:#C6EFCE
  file --> buffer
  buffer --> sheetjs
  sheetjs --> tabeller
  tabeller --> handoff
  handoff --------> html
</td>
<td style={{verticalAlign: "top"}}>
flowchart TB
  file[(workbook\nfile)]
  buffer(NodeJS\nBuffer)
  sheetjs[[SheetJS Operations]]
  aoo(array of\nobjects)
  handoff[[Main Script import]]
  import(array of\nobjects)
  html{{HTML\nTABLE}}
  style handoff fill:#FFC7CE
  style sheetjs fill:#C6EFCE
  file --> buffer
  buffer --> sheetjs
  sheetjs --> aoo
  aoo --> handoff
  handoff ------> import
  import --> html
</td>
<td style={{verticalAlign: "top"}}>
flowchart TB
  file[(workbook\nfile)]
  base64(Base64\nString)
  handoff[[Main Script import]]
  import(Base64\nString)
  sheetjs[[SheetJS Operations]]
  aoo(array of\nobjects)
  html{{HTML\nTABLE}}
  style handoff fill:#FFC7CE
  style sheetjs fill:#C6EFCE
  file --> base64
  base64 ------> handoff
  handoff --> import
  import --> sheetjs
  sheetjs --> aoo
  aoo --> html
</td>

For simple tables of data, "Pure Data Plugin" is strongly recommended. The file processing is performed at build time and the generated site only includes the raw data.

For more complex parsing or display logic, "Base64 Plugin" is preferable. Since the raw parsing logic is performed in the page, the library will be included in the final bundle.

The "HTML Plugin" generates HTML in the loader script. The SheetJS HTML writer renders merged cells and other features.

Pure Data Plugin

For a pure static site, a plugin can load data into an array of row objects. The SheetJS work is performed in the plugin. The library is not loaded in the page!

The following diagram depicts the workbook waltz:

flowchart LR
  file[(workbook\nfile)]
  subgraph SheetJS operations
    buffer(NodeJS\nBuffer)
    aoo(array of\nobjects)
  end
  html{{HTML\nTABLE}}
  file --> |vite.config.js\ncustom plugin| buffer
  buffer --> |vite.config.js\ncustom plugin| aoo
  aoo --> |main.js\nfrontend code| html

This ViteJS plugin will read spreadsheets using the SheetJS read method3 and generate arrays of row objects with the SheetJS sheet_to_json4 method:

import { readFileSync } from 'fs';
import { read, utils } from 'xlsx';
import { defineConfig } from 'vite';

export default defineConfig({
  assetsInclude: ['**/*.xlsx'], // xlsx file should be treated as assets

  plugins: [
    { // this plugin handles ?sheetjs tags
      name: "vite-sheet",
      transform(code, id) {
        if(!id.match(/\?sheetjs$/)) return;
        var wb = read(readFileSync(id.replace(/\?sheetjs$/, "")));
        var data = utils.sheet_to_json(wb.Sheets[wb.SheetNames[0]]);
        return `export default JSON.parse('${JSON.stringify(data).replace(/\\/g, "\\\\")}')`;
      }
    }
  ]
});

:::info pass

ViteJS plugins are expected to return strings representing ECMAScript modules.

The plugin uses JSON.stringify to encode the array of objects. The generated string is injected into the new module code. When ViteJS processes the module, JSON.parse recovers the array of objects.

:::

In frontend code, the loader will look for all modules with a ?sheetjs query string. The default export is an array of row objects.

The following example script displays the data in a table:

import data from './data/pres.xlsx?sheetjs';

document.querySelector('#app').innerHTML = `<table>
  <thead><tr><th>Name</th><th>Index</th></tr></thead>
  <tbody>
    ${data.map(row => `<tr>
      <td>${row.Name}</td>
      <td>${row.Index}</td>
    </tr>`).join("\n")}
  </tbody>
</table>`;

HTML Plugin

A plugin can generate raw HTML strings that can be added to a page. The SheetJS libraries are used in the plugin but will not be added to the site.

The following diagram depicts the workbook waltz:

flowchart LR
  file[(workbook\nfile)]
  subgraph SheetJS operations
    buffer(NodeJS\nBuffer)
    tavolo{{HTML\nString}}
  end
  html{{HTML\nTABLE}}
  file --> |vite.config.js\ncustom plugin| buffer
  buffer --> |vite.config.js\ncustom plugin| tavolo
  tavolo --> |main.js\nfrontend code| html

This ViteJS plugin will read spreadsheets using the SheetJS read method5 and generate HTML using the SheetJS sheet_to_html6 method:

import { readFileSync } from 'fs';
import { read, utils } from 'xlsx';
import { defineConfig } from 'vite';

export default defineConfig({
  assetsInclude: ['**/*.xlsx'], // xlsx file should be treated as assets

  plugins: [
    { // this plugin handles ?html tags
      name: "vite-sheet-html",
      transform(code, id) {
        if(!id.match(/\?html/)) return;
        var wb = read(readFileSync(id.replace(/\?html/, "")));
        var html = utils.sheet_to_html(wb.Sheets[wb.SheetNames[0]]);
        return (`export default JSON.parse('${JSON.stringify(html).replace(/\\/g, "\\\\")}')`);
      }
    }
  ]
});

:::info pass

ViteJS plugins are expected to return strings representing ECMAScript modules.

The plugin uses JSON.stringify to encode the HTML string. The generated string is injected into the new module code. When ViteJS processes the module, JSON.parse recovers the original HTML string.

:::

In frontend code, the loader will look for all modules with a ?html query string. The default export is a string that can be directly added to the page.

The following example script sets the innerHTML property of the container:

import html from './data/pres.xlsx?html';

document.querySelector('#app').innerHTML = html;

Base64 Plugin

This plugin pulls in data as a Base64 string that can be read with read7. While this approach works, it is not recommended since it loads the library in the front-end site.

The following diagram depicts the workbook waltz:

flowchart LR
  file[(workbook\nfile)]
  subgraph SheetJS operations
    base64(base64\nstring)
    aoo(array of\nobjects)
  end
  html{{HTML\nTABLE}}
  file --> |vite.config.js\ncustom plugin| base64
  base64 --> |main.js\nfrontend code| aoo
  aoo --> |main.js\nfrontend code| html

This ViteJS plugin will read spreadsheet files and export the data as a Base64 string. SheetJS is not imported in the plugin:

import { readFileSync } from 'fs';
import { defineConfig } from 'vite';

export default defineConfig({
  assetsInclude: ['**/*.xlsx'], // mark that xlsx file should be treated as assets

  plugins: [
    { // this plugin handles ?b64 tags
      name: "vite-b64-plugin",
      transform(code, id) {
        if(!id.match(/\?b64$/)) return;
        var path = id.replace(/\?b64/, "");
        var data = readFileSync(path, "base64");
        return `export default '${data}'`;
      }
    }
  ]
});

When importing using the b64 query, the raw Base64 string will be exposed. read will process the Base64 string using the base64 input type8:

import { read, utils } from "xlsx";

/* import workbook data */
import b64 from './data.xlsx?b64';

/* parse workbook and pull data from the first worksheet */
const wb = read(b64, { type: "base64" });
const wsname = wb.SheetNames[0];
const data = utils.sheet_to_json(wb.Sheets[wsname]);

document.querySelector('#app').innerHTML = `<table>
  <thead><tr><th>Name</th><th>Index</th></tr></thead>
  <tbody>
    ${data.map(row => `<tr>
      <td>${row.Name}</td>
      <td>${row.Index}</td>
    </tr>`).join("\n")}
  </tbody>
</table>`;

Complete Demo

The demo walks through the process of creating a new ViteJS website from scratch. A Git repository with the completed site can be cloned9.

:::note Tested Deployments

This demo was tested in the following environments:

ViteJS Date
5.2.12 2024-06-02
4.5.3 2024-06-02
3.2.10 2024-06-02
2.9.18 2024-06-02

:::

Initial Setup

  1. Create a new site with the vue-ts template and install the SheetJS package:

:::note pass

To force an older major version of ViteJS, change the vite@5 to the desired major version. For example, npm create vite@3 will use ViteJS major version 3.

:::

{\ npm create vite@5 sheetjs-vite -- --template vue-ts cd sheetjs-vite npm i npm i --save https://cdn.sheetjs.com/xlsx-${current}/xlsx-${current}.tgz}

  1. Download and replace vite.config.ts
curl -O https://docs.sheetjs.com/vitejs/vite.config.ts
  1. Make a data folder and download https://docs.sheetjs.com/pres.xlsx :
mkdir -p data
curl -L -o data/pres.xlsx https://docs.sheetjs.com/pres.xlsx

Pure Data Test

  1. Run the dev server:
npm run dev

Open a browser window to the displayed URL (typically http://localhost:5173 )

  1. Replace the component src/components/HelloWorld.vue with:
<script setup lang="ts">
// @ts-ignore
import data from '../../data/pres.xlsx?sheetjs';
</script>

<template>
  <table>
    <tr><th>Name</th><th>Index</th></tr>
    <tr v-for="(row,R) in data" v-bind:key="R">
      <td>{{row.Name}}</td>
      <td>{{row.Index}}</td>
    </tr>
  </table>
</template>

Save and refresh the page. A data table should be displayed

  1. Stop the dev server and build the site
npm run build
npx http-server dist/

The terminal will display a URL, typically http://127.0.0.1:8080 . Access that page with a web browser.

:::caution pass

When this demo was tested against ViteJS 2.9.18, the build failed:

src/App.vue:8:3 - error TS7026: JSX element implicitly has type 'any' because no interface 'JSX.IntrinsicElements' exists.

8   <img alt="Vue logo" src="./assets/logo.png" />
    ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

As it affects the project template, this is a bug in ViteJS.

The simplest workaround is to force upgrade the vue-tsc dependency:

npm i vue-tsc@latest

:::

  1. To confirm that only the raw data is present in the page, view the page source. The code will reference a script /assets/index-HASH.js where HASH is a string of characters. Open that script.

Searching for Bill Clinton reveals the following:

{"Name":"Bill Clinton","Index":42}

Searching for BESSELJ should reveal no results. The SheetJS scripts are not included in the final site!

:::info pass

ViteJS also supports "Server-Side Rendering". In SSR, only the HTML table would be added to the final page. Details are covered in the ViteJS docs10.

:::

HTML Test

  1. Run the dev server:
npm run dev

Open a browser window to the displayed URL (typically http://localhost:5173 )

  1. Replace the component src/components/HelloWorld.vue with:
<script setup lang="ts">
// @ts-ignore
import html from '../../data/pres.xlsx?html';
</script>

<template>
  <div v-html="html"></div>
</template>

Save and refresh the page. A data table should be displayed

  1. Stop the dev server and build the site
npm run build
npx http-server dist/

The terminal will display a URL, typically http://127.0.0.1:8080 . Access that page with a web browser.

:::caution pass

When this demo was tested against ViteJS 2.9.18, the build failed:

src/App.vue:8:3 - error TS7026: JSX element implicitly has type 'any' because no interface 'JSX.IntrinsicElements' exists.

8   <img alt="Vue logo" src="./assets/logo.png" />
    ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

As it affects the project template, this is a bug in ViteJS.

The simplest workaround is to force upgrade the vue-tsc dependency:

npm i vue-tsc@latest

:::

  1. To confirm that only the raw HTML is present in the page, view the page source. The code will reference a script /assets/index-HASH.js where HASH is a string of characters. Open that script.

Searching for Bill Clinton reveals the following encoded HTML element:

<td data-t=\\"s\\" data-v=\\"Bill Clinton\\" id=\\"sjs-A2\\">Bill Clinton</td>

Searching for BESSELJ should reveal no results. The SheetJS scripts are not included in the final site!

:::info pass

The HTML code is still stored in a script and is injected dynamically.

ViteJS "Server-Side Rendering" offers the option to render the site at build time, ensuring that the HTML table is directly added to the page.

:::

Base64 Test

  1. Run the dev server:
npm run dev

Open a browser window to the displayed URL (typically http://localhost:5173 )

  1. Replace the component src/components/HelloWorld.vue with:
<script setup lang="ts">
// @ts-ignore
import b64 from '../../data/pres.xlsx?b64';
import { read, utils } from "xlsx";
/* parse workbook and convert first sheet to row array */
const wb = read(b64);
const ws = wb.Sheets[wb.SheetNames[0]];
interface IPresident { Name: string; Index: number; };
const data = utils.sheet_to_json<IPresident>(ws);
</script>

<template>
  <table>
    <tr><th>Name</th><th>Index</th></tr>
    <tr v-for="(row,R) in data" v-bind:key="R">
      <td>{{row.Name}}</td>
      <td>{{row.Index}}</td>
    </tr>
  </table>
</template>
  1. Stop the dev server and build the site
npm run build
npx http-server dist/

The terminal will display a URL ( http://127.0.0.1:8080 ). Access that page with a web browser.

:::caution pass

When this demo was tested against ViteJS 2.9.18, the build failed:

src/App.vue:8:3 - error TS7026: JSX element implicitly has type 'any' because no interface 'JSX.IntrinsicElements' exists.

8   <img alt="Vue logo" src="./assets/logo.png" />
    ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

As it affects the project template, this is a bug in ViteJS.

The simplest workaround is to force upgrade the vue-tsc dependency:

npm i vue-tsc@latest

:::

  1. To confirm that the object data is not present in the page, view the page source. The code will reference a script /assets/index-HASH.js where HASH is a string of characters. Open that script.

Searching for BESSELJ should match the code:

425:"BESSELJ"

Searching for Bill Clinton should yield no results. The SheetJS library is embedded in the final site and the data is parsed when the page is loaded.