--- title: Content and Site Generation --- With the advent of server-side frameworks and content management systems, it is possible to build sites whose source of truth is a spreadsheet! This demo explores a number of approaches. ## GatsbyJS [`gatsby-transformer-excel`](https://www.gatsbyjs.com/plugins/gatsby-transformer-excel/) generates nodes for each data row of each worksheet. The official documentation includes examples and more detailed usage instructions. :::note `gatsby-transformer-excel` is maintained by the Gatsby core team and all bugs should be directed to the main Gatsby project. If it is determined to be a bug in the parsing logic, issues should then be raised with the SheetJS project. ::: ## NextJS :::note This was tested against `next v12.2.5` on 2022 August 16. ::: :::info At a high level, there are two ways to pull spreadsheet data into NextJS apps: loading an asset module or performing the file read operations from the NextJS lifecycle. At the time of writing, NextJS does not offer an out-of-the-box asset module solution, so this demo focuses on raw operations. NextJS does not watch the spreadsheets, so `next dev` hot reloading will not work! ::: The general strategy with NextJS apps is to generate HTML snippets or data from the lifecycle functions and reference them in the template. HTML output can be generated using `XLSX.utils.sheet_to_html` and inserted into the document using the `dangerouslySetInnerHTML` attribute: ```jsx export default function Index({html, type}) { return ( // ... // highlight-next-line
// ... ); } ``` :::warning `fs` cannot be statically imported from the top level in NextJS pages. The dynamic import must happen within a lifecycle function. For example: ```js /* it is safe to import the library from the top level */ import { readFile, utils, set_fs } from 'xlsx'; /* it is not safe to import 'fs' from the top level ! */ // import * as fs from 'fs'; // this will fail import { join } from 'path'; import { cwd } from 'process'; export async function getServerSideProps() { // highlight-next-line set_fs(await import("fs")); // dynamically import 'fs' when needed const wb = readFile(join(cwd(), "public", "sheetjs.xlsx")); // works // ... } ``` ::: ### Strategies #### "Static Site Generation" using `getStaticProps` When using `getStaticProps`, the file will be read once during build time. ```js import { readFile, set_fs, utils } from 'xlsx'; export async function getStaticProps() { /* read file */ set_fs(await import("fs")); const wb = readFile(path_to_file) /* generate and return the html from the first worksheet */ const html = utils.sheet_to_html(wb.Sheets[wb.SheetNames[0]]); return { props: { html } }; }; ``` #### "Static Site Generation with Dynamic Routes" using `getStaticPaths` Typically a static site with dynamic routes has an endpoint `/sheets/[id]` that implements both `getStaticPaths` and `getStaticProps`. - `getStaticPaths` should return an array of worksheet indices: ```js export async function getStaticPaths() { /* read file */ set_fs(await import("fs")); const wb = readFile(path); /* generate an array of objects that will be used for generating pages */ const paths = wb.SheetNames.map((name, idx) => ({ params: { id: idx.toString() } })); return { paths, fallback: false }; }; ``` :::note For a pure static site, `fallback` must be set to `false`! ::: - `getStaticProps` will generate the actual HTML for each page: ```js export async function getStaticProps(ctx) { /* read file */ set_fs(await import("fs")); const wb = readFile(path); /* get the corresponding worksheet and generate HTML */ const ws = wb.Sheets[wb.SheetNames[ctx.params.id]]; // id from getStaticPaths const html = utils.sheet_to_html(ws); return { props: { html } }; }; ``` #### "Server-Side Rendering" using `getServerSideProps` :::caution Do not use on a static site These routes require a NodeJS dynamic server. Static page generation will fail! `getStaticProps` and `getStaticPaths` support static site generation (SSG). `getServerSideProps` is suited for NodeJS hosted deployments where the workbook changes frequently and a static site is undesirable. ::: When using `getServerSideProps`, the file will be read on each request. ```js import { readFile, set_fs, utils } from 'xlsx'; export async function getServerSideProps() { /* read file */ set_fs(await import("fs")); const wb = readFile(path_to_file); /* generate and return the html from the first worksheet */ const html = utils.sheet_to_html(wb.Sheets[wb.SheetNames[0]]); return { props: { html } }; }; ``` ### Demo
Complete Example (click to show) 0) Disable NextJS telemetry: ```js npx next telemetry disable ``` Confirm it is disabled by running ```js npx next telemetry status ``` 1) Set up folder structure. At the end, a `pages` folder with a `sheets` subfolder must be created. On Linux or MacOS or WSL: ```bash mkdir -p pages/sheets/ ``` 2) Download the [test file](pathname:///next/sheetjs.xlsx) and place in the project root. On Linux or MacOS or WSL: ```bash curl -LO https://docs.sheetjs.com/next/sheetjs.xlsx ``` 3) Install dependencies: ```bash npm i --save https://cdn.sheetjs.com/xlsx-latest/xlsx-latest.tgz next ``` 4) Download test scripts: Download and place the following scripts in the `pages` subfolder: - [`index.js`](pathname:///next/index.js) - [`getServerSideProps.js`](pathname:///next/getServerSideProps.js) - [`getStaticPaths.js`](pathname:///next/getStaticPaths.js) - [`getStaticProps.js`](pathname:///next/getStaticProps.js) Download [`[id].js`](pathname:///next/%5Bid%5D.js) and place in the `pages/sheets` subfolder. :::caution Percent-Encoding in the script name The `[id].js` script must have the literal square brackets in the name. If your browser saved the file to `%5Bid%5D.js`. rename the file. ::: On Linux or MacOS or WSL: ```bash cd pages curl -LO https://docs.sheetjs.com/next/index.js curl -LO https://docs.sheetjs.com/next/getServerSideProps.js curl -LO https://docs.sheetjs.com/next/getStaticPaths.js curl -LO https://docs.sheetjs.com/next/getStaticProps.js cd sheets curl -LOg 'https://docs.sheetjs.com/next/[id].js' cd ../.. ``` 5) Test the deployment: ```bash npx next ``` Open a web browser and access: - http://localhost:3000 landing page - http://localhost:3000/getStaticProps shows data from the first sheet - http://localhost:3000/getServerSideProps shows data from the first sheet - http://localhost:3000/getStaticPaths shows a list (3 sheets) The individual worksheets are available at - http://localhost:3000/sheets/0 - http://localhost:3000/sheets/1 - http://localhost:3000/sheets/2 6) Stop the server and run a production build: ```bash npx next build ``` The final output will show a list of the routes and types: ``` Route (pages) Size First Load JS ┌ ○ / 551 B 81.7 kB ├ ○ /404 194 B 77.2 kB ├ λ /getServerSideProps 602 B 81.7 kB ├ ● /getStaticPaths 2.7 kB 83.8 kB ├ ● /getStaticProps 600 B 81.7 kB └ ● /sheets/[id] (312 ms) 580 B 81.7 kB ├ /sheets/0 ├ /sheets/1 └ /sheets/2 ``` As explained in the summary, the `/getStaticPaths` and `/getStaticProps` routes are completely static. 3 `/sheets/#` pages were generated, corresponding to 3 worksheets in the file. `/getServerSideProps` is server-rendered. 7) Try to build a static site: ```bash npx next export ``` :::note The static export will fail! A static page cannot be generated at this point because `/getServerSideProps` is still server-rendered. ::: 8) Remove `pages/getServerSideProps.js` and rebuild with `npx next build`. Inspecting the output, there should be no lines with the `λ` symbol: ``` Route (pages) Size First Load JS ┌ ○ / 551 B 81.7 kB ├ ○ /404 194 B 77.2 kB ├ ● /getStaticPaths 2.7 kB 83.8 kB ├ ● /getStaticProps 600 B 81.7 kB └ ● /sheets/[id] (312 ms) 580 B 81.7 kB ├ /sheets/0 ├ /sheets/1 └ /sheets/2 ``` 9) Generate the static site: ```bash npx next export ``` The static site will be written to the `out` subfolder, which can be hosted with ```bash npx http-server out ``` The command will start a local HTTP server on port 8080.
## NuxtJS `@nuxt/content` is a file-based CMS for Nuxt, enabling static-site generation and on-demand server rendering powered by spreadsheets. #### nuxt.config.js configuration Through an override in `nuxt.config.js`, Nuxt Content will use custom parsers. Differences from a stock `create-nuxt-app` config are shown below: ```js // highlight-start import { readFile, utils } from 'xlsx'; // This will be called when the files change const parseSheet = (file, { path }) => { // `path` is a path that can be read with `XLSX.readFile` const wb = readFile(path); const o = wb.SheetNames.map(name => ({ name, data: utils.sheet_to_json(wb.Sheets[name])})); return { data: o }; } // highlight-end export default { // ... // highlight-start // content.extendParser allows us to hook into the parsing step content: { extendParser: { // the keys are the extensions that will be matched. The "." is required ".numbers": parseSheet, ".xlsx": parseSheet, ".xls": parseSheet, // can add other extensions like ".fods" as desired } }, // highlight-end // ... } ``` #### Template Use When a spreadsheet is placed in the `content` folder, Nuxt will find it. The data can be referenced in a view with `asyncData`. The name should not include the extension, so `"sheetjs.numbers"` would be referenced as `"sheetjs"`: ```js async asyncData ({$content}) { return { // $content('sheetjs') will match files with extensions in nuxt.config.js data: await $content('sheetjs').fetch() }; } ``` In the template, `data.data` is an array of objects. Each object has a `name` property for the worksheet name and a `data` array of row objects. This maps neatly with nested `v-for`: ```xml
{{ row.Name }} {{ row.Index }}
``` ### Nuxt Content Demo
Complete Example (click to show) :::note This was tested against `create-nuxt-app v4.0.0` on 2022 August 13. ::: 1) Create a stock app: ```bash npx create-nuxt-app SheetJSNuxt ``` When prompted, enter the following options: - `Project name`: press Enter (use default `SheetJSNuxt`) - `Programming language`: press Down Arrow (`TypeScript` selected) then Enter - `Package manager`: select `Npm` and press Enter - `UI framework`: select `None` and press Enter - `Nuxt.js modules`: scroll to `Content`, select with Space, then press Enter - `Linting tools`: press Enter (do not select any Linting tools) - `Testing framework`: select `None` and press Enter - `Rendering mode`: select `Universal (SSR / SSG)` and press Enter - `Deployment target`: select `Static (Static/Jamstack hosting)` and press Enter - `Development tools`: press Enter (do not select any Development tools) - `What is your GitHub username?`: press Enter - `Version control system`: select `None` The project will be configured and modules will be installed. 2) Install the SheetJS library and start the server: ```bash cd SheetJSNuxt npm i --save https://cdn.sheetjs.com/xlsx-latest/xlsx-latest.tgz npm run dev ``` When the build finishes, the terminal will display a URL like: ``` ℹ Listening on: http://localhost:64688/ ``` The server is listening on that URL. Open the link in a web browser. 3) Download and move to the `content` folder. 4) Modify `nuxt.config.js` as described [earlier](#nuxtconfigjs-configuration) 5) Replace `pages/index.vue` with the following: ```html ``` The browser should refresh to show the contents of the spreadsheet. If it does not, click Refresh manually or open a new browser window. ![Nuxt Demo end of step 5](pathname:///nuxt/nuxt5.png) 6) To verify that hot loading works, open `pres.xlsx` from the `content` folder in Excel. Add a new row to the bottom and save the file: ![Adding a new line to `pres.xlsx`](pathname:///nuxt/nuxl6.png) The server terminal window should show a line like: ``` ℹ Updated ./content/pres.xlsx @nuxt/content 05:43:37 ``` The page should automatically refresh with the new content: ![Nuxt Demo end of step 6](pathname:///nuxt/nuxt6.png) 7) Stop the server (press `CTRL+C` in the terminal window) and run ```bash npm run generate ``` This will create a static site in the `dist` folder, which can be served with: ```bash npx http-server dist ``` Accessing the page http://localhost:8080 will show the page contents. Verifying the static nature is trivial: make another change in Excel and save. The page will not change.
## Lume Lume is a static site generator for the Deno platform. `lume#loadData` can add custom loaders for data. The loader method receives a path to the file, which can be read with `XLSX.readFile`. This should be added to `_config.js`, like in the example below: ```js title="_config.js" import lume from "lume/mod.ts"; import { readFile, utils } from 'https://cdn.sheetjs.com/xlsx-latest/package/xlsx.mjs'; function wbLoader(path) { const wb = readFile(path); const res = wb.SheetNames.map(n => ({ name: n, data: utils.sheet_to_json(wb.Sheets[n]) })); return { content: res }; } const site = lume(); const exts = [".xlsx", ".numbers", /* ... other supported extensions */]; // highlight-next-line site.loadData(exts, wbLoader); export default site; ``` The actual spreadsheets should be placed in the `_data` subfolder. The variable name is the stem of the filename (`sheetjs` if `sheetjs.xlsx` or `sheetjs.numbers` exists). A Nunjucks or JSX template can loop through the worksheets and the data rows. The example assumes each worksheet has a `name` and `index` column: ```jsx title="index.jsx" export default ({sheetjs}) => { return (<>{(sheetjs).map(sheet => (<>

{sheet.name}

{sheet.data.map(row => ())}
NameIndex
{row.name} {row.index}
))}); }; ``` ### Lume Demo
Complete Example (click to show) :::note This was tested against `lume v1.10.4` on 2022 August 25. ::: 1) Create a stock site: ```bash mkdir sheetjs-lume cd sheetjs-lume deno run -A https://deno.land/x/lume/init.ts ``` When prompted, enter the following options: - `Use TypeScript for the configuration file`: press Enter (use default `N`) - `Do you want to use plugins`: type `jsx` and press Enter The project will be configured and modules will be installed. 2) Make the following highlighted changes to `_config.js`: ```js title="_config.js" import lume from "lume/mod.ts"; import jsx from "lume/plugins/jsx.ts"; // highlight-start import { readFile, utils } from 'https://cdn.sheetjs.com/xlsx-latest/package/xlsx.mjs'; function wbLoader(path) { const wb = readFile(path); const res = wb.SheetNames.map(n => ({ name: n, data: utils.sheet_to_json(wb.Sheets[n]) })); return { content: res }; } // highlight-end const site = lume(); site.use(jsx()); // highlight-start const exts = [".xlsx", ".numbers", /* ... other supported extensions */]; site.loadData(exts, wbLoader); // highlight-end export default site; ``` This instructs Lume to watch for and load `.xlsx` and `.numbers` spreadsheets 3) Download and place in a `_data` folder: ```bash mkdir _data curl -LO https://sheetjs.com/pres.numbers mv pres.numbers _data ``` 4) Create a `index.jsx` file that references the file. Since the file is `pres.numbers`, the parameter name is `pres`: ```jsx title="index.jsx" export default ({pres}) => { return (<>{(pres).map(sheet => (<>

{sheet.name}

{sheet.data.map(row => ())}
NameIndex
{row.Name} {row.Index}
))}); }; ``` 5) Run the development server: ```bash deno task lume --serve ``` To verify it works, access http://localhost:3000 from your web browser. Adding a new row and saving `pres.numbers` should refresh the data 6) Stop the server (press `CTRL+C` in the terminal window) and run ```bash deno task lume ``` This will create a static site in the `_site` folder, which can be served with: ```bash npx http-server _serve ``` Accessing the page http://localhost:8080 will show the page contents.