4.1 KiB
React
The xlsx.core.min.js
and xlsx.full.min.js
scripts are designed to be dropped
into web pages with script tags:
<script src="xlsx.full.min.js"></script>
The library can also be imported directly from JSX code with:
import { read, utils, writeFileXLSX } from 'xlsx';
This demo shows a simple React component transpiled in the browser using Babel standalone library. Since there is no standard React table model, this demo settles on the array of arrays approach.
Other scripts in this demo show:
- server-rendered React component (with
next.js
) react-native
deployment for iOS and androidreact-data-grid
reading, modifying, and writing files
How to run
Run make react
to run the browser demo for React, or run make next
to run
the server-rendered demo using next.js
.
Internal State
The simplest state representation is an array of arrays. To avoid having the table component depend on the library, the column labels are precomputed. The state in this demo is shaped like the following object:
{
cols: [{ name: "A", key: 0 }, { name: "B", key: 1 }, { name: "C", key: 2 }],
data: [
[ "id", "name", "value" ],
[ 1, "sheetjs", 7262 ],
[ 2, "js-xlsx", 6969 ]
]
}
sheet_to_json
and aoa_to_sheet
utility functions can convert between arrays
of arrays and worksheets:
/* convert from workbook to array of arrays */
var first_worksheet = workbook.Sheets[workbook.SheetNames[0]];
var data = XLSX.utils.sheet_to_json(first_worksheet, {header:1});
/* convert from array of arrays to workbook */
var worksheet = XLSX.utils.aoa_to_sheet(data);
var new_workbook = XLSX.utils.book_new();
XLSX.utils.book_append_sheet(new_workbook, worksheet, "SheetJS");
The column objects can be generated with the encode_col
utility function:
function make_cols(refstr/*:string*/) {
var o = [];
var range = XLSX.utils.decode_range(refstr);
for(var i = 0; i <= range.e.c; ++i) {
o.push({name: XLSX.utils.encode_col(i), key:i});
}
return o;
}
React Native
The new demo uses up-to-date file I/O and file picker libraries.
Server-Rendered React Components with Next.js
The demo reads from public/sheetjs.xlsx
. HTML output is generated using
XLSX.utils.sheet_to_html
and inserted with dangerouslySetInnerHTML
:
export default function Index({html, type}) { return (
// ...
<div dangerouslySetInnerHTML={{ __html: html }} />
// ...
); }
Next currently offers 3 general strategies for server-side data fetching:
"Server-Side Rendering" using getServerSideProps
/getServerSideProps
reads the file on each request. The first worksheet is
converted to HTML:
export async function getServerSideProps() {
const wb = XLSX.readFile(path);
return { props: {
html: utils.sheet_to_html(wb.Sheets[wb.SheetNames[0]])
}};
}
"Static Site Generation" using getStaticProps
/getServerSideProps
reads the file at build time. The first worksheet is
converted to HTML:
export async function getStaticProps() {
const wb = XLSX.readFile(path);
return { props: {
html: utils.sheet_to_html(wb.Sheets[wb.SheetNames[0]])
}};
}
"Static Site Generation with Dynamic Routes" using getStaticPaths
/getStaticPaths
reads the file at build time and generates a list of sheets.
/sheets/[id]
uses getStaticPaths
to generate a path per sheet index:
export async function getStaticPaths() {
const wb = XLSX.readFile(path);
return {
paths: wb.SheetNames.map((name, idx) => ({ params: { id: idx.toString() } })),
fallback: false
};
}
It also uses getStaticProps
for the actual HTML generation:
export async function getStaticProps(ctx) {
const wb = XLSX.readFile(path);
return { props: {
html: utils.sheet_to_html(wb.Sheets[wb.SheetNames[ctx.params.id]]),
}};
}
Additional Notes
Some additional notes can be found in NOTES.md
.