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ReactJS |
ReactJS is a JS library for building user interfaces.
This demo tries to cover common React data flow ideas and strategies. React familiarity is assumed.
Other demos cover general React deployments, including:
- Static Site Generation powered by NextJS
- iOS and Android applications powered by React Native
- Desktop application powered by React-Native-Windows
- React Data Grid UI component
Installation
The "Frameworks" section covers installation with Yarn and other package managers.
The library can be imported directly from JS or JSX code with:
import { read, utils, writeFile } from 'xlsx';
Internal State
The various SheetJS APIs work with various data shapes. The preferred state depends on the application.
Array of Objects
Typically, some users will create a spreadsheet with source data that should be loaded into the site. This sheet will have known columns. For example, our presidents sheet has "Name" / "Index" columns:
This naturally maps to an array of typed objects, as in the TS example below:
import { read, utils } from 'xlsx';
interface President {
Name: string;
Index: number;
}
const f = await (await fetch("https://sheetjs.com/pres.xlsx")).arrayBuffer();
const wb = read(f);
const data = utils.sheet_to_json<President>(wb.Sheets[wb.SheetNames[0]]);
console.log(data);
data
will be an array of objects:
[
{ Name: "Bill Clinton", Index: 42 },
{ Name: "GeorgeW Bush", Index: 43 },
{ Name: "Barack Obama", Index: 44 },
{ Name: "Donald Trump", Index: 45 },
{ Name: "Joseph Biden", Index: 46 }
]
A component will typically map over the data. The following example generates a TABLE with a row for each President:
import React, { useCallback, useEffect, useState } from "react";
import { read, utils, writeFileXLSX } from 'xlsx';
export default function SheetJSReactAoO() {
/* the component state is an array of presidents */
const [pres, setPres] = useState([]);
/* Fetch and update the state once */
useEffect(() => { (async() => {
const f = await (await fetch("https://sheetjs.com/pres.xlsx")).arrayBuffer();
// highlight-start
const wb = read(f); // parse the array buffer
const ws = wb.Sheets[wb.SheetNames[0]]; // get the first worksheet
const data = utils.sheet_to_json(ws); // generate objects
setPres(data); // update state
// highlight-end
})(); }, []);
/* get state data and export to XLSX */
const exportFile = useCallback(() => {
// highlight-next-line
const ws = utils.json_to_sheet(pres);
const wb = utils.book_new();
utils.book_append_sheet(wb, ws, "Data");
writeFileXLSX(wb, "SheetJSReactAoO.xlsx");
}, [pres]);
return (<table><thead><th>Name</th><th>Index</th></thead><tbody>
{ /* generate row for each president */
// highlight-start
pres.map(pres => (<tr>
<td>{pres.Name}</td>
<td>{pres.Index}</td>
</tr>))
// highlight-end
}
</tbody><tfoot><td colSpan={2}>
<button onClick={exportFile}>Export XLSX</button>
</td></tfoot></table>);
}
HTML
The main disadvantage of the Array of Objects approach is the specific nature of the columns. For more general use, passing around an Array of Arrays works. However, this does not handle merge cells well!
The sheet_to_html
function generates HTML that is aware of merges and other
worksheet features. React dangerouslySetInnerHTML
attribute allows code to
set the innerHTML
attribute, effectively inserting the code into the page:
import React, { useCallback, useEffect, useRef, useState } from "react";
import { read, utils, writeFileXLSX } from 'xlsx';
export default function SheetJSReactHTML() {
/* the component state is an HTML string */
const [__html, setHtml] = useState("");
/* the ref is used in export */
const tbl = useRef(null);
/* Fetch and update the state once */
useEffect(() => { (async() => {
const f = await (await fetch("https://sheetjs.com/pres.xlsx")).arrayBuffer();
const wb = read(f); // parse the array buffer
const ws = wb.Sheets[wb.SheetNames[0]]; // get the first worksheet
// highlight-start
const data = utils.sheet_to_html(ws); // generate HTML
setHtml(data); // update state
// highlight-end
})(); }, []);
/* get live table and export to XLSX */
const exportFile = useCallback(() => {
// highlight-start
const elt = tbl.current.getElementsByTagName("TABLE")[0];
const wb = utils.table_to_book(elt);
// highlight-end
writeFileXLSX(wb, "SheetJSReactHTML.xlsx");
}, [tbl]);
return ( <>
<button onClick={exportFile}>Export XLSX</button>
// highlight-next-line
<div ref={tbl} dangerouslySetInnerHTML={{ __html }} />
</>);
}
Rows and Columns
Some data grids and UI components split worksheet state in two parts: an array of column attribute objects and an array of row objects. The former is used to generate column headings and for indexing into the row objects.
The safest approach is to use an array of arrays for state and to generate column objects that map to A1-Style column headers.
The React Data Grid demo uses this approach with the following column and row structure:
/* rows are generated with a simple array of arrays */
const rows = utils.sheet_to_json(worksheet, { header: 1 });
/* column objects are generated based on the worksheet range */
const range = utils.decode_range(ws["!ref"]||"A1");
const columns = Array.from({ length: range.e.c + 1 }, (_, i) => ({
/* for an array of arrays, the keys are "0", "1", "2", ... */
key: String(i),
/* column labels: encode_col translates 0 -> "A", 1 -> "B", 2 -> "C", ... */
name: XLSX.utils.encode_col(i)
}));
Legacy Deployments
The Standalone Scripts play nice with legacy deployments that do not use a bundler.
The legacy demo shows a simple React component transpiled in the browser using Babel standalone library.