Convert local or remote HTML embedded tables into JSON objects.
- Introduction
- Incompatible changes
- Installation
- Quickstart
- Use case examples
- Options
- Known issues and limitations
- Usage
- Contributing
Tabletojson attempts to convert local or remote HTML tables into JSON with a very low footprint. Can be passed the markup for a single table as a string, a fragment of HTML or an entire page or just a URL (with an optional callback function; promises also supported).
The response is always an array. Every array entry in the response represents a table found on the page (in same the order they were found in HTML).
As of version 2.0 tabletojson is completely written in typescript.
- Version 2 on request.js is not used anymore
- Version >=2.1.0 got is not used anymore and got replaced by node internal fetch. more information here...
- Switched from commonjs to module system. Bumped version to 3.0.0
- Providing a "hybrid" library to cope with the needs of both esm and commonjs. Bumped version to 4.0.1.
- Adding support for complex headings as key in the output json object. Bumped version to 4.1.0.
- Require must be changed from
const tabletojson = require('../lib/tabletojson');to eitherconst tabletojson = require('../lib/tabletojson').Tabletojson;orconst {Tabletojson: tabletojson} = require('../lib/tabletojson'); - Replace request options by fetch options. More information here...
- Tabletojson now uses esm. Use
import {Tabletojson as tabletojson} from 'tabletojson';orimport {tabletojson} from 'tabletojson'; - Added lowercase import
import {tabletojson} from 'tabletojson'; - If you are using Node 18 execute examples by calling:
npm run build:examples
cd dist/examples
node --experimental-vm-modules --experimental-specifier-resolution=node example-1.js --prefix=dist/examplesnpm install tabletojsonimport {tabletojson} from 'tabletojson';
tabletojson.convertUrl('https://en.wikipedia.org/wiki/List_of_ISO_639-1_codes', function (tablesAsJson) {
console.log(tablesAsJson[1]);
});const {tabletojson} = require('tabletojson');
tabletojson.convertUrl('https://en.wikipedia.org/wiki/List_of_ISO_639-1_codes', function (tablesAsJson) {
console.log(tablesAsJson[1]);
});// example-1.ts
import {tabletojson} from 'tabletojson';
tabletojson.convertUrl('https://en.wikipedia.org/wiki/List_of_ISO_639-1_codes', function (tablesAsJson) {
console.log(tablesAsJson[1]);
});More examples can be found in examples folder.
// example-6.ts
import {tabletojson} from 'tabletojson';
import * as fs from 'fs';
import * as path from 'path';
const html = fs.readFileSync(path.resolve(process.cwd(), '../../test/tables.html'), {
encoding: 'utf-8',
});
const converted = tabletojson.convert(html);
console.log(converted);Tables with duplicate column headings, subsequent headings are suffixed with a count:
|| PLACE || VALUE || PLACE || VALUE ||
|--------|--------|--------|---------|
| abc | 1 | def | 2 |[
{
"PLACE": "abc",
"VALUE": "1",
"PLACE_2": "def",
"VALUE_2": "2"
}
]In tables with rowspan, the content of the spawned cell must be available in the respective object.
| Parent | Child | Age |
|---|---|---|
| Marry | Sue | 15 |
| Steve | 12 | |
| Tom | 3 |
[
{"Parent": "Marry", "Child": "Tom", "Age": "3"},
{"Parent": "Marry", "Child": "Steve", "Age": "12"},
{"Parent": "Marry", "Child": "Sue", "Age": "15"}
]In tables with complex rowspans, the content of the spawned cell must be available in the respective object.
| Parent | Child | Age |
|---|---|---|
| Marry | Sue | 15 |
| Steve | 12 | |
| Tom | 3 | |
| Taylor | ||
| Peter | 17 |
[
{"Parent": "Marry", "Child": "Sue", "Age": "15"},
{"Parent": "Marry", "Child": "Steve", "Age": "12"},
{"Parent": "Marry", "Child": "Tom", "Age": "3"},
{"Parent": "Taylor", "Child": "Tom", "Age": "3"},
{"Parent": "Taylor", "Child": "Peter", "Age": "17"}
]In tables with even more complex rowspans, the content of the spawned cell must be available in the respective object.
| Department | Major | Class | Instructor | Credit |
|---|---|---|---|---|
| Engineering | Computer Science | CS101 | Kim | 3 |
| CS201 | Garcia | |||
| CS303 | 2 | |||
| Electrical Engineering | EE101 | Müller | 3 | |
| Social Science | Economics | EC101 | Nguyen | 3 |
| EC401 | Smith |
[
{
"Department": "Engineering",
"Major": "Computer Science",
"Class": "CS101",
"Instructor": "Kim",
"Credit": "3"
},
{
"Department": "Engineering",
"Major": "Computer Science",
"Credit": "3",
"Class": "CS201",
"Instructor": "Garcia"
},
{
"Department": "Engineering",
"Major": "Computer Science",
"Instructor": "Garcia",
"Class": "CS303",
"Credit": "2"
},
{
"Department": "Engineering",
"Major": "Electrical Engineering",
"Class": "EE101",
"Instructor": "Müller",
"Credit": "3"
},
{
"Department": "Social Science",
"Major": "Economics",
"Class": "EC101",
"Instructor": "Nguyen",
"Credit": "3"
},
{
"Department": "Social Science",
"Major": "Economics",
"Credit": "3",
"Class": "EC401",
"Instructor": "Smith"
}
]If a table contains headings in the first column you might get an unexpected
result, but you can pass a second argument with options with
{ useFirstRowForHeadings: true } to have it treat the first column as it would
any other cell.
tabletojson.convertUrl(
'https://www.timeanddate.com/holidays/ireland/2017',
{ useFirstRowForHeadings: true },
function(tablesAsJson) {
console.log(tablesAsJson);
}
);The following options are true by default, which converts all values to plain text to give you an easier more readable object to work with:
- stripHtmlFromHeadings
- stripHtmlFromCells
If your table contains HTML you want to parse (for example for links) you can
set stripHtmlFromCells to false to treat it as raw text.
tabletojson.convertUrl(
'https://en.wikipedia.org/wiki/List_of_ISO_639-1_codes',
{ stripHtmlFromCells: false },
function(tablesAsJson) {
//Print out the 1st row from the 2nd table on the above webpage as JSON
console.log(tablesAsJson[1][0]);
}
);Note: This doesn't work with nested tables, which it will still try to parse.
You probably don't need to set stripHtmlFromHeadings to false (and setting
it to false can make the results hard to parse), but if you do you can also set
both at the same time by setting stripHtml to false.
Use the following rows as keys in the output json object. The values are flattened and concatenated the values with 'concatWith' [default=undefined]
Input:
| Industry | Operating income | Operating costs | Total profit | ||||||
| amount (billion) | Year-over-year growth (%) | amount (billion) | Year-over-year growth (%) | amount (billion) | Year-over-year growth (%) | ||||
| $ | €* | $ | €* | $ | €* | ||||
| total | 843280,70 | 758952,63 | -0,30 | 718255,00 | 646429,50 | 0,20 | 46558,20 | 41902,38 | -11,70 |
| Coal mining and washing industry | 22937,30 | 20643,57 | -13,90 | 14653,70 | 13188,33 | -7,50 | 5236,90 | 4713,21 | -26,30 |
| Oil and gas extraction | 7605,10 | 6844,59 | -9,60 | 3863,60 | 3477,24 | 0,10 | 2592,70 | 2333,43 | -10,80 |
| Ferrous metal mining and dressing industry | 3010,70 | 2709,63 | -4,40 | 2369,10 | 2132,19 | -4,10 | 326,60 | 293,94 | -23,80 |
| Non-ferrous metal mining and dressing industry | 2180,90 | 1962,81 | -0,30 | 1394,30 | 1254,87 | -2,50 | 512,10 | 460,89 | 4,00 |
| Non-metallic ore mining and dressing industry | 2244,70 | 2020,23 | -5,70 | 1612,00 | 1450,80 | -5,70 | 236,10 | 212,49 | -7,00 |
| Mining professional and ancillary activities | 1537,30 | 1383,57 | 12,70 | 1453,70 | 1308,33 | 11,80 | 2,60 | 2,34 | -77,00 |
|
Note: Some indicators in this table have a situation where the total is not equal to the sum of the sub-items, which is due to rounding of the data and has not been mechanically adjusted. * Conversion rate: 1$=0,9€ |
|||||||||
Output:
[
{
"Industry": "total",
"Operating income amount (billion) $": "843280,70",
"Operating income amount (billion) €*": "758952,63",
"Operating income Year-over-year growth (%)": "-0,30",
"Operating costs amount (billion) $": "718255,00",
"Operating costs amount (billion) €*": "646429,50",
"Operating costs Year-over-year growth (%)": "0,20",
"Total profit amount (billion) $": "46558,20",
"Total profit amount (billion) €*": "41902,38",
"Total profit Year-over-year growth (%)": "-11,70"
},
{
"Industry": "Coal mining and washing industry",
"Operating income amount (billion) $": "22937,30",
"Operating income amount (billion) €*": "20643,57",
"Operating income Year-over-year growth (%)": "-13,90",
"Operating costs amount (billion) $": "14653,70",
"Operating costs amount (billion) €*": "13188,33",
"Operating costs Year-over-year growth (%)": "-7,50",
"Total profit amount (billion) $": "5236,90",
"Total profit amount (billion) €*": "4713,21",
"Total profit Year-over-year growth (%)": "-26,30"
},
{
"Industry": "Oil and gas extraction",
"Operating income amount (billion) $": "7605,10",
"Operating income amount (billion) €*": "6844,59",
"Operating income Year-over-year growth (%)": "-9,60",
"Operating costs amount (billion) $": "3863,60",
"Operating costs amount (billion) €*": "3477,24",
"Operating costs Year-over-year growth (%)": "0,10",
"Total profit amount (billion) $": "2592,70",
"Total profit amount (billion) €*": "2333,43",
"Total profit Year-over-year growth (%)": "-10,80"
},
{
"Industry": "Ferrous metal mining and dressing industry",
"Operating income amount (billion) $": "3010,70",
"Operating income amount (billion) €*": "2709,63",
"Operating income Year-over-year growth (%)": "-4,40",
"Operating costs amount (billion) $": "2369,10",
"Operating costs amount (billion) €*": "2132,19",
"Operating costs Year-over-year growth (%)": "-4,10",
"Total profit amount (billion) $": "326,60",
"Total profit amount (billion) €*": "293,94",
"Total profit Year-over-year growth (%)": "-23,80"
},
{
"Industry": "Non-ferrous metal mining and dressing industry",
"Operating income amount (billion) $": "2180,90",
"Operating income amount (billion) €*": "1962,81",
"Operating income Year-over-year growth (%)": "-0,30",
"Operating costs amount (billion) $": "1394,30",
"Operating costs amount (billion) €*": "1254,87",
"Operating costs Year-over-year growth (%)": "-2,50",
"Total profit amount (billion) $": "512,10",
"Total profit amount (billion) €*": "460,89",
"Total profit Year-over-year growth (%)": "4,00"
},
{
"Industry": "Non-metallic ore mining and dressing industry",
"Operating income amount (billion) $": "2244,70",
"Operating income amount (billion) €*": "2020,23",
"Operating income Year-over-year growth (%)": "-5,70",
"Operating costs amount (billion) $": "1612,00",
"Operating costs amount (billion) €*": "1450,80",
"Operating costs Year-over-year growth (%)": "-5,70",
"Total profit amount (billion) $": "236,10",
"Total profit amount (billion) €*": "212,49",
"Total profit Year-over-year growth (%)": "-7,00"
},
{
"Industry": "Mining professional and ancillary activities",
"Operating income amount (billion) $": "1537,30",
"Operating income amount (billion) €*": "1383,57",
"Operating income Year-over-year growth (%)": "12,70",
"Operating costs amount (billion) $": "1453,70",
"Operating costs amount (billion) €*": "1308,33",
"Operating costs Year-over-year growth (%)": "11,80",
"Total profit amount (billion) $": "2,60",
"Total profit amount (billion) €*": "2,34",
"Total profit Year-over-year growth (%)": "-77,00"
},
{
"Industry": "Note: Some indicators in this table have a situation where the total is not equal to the sum of the sub-items, which is due to rounding of the data and has not been mechanically adjusted.\n * Conversion rate: 1$=0,9€"
}
]Tabletojson is using fetch api which is available in node from version 17.5.0 onwards to fetch remote HTML pages. See
mdn web docs on fetch for more information. The usage of
Tabletojson should now be the same in node as in browsers.
So if you need to get data from a remote server you can call tabletojson.convertUrl and pass any
fetch-options (proxy, headers,...) by adding a RequestInit object to the options
passed to convertUrl. For more information on how to configure request please
have a look at Browser Syntax or Node fetch
tabletojson.convertUrl('https://www.timeanddate.com/holidays/ireland/2017', {
useFirstRowForHeadings: true,
fetchOptions: {
...
}
});Define the rows to be used as keys in the output json object. The values will be concatenated with the given concatWith value. [default=undefined]
const html = fs.readFileSync(path.resolve(process.cwd(), '../test/tables.html'), {
encoding: 'utf-8',
});
const converted = tabletojson.convert(html, {
id: ['table15'],
// from (Optional) Start row [default=0]
// to End row
// concatWith Concatenate the values with this string
headers: {
to: 2,
concatWith: ' ',
},
});
console.log(JSON.stringify(converted, null, 2));Strip any HTML from heading cells. Default is true.
||KEY || <b>VALUE</b><||
|-----|----------------|
| abc | 1 |
| dev | 2 |Example output with stripHtmlFromHeadings:true
[
{
"KEY": "abc", "VALUE": "1"
},
{
"KEY": "dev", "VALUE": "2"
}
]Example output with stripHtmlFromHeadings:false
[
{
"KEY": "abc", "<b>VALUE</b>": "1"
},
{
"KEY": "dev", "<b>VALUE</b>": "2"
}
]Strip any HTML from tableBody cells. Default is true.
||KEY || VALUE||
|-----|-----------|
|abc | <i>1</i>|
|dev | <i>2</i>|Example output with stripHtmlFromHeadings:true
[
{
"KEY": "abc", "VALUE": "1"
},
{
"KEY": "dev", "VALUE": "2"
}
]Example output with stripHtmlFromHeadings:false
[
{
"KEY": "abc", "VALUE": "<i>1</i>"
},
{
"KEY": "dev", "VALUE": "<i>2</i>"
}
]Instead of using column text (that sometime re-order the data), force an index as a number (string number).
{
"0": "",
"1": "A会",
"2": "B会",
"3": "C会",
"4": "Something",
"5": "Else",
"6": ""
}Default is true. If set to false, duplicate headings will not get a trailing
number. The value of the field will be the last value found in the table row:
||PLACE || VALUE || PLACE || VALUE||
|-------|--------|--------|--------|
| abc | 1 | def | 2 |
| ghi | 3 | jkl | 4 |Example output with countDuplicateHeadings:false
[
{
"PLACE": "def", "VALUE": "2"
},
{
"PLACE": "jkl", "VALUE": "4"
}
]Array of indexes to be ignored, starting with 0. Default is 'null/undefined'.
|| NAME || PLACE || WEIGHT || SEX || AGE ||
|-------|--------|---------|------|-------|
| Mel | 1 | 58 | W | 23 |
| Bill | 3 | 92 | M | 31 |
| Tom | 2 | 78 | M | 54 |Example output with ignoreColumns: [2, 3]
[
{
"NAME": "Mel", "PLACE": "1", "AGE": "23"
},
{
"NAME": "Tom", "PLACE": "2", "AGE": "54"
},
{
"NAME": "Bill", "PLACE": "3", "AGE": "31"
}
]Array of indexes that are taken, starting with 0. Default is 'null/undefined'. If given, this option overrides ignoreColumns.
|| NAME || PLACE || WEIGHT || SEX || AGE ||
|-------|--------|---------|------|-------|
| Mel | 1 | 58 | W | 23|
| Tom | 2 | 78 | M | 54|
| Bill | 3 | 92 | M | 31|Example output with onlyColumns: [0, 4]
[
{
"NAME": "Mel", "AGE": "23"
},
{
"NAME": "Tom", "AGE": "54"
},
{
"NAME": "Bill", "AGE": "31"
}
]ignoreHiddenRows
Indicates if hidden rows (display:none) are ignored. Default is true:
|| NAME || PLACE || WEIGHT || SEX || AGE ||
|-------|--------|---------|------|-------|
| Mel | 1 | 58 | W | 23|
| Tom | 2 | 78 | M | 54|
| Bill | 3 | 92 | M | 31|
|* Cat | 4 | 4 | W | 2*|Example output with ignoreHiddenRows:true
[
{
"NAME":"Mel",
"PLACE":"1",
"WEIGHT":"58",
"SEX":"W",
"AGE":"23"
},
{
"NAME":"Tom",
"PLACE":"2",
"WEIGHT":"78",
"SEX":"M",
"AGE":"54"
},
{
"NAME":"Bill",
"PLACE":"3",
"WEIGHT":"92",
"SEX":"M",
"AGE":"31"
}
]Example output with ignoreHiddenRows:false
[
{
"NAME":"Mel",
"PLACE":"1",
"WEIGHT":"58",
"SEX":"W",
"AGE":"23"
},
{
"NAME":"Tom",
"PLACE":"2",
"WEIGHT":"78",
"SEX":"M",
"AGE":"54"
},
{
"NAME":"Bill",
"PLACE":"3",
"WEIGHT":"92",
"SEX":"M",
"AGE":"31"
},
{
"NAME":"Cat",
"PLACE":"4",
"WEIGHT":"4",
"SEX":"W",
"AGE":"2"
}
]Array of Strings to be used as headings. Default is null/undefined.
If more headings are given than columns exist the overcounting ones will be ignored. If less headings are given than existing values the overcounting values are ignored.
|| NAME || PLACE || WEIGHT || SEX || AGE ||
|-------|--------|---------|------|-------|
| Mel | 1 | 58 | W | 23|
| Tom | 2 | 78 | M | 54|
| Bill | 3 | 92 | M | 31|
|* Cat | 4 | 4 | W | 2*|Example output with headings: ['A','B','C','D','E']
[
{
"A":"Mel",
"B":"1",
"C":"58",
"D":"W",
"E":"23"
},
{
"A":"Tom",
"B":"2",
"C":"78",
"D":"M",
"E":"54"
},
{
"A":"Bill",
"B":"3",
"C":"92",
"D":"M",
"E":"31"
}
]Example output with headings: ['A','B','C']
[
{
"A":"Mel",
"B":"1",
"C":"58"
},
{
"A":"Tom",
"B":"2",
"C":"78"
},
{
"A":"Bill",
"B":"3",
"C":"92"
}
]Example output with headings: ['A','B','C','D','E','F','G','H']
[
{
"A":"Mel",
"B":"1",
"C":"58",
"D":"W",
"E":"23"
},
{
"A":"Tom",
"B":"2",
"C":"78",
"D":"M",
"E":"54"
},
{
"A":"Bill",
"B":"3",
"C":"92",
"D":"M",
"E":"31"
}
]Example output with headings: ['A','B','C'] && ignoreColumns: [2, 3]
[
{
"A":"Mel",
"B":"W",
"C":"23"
},
{
"A":"Tom",
"B":"M",
"C":"54"
},
{
"A":"Bill",
"B":"M",
"C":"31"
}
]Number of rows to which the resulting object should be limited to. Default is
null/undefined.
|| Roleplayer Number || Name || Text to say||
|--------------------|------------------|--------------|
| 0 | Raife Parkinson | re dolor in hendrerit in vulputate ve|
| 1 | Hazel Schultz | usto duo dolores et ea rebum. Ste|
| 2 | Montana Delgado | psum dolor sit amet. Lorem ipsum dolor|
| 3 | Dianne Mcbride | sit ame olor sit amet. Lorem ipsum|
| 4 | Xena Lynch | us est Lorem ipsum dol|
| 5 | Najma Holding | akimata sanctus est Lorem ipsum dolor sit|
| 6 | Kiki House | ame nvidunt ut|
|...|
|197 | Montana Delgado | lores et ea rebum. Stet clita kasd gu a|
|198 | Myrtle Conley | rebum. Stet clita kasd gubergren, no sea|
|199 | Hanna Ellis | kimata sanctus est Lorem ipsum dolor si|[
{
"Roleplayer Number":"0",
"Name":"Raife Parkinson",
"Text to say":"re dolor in hendrerit in vulputate ve"
},
{
"Roleplayer Number":"1",
"Name":"Hazel Schultz",
"Text to say":"usto duo dolores et ea rebum. Ste"
},
{
"Roleplayer Number":"2",
"Name":"Montana Delgado",
"Text to say":"psum dolor sit amet. Lorem ipsum dolor sit ame"
},
{
"Roleplayer Number":"3",
"Name":"Dianne Mcbride",
"Text to say":"olor sit amet. Lorem ipsum"
},
{
"Roleplayer Number":"4",
"Name":"Xena Lynch",
"Text to say":"us est Lorem ipsum dol"
}
]Array of classes to find a specific table using this class. Default is null/
undefined.
- Tables needs to be "well formatted" to be convertable.
- Tables in tables are not processed.
- Only supports parsing basic tables with horizontal set of
<th></th>headings and corresponding<td></td>cells, but also taking care of rowspan and colspan. It can give useless or weird results on tables that have complex structures (such as nested tables) or multiple headers (such as on both X and Y axis). - You'll need to handle tables to parse and (in most cases) clean up the data. You might want to combine it with modules like json2csv or CsvToMarkdownTable.
- You might want to use it with a module like 'cheerio' if you want to parse specific tables identified by id or class (i.e. select them with cheerio and pass the HTML of them as a string).
Find here a list of examples on how to use the library. More examples can be found in the examples folder or in the test folder
import {tabletojson} from 'tabletojson';
const tablesAsJson = tabletojson.convert(html);
const firstTableAsJson = tablesAsJson[0];
const secondTableAsJson = tablesAsJson[1];import {tabletojson} from 'tabletojson';
tabletojson.convertUrl('https://en.wikipedia.org/wiki/List_of_ISO_639-1_codes', function (tablesAsJson) {
console.log(tablesAsJson[1]);
});import {tabletojson} from 'tabletojson';
const url = 'http://en.wikipedia.org/wiki/List_of_countries_by_credit_rating';
tabletojson.convertUrl(url)
.then(function(tablesAsJson) {
const standardAndPoorRatings = tablesAsJson[1];
const fitchRatings = tablesAsJson[2];
});import {tabletojson} from 'tabletojson';
import {Parser} from 'json2csv';
const url = 'http://en.wikipedia.org/wiki/List_of_countries_by_credit_rating';
tabletojson.convertUrl(url).then(function (tablesAsJson) {
const fitchRatings = tablesAsJson[2];
const json2csvParser = new Parser({
fields: ['Country/Region', 'Outlook'],
});
const csv = json2csvParser.parse(fitchRatings);
console.log(csv);
/* Example output
"Country/Region","Outlook"
"Abu Dhabi, UAE","Stable"
"Albania","Stable"
"Andorra","Negative"
"Angola","Stable"
"Argentina","Negative"
"Aruba","Stable"
"Australia","Stable"
"Austria","Negative"
"Azerbaijan","Positive"
...
*/
});Improvements, fixes and suggestions are welcome.
You can find basic tests in the test folder. The library has been implemented to be used straight forward way. Nonetheless there are some edge cases that need to be tested and I would like to ask for support here. Feel free to fork and create PRs here. Every bit of help is appreciated.
For more usage examples have a look in the examples folder that shows usage and would be a good start.
If you submit a pull request, please add an example for your use case, so I can understand what you want it to do (as I want to get around to writing tests for this and want to understand the sort of use cases people have).
- Marius Augenstein (@maugenst)
- Iain Collins (@iaincollins)
- Rory O'Kelly (@roryok)
- Nordes Ménard-Lamarre (@Nordes)
- Max Thyen (@maxthyen)
- Thor Jacobsen (@twjacobsen)
- Michael Keller (@mhkeller)
- Jesús Leganés-Combarro (@piranna)
- João Otávio Ferreira Barbosa (@joaobarbosa)
- Stefano Fadda (@StefanoF)
- Michael Telatynski (@t3chguy)
- @mherzhoff
- Dooho Hyung (@dooho-h)