Version: 1.0

Using Test Data


Flood Element includes a simple facility for loading Test Data from CSV and JSON files, or as a list of data specified directly in the script.

Loading data from inside the script

The simplest way to provide data to your test is right from the script itself:

{ username: 'bob.smith', id: 1 },
{ username: 'arthur.dent', id: 42 },

You may then use the data in your steps:

step('Step 1', async (browser: Browser, row: any) => {
await browser.visit(`${}.html`)
await browser.wait(Until.elementIsVisible(By.partialVisibleText(String(

Loading data from external files

For larger or more complicated data sets, you may load data from CSV or JSON files.

Loading data from a CSV file

If you have data available in a CSV file, perhaps exported from Excel, you can use it to power your test:


CSV column names

Note that the first line of each column is taken to be the name of that column.

This means that if your column names contain spaces, you won't be able to use the javascript . property access notation. Instead use [] notation.


query name,url

would be accessed as:

row['query name']

Loading data from a JSON file

Loading data from a JSON is just as simple as loading from CSV


Data file locations

When running Element in cli mode (element run), place the data files in the same directory as your test script.

When its running as a load test on, upload the data files alongside your script.

Advanced topic: ensuring your data is well-defined

When it's important that your test data is well-defined, Flood Element provides two main approaches: type checking and manual assertion

type checking

Element test scripts are written in TypeScript and are thus type checked before being run. Type checking helps write more reliable code (as well as providing documentation and code completion in your editor).

Its possible to define test data using the any type (as in the examples above). However you could also add explicit type annotations:

import { step, TestData, Browser } from '@flood/element'
interface UserData {
username: string
reportCount: number
// Define test data.
// Only data implementing the UserData interface is allowed
{ username: 'bob', reportCount: 1 },
// example invalid data:
// { username: null }
// { username: 'fred', reportCount: 'none' }
step('Step 1 - reports', async (browser: Browser, data: UserData) => {
await browser.visit(`${data.username}.html`)
const reports = await browser.findElements(By.css('#reports > li'))
assert.equal(reports.length, data.reportCount, 'all user reports found')

manual assertion

A hidden problem with the type checking approach is that it's not possible to automatically type check data loaded in from a CSV or JSON at runtime (The techinal reason is that TypeScript's type annotations are not available at runtime - they're said to be "erased" once compiled)

When loading in data from a file, we can still validate it by using assert. (Note that in this example we're still using type annotations to make the coding experience better)

import { step, TestData, Browser } from '@flood/element'
import * as 'assert'
interface UserData {
username: string
reportCount: number
// Load the test data.
step('Step 1 - reports', async (browser: Browser, data: UserData) => {
// check that data.username is 'truthy'
assert.ok(data.username, 'data.username is set')
// check that data.reportCount is defined.
// Here we check that row.reportCount !== undefined because the number 0 is considered to be 'falsy'
// in javascript
assert.notEqual(data.reportCount, undefined, 'data.reportCount is set')

truthiness and falsiness

'Truthiness' and 'falsiness' refer to the fact that in Javascript (and thus TypeScript), more values than true and false are considered to be true or false in an if statement.

Falsy values are false, "" (an empty string), 0, NaN, null and undefined; all other values are truthy.

Its important to understand this when validating data, since for example a value of 0 might be valid, but would be considered to be false when tested with assert.ok(0).

More information

Find more information in the API reference for TestData, TestDataFactory and TestDataSource, or check out the [Flood challenge with test data][challenge-with-test-data] example script.