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import current from '/version.js'; import CodeBlock from '@theme/CodeBlock';
export const g = {style: {color:"green"}}; export const r = {style: {color:"red"}}; export const y = {style: {color:"gold"}};
NativeScript is a mobile app framework. It builds iOS and Android apps that use JavaScript for describing layouts and events.
SheetJS is a JavaScript library for reading and writing data from spreadsheets.
This demo uses NativeScript and SheetJS to process and generate spreadsheets. We'll explore how to load SheetJS in a NativeScript app; parse and generate spreadsheets stored on the device; and fetch and parse remote files.
The "Complete Example" creates an app that looks like the screenshots below:
iOS | Android |
---|---|
:::info pass
The discussion covers the NativeScript + Angular integration. Familiarity with Angular and TypeScript is assumed.
:::
:::note Tested Deployments
This demo was tested in the following environments:
Simulators
OS | Device | NS | Dev Platform | Date |
---|---|---|---|---|
Android 34 | Pixel 3a | 8.6.1 |
darwin-x64 |
2023-12-04 |
iOS 17.0.1 | iPhone SE (3rd gen) | 8.6.1 |
darwin-x64 |
2023-12-04 |
Android 34 | Pixel 3a | 8.6.5 |
win10-x64 |
2024-04-07 |
Real Devices
OS | Device | NS | Date |
---|---|---|---|
Android 30 | NVIDIA Shield | 8.6.5 |
2024-04-07 |
iOS 15.1 | iPad Pro | 8.6.1 |
2023-12-04 |
:::
:::danger Telemetry
Before starting this demo, manually disable telemetry.
NativeScript 8.6.1 split the telemetry into two parts: "usage" and "error". Both must be disabled separately:
npx -p nativescript ns usage-reporting disable
npx -p nativescript ns error-reporting disable
To verify telemetry was disabled:
npx -p nativescript ns usage-reporting status
npx -p nativescript ns error-reporting status
:::
Integration Details
The SheetJS NodeJS Module can be imported from any component or script in the app.
The @nativescript/core/file-system
package provides classes for file access.
The File
class does not support binary data, but the file access singleton
from @nativescript/core
does support reading and writing ArrayBuffer
data.
Reading and writing data require a URL. The following snippet searches typical document folders for a specified filename:
import { Folder, knownFolders, path } from '@nativescript/core/file-system';
function get_url_for_filename(filename: string): string {
const target: Folder = knownFolders.documents() || knownFolders.ios.sharedPublic();
return path.normalize(target.path + "///" + filename);
}
App Configuration
Due to privacy concerns, apps must request file access. There are special APIs for accessing data and are subject to change in future platform versions.
Technical Details (click to show)
Android
Android security has evolved over the years. In newer Android versions, the following workarounds were required:
READ_EXTERNAL_STORAGE
andWRITE_EXTERNAL_STORAGE
allow apps to access files outside of the app scope. These are required for scoped storage access.
When the demo was last tested, this option was enabled by default.
android:requestLegacyExternalStorage="true"
enabled legacy behavior in some older releases.
The manifest is saved to App_Resources/Android/src/main/AndroidManifest.xml
:
<application
<!-- highlight-next-line -->
android:requestLegacyExternalStorage="true"
android:name="com.tns.NativeScriptApplication"
android:allowBackup="true"
android:icon="@mipmap/ic_launcher"
android:label="@string/app_name"
android:theme="@style/AppTheme"
android:hardwareAccelerated="true">
- Permissions must be explicitly requested.
@nativescript-community/perms
is a community module for managing permissions:
import { request } from '@nativescript-community/perms';
import { File } from '@nativescript/core/file-system';
Storage access must be requested before writing data:
/* request permissions */
const res = await request('storage');
The external paths can be resolved using the low-level APIs:
/* find Downloads folder */
const dl_dir = android.os.Environment.DIRECTORY_DOWNLOADS;
const dl = android.os.Environment.getExternalStoragePublicDirectory(dl_dir).getAbsolutePath();
/* write to file */
File.fromPath(dl + "/SheetJSNS.xls").writeSync(data);
Reading Local Files
getFileAccess().readBufferAsync
can read data into an ArrayBuffer
object.
The SheetJS read
method1 can parse this data into a workbook object.2
import { getFileAccess } from '@nativescript/core';
import { read } from 'xlsx';
/* find appropriate path */
const url = get_url_for_filename("SheetJSNS.xls");
/* get data */
const ab: ArrayBuffer = await getFileAccess().readBufferAsync(url);
/* read workbook */
const wb = read(ab);
After parsing into a workbook, the sheet_to_json
3 method can generate row
data objects:
import { utils } from 'xlsx';
/* grab first sheet */
const wsname: string = wb.SheetNames[0];
const ws = wb.Sheets[wsname];
/* generate array of row objects */
const data = utils.sheet_to_json(ws);
Writing Local Files
The SheetJS write
method4 with the option type: "binary"
will generate
Uint8Array
objects. getFileAccess().writeBufferAsync
can write data from a
Uint8Array
object to the device.
iOS supports Uint8Array
directly but Android requires a true array of numbers:
import { getFileAccess } from '@nativescript/core';
import { write } from 'xlsx';
/* find appropriate path */
const url = get_url_for_filename("SheetJSNS.xls");
/* generate Uint8Array */
const u8: Uint8Array = write(wb, { bookType: 'xls', type: 'binary' });
/* attempt to save Uint8Array to file */
await getFileAccess().writeBufferAsync(url, global.isAndroid ? (Array.from(u8) as any) : u8);
A worksheet can be generated from an array of row objects with the SheetJS
json_to_sheet
method5. After generating an array, the book_new
and
book_append_sheet
methods6 can create the workbook.
Fetching Remote Files
getFile
from @nativescript/core/http
can download files. After storing the
file in a temporary folder, getFileAccess().readBufferAsync
can read the data
and the SheetJS read
method7 can parse the file:
import { knownFolders, path, getFileAccess } from '@nativescript/core'
import { getFile } from '@nativescript/core/http';
import { read } from 'xlsx';
/* generate temporary path for the new file */
const temp: string = path.join(knownFolders.temp().path, "pres.xlsx");
/* download file */
const file = await getFile("https://sheetjs.com/pres.xlsx", temp)
/* get data */
const ab: ArrayBuffer = await getFileAccess().readBufferAsync(file.path);
/* read workbook */
const wb = read(ab);
Complete Example
Platform Configuration
- Disable telemetry:
npx -p nativescript ns usage-reporting disable
npx -p nativescript ns error-reporting disable
- Follow the official Environment Setup instructions8.
:::caution pass
When the demo was last tested, the latest version of the Android API was 34.
NativeScript did not support that API level. The exact error message from
npx -p nativescript ns doctor ios
clearly stated supported versions:
✖ No compatible version of the Android SDK Build-tools are installed on your system. You can install any version in the following range: '>=23 <=33'.
The SDK Platform Android 13.0 ("Tiramisu")
was compatible with NativeScript.
Until NativeScript properly supports API level 34, "Tiramisu" must be used.
This requires installing the following packages from Android Studio:
Android 13.0 ("Tiramisu")
API Level33
Android SDK Build-Tools
Version33.0.2
:::
- Test the local system configuration for Android development:
npx -p nativescript ns doctor android
In the last macOS test, the following output was displayed:
Expected output (click to hide)
✔ Getting environment information No issues were detected. ✔ Your ANDROID_HOME environment variable is set and points to correct directory. ✔ Your adb from the Android SDK is correctly installed. ✔ The Android SDK is installed. ✔ A compatible Android SDK for compilation is found. ✔ Javac is installed and is configured properly. ✔ The Java Development Kit (JDK) is installed and is configured properly. ✔ Getting NativeScript components versions information... ✔ Component nativescript has 8.6.1 version and is up to date.
- Test the local system configuration for iOS development (macOS only):
npx -p nativescript ns doctor ios
In the last macOS test, the following output was displayed:
Expected output (click to hide)
✔ Getting environment information No issues were detected. ✔ Xcode is installed and is configured properly. ✔ xcodeproj is installed and is configured properly. ✔ CocoaPods are installed. ✔ CocoaPods update is not required. ✔ CocoaPods are configured properly. ✔ Your current CocoaPods version is newer than 1.0.0. ✔ Python installed and configured correctly. ✔ The Python 'six' package is found. ✔ Xcode version 15.0.1 satisfies minimum required version 10. ✔ Getting NativeScript components versions information... ✔ Component nativescript has 8.6.1 version and is up to date.
Base Project
- Create a skeleton NativeScript + Angular app:
npx -p nativescript ns create SheetJSNS --ng
- Launch the app in the android simulator to verify the app:
cd SheetJSNS
npx -p nativescript ns run android
(this may take a while)
Once the simulator launches and the test app is displayed, end the script by
selecting the terminal and pressing CTRL+C. On Windows, if
prompted to Terminate batch job
, type y
and press Enter.
:::note pass
If the emulator is not running, nativescript
may fail with the message:
Emulator start failed with: No emulator image available for device identifier 'undefined'.
:::
Add SheetJS
:::note pass
The goal of this section is to display the SheetJS library version number.
:::
- From the project folder, install the SheetJS NodeJS module:
{\ npm i --save https://cdn.sheetjs.com/xlsx-${current}/xlsx-${current}.tgz
}
- Edit
src/app/item/items.component.ts
so that the component imports the SheetJS version string and adds it to aversion
variable in the component:
// highlight-next-line
import { version } from 'xlsx';
import { Component, OnInit } from '@angular/core'
// ...
export class ItemsComponent implements OnInit {
items: Array<Item>
// highlight-next-line
version = `SheetJS - ${version}`;
constructor(private itemService: ItemService) {}
// ...
- Edit the template
src/app/item/items.component.html
to referenceversion
in the title of the action bar:
<!-- highlight-next-line -->
<ActionBar [title]="version"></ActionBar>
<GridLayout>
<!-- ... -->
- End the script and relaunch the app in the Android simulator:
npx -p nativescript ns run android
The title bar should show the version.
Local Files
- Add the Import and Export buttons to the template:
<ActionBar [title]="version"></ActionBar>
<!-- highlight-start -->
<StackLayout>
<StackLayout orientation="horizontal">
<Button text="Import File" (tap)="import()" style="padding: 10px"></Button>
<Button text="Export File" (tap)="export()" style="padding: 10px"></Button>
</StackLayout>
<!-- highlight-end -->
<ListView [items]="items">
<!-- ... -->
</ListView>
<!-- highlight-next-line -->
</StackLayout>
- Add the
import
andexport
methods in the component script:
// highlight-start
import { version, utils, read, write } from 'xlsx';
import { Dialogs, getFileAccess } from '@nativescript/core';
import { Folder, knownFolders, path } from '@nativescript/core/file-system';
// highlight-end
import { Component, OnInit } from '@angular/core'
import { Item } from './item'
import { ItemService } from './item.service'
// highlight-start
function get_url_for_filename(filename: string): string {
const target: Folder = knownFolders.documents() || knownFolders.ios.sharedPublic();
return path.normalize(target.path + "///" + filename);
}
// highlight-end
@Component({
selector: 'ns-items',
templateUrl: './items.component.html',
})
export class ItemsComponent implements OnInit {
items: Array<Item>
version: string = `SheetJS - ${version}`;
constructor(private itemService: ItemService) {}
ngOnInit(): void {
this.items = this.itemService.getItems()
}
// highlight-start
/* Import button */
async import() {
}
/* Export button */
async export() {
}
// highlight-end
}
- End the script and relaunch the app in the Android simulator:
npx -p nativescript ns run android
Two buttons should appear just below the header:
- Implement import and export by adding the highlighted lines:
/* Import button */
async import() {
// highlight-start
/* find appropriate path */
const url = get_url_for_filename("SheetJSNS.xls");
try {
await Dialogs.alert(`Attempting to read from SheetJSNS.xls at ${url}`);
/* get data */
const ab: ArrayBuffer = await getFileAccess().readBufferAsync(url);
/* read workbook */
const wb = read(ab);
/* grab first sheet */
const wsname: string = wb.SheetNames[0];
const ws = wb.Sheets[wsname];
/* update table */
this.items = utils.sheet_to_json<Item>(ws);
} catch(e) { await Dialogs.alert(e.message); }
// highlight-end
}
/* Export button */
async export() {
// highlight-start
/* find appropriate path */
const url = get_url_for_filename("SheetJSNS.xls");
try {
/* create worksheet from data */
const ws = utils.json_to_sheet(this.items);
/* create workbook from worksheet */
const wb = utils.book_new();
utils.book_append_sheet(wb, ws, "Sheet1");
/* generate Uint8Array */
const u8: Uint8Array = write(wb, { bookType: 'xls', type: 'buffer' });
/* attempt to save Uint8Array to file */
await getFileAccess().writeBufferAsync(url, global.isAndroid ? (Array.from(u8) as any) : u8);
await Dialogs.alert(`Wrote to SheetJSNS.xls at ${url}`);
} catch(e) { await Dialogs.alert(e.message); }
// highlight-end
}
Android
- Launch the app in the Android Simulator:
npx -p nativescript ns run android
If the app does not automatically launch, manually open the SheetJSNS
app.
-
Tap "Export File". A dialog will print where the file was written. Typically the URL is
/data/user/0/org.nativescript.SheetJSNS/files/SheetJSNS.xls
-
Pull the file from the simulator. The following commands should be run in a new terminal or PowerShell window:
adb root
adb pull /data/user/0/org.nativescript.SheetJSNS/files/SheetJSNS.xls SheetJSNS.xls
If the emulator cannot be rooted, the following command works in macOS:
adb shell "run-as org.nativescript.SheetJSNS cat /data/user/0/org.nativescript.SheetJSNS/files/SheetJSNS.xls" > SheetJSNS.xls
- Open
SheetJSNS.xls
with a spreadsheet editor.
After the header row, insert a row with cell A2 = 0, B2 = SheetJS, C2 = Library:
id | name | role
# highlight-next-line
0 | SheetJS | Library
1 | Ter Stegen | Goalkeeper
3 | Piqué | Defender
...
- Push the file back to the simulator:
adb push SheetJSNS.xls /data/user/0/org.nativescript.SheetJSNS/files/SheetJSNS.xls
If the emulator cannot be rooted, the following command works in macOS:
dd if=SheetJSNS.xls | adb shell "run-as org.nativescript.SheetJSNS dd of=/data/user/0/org.nativescript.SheetJSNS/files/SheetJSNS.xls"
- Tap "Import File". A dialog will print the path of the file that was read. The first item in the list will change.
iOS
:::danger pass
iOS testing can only be performed on Apple hardware running macOS!
Xcode and iOS simulators are not available on Windows or Linux.
Scroll down to "Fetching Files" for Android device testing.
:::
- Launch the app in the iOS Simulator:
npx -p nativescript ns run ios
-
Tap "Export File". A dialog will print where the file was written.
-
Open the file with a spreadsheet editor.
After the header row, insert a row with cell A2 = 0, B2 = SheetJS, C2 = Library:
id | name | role
# highlight-next-line
0 | SheetJS | Library
1 | Ter Stegen | Goalkeeper
3 | Piqué | Defender
...
-
Restart the app after saving the file.
-
Tap "Import File". A dialog will print the path of the file that was read. The first item in the list will change:
Fetching Files
- In
src/app/item/items.component.ts
, makengOnInit
asynchronous:
async ngOnInit(): Promise<void> {
this.items = await this.itemService.getItems()
}
- Replace
item.service.ts
with the following:
import { Injectable } from '@angular/core'
import { knownFolders, path, getFileAccess } from '@nativescript/core'
import { getFile } from '@nativescript/core/http';
import { read, utils } from 'xlsx';
import { Item } from './item'
interface IPresident { Name: string; Index: number };
@Injectable({ providedIn: 'root' })
export class ItemService {
private items: Array<Item>;
async getItems(): Promise<Array<Item>> {
/* fetch https://sheetjs.com/pres.xlsx */
const temp: string = path.join(knownFolders.temp().path, "pres.xlsx");
const ab = await getFile("https://sheetjs.com/pres.xlsx", temp)
/* read the temporary file */
const wb = read(await getFileAccess().readBufferAsync(ab.path));
/* translate the first worksheet to the required Item type */
const data = utils.sheet_to_json<IPresident>(wb.Sheets[wb.SheetNames[0]]);
return this.items = data.map((pres, id) => ({id, name: pres.Name, role: ""+pres.Index} as Item));
}
getItem(id: number): Item {
return this.items.filter((item) => item.id === id)[0]
}
}
- End the script and relaunch the app in the Android simulator:
npx -p nativescript ns run android
The app should show Presidential data.
Android Device
- Connect an Android device using a USB cable.
If the device asks to allow USB debugging, tap "Allow".
-
Close any Android / iOS emulators.
-
Enable "Legacy External Storage" in the Android app. The manifest is stored at
App_Resources/Android/src/main/AndroidManifest.xml
:
<application
<!-- highlight-next-line -->
android:requestLegacyExternalStorage="true"
android:name="com.tns.NativeScriptApplication"
android:allowBackup="true"
android:icon="@mipmap/ic_launcher"
android:label="@string/app_name"
android:theme="@style/AppTheme"
android:hardwareAccelerated="true">
- Install the
@nativescript-community/perms
dependency:
npm i --save @nativescript-community/perms
- Add the highlighted lines to
items.component.ts
:
- Import
File
from NativeScript core andrequest
from the new dependency:
import { Dialogs, getFileAccess, Utils } from '@nativescript/core';
// highlight-start
import { request } from '@nativescript-community/perms';
import { Folder, knownFolders, path, File } from '@nativescript/core/file-system';
// highlight-end
import { Component, OnInit } from '@angular/core'
// ...
- Add a new write operation to the
export
method:
/* attempt to save Uint8Array to file */
await getFileAccess().writeBufferAsync(url, global.isAndroid ? (Array.from(u8) as any) : u8);
await Dialogs.alert(`Wrote to SheetJSNS.xls at ${url}`);
/* highlight-start */
if(global.isAndroid) {
/* request permissions */
const res = await request('storage');
/* write to Downloads folder */
const dl = android.os.Environment.getExternalStoragePublicDirectory(android.os.Environment.DIRECTORY_DOWNLOADS).getAbsolutePath();
File.fromPath(dl + "/SheetJSNS.xls").writeSync(Array.from(u8));
}
/* highlight-end */
} catch(e) { await Dialogs.alert(e.message); }
- Build APK and run on device:
npx -p nativescript ns run android
If the Android emulators are closed and an Android device is connected, the last command will build an APK and install on the device.
Android Device Testing (click to hide)
When the app launches, if the SheetJS library is loaded and if the device is connected to the Internet, a list of Presidents should be displayed.
Tap "Export File". The app will show an alert. Tap "OK".
Switch to the "Files" app and open the "Downloads" folder. There should be a new
file named SheetJSNS.xls
.
iOS Device
-
Connect an iOS device using a USB cable
-
Close any Android / iOS emulators.
-
Enable developer code signing certificates9
-
Run on device:
npx -p nativescript ns run ios
-
See "Workbook Object" ↩︎
-
See "Workbook Helpers" in "Utilities" for details on
book_new
andbook_append_sheet
. ↩︎ -
See "Local setup" in the NativeScript documentation. For Windows and Linux, follow the "Android" instructions. For macOS, follow both the iOS and Android instructions. ↩︎
-
The Flutter documentation covers the instructions in more detail. The correct workspace is
platforms/ios/SheetJSNS.xcodeproj/project.xcworkspace
↩︎