Overview
This guide will walk you through creating an EMDK For Android application that will use SimulScan APIs introduced in EMDK V 3.1, to capture critical data from documents. This facilitates capturing fields of interest from a document and converting them into data that an end-user application can use immediately at the point of transaction.
Different ways of capturing data from documents using SimulScan API are:
- Barcode - Productivity gain by decoding multiple bar codes read with a single trigger pull.
- OCR (Optical Character Recognition) - Automated data entry with character recognition [OCR].
- OMR (Optical Mark Recognition) - Simplified workflow exceptions with checked mark recognition [OMR] and Signature presence detection.
We discussed SimulScan API is used to capture above mentioned different types of data from documents. But what types of documents are these? Well, these documents are treated as templates where you know the position of the data that you need to capture. You mark positions of the data of your interest on a template and once you capture the document, SimulScan API would access to data at the positions you mentioned on the template.
Templates:
You can use an existing template or create your own template depending on the data that needs to be captured from the document. Click here to login using your partner credentials and create your own template by uploading image of your form. Once you upload the image of your form, you can mark the fields that needs to be captured and create a new template. Now, if you load this template in your SimulScan tutorial application and capture image of the document, it would automatically recognize fields of your interest on the template that you marked, capture only those fields and populate them on UI.
Use Case:
The above document has various fields having text, barcode, signature that could be needed to capture and display on UI for an application repeatedly.
Suppose, we need to capture two highlighted fields through our application, which contains barcode and characters.
Problem:
If the required number of fields are more, it could be painful to capture each and every field individually, decode it and populate on UI.
Solution:
SimulScan API could come really handy here as it captures upto 10 barcodes in less than one second. So we will now create a tutorial that would use above form image to create a template and use this template to capture marked fields from that document populating on UI using SimulScan APIs. This will let you know how to create your own template for capturing different fields from any particular document.
Prerequisites
- SimulScan is currently supported on TC55 Rev B KitKat and TC75.
Note: As SimulScan is built into the OS image in the above devices, download the latest OS from SupportCentral.
Creating a Template
Log in using your partner credentials to https://simulscan.zebra.com.
Click on "Create Template" button.
You could see different document types based on your needs. Since we already have a document format that contains barcodes and characters, click "Structured Targets" button.
Take an image of the document and provide path of this image on your machine. You should see following:
Click "Ok" and you would see something like this:
Provide the "Template Name" at the top left corner (Ex: MyTemplate) and press "enter".
Highlight the fields that you want to read when the form is captured through our app. Provide name to each highlighted field on left side under fields section. So we would highlight two sections:
- Shipper's VAT/GST number (Provide "Shippers VATGST number" as the field name). Select OCR processing with word check.
- Barcode at the top right of the document (Provide "postal barcode" as the field name). Select Barcode processing with any barcode type.
Your template should now look like this:
Click "File" and "Download Template" to download this created template on your machine.
Downloaded template is an xml file (Ex: MyTemplate.xml). Put this template file under "/sdcard/simulscan/templates" on your device so that our Android application can detect this template.
This is how you can create your own template to capture any field on any document.
Installing your license
If you are using features that require a license, please follow these steps:
- Request a trial license from Product Manager (Andrew.Knight@zebra.com).
- Copy the License.xml file received from the licensing server to a location on the sdcard.
- Upgrade the TC55 or TC75 software to the latest [2.46 and above for TC55, 0901 and above for TC75].
- Launch the Settings app -> About Phone –> Legal Information -> Symbol Licenses -> Install a license ? -> Yes -> point to the file on the sdcard.
This will install the license . For mass deployment, end customers would need to use StageNow.
Note: Post your queries on SimulScan Launchpad page so the team can assist you at the earliest.
Creating The Project
Note: Provide "SimulScanTutorial" as the project name for this tutorial.
If you are using Android Studio, click here.
If you are using Eclipse with ADT, click here.
Enabling Android Permissions
Modify the Application's Manifest.xml to use the EMDK library and to set permission for the EMDK to scan the barcodes.
You must first enable permissions for 'com.symbol.emdk.permission.EMDK':
You should also add a permission for accessing our template from sdcard 'android.permission.WRITE_EXTERNAL_STORAGE':
<uses-permission android:name="com.symbol.emdk.permission.EMDK" /> <uses-permission android:name="android.permission.WRITE_EXTERNAL_STORAGE" />
Then you must enable the library for EMDK:
<uses-library android:name="com.symbol.emdk" />
Then set orientation to portrait mode to restrict orientation by adding following line in the
<activity>
tag.android:screenOrientation="portrait"
When done, your manifest.xml should look like:
Adding Some Code
Now we will start to add some code.
First you must add references to the libraries:
import com.symbol.emdk.EMDKManager; import com.symbol.emdk.simulscan.SimulScanData; import com.symbol.emdk.simulscan.SimulScanReader; import com.symbol.emdk.simulscan.SimulScanStatusData;
Then you must make the activity to implement following interfaces:
- Implement EMDKListener for using EMDKManager. Use Eclipse's Content Assist to implement the unimplemented functions of
onOpened
andonClosed
. - Implement SimulScanReader.DataListerner, which is an interface for notifying client applications when the scan data is available. Override its
onData
method to receive the scanned data. - Implement SimulScanReader.StatusListerner, which is an interface for notifying client applications to notify scan events. Override its
onStatus
method to receive status of any SimulScan operation that would be performed in the application. - Implement View.OnClickListener and override its
onClick
method to handle on click of buttons. - Implement AdapterView.OnItemSelectedListener and override its
onItemSelected
andonNothingSelected
methods for handling spinner.
Note: If you are using Android Studio, press CTRL+ALT+O or CMD+ALT+O to organize imports.
OR
If you are using Eclipse with ADT, press CTRL+SHFT+O or CMD+SHFT+O to organize imports.
public class MainActivity extends Activity implements EMDKManager.EMDKListener, SimulScanReader.DataListerner, SimulScanReader.StatusListerner, View.OnClickListener, AdapterView.OnItemSelectedListener {
}.. .. .. .. .. .. ... @Override public void onData(SimulScanData simulScanData) { } @Override public void onOpened(EMDKManager emdkManager) { } @Override public void onClosed() { } @Override public void onClick(View v) { } @Override public void onItemSelected(AdapterView<?> parent, View view, int position, long id) { } @Override public void onNothingSelected(AdapterView<?> parent) { } @Override public void onStatus(SimulScanStatusData simulScanStatusData) { }
We will now create some global variables to hold the instance objects of EMDKManager, SimulScanManager and SimulScanReader. These variables would be used throughout the code.
We will then add some UI elements starting with a TextView to display the status of SimulScan operation. The UI would have a Spinner that would contain a list of SimulScan supported devices. The UI would also have two Buttons to start and stop reading template.
The variables would also have a list (readerInfoList) to hold Simulscan supported device and another
synchronized
list (simulScanDataList) to hold various data of the scanned template along with an exception (lastException) to catch exceptions if any.So, overall the variables look like:
// Tag for managing logs private final static String TAG = MainActivity.class.getCanonicalName(); // TextView for displaying status of SimulScan operations private TextView textViewStatus = null; // Spinner for selecting scanning device for SimulScan operation private Spinner deviceSelectionSpinner = null; // Button that triggers reading form elements from the template private Button readButton = null; // Button to stop reading template private Button stopReadButton = null; // Declare a variable to store EMDKManager object private EMDKManager emdkManager = null; // Declare a variable to store SimulScanManager object private SimulScanManager simulscanManager = null; // List of SimulScan supported devices private List<SimulScanReaderInfo> readerInfoList = null; // object for holding EMDKResults data. private EMDKResults results; // provides access to physical SimulScan reader device. private SimulScanReader selectedSimulScanReader = null; // contains a list of SimulScanData, captured through SimulScan operations private List<SimulScanData> simulScanDataList = Collections .synchronizedList(new ArrayList<SimulScanData>()); // Catches Exception private Exception lastException;
The code till here looks like:
- Implement EMDKListener for using EMDKManager. Use Eclipse's Content Assist to implement the unimplemented functions of
Now, let us design a simple UI that has UI components explained above.
So, remove all the code, inside "res/layout/activity_main.xml" and add following XML layout code for UI.
<LinearLayout xmlns:android="https://schemas.android.com/apk/res/android" xmlns:tools="https://schemas.android.com/tools" android:layout_width="match_parent" android:layout_height="wrap_content" android:paddingBottom="@dimen/activity_vertical_margin" android:paddingLeft="@dimen/activity_horizontal_margin" android:paddingRight="@dimen/activity_horizontal_margin" android:paddingTop="@dimen/activity_vertical_margin" android:orientation="vertical" tools:context=".MainActivity" >
</LinearLayout><TextView android:id="@+id/status_view" android:layout_width="wrap_content" android:layout_height="wrap_content" /> <Spinner android:id="@+id/devices_spinner" android:layout_width="wrap_content" android:layout_height="wrap_content" android:layout_marginTop="10dp" /> <LinearLayout android:layout_width="match_parent" android:layout_height="wrap_content" > <Button android:id="@+id/btn_start_read" android:layout_width="wrap_content" android:layout_height="wrap_content" android:text="Read" /> <Button android:id="@+id/btn_stop_read" android:layout_width="wrap_content" android:layout_height="wrap_content" android:text="stop" /> </LinearLayout>
Note: If you are using Android Studio, press CTRL+ALT+I or CMD+ALT+I to auto indent lines.
OR
If you are using Eclipse with ADT, press CTRL+SHFT+F or CMD+SHFT+F to auto indent lines
In the
onCreate
method, we take reference of UI elements that are declared in "res/layout/activity_main.xml" in order to use them in our Activity and add their respective onclick listeners. We then call getEMDKManager so that the EMDK can be initialized and checked to see if it is ready.Finally, we would add methods calls to handle buttons and check boxes events.
// The EMDKManager object will be created and returned in the callback. results = EMDKManager.getEMDKManager(getApplicationContext(), this); // Get references for UI elements textViewStatus = (TextView) findViewById(R.id.status_view); deviceSelectionSpinner = (Spinner) findViewById(R.id.devices_spinner); readButton = (Button) findViewById(R.id.btn_start_read); stopReadButton = (Button) findViewById(R.id.btn_stop_read); // Update Status TextView textViewStatus.setText("Status: " + " Starting.."); // Set listeners for Spinner and buttons deviceSelectionSpinner.setOnItemSelectedListener(this); readButton.setOnClickListener(this); stopReadButton.setOnClickListener(this); if (results.statusCode != EMDKResults.STATUS_CODE.SUCCESS) { textViewStatus.setText("Status: " + "EMDKManager object request failed!"); }
So the complete
onCreate
method looks like:Get EMDK Manager and SimulScanManager objects in the
onOpened
method and update theStatusView
TextView.Now get the list of SimulScan supported devices, iterate over it and set this list to the spinner that we have added in the UI followed by adding listener for this spinner.
So the code performing above operations in sequence looks like:
// This callback will be issued when the EMDK is ready to use. this.emdkManager = emdkManager; // Get the SimulScanManager object simulscanManager = (SimulScanManager) emdkManager .getInstance(EMDKManager.FEATURE_TYPE.SimulScan); if (null == simulscanManager) { textViewStatus.setText("Status: " + "Get SimulScanManager instance failed!"); return; } // Get the SimulScan supported device list readerInfoList = simulscanManager.getSupportedDevicesInfo(); List<String> nameList = new ArrayList<String>(); for (SimulScanReaderInfo rinfo : readerInfoList) { nameList.add(rinfo.getFriendlyName()); } // Add the simulscan supported list to spinner and // set item selected listener addItemsOnSpinner(deviceSelectionSpinner, nameList); deviceSelectionSpinner.setOnItemSelectedListener(this);
The
onOpened
method should look like:You will see an error as we have not added
addItemsOnSpinner
method. So lets add it now. This method would basically get Spinner and list of SimulScan supported device as arguments. It would add this list in an adapter and set that adapter into spinner to display this list on UI.// Add SimulScan supported device list to spinner private void addItemsOnSpinner(Spinner spinner, List<String> list) {
}ArrayAdapter<String> dataAdapter = new ArrayAdapter<String>( this, android.R.layout.simple_spinner_item, list); dataAdapter .setDropDownViewResource(android.R.layout.simple_spinner_dropdown_item); spinner.setAdapter(dataAdapter);
This method should look like:
The user would select any SimulScan supported device from the list in spinner. So we need get that SimulScanReader and initiate it. Since the user would select it from the spinner, we need to add our code in
onItemSelected
method of the spinner that we have already overridden.So this code would get user selected SimulScanReaderInfo from the spinner and pass it to
simulScanManager.get
to get the user selected SimulScanReader object. This SimulScanReader object represents the current SimulScan Reader device selected by user from the spinner of simulscan supported devices. We would then initialize or deinitialize this SimulScanReader using respective methods.// Initialize the selected Simul Scan device if (parent.equals(deviceSelectionSpinner)) { if (simulscanManager != null) { SimulScanReaderInfo readerInfo = readerInfoList.get(position); if (readerInfo != null) { try { deinitCurrentScanner(); selectedSimulScanReader = simulscanManager .getDevice(readerInfo); initCurrentScanner(); } catch (SimulScanException e) { e.printStackTrace(); textViewStatus.setText("Status: " + "Error enabling reader"); } } } }
So the
onItemSelected
method should now look like:We would simply de-initialize scanner in
onNothingSelected
method when nothing is selected in the spinner as follows:// De-initialize device spinner when nothing is selected if (parent.equals(deviceSelectionSpinner)) { try { deinitCurrentScanner(); } catch (SimulScanException e) { e.printStackTrace(); } }
The
onNothingSelected
method should now look like:Lets add
initCurrentScanner
anddeinitCurrentScanner
methods to initialize and de-initialize the current scanner respectively. This would also get read of errors.// Initialize Simul scanner by enabling // simulscan reader and setting listeners private void initCurrentScanner() throws SimulScanException { selectedSimulScanReader.addStatusListener(this); selectedSimulScanReader.addDataListener(this); selectedSimulScanReader.enable(); }
The
initCurrentScanner
method would add data and status listeners to the current scanner (SimulScanReader device) to receive scanned data and status notifications respectively. Finally it would enable the scanner.// De-Initialize scanner by removing listeners and canceling pending reads private void deinitCurrentScanner() throws SimulScanException { if (selectedSimulScanReader != null) { if (selectedSimulScanReader.isReadPending()) selectedSimulScanReader.cancelRead(); if (selectedSimulScanReader.isEnabled()) selectedSimulScanReader.disable(); selectedSimulScanReader.removeDataListener(this); selectedSimulScanReader.removeStatusListener(this); selectedSimulScanReader = null; } }
The
deinitCurrentScanner
method would cancel any pending reads and then disable the current scanner (SimulScanReader device). It would then remove data and status listeners.Both
initCurrentScanner
anddeinitCurrentScanner
methods should look like:According to the life cycle of Activity, we would add
onStart
andonStop
methods to enable and disable the scanner (SimulScanReader device) respectively as follows:Code for
onStart
method:@Override public void onStart() { super.onStart(); if (selectedSimulScanReader != null) try { if (!selectedSimulScanReader.isEnabled()) // Enable SimulScan Reader selectedSimulScanReader.enable(); } catch (SimulScanException e) { e.printStackTrace(); textViewStatus.setText("Status: " + "Error enabling reader"); } }
Code for
onStop
method:@Override public void onStop() { if (selectedSimulScanReader != null) { if (selectedSimulScanReader.isReadPending()) { try { // Cancel any pending SimulScan Read selectedSimulScanReader.cancelRead(); } catch (SimulScanException e) { e.printStackTrace(); } } try { if (selectedSimulScanReader.isEnabled()) { // Disable SimulScan Reader selectedSimulScanReader.disable(); } } catch (SimulScanException e) { e.printStackTrace(); } } super.onStop(); }
Both
onStart
andonStop
methods should now look like:Now we would add a method to set SimulScanConfig settings, where we would set different parameters for the current scanner (SimulScanReader device) as follows:
// Set SimulScan Config settings private void setCurrentConfig() throws Exception { if (selectedSimulScanReader != null) { SimulScanConfig config = selectedSimulScanReader.getConfig(); if (config != null) { // Get the template path from the storage String templatePath = Environment.getExternalStorageDirectory().toString() + "/simulscan/templates/MyTemplate.xml"; File file = new File(templatePath); // Get the SimulScan Template SimulScanMultiTemplate myTemplate = new SimulScanMultiTemplate(simulscanManager, Uri.fromFile(file));
}// Set the template with SimulScanConfig settings if(myTemplate != null) config.multiTemplate = myTemplate; // Amount of time in milliseconds to wait before timing out identification. config.identificationTimeout = 15000; // Amount of time in milliseconds to wait before timing out processing. config.processingTimeout = 10000; // If userConfirmationOnScan is true, shows UI for user to confirm // the scanned data before sending results to application. config.userConfirmationOnScan = true; // If true, form will be captured automatically when detected config.autoCapture = true; // If enabled, allows a session to write form capture, region images, // region values, and other data to storage. config.debugMode = false; // Turn on/off audio feedback. config.audioFeedback = true; // Turn on/off haptic feedback. config.hapticFeedback = true; // Turn on/off LED feedback. config.ledFeedback = true; // Set SimulScanConfig selectedSimulScanReader.setConfig(config); } }
setCurrentConfig
method should now look like:In this step, we would add methods that would actually start (
readCurrentScanner
) and stop (stopReadCurrentScanner
) reading templates with the help of SimulScanReader instance for the current scanner that we created.So lets add
readCurrentScanner
method first.// Start reading template through SimulScanReader private void readCurrentScanner() throws Exception { setCurrentConfig(); if (selectedSimulScanReader != null) { selectedSimulScanReader.read(); } }
And then
stopReadCurrentScanner
method.// Cancel/Stop reading template through SimulScanReader private void stopReadCurrentScanner() throws SimulScanException { if (selectedSimulScanReader != null) selectedSimulScanReader.cancelRead(); }
The methods
readCurrentScanner
andstopReadCurrentScanner
should now look like:We would now add the code in
onClick
method that is overridden for the "Start" and "Stop" buttons in the UI that would callreadCurrentScanner
andstopReadCurrentScanner
methods to start and stop the template reading respectively on click of these buttons.Add following code in the
onClick
method.// Start reading template if(v.equals(readButton)){ try { readCurrentScanner(); } catch (Exception e) { lastException = e; textViewStatus.post(new Runnable() { @Override public void run() { textViewStatus.setText("Status: " + lastException.getMessage()); } }); e.printStackTrace(); } } // Cancel/Stop reading template if(v.equals(stopReadButton)){ try { stopReadCurrentScanner(); } catch (SimulScanException e) { lastException = e; textViewStatus.post(new Runnable() { @Override public void run() { textViewStatus.setText("Status: " + lastException.getMessage()); } }); e.printStackTrace(); } }
You can see the code and understand that if "readButton" button is pressed, it calls
readCurrentScanner
method to read template. If "stopReadButton" button is pressed, it would callstopReadCurrentScanner
method to stop/cancel reading the template. The status would be updated on "ViewStatus" text view in both the operations.The entire
onClick
method should now look like:Once we start scanning a template, we would get the template data in
onData
and status while executing scanning operations inonStatus
methods respectively that have been overridden already but not handled yet.So lets handle them starting with
onData
method, which is a callback method upon data availability.onData
method contains SimulScanData object that has the scanned data of a template. We would add this object to simulScanDataList that we had created to use it while displaying data.// clear the SimulScanDataList before adding new scanned data synchronized (simulScanDataList) { simulScanDataList.clear(); } // Add Scanned data to SimulScanDataList synchronized (simulScanDataList) { simulScanDataList.add(simulScanData); }
So the
onData
method should now look like:The status of any SimulScan operation is received in
onStatus
method, which is a callback method upon scan status event occurs.We would update the "StatusView" TextView based on the status on UI thread using following code in
onStatus
method.// Update Status View with the updated SimulScan operation status textViewStatus.post(new StatusDataRunnable(simulScanStatusData));
The
onStatus
method should look like:You can see an error as we have not created a class
StatusDataRunnable
implementing runnable to update "StatusView" on UI thread.Lets do that by creating a class implementing runnable and taking SimulScanStatusData as an argument in constructor.
simulScanStatusData.getState()
would return you the current status of scanner, which would be updated on "StatusView" TextView.Following is the code for
StatusDataRunnable
class:// Update SimulScan operation status on Status View private class StatusDataRunnable implements Runnable { SimulScanStatusData statusData = null;
}StatusDataRunnable(SimulScanStatusData statusData) { this.statusData = statusData; } @Override public void run() { if (statusData != null) { switch (statusData.getState()) { case DISABLED: textViewStatus.setText("Status: " + statusData.getFriendlyName() + ": Closed reader successfully"); break; case ENABLED: textViewStatus.setText("Status: " + statusData.getFriendlyName() + ": Opened reader successfully"); break; case SCANNING: textViewStatus.setText("Status: " + statusData.getFriendlyName() + ": Started reader successfully"); break; case IDLE: textViewStatus.setText("Status: " + statusData.getFriendlyName() + ": Stopped reader successfully"); break; case ERROR: textViewStatus.setText("Status: " + statusData.getFriendlyName() + ": Error-" + statusData.extendedInfo.getExtendedStatus()); break; case UNKNOWN: default: break; } } }
The
StatusDataRunnable
class should look like:Finally, we would update "StatusView" TextView in the
onClosed
method for any abrupt closing of EMDK using following line.textViewStatus.setText("Status: " + "EMDK closed unexpectedly!");
So the
onClosed
method should now look like:That's it!!! We are done with all the coding and configuration part that will let us scan the template stored in sdcard and display fields that we marked in the template, on Symbol device UI using SimulScan APIs introduced in EMDK V 3.1. Now let us run the application.
Running the Application
Connect the device (having latest EMDK runtime) to USB port.
Note:
Make sure the device is in USB debug.Run the application.
You can see a message on the "StatusView" that indicates EMDK Manager has been successfully initialized and reader has been opened successfully.
You can select different SimulScanReader device by clicking on Spinner but as of now TC55 supports only Internal Camera for SimulScan. Hence its the only device in the spinner.
Once selecting Internal Camera as SimulScanReader device from the spinner, click read button. It opens the Internal Camera.
You can see that its searching for "MyTemplate" that we had set.
Place Internal Camera above the printed copy of "MyTemplate". It would process the template by outlining it and read the marked fields in the template viz. Shipper's VAT/GST Number and barcode at the top right.
You can see that SimulScanReader device has successfully scanned and parsed the Shipper's VAT/GST number and barcode fields and displayed them on UI. You can press "Accept" button at the bottom to use these values in your application.
If the SimulScanReader device is not sure about the correctness of scanned fields, it would display them in red background. It means you need to re-scan the template by pressing "Rescan" button at the bottom left.
You can see the message "Check Result", which indicates that you need to re-scan the template to get correct data from marked fields of the template until the "Check Result" message is not shown like below:
This illustrates how to access critical fields from a document using SimulScan APIs by creating its template from the Template Builder.
Important Programming Tips
It is required to do the following changes in the application's AndroidManifest.xml:
Note:
- Include the permission for EMDK:
<uses-permission android:name="com.symbol.emdk.permission.EMDK"/> <uses-permission android:name="android.permission.WRITE_EXTERNAL_STORAGE" />
Note:
- Use the EMDK library:
<uses-library android:name="com.symbol.emdk"/>
Installing the EMDK for Android application without deploying the EMDK runtime on the Symbol device will fail because of missing shared library on the device.
Place the template in the SD Card before accessing it from the application.