Using External REST Services with JDeveloper Part 3

In this blog we look how we can use an external REST service with JDev 12.2.1.2. To make things more interesting we don’t use an ADF based REST service and we look how to get nested data into the UI.

For this sample we like to create an application which allows to search for music tracks and show the results in a table or listview. To get the music data we use a REST service and to display the data we use ADF faces application.

In Part 1 we create the application and the project for the REST Data Control. In Part 2 we started creating the UI using the REST Data Control. In this final part we are enhancing the UI by using nested data from the REST Web Service and add this as column to the search result table. Before we start we look at the use case again.

Use Case

Before we begin implementing something which uses the external REST service we have to think about the use case. We like to implement a music title search using the external MusicBrainz REST service. A user should be able to enter a music title or part of a music title and as a result of the search she/he should get a list of titles, the artist or artists, the album and an id.

 

Handling nested Data

The use case demands that we add the artist and the album the music track is on to the same table. A look at the table in it’s current layout, make this understandable.

First of all we need to identify the dat a we want to add to the table in the response we get from the service.

Let’s investigate the JSON data, part of it, we get from the service for the search for the track ‘yesterday’


 

{
   "created": "2017-08-02T12:42:48.815Z",
   "count": 5985,
   "offset": 0,
   "recordings": [
       {
           "id": "465ad10d-97c9-4cfd-abd3-b765b0924e0b",
           "score": "100",
           "title": "Yesterday",
           "length": 243560,
           "video": null,
           "artist-credit": [
               {
                   "artist": {
                       "id": "351d8bdf-33a1-45e2-8c04-c85fad20da55",
                       "name": "Sarah Vaughan",
                       "sort-name": "Vaughan, Sarah",
                       "aliases": [
                           {
                               "sort-name": "Sarah Vahghan",
                               "name": "Sarah Vahghan",
                               "locale": null,
                               "type": null,
                               "primary": null,
                               "begin-date": null,
                               "end-date": null
                           },
...
                       ]
                   }
               }
           ],
           "releases": [
               {
                   "id": "f088ce44-62fb-4c68-a1e3-e2975eb87f52",
                   "title": "Songs of the Beatles",
                   "status": "Official",
                   "release-group": {
                       "id": "5e4838fa-07f1-3b93-8c9d-e7107774108b",
                       "primary-type": "Album"
                   },
                   "country": "US",

I marked the info ne need in blue in the data above. We see that the artist name is inside a list of name ‘artist_credit’ and that there can be multiple artists inside the ‘artist_credit’. This is a typical master/detail relationship.

The same is true for the album name which is an attribute inside a list of ‘releases’. The big question now is how do we get the nested data into the table as column.

When we expand the MusicBrainz Data Control we see the same structure we saw in the JSON data

So, the data is there, we only need to get to it. The data is structured like a tree and ADF is capable of accessing data in a tree structure (e.g. using an af:tree component). However, we like to use a simple table and don’t want to use a af:tree or af:treeTable. To get to the data, we first have to add the nested structure to the recordings binding we already use to display the current two columns of the table.

Right now we see the first level of the tree, the ‘recodrings’. Click the green ‘+’ sign to add the next level ‘artist_credit’

Add all attributes to the right side

As the artist name is still one level down, click the green ‘+’ sign again and add the ‘artist’ level

And shuffle the id and name attribute to the right side

Finnally we need to add the ‘releases’ level to get to the album name. For this select the ‘recordings’ level (the first) and click the green ‘+’ sign

And shuffle the id, title and track_count to the right side

Now all related data we need can be accessed via the ‘recordings’ binding.

We start with the artist column. Select the af:table in the structure window and open hte properties window

Click the green ‘+’ sign twice in the columns section to add two columns

Select the first added column (score in the image) and change the display label to ‘Artist’ and the component To Use’ to ‘ADF Output Text’. The second added column we change the display label to ‘Album’ and the ‘Component To Use’ again to ‘ADF Output Text’

We change the ‘Value Binding’ in the next step.

To get to the data for the artists we need to traverse two levels of sub rows. First level is the ‘artist_credit’, the second level is the artist itself. Here we have to keep in mind, that there can be more than one artist. In this case we have to join the names into one string for the table. As the ‘artist_credit’ itself can occur more than once, at least that’S what the data structure is telling us, we use an iterator to get the data.

The value property points to the current row and selects the ‘artist_creadit’. Each item we get from this iterator we access via the var property. So the item inside the iterator can be addressed as ‘artists’.

The artists can be one or more so we need another iterator to get to the artist data.

<af:iterator id="i2" value="#{artists.artist}" var="art" varStatus="artStat">

The value property for this iterator points to the artist we got from the outer iterator and is addressed as #{artists.artist}. To access attributes inside the artist data structure we use the var property and set it to ‘art’.

Now we have to somehow joint multiple artist names together if a track has more than one artist. The MusicBrainz Web Service helps us here by providing a ‘joinphrase’ which can be used to build one string for all artists. This ‘joinphrase’ can be .e.g a ‘&’ or a ‘,’. The full column code for the artist looks like

<af:iterator id="i2" value="#{artists.artist}" var="art" varStatus="artStat">

Here is some sample data for a search for the track ‘Something Stupid’ (to make it more readable I removed some attributes

"recordings": [
 {
  "title": "Something Stupid",
  "artist-credit": [
   {
    "joinphrase": " duet with ",
    "artist": {
     "name": "The Mavericks",
    }
   },
   {
    "joinphrase": " & ",
    "artist": {
     "name": "Raul Malo",
    }
   },
   {
    "artist": {
     "name": "Trisha Yearwood",
    }
   }
 ]

This data will be translated into the artist: “The Mavericks duet with Raul Malo & Trisha Yearwood”.

For the album column it’s easier. This too needs an iterator, but we don’t have to go down another level and we don’T have to join the data we get from the iterator. The column code for the album looks like

<af:iterator id="i1" value="#{row.artist_credit}" var="artists">
 <af:iterator id="i2" value="#{artists.artist}" var="art"
                    varStatus="artStat">
   <af:outputText value="#{art.name}#{artists.joinphrase}" id="ot5"/>
 </af:iterator>
</af:iterator>

The whole table for the search results look like

With this the page is ready and we can run the application. After start we see the page

Now entering a search term ‘something stupid’ into the search field will show

or trying the search with ‘dave’ will show

This concludes this mini series about how to use external REST Services and build an ADF UI from it.

The source code for this sample can be loaded from GitHub BlogUsingExternalREST. The sample was done using JDeveloper 12.2.1.2 and don’t use a DB.

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Using External REST Services with JDeveloper (Part 2)

In this blog we look how we can use an external REST service with JDev 12.2.1.2. To make things more interesting we don’t use an ADF based REST service and we look how to get nested data into the UI.

For this sample we like to create an application which allows to search for music tracks and show the results in a table or listview. To get the music data we use a REST service and to display the data we use ADF faces application.

In Part 1 we create the application and the project for the REST Data Control. In Part 2 we start create the UI using the REST Data Control. Before we start we look at the use case again.

Use Case

Before we begin implementing something which uses the external REST service we have to think about the use case. We like to implement a music title search using the external MusicBrainz REST service. A user should be able to enter a music title or part of a music title and as a result of the search she/he should get a list of titles, the artist or artists, the album and an id.

Implementing the UI

In Part 1 we implemented the REST Data Control which we now use to build a small UI. Let’s look at the REST Web Service Data Control in the JDeveloper IDE

Above we see the data control ‘MusicBrainzJSONDC’ with it’s only resource recording, the input parameter names ‘query’ and the return data structure which was created using the sample JSON data we used when creating the REST Web Service Data Control.

When we query the resource we get back a complex data structure which give us information about how many results where found for the query and a list of ‘recordings’ which holds the artist names and the album names as ‘releases’.

To build the result table which should show the title id, the artist or artists and the album we have to go through all the nested data.

Setting up the search page

We start by adding a view the unbounded task flow adfc-config.xml which we name ‘MunicBrainz’ and create the page with a quick layout from the list

Make sure that you have selected to use ‘Facelets’! This will create a starter page with the layout selected. When the page is created it opens up in JDev like

We add an outputText component to the header and set the value to ‘MusicBrainz Test’

The resulting code looks like

For the layout we want to archive (search part and table to show the results) we need another grid row in the panelGridLayout. We drag a GridRow component from the ‘Component palette’ onto the panelGridLayout component in the structure window. You can use the source window too if you like. Dropping a new gridRow in the design isn’t recommended as it’s difficult to control the point where to insert the component.

Now we adjust the height of the rows and set the first row to 50 pixel, the second one to 100 pixel and leave the remaining height to the third gridRow:

Next we add the panelFormLayout holding the search field and the button to search for music tracks. For this we simply drag the ‘recording(String)’ operation from the MusicBrainzJSONDC data control onto the second grid row and drop it as ‘ADF Parameter Form’

we get a dialog showing us the methods parameter. Here we can bind the field to any other data field we like. However, in this case we leave it as is and just click OK

The framework wires everything up for us and we get the page as

Here we change the text on the button to ‘Search’

To see how things are wired up we look at the pagedef for the page

Here we see the method ‘recording’ and can expand it by clicking on the pencil icon

Where we see the details like where the parameter ‘query’ gets it’s value from (#{bindings.query.inputValue}). The ‘query’ binding is defined right above the recording method:

When we select the binding for ‘query’ wee see that the binding points to a variable defined in the pagedef (see Creating Variables and Attribute Bindings to Store Values Temporarily in the PageDef) which holds the value the user enters into the field. The recordings binding and the other stuff we talk about later.

Next up is creating the table with the results returned from the method call. For this we drag the recordings from the methodReturn binding onto the page and drop it as ADF Table into the third gridRow

To get the next dialog

Where we remove every attribute but the ‘id’ and the ‘title’ by selecting the rows and clicking the red ‘x’ icon. We set the row selection to single and make the table ‘read only’

The resulting page looks like

If we run the application now the UI comes up, but we’ll get an exception

Why’s that?

If we look into the servers log we see the error:-


<oracle.adf.view> <Utils> <buildFacesMessage> <ADF: Adding the following JSF error message: JBO-57001: Invocation of service URL used in connection failed with status code 400 Unable to parse search:tnum:.> 
oracle.adf.model.connection.rest.exception.RestConnectionException: JBO-57001: Invocation of service URL used in connection failed with status code 400 Unable to parse search:tnum:.
    at oracle.adf.model.connection.rest.RestConnection.getResponseCheckingStatus(RestConnection.java:783)
    at oracle.adf.model.connection.rest.RestConnection.getResponse(RestConnection.java:629)
    at oracle.adfinternal.model.adapter.ChildOperation.getJerseyResponse(ChildOperation.java:1167)
    at oracle.adfinternal.model.adapter.ChildOperation.makeServerCall(ChildOperation.java:977)
    at oracle.adfinternal.model.adapter.JSONChildOperation.invokeOperationInternal(ChildOperation.java:2056)
    at oracle.adfinternal.model.adapter.ChildOperation.invokeOperation(ChildOperation.java:542)
    at oracle.adf.model.adapter.rest.RestURLDataControl.invokeOperation(RestURLDataControl.java:247)
    at oracle.adf.model.bean.DCBeanDataControl.invokeMethod(DCBeanDataControl.java:512)
    at oracle.adf.model.binding.DCInvokeMethod.callMethod(DCInvokeMethod.java:269)
    at oracle.jbo.uicli.binding.JUCtrlActionBinding.doIt(JUCtrlActionBinding.java:1742)
    at oracle.adf.model.binding.DCDataControl.invokeOperation(DCDataControl.java:2371)
    at oracle.adf.model.bean.DCBeanDataControl.invokeOperation(DCBeanDataControl.java:628)
    at oracle.adf.model.adapter.AdapterDCService.invokeOperation(AdapterDCService.java:316)
    at oracle.jbo.uicli.binding.JUCtrlActionBinding.invoke(JUCtrlActionBinding.java:803)
    at oracle.jbo.uicli.binding.JUMethodIteratorDef$JUMethodIteratorBinding.invokeMethodAction(JUMethodIteratorDef.java:175)

 


Which doesn’t tell us more. What we see is that an ‘invokeMethod’ is the root cause. The reason is that when the pages loads, the iterators in the executable section of the pagedef are fired. As we saw we have two executables and those are giving us the errors.

As the field is empty the recordings method is called without a query parameter. If you mimic this in Postman with the query

http://musicbrainz.org/ws/2/recording/?fmt=json&query=

we get

Exactly the same error, only this time as html.

To solve this problem we have to avoid calling the service without a parameter. This can easily be archived by adding an expression to the executable RefreshCondition property

This we have to both executables in the pagedef. After that running the application will get us

 

This ends part 2 of this series, due to the length and the number of images in this post. The remaining part 3 will cover how to use the nested data and to add it to the search result table and provide the link to the sample application.

JDeveloper 12.2.1.2 is out

Aside

Today October, 19th 2016 JDeveloper 12.2.1.2 was released. From the first look at it it’s only a maintenance release.  There is currently no ‘What’s new’ document, only a release notes are available.

The release notes show only some bug fixes and some deprecation. Noteworthy are some changes in the REST runtime. One of them is that ADF REST HTTP PUT is deprecated functionality. From the doc

ADF REST HTTP PUT is deprecated functionality

Oracle has deprecated the functionality for executing HTTP PUT methods on ADF REST resource requests. In the current release, the describe for ADF REST resources continues to display PUT actions when the backing view object has the Update operation enabled (the operation enables both PUT and PATCH methods); however, ADF REST service clients should avoid making PUT requests (replace all items of the view row) as this functionality will be desupported in a future release

Another change in the REST department is that adf date and datetime attributes are no longer described as string but as date and datetime. Interesting if you work with ADFbc and Oracle JET.

There are some other small bug fixes and deprecation’s of oracle.domain data types and the dvt:stockGraph. You should use dvt:stockChart instead.

Let’s wait if Oracle releases an ‘What’s new’ document in hte near (?) future which will spear us some time searching for new stuff 🙂