# Chat Client ```kotlin val chatClient = SportsTalk247.ChatClient( config = ClientConfig( appId = "c84cb9c852932a6b0411e75e", // This is just a sample app id apiToken = "5MGq3XbsspBEQf3kj154_OSQV-jygEKwHJyuHjuAeWHA", // This is just a sample token endpoint = "http://api.custom.endpoint/v3/" // This is just a sample API endpoint ) ) ``` ## Room Subscriptions Invoke this function to see the set of ChatRoom IDs to keep track which rooms are subscribed to get event updates. Room subscriptions gets updated each time `startListeningToChatUpdates(forRoomId: String)` and `stopListeningToChatUpdates(forRoomId: String)` gets invoked. ```kotlin val roomSubscriptions: Set = chatClient.roomSubscriptions() ``` ## Get Chat Room Event Update Cursor Get current event update cursor for the specified room ID. This gets updated either each time `allEventUpdates()` emits a value, when `joinRoom()`/`joinRoomByCustomId()` are invoked, OR when `setChatRoomEventUpdateCursor()`/`clearChatRoomEventUpdateCursor()` are invoked. ```kotlin val currentRoomId = "" val currentEventUpdateCursor: String? = chatClient.getChatRoomEventUpdateCursor( forRoomId = currentRoomId ) // Could be `null` if not yet set ``` ## Set Chat Room Event Update Cursor Allows developers to override the event updates cursor to have more control on how paging logic is implemented. ```kotlin val currentRoomId = "" val overrideCursor = "" chatClient.setChatRoomEventUpdateCursor( forRoomId = currentRoomId, cursor = overrideCursor ) ``` ## Clear Chat Room Event Update Cursor Allows developers to clear the event updates cursor(when cleared, the next time `allEventUpdates()` performs REST API operation, it will NOT include a cursor value on the request). ```kotlin val currentRoomId = "" chatClient.clearChatRoomEventUpdateCursor(forRoomId = currentRoomId) ``` ## Create Room Invoke this function to create a new chat room. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val createdRoom = withContext(Dispatchers.IO) { chatClient.createRoom( request = CreateChatRoomRequest( name = "Test Chat Room 1", customid = "test-room-1", description = "This is a test chat room 1.", moderation = "post", enableactions = true, enableenterandexit = true, enableprofanityfilter = false, delaymessageseconds = 0L, roomisopen = true, maxreports = 0 ) ) } // Resolve `createdRoom` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.createRoom( request = CreateChatRoomRequest( name = "Test Chat Room 1", customid = "test-room-1", description = "This is a test chat room 1.", moderation = "post", enableactions = true, enableenterandexit = true, enableprofanityfilter = false, delaymessageseconds = 0L, roomisopen = true, maxreports = 0 ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { createdRoom -> // Resolve `createdRoom` (ex. Display prompt OR Update UI) } ``` ## Get Room Details Invoke this function to get the details for a room. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val chatRoom = withContext(Dispatchers.IO) { chatClient.getRoomDetails( chatRoomId = "080001297623242ac002" ) } // Resolve `chatRoom` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.getRoomDetails( chatRoomId = "080001297623242ac002" ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { chatRoom -> // Resolve `chatRoom` (ex. Display prompt OR Update UI) } ``` ## Get Room Extended Details Batch Invoke this function to get the extended details for a room. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val chatRoomExtendedDetails = withContext(Dispatchers.IO) { chatClient.getRoomDetailsExtendedBatch( entityTypes = listOf( RoomDetailEntityType.ROOM, RoomDetailEntityType.NUM_PARTICIPANTS, RoomDetailEntityType.LAST_MESSAGE_TIME ), // Must have atleast 1 of the RoomDetailEntityType enum constant. roomIds = listOf("080001297623242ac002", "702242ac000086230129"), // Must have atleast 1 entry for roomIds or customIds combined. customIds = listOf("test-custom-room-id-01", "test-custom-room-id-02") ) } // Resolve `chatRoomExtendedDetails` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.getRoomDetailsExtendedBatch( entityTypes = listOf( RoomDetailEntityType.ROOM, RoomDetailEntityType.NUM_PARTICIPANTS, RoomDetailEntityType.LAST_MESSAGE_TIME ), // Must have atleast 1 of the RoomDetailEntityType enum constant. roomIds = listOf("080001297623242ac002", "702242ac000086230129"), // Must have atleast 1 entry for roomIds or customIds combined. customIds = listOf("test-custom-room-id-01", "test-custom-room-id-02") ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { chatRoomExtendedDetails -> // Resolve `chatRoomExtendedDetails` (ex. Display prompt OR Update UI) } ``` ## Get Room Details By CustomId Invoke this function to get the details for a room, using custom ID. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val chatRoom = withContext(Dispatchers.IO) { chatClient.getRoomDetailsByCustomId( chatRoomCustomId = "custom-id-0239760802" ) } // Resolve `chatRoom` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.getRoomDetailsByCustomId( chatRoomCustomId = "custom-id-0239760802" ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { chatRoom -> // Resolve `chatRoom` (ex. Display prompt OR Update UI) } ``` ## List Rooms Invoke this function to list all the available public chat rooms. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val listRooms = withContext(Dispatchers.IO) { chatClient.listRooms( limit = 20, /* Defaults to 200 on backend API server */ cursor = null // OPTIONAL: The cursor value from previous search attempt to indicate next paginated fetch. Null if fetching the first list of chat room(s). ) } // Resolve `chatRoom` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.listRooms( limit = 20, /* Defaults to 200 on backend API server */ cursor = null // OPTIONAL: The cursor value from previous search attempt to indicate next paginated fetch. Null if fetching the first list of chat room(s). ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { listRooms -> // Resolve `listRooms` (ex. Display prompt OR Update UI) } ``` ## Join Room (Authenticated User) Invoke this function to join a room. You want your chat experience to open fast. The steps to opening a chat experience are: 1. Create Room 2. Create User 3. Join Room (user gets permission to access events data from the room) 4. Get Recent Events to display in your app If you have already created the room (step 1) then you can perform steps 2 - 4 using join room. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val joinRoomResponse = withContext(Dispatchers.IO) { chatClient.joinRoom( chatRoomId = "080001297623242ac002", // ID of an existing chat room request = JoinChatRoomRequest( userid = "023976080242ac120002" // ID of an existing user from this chatroom ) ) } // Resolve `joinRoomResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.joinRoom( chatRoomId = "080001297623242ac002", // ID of an existing chat room request = JoinChatRoomRequest( userid = "023976080242ac120002" // ID of an existing user from this chatroom ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { joinRoomResponse -> // Resolve `joinRoomResponse` (ex. Display prompt OR Update UI) } ``` ## Join Room By CustomID Invoke this function to join a room by Custom ID. This method is the same as Join Room, except you can use your customid. The benefit of this method is you don't need to query to get the roomid using customid, and then make another call to join the room. This eliminates a request and enables you to bring your chat experience to your user faster. You want your chat experience to open fast. The steps to opening a chat experience are: 1. Create Room 2. Create User 3. Join Room (user gets permission to access events data from the room) 4. Get Recent Events to display in your app If you have already created the room (step 1) then you can perform steps 2 - 4 using join room. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val joinRoomResponse = withContext(Dispatchers.IO) { chatClient.joinRoomByCustomId( chatRoomCustomId = "custom-room-id-12976", // Custom ID of an existing chat room request = JoinChatRoomRequest( userid = "023976080242ac120002" // ID of an existing user from this chatroom ) ) } // Resolve `joinRoomResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.joinRoomByCustomId( chatRoomCustomId = "custom-room-id-12976", // Custom ID of an existing chat room request = JoinChatRoomRequest( userid = "023976080242ac120002" // ID of an existing user from this chatroom ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { joinRoomResponse -> // Resolve `joinRoomResponse` (ex. Display prompt OR Update UI) } ``` ## List Room Participants Invoke this function to list all the participants in the specified room. Use this method to cursor through the people who have subscribe to the room. To cursor through the results if there are many participants, invoke this function many times. Each result will return a cursor value and you can pass that value to the next invokation to get the next page of results. The result set will also include a next field with the full URL to get the next page, so you can just keep reading that and requesting that URL until you reach the end. When you reach the end, no more results will be returned or the result set will be less than maxresults and the next field will be empty. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val listRoomParticipants = withContext(Dispatchers.IO) { chatClient.listRoomParticipants( chatRoomId = "080001297623242ac002", // ID of an existing chat room limit = 20, /* Defaults to 200 on backend API server */ cursor = null // OPTIONAL: The cursor value from previous search attempt to indicate next paginated fetch. Null if fetching the first list of chatroom participant(s). ) } // Resolve `listRoomParticipants` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.listRoomParticipants( chatRoomId = "080001297623242ac002", // ID of an existing chat room limit = 20, /* Defaults to 200 on backend API server */ cursor = null // OPTIONAL: The cursor value from previous search attempt to indicate next paginated fetch. Null if fetching the first list of chatroom participant(s). ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { listRoomParticipants -> // Resolve `listRoomParticipants` (ex. Display prompt OR Update UI) } ``` ## List User Subscribed Rooms Invoke this function to list the rooms the user is subscribed to . Use this method to cursor through all the rooms the user is subscribed to. To cursor through the results if there are many participants, invoke this function many times. Each result will return a cursor value and you can pass that value to the next invokation to get the next page of results. The result set will also include a next field with the full URL to get the next page, so you can just keep reading that and requesting that URL until you reach the end. When you reach the end, no more results will be returned or the result set will be less than maxresults and the next field will be empty. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val listUserSubscribedRooms = withContext(Dispatchers.IO) { chatClient.listUserSubscribedRooms( userid = "023976080242ac120002" // ID of an existing user limit = 20, /* Defaults to 200 on backend API server */ cursor = null // OPTIONAL: The cursor value from previous search attempt to indicate next paginated fetch. Null if fetching the first list of chatroom participant(s). ) } // Resolve `listUserSubscribedRooms` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.listUserSubscribedRooms( userid = "023976080242ac120002" // ID of an existing user limit = 20, /* Defaults to 200 on backend API server */ cursor = null // OPTIONAL: The cursor value from previous search attempt to indicate next paginated fetch. Null if fetching the first list of chatroom participant(s). ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { listUserSubscribedRooms -> // Resolve `listUserSubscribedRooms` (ex. Display prompt OR Update UI) } ``` ## Update Room Invoke this function to update an existing room. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val updatedRoom = withContext(Dispatchers.IO) { chatClient.updateRoom( chatRoomId = "080001297623242ac002", // ID of an existing chat room request = UpdateChatRoomRequest( name = "${testData.name!!}-updated", customid = "${testData.customid}-updated(${System.currentTimeMillis()})", description = "${testData.description}-updated", enableactions = !testData.enableactions!!, enableenterandexit = !testData.enableenterandexit!!, maxreports = 30L ) ) } // Resolve `updatedRoom` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.updateRoom( chatRoomId = "080001297623242ac002", // ID of an existing chat room request = UpdateChatRoomRequest( name = "${testData.name!!}-updated", customid = "${testData.customid}-updated(${System.currentTimeMillis()})", description = "${testData.description}-updated", enableactions = !testData.enableactions!!, enableenterandexit = !testData.enableenterandexit!!, maxreports = 30L ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { updatedRoom -> // Resolve `updatedRoom` (ex. Display prompt OR Update UI) } ``` ## Execute Chat Command (say 'Hello, World!') Invoke this function to execute a command in a chat room. **Precondition**: The user must JOIN the room first with a call to Join Room. Otherwise you'll receive HTTP Status Code PreconditionFailed (412) ### SENDING A MESSAGE * Send any text that doesn't start with a reserved symbol to perform a SAY command. * Use this function to REPLY to existing messages * Use this function to perform ACTION commands * Use this function to perform ADMIN commands *example:* ```kotlin ExecuteChatCommandRequest( command = "These commands both do the same thing, which is send the message 'Hello World' to the room. SAY Hello, World Hello, World", // .... ) ``` ### ACTION COMMANDS * Action commands start with the `/` character *example:* ```kotlin // Assuming current user's handle is "@MikeHandle05" ExecuteChatCommandRequest( command = "/dance nicole", // .... ) // User sees: "You dance with Nicole" // Nicole sees: "@MikeHandle05 dances with you" // Everyone else sees: "@MikeHandle05 dances with Nicole" ``` This requires that the action command dance is on the approved list of commands and Nicole is the handle of a participant in the room, and that actions are allowed in the room. ### ADMIN COMMANDS * These commands start with the `*` character *example:* ```kotlin // This bans the user from the entire chat experience (all rooms). ExecuteChatCommandRequest( command = "*ban", // .... ) ``` ```kotlin // This restores the user to the chat experience (all rooms). ExecuteChatCommandRequest( command = "*restore", // .... ) ``` ```kotlin // This deletes all messages from the specified user. ExecuteChatCommandRequest( command = "*purge", // .... ) ``` ```kotlin // This deletes all messages in this room. // Assuming ADMIN password "testpassword123" ExecuteChatCommandRequest( command = "*deleteallevents testpassword123", // .... ) ``` Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val executeChatCmdResponse = withContext(Dispatchers.IO) { chatClient.executeChatCommand( chatRoomId = "080001297623242ac002", // ID of an existing chat room request = ExecuteChatCommandRequest( command = "Hello World!", userid = "023976080242ac120002" // ID of an existing user from this chatroom ) ) } // Resolve `executeChatCmdResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.executeChatCommand( chatRoomId = "080001297623242ac002", // ID of an existing chat room request = ExecuteChatCommandRequest( command = "Hello World!", userid = "023976080242ac120002" // ID of an existing user from this chatroom ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { executeChatCmdResponse -> // Resolve `executeChatCmdResponse` (ex. Display prompt OR Update UI) } ``` ## Execute Chat Command (Announcement by Admin) Invoke this function to execute a command in a chat room. **Precondition**: The user must JOIN the room first with a call to Join Room. Otherwise you'll receive HTTP Status Code PreconditionFailed (412) Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val executeChatCmdResponse = withContext(Dispatchers.IO) { chatClient.executeChatCommand( chatRoomId = "080001297623242ac002", // ID of an existing chat room request = ExecuteChatCommandRequest( command = "This is a test annoncement!", userid = "023976080242ac120002", // ID of an existing user from this chatroom eventtype = "announcement" ) ) } // Resolve `executeChatCmdResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.executeChatCommand( chatRoomId = "080001297623242ac002", // ID of an existing chat room request = ExecuteChatCommandRequest( command = "This is a test annoncement!", userid = "023976080242ac120002", // ID of an existing user from this chatroom eventtype = "announcement" ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { executeChatCmdResponse -> // Resolve `executeChatCmdResponse` (ex. Display prompt OR Update UI) } ``` ## Execute Dance Action Invoke this function to execute a command `High five or Dance Action` in a chat room. **Precondition**: The user must JOIN the room first with a call to Join Room. Otherwise you'll receive HTTP Status Code PreconditionFailed (412) Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val executeChatCmdResponse = withContext(Dispatchers.IO) { chatClient.executeChatCommand( chatRoomId = "080001297623242ac002", // ID of an existing chat room request = ExecuteChatCommandRequest( command = "/high5 georgew", userid = "023976080242ac120002", // ID of an existing user from this chatroom ) ) } // Resolve `executeChatCmdResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.executeChatCommand( chatRoomId = "080001297623242ac002", // ID of an existing chat room request = ExecuteChatCommandRequest( command = "/high5 georgew", userid = "023976080242ac120002", // ID of an existing user from this chatroom ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { executeChatCmdResponse -> // Resolve `executeChatCmdResponse` (ex. Display prompt OR Update UI) } ``` ## Reply to a Message (Threaded) Invoke this function to create a threaded reply to another message event. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val sendThreadedReplyResponse = withContext(Dispatchers.IO) { chatClient.sendThreadedReply( chatRoomId = "080001297623242ac002", // ID of an existing chat room replyTo = "0976280012ac00023242", // ID of an existing event from this chatroom, which you intend to reply to request = SendThreadedReplyRequest( body = "This is Jessy, replying to your greetings yow!!!", userid = "023976080242ac120002", // ID of an existing user from this chatroom ) ) } // Resolve `sendThreadedReplyResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.sendThreadedReply( chatRoomId = "080001297623242ac002", // ID of an existing chat room replyTo = "0976280012ac00023242", // ID of an existing event from this chatroom, which you intend to reply to request = SendThreadedReplyRequest( body = "This is Jessy, replying to your greetings yow!!!", userid = "023976080242ac120002", // ID of an existing user from this chatroom ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { sendThreadedReplyResponse -> // Resolve `sendThreadedReplyResponse` (ex. Display prompt OR Update UI) } ``` ## Quote a Message Invoke this function to quote an existing message and republishes it with a new message. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val sendQuotedReplyResponse = withContext(Dispatchers.IO) { chatClient.sendQuotedReply( chatRoomId = "080001297623242ac002", // ID of an existing chat room replyTo = "0976280012ac00023242", // ID of an existing event from this chatroom, which you intend to reply to request = SendQuotedReplyRequest( body = "This is Jessy, quoting your greetings yow!!!", userid = "023976080242ac120002", // ID of an existing user from this chatroom ) ) } // Resolve `sendQuotedReplyResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.sendQuotedReply( chatRoomId = "080001297623242ac002", // ID of an existing chat room replyTo = "0976280012ac00023242", // ID of an existing event from this chatroom, which you intend to reply to request = SendQuotedReplyRequest( body = "This is Jessy, quoting your greetings yow!!!", userid = "023976080242ac120002", // ID of an existing user from this chatroom ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { sendQuotedReplyResponse -> // Resolve `sendQuotedReplyResponse` (ex. Display prompt OR Update UI) } ``` ## React To A Message ("Like") Invoke this function to add or remove a reaction to an existing event. After this completes, a new event appears in the stream representing the reaction. The new event will have an updated version of the event in the replyto field, which you can use to update your UI. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val reactToAMsgResponse = withContext(Dispatchers.IO) { chatClient.reactToEvent( chatRoomId = "080001297623242ac002", // ID of an existing chat room eventId = "0976280012ac00023242", // ID of an existing event from this chatroom, which you intend to reply to request = ReactToAMessageRequest( userid = "023976080242ac120002", // ID of an existing user from this chatroom reaction = "like", reacted = true ) ) } // Resolve `reactToAMsgResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.reactToEvent( chatRoomId = "080001297623242ac002", // ID of an existing chat room eventId = "0976280012ac00023242", // ID of an existing event from this chatroom, which you intend to reply to request = ReactToAMessageRequest( userid = "023976080242ac120002", // ID of an existing user from this chatroom reaction = "like", reacted = true ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { reactToAMsgResponse -> // Resolve `reactToAMsgResponse` (ex. Display prompt OR Update UI) } ``` ## Report Message Invoke this function to REPORT a message to the moderation team. After this completes, a new event appears in the stream representing the reaction. The new event will have an updated version of the event in the replyto field, which you can use to update your UI. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val reportMsgResponse = withContext(Dispatchers.IO) { chatClient.reportMessage( chatRoomId = "080001297623242ac002", // ID of an existing chat room eventId = "0976280012ac00023242", // ID of an existing event from this chatroom, which you intend to reply to request = ReportMessageRequest( reporttype = "abuse", userid = "023976080242ac120002" // ID of an existing user from this chatroom ) ) } // Resolve `reportMsgResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.reportMessage( chatRoomId = "080001297623242ac002", // ID of an existing chat room eventId = "0976280012ac00023242", // ID of an existing event from this chatroom, which you intend to reply to request = ReportMessageRequest( reporttype = "abuse", userid = "023976080242ac120002" // ID of an existing user from this chatroom ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { reportMsgResponse -> // Resolve `reportMsgResponse` (ex. Display prompt OR Update UI) } ``` ## Execute Admin Command (*help) Invoke this function to execute `help` command in a chat room. **Precondition**: The user must JOIN the room first with a call to Join Room. Otherwise you'll receive HTTP Status Code PreconditionFailed (412) Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val executeChatCmdResponse = withContext(Dispatchers.IO) { chatClient.executeChatCommand( chatRoomId = "080001297623242ac002", // ID of an existing chat room request = ExecuteChatCommandRequest( command = "*help*", userid = "023976080242ac120002", // ID of an existing user from this chatroom ) ) } // Resolve `executeChatCmdResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.executeChatCommand( chatRoomId = "080001297623242ac002", // ID of an existing chat room request = ExecuteChatCommandRequest( command = "*help*", userid = "023976080242ac120002", // ID of an existing user from this chatroom ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { executeChatCmdResponse -> // Resolve `executeChatCmdResponse` (ex. Display prompt OR Update UI) } ``` ## Get Updates Invoke this function to get the recent updates to a room. * You can use this function to poll the room to get the recent events in the room. The recommended poll interval is 500ms. Each event has an ID and a timestamp. To detect new messages using polling, call this function and then process items with a newer timestamp than the most recent one you have already processed. Refer to the SportsTalk API Documentation for more details: If `smoothEventUpdates` is set to `true`, smooth event updates feature is applied. Smooth event updates feature emits event updates with space delay(denoted by `eventSpacingMs`) in between each item if item count is less than `maxEventBufferSize` to avoid overwhelming the receiver from consuming a list of event updates in small quantity. However, if item count exceeds `maxEventBufferSize`, all items are emitted as-is without space delay in between. Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine import com.sportstalk.coroutine.api.polling.allEventUpdates // ... // Under Fragment class // ... // User must first Join Chat Room // Now that the test user has joined the room, setup reactive subscription to event updates // Below returns a Flow> lifecycleScope.launch { chatClient.allEventUpdates( chatRoomId = testChatRoom.id!!, frequency = 1000L /* Polling Frequency. Defaults to 500 milliseconds if not explicitly provided */, limit: Int? = null, // (optional) Number of events to return for each poll. Default is 100, maximum is 500. /** * If [true], render events with some spacing. * - However, if we have a massive batch, we want to catch up, so we do not put spacing and just jump ahead. */ smoothEventUpdates: Boolean = true, // If not specified, defaults to [true] /** * (optional, 200ms by default) This only applies if `smoothEventUpdates` = true. * This defines how long to pause before emitting the next event in a batch. */ eventSpacingMs: Long = 200L, // If not specified or if negative number was provided, defaults to 200ms /** * (optional, 30 by default) This only applies if `smoothEventUpdates` = true. * Holds the size of the event buffer we will accept before displaying everything in order to catch up. */ maxEventBufferSize: Int = 30, /* * The following are placeholder/convenience functions should the developers want to implement it * in a callback-oriented way. (Invoked as subscription's side-effect. In coroutine flow, these are invoked via .onEach { ... }) */ onChatEvent = { event: ChatEvent -> /* Handle all other eventtype */ }, // OPTIONAL onGoalEvent = { goalEvent: ChatEvent -> /* Handle eventtype == "goal" */ }, // OPTIONAL onAdEvent = { adEvent: ChatEvent -> /* Handle eventtype == "advertisement" */ }, // OPTIONAL onReply = { replyEvent: ChatEvent -> /* Handle eventtype == "reply" */ }, // OPTIONAL onReaction = { reactionEvent: ChatEvent -> /* Handle eventtype == "reaction" */ }, // OPTIONAL onPurgeEvent = { purgeEvent: ChatEvent -> /* Handle eventtype == "purge" */ } // OPTIONAL ) .distinctUntilChanged() .onEach { events -> // Alternatively, the developer can opt to consume the events in here... // NOTE:: ONLY choose 1 approach to avoid handling it twice. // Iterate each event item(s) events.forEach { chatEvent -> when(chatEvent.eventtype) { EventType.GOAL -> { /* Handle goal event types */ } EventType.ADVERTISEMENT -> { /* Handle advertisements event types */ } // ... // ... } } } .launchIn(lifecycleScope /* Already provided by androidx.Fragment */) // Then, perform start listening to event updates chatClient.startListeningToChatUpdates( forRoomId = testChatRoom.id!! ) // At some point in time, the developer might want to explicitly stop listening to event updates chatClient.stopListeningToChatUpdates( forRoomId = testChatRoom.id!! ) } .. code-tab:: kotlin sdk-coroutine (LiveData) /** * ALTERNATIVELY, `sdk-coroutine` artifact also provides a * similar function that returns a LiveData. */ import com.sportstalk.coroutine.api.polling.livedata.allEventUpdates // ... // Under Fragment class // ... // User must first Join Chat Room // Now that the test user has joined the room, setup reactive subscription to event updates // Below returns a LiveData> chatClient.allEventUpdates( chatRoomId = testChatRoom.id!!, lifecycleOwner = viewLifecycleOwner /* Already provided by androidx.Fragment */, frequency = 1000L /* Polling Frequency. Defaults to 500 milliseconds if not explicitly provided */, limit: Int? = null, // (optional) Number of events to return for each poll. Default is 100, maximum is 500. /** * If [true], render events with some spacing. * - However, if we have a massive batch, we want to catch up, so we do not put spacing and just jump ahead. */ smoothEventUpdates: Boolean = true, // If not specified, defaults to [true] /** * (optional, 200ms by default) This only applies if `smoothEventUpdates` = true. * This defines how long to pause before emitting the next event in a batch. */ eventSpacingMs: Long = 200L, // If not specified or if negative number was provided, defaults to 200ms /** * (optional, 30 by default) This only applies if `smoothEventUpdates` = true. * Holds the size of the event buffer we will accept before displaying everything in order to catch up. */ maxEventBufferSize: Int = 30, /* * The following are placeholder/convenience functions should the developers want to implement it * in a callback-oriented way. (Invoked as subscription's side-effect.) */ onChatEvent = { event: ChatEvent -> /* Handle all other eventtype */ }, // OPTIONAL onGoalEvent = { goalEvent: ChatEvent -> /* Handle eventtype == "goal" */ }, // OPTIONAL onAdEvent = { adEvent: ChatEvent -> /* Handle eventtype == "advertisement" */ }, // OPTIONAL onReply = { replyEvent: ChatEvent -> /* Handle eventtype == "reply" */ }, // OPTIONAL onReaction = { reactionEvent: ChatEvent -> /* Handle eventtype == "reaction" */ }, // OPTIONAL onPurgeEvent = { purgeEvent: ChatEvent -> /* Handle eventtype == "purge" */ } // OPTIONAL ) .distinctUntilChanged() // livedata-ktx .observe(viewLifeCycleOwner, Observer { events -> // Alternatively, the developer can opt to consume the events in here... // NOTE:: ONLY choose 1 approach to avoid handling it twice. // Iterate each event item(s) events.forEach { chatEvent -> when(chatEvent.eventtype) { EventType.GOAL -> { /* Handle goal event types */ } EventType.ADVERTISEMENT -> { /* Handle advertisements event types */ } // ... // ... } } }) // Then, perform start listening to event updates chatClient.startListeningToChatUpdates( forRoomId = testChatRoom.id!! ) // At some point in time, the developer might want to explicitly stop listening to event updates chatClient.stopListeningToChatUpdates( forRoomId = testChatRoom.id!! ) .. code-tab:: kotlin sdk-reactive-rx2 import com.sportstalk.reactive.rx2.api.polling.allEventUpdates // ... // Under Fragment class // ... val rxDisposeBag = CompositeDisposable() // User must first Join Chat Room // Now that the test user has joined the room, setup reactive subscription to event updates // Below returns a Flowable> chatClient.allEventUpdates( chatRoomId = testChatRoom.id!!, lifecycleOwner = viewLifecycleOwner /* Already provided by androidx.Fragment */, frequency = 1000L /* Polling Frequency. Defaults to 500 milliseconds if not explicitly provided */, limit: Int? = null, // (optional) Number of events to return for each poll. Default is 100, maximum is 500. /** * If [true], render events with some spacing. * - However, if we have a massive batch, we want to catch up, so we do not put spacing and just jump ahead. */ smoothEventUpdates: Boolean = true, // If not specified, defaults to [true] /** * (optional, 200ms by default) This only applies if `smoothEventUpdates` = true. * This defines how long to pause before emitting the next event in a batch. */ eventSpacingMs: Long = 200L, // If not specified or if negative number was provided, defaults to 200ms /** * (optional, 30 by default) This only applies if `smoothEventUpdates` = true. * Holds the size of the event buffer we will accept before displaying everything in order to catch up. */ maxEventBufferSize: Int = 30, /* * The following are placeholder/convenience functions should the developers want to implement it * in a callback-oriented way. (Invoked as subscription's side-effect. In RxJava, these are invoked via .doOnNext { ... }.) */ onChatEvent = { event: ChatEvent -> /* Handle all other eventtype */ }, // OPTIONAL onGoalEvent = { goalEvent: ChatEvent -> /* Handle eventtype == "goal" */ }, // OPTIONAL onAdEvent = { adEvent: ChatEvent -> /* Handle eventtype == "advertisement" */ }, // OPTIONAL onReply = { replyEvent: ChatEvent -> /* Handle eventtype == "reply" */ }, // OPTIONAL onReaction = { reactionEvent: ChatEvent -> /* Handle eventtype == "reaction" */ }, // OPTIONAL onPurgeEvent = { purgeEvent: ChatEvent -> /* Handle eventtype == "purge" */ } // OPTIONAL ) .distinctUntilChanged() .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .subscribe { events -> // Alternatively, the developer can opt to consume the events in here... // NOTE:: ONLY choose 1 approach to avoid handling it twice. // Iterate each event item(s) events.forEach { chatEvent -> when(chatEvent.eventtype) { EventType.GOAL -> { /* Handle goal event types */ } EventType.ADVERTISEMENT -> { /* Handle advertisements event types */ } // ... // ... } } } .also { rxDisposeBag.add(it) } // Then, perform start listening to event updates chatClient.startListeningToChatUpdates( forRoomId = testChatRoom.id!! ) // At some point in time, the developer might want to explicitly stop listening to event updates chatClient.stopListeningToChatUpdates( forRoomId = testChatRoom.id!! ) ``` ## List Messages By User Invoke this function to get a list of users messages. *This method requires authentication.* The purpose of this method is to get a list of messages or comments by a user, with count of replies and reaction data. This way, you can easily make a screen in your application that shows the user a list of their comment contributions and how people reacted to it. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val listUserMessages = withContext(Dispatchers.IO) { chatClient.listMessagesByUser( chatRoomId = "080001297623242ac002", // ID of an existing chat room userid = "023976080242ac120002", // ID of an existing user from this chatroom limit = 20, /* Defaults to 200 on backend API server */ cursor = null // OPTIONAL: The cursor value from previous search attempt to indicate next paginated fetch. Null if fetching the first list of user message(s). ) } // Resolve `listUserMessages` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.listMessagesByUser( chatRoomId = "080001297623242ac002", // ID of an existing chat room userid = "023976080242ac120002", // ID of an existing user from this chatroom limit = 20, /* Defaults to 200 on backend API server */ cursor = null // OPTIONAL: The cursor value from previous search attempt to indicate next paginated fetch. Null if fetching the first list of user message(s). ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { listUserMessages -> // Resolve `listUserMessages` (ex. Display prompt OR Update UI) } ``` ## List Event History Invoke this function to list events history. * This method enables you to download all of the events from a room in large batches. It should only be used if doing a data export. * This method returns a list of events sorted from oldest to newest. * This method returns all events, even those in the inactive state. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val listEventsHistory = withContext(Dispatchers.IO) { chatClient.listEventsHistory( chatRoomId = "080001297623242ac002", // ID of an existing chat room limit = 20, /* Defaults to 200 on backend API server */ cursor = null // OPTIONAL: The cursor value from previous search attempt to indicate next paginated fetch. Null if fetching the first list of events. ) } // Resolve `listEventsHistory` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.listEventsHistory( chatRoomId = "080001297623242ac002", // ID of an existing chat room limit = 20, /* Defaults to 200 on backend API server */ cursor = null // OPTIONAL: The cursor value from previous search attempt to indicate next paginated fetch. Null if fetching the first list of events. ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { listEventsHistory -> // Resolve `listEventsHistory` (ex. Display prompt OR Update UI) } ``` ## List Events By Type Invoke this function to list events by type. * This method enables you to retrieve a small list of recent events by type. This is useful for things like fetching a list of recent announcements or custom event types without the need to scroll through the entire chat history. * This method returns a list of events sorted from newest to oldest. * This method returns only active events. * If you specify eventtype = customtype, you must pass the customtype value, a string of your choosing for your custom type. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val listEventsByType = withContext(Dispatchers.IO) { chatClient.listEventsByType( chatRoomId = "080001297623242ac002", // ID of an existing chat room eventType = EventType.ANNOUNCEMENT, // "announcement" limit = 20, /* Defaults to 200 on backend API server */ cursor = null // OPTIONAL: The cursor value from previous search attempt to indicate next paginated fetch. Null if fetching the first list of events. ) } // Resolve `listEventsByType` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.listEventsByType( chatRoomId = "080001297623242ac002", // ID of an existing chat room eventType = EventType.ANNOUNCEMENT, // "announcement" limit = 20, /* Defaults to 200 on backend API server */ cursor = null // OPTIONAL: The cursor value from previous search attempt to indicate next paginated fetch. Null if fetching the first list of events. ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { listEventsByType -> // Resolve `listEventsByType` (ex. Display prompt OR Update UI) } ``` ## List Events By Timestamp Invoke this function to list events by timestamp. * This method enables you to retrieve an event using a timestamp. * You can optionally retrieve a small number of displayable events before and after the message at the requested timestamp. * This method returns a list of events sorted from oldest to newest. * This method returns only active events. * The timestamp is a high resolution timestamp accurate to the thousanth of a second. It is possible, but very unlikely, for two messages to have the same timestamp. * The method returns "timestampolder". This can be passed as the timestamp value when calling functions like this which accept a timestamp to retrieve data. * The method returns "timestampnewer". This can be passed as the timestamp value when calling this function again. * The method returns "cursorpolder". This can be passed as the cursor to ethods that accept an events-sorted-by-time cursor. * The method returns "cursornewer". This can be passed as the cursor to methods that accept an events-sorted-by-time cursor. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val listEventsByTimestamp = withContext(Dispatchers.IO) { chatClient.listEventsByTimestamp( chatRoomId = "080001297623242ac002", // ID of an existing chat room timestamp = 637464818548698844, // Timestamp criteria limitolder = 5, limitolder = 5 ) } // Resolve `listEventsByTimestamp` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.listEventsByTimestamp( chatRoomId = "080001297623242ac002", // ID of an existing chat room timestamp = 637464818548698844, // Timestamp criteria limitolder = 5, limitolder = 5 ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { listEventsByTimestamp -> // Resolve `listEventsByTimestamp` (ex. Display prompt OR Update UI) } ``` ## Message is Reported Invoke this function to check if the current user has already reported a message. Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // NO NEED to switch coroutine context as this operation does NOT perform network call val messageIsReported = chatClient.messageIsReported( eventId = "7620812242ac09300002" // ID of an existing event from the chat room userid = "023976080242ac120002", // ID of an existing user from the chat room ) // Resolve `messageIsReported` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 // This function just returns Boolean value rather than an RxJava type since this operation does NOT perform network call val messageIsReported = chatClient.messageIsReported( eventId = "7620812242ac09300002" // ID of an existing event from the chat room userid = "023976080242ac120002", // ID of an existing user from the chat room ) // Resolve `messageIsReported` (ex. Display prompt OR Update UI) ``` ## Message is Reacted To Invoke this function to check if a message was reacted to by the current user. Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // NO NEED to switch coroutine context as this operation does NOT perform network call val messageIsReactedTo = chatClient.messageIsReactedTo( eventId = "7620812242ac09300002" // ID of an existing event from the chat room userid = "023976080242ac120002", // ID of an existing user from the chat room reaction = "like" // One of the ReactionType string constants ) // Resolve `messageIsReactedTo` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 // This function just returns Boolean value rather than an RxJava type since this operation does NOT perform network call val messageIsReactedTo = chatClient.messageIsReactedTo( eventId = "7620812242ac09300002" // ID of an existing event from the chat room userid = "023976080242ac120002", // ID of an existing user from the chat room reaction = "like" // One of the ReactionType string constants ) // Resolve `messageIsReactedTo` (ex. Display prompt OR Update UI) ``` ## List Previous Events Invoke this function to list previous events. * This method allows you to go back in time to "scroll" in reverse through past messages. The typical use case for this method is to power the scroll-back feature of a chat window allowing the user to look at recent messages that have scrolled out of view. It's intended use is to retrieve small batches of historical events as the user is scrolling up. * This method returns a list of events sorted from newest to oldest. * This method excludes events that are not in the active state (for example if they are removed by a moderator) * This method excludes non-displayable events (reaction, replace, remove, purge) * This method will not return events that were emitted and then deleted before this method was called Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val listPreviousEvents = withContext(Dispatchers.IO) { chatClient.listPreviousEvents( chatRoomId = "080001297623242ac002", // ID of an existing chat room limit = 20, /* Defaults to 200 on backend API server */ cursor = null // OPTIONAL: The cursor value from previous search attempt to indicate next paginated fetch. Null if fetching the first list of events. ) } // Resolve `listPreviousEvents` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.listPreviousEvents( chatRoomId = "080001297623242ac002", // ID of an existing chat room limit = 20, /* Defaults to 200 on backend API server */ cursor = null // OPTIONAL: The cursor value from previous search attempt to indicate next paginated fetch. Null if fetching the first list of events. ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { listPreviousEvents -> // Resolve `listPreviousEvents` (ex. Display prompt OR Update UI) } ``` ## Get Event by ID Invoke this function to get a chat event by ID. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val chatEventResponse = withContext(Dispatchers.IO) { chatClient.getEventById( chatRoomId = "080001297623242ac002", // ID of an existing chat room eventId = "7620812242ac09300002" // ID of an existing event from the chat room ) } // Resolve `chatEventResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.getEventById( chatRoomId = "080001297623242ac002", // ID of an existing chat room eventId = "7620812242ac09300002" // ID of an existing event from the chat room ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { chatEventResponse -> // Resolve `chatEventResponse` (ex. Display prompt OR Update UI) } ``` ## Report User In Room Invoke this function to enable users to report other users who exhibit abusive behaviors. It enables users to silence another user when a moderator is not present. If the user receives too many reports in a trailing 24 hour period, the user will become flagged at the room level. This API moderates users on the ROOM LEVEL. If a There is an API method that enable reporting users at the global user level which impacts all rooms. This API impacts only the experience for the specified userid within the specified room. This API will return an error (see responses below) if user reporting is not enabled for your application in the application settings by setting User Reports limit to a value > 0. A user who is flagged will have the shadowban effect applied. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val reportUserInRoomResponse = withContext(Dispatchers.IO) { chatClient.reportUserInRoom( chatRoomId = "080001297623242ac002", // ID of an existing chat room request = ReportUserInRoomRequest( userid = "023976080242ac120002", // ID of an existing user from the chat room reporttype = ReportType.ABUSE // either ReportType.ABUSE("abuse") or ReportType.SPAM("spam") ) ) } // Resolve `reportUserInRoomResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.reportUserInRoom( chatRoomId = "080001297623242ac002", // ID of an existing chat room request = ReportUserInRoomRequest( userid = "023976080242ac120002", // ID of an existing user from the chat room reporttype = ReportType.ABUSE // either ReportType.ABUSE("abuse") or ReportType.SPAM("spam") ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { reportUserInRoomResponse -> // Resolve `reportUserInRoomResponse` (ex. Display prompt OR Update UI) } ``` ## Shadow Ban User (In Room Only) Invoke this function to toggle the user's shadow banned flag from within the specified Chatroom. There is a user level shadow ban (global) and local room level shadow ban. A Shadow Banned user can send messages into a chat room, however those messages are flagged as shadow banned. This enables the application to show those messags only to the shadow banned user, so that that person may not know they were shadow banned. This method shadow bans the user on the global level (or you can use this method to lift the ban). You can optionally specify an expiration time. If the expiration time is specified, then each time the shadow banned user tries to send a message the API will check if the shadow ban has expired and will lift the ban. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val shadowBanUserResponse = withContext(Dispatchers.IO) { chatClient.shadowBanUser( chatRoomId = "080001297623242ac002", // ID of an existing chat room // Assuming user "@nicoleWd" exists userid = "023976080242ac120002", // ID of an existing user "@nicoleWd" from this chatroom applyeffect = true, // If set to true, user will be set to banned state. Otherwise, will be set to non-banned state. expireseconds = 3600 // [OPTIONAL]: Duration of shadowban value in seconds. If specified, the shadow ban will be lifted when this time is reached. If not specified, shadowban remains until explicitly lifted. Maximum seconds is a double byte value. ) } // Resolve `shadowBanUserResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.shadowBanUser( chatRoomId = "080001297623242ac002", // ID of an existing chat room // Assuming user "@nicoleWd" exists userid = "023976080242ac120002", // ID of an existing user "@nicoleWd" from this chatroom applyeffect = true, // If set to true, user will be set to banned state. Otherwise, will be set to non-banned state. expireseconds = 3600 // [OPTIONAL]: Duration of shadowban value in seconds. If specified, the shadow ban will be lifted when this time is reached. If not specified, shadowban remains until explicitly lifted. Maximum seconds is a double byte value. ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { shadowBanUserResponse -> // Resolve `shadowBanUserResponse` (ex. Display prompt OR Update UI) } ``` ## Mute User (In Room Only) Invoke this function toggles the specified user's mute effect. There is a global user mute effect and local room level user mute effect. A muted user is in a read-only state. The muted user cannot communicate. This method applies mute from within the specified Chat room ONLY. You can optionally specify an expiration time. If the expiration time is specified, then each time the muted user tries to send a message the API will check if the effect has expired and will lift the user's mute effect. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val muteUserResponse = withContext(Dispatchers.IO) { chatClient.muteUser( chatRoomId = "080001297623242ac002", // ID of an existing chat room // Assuming user "@nicoleWd" exists userid = "023976080242ac120002", // ID of an existing user "@nicoleWd" from this chatroom applyeffect = true, // If set to true, user will be set to muted state. Otherwise, will be set to non-banned state. expireseconds = 3600 // [OPTIONAL]: Duration of mute in seconds. If specified, the mute will be lifted when this time is reached. If not specified, mute effect remains until explicitly lifted. Maximum seconds is a double byte value. ) } // Resolve `muteUserResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.muteUser( chatRoomId = "080001297623242ac002", // ID of an existing chat room // Assuming user "@nicoleWd" exists userid = "023976080242ac120002", // ID of an existing user "@nicoleWd" from this chatroom applyeffect = true, // If set to true, user will be set to muted state. Otherwise, will be set to non-banned state. expireseconds = 3600 // [OPTIONAL]: Duration of mute in seconds. If specified, the mute will be lifted when this time is reached. If not specified, mute effect remains until explicitly lifted. Maximum seconds is a double byte value. ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { muteUserResponse -> // Resolve `muteUserResponse` (ex. Display prompt OR Update UI) } ``` ## Bounce User Invoke this function to remove the user from the room and prevent the user from reentering. Optionally display a message to people in the room indicating this person was bounced. When you bounce a user from the room, the user is removed from the room and blocked from reentering. Past events generated by that user are not modified (past messages from the user are not removed). Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val bounceUserResponse = withContext(Dispatchers.IO) { chatClient.bounceUser( chatRoomId = "080001297623242ac002", // ID of an existing chat room // Assuming user "@nicoleWd" exists request = BounceUserRequest( userid = "023976080242ac120002", // ID of an existing user "@nicoleWd" from this chatroom bounce = true, announcement = "@nicoleWd has been banned." ) ) } // Resolve `bounceUserResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.bounceUser( chatRoomId = "080001297623242ac002", // ID of an existing chat room // Assuming user "@nicoleWd" exists request = BounceUserRequest( userid = "023976080242ac120002", // ID of an existing user "@nicoleWd" from this chatroom bounce = true, announcement = "@nicoleWd has been banned." ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { bounceUserResponse -> // Resolve `bounceUserResponse` (ex. Display prompt OR Update UI) } ``` ## Search Event History Invoke this function to search the message history applying the specified filters. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) // Search using User ID val searchEventHistoryByUserIdResponse = withContext(Dispatchers.IO) { chatClient.searchEventHistory( request = SearchEventHistoryRequest( fromuserid = "023976080242ac120002", // ID of an existing user limit = 10, types = listOf(EventType.SPEECH) // Any EventType constants ) ) } // Resolve `searchEventHistoryFromUserIdResponse` from HERE onwards(ex. update UI displaying the response data)... // Search using User handle val searchEventHistoryByUserHandleResponse = withContext(Dispatchers.IO) { chatClient.searchEventHistory( request = SearchEventHistoryRequest( fromhandle = "@nicoleWD", // Handle of an existing user limit = 10, types = listOf(EventType.SPEECH) // Any EventType constants ) ) } // Resolve `searchEventHistoryByUserHandleResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() // Search using User ID chatClient.searchEventHistory( request = SearchEventHistoryRequest( fromuserid = "023976080242ac120002", // ID of an existing user limit = 10, types = listOf(EventType.SPEECH) // Any EventType constants ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { searchEventHistoryByUserIdResponse -> // Resolve `searchEventHistoryByUserIdResponse` (ex. Display prompt OR Update UI) } // Search using User handle chatClient.searchEventHistory( request = SearchEventHistoryRequest( fromhandle = "@nicoleWD", // Handle of an existing user limit = 10, types = listOf(EventType.SPEECH) // Any EventType constants ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { searchEventHistoryByUserHandleResponse -> // Resolve `searchEventHistoryByUserHandleResponse` (ex. Display prompt OR Update UI) } ``` ## Update Chat Message Invoke this function to update the contents of an existing chat event This API may be used to update the body of an existing Chat Event. It is used to enable the user to edit the message after it is published. This may only be used with MESSAGE event types (speech, quote, reply). When the chat event is updated another event of type "replace" will be emitted with the updated event contents, and the original event will be replaced in future calls to List Event History, Join and List Previous Events. The event will also be flagged as edited by user. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val updateChatMessageResponse = withContext(Dispatchers.IO) { chatClient.updateChatMessage( chatRoomId = "080001297623242ac002", // ID of an existing chat room eventId = "7620812242ac09300002", // ID of an existing event from the chat room request = UpdateChatMessageRequest( userid = "023976080242ac120002", // ID of an existing user from this chat room body = "[UPDATED] from the original message", customid = null, // [OPTIONAL] custompayload = null, // [OPTIONAL] customfield1 = null, // [OPTIONAL] customfield2 = null, // [OPTIONAL] customtags = null, // [OPTIONAL] ) ) } // Resolve `updateChatMessageResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.updateChatMessage( chatRoomId = "080001297623242ac002", // ID of an existing chat room eventId = "7620812242ac09300002", // ID of an existing event from the chat room request = UpdateChatMessageRequest( userid = "023976080242ac120002", // ID of an existing user from this chat room body = "[UPDATED] from the original message", customid = null, // [OPTIONAL] custompayload = null, // [OPTIONAL] customfield1 = null, // [OPTIONAL] customfield2 = null, // [OPTIONAL] customtags = null, // [OPTIONAL] ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { updateChatMessageResponse -> // Resolve `updateChatMessageResponse` (ex. Display prompt OR Update UI) } ``` ## Flag Message Event As Deleted Invoke this function to set a ChatEvent as logically deleted. Everything in a chat room is an event. Each event has a type. Events of type "speech, reply, quote" are considered "messages". Use logical delete if you want to flag something as deleted without actually deleting the message so you still have the data. When you use this method: * The message is not actually deleted. The comment is flagged as deleted, and can no longer be read, but replies are not deleted. * If flag "permanentifnoreplies" is true, then it will be a permanent delete instead of logical delete for this comment if it has no children. * If you use "permanentifnoreplies" = true, and this comment has a parent that has been logically deleted, and this is the only child, then the parent will also be permanently deleted (and so on up the hierarchy of events). Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val logicalDeleteResponse = withContext(Dispatchers.IO) { chatClient.flagEventLogicallyDeleted( chatRoomId = "080001297623242ac002", // ID of an existing chat room eventId = "7620812242ac09300002", // ID of an existing event from the chat room userid = "023976080242ac120002", // ID of an existing user "@nicoleWd" from this chatroom // Assuming user "@nicoleWd" exists deleted = true, permanentifnoreplies = true ) } // Resolve `logicalDeleteResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.flagEventLogicallyDeleted( chatRoomId = "080001297623242ac002", // ID of an existing chat room eventId = "7620812242ac09300002", // ID of an existing event from the chat room userid = "023976080242ac120002", // ID of an existing user "@nicoleWd" from this chatroom // Assuming user "@nicoleWd" exists deleted = true, permanentifnoreplies = true ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { logicalDeleteResponse -> // Resolve `logicalDeleteResponse` (ex. Display prompt OR Update UI) } ``` ## Delete Event Invoke this function to delete an event from the room. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val deleteEventResponse = withContext(Dispatchers.IO) { chatClient.permanentlyDeleteEvent( chatRoomId = "080001297623242ac002", // ID of an existing chat room eventId = "7620812242ac09300002", // ID of an existing event from the chat room userid = "023976080242ac120002" // ID of an existing user "@nicoleWd" from this chatroom // Assuming user "@nicoleWd" exists ) } // Resolve `deleteEventResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.permanentlyDeleteEvent( chatRoomId = "080001297623242ac002", // ID of an existing chat room eventId = "7620812242ac09300002", // ID of an existing event from the chat room userid = "023976080242ac120002" // ID of an existing user "@nicoleWd" from this chatroom // Assuming user "@nicoleWd" exists ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { deleteEventResponse -> // Resolve `deleteEventResponse` (ex. Display prompt OR Update UI) } ``` ## Delete All Events in Room Invoke this function to execute a command in a chat room to delete all messages in the chatroom. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val deleteAllEventsCmdResponse = withContext(Dispatchers.IO) { chatClient.executeChatCommand( chatRoomId = "080001297623242ac002", // ID of an existing chat room // Assuming ADMIN password "testpassword123" request = ExecuteChatCommandRequest( command = "*deleteallevents testpassword123", userid = "023976080242ac120002" // ID of an existing user "@nicoleWd" from this chatroom ) ) } // Resolve `deleteAllEventsCmdResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.executeChatCommand( chatRoomId = "080001297623242ac002", // ID of an existing chat room // Assuming ADMIN password "testpassword123" request = ExecuteChatCommandRequest( command = "*deleteallevents testpassword123", userid = "023976080242ac120002" // ID of an existing user "@nicoleWd" from this chatroom ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { deleteAllEventsCmdResponse -> // Resolve `deleteAllEventsCmdResponse` (ex. Display prompt OR Update UI) } ``` ## Update Room (Close a room) Invoke this function to update an existing room. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val updatedRoomResponse = withContext(Dispatchers.IO) { chatClient.updateRoom( chatRoomId = "080001297623242ac002", // ID of an existing chat room request = UpdateChatRoomRequest( name = "Test Chat Room 1 - UPDATED", customid = "test-room-1-updated", description = "[UPDATED] This is a test chat room 1.", moderation = "post", enableactions = false, enableenterandexit = false, enableprofanityfilter = true, delaymessageseconds = 10L, roomisopen = false, maxreports = 30 ) ) } // Resolve `updatedRoomResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.updateRoom( chatRoomId = "080001297623242ac002", // ID of an existing chat room request = UpdateChatRoomRequest( name = "Test Chat Room 1 - UPDATED", customid = "test-room-1-updated", description = "[UPDATED] This is a test chat room 1.", moderation = "post", enableactions = false, enableenterandexit = false, enableprofanityfilter = true, delaymessageseconds = 10L, roomisopen = false, maxreports = 30 ) ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { updatedRoomResponse -> // Resolve `updatedRoomResponse` (ex. Display prompt OR Update UI) } ``` ## Exit a Room Invoke this function to exit from a chatroom where the user has currently joined. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val exitRoomResponse = withContext(Dispatchers.IO) { chatClient.exitRoom( chatRoomId = "080001297623242ac002", // ID of an existing chat room userid = "023976080242ac120002" // ID of an existing user from this chatroom ) } // Resolve `exitRoomResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.exitRoom( chatRoomId = "080001297623242ac002", // ID of an existing chat room userid = "023976080242ac120002" // ID of an existing user from this chatroom ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { exitRoomResponse -> // Resolve `exitRoomResponse` (ex. Display prompt OR Update UI) } ``` ## Delete Room Invoke this function to delete the specified room and all events contained therein) by ID Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val deleteRoomResponse = withContext(Dispatchers.IO) { chatClient.deleteRoom( chatRoomId = "080001297623242ac002" // ID of an existing chat room ) } // Resolve `deleteRoomResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.deleteRoom( chatRoomId = "080001297623242ac002" // ID of an existing chat room ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { deleteRoomResponse -> // Resolve `deleteRoomResponse` (ex. Display prompt OR Update UI) } ``` ## List Messages Needing Moderation Invoke this function to list all the messages in the moderation queue. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val listMessagesInModeration = withContext(Dispatchers.IO) { chatClient.listMessagesNeedingModeration( roomId = "080001297623242ac002", // ID of an existing chat room limit = 20, /* Defaults to 200 on backend API server */ cursor = null // OPTIONAL: The cursor value from previous search attempt to indicate next paginated fetch. Null if fetching the first list of messages from this chatroom. ) } // Resolve `listMessagesInModeration` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.listMessagesNeedingModeration( roomId = "080001297623242ac002", // ID of an existing chat room limit = 20, /* Defaults to 200 on backend API server */ cursor = null // OPTIONAL: The cursor value from previous search attempt to indicate next paginated fetch. Null if fetching the first list of messages from this chatroom. ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { listMessagesInModeration -> // Resolve `listMessagesInModeration` (ex. Display prompt OR Update UI) } ``` ## Approve Message Invoke this function to approve a message in the moderation queue. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) val approveResponse = withContext(Dispatchers.IO) { chatClient.approveMessage( eventId = "0976280012ac00023242", // ID of an existing event from this chatroom, which you intend to reply to approve = true ) } // Resolve `approveResponse` from HERE onwards(ex. update UI displaying the response data)... } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.approveMessage( eventId = "0976280012ac00023242", // ID of an existing event from this chatroom, which you intend to reply to approve = true ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { approveResponse -> // Resolve `approveResponse` (ex. Display prompt OR Update UI) } ``` ## Purge User Messages Invoke this function to executes a command in a chat room to purge all messages for a user. Refer to the SportsTalk API Documentation for more details: Below is a code sample on how to use this SDK feature: ``` tabs:: .. code-tab:: kotlin sdk-coroutine // Launch thru coroutine block // https://developer.android.com/topic/libraries/architecture/coroutines lifecycleScope.launch { // Switch to IO Coroutine Context(Operation will be executed on IO Thread) withContext(Dispatchers.IO) { chatClient.purgeUserMessages( chatRoomId = "0976280012ac00023242", // ID of an existing chatroom userId = "023976080242ac120002", // ID of an existing user from this chatroom whose Chat Message(s) will be purged byUserId = "moderator", // Any User ID whose role is either 'Moderator' OR 'Admin'. ) } // This API does NOT return any response. Either is succeeds OR throws SportsTalkException if it fails. } .. code-tab:: kotlin sdk-reactive-rx2 val rxDisposeBag = CompositeDisposable() chatClient.purgeUserMessages( chatRoomId = "0976280012ac00023242", // ID of an existing chatroom userId = "023976080242ac120002", // ID of an existing user from this chatroom whose Chat Message(s) will be purged byUserId = "moderator", // Any User ID whose role is either 'Moderator' OR 'Admin' ) .subscribeOn(Schedulers.io()) .observeOn(AndroidSchedulers.mainThread()) .doOnSubscribe { rxDisposeBag.add(it) } .subscribe { // This API does NOT return any response. Either is succeeds OR throws SportsTalkException if it fails. } ```