MSA-2113: Multi-Input Multi-Output device with 2 low voltage signal inputs and 2 low voltage relay outputs. Device handler allows user to see all 4 device endpoints and control each relay independently and view signal status as a voltage or (open/closed) status, depending on the signal type that is connected. There's two devices type handlers (a-side & b-side). These are for users to be able to create separate devices for each of the relays and inputs, so they can control them with rules and scenes in smart-home monitor or other smart-apps.

Rolling down staging to master

devicetypes/fortrezz/fortrezz-mimo2-b-side.src/fortrezz-mimo2-b-side.groovy

@@ -0,0 +1,102 @@
+/**
+ *  FortrezZ MIMO2+ B-Side
+ *
+ *  Copyright 2016 FortrezZ, LLC
+ *
+ *  Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
+ *  in compliance with the License. You may obtain a copy of the License at:
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ *  Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
+ *  on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
+ *  for the specific language governing permissions and limitations under the License.
+ *
+ */
+metadata {
+	definition (name: "FortrezZ MIMO2+ B-Side", namespace: "fortrezz", author: "FortrezZ, LLC") {
+		capability "Contact Sensor"
+		capability "Relay Switch"
+		capability "Switch"
+		capability "Voltage Measurement"
+        capability "Refresh"
+	}
+    
+	tiles {
+         standardTile("switch", "device.switch", width: 2, height: 2) {
+            state "on", label: "Relay 2 On", action: "off", icon: "http://swiftlet.technology/wp-content/uploads/2016/06/Switch-On-104-edit.png", backgroundColor: "#53a7c0"            
+			state "off", label: "Relay 2 Off", action: "on", icon: "http://swiftlet.technology/wp-content/uploads/2016/06/Switch-Off-104-edit.png", backgroundColor: "#ffffff"
+        }
+        standardTile("anaDig1", "device.anaDig1", inactiveLabel: false) {
+			state "open", label: '${name}', icon: "st.contact.contact.open", backgroundColor: "#ffa81e"
+			state "closed", label: '${name}', icon: "st.contact.contact.closed", backgroundColor: "#79b821"
+            state "val", label:'${currentValue}v', unit:"", defaultState: true
+		}
+        standardTile("refresh", "device.switch", inactiveLabel: false, decoration: "flat") {
+			state "default", label:'', action:"refresh.refresh", icon:"st.secondary.refresh"
+		}
+        standardTile("powered", "device.powered", inactiveLabel: false) {
+			state "powerOn", label: "Power On", icon: "st.switches.switch.on", backgroundColor: "#79b821"
+			state "powerOff", label: "Power Off", icon: "st.switches.switch.off", backgroundColor: "#ffa81e"
+		}
+		standardTile("configure", "device.configure", inactiveLabel: false, decoration: "flat") {
+			state "configure", label:'', action:"configuration.configure", icon:"st.secondary.configure"
+		}
+        standardTile("blank", "device.blank", inactiveLabel: true, decoration: "flat") {
+        	state("blank", label: '')
+        }
+		main (["switch"])
+		details(["switch", "anaDig1", "blank", "blank", "refresh", "powered"])
+	}
+}
+
+// parse events into attributes
+def parse(String description) {
+	log.debug "Parsing '${description}'"
+	// TODO: handle 'contact' attribute
+	// TODO: handle 'switch' attribute
+	// TODO: handle 'switch' attribute
+	// TODO: handle 'voltage' attribute
+
+}
+
+def eventParse(evt) {
+	log.debug("Event: ${evt.name}=${evt.value}")
+    switch(evt.name) {
+    	case "powered":
+        	sendEvent(name: evt.name, value: evt.value)
+        	break
+    	case "switch2":
+        	sendEvent(name: "switch", value: evt.value)
+        	break
+    	case "contact2":
+        	sendEvent(name: "contact", value: evt.value)
+        	break
+    	case "voltage2":
+        	sendEvent(name: "voltage", value: evt.value)
+        	break
+    	case "relay2":
+        	sendEvent(name: evt.name, value: evt.value)
+        	break
+    	case "anaDig2":
+        	sendEvent(name: "anaDig1", value: evt.value)
+        	break
+    }
+}
+
+// handle commands
+def on() {
+    parent.on2(device.id)
+	log.debug("Executing 'on'")
+	// TODO: Send Event to parent device for "on2"
+}
+
+def off() {
+    parent.off2(device.id)
+	log.debug("Executing 'off'")
+	// TODO: Send Event to parent device for "off2"
+}
+def refresh() {
+	parent.refresh2(device.id)
+    log.debug("Executing 'refresh'")
+}

devicetypes/fortrezz/fortrezz-mimo2.src/fortrezz-mimo2.groovy

@@ -0,0 +1,379 @@
+/**
+ *  MIMO2 Device Handler
+ *
+ *  Copyright 2016 FortrezZ, LLC
+ *
+ *  Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
+ *  in compliance with the License. You may obtain a copy of the License at:
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ *  Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
+ *  on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
+ *  for the specific language governing permissions and limitations under the License.
+ *
+ */
+metadata {
+	definition (name: "FortrezZ MIMO2+", namespace: "fortrezz", author: "FortrezZ, LLC") {
+		capability "Alarm"
+		capability "Contact Sensor"
+		capability "Switch"
+		capability "Voltage Measurement"
+        capability "Configuration"
+        capability "Refresh"
+        
+        attribute "powered", "string"
+        attribute "relay", "string"
+        
+        attribute "relay2", "string"
+        attribute "contact2", "string"
+        attribute "voltage2", "string"
+        
+		command "on"
+		command "off"
+        command "on2"
+        command "off2"
+        
+        fingerprint deviceId: "0x2100", inClusters: "0x5E,0x86,0x72,0x5A,0x59,0x71,0x98,0x7A"
+	}
+    
+    preferences {
+
+        input ("RelaySwitchDelay", "decimal", title: "Delay between relay switch on and off in seconds. Only Numbers 0 to 3 allowed. 0 value will remove delay and allow relay to function as a standard switch:\nRelay 1", description: "Numbers 0 to 3.1 allowed.", defaultValue: 0, required: false, displayDuringSetup: true)
+        input ("RelaySwitchDelay2", "decimal", title: "Relay 2", description: "Numbers 0 to 3.1 allowed.", defaultValue: 0, required: false, displayDuringSetup: true)
+        input ("Sig1AD", "bool", title: "Switch off for digital, on for analog:\nSIG1", required: false, displayDuringSetup: true)
+        input ("Sig2AD", "bool", title: "SIG2", required: false, displayDuringSetup: true)
+        } // the range would be 0 to 3.1, but the range value would not accept 3.1, only whole numbers (i tried paranthesis and fractions too. :( )
+
+       
+	tiles {
+         standardTile("switch", "device.switch", width: 2, height: 2) {
+            state "on", label: "Relay 1 On", action: "off", icon: "http://swiftlet.technology/wp-content/uploads/2016/06/Switch-On-104-edit.png", backgroundColor: "#53a7c0"            
+			state "off", label: "Relay 1 Off", action: "on", icon: "http://swiftlet.technology/wp-content/uploads/2016/06/Switch-Off-104-edit.png", backgroundColor: "#ffffff"
+
+        }
+         standardTile("switch2", "device.switch2", width: 2, height: 2, inactiveLabel: false) {
+            state "on", label: "Relay 2 On", action: "off2", icon: "http://swiftlet.technology/wp-content/uploads/2016/06/Switch-On-104-edit.png", backgroundColor: "#53a7c0"
+			state "off", label: 'Relay 2 Off', action: "on2", icon: "http://swiftlet.technology/wp-content/uploads/2016/06/Switch-Off-104-edit.png", backgroundColor: "#ffffff"
+        }
+        standardTile("anaDig1", "device.anaDig1", inactiveLabel: false) {
+			state "open", label: '${name}', icon: "st.contact.contact.open", backgroundColor: "#ffa81e"
+			state "closed", label: '${name}', icon: "st.contact.contact.closed", backgroundColor: "#79b821"
+            state "val", label:'${currentValue}v', unit:"", defaultState: true
+		}
+        standardTile("anaDig2", "device.anaDig2", inactiveLabel: false) {
+			state "open", label: '${name}', icon: "st.contact.contact.open", backgroundColor: "#ffa81e"
+			state "closed", label: '${name}', icon: "st.contact.contact.closed", backgroundColor: "#79b821"
+            state "val", label:'${currentValue}v', unit:"", defaultState: true
+		}
+        standardTile("refresh", "device.switch", inactiveLabel: false, decoration: "flat") {
+			state "default", label:'', action:"refresh.refresh", icon:"st.secondary.refresh"
+		}
+        standardTile("powered", "device.powered", inactiveLabel: false) {
+			state "powerOn", label: "Power On", icon: "st.switches.switch.on", backgroundColor: "#79b821"
+			state "powerOff", label: "Power Off", icon: "st.switches.switch.off", backgroundColor: "#ffa81e"
+		}
+		standardTile("configure", "device.configure", inactiveLabel: false, decoration: "flat") {
+			state "configure", label:'', action:"configuration.configure", icon:"st.secondary.configure"
+		}
+        standardTile("blank", "device.blank", inactiveLabel: true, decoration: "flat") {
+        	state("blank", label: '')
+        }
+		main (["switch"])
+		details(["switch", "anaDig1", "blank", "switch2", "anaDig2", "blank", "configure", "refresh", "powered"])
+	}
+}
+
+// parse events into attributes
+def parse(String description) {
+	def result = null
+	def cmd = zwave.parse(description)
+    
+    if (cmd.CMD == "7105") {				//Mimo sent a power loss report
+    	log.debug "Device lost power"
+    	sendEvent(name: "powered", value: "powerOff", descriptionText: "$device.displayName lost power")
+    } else {
+    	sendEvent(name: "powered", value: "powerOn", descriptionText: "$device.displayName regained power")
+    }
+	if (cmd) {
+    	def eventReturn = zwaveEvent(cmd)
+        if(eventReturn in physicalgraph.device.HubMultiAction) {
+        	result = eventReturn
+        }
+        else {
+        	result = createEvent(eventReturn)
+        }
+	}
+    log.debug "Parse returned ${result} $cmd.CMD"
+	return result
+}
+
+def updated() { // neat built-in smartThings function which automatically runs whenever any setting inputs are changed in the preferences menu of the device handler
+    
+    if (state.count == 1) // this bit with state keeps the function from running twice ( which it always seems to want to do) (( oh, and state.count is a variable which is nonVolatile and doesn't change per every parse request.
+    {
+        state.count = 0
+        log.debug "Settings Updated..."
+        return response(delayBetween([
+            configure(), // the response() function is used for sending commands in reponse to an event, without it, no zWave commands will work for contained function
+            refresh()
+            ], 200))
+    }
+    else {state.count = 1}
+}
+
+def zwaveEvent(physicalgraph.zwave.commands.basicv1.BasicSet cmd) // basic set is essentially our digital sensor for SIG1 and SIG2 - it doesn't use an endpoint so we are having it send a multilevelGet() for SIG1 and SIG2 to see which one triggered.
+{
+	log.debug "sent a BasicSet command"
+	return response(refresh())
+}
+
+def zwaveEvent(int endPoint, physicalgraph.zwave.commands.sensorbinaryv1.SensorBinaryReport cmd) // event to get the state of the digital sensor SIG1 and SIG2
+{
+	log.debug "sent a sensorBinaryReport command"
+	return response(refresh())
+}
+
+def zwaveEvent(int endPoint, physicalgraph.zwave.commands.switchbinaryv1.SwitchBinaryReport cmd) // event for seeing the states of relay 1 and relay 2
+{
+	def map = [:] // map for containing the name and state fo the specified relay
+    if (endPoint == 3)
+    {
+    	if (cmd.value) // possible values are 255 and 0 (0 is false)
+    		{map.value = "on"}
+    	else
+    		{map.value = "off"}
+        map.name = "switch"
+        log.debug "sent a SwitchBinary command $map.name $map.value" // the map is only used for debug messages. not for the return command to the device
+        return [name: "switch", value: cmd.value ? "on" : "off"]
+    }
+    else if (endPoint == 4)
+    {
+    	if (cmd.value)
+    		{map.value = "on"}
+    	else
+    		{map.value = "off"}
+        map.name = "switch2"
+        sendEvent(name: "relay2", value: "$map.value")
+        log.debug "sent a SwitchBinary command $map.name $map.value" // the map is only used for debug messages. not for the return command to the device
+        return [name: "switch2", value: cmd.value ? "on" : "off"]
+    }
+}
+   
+def zwaveEvent (int endPoint, physicalgraph.zwave.commands.sensormultilevelv5.SensorMultilevelReport cmd) // sensorMultilevelReport is used to report the value of the analog voltage for SIG1
+{
+	def map = [:]
+    def stdEvent = [:]
+    def voltageVal = CalculateVoltage(cmd.scaledSensorValue) // saving the scaled Sensor Value used to enter into a large formula to determine actual voltage value
+    if (endPoint == 1) //endPoint 1 is for SIG1
+    {
+    	if (state.AD1 == false) // state.AD1 is  to determine which state the anaDig1 tile should be in (either analogue or digital mode)
+        {
+        	map.name = "anaDig1"
+            stdEvent.name = "contact"
+            if (voltageVal < 2) { // DK changed to 2v to follow LED behavior
+            	map.value = "closed"
+                stdEvent.value = "closed"
+            }
+            else
+            {
+            	map.value = "open"
+                stdEvent.value = "open"
+            } 
+        }
+        else //or state.AD1 is true for analogue mode
+        {
+        	map.name = "anaDig1"
+            stdEvent.name = "voltage"
+        	map.value = voltageVal
+            stdEvent.value = voltageVal
+        	map.unit = "v"
+            stdEvent.unit = "v"
+        }
+    }
+    else if (endPoint == 2) // endpoint 2 is for SIG2
+    {
+        if (state.AD2 == false)
+        {
+        	map.name = "anaDig2"
+            stdEvent.name = "contact2"
+            if (voltageVal < 2) {
+            	map.value = "closed"
+                stdEvent.value = "closed"
+            }
+            else
+            {
+            	map.value = "open"
+                stdEvent.value = "open"
+            } 
+        }
+        else
+        {
+        	map.name = "anaDig2"
+            stdEvent.name = "voltage2"
+        	map.value = voltageVal
+            stdEvent.value = voltageVal
+        	map.unit = "v"
+            stdEvent.unit = "v"
+        }
+    }
+	log.debug "sent a SensorMultilevelReport $map.name $map.value"
+    sendEvent(stdEvent)
+    return map
+}
+
+def zwaveEvent(physicalgraph.zwave.commands.securityv1.SecurityMessageEncapsulation cmd) { //standard security encapsulation event code (should be the same on all device handlers)
+    def encapsulatedCommand = cmd.encapsulatedCommand()
+    // can specify command class versions here like in zwave.parse
+    if (encapsulatedCommand) {
+        return zwaveEvent(encapsulatedCommand)
+    }
+}
+
+// MultiChannelCmdEncap and MultiInstanceCmdEncap are ways that devices
+// can indicate that a message is coming from one of multiple subdevices
+// or "endpoints" that would otherwise be indistinguishable
+def zwaveEvent(physicalgraph.zwave.commands.multichannelv3.MultiChannelCmdEncap cmd) {
+    def encapsulatedCommand = cmd.encapsulatedCommand()
+    log.debug ("Command from endpoint ${cmd.sourceEndPoint}: ${encapsulatedCommand}")
+
+    if (encapsulatedCommand) {
+        return zwaveEvent(cmd.sourceEndPoint, encapsulatedCommand)
+    }
+}
+
+def zwaveEvent(int endPoint, physicalgraph.zwave.commands.multichannelassociationv2.MultiChannelAssociationReport cmd) {
+	
+    log.debug "sent an Association Report"
+    log.debug " ${cmd.groupingIdentifier}"
+    //return [:]
+}
+
+def zwaveEvent(physicalgraph.zwave.Command cmd) {
+	// Handles all Z-Wave commands we aren't interested in
+     log.debug("Un-parsed Z-Wave message ${cmd}")
+	return [:]
+}
+
+def CalculateVoltage(ADCvalue) // used to calculate the voltage based on the collected Scaled sensor value of the multilevel sensor event
+{
+    def volt = (((2.396*(10**-17))*(ADCvalue**5)) - ((1.817*(10**-13))*(ADCvalue**4)) + ((5.087*(10**-10))*(ADCvalue**3)) - ((5.868*(10**-7))*(ADCvalue**2)) + ((9.967*(10**-4))*(ADCvalue)) - (1.367*(10**-2)))
+	return volt.round(1)
+}
+	
+
+def configure() {
+	log.debug "Configuring...." 
+    def sig1
+    def sig2
+    if (Sig1AD == true)
+    {	sig1 = 0x01
+        state.AD1 = true}
+    else if (Sig1AD == false) 
+    {	sig1 = 0x40
+    	state.AD1 = false}
+    if (Sig2AD == true)
+    {	sig2 = 0x01
+    	state.AD2 = true}
+    else if (Sig2AD == false) 
+    {	sig2 = 0x40
+    	state.AD2 = false}
+    
+	def delay = (RelaySwitchDelay*10).toInteger() // the input which we get from the user is a string and is in seconds while the MIMO2 configuration requires it in 100ms so - change to integer and multiply by 10  
+    def delay2 = (RelaySwitchDelay2*10).toInteger() // the input which we get from the user is a string and is in seconds while the MIMO2 configuration requires it in 100ms so - change to integer and multiply by 10
+	if (delay > 31) 
+    {
+        log.debug "Relay 1 input ${delay / 10} set too high. Max value is 3.1"
+        delay = 31
+    }
+    if (delay < 0) 
+    {
+        log.debug "Relay 1 input ${delay / 10} set too low. Min value is 0"
+        delay = 0
+    }
+    if (delay2 > 31) 
+    {
+    	log.debug "Relay 2 input ${delay2 / 10} set too high. Max value is 3.1"
+    	delay2 = 31
+    }
+     if (delay2 < 0) 
+    {
+    	log.debug "Relay 2 input ${delay2 / 10} set too low. Min value is 0"
+    	delay = 0
+    } 
+
+    
+    
+    return delayBetween([
+        encap(zwave.multiChannelAssociationV2.multiChannelAssociationSet(groupingIdentifier:3, nodeId:[zwaveHubNodeId]), 0),
+        encap(zwave.multiChannelAssociationV2.multiChannelAssociationSet(groupingIdentifier:2, nodeId:[zwaveHubNodeId]), 0),
+
+        encap(zwave.multiChannelAssociationV2.multiChannelAssociationSet(groupingIdentifier:2, nodeId:[zwaveHubNodeId]), 1),
+        encap(zwave.multiChannelAssociationV2.multiChannelAssociationSet(groupingIdentifier:2, nodeId:[zwaveHubNodeId]), 2),
+        encap(zwave.multiChannelAssociationV2.multiChannelAssociationSet(groupingIdentifier:1, nodeId:[zwaveHubNodeId]), 3),
+        encap(zwave.multiChannelAssociationV2.multiChannelAssociationSet(groupingIdentifier:1, nodeId:[zwaveHubNodeId]), 4),
+
+        secure(zwave.configurationV1.configurationSet(configurationValue: [sig1], parameterNumber: 3, size: 1)), // sends a multiLevelSensor report every 30 seconds for SIG1
+        secure(zwave.configurationV1.configurationSet(configurationValue: [sig2], parameterNumber: 9, size: 1)), // sends a multiLevelSensor report every 30 seconds for SIG2
+        secure(zwave.configurationV1.configurationSet(configurationValue: [delay], parameterNumber: 1, size: 1)), // configurationValue for parameterNumber means how many 100ms do you want the relay
+        																										// to wait before it cycles again / size should just be 1 (for 1 byte.)
+        secure(zwave.configurationV1.configurationSet(configurationValue: [delay2], parameterNumber: 2, size: 1)),
+        
+    ], 200)
+}
+
+def on() {	
+	return encap(zwave.basicV1.basicSet(value: 0xff), 3) // physically changes the relay from on to off and requests a report of the relay
+    // oddly, smartThings automatically sends a switchBinaryGet() command whenever the above basicSet command is sent, so we don't need to send one here.
+}
+
+def off() {
+    return encap(zwave.basicV1.basicSet(value: 0x00), 3) // physically changes the relay from on to off and requests a report of the relay
+		// oddly, smartThings automatically sends a switchBinaryGet() command whenever the above basicSet command is sent, so we don't need to send one here.
+}
+
+def on2() {
+   return encap(zwave.basicV1.basicSet(value: 0xff), 4)
+        // oddly, smartThings automatically sends a switchBinaryGet() command whenever the above basicSet command is sent, so we don't need to send one here.
+}
+
+def off2() {
+    return encap(zwave.basicV1.basicSet(value: 0x00), 4)
+        // oddly, smartThings automatically sends a switchBinaryGet() command whenever the above basicSet command is sent, so we don't need to send one here.
+}
+
+def refresh() {
+	log.debug "Refresh"
+	return delayBetween([
+         encap(zwave.sensorMultilevelV5.sensorMultilevelGet(), 1),// requests a report of the anologue input voltage for SIG1
+         encap(zwave.sensorMultilevelV5.sensorMultilevelGet(), 2),// requests a report of the anologue input voltage for SIG2
+         encap(zwave.switchBinaryV1.switchBinaryGet(), 3), //requests a report of the relay to make sure that it changed for Relay 1
+         encap(zwave.switchBinaryV1.switchBinaryGet(), 4), //requests a report of the relay to make sure that it changed for Relay 2
+       ],200)
+}
+
+def refreshZWave() {
+	log.debug "Refresh (Z-Wave Response)"
+	return delayBetween([
+         encap(zwave.sensorMultilevelV5.sensorMultilevelGet(), 1),// requests a report of the anologue input voltage for SIG1
+         encap(zwave.sensorMultilevelV5.sensorMultilevelGet(), 2),// requests a report of the anologue input voltage for SIG2
+         encap(zwave.switchBinaryV1.switchBinaryGet(), 3), //requests a report of the relay to make sure that it changed for Relay 1
+         encap(zwave.switchBinaryV1.switchBinaryGet(), 4) //requests a report of the relay to make sure that it changed for Relay 2
+       ],200)
+}
+
+private secureSequence(commands, delay=200) { // decided not to use this
+	return delayBetween(commands.collect{ secure(it) }, delay)
+}
+
+private secure(physicalgraph.zwave.Command cmd) { //take multiChannel message and securely encrypts the message so the device can read it
+	return zwave.securityV1.securityMessageEncapsulation().encapsulate(cmd).format()
+}
+
+private encap(cmd, endpoint) { // takes desired command and encapsulates it by multiChannel and then sends it to secure() to be wrapped with another encapsulation for secure encryption
+	if (endpoint) {
+		return secure(zwave.multiChannelV3.multiChannelCmdEncap(bitAddress: false, sourceEndPoint:0, destinationEndPoint: endpoint).encapsulate(cmd))
+	} else {
+		return secure(cmd)
+	}
+}

devicetypes/plaidsystems/spruce-sensor.src/spruce-sensor.groovy

@@ -1,5 +1,5 @@
 /**
- *  Spruce Sensor -Pre-release V2 10/8/2015
+ *  Spruce Sensor -updated with SLP model number 5/2017
  *
  *  Copyright 2014 Plaid Systems
  *
@@ -14,25 +14,33 @@
  *
  -------10/20/2015 Updates--------
  -Fix/add battery reporting interval to update
- -remove polling and/or refresh(?)
+ -remove polling and/or refresh
+ 
+ -------5/2017 Updates--------
+ -Add fingerprints for SLP
+ -add device health, check every 60mins + 2mins
  */
+ 
 metadata {
-	definition (name: "Spruce Sensor", namespace: "plaidsystems", author: "NCauffman") {
+	definition (name: "Spruce Sensor", namespace: "plaidsystems", author: "Plaid Systems") {
 		
 		capability "Configuration"
 		capability "Battery"
         capability "Relative Humidity Measurement"
         capability "Temperature Measurement"
         capability "Sensor"
+        capability "Health Check"
         //capability "Polling"
 		
         attribute "maxHum", "string"
         attribute "minHum", "string"        
         
+        
         command "resetHumidity"
         command "refresh"
         
-        fingerprint profileId: "0104", inClusters: "0000,0001,0003,0402,0405", outClusters: "0003, 0019", manufacturer: "PLAID SYSTEMS", model: "PS-SPRZMS-01"
+        fingerprint profileId: "0104", inClusters: "0000,0001,0003,0402,0405", outClusters: "0003, 0019", manufacturer: "PLAID SYSTEMS", model: "PS-SPRZMS-01", deviceJoinName: "Spruce Sensor"
+        fingerprint profileId: "0104", inClusters: "0000,0001,0003,0402,0405", outClusters: "0003, 0019", manufacturer: "PLAID SYSTEMS", model: "PS-SPRZMS-SLP1", deviceJoinName: "Spruce Sensor"
 	}
 
 	preferences {
@@ -293,6 +301,11 @@ def setConfig(){
     sendEvent(name: 'configuration',value: configInterval, descriptionText: "Configuration initialized")
 }
 
+def installed(){
+	//check every 1 hour + 2mins
+    sendEvent(name: "checkInterval", value: 1 * 60 * 60 + 2 * 60, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
+}
+
 //when device preferences are changed
 def updated(){	
     log.debug "device updated"
@@ -303,6 +316,8 @@ def updated(){
             sendEvent(name: 'configuration',value: 0, descriptionText: "Settings changed and will update at next report. Measure interval set to ${interval} mins")
     	}
     }
+    //check every 1 hour + 2mins
+    sendEvent(name: "checkInterval", value: 1 * 60 * 60 + 2 * 60, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
 }
 
 //poll
@@ -395,4 +410,4 @@ private byte[] reverseArray(byte[] array) {
         i++;
     }
     return array
-}
+}

devicetypes/smartthings/aeon-multisensor-6.src/README.md

@@ -27,13 +27,9 @@ Works with:
 ## Device Health
 
 Aeon Labs MultiSensor 6 is polled by the hub.
-As of hubCore version 0.14.38 the hub sends up reports every 15 minutes regardless of whether the state changed.
+Aeon MultiSensor reports in once every hour.
-Device-Watch allows 2 check-in misses from device plus some lag time. So Check-in interval = (2*15 + 2)mins = 32 mins.
-Not to mention after going OFFLINE when the device is plugged back in, it might take a considerable amount of time for
-the device to appear as ONLINE again. This is because if this listening device does not respond to two poll requests in a row,
-it is not polled for 5 minutes by the hub. This can delay up the process of being marked ONLINE by quite some time.
 
-* __32min__ checkInterval
+* __122min__ checkInterval
 
 ## Troubleshooting
 

devicetypes/smartthings/aeon-multisensor-6.src/aeon-multisensor-6.groovy

@@ -130,13 +130,13 @@ metadata {
 }
 
 def installed(){
-// Device-Watch simply pings if no device events received for 32min(checkInterval)
+// Device-Watch simply pings if no device events received for 122min(checkInterval)
-	sendEvent(name: "checkInterval", value: 2 * 15 * 60 + 2 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
+	sendEvent(name: "checkInterval", value: 2 * 60 * 60 + 2 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
 }
 
 def updated() {
-// Device-Watch simply pings if no device events received for 32min(checkInterval)
+// Device-Watch simply pings if no device events received for 122min(checkInterval)
-	sendEvent(name: "checkInterval", value: 2 * 15 * 60 + 2 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
+	sendEvent(name: "checkInterval", value: 2 * 60 * 60 + 2 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
 	log.debug "Updated with settings: ${settings}"
 	log.debug "${device.displayName} is now ${device.latestValue("powerSupply")}"
 

devicetypes/smartthings/smartsense-moisture-sensor.src/smartsense-moisture-sensor.groovy

@@ -105,6 +105,8 @@ def parse(String description) {
 				} else {
 					log.warn "TEMP REPORTING CONFIG FAILED- error code: ${descMap.data[0]}"
 				}
+			} else if (descMap?.clusterInt == zigbee.IAS_ZONE_CLUSTER && descMap.attrInt == zigbee.ATTRIBUTE_IAS_ZONE_STATUS && descMap?.value) {
+				map = translateZoneStatus(new ZoneStatus(zigbee.convertToInt(descMap?.value)))
 			}
 		}
 	} else if (map.name == "temperature") {
@@ -129,6 +131,10 @@ def parse(String description) {
 private Map parseIasMessage(String description) {
 	ZoneStatus zs = zigbee.parseZoneStatus(description)
 
+	translateZoneStatus(zs)
+}
+
+private Map translateZoneStatus(ZoneStatus zs) {
 	return zs.isAlarm1Set() ? getMoistureResult('wet') : getMoistureResult('dry')
 }
 
@@ -197,7 +203,8 @@ def ping() {
 def refresh() {
 	log.debug "Refreshing Temperature and Battery"
 	def refreshCmds = zigbee.readAttribute(zigbee.TEMPERATURE_MEASUREMENT_CLUSTER, 0x0000) +
-			zigbee.readAttribute(zigbee.POWER_CONFIGURATION_CLUSTER, 0x0020)
+			zigbee.readAttribute(zigbee.POWER_CONFIGURATION_CLUSTER, 0x0020) +
+			zigbee.readAttribute(zigbee.IAS_ZONE_CLUSTER, zigbee.ATTRIBUTE_IAS_ZONE_STATUS)
 
 	return refreshCmds + zigbee.enrollResponse()
 }

devicetypes/smartthings/smartsense-motion-sensor.src/smartsense-motion-sensor.groovy

@@ -111,6 +111,8 @@ def parse(String description) {
 				def value = descMap.value.endsWith("01") ? "active" : "inactive"
 				log.debug "Doing a read attr motion event"
 				map = getMotionResult(value)
+			} else if (descMap?.clusterInt == zigbee.IAS_ZONE_CLUSTER && descMap.attrInt == zigbee.ATTRIBUTE_IAS_ZONE_STATUS && descMap?.value) {
+				map = translateZoneStatus(new ZoneStatus(zigbee.convertToInt(descMap?.value)))
 			}
 		}
 	} else if (map.name == "temperature") {
@@ -135,6 +137,10 @@ def parse(String description) {
 private Map parseIasMessage(String description) {
 	ZoneStatus zs = zigbee.parseZoneStatus(description)
 
+	translateZoneStatus(zs)
+}
+
+private Map translateZoneStatus(ZoneStatus zs) {
 	// Some sensor models that use this DTH use alarm1 and some use alarm2 to signify motion
 	return (zs.isAlarm1Set() || zs.isAlarm2Set()) ? getMotionResult('active') : getMotionResult('inactive')
 }
@@ -165,8 +171,8 @@ private Map getBatteryResult(rawValue) {
 			def pct = batteryMap[volts]
 			result.value = pct
 		} else {
-			def minVolts = 2.1
+			def minVolts = 2.4
-			def maxVolts = 3.0
+			def maxVolts = 2.7
 			def pct = (volts - minVolts) / (maxVolts - minVolts)
 			def roundedPct = Math.round(pct * 100)
 			if (roundedPct <= 0)
@@ -200,7 +206,8 @@ def refresh() {
 	log.debug "refresh called"
 
 	def refreshCmds = zigbee.readAttribute(zigbee.POWER_CONFIGURATION_CLUSTER, 0x0020) +
-			zigbee.readAttribute(zigbee.TEMPERATURE_MEASUREMENT_CLUSTER, 0x0000)
+			zigbee.readAttribute(zigbee.TEMPERATURE_MEASUREMENT_CLUSTER, 0x0000) +
+			zigbee.readAttribute(zigbee.IAS_ZONE_CLUSTER, zigbee.ATTRIBUTE_IAS_ZONE_STATUS)
 
 	return refreshCmds + zigbee.enrollResponse()
 }

devicetypes/smartthings/smartsense-multi-sensor.src/smartsense-multi-sensor.groovy

@@ -134,8 +134,9 @@ def parse(String description) {
 				} else {
 					log.warn "TEMP REPORTING CONFIG FAILED- error code: ${descMap.data[0]}"
 				}
+			} else if (descMap?.clusterInt == zigbee.IAS_ZONE_CLUSTER && descMap.attrInt == zigbee.ATTRIBUTE_IAS_ZONE_STATUS && descMap?.value) {
+				maps += translateZoneStatus(new ZoneStatus(zigbee.convertToInt(descMap?.value)))
 			} else {
-
 				maps += handleAcceleration(descMap)
 			}
 		}
@@ -229,6 +230,11 @@ private List<Map> parseAxis(List<Map> attrData) {
 
 private List<Map> parseIasMessage(String description) {
 	ZoneStatus zs = zigbee.parseZoneStatus(description)
+
+	translateZoneStatus(zs)
+}
+
+private List<Map> translateZoneStatus(ZoneStatus zs) {
 	List<Map> results = []
 
 	if (garageSensor != "Yes") {
@@ -268,7 +274,7 @@ private Map getBatteryResult(rawValue) {
 			result.value = pct
 		} else {
 			def minVolts = 2.1
-			def maxVolts = 3.0
+			def maxVolts = 2.7
 			def pct = (volts - minVolts) / (maxVolts - minVolts)
 			def roundedPct = Math.round(pct * 100)
 			if (roundedPct <= 0)
@@ -313,7 +319,7 @@ def refresh() {
 	def refreshCmds = zigbee.readAttribute(zigbee.TEMPERATURE_MEASUREMENT_CLUSTER, 0x0000) +
 			zigbee.readAttribute(zigbee.POWER_CONFIGURATION_CLUSTER, 0x0020) +
 			zigbee.readAttribute(0xFC02, 0x0010, [mfgCode: manufacturerCode]) +
-			zigbee.enrollResponse()
+			zigbee.readAttribute(zigbee.IAS_ZONE_CLUSTER, zigbee.ATTRIBUTE_IAS_ZONE_STATUS) + zigbee.enrollResponse()
 
 	return refreshCmds
 }

devicetypes/smartthings/zwave-thermostat.src/zwave-thermostat.groovy

@@ -15,10 +15,9 @@ metadata {
 	definition (name: "Z-Wave Thermostat", namespace: "smartthings", author: "SmartThings") {
 		capability "Actuator"
 		capability "Temperature Measurement"
-		capability "Relative Humidity Measurement"
 		capability "Thermostat"
 		capability "Configuration"
-		capability "Polling"
+		capability "Refresh"
 		capability "Sensor"
 		capability "Health Check"
 		
@@ -117,7 +116,7 @@ metadata {
 			state "cool", label:'${currentValue}° cool', backgroundColor:"#ffffff"
 		}
 		standardTile("refresh", "device.thermostatMode", inactiveLabel: false, decoration: "flat") {
-			state "default", action:"polling.poll", icon:"st.secondary.refresh"
+			state "default", action:"refresh.refresh", icon:"st.secondary.refresh"
 		}
 		main "temperature"
 		details(["temperature", "mode", "fanMode", "heatSliderControl", "heatingSetpoint", "coolSliderControl", "coolingSetpoint", "refresh"])
@@ -125,13 +124,20 @@ metadata {
 }
 
 def installed(){
-	// Device-Watch simply pings if no device events received for 32min(checkInterval)
+	sendHubCommand(new physicalgraph.device.HubAction(zwave.thermostatModeV2.thermostatModeSupportedGet().format()))
-	sendEvent(name: "checkInterval", value: 2 * 15 * 60 + 2 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
+	initialize()
 }
 
 def updated(){
+	initialize()
+}
+
+def initialize() {
 	// Device-Watch simply pings if no device events received for 32min(checkInterval)
 	sendEvent(name: "checkInterval", value: 2 * 15 * 60 + 2 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
+	unschedule()
+	runEvery5Minutes("refresh")
+	refresh()
 }
 
 def parse(String description)
@@ -149,6 +155,7 @@ def parse(String description)
 		]
 		if (map.name == "thermostatMode") {
 			state.lastTriedMode = map.value
+			map.data = [supportedThermostatModes:state.supportedThermostatModes]
 			if (map.value == "cool") {
 				map2.value = device.latestValue("coolingSetpoint")
 				log.info "THERMOSTAT, latest cooling setpoint = ${map2.value}"
@@ -172,6 +179,7 @@ def parse(String description)
 		}
 	} else if (map.name == "thermostatFanMode" && map.isStateChange) {
 		state.lastTriedFanMode = map.value
+		map.data = [supportedThermostatFanModes: state.supportedThermostatFanModes]
 	}
 	log.debug "Parse returned $result"
 	result
@@ -305,26 +313,26 @@ def zwaveEvent(physicalgraph.zwave.commands.thermostatfanmodev3.ThermostatFanMod
 }
 
 def zwaveEvent(physicalgraph.zwave.commands.thermostatmodev2.ThermostatModeSupportedReport cmd) {
-	def supportedModes = ""
+	def supportedModes = []
-	if(cmd.off) { supportedModes += "off " }
+	if(cmd.off) { supportedModes << "off" }
-	if(cmd.heat) { supportedModes += "heat " }
+	if(cmd.heat) { supportedModes << "heat" }
-	if(cmd.auxiliaryemergencyHeat) { supportedModes += "emergency heat " }
+	if(cmd.cool) { supportedModes << "cool" }
-	if(cmd.cool) { supportedModes += "cool " }
+	if(cmd.auto) { supportedModes << "auto" }
-	if(cmd.auto) { supportedModes += "auto " }
+	if(cmd.auxiliaryemergencyHeat) { supportedModes << "emergency heat" }
 
-	state.supportedModes = supportedModes
+	state.supportedThermostatModes = supportedModes
-	// No events to be generated, return empty map
+	sendEvent(name: "supportedThermostatModes", value: supportedModes, displayed: false)
 	return [:]
 }
 
 def zwaveEvent(physicalgraph.zwave.commands.thermostatfanmodev3.ThermostatFanModeSupportedReport cmd) {
-	def supportedFanModes = ""
+	def supportedFanModes = []
-	if(cmd.auto) { supportedFanModes += "auto " } // "fanAuto "
+	if(cmd.auto) { supportedFanModes << "auto" } // "fanAuto "
-	if(cmd.low) { supportedFanModes += "on " } // "fanOn"
+	if(cmd.circulation) { supportedFanModes << "circulate" } // "fanCirculate"
-	if(cmd.circulation) { supportedFanModes += "circulate " } // "fanCirculate"
+	if(cmd.low) { supportedFanModes << "on" } // "fanOn"
 
-	state.supportedFanModes = supportedFanModes
+	state.supportedThermostatFanModes = supportedFanModes
-	// No events to be generated, return empty map
+	sendEvent(name: "supportedThermostatFanModes", value: supportedFanModes, displayed: false)
 	return [:]
 }
 
@@ -337,15 +345,17 @@ def zwaveEvent(physicalgraph.zwave.Command cmd) {
 }
 
 // Command Implementations
-def poll() {
+def refresh() {
-	delayBetween([
+	def cmds = []
-		zwave.sensorMultilevelV3.sensorMultilevelGet().format(), // current temperature
+	cmds << new physicalgraph.device.HubAction(zwave.thermostatModeV2.thermostatModeSupportedGet().format())
-		zwave.thermostatSetpointV1.thermostatSetpointGet(setpointType: 1).format(),
+	cmds << new physicalgraph.device.HubAction(zwave.thermostatFanModeV3.thermostatFanModeSupportedGet().format())
-		zwave.thermostatSetpointV1.thermostatSetpointGet(setpointType: 2).format(),
+	cmds << new physicalgraph.device.HubAction(zwave.thermostatModeV2.thermostatModeGet().format())
-		zwave.thermostatModeV2.thermostatModeGet().format(),
+	cmds << new physicalgraph.device.HubAction(zwave.thermostatFanModeV3.thermostatFanModeGet().format())
-		zwave.thermostatFanModeV3.thermostatFanModeGet().format(),
+	cmds << new physicalgraph.device.HubAction(zwave.sensorMultilevelV2.sensorMultilevelGet().format()) // current temperature
-		zwave.thermostatOperatingStateV1.thermostatOperatingStateGet().format()
+	cmds << new physicalgraph.device.HubAction(zwave.thermostatOperatingStateV1.thermostatOperatingStateGet().format())
-	], 2300)
+	cmds << new physicalgraph.device.HubAction(zwave.thermostatSetpointV1.thermostatSetpointGet(setpointType: 1).format())
+	cmds << new physicalgraph.device.HubAction(zwave.thermostatSetpointV1.thermostatSetpointGet(setpointType: 2).format())
+	sendHubCommand(cmds)
 }
 
 def quickSetHeat(degrees) {
@@ -416,28 +426,14 @@ def ping() {
 	poll()
 }
 
-def configure() {
-	delayBetween([
-		zwave.thermostatModeV2.thermostatModeSupportedGet().format(),
-		zwave.thermostatFanModeV3.thermostatFanModeSupportedGet().format(),
-		zwave.associationV1.associationSet(groupingIdentifier:1, nodeId:[zwaveHubNodeId]).format(),
-		zwave.sensorMultilevelV3.sensorMultilevelGet().format(), // current temperature
-		zwave.thermostatSetpointV1.thermostatSetpointGet(setpointType: 1).format(),
-		zwave.thermostatSetpointV1.thermostatSetpointGet(setpointType: 2).format(),
-		zwave.thermostatModeV2.thermostatModeGet().format(),
-		zwave.thermostatFanModeV3.thermostatFanModeGet().format(),
-		zwave.thermostatOperatingStateV1.thermostatOperatingStateGet().format()
-	], 2300)
-}
-
 def modes() {
-	["off", "heat", "cool", "auto", "emergency heat"]
+	return state.supportedThermostatModes
 }
 
 def switchMode() {
 	def currentMode = device.currentState("thermostatMode")?.value
-	def lastTriedMode = state.lastTriedMode ?: currentMode ?: "off"
+	def lastTriedMode = state.lastTriedMode ?: currentMode ?: ["off"]
-	def supportedModes = getDataByName("supportedModes")
+	def supportedModes = getDataByName("supportedThermostatModes")
 	def modeOrder = modes()
 	def next = { modeOrder[modeOrder.indexOf(it) + 1] ?: modeOrder[0] }
 	def nextMode = next(lastTriedMode)
@@ -454,7 +450,7 @@ def switchMode() {
 }
 
 def switchToMode(nextMode) {
-	def supportedModes = getDataByName("supportedModes")
+	def supportedModes = getDataByName("supportedThermostatModes")
 	if(supportedModes && !supportedModes.contains(nextMode)) log.warn "thermostat mode '$nextMode' is not supported"
 	if (nextMode in modes()) {
 		state.lastTriedMode = nextMode
@@ -466,9 +462,9 @@ def switchToMode(nextMode) {
 
 def switchFanMode() {
 	def currentMode = device.currentState("thermostatFanMode")?.value
-	def lastTriedMode = state.lastTriedFanMode ?: currentMode ?: "off"
+	def lastTriedMode = state.lastTriedFanMode ?: currentMode ?: ["off"]
-	def supportedModes = getDataByName("supportedFanModes") ?: "auto on" // "fanAuto fanOn"
+	def supportedModes = getDataByName("supportedThermostatFanModes") ?: ["auto", "on"]
-	def modeOrder = ["auto", "circulate", "on"]                 // "fanAuto", "fanCirculate", "fanOn"
+	def modeOrder = state.supportedThermostatFanModes
 	def next = { modeOrder[modeOrder.indexOf(it) + 1] ?: modeOrder[0] }
 	def nextMode = next(lastTriedMode)
 	while (!supportedModes?.contains(nextMode) && nextMode != "auto") { // "fanAuto"
@@ -478,7 +474,7 @@ def switchFanMode() {
 }
 
 def switchToFanMode(nextMode) {
-	def supportedFanModes = getDataByName("supportedFanModes")
+	def supportedFanModes = getDataByName("supportedThermostatFanModes")
 	if(supportedFanModes && !supportedFanModes.contains(nextMode)) log.warn "thermostat mode '$nextMode' is not supported"
 
 	def returnCommand

smartapps/smartthings/button-controller.src/button-controller.groovy

@@ -27,10 +27,9 @@ definition(
 
 preferences {
 	page(name: "selectButton")
-	page(name: "configureButton1")
+	for (def i=1; i<=8; i++) {
-	page(name: "configureButton2")
+		page(name: "configureButton$i")
-	page(name: "configureButton3")
+	}
-	page(name: "configureButton4")
 
 	page(name: "timeIntervalInput", title: "Only during a certain time") {
 		section {
@@ -60,22 +59,45 @@ def selectButton() {
 	}
 }
 
+def createPage(pageNum) {
+	if ((state.numButton == pageNum) || (pageNum == 8))
+		state.installCondition = true
+	dynamicPage(name: "configureButton$pageNum", title: "Set up button $pageNum here",
+			nextPage: "configureButton${pageNum+1}", install: state.installCondition, uninstall: configured(), getButtonSections(pageNum))
+}
+
 def configureButton1() {
-	dynamicPage(name: "configureButton1", title: "Now let's decide how to use the first button",
+	state.numButton = buttonDevice.currentState("numberOfButtons")?.longValue ?: 4
-		nextPage: "configureButton2", uninstall: configured(), getButtonSections(1))
+	log.debug "state variable numButton: ${state.numButton}"
+	state.installCondition = false
+	createPage(1)
 }
 def configureButton2() {
-	dynamicPage(name: "configureButton2", title: "If you have a second button, set it up here",
+	createPage(2)
-		nextPage: "configureButton3", uninstall: configured(), getButtonSections(2))
 }
 
 def configureButton3() {
-	dynamicPage(name: "configureButton3", title: "If you have a third button, you can do even more here",
+	createPage(3)
-		nextPage: "configureButton4", uninstall: configured(), getButtonSections(3))
 }
+
 def configureButton4() {
-	dynamicPage(name: "configureButton4", title: "If you have a fourth button, you rule, and can set it up here",
+	createPage(4)
-		install: true, uninstall: true, getButtonSections(4))
+}
+
+def configureButton5() {
+	createPage(5)
+}
+
+def configureButton6() {
+	createPage(6)
+}
+
+def configureButton7() {
+	createPage(7)
+}
+
+def configureButton8() {
+	createPage(8)
 }
 
 def getButtonSections(buttonNumber) {

smartapps/smartthings/examples/every-element.src/every-element.groovy

@@ -202,7 +202,8 @@ def inputSelectionPage() {
 
         section("options variations") {
             paragraph "tap these elements and look at the differences when selecting an option"
-            input(type: "enum", name: "selectionSimple", title: "Simple options", description: "no separators in the selectable options", groupedOptions: addGroup(englishOptions + spanishOptions))
+            input(type: "enum", name: "selectionSimple", title: "Simple options", description: "no separators in the selectable options", options: ["Thing 1", "Thing 2", "(Complicated) Thing 3"])
+            input(type: "enum", name: "selectionSimpleGrouped", title: "Simple (Grouped) options", description: "no separators in the selectable options", groupedOptions: addGroup(englishOptions + spanishOptions))
             input(type: "enum", name: "selectionGrouped", title: "Grouped options", description: "separate groups of options with headers", groupedOptions: groupedOptions)
         }
 
@@ -214,15 +215,15 @@ def inputSelectionPage() {
 
         section("segmented") {
             paragraph "segmented should only work if there are either 2 or 3 options to choose from"
-            input(type: "enum", name: "selectionSegmented1", style: "segmented", title: "1 option", groupedOptions: addGroup(["One"]))
+            input(type: "enum", name: "selectionSegmented1", style: "segmented", title: "1 option", options: ["One"])
-            input(type: "enum", name: "selectionSegmented4", style: "segmented", title: "4 options", groupedOptions: addGroup(["One", "Two", "Three", "Four"]))
+            input(type: "enum", name: "selectionSegmented4", style: "segmented", title: "4 options", options: ["One", "Two", "Three", "Four"])
 
             paragraph "multiple and required will have no effect on segmented selection elements. There will always be exactly 1 option selected"
             input(type: "enum", name: "selectionSegmented2", style: "segmented", title: "2 options", options: ["One", "Two"])
             input(type: "enum", name: "selectionSegmented3", style: "segmented", title: "3 options", options: ["One", "Two", "Three"])
 
             paragraph "specifying defaultValue still works with segmented selection elements"
-            input(type: "enum", name: "selectionSegmentedWithDefault", title: "defaulted to 'two'", groupedOptions: addGroup(["One", "Two", "Three"]), defaultValue: "Two")
+            input(type: "enum", name: "selectionSegmentedWithDefault", style: "segmented", title: "defaulted to 'two'", options: ["One", "Two", "Three"], defaultValue: "Two")
         }
 
         section("required: true") {
@@ -231,6 +232,8 @@ def inputSelectionPage() {
 
         section("multiple: true") {
             input(type: "enum", name: "selectionMultiple", title: "This allows multiple selections", description: "It should look different when nothing is selected", groupedOptions: addGroup(["an option", "another option", "no way, one more?"]), multiple: true)
+            input(type: "enum", name: "selectionMultipleDefault1", title: "This allows multiple selections with a single default", description: "It should look different when nothing is selected", groupedOptions: addGroup(["an option", "another option", "no way, one more?"]), multiple: true, defaultValue: "an option")
+            input(type: "enum", name: "selectionMultipleDefault2", title: "This allows multiple selections with multiple defaults", description: "It should look different when nothing is selected", groupedOptions: addGroup(["an option", "another option", "no way, one more?"]), multiple: true, defaultValue: ["an option", "another option"])
         }
 
         section("with image") {

smartapps/smartthings/lifx-connect.src/lifx-connect.groovy

@@ -72,7 +72,7 @@ def authPage() {
 		log.debug "have LIFX access token"
 
 		def options = locationOptions() ?: []
-		def count = options.size()
+		def count = options.size().toString()
 
 		return dynamicPage(name:"Credentials", title:"", nextPage:"", install:true, uninstall: true) {
 			section("Select your location") {