/* * Copyright 2006 Phidgets Inc. All rights reserved. */ package com.phidgets; import com.phidgets.event.*; import java.util.Iterator; import java.util.LinkedList; /** * This is the base class from which all Phidget device classes derive. * Don't create phidget devices directly using this class. Use the specific class for the * device that you wish to access. * * @author Phidgets Inc. * @version 2.1.7 */ public class Phidget { static { try { System.loadLibrary("phidget21"); } catch(UnsatisfiedLinkError ex) { String os = System.getProperty("os.name"); if(os.startsWith("Linux")) { throw new ExceptionInInitializerError(ex.getMessage() +"\nCould not locate the Phidget C library (libphidget21.so)." +"\nMake sure it is installed, and add it's path to LD_LIBRARY_PATH."); } else if(os.startsWith("Windows")) { throw new ExceptionInInitializerError(ex.getMessage() +"\nCould not locate the Phidget C library." +"\nThe Windows Phidget21 MSI must be installed."); } else if(os.startsWith("Mac")) { throw new ExceptionInInitializerError(ex.getMessage() +"\nCould not locate the Phidget C library." +"\nThe Mac Phidget21 DMG must be installed."); } else { throw new ExceptionInInitializerError(ex.getMessage() +"\nCould not locate the Phidget C library."); } } } private long handle = 0; boolean managerPhidget = false; /** * Class constructor specifying a handle. This constructor is to be used only by subclasses, as the Phidget calss should never need to * be instatiated directly by the user. * * @param handle A native Handle points to the underlying phidget structure in the base phidget21 C library. */ public Phidget(long handle) { this.handle = handle; } private final long getHandle() { return handle; } /** * Returns the library version. This is the library version of the underlying phidget21 C library and not the version of the * JNI wrapper implementation. *
* The version is retured at a string which contains the version number and build date. * * @return Library Version */ public final static native String getLibraryVersion(); /** * Critial error messages. This is used with {@link #enableLogging enableLogging} and {@link #log log} *
* This is the lowest logging level. Errors at this level are generally non-recoverable and indicate either hardware problems, * library bugs, or other serious issues. *
* If logging is enabled at this level, only {@link #PHIDGET_LOG_CRITICAL PHIDGET_LOG_CRITICAL} messages are logged. */ public static final int PHIDGET_LOG_CRITICAL = 1; /** * Non-critical error messages. This is used with {@link #enableLogging enableLogging} and {@link #log log} *
* Errors at this level are generally automatically recoverable, but may help to track down issues. *
* If logging is enabled at this level, {@link #PHIDGET_LOG_ERROR PHIDGET_LOG_ERROR} as well as * {@link #PHIDGET_LOG_CRITICAL PHIDGET_LOG_CRITICAL} messages are logged. */ public static final int PHIDGET_LOG_ERROR = 2; /** * Warning messages. This is used with {@link #enableLogging enableLogging} and {@link #log log} *
* Warnings are used to log behaviour that is not neccessarily in error, but is nevertheless odd or unexpected. *
* If logging is enabled at this level, {@link #PHIDGET_LOG_WARNING PHIDGET_LOG_WARNING} as well as * {@link #PHIDGET_LOG_ERROR PHIDGET_LOG_ERROR} and {@link #PHIDGET_LOG_CRITICAL PHIDGET_LOG_CRITICAL} messages are logged. */ public static final int PHIDGET_LOG_WARNING = 3; /** * Debug messages. This is used with {@link #enableLogging enableLogging} and {@link #log log} *
* Debug messages are generally used for debugging at Phdigets Inc. *
* Note: {@link #PHIDGET_LOG_DEBUG PHIDGET_LOG_DEBUG} messages are only logged in the debug version of the library, regardless of logging level. * Thus, these logs should never be seen outside of Phidgets Inc. *
* If logging is enabled at this level, {@link #PHIDGET_LOG_DEBUG PHIDGET_LOG_DEBUG} as well as * {@link #PHIDGET_LOG_WARNING PHIDGET_LOG_WARNING}, {@link #PHIDGET_LOG_ERROR PHIDGET_LOG_ERROR} * and {@link #PHIDGET_LOG_CRITICAL PHIDGET_LOG_CRITICAL} messages are logged. */ public static final int PHIDGET_LOG_DEBUG = 4; /** * Informational messages. This is used with {@link #enableLogging enableLogging} and {@link #log log} *
* Informational messages track key happenings within phidget21 - mostly to do with threads starting and shutting down, and the * internals of the USB code. *
* If logging is enabled at this level, {@link #PHIDGET_LOG_INFO PHIDGET_LOG_INFO} as well as * {@link #PHIDGET_LOG_DEBUG PHIDGET_LOG_DEBUG}, {@link #PHIDGET_LOG_WARNING PHIDGET_LOG_WARNING}, {@link #PHIDGET_LOG_ERROR PHIDGET_LOG_ERROR} * and {@link #PHIDGET_LOG_CRITICAL PHIDGET_LOG_CRITICAL} messages are logged. */ public static final int PHIDGET_LOG_INFO = 5; /** * Verbose messages. This is used with {@link #enableLogging enableLogging} and {@link #log log} *
* This is the highest logging level. Verbose messages are informational messages that are expected to happen so * frequently that they tend to drown out other log messages. *
* If logging is enabled at this level, {@link #PHIDGET_LOG_VERBOSE PHIDGET_LOG_VERBOSE} as well as * {@link #PHIDGET_LOG_INFO PHIDGET_LOG_INFO}, {@link #PHIDGET_LOG_DEBUG PHIDGET_LOG_DEBUG}, * {@link #PHIDGET_LOG_WARNING PHIDGET_LOG_WARNING}, {@link #PHIDGET_LOG_ERROR PHIDGET_LOG_ERROR} * and {@link #PHIDGET_LOG_CRITICAL PHIDGET_LOG_CRITICAL} messages are logged. */ public static final int PHIDGET_LOG_VERBOSE = 6; private final static native void nativeEnableLogging(int level, String file); /** * Turns on logging in the native C Library. This is mostly usefull for debugging purposes - when an issue needs to be resolved by * Phidgets Inc. The output is mostly low-level library information, that won't be usefull for most users. *
* Logging may be usefull for users trying to debug their own problems, as logs can be inserted by the user using {@link #log log}. *
* The level can be one of: {@link #PHIDGET_LOG_VERBOSE PHIDGET_LOG_VERBOSE}, * {@link #PHIDGET_LOG_INFO PHIDGET_LOG_INFO}, {@link #PHIDGET_LOG_DEBUG PHIDGET_LOG_DEBUG}, * {@link #PHIDGET_LOG_WARNING PHIDGET_LOG_WARNING}, {@link #PHIDGET_LOG_ERROR PHIDGET_LOG_ERROR} * or {@link #PHIDGET_LOG_CRITICAL PHIDGET_LOG_CRITICAL} * * @param level highest level of logging that will be output * @param file file to output log to. specify 'null' to output to the console */ public final static void enableLogging(int level, String file) { nativeEnableLogging(level, file); } /** * Turns off logging in the native C Library. This only needs to be called if enableLogging was called to turn logging on. * This will turn logging back off. */ public final static native void disableLogging(); private final static native void nativeLog(int level, String id, String log); /** * Adds a log entry into the phidget log. This log is enabled by calling {@link #enableLogging(int level, String file) enableLogging} * and this allows the entry of user logs in amongst the phidget library logs. *
* The level can be one of: {@link #PHIDGET_LOG_VERBOSE PHIDGET_LOG_VERBOSE}, * {@link #PHIDGET_LOG_INFO PHIDGET_LOG_INFO}, {@link #PHIDGET_LOG_DEBUG PHIDGET_LOG_DEBUG}, * {@link #PHIDGET_LOG_WARNING PHIDGET_LOG_WARNING}, {@link #PHIDGET_LOG_ERROR PHIDGET_LOG_ERROR} * or {@link #PHIDGET_LOG_CRITICAL PHIDGET_LOG_CRITICAL} *
* Note: {@link #PHIDGET_LOG_DEBUG PHIDGET_LOG_DEBUG} should not be used, as these logs are only printed when using the debug library, * which is not generally available. * * @param level level to enter the log at * @param id an arbitrary identifier for this log. This can be NULL. The C library uses this field for source filename and line number * @param log the message to log */ public final static void log(int level, String id, String log) { nativeLog(level, id, log); } public static final int PHIDID_NOTHING = 1; /* These are all current devices */ public static final int PHIDID_ACCELEROMETER_3AXIS = 0x07E; public static final int PHIDID_ADVANCEDSERVO_1MOTOR = 0x082; public static final int PHIDID_ANALOG_4OUTPUT = 0x037; public static final int PHIDID_ADVANCEDSERVO_8MOTOR = 0x03A; public static final int PHIDID_BIPOLAR_STEPPER_1MOTOR = 0x07B; public static final int PHIDID_BRIDGE_4INPUT = 0x03B; public static final int PHIDID_ENCODER_1ENCODER_1INPUT = 0x04B; public static final int PHIDID_ENCODER_HS_1ENCODER = 0x080; public static final int PHIDID_ENCODER_HS_4ENCODER_4INPUT = 0x04F; public static final int PHIDID_FREQUENCYCOUNTER_2INPUT = 0x035; public static final int PHIDID_GPS = 0x079; public static final int PHIDID_INTERFACEKIT_0_0_4 = 0x040; public static final int PHIDID_INTERFACEKIT_0_0_8 = 0x081; public static final int PHIDID_INTERFACEKIT_0_16_16 = 0x044; public static final int PHIDID_INTERFACEKIT_8_8_8 = 0x045; public static final int PHIDID_INTERFACEKIT_8_8_8_w_LCD = 0x07D; public static final int PHIDID_IR = 0x04D; public static final int PHIDID_LED_64 = 0x04A; public static final int PHIDID_LED_64_ADV = 0x04C; public static final int PHIDID_LINEAR_TOUCH = 0x076; public static final int PHIDID_MOTORCONTROL_HC_2MOTOR = 0x059; public static final int PHIDID_MOTORCONTROL_LV_2MOTOR_4INPUT = 0x058; public static final int PHIDID_MOTORCONTROL_1MOTOR = 0x03E; public static final int PHIDID_PHSENSOR = 0x074; public static final int PHIDID_RFID_2OUTPUT = 0x031; public static final int PHIDID_ROTARY_TOUCH = 0x077; public static final int PHIDID_SERVO_1MOTOR = 0x039; public static final int PHIDID_SPATIAL_ACCEL_3AXIS = 0x07F; public static final int PHIDID_SPATIAL_ACCEL_GYRO_COMPASS = 0x033; public static final int PHIDID_TEMPERATURESENSOR = 0x070; public static final int PHIDID_TEMPERATURESENSOR_4 = 0x032; public static final int PHIDID_TEXTLCD_2x20_w_8_8_8 = 0x17D; public static final int PHIDID_TEXTLCD_ADAPTER = 0x03D; public static final int PHIDID_UNIPOLAR_STEPPER_4MOTOR = 0x07A; /* These are all past devices (no longer sold) */ public static final int PHIDID_ACCELEROMETER_2AXIS = 0x071; public static final int PHIDID_INTERFACEKIT_0_8_8_w_LCD = 0x053; public static final int PHIDID_INTERFACEKIT_4_8_8 = 4; public static final int PHIDID_RFID = 0x030; public static final int PHIDID_SERVO_1MOTOR_OLD = 2; public static final int PHIDID_SERVO_4MOTOR = 0x038; public static final int PHIDID_SERVO_4MOTOR_OLD = 3; public static final int PHIDID_TEXTLCD_2x20 = 0x052; public static final int PHIDID_TEXTLCD_2x20_w_0_8_8 = 0x153; public static final int PHIDID_TEXTLED_1x8 = 0x049; public static final int PHIDID_TEXTLED_4x8 = 0x048; public static final int PHIDID_WEIGHTSENSOR = 0x072; /** * Returns the Device ID of this Phidget. This is one of the PHIDID_(...) constants defined above. This uniquely identifies a specific type of Phidget. * * @return Device ID * @throws PhidgetException If this Phidget is not opened and attached. See {@link #open(int) open} for information on determining if a device is attached. */ public final native int getDeviceID() throws PhidgetException; public static final int PHIDCLASS_NOTHING = 1; public static final int PHIDCLASS_ACCELEROMETER = 2; public static final int PHIDCLASS_ADVANCEDSERVO = 3; public static final int PHIDCLASS_ANALOG = 22; public static final int PHIDCLASS_BRIDGE = 23; public static final int PHIDCLASS_ENCODER = 4; public static final int PHIDCLASS_FREQUENCYCOUNTER = 21; public static final int PHIDCLASS_GPS = 5; public static final int PHIDCLASS_INTERFACEKIT = 7; public static final int PHIDCLASS_LED = 8; public static final int PHIDCLASS_MOTORCONTROL = 9; public static final int PHIDCLASS_PHSENSOR = 10; public static final int PHIDCLASS_RFID = 11; public static final int PHIDCLASS_SERVO = 12; public static final int PHIDCLASS_STEPPER = 13; public static final int PHIDCLASS_TEMPERATURESENSOR = 14; public static final int PHIDCLASS_TEXTLCD = 15; public static final int PHIDCLASS_TEXTLED = 16; public static final int PHIDCLASS_WEIGHTSENSOR = 17; /** * Returns the Device Class of this Phidget. This is one of the PHIDCLASS_(...) constants defined above. This represents a class of Phidgets - ie Interface Kit. * * @return Device ID * @throws PhidgetException If this Phidget is not opened and attached. See {@link #open(int) open} for information on determining if a device is attached. */ public final native int getDeviceClass() throws PhidgetException; /** * Returns the unique serial number of this Phidget. This number is set during manufacturing, and is unique across all Phidgets. * This number can be used in calls to {@link #open(int) open} to specify this specific Phidget to be opened. * * @return Serial Number * @throws PhidgetException If this Phidget is not opened and attached. See {@link #open(int) open} for information on determining if a device is attached. */ public final native int getSerialNumber() throws PhidgetException; /** * Returns the device version of this Phidget. This number is simply a way of distinguishing between different revisions * of a specific type of Phidget, and is only really of use if you need to troubleshoot device problems with Phidgets Inc. * * @return Version * @throws PhidgetException If this Phidget is not opened and attached. See {@link #open(int) open} for information on determining if a device is attached. */ public final native int getDeviceVersion() throws PhidgetException; /** * Return the device type of this Phidget. This is a string that describes the device as a class of devices. For example, * all PhidgetInterfaceKit Phidgets will returns the String "PhidgetInterfaceKit". *
* This function is mostly usefull if you are using the {@link com.phidgets.Manager Phidget Manager} because it's attach and detach handlers * return {link com.phidgets.phidget phidget} objects, and you can use this method to determine their proper type. * * @return Device Type * @throws PhidgetException If this Phidget is not opened and attached. See {@link #open(int) open} for information on determining if a device is attached. */ public final native String getDeviceType() throws PhidgetException; /** * Return the name of this Phidget. This is a string that describes the device. For example, a PhidgetInterfaceKit could be described * as "Phidget InterfaceKit 8/8/8", or "Phidget InterfaceKit 0/0/4", among others, depending on the specific device. *
* This lets you determine the specific type of a Phidget, within the broader classes of Phidgets, such as PhidgetInterfaceKit, or PhidgetServo * * @return Name * @throws PhidgetException If this Phidget is not opened and attached. See {@link #open(int) open} for information on determining if a device is attached. */ public final native String getDeviceName() throws PhidgetException; /** * Returns the attached status of this Phidget. This method returns True or False, depending on whether the Phidget is phisically plugged * into the computer, initialized, and ready to use - or not. If a Phidget is not attached, many functions calls will fail with a PhidgetException, * so either checking this function, or using the Attach and Detach events, is recommended, if a device is likely to be attached or * detached during use. * * @return Status * @throws PhidgetException If this Phidget is not opened. */ public final native boolean isAttached() throws PhidgetException; /** * Returns the network attached status for remotely opened Phidgets. This method returns True or False, depending on whether a connection to the * Phidget WebService is open - or not. If this is false for a remote Phidget then the connection is not active - either because a connection * has not yet been established, or because the connection was terminated. * * @return Status * @throws PhidgetException If this Phidget is not opened. */ public final native boolean isAttachedToServer() throws PhidgetException; /** * Returns the label associated with this Phidget. This label is a String - up to ten digits - that is stored in the Flash memory * of newer Phidgets. This label can be set programatically (see {@link #setDeviceLabel(String) setDeviceLabel}), and is non-volatile - so it is remembered * even if the Phidget is unplugged. * * @return Label * @throws PhidgetException If this Phidget is not opened and attached, or if this Phidget does not support labels. * See {@link #open(int) open} for determining if a device is attached. */ public final native String getDeviceLabel() throws PhidgetException; /** * Sets the Label associated with this Phidget. Labels are user defined Strings that persist in a Phidget's Flash. * They are only supported in the newer Phidgets. The maximum length is 10 characters. *
* Labels can not currently be set from Windows because of driver incompatibility. Labels can be set from MacOS, Linux and Windows CE. * * @param label Label * @throws PhidgetException If this Phidget is not opened and attached, or if this Phidget does not support labels, or if this is * called from Windows. See {@link #open(int) open} for determining if a device is attached. */ public final native void setDeviceLabel(String label) throws PhidgetException; /** * Returns the Address of a Phidget Webservice when this Phidget was opened as remote. This may be an IP Address or a hostname. * * @return Server Address * @throws PhidgetException if this Phidget was open opened as a remote Phidget. */ public final native String getServerAddress() throws PhidgetException; /** * Returns the Server ID of a Phidget Webservice when this Phidget was opened as remote. This is an arbitrary server identifier, * independant of IP address and Port. * * @return Server ID * @throws PhidgetException if this Phidget was open opened as a remote Phidget. */ public final native String getServerID() throws PhidgetException; /** * Returns the Port of a Phidget Webservice when this Phidget was opened as remote. * * @return Server Port * @throws PhidgetException if this Phidget was open opened as a remote Phidget. */ public final native int getServerPort() throws PhidgetException; private final native void nativeClose() throws PhidgetException; private final native void nativeDelete() throws PhidgetException; private final native void nativeOpen(int serial) throws PhidgetException; private final native void nativeOpenRemote(int serial, String serverID, String pass) throws PhidgetException; private final native void nativeOpenRemoteIP(int serial, String ipAddress, int port, String pass) throws PhidgetException; private final native void nativeOpenLabel(String label) throws PhidgetException; private final native void nativeOpenLabelRemote(String label, String serverID, String pass) throws PhidgetException; private final native void nativeOpenLabelRemoteIP(String label, String ipAddress, int port, String pass) throws PhidgetException; /** * Open this Phidget with a specific serial number. *
* Open is pervasive. What this means is that you can call open on a device before it is plugged in, * and keep the device opened across device dis- and re-connections. *
* Open is Asynchronous. What this means is that open will return immediately -- * before the device being opened is actually available, so you need to use either the {@link #addAttachListener(AttachListener l) attach event} * or the {@link #waitForAttachment() waitForAttachment} method to determine if a device * is available before using it. *
* This version of open specifies a serial number - The serial number is a unique number assigned to each Phidget * during production and can be used to uniquely identify specific phidgets. * use {@link #openAny() openAny} to open a device without specifying the serial number. * * @param serial Serial Number */ public final void open(int serial) throws PhidgetException { enableEvents(true); nativeOpen(serial); } /** * Open this Phidget remotely using an IP Address, and a specific serial number. *
* This version of open is network based. *
* Open is pervasive. What this means is that you can call open on a device before it is plugged in, * and on a server before it is running, and keep the device opened across device, and server dis- and re-connections. *
* Open is Asynchronous. What this means is that open will return immediately -- * before the device being opened is actually available, so you need to use either the {@link #addAttachListener(AttachListener l) attach event} * or the {@link #waitForAttachment() waitForAttachment} method to determine if a device * is available before using it. *
* This version of open specifies a serial number - The serial number is a unique number assigned to each Phidget * during production and can be used to uniquely identify specific phidgets. * use {@link #openAny(String ipAddress, int port) openAny(String ipAddress, int port)} to open a device without specifying the serial number. * * @param serial Serial Number * @param ipAddress IP Address or hostname of the Phidget Webservice * @param port Port of the Phidget Webservice * @throws PhidgetException if the Phidget Webservice cannot be contacted */ public final void open(int serial, String ipAddress, int port) throws PhidgetException { open(serial, ipAddress, port, ""); } /** * Open this Phidget remotely and securely, using an IP Address, and a specific serial number. *
* This method is the same as {@link #open(int, String, int) open(int serial, String ipAddress, int port)}, except that it specifies a password. * This password can be set as a parameter when starting the Phidget Webservice. */ public final void open(int serial, String ipAddress, int port, String password) throws PhidgetException { enableEvents(true); nativeOpenRemoteIP(serial, ipAddress, port, password); } /** * Open this Phidget remotely using a Server ID, and a specific serial number. *
* This version of open is network based. *
* Open is pervasive. What this means is that you can call open on a device before it is plugged in, * and on a server before it is running, and keep the device opened across device, and server dis- and re-connections. *
* Open is Asynchronous. What this means is that open will return immediately -- * before the device being opened is actually available, so you need to use either the {@link #addAttachListener(AttachListener l) attach event} * or the {@link #waitForAttachment() waitForAttachment} method to determine if a device * is available before using it. *
* This version of open specifies a serial number - The serial number is a unique number assigned to each Phidget * during production and can be used to uniquely identify specific phidgets. * use {@link #openAny(String) openAny(String serverID)} to open a device without specifying the serial number. *
* ServerID can be set to null, if the ServerID does not matter. In this case, the specified Phidget (by serial number) will be opened * whenever it is seen on the network, regardless of which server it appears on. This also applies when not specifying a serial number. *
* Note: All open methods that specify a ServerID rather then an IP Addresss and Port require that both the client and host sides of the * connection be running an implementation of zeroconf: *
* This method is the same as {@link #open(int, String) open(int serial, String serverID)}, except that it specifies a password. * This password can be set as a parameter when starting the Phidget Webservice. */ public final void open(int serial, String serverID, String password) throws PhidgetException { enableEvents(true); nativeOpenRemote(serial, serverID, password); } /** * Open a this Phidget without a serial number. This method is the same as {@link #open(int) open}, except that it specifies no serial number. Therefore, the first available * Phidget will be opened. If there are two Phidgets of the same type attached to the system, you should specify a serial number, as * there is no guarantee which Phidget will be selected by the call to openAny(). */ public final void openAny() throws PhidgetException { open(-1); } /** * Open this Phidget remotely using an IP Address, without a serial number. * This method is the same as {@link #open(int, String, int) open(int serial, String ipAddress, int port)}, * except that it specifies no serial number. Therefore, the first available * Phidget will be opened. If there are two Phidgets of the same type attached to the system, you should specify a serial number, as * there is no guarantee which Phidget will be selected by the call to openAny(). */ public final void openAny(String ipAddress, int port) throws PhidgetException { open(-1, ipAddress, port, ""); } /** * Open this Phidget remotely and securely, using an IP Address, without a serial number. * This method is the same as {@link #open(int, String, int, String) open(int serial, String ipAddress, int port, String password)}, * except that it specifies no serial number. Therefore, the first available * Phidget will be opened. If there are two Phidgets of the same type attached to the system, you should specify a serial number, as * there is no guarantee which Phidget will be selected by the call to openAny(). */ public final void openAny(String ipAddress, int port, String password) throws PhidgetException { open(-1, ipAddress, port, password); } /** * Open this Phidget remotely using a Server ID, without a serial number. * This method is the same as {@link #open(int, String) open(int serial, String serverID)}, * except that it specifies no serial number. Therefore, the first available * Phidget will be opened. If there are two Phidgets of the same type attached to the system, you should specify a serial number, as * there is no guarantee which Phidget will be selected by the call to openAny(). */ public final void openAny(String serverID) throws PhidgetException { open(-1, serverID, ""); } /** * Open this Phidget remotely and securely, using a Server ID, without a serial number. * This method is the same as {@link #open(int, String, String) open(int serial, String serverID, String password)}, * except that it specifies no serial number. Therefore, the first available * Phidget will be opened. If there are two Phidgets of the same type attached to the system, you should specify a serial number, as * there is no guarantee which Phidget will be selected by the call to openAny(). */ public final void openAny(String serverID, String password) throws PhidgetException { open(-1, serverID, password); } /** * Open this Phidget with a specific label. *
* Open is pervasive. What this means is that you can call open on a device before it is plugged in, * and keep the device opened across device dis- and re-connections. *
* Open is Asynchronous. What this means is that open will return immediately -- * before the device being opened is actually available, so you need to use either the {@link #addAttachListener(AttachListener l) attach event} * or the {@link #waitForAttachment() waitForAttachment} method to determine if a device * is available before using it. *
* This version of open specifies a label - The label can be set and changed by using the setLabel method (setLabel is unsupported on Windows). * use {@link #openAny() openAny} to open a device without specifying the label. * * @param label The Label */ public final void openLabel(String label) throws PhidgetException { enableEvents(true); nativeOpenLabel(label); } /** * Open this Phidget remotely using an IP Address, and a specific label. *
* This version of open is network based. *
* Open is pervasive. What this means is that you can call open on a device before it is plugged in, * and on a server before it is running, and keep the device opened across device, and server dis- and re-connections. *
* Open is Asynchronous. What this means is that open will return immediately -- * before the device being opened is actually available, so you need to use either the {@link #addAttachListener(AttachListener l) attach event} * or the {@link #waitForAttachment() waitForAttachment} method to determine if a device * is available before using it. *
* This version of open specifies a label - The label can be set and changed by using the setLabel method (setLabel is unsupported on Windows). * use {@link #openAny(String ipAddress, int port) openAny(String ipAddress, int port)} to open a device without specifying the label. * * @param label The Label * @param ipAddress IP Address or hostname of the Phidget Webservice * @param port Port of the Phidget Webservice * @throws PhidgetException if the Phidget Webservice cannot be contacted */ public final void openLabel(String label, String ipAddress, int port) throws PhidgetException { openLabel(label, ipAddress, port, ""); } /** * Open this Phidget remotely and securely, using an IP Address, and a specific label. *
* This method is the same as {@link #openLabel(String, String, int) openLabel(String label, String ipAddress, int port)}, except that it specifies a password. * This password can be set as a parameter when starting the Phidget Webservice. */ public final void openLabel(String label, String ipAddress, int port, String password) throws PhidgetException { enableEvents(true); nativeOpenLabelRemoteIP(label, ipAddress, port, password); } /** * Open this Phidget remotely using a Server ID, and a specific label. *
* This version of open is network based. *
* Open is pervasive. What this means is that you can call open on a device before it is plugged in, * and on a server before it is running, and keep the device opened across device, and server dis- and re-connections. *
* Open is Asynchronous. What this means is that open will return immediately -- * before the device being opened is actually available, so you need to use either the {@link #addAttachListener(AttachListener l) attach event} * or the {@link #waitForAttachment() waitForAttachment} method to determine if a device * is available before using it. *
* This version of open specifies a label - The label can be set and changed by using the setLabel method (setLabel is unsupported on Windows). * use {@link #openAny(String) openAny(String serverID)} to open a device without specifying the label. *
* ServerID can be set to null, if the ServerID does not matter. In this case, the specified Phidget (by label) will be opened * whenever it is seen on the network, regardless of which server it appears on. This also applies when not specifying a label. *
* Note: All open methods that specify a ServerID rather then an IP Addresss and Port require that both the client and host sides of the * connection be running an implementation of zeroconf: *
* This method is the same as {@link #openLabel(String, String) openLabel(String label, String serverID)}, except that it specifies a password. * This password can be set as a parameter when starting the Phidget Webservice. */ public final void openLabel(String label, String serverID, String password) throws PhidgetException { enableEvents(true); nativeOpenLabelRemote(label, serverID, password); } /** * Closes this Phidget. * This will shut down all threads dealing with this Phidget and you won't recieve any more events. * * @throws PhidgetException If this Phidget is not opened. */ public final void close() throws PhidgetException { if(!managerPhidget) { enableEvents(false); nativeClose(); } } private void enableEvents(boolean b) { enableAttachEvents(b && attachListeners.size() > 0); enableDetachEvents(b && detachListeners.size() > 0); enableErrorEvents(b && errorListeners.size() > 0); enableServerConnectEvents(b && serverConnectListeners.size() > 0); enableServerDisconnectEvents(b && serverDisconnectListeners.size() > 0); enableDeviceSpecificEvents(b); } /** * Waits for this Phidget to become available. This method can be called after open has been called * to wait for thid Phidget to become available. This is usefull because open is asynchronous (and thus returns immediately), * and most methods will throw a PhidgetException is they are called before a device is actually ready. This method is * synonymous with polling the isAttached method until it returns True, or using the Attach event. *
* This method blocks for up to the timeout, at which point it will throw a PhidgetException. Otherwise, it returns when * the phidget is attached and initialized. *
* A timeout of 0 is infinite. * * @param timeout Timeout in milliseconds * @throws PhidgetException If this Phidget is not opened. */ public final native void waitForAttachment(int timeout) throws PhidgetException; /** * Waits for this Phidget to become available. This method can be called after open has been called * to wait for thid Phidget to become available. This is usefull because open is asynchronous (and thus returns immediately), * and most methods will throw a PhidgetException is they are called before a device is actually ready. This method is * synonymous with polling the isAttached method until it returns True, or using the Attach event. *
* This method blocks indefinitely until the Phidget becomes available. This can be quite some time * (forever), if the Phidget is never plugged in. * * @throws PhidgetException If this Phidget is not opened. */ public final void waitForAttachment() throws PhidgetException { waitForAttachment(0); } private void enableDeviceSpecificEvents(boolean b) { } private LinkedList attachListeners = new LinkedList(); private long nativeAttachHandler = 0; /** * Adds an attach listener. The attach handler is a method that will be called when this Phidget is phisically attached * to the system, and has gone through its initalization, and so is ready to be used. *
* There is no limit on the number of attach handlers that can be registered for a particular Phidget. * * @param l An implemetation of the {@link com.phidgets.event.AttachListener AttachListener} interface */ public final void addAttachListener(AttachListener l) { synchronized (attachListeners) { attachListeners.add(l); enableAttachEvents(true); } } /** * Removes an attach listener. This will remove a previously added attach listener. */ public final void removeAttachListener(AttachListener l) { synchronized (attachListeners) { attachListeners.remove(l); enableAttachEvents(attachListeners.size() > 0); } } private void fireAttach(AttachEvent e) { synchronized (attachListeners) { for (Iterator it = attachListeners.iterator(); it.hasNext(); ) ((AttachListener)it.next()).attached(e); } } private native void enableAttachEvents(boolean b); private LinkedList errorListeners = new LinkedList(); private long nativeErrorHandler = 0; /** * Adds an error listener. The error handler is a method that will be called when an asynchronous error occurs. * Error events are not currently used, but will be in the future to report any problems that happen out of context from * a direct function call. *
* There is no limit on the number of error handlers that can be registered for a particular Phidget. * * @param l An implemetation of the {@link com.phidgets.event.ErrorListener ErrorListener} interface */ public final void addErrorListener(ErrorListener l) { synchronized (errorListeners) { errorListeners.add(l); enableErrorEvents(true); } } /** * Removes an error listener. This will remove a previously added error listener. */ public final void removeErrorListener(ErrorListener l) { synchronized (errorListeners) { errorListeners.remove(l); enableErrorEvents(errorListeners.size() > 0); } } private void fireError(ErrorEvent e) { synchronized (errorListeners) { for (Iterator it = errorListeners.iterator(); it.hasNext(); ) ((ErrorListener)it.next()).error(e); } } private native void enableErrorEvents(boolean b); private LinkedList detachListeners = new LinkedList(); private long nativeDetachHandler = 0; /** * Adds a detach listener. The detach handler is a method that will be called when this Phidget is phisically detached * from the system, and is no longer available. This is particularly usefull for applications when a phisical detach would be expected. *
* Remember that many of the methods, if called on an unattached device, will throw a PhidgetException. This Exception can be checked to see if it * was caused by a device being unattached, but a better method would be to regiter the detach handler, which could notify the main program logic that * the device is no longer available, disable GUI controls, etc. *
* There is no limit on the number of detach handlers that can be registered for a particular Phidget. * * @param l An implemetation of the {@link com.phidgets.event.DetachListener DetachListener} interface */ public final void addDetachListener(DetachListener l) { synchronized (detachListeners) { detachListeners.add(l); enableDetachEvents(true); } } /** * Removes a detach listener. This will remove a previously added detach listener. */ public final void removeDetachListener(DetachListener l) { synchronized (detachListeners) { detachListeners.remove(l); enableDetachEvents(detachListeners.size() > 0); } } private void fireDetach(DetachEvent e) { synchronized (detachListeners) { for (Iterator it = detachListeners.iterator(); it.hasNext(); ) ((DetachListener)it.next()).detached(e); } } private native void enableDetachEvents(boolean b); private LinkedList serverConnectListeners = new LinkedList(); private long nativeServerConnectHandler = 0; /** * Adds an serverConnect listener. The serverConnect handler is a method that will be called when a connection to a server is made. * This is only usefull for Phidgets opened remotely. *
* There is no limit on the number of serverConnect handlers that can be registered for a particular Phidget. * * @param l An implemetation of the {@link com.phidgets.event.ServerConnectListener ServerConnectListener} interface */ public final void addServerConnectListener(ServerConnectListener l) { synchronized (serverConnectListeners) { serverConnectListeners.add(l); enableServerConnectEvents(true); } } /** * Removes an serverConnect listener. This will remove a previously added serverConnect listener. */ public final void removeServerConnectListener(ServerConnectListener l) { synchronized (serverConnectListeners) { serverConnectListeners.remove(l); enableServerConnectEvents(serverConnectListeners.size() > 0); } } private void fireServerConnect(ServerConnectEvent e) { synchronized (serverConnectListeners) { for (Iterator it = serverConnectListeners.iterator(); it.hasNext(); ) ((ServerConnectListener)it.next()).serverConnected(e); } } private native void enableServerConnectEvents(boolean b); private LinkedList serverDisconnectListeners = new LinkedList(); private long nativeServerDisconnectHandler = 0; /** * Adds an serverDisconnect listener. The serverDisconnect handler is a method that will be called when a connection to a server is terminated. * This is only usefull for Phidgets opened remotely. *
* There is no limit on the number of serverDisconnect handlers that can be registered for a particular Phidget. * * @param l An implemetation of the {@link com.phidgets.event.ServerDisconnectListener ServerDisconnectListener} interface */ public final void addServerDisconnectListener(ServerDisconnectListener l) { synchronized (serverDisconnectListeners) { serverDisconnectListeners.add(l); enableServerDisconnectEvents(true); } } /** * Removes an serverDisconnect listener. This will remove a previously added serverDisconnect listener. */ public final void removeServerDisconnectListener(ServerDisconnectListener l) { synchronized (serverDisconnectListeners) { serverDisconnectListeners.remove(l); enableServerDisconnectEvents(serverDisconnectListeners.size() > 0); } } private void fireServerDisconnect(ServerDisconnectEvent e) { synchronized (serverDisconnectListeners) { for (Iterator it = serverDisconnectListeners.iterator(); it.hasNext(); ) ((ServerDisconnectListener)it.next()).serverDisconnected(e); } } private native void enableServerDisconnectEvents(boolean b); /** * Return a Sring describing this Phidget. */ public String toString() { int dv = -1; int sn = -1; String dt = null; String at = ""; try { dv = getDeviceVersion(); sn = getSerialNumber(); dt = getDeviceType(); at = isAttached() ? " (attached)" : " (unattached)"; } catch (PhidgetException e) { ; } finally { if (dt == null) dt = getClass().getName().replaceFirst( ".*\\.", ""); } return dt + " v" + dv + " #" + sn + at; } protected void finalize() throws Throwable { try { if(!managerPhidget) { try { close(); } catch (Exception e) { ; } try { nativeDelete(); } catch (Exception e) { ; } } } finally { handle = 0; super.finalize(); } } /** * Compares two Phidgets. This method compares two Phidgets using serial number, device type and version. */ public boolean equals(Object comp) { Phidget temp = (Phidget)comp; try { if (temp.getSerialNumber() == getSerialNumber() && temp.getDeviceType().equals(getDeviceType()) && temp.getDeviceVersion() == getDeviceVersion()) return true; } catch (Exception e) { } return false; } }