private String getAddressReverseGeocodeURL(GeoPoint gp) {
// -
// http://nominatim.openstreetmap.org/reverse?format=xml&addressdetails=1&zoom=18&lat=46.17330&lon=21.29370
StringBuffer sb = new StringBuffer();
RTProperties rtp = this.getProperties();
String url = rtp.getString(PROP_reverseURL, null);
if (!StringTools.isBlank(url)) {
sb.append(url);
} else {
String host = rtp.getString(PROP_hostName, HOST_PRIMARY);
sb.append("http://");
sb.append(host);
if (host.indexOf("mapquest") >= 0) {
sb.append("/nominatim/v1/reverse?");
} else {
sb.append("/reverse?");
}
}
sb.append("format=xml&");
sb.append("limit=1&");
// sb.append("osm_type=W&");
sb.append("addressdetails=").append(rtp.getString(PROP_addressdetails, "1")).append("&"); // 0,1
sb.append("zoom=").append(rtp.getString(PROP_zoom, "18")).append("&"); // 0..18
sb.append("email=").append(this.getEmail()).append("&"); // required, per usage policy
sb.append("lat=").append(gp.getLatitudeString(GeoPoint.SFORMAT_DEC_5, null)).append("&");
sb.append("lon=").append(gp.getLongitudeString(GeoPoint.SFORMAT_DEC_5, null));
return sb.toString();
}
private String getEmail() {
RTProperties rtp = this.getProperties();
String email = rtp.getString(PROP_email, null);
if (StringTools.isBlank(email)) {
email = SendMail.getUserFromEmailAddress();
}
return email;
}
/**
* ** Gets args as RTProperties instance ** @return A new RTProperties instance with this URIArg's
* key value pairs
*/
public RTProperties getArgProperties() {
RTProperties rtp = new RTProperties();
for (Iterator i = this.getKeyValList().iterator(); i.hasNext(); ) {
KeyVal kv = (KeyVal) i.next();
rtp.setString(kv.getKey(), this.decodeArg(kv.getValue()));
}
return rtp;
}
/**
* ** Returns a new URIArg with this URIArg's arguments encoded into a ** single RTProperties
* added with a specified key [CHECK] ** @param rtpKey The key to add the encoded args at
* ** @param exclKeys keys to exclude from encoding ** @return A new URIArg with non excluded
* arguments encoded
*/
public URIArg rtpEncode(String rtpKey, String... exclKeys) {
URIArg rtpUrl = new URIArg(this.getURI());
RTProperties rtp = new RTProperties();
for (KeyVal kv : this.getKeyValList()) {
String kn = kv.getKey();
if (ListTools.contains(exclKeys, kn)) {
rtpUrl.addArg(kv);
} else {
rtp.setString(kn, kv.getValue());
}
}
rtpUrl.addArg(rtpKey, rtp);
return rtpUrl;
}
/**
* ** Gets all the ddefault properties in <code>RTKey</code> represented ** as an {@link
* RTProperties} instance ** @return The <code>RTProperties</code> instance
*/
public static RTProperties getDefaultProperties() {
if (defaultProperties == null) {
RTProperties rtp = new RTProperties();
for (Iterator<Entry> v = RTKey.getRuntimeEntryMap().values().iterator(); v.hasNext(); ) {
Entry rtk = v.next();
if (!rtk.isHelp()) {
String key = rtk.getKey();
Object val = rtk.getDefault();
rtp.setProperty(key, val);
}
}
defaultProperties = rtp;
}
return defaultProperties;
}
/**
* ** Prints all the default values from <code>RTKey</code> and {@link RTConfig} ** to the
* specified <code>PrintStream</code>. Used for debugging/testing ** @param out The <code>
* PrintStream</code>
*/
public static void printDefaults(PrintStream out) {
/* print standard runtime entries */
Set<String> keyList = new OrderedSet<String>();
String keyGrp = null;
for (Iterator<Entry> v = RTKey.getRuntimeEntryMap().values().iterator(); v.hasNext(); ) {
Entry rtk = v.next();
if (rtk.isHelp()) {
out.println("");
out.println("# ===== " + rtk.getHelp());
} else {
Object dft = rtk.getDefault();
out.println("# --- " + rtk.getHelp());
out.println("# " + rtk.toString(dft));
String key = rtk.getKey();
keyList.add(key);
if (!key.equals(CONFIG_FILE) && RTConfig.hasProperty(key)) {
String val = RTConfig.getString(key, null);
// if ((val != null) && ((dft == null) || !val.equals(dft.toString()))) {
out.println(rtk.toString(val));
// }
}
}
}
/* orphaned entries */
RTProperties cmdLineProps = RTConfig.getConfigFileProperties();
if (cmdLineProps != null) {
boolean orphanHeader = false;
for (Iterator i = cmdLineProps.keyIterator(); i.hasNext(); ) {
Object k = i.next();
if (!k.equals(COMMAND_LINE_CONF) && !keyList.contains(k)) {
if (!orphanHeader) {
out.println("");
out.println("# ===== Other entries");
orphanHeader = true;
}
Object v = cmdLineProps.getProperty(k, null);
out.println(k + "=" + ((v != null) ? v : NULL_VALUE));
}
}
}
/* final blank line */
out.println("");
}
/**
* ** Returns a new URIArg with this URIArg's arguments decoded from a ** single RTProperties
* added a specified key [CHECK] ** @param rtpKey The key of the RTProperties to decode the
* encoded args from ** @return A new URIArg with non excluded arguments encoded
*/
public URIArg rtpDecode(String rtpKey) {
URIArg cpyUrl = new URIArg(this.getURI());
for (KeyVal kv : this.getKeyValList()) {
String kn = kv.getKey();
if (!kn.equals(rtpKey)) {
cpyUrl.addArg(kv);
} else {
RTProperties rtp = URIArg.parseRTP(kv.getValue());
for (Object rpk : rtp.getPropertyKeys()) {
String rk = rpk.toString();
String rv = rtp.getString(rk, "");
cpyUrl.addArg(rk, rv);
}
}
}
return cpyUrl;
}
/**
* ** Adds an argument to the URI ** @param key The key name of the argument to add ** @param rtp
* The RTP encoded values of the new key ** @return This URIArg, with the argument added
*/
public URIArg addArg(String key, RTProperties rtp) {
String r = (rtp != null) ? rtp.toString() : null;
if (!StringTools.isBlank(r)) {
return this._addArg(key, URIArg.encodeRTP(rtp), false /*encode*/, false /*obfuscate*/);
} else {
return this.addArg(key, "");
}
}
/* return fault header */
public static String GetFaultHeader(RTProperties fault) {
if (fault != null) {
String type = fault.getString(PROP_TYPE, "");
if (type.equalsIgnoreCase(NAME_J1708)) {
if (fault.hasProperty(PROP_SID)) {
return NAME_MID + "/" + NAME_SID + "/" + NAME_FMI;
} else {
return NAME_MID + "/" + NAME_PID + "/" + NAME_FMI;
}
} else if (type.equalsIgnoreCase(NAME_J1939)) {
return NAME_SPN + "/" + NAME_FMI;
} else if (type.equalsIgnoreCase(NAME_OBDII)) {
return NAME_DTC;
} else {
return "";
}
}
return "";
}
/* encode "type=<type> ..." into long value */
public static long EncodeFault(RTProperties rtp) {
String type = rtp.getString(PROP_TYPE, null);
if (type.equalsIgnoreCase(NAME_J1708)) {
int mid = rtp.getInt(PROP_MID, 0);
int sid = rtp.getInt(PROP_SID, -1);
int pid = rtp.getInt(PROP_PID, -1);
int pidSid = (sid >= 0) ? sid : pid;
int fmi = rtp.getInt(PROP_FMI, 0);
int count = rtp.getInt(PROP_COUNT, 0);
boolean active = rtp.getBoolean(PROP_ACTIVE, true);
return EncodeFault_J1708(mid, (sid >= 0), pidSid, fmi, count, active);
} else if (type.equalsIgnoreCase(NAME_J1939)) {
int spn = rtp.getInt(PROP_SPN, 0);
int fmi = rtp.getInt(PROP_FMI, 0);
int count = rtp.getInt(PROP_COUNT, 0);
boolean active = rtp.getBoolean(PROP_ACTIVE, true);
return EncodeFault_J1939(spn, fmi, count);
} else if (type.equalsIgnoreCase(NAME_OBDII)) {
String dtc = rtp.getString(PROP_DTC, ""); // "P0071"
return EncodeFault_OBDII(dtc);
} else {
return 0L;
}
}
/* return string representation of fault code */
public static String GetFaultString(RTProperties fault) {
if (fault != null) {
StringBuffer sb = new StringBuffer();
String type = fault.getString(PROP_TYPE, "");
if (type.equalsIgnoreCase(NAME_J1708)) {
// J1708: type=j1708 mil=1 mid=123 pid=123 fmi=1 count=1 active=false
// SID: "128/s123/1"
// PID: "128/123/1"
boolean active = fault.getBoolean(PROP_ACTIVE, true);
int mid = fault.getInt(PROP_MID, 0);
int fmi = fault.getInt(PROP_FMI, 0);
if (!active) {
sb.append("[");
}
sb.append(mid); // MID
sb.append("/");
if (fault.hasProperty(PROP_SID)) {
int sid = fault.getInt(PROP_SID, 0);
sb.append("s").append(sid); // SID "128/s123/1"
} else {
int pid = fault.getInt(PROP_PID, 0);
sb.append(pid); // PID "128/123/1"
}
sb.append("/");
sb.append(fmi); // FMI
if (!active) {
sb.append("]");
}
return sb.toString();
} else if (type.equalsIgnoreCase(NAME_J1939)) {
// J1939: type=i1939 mil=1 spn=1234 fmi=12 count=1 active=false
// SPN: "128/1"
boolean active = fault.getBoolean(PROP_ACTIVE, true);
int spn = fault.getInt(PROP_SPN, 0);
int fmi = fault.getInt(PROP_FMI, 0);
if (!active) {
sb.append("[");
}
sb.append(spn); // SPN
sb.append("/");
sb.append(fmi); // FMI
if (!active) {
sb.append("]");
}
return sb.toString();
} else if (type.equalsIgnoreCase(NAME_OBDII)) {
// OBDII: type=obdii mil=1 dtc=P0071
// DTC: "P0071" [was "024C"]
boolean active = fault.getBoolean(PROP_ACTIVE, true);
String dtcStr = fault.getString(PROP_DTC, ""); // ie "P0123,P0321,P1234"
if (!StringTools.isBlank(dtcStr)) {
if (!active) {
sb.append("[");
}
sb.append(dtcStr);
if (!active) {
sb.append("]");
}
}
return sb.toString();
} else {
// unrecognized
}
}
return "";
}
public static boolean IsJ1708_PID(RTProperties rtpFault) {
return DTOBDFault.IsJ1708(rtpFault) && rtpFault.hasProperty(PROP_PID);
}
/** ** RTP encodes an argument */
public static String encodeRTP(RTProperties rtp) {
if (rtp != null) {
return _ens64(rtp.toString());
}
return null;
}
/** ** Main entry point for testing/debugging ** @param argv Comand-line arguments */
public static void main(String argv[]) {
RTConfig.setCommandLineArgs(argv);
/* help */
if (RTConfig.hasProperty(ARG_HELP)) {
_usage();
System.exit(1); // control does not reach here
}
/* extra args */
String extraArgs = RTConfig.getString(ARG_EXTRA, "");
if (!StringTools.isBlank(extraArgs)) {
// Print.logInfo("Extra: " + extraArgs);
RTProperties cfgProps = RTConfig.getConfigFileProperties();
if (extraArgs.indexOf(",") > 0) {
cfgProps.setProperties(extraArgs, ',');
} else {
cfgProps.setProperties(extraArgs);
}
// cfgProps.printProperties("");
}
/* special case "expire" */
String ARG_EXPIRE = "expire";
RTProperties expireRTP = RTConfig.getPropertiesForKey(ARG_EXPIRE, false);
if (expireRTP != null) {
Print.errPrintln("\n'expire' cannot be defined.");
System.exit(1);
}
/* args */
File directory = RTConfig.getFile(ARG_DIR, null);
String templateName =
StringTools.trim(RTConfig.getString(ARG_OPTIONAL, RTConfig.getString(ARG_TEMPLATE, "")));
boolean isOptional = RTConfig.hasProperty(ARG_OPTIONAL);
String packageName = StringTools.trim(RTConfig.getString(ARG_PACKAGE, null));
String outputName = RTConfig.getString(ARG_OUTPUT, "");
boolean overwrite = RTConfig.getBoolean(ARG_OVERWRITE, false);
/* cannot specify "-output=inline" if internal template specified */
if (StringTools.isBlank(outputName) || outputName.equalsIgnoreCase("stdout")) {
// -- output will be to "stdout"
outputName = "";
} else if (outputName.equalsIgnoreCase("inline")) {
// -- output will be to input file
if (templateName.startsWith(TEMPLATE_)) {
// -- @template not allowed with "inline"
Print.errPrintln("\nError: Cannot specify '-output=inline' with internal template");
_usage();
System.exit(1); // control does not reach here
} else if (isOptional) {
// -- optional not allowed with "inline"
Print.errPrintln("\nError: Cannot specify '-output=inline' with optional template");
_usage();
System.exit(1); // control does not reach here
} else if (!templateName.startsWith("*")) {
// -- output to input file
outputName = templateName;
}
} else {
// -- output to specified file
if (templateName.startsWith("*")) {
// -- template specifies a file-glob
Print.errPrintln(
"\nError: Cannot specify '-output=FILE' for recursize template specification");
_usage();
System.exit(1); // control does not reach here
}
}
/* template name file? */
if (templateName.startsWith("*")) {
if (isOptional) {
// -- optional not allowed with glob file specification
Print.errPrintln("\nError: Cannot specify optional '-template?=[**/]*.java'");
_usage();
System.exit(1); // control does not reach here
}
} else {
File file = (directory != null) ? new File(directory, templateName) : new File(templateName);
if (!file.isFile() && isOptional) {
// -- templateName doesn't exist and is optional
templateName = TEMPLATE_DEFAULT;
}
}
/* random */
Random rand = new Random();
if (!RTConfig.hasProperty("random.16")) {
RTConfig.setString("random.16", "0x" + StringTools.toHexString(rand.nextInt() & 0xFFFF, 16));
}
if (!RTConfig.hasProperty("random.32")) {
RTConfig.setString("random.32", "0x" + StringTools.toHexString(rand.nextInt(), 32));
}
if (!RTConfig.hasProperty("random.64")) {
RTConfig.setString("random.64", "0x" + StringTools.toHexString(rand.nextLong(), 64));
}
/* set current time (subject to change) */
String tzStr = RTConfig.getString("timezone", null);
TimeZone tz =
!StringTools.isBlank(tzStr) ? DateTime.getTimeZone(tzStr) : DateTime.getDefaultTimeZone();
DateTime now = new DateTime(tz);
if (!RTConfig.hasProperty("timetamp")) {
RTConfig.setLong("timestamp", now.getTimeSec());
}
if (!RTConfig.hasProperty("datetime")) {
RTConfig.setString("datetime", now.format("yyyy/MM/dd HH:mm:ss z"));
}
if (!RTConfig.hasProperty("date")) {
RTConfig.setString("date", now.format("yyyy/MM/dd"));
}
if (!RTConfig.hasProperty("time")) {
RTConfig.setString("time", now.format("HH:mm:ss"));
}
if (!RTConfig.hasProperty("timezone")) {
RTConfig.setString("timezone", now.format("z"));
}
/* special case "daysUntil" */
// %{daysUntil=2012:02:20} <== fixed time
String ARG_daysUntil_ = "daysUntil";
Set<String> daysUntil_keys = RTConfig.getPropertyKeys(ARG_daysUntil_, false);
for (String daysUntil_key : daysUntil_keys) {
String daysUntil_key_date = daysUntil_key + ".date";
RTProperties daysUntilRTP = RTConfig.getPropertiesForKey(daysUntil_key, false);
if (daysUntilRTP != null) {
// -- get/update the RTProperties where "daysUntil" is defined
String daysUntil = daysUntilRTP.getString(daysUntil_key, "");
if (StringTools.isBlank(daysUntil)) {
// -- remove keys
daysUntilRTP.removeProperty(daysUntil_key);
daysUntilRTP.removeProperty(daysUntil_key_date);
// Print.sysPrintln(daysUntil_key + " ==> <removed>");
// Print.sysPrintln(daysUntil_key_date + " ==> <removed>");
} else if ((daysUntil.indexOf("/") >= 0) || (daysUntil.indexOf(":") >= 0)) {
// -- Change "yyyy:mm:dd" to "DD"
// Note: The ':' separator should be used instead of '/', because "2010/10/01" is
// syntactically correct (ie. division) and can be compiled into a valid value,
// while "2010:10:01" is not, and will be caught by the compiler.
if (daysUntil.startsWith("'") || daysUntil.startsWith("\"")) {
daysUntil = daysUntil.substring(1); // remove prefixing quote
}
if (daysUntil.endsWith("'") || daysUntil.endsWith("\"")) {
daysUntil = daysUntil.substring(0, daysUntil.length() - 1); // remove trailing quote
}
try {
DateTime nowDT = new DateTime(DateTime.getGMTTimeZone());
DateTime futDT = DateTime.parseArgumentDate(daysUntil, null, true);
long nowDay = DateTime.getDayNumberFromDate(nowDT);
long futDay = DateTime.getDayNumberFromDate(futDT);
long deltaD = futDay - nowDay;
if (deltaD == 0L) {
// -- today
deltaD = 1L; // make it tomorrow
} else if (deltaD < 0L) {
// -- this means that the date has already passed
// deltaD = -1L; // already negative
} else {
deltaD += 1L; // add one more day
}
daysUntilRTP.setString(daysUntil_key, String.valueOf(deltaD));
daysUntilRTP.setString(daysUntil_key_date, futDT.format(DateTime.DEFAULT_DATE_FORMAT));
} catch (DateTime.DateParseException dpe) {
Print.logException("Unable to parse Date: " + daysUntil, dpe);
System.exit(1);
}
// Print.sysPrintln(daysUntil_key + " ==> " + daysUntilRTP.getString(daysUntil_key
// ,"?"));
// Print.sysPrintln(daysUntil_key_date + " ==> " +
// daysUntilRTP.getString(daysUntil_key_date,"?"));
} else {
long futSec =
DateTime.getCurrentTimeSec()
+ DateTime.DaySeconds(StringTools.parseLong(daysUntil, 0L));
daysUntilRTP.setString(
daysUntil_key_date, (new DateTime(futSec)).format(DateTime.DEFAULT_DATE_FORMAT));
// Print.sysPrintln(daysUntil_key + " ==> " + daysUntilRTP.getString(daysUntil_key
// ,"?"));
// Print.sysPrintln(daysUntil_key_date + " ==> " +
// daysUntilRTP.getString(daysUntil_key_date,"?"));
}
}
}
/* special case "daysFromNow" */
// %{daysFromNow=30} <== 30 days from now
String ARG_daysFromNow_ = "daysFromNow";
Set<String> daysFromNow_keys = RTConfig.getPropertyKeys(ARG_daysFromNow_, false);
for (String daysFromNow_key : daysFromNow_keys) {
String daysFromNow_key_date = daysFromNow_key + ".date";
RTProperties daysFromNowRTP = RTConfig.getPropertiesForKey(daysFromNow_key, false);
if (daysFromNowRTP != null) {
// -- get/update the RTProperties where "daysFromNow" is defined
String daysFromNow = daysFromNowRTP.getString(daysFromNow_key, "");
if (StringTools.isBlank(daysFromNow)) {
// -- remove keys
daysFromNowRTP.removeProperty(daysFromNow_key);
daysFromNowRTP.removeProperty(daysFromNow_key_date);
// Print.sysPrintln(daysFromNow_key + " ==> <removed>");
// Print.sysPrintln(daysFromNow_key_date + " ==> <removed>");
} else {
long futSec =
DateTime.getCurrentTimeSec()
+ DateTime.DaySeconds(StringTools.parseLong(daysFromNow, 0L));
daysFromNowRTP.setString(daysFromNow_key, String.valueOf(futSec));
daysFromNowRTP.setString(
daysFromNow_key_date, (new DateTime(futSec)).format(DateTime.DEFAULT_DATE_FORMAT));
// Print.sysPrintln(daysFromNow_key + " ==> " +
// daysFromNowRTP.getString(daysFromNow_key ,"?"));
// Print.sysPrintln(daysFromNow_key_date + " ==> " +
// daysFromNowRTP.getString(daysFromNow_key_date,"?"));
}
}
}
/* special case "secondsUntil" */
// %{secondsUntil_abc=2012:02:20} <== fixed time
// %{secondsUntil_abc=86400} <== relative time (86400 seconds from now)
String ARG_secondsUntil_ = "secondsUntil";
Set<String> secUntil_keys = RTConfig.getPropertyKeys(ARG_secondsUntil_, false);
for (String secUntil_key : secUntil_keys) {
String secUntil_key_date = secUntil_key + ".date";
RTProperties secUntilRTP = RTConfig.getPropertiesForKey(secUntil_key, false);
if (secUntilRTP != null) {
// -- get/update the RTProperties where "secondsUntil" is defined
String secUntil = secUntilRTP.getString(secUntil_key, "");
if (StringTools.isBlank(secUntil)) {
// remove keys
secUntilRTP.removeProperty(secUntil_key);
secUntilRTP.removeProperty(secUntil_key_date);
// Print.sysPrintln(secUntil_key + " ==> <removed>");
// Print.sysPrintln(secUntil_key_date + " ==> <removed>");
} else if ((secUntil.indexOf("/") >= 0) || (secUntil.indexOf(":") >= 0)) {
// -- Change "yyyy:mm:dd:HH:MM:SS" to "ssssss"
// Note: The ':' separator should be used instead of '/', because "2010/10/01" is
// syntactically correct (ie. division) and can be compiled into a valid value,
// while "2010:10:01" is not, and will be caught by the compiler.
if (secUntil.startsWith("'") || secUntil.startsWith("\"")) {
secUntil = secUntil.substring(1); // remove prefixing quote
}
if (secUntil.endsWith("'") || secUntil.endsWith("\"")) {
secUntil = secUntil.substring(0, secUntil.length() - 1); // remove trailing quote
}
try {
long nowSec = DateTime.getCurrentTimeSec();
DateTime futDT = DateTime.parseArgumentDate(secUntil, null, true);
long futSec = futDT.getTimeSec();
long deltaS = futSec - nowSec;
if (deltaS == 0L) {
// -- now
deltaS = 1L; // make it 1 second from now
} else if (deltaS < 0L) {
// -- this means that the time has already passed
// deltaS = -1L; // already negative
} else {
deltaS += 1L; // add one more second
}
secUntilRTP.setString(secUntil_key, String.valueOf(deltaS));
secUntilRTP.setString(secUntil_key_date, futDT.toString());
} catch (DateTime.DateParseException dpe) {
Print.logException("Unable to parse Date: " + secUntil, dpe);
System.exit(1);
}
// Print.sysPrintln(secUntil_key + " ==> " + secUntilRTP.getString(secUntil_key
// ,"?"));
// Print.sysPrintln(secUntil_key_date + " ==> " +
// secUntilRTP.getString(secUntil_key_date,"?"));
} else {
long futSec = DateTime.getCurrentTimeSec() + StringTools.parseLong(secUntil, 0L);
secUntilRTP.setString(secUntil_key_date, (new DateTime(futSec)).toString());
// Print.sysPrintln(secUntil_key + " ==> " + secUntilRTP.getString(secUntil_key
// ,"?"));
// Print.sysPrintln(secUntil_key_date + " ==> " +
// secUntilRTP.getString(secUntil_key_date,"?"));
}
}
}
/* special case "secondsFromNow" */
// %{secondsFromNow=30} <== 30 seconds from now
String ARG_secondsFromNow_ = "secondsFromNow";
Set<String> secondsFromNow_keys = RTConfig.getPropertyKeys(ARG_secondsFromNow_, false);
for (String secondsFromNow_key : secondsFromNow_keys) {
String secondsFromNow_key_date = secondsFromNow_key + ".date";
RTProperties secondsFromNowRTP = RTConfig.getPropertiesForKey(secondsFromNow_key, false);
if (secondsFromNowRTP != null) {
// -- get/update the RTProperties where "secondsFromNow" is defined
String secondsFromNow = secondsFromNowRTP.getString(secondsFromNow_key, "");
if (StringTools.isBlank(secondsFromNow)) {
// -- remove keys
secondsFromNowRTP.removeProperty(secondsFromNow_key);
secondsFromNowRTP.removeProperty(secondsFromNow_key_date);
// Print.sysPrintln(secondsFromNow_key + " ==> <removed>");
// Print.sysPrintln(secondsFromNow_key_date + " ==> <removed>");
} else {
long futSec = DateTime.getCurrentTimeSec() + StringTools.parseLong(secondsFromNow, 0L);
secondsFromNowRTP.setString(secondsFromNow_key, String.valueOf(futSec));
secondsFromNowRTP.setString(
secondsFromNow_key_date, (new DateTime(futSec)).format(DateTime.DEFAULT_DATE_FORMAT));
// Print.sysPrintln(secondsFromNow_key + " ==> " +
// secondsFromNowRTP.getString(secondsFromNow_key ,"?"));
// Print.sysPrintln(secondsFromNow_key_date + " ==> " +
// secondsFromNowRTP.getString(secondsFromNow_key_date,"?"));
}
}
}
/* special case "limit" */
String ARG_limit_ = "limit";
Set<String> limit_keys = RTConfig.getPropertyKeys(ARG_limit_, false);
for (String limit_key : limit_keys) {
RTProperties limitRTP = RTConfig.getPropertiesForKey(limit_key, false);
if (limitRTP != null) {
String limit = limitRTP.getString(limit_key, "");
if (StringTools.isBlank(limit)) {
limitRTP.removeProperty(limit_key);
// Print.sysPrintln(limit_key + " ==> <removed>");
} else {
// Print.sysPrintln(limit_key + " ==> " + limit);
}
}
}
/* adjust packageName */
if (packageName.equals(JAVA_PACKAGE)) {
Print.errPrintln(
"\nWarning: 'package' argument cannot equal \"package\" (setting to empty string).");
packageName = "";
}
// --------------------------------------
/* internal template (single pass only) */
if (StringTools.isBlank(templateName) || templateName.startsWith(TEMPLATE_)) {
try {
// -- input source
String inputSource = standardTemplate(templateName, packageName);
if (StringTools.isBlank(inputSource)) {
if (isOptional) {
// -- optional "templateName" not defined, use default template
inputSource = standardTemplate(null, packageName); // non-blank
} else {
throw new IOException("Standard template not found: " + templateName);
}
}
// -- write template output
File outputFile = CompiletimeVars.getOutputFile(directory, outputName, overwrite);
CompiletimeVars.writeOutputSource(inputSource, outputFile);
} catch (NoOverwriteException noe) {
// -- outputFile exists, quietly ignore
Print.sysPrintln(noe.getMessage());
System.exit(0);
} catch (IOException ioe) {
// -- error writin file
Print.errPrintln("\nError writing template: " + ioe.getMessage());
System.exit(1);
}
System.exit(0);
}
// --------------------------------------
/* get input file(s) */
File inputFileArray[] = null;
if (templateName.startsWith("**/*.")) {
// -- all files, in all directories (recursive)
String fileGlob = templateName.substring(3);
File files[] = FileTools.getFiles(directory, fileGlob, true);
inputFileArray = files;
} else if (templateName.startsWith("*.")) {
// -- all files in specified directory
String fileGlob = templateName;
File files[] = FileTools.getFiles(directory, fileGlob, false);
inputFileArray = files;
} else {
// -- single specific file
File file = (directory != null) ? new File(directory, templateName) : new File(templateName);
inputFileArray = new File[] {file};
}
/* loop through input files */
boolean singlePass = false;
for (File inputFile : inputFileArray) {
/* file must exist here */
if (!inputFile.isFile()) {
// -- not a file
continue;
}
/* get input source from template file */
String inputSource = CompiletimeVars.readTemplate(inputFile, packageName);
if (StringTools.isBlank(inputSource)) {
// -- inputSource not available?
continue;
}
/* precheck output file */
File outputFile = null;
try {
if (StringTools.isBlank(outputName) || outputName.equalsIgnoreCase("stdout")) {
// -- output to stdout (multi-pass ok)
} else if (outputName.equalsIgnoreCase("inline")) {
// -- write back to template file (multi-pass ok)
overwrite = true; // assume implied overwrite
outputFile = inputFile;
} else {
// -- output to specified file (single-pass only)
outputFile = getOutputFile(directory, outputName, overwrite);
singlePass = true;
}
} catch (NoOverwriteException noe) {
// -- outputFile exists, quietly ignore
Print.sysPrintln(noe.getMessage());
System.exit(0);
} catch (IOException ioe) {
Print.errPrintln("\nInvalid output file: " + ioe.getMessage());
System.exit(1);
}
/* adjust source and write output */
try {
CompiletimeVars.writeOutputSource(inputSource, outputFile);
if (singlePass) {
break;
}
} catch (IOException ioe) {
Print.errPrintln("\nError writing file: " + ioe.getMessage());
System.exit(1);
}
}
/* success */
System.exit(0);
}
/* get map element ID */
public String getMapID() {
RTProperties rtp = this.getProperties();
return rtp.getString(PROP_MAP_ID, DEFAULT_MAP_ID);
}
/* write mapping support JS to stream */
protected void writeJSVariables(PrintWriter out, RequestProperties reqState) throws IOException {
// This var initilizations must not use any functions defined in 'jsmap.js'
PrivateLabel privLabel = reqState.getPrivateLabel();
I18N i18n = privLabel.getI18N(JSMap.class);
Locale locale = reqState.getLocale();
GeoPoint dftCenter = this.getDefaultCenter(null);
boolean isFleet = reqState.isFleet();
Account account = reqState.getCurrentAccount();
long maxPushpins = this.getMaxPushpins(reqState);
out.write("// --- Map support Javascript [" + this.getName() + "]\n");
JavaScriptTools.writeJSVar(out, "MAP_PROVIDER_NAME", this.getName());
/* properties */
boolean wrotePropHeader = false;
RTProperties rtp = this.getProperties();
for (Iterator<?> i = rtp.keyIterator(); i.hasNext(); ) {
Object key = i.next();
if (!this._skipPropKey(key)) {
if (!wrotePropHeader) {
// out.write("\n");
out.write("// Defined properties\n");
wrotePropHeader = true;
}
String val[] = StringTools.parseStringArray(rtp.getProperty(key, "").toString(), '\n');
String propVar = "PROP_" + key.toString().replace('.', '_').replace('-', '_');
if (val.length == 1) {
if (StringTools.isDouble(val[0], true)
|| StringTools.isLong(val[0], true)
|| StringTools.isBoolean(val[0], true)) {
JavaScriptTools.writeJSVar(out, propVar, val[0], false);
} else {
JavaScriptTools.writeJSVar(out, propVar, val[0]);
}
} else if (val.length > 1) {
JavaScriptTools.writeJSVar(out, propVar, StringTools.join(val, "\\n"));
}
}
}
/* speed units */
Account.SpeedUnits speedUnits = reqState.getSpeedUnits();
boolean speedIsKph = speedUnits.equals(Account.SpeedUnits.KPH);
double altUnitsMult = speedIsKph ? 1.0 : GeoPoint.FEET_PER_METER;
String altUnitsName =
speedIsKph
? i18n.getString("JSMap.altitude.meters", "Meters")
: i18n.getString("JSMap.altitude.feet", "Feet");
/* constants (these do not change during the user session) */
out.write("// Element IDs\n");
JavaScriptTools.writeJSVar(out, "MAP_ID", this.getMapID());
JavaScriptTools.writeJSVar(out, "ID_DETAIL_TABLE", ID_DETAIL_TABLE);
JavaScriptTools.writeJSVar(out, "ID_DETAIL_CONTROL", ID_DETAIL_CONTROL);
JavaScriptTools.writeJSVar(out, "ID_LAT_LON_DISPLAY", ID_LAT_LON_DISPLAY);
JavaScriptTools.writeJSVar(out, "ID_DISTANCE_DISPLAY", ID_DISTANCE_DISPLAY);
JavaScriptTools.writeJSVar(out, "ID_LATEST_EVENT_DATE", ID_LATEST_EVENT_DATE);
JavaScriptTools.writeJSVar(out, "ID_LATEST_EVENT_TIME", ID_LATEST_EVENT_TIME);
JavaScriptTools.writeJSVar(out, "ID_LATEST_EVENT_TMZ", ID_LATEST_EVENT_TMZ);
JavaScriptTools.writeJSVar(out, "ID_LATEST_BATTERY", ID_LATEST_BATTERY);
JavaScriptTools.writeJSVar(out, "ID_MESSAGE_TEXT", ID_MESSAGE_TEXT);
out.write("// Geozone IDs\n");
JavaScriptTools.writeJSVar(out, "ID_ZONE_LATITUDE_", ID_ZONE_LATITUDE_);
JavaScriptTools.writeJSVar(out, "ID_ZONE_LONGITUDE_", ID_ZONE_LONGITUDE_);
JavaScriptTools.writeJSVar(out, "ID_ZONE_RADIUS_M", ID_ZONE_RADIUS_M);
out.write("// Session constants\n");
JavaScriptTools.writeJSVar(out, "PUSHPINS_SHOW", rtp.getBoolean(PROP_map_pushpins, true));
JavaScriptTools.writeJSVar(out, "MAX_PUSH_PINS", maxPushpins);
JavaScriptTools.writeJSVar(out, "MAX_CREATION_AGE_SEC", rtp.getInt(PROP_map_maxCreationAge, 0));
JavaScriptTools.writeJSVar(out, "MAP_WIDTH", this.getDimension().getWidth());
JavaScriptTools.writeJSVar(out, "MAP_HEIGHT", this.getDimension().getHeight());
JavaScriptTools.writeJSVar(out, "IS_FLEET", isFleet);
JavaScriptTools.writeJSVar(
out, "SHOW_SAT_COUNT", rtp.getBoolean(PROP_detail_showSatCount, false));
JavaScriptTools.writeJSVar(out, "SHOW_SPEED", rtp.getBoolean(PROP_info_showSpeed, true));
JavaScriptTools.writeJSVar(
out, "COMBINE_SPEED_HEAD", rtp.getBoolean(PROP_combineSpeedHeading, true));
JavaScriptTools.writeJSVar(out, "SHOW_ALTITUDE", rtp.getBoolean(PROP_info_showAltitude, false));
JavaScriptTools.writeJSVar(out, "SHOW_ADDR", reqState.getShowAddress());
JavaScriptTools.writeJSVar(
out, "INCL_BLANK_ADDR", rtp.getBoolean(PROP_info_inclBlankAddress, true));
JavaScriptTools.writeJSVar(
out, "SHOW_OPT_FIELDS", rtp.getBoolean(PROP_info_showOptionalFields, true));
JavaScriptTools.writeJSVar(
out, "INCL_BLANK_OPT_FIELDS", rtp.getBoolean(PROP_info_inclBlankOptFields, true));
JavaScriptTools.writeJSVar(
out, "LATLON_FORMAT", Account.getLatLonFormat(account).getIntValue());
JavaScriptTools.writeJSVar(
out, "DISTANCE_KM_MULT", reqState.getDistanceUnits().getMultiplier());
JavaScriptTools.writeJSVar(out, "SPEED_KPH_MULT", speedUnits.getMultiplier());
JavaScriptTools.writeJSVar(out, "SPEED_UNITS", speedUnits.toString(locale));
JavaScriptTools.writeJSVar(out, "ALTITUDE_METERS_MULT", altUnitsMult);
JavaScriptTools.writeJSVar(out, "ALTITUDE_UNITS", altUnitsName);
JavaScriptTools.writeJSVar(out, "TIME_ZONE", reqState.getTimeZoneString(null)); // long
JavaScriptTools.writeJSVar(
out,
"DEFAULT_CENTER",
"{ lat:" + dftCenter.getLatitude() + ", lon:" + dftCenter.getLongitude() + " }",
false);
JavaScriptTools.writeJSVar(out, "DEFAULT_ZOOM", this.getDefaultZoom(JSMap.DEFAULT_ZOOM, false));
JavaScriptTools.writeJSVar(out, "PUSHPIN_ZOOM", this.getDefaultZoom(JSMap.PUSHPIN_ZOOM, true));
JavaScriptTools.writeJSVar(out, "MAP_AUTHORIZATION", this.getAuthorization());
JavaScriptTools.writeJSVar(
out, "SCROLL_WHEEL_ZOOM", rtp.getBoolean(PROP_scrollWheelZoom, false));
JavaScriptTools.writeJSVar(out, "DEFAULT_VIEW", rtp.getString(PROP_map_view, "").toLowerCase());
JavaScriptTools.writeJSVar(out, "ROUTE_LINE_SHOW", rtp.getBoolean(PROP_map_routeLine, true));
JavaScriptTools.writeJSVar(
out, "ROUTE_LINE_COLOR", rtp.getString(PROP_map_routeLine_color, "#FF2222"));
JavaScriptTools.writeJSVar(
out, "ROUTE_LINE_ARROWS", rtp.getBoolean(PROP_map_routeLine_arrows, false));
JavaScriptTools.writeJSVar(
out,
"ROUTE_SNAP_TO_ROAD",
rtp.getBoolean(PROP_map_routeLine_snapToRoad, false)); // Google V2 only
JavaScriptTools.writeJSVar(out, "REPLAY_INTERVAL", this.getReplayInterval());
JavaScriptTools.writeJSVar(out, "REPLAY_SINGLE", this.getReplaySinglePushpin());
/* address title */
String adrTitles[] = reqState.getAddressTitles();
String adrTitle = ListTools.itemAt(adrTitles, 0, null);
/* device title */
String devTitles[] = reqState.getDeviceTitles();
String devTitle = ListTools.itemAt(devTitles, 0, null);
/* labels */
out.write("// Localized Text/Labels\n");
JavaScriptTools.writeJSVar(
out,
"HEADING",
"new Array("
+ "\""
+ GeoPoint.CompassHeading.N.toString(locale)
+ "\","
+ "\""
+ GeoPoint.CompassHeading.NE.toString(locale)
+ "\","
+ "\""
+ GeoPoint.CompassHeading.E.toString(locale)
+ "\","
+ "\""
+ GeoPoint.CompassHeading.SE.toString(locale)
+ "\","
+ "\""
+ GeoPoint.CompassHeading.S.toString(locale)
+ "\","
+ "\""
+ GeoPoint.CompassHeading.SW.toString(locale)
+ "\","
+ "\""
+ GeoPoint.CompassHeading.W.toString(locale)
+ "\","
+ "\""
+ GeoPoint.CompassHeading.NW.toString(locale)
+ "\")",
false);
JavaScriptTools.writeJSVar(out, "TEXT_INFO_DATE", i18n.getString("JSMap.info.date", "Date"));
JavaScriptTools.writeJSVar(out, "TEXT_INFO_GPS", i18n.getString("JSMap.info.gps", "GPS"));
JavaScriptTools.writeJSVar(out, "TEXT_INFO_SATS", i18n.getString("JSMap.info.sats", "#Sats"));
JavaScriptTools.writeJSVar(out, "TEXT_INFO_SPEED", i18n.getString("JSMap.info.speed", "Speed"));
JavaScriptTools.writeJSVar(out, "TEXT_INFO_HEADING", GeoPoint.GetHeadingTitle(locale));
JavaScriptTools.writeJSVar(
out, "TEXT_INFO_ALTITUDE", i18n.getString("JSMap.info.altitude", "Altitude"));
JavaScriptTools.writeJSVar(
out, "TEXT_INFO_STOP_TIME", i18n.getString("JSMap.info.stopTime", "Stop Time"));
JavaScriptTools.writeJSVar(
out,
"TEXT_INFO_ADDR",
!StringTools.isBlank(adrTitle)
? adrTitle
: i18n.getString("JSMap.info.address", "Address"));
JavaScriptTools.writeJSVar(
out,
"TEXT_DEVICE",
!StringTools.isBlank(devTitle) ? devTitle : i18n.getString("JSMap.device", "Device"));
JavaScriptTools.writeJSVar(out, "TEXT_DATE", i18n.getString("JSMap.dateTime", "Date/Time"));
JavaScriptTools.writeJSVar(out, "TEXT_CODE", i18n.getString("JSMap.code", "Status"));
JavaScriptTools.writeJSVar(out, "TEXT_LATLON", i18n.getString("JSMap.latLon", "Lat/Lon"));
JavaScriptTools.writeJSVar(out, "TEXT_SATCOUNT", i18n.getString("JSMap.satCount", "#Sats"));
JavaScriptTools.writeJSVar(
out,
"TEXT_ADDR",
!StringTools.isBlank(adrTitle) ? adrTitle : i18n.getString("JSMap.address", "Address"));
JavaScriptTools.writeJSVar(out, "TEXT_SPEED", reqState.getSpeedUnits().toString(locale));
JavaScriptTools.writeJSVar(out, "TEXT_HEADING", i18n.getString("JSMap.heading", "Heading"));
JavaScriptTools.writeJSVar(out, "TEXT_DISTANCE", reqState.getDistanceUnits().toString(locale));
JavaScriptTools.writeJSVar(
out,
"TEXT_TIMEOUT",
i18n.getString("JSMap.sessionTimeout", "Your session has timed-out.\nPlease login ..."));
JavaScriptTools.writeJSVar(
out,
"TEXT_PING_OK",
i18n.getString(
"JSMap.pingDevice.ok",
"A command request has been sent.\nThe {0} should respond shortly ...",
devTitles));
JavaScriptTools.writeJSVar(
out,
"TEXT_PING_ERROR",
i18n.getString(
"JSMap.pingDevice.err",
"The command request failed.\nThe {0} may not support this feature ...",
devTitles));
JavaScriptTools.writeJSVar(
out,
"TEXT_MAXPUSHPINS_ALERT",
i18n.getString(
"JSMap.maxPushpins.err",
"The maximum number of allowed pushpins has been exceeded.\n"
+ " [max={0}] Not all pushpins may be displayed on this map.\n"
+ "Adjust the 'From' time to see remaining pushpins",
String.valueOf(maxPushpins)));
JavaScriptTools.writeJSVar(
out,
"TEXT_MAXPUSHPINS_MSG",
i18n.getString(
"JSMap.maxPushpins.msg",
"Only partial data displayed. The maximum allowed pushpins has been reached.<BR>"
+ "Adjust the Date/Time range accordingly to view the remaining pushpins."));
JavaScriptTools.writeJSVar(
out, "TEXT_UNAVAILABLE", i18n.getString("JSMap.unavailable", "unavailable"));
JavaScriptTools.writeJSVar(
out,
"TEXT_showLocationDetails",
i18n.getString("JSMap.showLocationDetails", "Show Location Details"));
JavaScriptTools.writeJSVar(
out,
"TEXT_hideLocationDetails",
i18n.getString("JSMap.hideLocationDetails", "Hide Location Details"));
/* map "Loading ..." */
JavaScriptTools.writeJSVar(
out,
"TEXT_LOADING_MAP_POINTS",
(rtp.getBoolean(PROP_MAP_LOADING, false)
? i18n.getString("JSMap.loadingMapPoints", "Loading Map Points ...")
: null));
JavaScriptTools.writeJSVar(
out, "MAP_LOADING_IMAGE_URI", rtp.getString(PROP_MAP_LOADING_IMAGE, null));
/* icons/shadows */
JSMap.writePushpinArray(out, reqState);
/* constants (these do not change during the user session) */
out.write("// Geozone support constants\n");
JavaScriptTools.writeJSVar(out, "jsvGeozoneMode", false);
JavaScriptTools.writeJSVar(out, "MAX_ZONE_RADIUS_M", Geozone.MAX_RADIUS_METERS);
JavaScriptTools.writeJSVar(out, "MIN_ZONE_RADIUS_M", Geozone.MIN_RADIUS_METERS);
JavaScriptTools.writeJSVar(
out, "DETAIL_REPORT", this.isFeatureSupported(FEATURE_DETAIL_REPORT));
JavaScriptTools.writeJSVar(
out, "DETAIL_INFO_BOX", this.isFeatureSupported(FEATURE_DETAIL_INFO_BOX));
JavaScriptTools.writeJSVar(out, "TEXT_METERS", GeoPoint.DistanceUnits.METERS.toString(locale));
/* variables */
out.write("// TrackMap Vars\n");
JavaScriptTools.writeJSVar(out, "jsvPoiPins", null);
JavaScriptTools.writeJSVar(out, "jsvDataSets", null);
JavaScriptTools.writeJSVar(out, "jsvDetailPoints", null);
JavaScriptTools.writeJSVar(out, "jsvDetailVisible", false);
JavaScriptTools.writeJSVar(
out,
"jsvDetailAscending",
privLabel.getBooleanProperty(PrivateLabel.PROP_TrackMap_detailAscending, true));
JavaScriptTools.writeJSVar(
out,
"jsvDetailCenterPushpin",
privLabel.getBooleanProperty(PrivateLabel.PROP_TrackMap_detailCenterPushpin, false));
/* last update time */
TimeZone tmz = reqState.getTimeZone();
String dateFmt =
(account != null) ? account.getDateFormat() : BasicPrivateLabel.getDefaultDateFormat();
String timeFmt =
(account != null) ? account.getTimeFormat() : BasicPrivateLabel.getDefaultTimeFormat();
DateTime today = new DateTime(tmz);
JavaScriptTools.writeJSVar(out, "jsvTodayEpoch", today.getTimeSec());
JavaScriptTools.writeJSVar(
out,
"jsvTodayYMD",
"{ YYYY:"
+ today.getYear(tmz)
+ ", MM:"
+ today.getMonth1(tmz)
+ ", DD:"
+ today.getDayOfMonth(tmz)
+ " }",
false);
JavaScriptTools.writeJSVar(out, "jsvTodayDateFmt", today.format(dateFmt, tmz));
JavaScriptTools.writeJSVar(out, "jsvTodayTimeFmt", today.format(timeFmt, tmz));
JavaScriptTools.writeJSVar(out, "jsvTodayTmzFmt", today.format("z", tmz));
/* last event time */
out.write("// Last event time\n");
DateTime lastEventTime = reqState.getLastEventTime();
if (lastEventTime != null) {
JavaScriptTools.writeJSVar(out, "jsvLastEventEpoch", lastEventTime.getTimeSec());
JavaScriptTools.writeJSVar(
out,
"jsvLastEventYMD",
"{ YYYY:"
+ lastEventTime.getYear(tmz)
+ ", MM:"
+ lastEventTime.getMonth1(tmz)
+ ", DD:"
+ lastEventTime.getDayOfMonth(tmz)
+ " }",
false);
JavaScriptTools.writeJSVar(out, "jsvLastEventDateFmt", lastEventTime.format(dateFmt, tmz));
JavaScriptTools.writeJSVar(out, "jsvLastEventTimeFmt", lastEventTime.format(timeFmt, tmz));
JavaScriptTools.writeJSVar(out, "jsvLastEventTmzFmt", lastEventTime.format("z", tmz));
JavaScriptTools.writeJSVar(out, "jsvLastBatteryLevel", 0L);
JavaScriptTools.writeJSVar(out, "jsvLastSignalStrength", 0L);
} else {
JavaScriptTools.writeJSVar(out, "jsvLastEventEpoch", 0L);
JavaScriptTools.writeJSVar(out, "jsvLastEventYMD", null);
JavaScriptTools.writeJSVar(out, "jsvLastEventDateFmt", null);
JavaScriptTools.writeJSVar(out, "jsvLastEventTimeFmt", null);
JavaScriptTools.writeJSVar(out, "jsvLastEventTmzFmt", null);
JavaScriptTools.writeJSVar(out, "jsvLastBatteryLevel", 0.0);
JavaScriptTools.writeJSVar(out, "jsvLastSignalStrength", 0.0);
}
/* map pointers */
out.write("// Map vars\n");
JavaScriptTools.writeJSVar(out, "jsmapElem", null);
JavaScriptTools.writeJSVar(out, "jsmap", null);
}
public static boolean IsOBDII(RTProperties rtpFault) {
return ((rtpFault != null) && rtpFault.getString(PROP_TYPE, "").equalsIgnoreCase(NAME_OBDII));
}
