/** * show the user how many microseconds there are * * @param val */ protected void setMicroText(long val) { // output the number of microseconds _theMicrosTxt.setText(DebriefFormatDateTime.formatMicros(new HiResDate(0, val)) + " micros"); }
/** * private method to produce a time string from the indicated DTG we've moved it out of the * newTime box so that we can access it from a tester */ public String getNewTime(final HiResDate DTG) { final String pattern = _dateFormatter.toPattern(); String res = ""; if (pattern.startsWith("'T+'")) { // hey, we're doing our "Special format". res = "T "; // get the T-zero time final HiResDate theTZero = getTimeZero(); if (theTZero == null) { // no, return an error message return "N/A"; } final long Tzero = theTZero.getMicros(); // what's the elapsed time final long elapsed = DTG.getMicros() - Tzero; if (Math.abs(elapsed) > 1000000000000l) { res = "N/A"; } else { // how many seconds is this? long secs = (long) (elapsed / 1000000d); // are we +ve? if (secs > 0) { res += "+"; } else { res += "-"; } // ok, we've handled the +ve/-ve make it absolute secs = Math.abs(secs); // which format do they want? String format = pattern.substring(pattern.indexOf(" ")); // strip the format string format = format.trim(); if (format.equals("SSS")) { // do we have our number formatter? if (_secondsFormat == null) _secondsFormat = new java.text.DecimalFormat("000s"); res += _secondsFormat.format(secs); } else if (format.equals("MM:SS")) { // how many mins? final long mins = secs / 60; // and the seconds secs -= mins * 60; res += mins; res += ":"; res += MWC.Utilities.TextFormatting.BriefFormatLocation.df2.format(secs); } else { MWC.Utilities.Errors.Trace.trace("Step control: invalid TZero format found:" + format); } } } else { // are we in hi-res mode or not? if (HiResDate.inHiResProcessingMode()) res = DebriefFormatDateTime.formatMicros(DTG); else res = _dateFormatter.format(DTG.getDate()); } return res; }