+package tim.prune.function.estimate;
+
+import java.text.DecimalFormat;
+import java.text.NumberFormat;
+import java.util.Locale;
+
+import tim.prune.I18nManager;
+import tim.prune.config.Config;
+import tim.prune.data.RangeStats;
+import tim.prune.data.Unit;
+import tim.prune.data.UnitSetLibrary;
+
+/**
+ * Class to hold, parse and convert the parameters for time estimation.
+ * These are five (metric) values which can be loaded and saved from config,
+ * and are used by the EstimateTime function
+ */
+public class EstimationParameters
+{
+ /** Minutes required for flat travel, fixed metric distance */
+ private double _flatMins = 0.0;
+ /** Minutes required for climbing, fixed metric distance */
+ private double _gentleClimbMins = 0.0, _steepClimbMins;
+ /** Minutes required for descending, fixed metric distance */
+ private double _gentleDescentMins = 0.0, _steepDescentMins;
+ /** True if parsing from a string failed */
+ private boolean _parseFailed = false;
+
+ /** Kilometres unit for comparison */
+ private static final Unit KILOMETRES = UnitSetLibrary.UNITS_KILOMETRES;
+
+
+ /**
+ * Bare constructor using default values
+ */
+ public EstimationParameters()
+ {
+ resetToDefaults();
+ }
+
+ /**
+ * Constructor from config string
+ * @param inConfigString single, semicolon-separated string from config
+ */
+ public EstimationParameters(String inConfigString)
+ {
+ populateWithString(inConfigString);
+ if (_parseFailed) {
+ resetToDefaults();
+ }
+ }
+
+ /**
+ * Reset all the values to their hardcoded defaults
+ */
+ public void resetToDefaults()
+ {
+ _flatMins = 60.0;
+ _gentleClimbMins = 12.0; _steepClimbMins = 18.0;
+ _gentleDescentMins = 0.0; _steepDescentMins = 12.0;
+ _parseFailed = false;
+ }
+
+ /**
+ * Populate the values from the config, which means all values are metric
+ * @param inString semicolon-separated string of five parameters
+ */
+ private void populateWithString(String inString)
+ {
+ if (inString != null && !inString.trim().equals(""))
+ {
+ String[] params = inString.trim().split(";");
+ _parseFailed = (params == null || params.length != 5);
+ if (!_parseFailed)
+ {
+ for (String p : params)
+ {
+ if (!isParamStringValid(p)) {
+ _parseFailed = true;
+ }
+ }
+ }
+ if (!_parseFailed)
+ {
+ try
+ {
+ // Use fixed UK locale to parse these, because of fixed "." formatting
+ NumberFormat twoDpFormatter = NumberFormat.getNumberInstance(Locale.UK);
+ _flatMins = twoDpFormatter.parse(params[0]).doubleValue();
+ _gentleClimbMins = twoDpFormatter.parse(params[1]).doubleValue();
+ _steepClimbMins = twoDpFormatter.parse(params[2]).doubleValue();
+ _gentleDescentMins = twoDpFormatter.parse(params[3]).doubleValue();
+ _steepDescentMins = twoDpFormatter.parse(params[4]).doubleValue();
+ }
+ catch (Exception e) {
+ _parseFailed = true;
+ }
+ }
+ }
+ else _parseFailed = true;
+ }
+
+ /**
+ * Populate the values using five user-entered strings (now Units-specific!)
+ * @param inFlat minutes for flat
+ * @param inGClimb minutes for gentle climb
+ * @param inSClimb minutes for steep climb
+ * @param inGDescent minutes for gentle descent
+ * @param inSDescent minutes for steep descent
+ */
+ public void populateWithStrings(String inFlat, String inGClimb, String inSClimb, String inGDescent, String inSDescent)
+ {
+ if (isParamStringValid(inFlat) && isParamStringValid(inGClimb) && isParamStringValid(inSClimb)
+ && isParamStringValid(inGDescent) && isParamStringValid(inSDescent))
+ {
+ Unit distUnit = Config.getUnitSet().getDistanceUnit();
+ Unit altUnit = Config.getUnitSet().getAltitudeUnit();
+ final double distFactor = (distUnit == KILOMETRES ? 1.0 : (5000/3.0 * distUnit.getMultFactorFromStd()));
+ final double altFactor = (altUnit.isStandard() ? 1.0 : (1.0/3.0 * altUnit.getMultFactorFromStd()));
+ NumberFormat localFormatter = NumberFormat.getNumberInstance();
+ try
+ {
+ _flatMins = localFormatter.parse(inFlat).doubleValue() * distFactor;
+ _gentleClimbMins = localFormatter.parse(inGClimb).doubleValue() * altFactor;
+ _steepClimbMins = localFormatter.parse(inSClimb).doubleValue() * altFactor;
+ _gentleDescentMins = localFormatter.parse(inGDescent).doubleValue() * altFactor;
+ _steepDescentMins = localFormatter.parse(inSDescent).doubleValue() * altFactor;
+ }
+ catch (Exception e) {_parseFailed = true;}
+ }
+ else _parseFailed = true;
+ }
+
+ /**
+ * Populate with double metric values, for example the results of a Learning process
+ * @param inFlat time for 5km on the flat
+ * @param inGClimb time for 100m gentle climb
+ * @param inSClimb time for 100m steep climb
+ * @param inGDescent time for 100m gentle descent
+ * @param inSDescent time for 100m steep descent
+ */
+ public void populateWithMetrics(double inFlat, double inGClimb, double inSClimb, double inGDescent, double inSDescent)
+ {
+ _flatMins = inFlat;
+ _gentleClimbMins = inGClimb;
+ _steepClimbMins = inSClimb;
+ _gentleDescentMins = inGDescent;
+ _steepDescentMins = inSDescent;
+ }
+
+ /**
+ * @param inString parameter string to check
+ * @return true if it looks valid (no letters, at least one digit)
+ */
+ private static boolean isParamStringValid(String inString)
+ {
+ if (inString == null) {return false;}
+ boolean hasDigit = false, currPunc = false, prevPunc = false;
+ for (int i=0; i<inString.length(); i++)
+ {
+ char c = inString.charAt(i);
+ if (Character.isLetter(c)) {return false;} // no letters allowed
+ currPunc = (c == '.' || c == ',');
+ if (currPunc && prevPunc) {return false;} // no consecutive . or , allowed
+ prevPunc = currPunc;
+ hasDigit = hasDigit || Character.isDigit(c);
+ }
+ return hasDigit; // must have at least one digit!
+ }
+
+ /**
+ * @return true if the parameters are valid, with no parsing errors
+ */
+ public boolean isValid()
+ {
+ return !_parseFailed; // && _flatMins > 0.0 && _gentleClimbMins >= 0.0 && _steepClimbMins >= 0.0;
+ }
+
+ /**
+ * @return five strings for putting in text fields for editing / display
+ */
+ public String[] getStrings()
+ {
+ Unit distUnit = Config.getUnitSet().getDistanceUnit();
+ Unit altUnit = Config.getUnitSet().getAltitudeUnit();
+ double distFactor = (distUnit == KILOMETRES ? 1.0 : (5000/3.0 * distUnit.getMultFactorFromStd()));
+ double altFactor = (altUnit.isStandard() ? 1.0 : (1.0/3.0 * altUnit.getMultFactorFromStd()));
+ // Use locale-specific number formatting, eg commas for german
+ NumberFormat numFormatter = NumberFormat.getNumberInstance();
+ if (numFormatter instanceof DecimalFormat) {
+ ((DecimalFormat) numFormatter).applyPattern("0.00");
+ }
+ // Conversion between units
+ return new String[] {
+ numFormatter.format(_flatMins / distFactor),
+ numFormatter.format(_gentleClimbMins / altFactor), numFormatter.format(_steepClimbMins / altFactor),
+ numFormatter.format(_gentleDescentMins / altFactor), numFormatter.format(_steepDescentMins / altFactor)
+ };
+ }
+
+ /**
+ * @return unit-specific string describing the distance for the flat time (5km/3mi/3NM)
+ */
+ public static String getStandardDistance()
+ {
+ Unit distUnit = Config.getUnitSet().getDistanceUnit();
+ return (distUnit == KILOMETRES ? "5 " : "3 ") + I18nManager.getText(distUnit.getShortnameKey());
+ }
+
+ /**
+ * @return unit-specific string describing the height difference for the climbs/descents (100m/300ft)
+ */
+ public static String getStandardClimb()
+ {
+ Unit altUnit = Config.getUnitSet().getAltitudeUnit();
+ return (altUnit.isStandard() ? "100 " : "300 ") + I18nManager.getText(altUnit.getShortnameKey());
+ }
+
+ /**
+ * @return contents of parameters as a semicolon-separated (metric) string for the config
+ */
+ public String toConfigString()
+ {
+ return "" + twoDp(_flatMins) + ";" + twoDp(_gentleClimbMins) + ";" + twoDp(_steepClimbMins) + ";"
+ + twoDp(_gentleDescentMins) + ";" + twoDp(_steepDescentMins);
+ }
+
+ /**
+ * @param inNum number to output
+ * @return formatted string to two decimal places, with decimal point
+ */
+ private static String twoDp(double inNum)
+ {
+ if (inNum < 0.0) return "-" + twoDp(-inNum);
+ int hundreds = (int) (inNum * 100 + 0.5);
+ return "" + (hundreds / 100) + "." + (hundreds % 100);
+ }
+
+ /**
+ * Apply the parameters to the given range stats
+ * @param inStats stats of current range
+ * @return estimated number of minutes required
+ */
+ public double applyToStats(RangeStats inStats)
+ {
+ if (inStats == null || !inStats.isValid()) return 0.0;
+ final Unit METRES = UnitSetLibrary.UNITS_METRES;
+ final double STANDARD_CLIMB = 100.0; // metres
+ final double STANDARD_DISTANCE = 5.0; // kilometres
+ return _flatMins * inStats.getMovingDistanceKilometres() / STANDARD_DISTANCE
+ + _gentleClimbMins * inStats.getGentleAltitudeRange().getClimb(METRES) / STANDARD_CLIMB
+ + _steepClimbMins * inStats.getSteepAltitudeRange().getClimb(METRES) / STANDARD_CLIMB
+ + _gentleDescentMins * inStats.getGentleAltitudeRange().getDescent(METRES) / STANDARD_CLIMB
+ + _steepDescentMins * inStats.getSteepAltitudeRange().getDescent(METRES) / STANDARD_CLIMB;
+ }
+
+ /**
+ * Combine two sets of parameters together
+ * @param inOther other set
+ * @param inFraction fractional weight
+ * @return combined set
+ */
+ public EstimationParameters combine(EstimationParameters inOther, double inFraction)
+ {
+ if (inFraction < 0.0 || inFraction > 1.0 || inOther == null) {
+ return null;
+ }
+ // inFraction is the weight of this one, weight of the other one is 1-inFraction
+ final double fraction2 = 1 - inFraction;
+ EstimationParameters combined = new EstimationParameters();
+ combined._flatMins = inFraction * _flatMins + fraction2 * inOther._flatMins;
+ combined._gentleClimbMins = inFraction * _gentleClimbMins + fraction2 * inOther._gentleClimbMins;
+ combined._gentleDescentMins = inFraction * _gentleDescentMins + fraction2 * inOther._gentleDescentMins;
+ combined._steepClimbMins = inFraction * _steepClimbMins + fraction2 * inOther._steepClimbMins;
+ combined._steepDescentMins = inFraction * _steepDescentMins + fraction2 * inOther._steepDescentMins;
+ return combined;
+ }
+}