use of org.javarosa.core.model.data.GeoPointData in project javarosa by opendatakit.
the class XFormAnswerDataParser method getAnswerData.
public static IAnswerData getAnswerData(String text, int dataType, QuestionDef q) {
String trimmedText = text.trim();
if (trimmedText.length() == 0)
trimmedText = null;
switch(dataType) {
case Constants.DATATYPE_NULL:
case Constants.DATATYPE_UNSUPPORTED:
case Constants.DATATYPE_TEXT:
case Constants.DATATYPE_BARCODE:
case Constants.DATATYPE_BINARY:
return new StringData(text);
case Constants.DATATYPE_INTEGER:
try {
return (trimmedText == null ? null : new IntegerData(Integer.parseInt(trimmedText)));
} catch (NumberFormatException nfe) {
return null;
}
case Constants.DATATYPE_LONG:
try {
return (trimmedText == null ? null : new LongData(Long.parseLong(trimmedText)));
} catch (NumberFormatException nfe) {
return null;
}
case Constants.DATATYPE_DECIMAL:
try {
return (trimmedText == null ? null : new DecimalData(Double.parseDouble(trimmedText)));
} catch (NumberFormatException nfe) {
return null;
}
case Constants.DATATYPE_CHOICE:
Selection selection = getSelection(text, q);
return (selection == null ? null : new SelectOneData(selection));
case Constants.DATATYPE_CHOICE_LIST:
return new SelectMultiData(getSelections(text, q));
case Constants.DATATYPE_DATE_TIME:
Date dt = (trimmedText == null ? null : DateUtils.parseDateTime(trimmedText));
return (dt == null ? null : new DateTimeData(dt));
case Constants.DATATYPE_DATE:
Date d = (trimmedText == null ? null : DateUtils.parseDate(trimmedText));
return (d == null ? null : new DateData(d));
case Constants.DATATYPE_TIME:
Date t = (trimmedText == null ? null : DateUtils.parseTime(trimmedText));
return (t == null ? null : new TimeData(t));
case Constants.DATATYPE_BOOLEAN:
if (trimmedText == null) {
return null;
} else {
if (trimmedText.equals("1")) {
return new BooleanData(true);
}
if (trimmedText.equals("0")) {
return new BooleanData(false);
}
return trimmedText.equals("t") ? new BooleanData(true) : new BooleanData(false);
}
case Constants.DATATYPE_GEOPOINT:
if (trimmedText == null) {
return new GeoPointData();
}
try {
UncastData uncast = new UncastData(trimmedText);
// silly...
GeoPointData gp = new GeoPointData();
return gp.cast(uncast);
} catch (Exception e) {
return null;
}
case Constants.DATATYPE_GEOSHAPE:
if (trimmedText == null) {
return new GeoShapeData();
}
try {
UncastData uncast = new UncastData(trimmedText);
// silly...
GeoShapeData gs = new GeoShapeData();
return gs.cast(uncast);
} catch (Exception e) {
return null;
}
case Constants.DATATYPE_GEOTRACE:
if (trimmedText == null) {
return new GeoTraceData();
}
try {
UncastData uncast = new UncastData(trimmedText);
// silly...
GeoTraceData gl = new GeoTraceData();
return gl.cast(uncast);
} catch (Exception e) {
return null;
}
default:
return new UncastData(trimmedText);
}
}
use of org.javarosa.core.model.data.GeoPointData in project javarosa by opendatakit.
the class XPathFuncExpr method eval.
/**
* Evaluate the function call.
*
* First check if the function is a member of the built-in function suite. If not, then check
* for any custom handlers registered to handler the function. If not, throw and exception.
*
* Both function name and appropriate arguments are taken into account when finding a suitable
* handler. For built-in functions, the number of arguments must match; for custom functions,
* the supplied arguments must match one of the function prototypes defined by the handler.
*/
public Object eval(DataInstance model, EvaluationContext evalContext) {
String name = id.toString();
Object[] argVals = new Object[args.length];
HashMap<String, IFunctionHandler> funcHandlers = evalContext.getFunctionHandlers();
// TODO: Func handlers should be able to declare the desire for short circuiting as well
if (name.equals("if")) {
assertArgsCount(name, args, 3);
return ifThenElse(model, evalContext, args, argVals);
} else if (name.equals("coalesce")) {
assertArgsCount(name, args, 2);
argVals[0] = args[0].eval(model, evalContext);
if (!isNull(argVals[0])) {
return argVals[0];
} else {
// that was null, so try the other one...
argVals[1] = args[1].eval(model, evalContext);
return argVals[1];
}
} else if (name.equals("indexed-repeat")) {
if ((args.length == 3 || args.length == 5 || args.length == 7 || args.length == 9 || args.length == 11)) {
return indexedRepeat(model, evalContext, args, argVals);
} else {
throw new XPathUnhandledException("function \'" + name + "\' requires " + "3, 5, 7, 9 or 11 arguments. Only " + args.length + " provided.");
}
}
for (int i = 0; i < args.length; i++) {
argVals[i] = args[i].eval(model, evalContext);
}
// check built-in functions
if (name.equals("true")) {
assertArgsCount(name, args, 0);
return Boolean.TRUE;
} else if (name.equals("false")) {
assertArgsCount(name, args, 0);
return Boolean.FALSE;
} else if (name.equals("boolean")) {
assertArgsCount(name, args, 1);
return toBoolean(argVals[0]);
} else if (name.equals("number")) {
assertArgsCount(name, args, 1);
return toNumeric(argVals[0]);
} else if (name.equals("int")) {
// non-standard
assertArgsCount(name, args, 1);
return toInt(argVals[0]);
} else if (name.equals("round")) {
// Proximate XPath 3.0 and Excel-style round(value,decimal place)
final int places;
if (args.length == 1) {
places = 0;
} else {
assertArgsCount(name, args, 2);
places = toNumeric(argVals[1]).intValue();
}
return round(toNumeric(argVals[0]), places);
} else if (name.equals("string")) {
assertArgsCount(name, args, 1);
return toString(argVals[0]);
} else if (name.equals("date")) {
// non-standard
assertArgsCount(name, args, 1);
return toDate(argVals[0], false);
} else if (name.equals("date-time")) {
// non-standard -- convert double/int/string to Date object
assertArgsCount(name, args, 1);
return toDate(argVals[0], true);
} else if (name.equals("decimal-date-time")) {
// non-standard -- convert string/date to decimal days off 1970-01-01T00:00:00.000-000
assertArgsCount(name, args, 1);
return toDecimalDateTime(argVals[0], true);
} else if (name.equals("decimal-time")) {
// non-standard -- convert string/date to decimal days off 1970-01-01T00:00:00.000-000
assertArgsCount(name, args, 1);
return toDecimalDateTime(argVals[0], false);
} else if (name.equals("not")) {
assertArgsCount(name, args, 1);
return boolNot(argVals[0]);
} else if (name.equals("boolean-from-string")) {
assertArgsCount(name, args, 1);
return boolStr(argVals[0]);
} else if (name.equals("format-date")) {
assertArgsCount(name, args, 2);
return formatDateTime(argVals[0], argVals[1]);
} else if (name.equals("abs")) {
// XPath 3.0
checkArity(name, 1, args.length);
return Math.abs(toDouble(argVals[0]));
} else if (name.equals("acos")) {
// XPath 3.0
checkArity(name, 1, args.length);
return Math.acos(toDouble(argVals[0]));
} else if (name.equals("asin")) {
// XPath 3.0
checkArity(name, 1, args.length);
return Math.asin(toDouble(argVals[0]));
} else if (name.equals("atan")) {
// XPath 3.0
checkArity(name, 1, args.length);
return Math.atan(toDouble(argVals[0]));
} else if (name.equals("atan2")) {
// XPath 3.0
checkArity(name, 2, args.length);
return Math.atan2(toDouble(argVals[0]), toDouble(argVals[1]));
} else if (name.equals("cos")) {
// XPath 3.0
checkArity(name, 1, args.length);
return Math.cos(toDouble(argVals[0]));
} else if (name.equals("exp")) {
// XPath 3.0
checkArity(name, 1, args.length);
return Math.exp(toDouble(argVals[0]));
} else if (name.equals("exp10")) {
// XPath 3.0
checkArity(name, 1, args.length);
return Math.pow(10.0, toDouble(argVals[0]));
} else if (name.equals("log")) {
// XPath 3.0
checkArity(name, 1, args.length);
return Math.log(toDouble(argVals[0]));
} else if (name.equals("log10")) {
// XPath 3.0
checkArity(name, 1, args.length);
return Math.log10(toDouble(argVals[0]));
} else if (name.equals("pi")) {
// XPath 3.0
checkArity(name, 0, args.length);
return Math.PI;
} else if (name.equals("sin")) {
// XPath 3.0
checkArity(name, 1, args.length);
return Math.sin(toDouble(argVals[0]));
} else if (name.equals("sqrt")) {
// XPath 3.0
checkArity(name, 1, args.length);
return Math.sqrt(toDouble(argVals[0]));
} else if (name.equals("tan")) {
// XPath 3.0
checkArity(name, 1, args.length);
return Math.tan(toDouble(argVals[0]));
} else if (name.equals("format-date-time")) {
// non-standard
assertArgsCount(name, args, 2);
return formatDateTime(argVals[0], argVals[1]);
} else if ((name.equals("selected") || name.equals("is-selected"))) {
// non-standard
assertArgsCount(name, args, 2);
return multiSelected(argVals[0], argVals[1], name);
} else if (name.equals("count-selected")) {
// non-standard
assertArgsCount(name, args, 1);
return countSelected(argVals[0]);
} else if (name.equals("selected-at")) {
// non-standard
assertArgsCount(name, args, 2);
return selectedAt(argVals[0], argVals[1]);
} else if (name.equals("position")) {
// TODO: Technically, only the 0 length argument is valid here.
if (args.length == 1) {
XPathNodeset nodes = (XPathNodeset) argVals[0];
if (nodes.size() == 0) {
// Will likely cause an error downstream when used in an XPath.
return (double) (1 + TreeReference.INDEX_UNBOUND);
} else {
// if or how this might manifest into a bug... .
return position(nodes.getRefAt(0));
}
} else if (args.length == 0) {
if (evalContext.getContextPosition() != -1) {
return (double) (1 + evalContext.getContextPosition());
}
return position(evalContext.getContextRef());
} else {
throw new XPathUnhandledException("function \'" + name + "\' requires either exactly one argument or no arguments. Only " + args.length + " provided.");
}
} else if (name.equals("count")) {
assertArgsCount(name, args, 1);
return count(argVals[0]);
} else if (name.equals("count-non-empty")) {
assertArgsCount(name, args, 1);
return countNonEmpty(argVals[0]);
} else if (name.equals("sum")) {
assertArgsCount(name, args, 1);
if (argVals[0] instanceof XPathNodeset) {
return sum(((XPathNodeset) argVals[0]).toArgList());
} else {
throw new XPathTypeMismatchException("not a nodeset");
}
} else if (name.equals("max")) {
if (args.length == 1 && argVals[0] instanceof XPathNodeset) {
return max(((XPathNodeset) argVals[0]).toArgList());
} else {
return max(argVals);
}
} else if (name.equals("min")) {
if (args.length == 1 && argVals[0] instanceof XPathNodeset) {
return min(((XPathNodeset) argVals[0]).toArgList());
} else {
return min(argVals);
}
} else if (name.equals("today")) {
assertArgsCount(name, args, 0);
return DateUtils.roundDate(new Date());
} else if (name.equals("now")) {
assertArgsCount(name, args, 0);
return new Date();
} else if (name.equals("concat")) {
if (args.length == 1 && argVals[0] instanceof XPathNodeset) {
return join("", ((XPathNodeset) argVals[0]).toArgList());
} else {
return join("", argVals);
}
} else if (name.equals("join") && args.length >= 1) {
if (args.length == 2 && argVals[1] instanceof XPathNodeset) {
return join(argVals[0], ((XPathNodeset) argVals[1]).toArgList());
} else {
return join(argVals[0], subsetArgList(argVals, 1));
}
} else if (name.equals("substr") && (args.length == 2 || args.length == 3)) {
return substring(argVals[0], argVals[1], args.length == 3 ? argVals[2] : null);
} else if (name.equals("contains") && args.length == 2) {
return toString(argVals[0]).contains(toString(argVals[1]));
} else if (name.equals("starts-with") && args.length == 2) {
return toString(argVals[0]).startsWith(toString(argVals[1]));
} else if (name.equals("ends-with") && args.length == 2) {
return toString(argVals[0]).endsWith(toString(argVals[1]));
} else if (name.equals("string-length")) {
assertArgsCount(name, args, 1);
return stringLength(argVals[0]);
} else if (name.equals("checklist") && args.length >= 2) {
// non-standard
if (args.length == 3 && argVals[2] instanceof XPathNodeset) {
return checklist(argVals[0], argVals[1], ((XPathNodeset) argVals[2]).toArgList());
} else {
return checklist(argVals[0], argVals[1], subsetArgList(argVals, 2));
}
} else if (name.equals("weighted-checklist") && args.length >= 2 && args.length % 2 == 0) {
// non-standard
if (args.length == 4 && argVals[2] instanceof XPathNodeset && argVals[3] instanceof XPathNodeset) {
Object[] factors = ((XPathNodeset) argVals[2]).toArgList();
Object[] weights = ((XPathNodeset) argVals[3]).toArgList();
if (factors.length != weights.length) {
throw new XPathTypeMismatchException("weighted-checklist: nodesets not same length");
}
return checklistWeighted(argVals[0], argVals[1], factors, weights);
} else {
return checklistWeighted(argVals[0], argVals[1], subsetArgList(argVals, 2, 2), subsetArgList(argVals, 3, 2));
}
} else if (name.equals("regex")) {
// non-standard
assertArgsCount(name, args, 2);
return regex(argVals[0], argVals[1]);
} else if (name.equals("depend") && args.length >= 1) {
// non-standard
return argVals[0];
} else if (name.equals("random")) {
// non-standard
assertArgsCount(name, args, 0);
// calculated expressions may be recomputed w/o warning! use with caution!!
return MathUtils.getRand().nextDouble();
} else if (name.equals("once")) {
assertArgsCount(name, args, 1);
XPathPathExpr currentFieldPathExpr = XPathPathExpr.fromRef(evalContext.getContextRef());
Object currValue = currentFieldPathExpr.eval(model, evalContext).unpack();
if (currValue == null || toString(currValue).length() == 0) {
// this is the "once" case
return argVals[0];
} else {
return currValue;
}
} else if (name.equals("uuid") && (args.length == 0 || args.length == 1)) {
// calculated expressions may be recomputed w/o warning! use with caution!!
if (args.length == 0) {
return PropertyUtils.genUUID();
}
int len = toInt(argVals[0]).intValue();
return PropertyUtils.genGUID(len);
} else if (name.equals("version")) {
// non-standard
assertArgsCount(name, args, 0);
final String formVersion = (model instanceof FormInstance) ? ((FormInstance) model).formVersion : "";
return formVersion == null ? "" : formVersion;
} else if (name.equals("property")) {
// non-standard
// return a property defined by the property manager.
// NOTE: Property should be immutable.
// i.e., does not work with 'start' or 'end' property.
assertArgsCount(name, args, 1);
String s = toString(argVals[0]);
return PropertyManager._().getSingularProperty(s);
} else if (name.equals("pow") && (args.length == 2)) {
// XPath 3.0
double a = toDouble(argVals[0]);
double b = toDouble(argVals[1]);
return Math.pow(a, b);
} else if (name.equals("enclosed-area") || name.equals("area")) {
assertArgsCount(name, args, 1);
Object argVal = argVals[0];
if (!(argVal instanceof XPathNodeset)) {
throw new XPathUnhandledException("function \'" + name + "\' requires a field as the parameter.");
}
Object[] argList = ((XPathNodeset) argVal).toArgList();
int repeatSize = argList.length;
List<GeoUtils.GPSCoordinates> gpsCoordinatesList;
if (repeatSize == 1) {
// Try to determine if the argument is of type GeoShapeData
try {
GeoShapeData geoShapeData = new GeoShapeData().cast(new UncastData(toString(argList[0])));
if (geoShapeData.points.size() <= 2) {
return 0d;
} else {
gpsCoordinatesList = new ArrayList<GeoUtils.GPSCoordinates>();
for (GeoPointData point : geoShapeData.points) {
gpsCoordinatesList.add(new GeoUtils.GPSCoordinates(point.getPart(0), point.getPart(1)));
}
}
} catch (Exception e) {
throw new XPathTypeMismatchException("The function \'" + name + "\' received a value that does not represent GPS coordinates: " + argList[0]);
}
} else {
if (repeatSize <= 2) {
return 0d;
} else {
// treat the input as a series of GeoPointData
gpsCoordinatesList = new ArrayList<GeoUtils.GPSCoordinates>();
for (Object arg : argList) {
try {
GeoPointData geoPointData = new GeoPointData().cast(new UncastData(toString(arg)));
gpsCoordinatesList.add(new GeoUtils.GPSCoordinates(geoPointData.getPart(0), geoPointData.getPart(1)));
} catch (Exception e) {
throw new XPathTypeMismatchException("The function \'" + name + "\' received a value that does not represent GPS coordinates: " + arg);
}
}
}
}
return GeoUtils.calculateAreaOfGPSPolygonOnEarthInSquareMeters(gpsCoordinatesList);
} else if (name.equals("digest") && (args.length == 2 || args.length == 3)) {
return DigestAlgorithm.from((String) argVals[1]).digest((String) argVals[0], args.length == 3 ? Encoding.from((String) argVals[2]) : Encoding.BASE64);
} else {
// check for custom handler
IFunctionHandler handler = funcHandlers.get(name);
if (handler != null) {
return evalCustomFunction(handler, argVals, evalContext);
} else {
throw new XPathUnhandledException("function \'" + name + "\'");
}
}
}
use of org.javarosa.core.model.data.GeoPointData in project javarosa by opendatakit.
the class Recalculate method wrapData.
// droos 1/29/10: we need to come up with a consistent rule for whether the resulting data is determined
// by the type of the instance node, or the type of the expression result. right now it's a mix and a mess
// note a caveat with going solely by instance node type is that untyped nodes default to string!
// for now, these are the rules:
// if node type == bool, convert to boolean (for numbers, zero = f, non-zero = t; empty string = f, all other datatypes -> error)
// if numeric data, convert to int if node type is int OR data is an integer; else convert to double
// if string data or date data, keep as is
// if NaN or empty string, null
/**
* convert the data object returned by the xpath expression into an IAnswerData suitable for
* storage in the FormInstance
*/
public static IAnswerData wrapData(Object val, int dataType) {
if ((val instanceof String && ((String) val).length() == 0) || (val instanceof Double && ((Double) val).isNaN())) {
return null;
}
if (Constants.DATATYPE_BOOLEAN == dataType || val instanceof Boolean) {
// ctsims: We should really be using the boolean datatype for real, it's
// necessary for backend calculations and XSD compliance
boolean b;
if (val instanceof Boolean) {
b = (Boolean) val;
} else if (val instanceof Double) {
Double d = (Double) val;
b = Math.abs(d) > 1.0e-12 && !Double.isNaN(d);
} else if (val instanceof String) {
String s = (String) val;
b = s.length() > 0;
} else {
throw new RuntimeException("unrecognized data representation while trying to convert to BOOLEAN");
}
return new BooleanData(b);
} else if (val instanceof Double) {
double d = (Double) val;
long l = (long) d;
boolean isIntegral = Math.abs(d - l) < 1.0e-9;
if (Constants.DATATYPE_INTEGER == dataType || (isIntegral && (Integer.MAX_VALUE >= l) && (Integer.MIN_VALUE <= l))) {
return new IntegerData((int) d);
} else if (Constants.DATATYPE_LONG == dataType || isIntegral) {
return new LongData((long) d);
} else {
return new DecimalData(d);
}
} else if (dataType == Constants.DATATYPE_GEOPOINT) {
return new GeoPointData().cast(new UncastData(String.valueOf(val)));
} else if (dataType == Constants.DATATYPE_GEOSHAPE) {
return new GeoShapeData().cast(new UncastData(String.valueOf(val)));
} else if (dataType == Constants.DATATYPE_GEOTRACE) {
return new GeoTraceData().cast(new UncastData(String.valueOf(val)));
} else if (dataType == Constants.DATATYPE_CHOICE) {
return new SelectOneData().cast(new UncastData(String.valueOf(val)));
} else if (dataType == Constants.DATATYPE_CHOICE_LIST) {
return new SelectMultiData().cast(new UncastData(String.valueOf(val)));
} else if (val instanceof String) {
return new StringData((String) val);
} else if (val instanceof Date) {
if (dataType == Constants.DATATYPE_TIME)
return new TimeData((Date) val);
if (dataType == Constants.DATATYPE_DATE)
return new DateData((Date) val);
return new DateTimeData((Date) val);
} else {
throw new RuntimeException("unrecognized data type in 'calculate' expression: " + val.getClass().getName());
}
}
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