Example 1 with AbstractParty
use of org.apache.sis.metadata.iso.citation.AbstractParty in project sis by apache.
the class TreeNodeTest method metadataWithHierarchy.
/**
* Creates a metadata hierarchy to be used for the tests.
* This method creates the following metadata:
*
* {@preformat text
* Citation
* ├─Title…………………………………………………………………………………………… Some title
* ├─Alternate title (1 of 2)………………………………………… First alternate title
* ├─Alternate title (2 of 2)………………………………………… Second alternate title
* ├─Edition……………………………………………………………………………………… Some edition
* ├─Cited responsible party (1 of 2)
* │ └─Organisation
* │ ├─Name…………………………………………………………………………… Some organisation
* │ └─Role…………………………………………………………………………… Distributor
* ├─Cited responsible party (2 of 2)
* │ └─Individual
* │ ├─Name…………………………………………………………………………… Some person of contact
* │ ├─Contact info
* │ │ └─Address
* │ │ └─Electronic mail address…… Some email
* │ └─Role…………………………………………………………………………… Point of contact
* ├─Presentation form (1 of 2)…………………………………… Map digital
* ├─Presentation form (2 of 2)…………………………………… map hardcopy
* └─Other citation details……………………………………………… Some other details
* }
*/
static DefaultCitation metadataWithHierarchy() {
final DefaultCitation citation = TreeNodeChildrenTest.metadataWithMultiOccurrences();
AbstractParty party = new DefaultOrganisation("Some organisation", null, null, null);
DefaultResponsibleParty responsibility = new DefaultResponsibleParty(Role.DISTRIBUTOR);
responsibility.setParties(singleton(party));
assertTrue(citation.getCitedResponsibleParties().add(responsibility));
// Add a second responsible party with deeper hierarchy.
final DefaultContact contact = new DefaultContact();
final DefaultAddress address = new DefaultAddress();
address.setElectronicMailAddresses(singleton("Some email"));
contact.setAddresses(singleton(address));
party = new DefaultIndividual("Some person of contact", null, contact);
responsibility = new DefaultResponsibleParty(Role.POINT_OF_CONTACT);
responsibility.setParties(singleton(party));
assertTrue(citation.getCitedResponsibleParties().add(responsibility));
return citation;
}
Also used :
AbstractParty(org.apache.sis.metadata.iso.citation.AbstractParty)
DefaultAddress(org.apache.sis.metadata.iso.citation.DefaultAddress)
DefaultOrganisation(org.apache.sis.metadata.iso.citation.DefaultOrganisation)
DefaultResponsibleParty(org.apache.sis.metadata.iso.citation.DefaultResponsibleParty)
DefaultCitation(org.apache.sis.metadata.iso.citation.DefaultCitation)
DefaultContact(org.apache.sis.metadata.iso.citation.DefaultContact)
DefaultIndividual(org.apache.sis.metadata.iso.citation.DefaultIndividual)
Example 2 with AbstractParty
use of org.apache.sis.metadata.iso.citation.AbstractParty in project sis by apache.
the class LocationFormat method format.
/**
* Writes a textual representation of the given location in the given stream or buffer.
*
* <div class="warning"><b>Upcoming API change — generalization</b><br>
* in a future SIS version, the type of {@code location} parameter may be generalized
* to the {@code org.opengis.referencing.gazetteer.Location} interface.
* This change is pending GeoAPI revision.</div>
*
* @param location the location to format.
* @param toAppendTo where to format the location.
* @throws IOException if an error occurred while writing to the given appendable.
*/
@Override
@SuppressWarnings({ "fallthrough", "null" })
public void format(final AbstractLocation location, final Appendable toAppendTo) throws IOException {
ArgumentChecks.ensureNonNull("location", location);
final Locale locale = getLocale(Locale.Category.DISPLAY);
final Vocabulary vocabulary = Vocabulary.getResources(locale);
final TableAppender table = new TableAppender(toAppendTo, "│ ", columnSeparator, " │");
table.setMultiLinesCells(true);
/*
* Location type.
*/
table.appendHorizontalSeparator();
final AbstractLocationType type = location.type();
if (type != null) {
append(table, vocabulary, Vocabulary.Keys.LocationType, toString(type.getName(), locale));
}
/*
* Geographic identifier and alternative identifiers, if any.
*/
append(table, vocabulary, Vocabulary.Keys.GeographicIdentifier, toString(location.getGeographicIdentifier(), locale));
final Collection<? extends InternationalString> alt = location.getAlternativeGeographicIdentifiers();
if (alt != null && !alt.isEmpty()) {
boolean isFirst = true;
vocabulary.appendLabel(Vocabulary.Keys.AlternativeIdentifiers, table);
nextColumn(table);
for (final InternationalString id : alt) {
if (!isFirst) {
isFirst = false;
table.append(lineSeparator);
}
table.append(id);
}
table.nextLine();
}
/*
* Extents (temporal and geographic). If an envelope exists and the CRS is not geographic,
* then the envelope bounds will be appended on the same lines than the geographic bounds.
* But before writing the bounding box and/or the envelope, check if they are redundant.
* We may also need to change axis order (but not unit) of the envelope in order to match
* the axis order of the geographic bounding box.
*/
final Extent extent = new DefaultExtent(null, location.getGeographicExtent(), null, location.getTemporalExtent());
final Range<Date> time = Extents.getTimeRange(extent);
if (time != null) {
append(table, vocabulary, Vocabulary.Keys.StartDate, toString(time.getMinValue()));
append(table, vocabulary, Vocabulary.Keys.EndDate, toString(time.getMaxValue()));
}
GeographicBoundingBox bbox = Extents.getGeographicBoundingBox(extent);
Envelope envelope = location.getEnvelope();
DirectPosition position = position(location.getPosition());
// Position in geographic CRS.
DirectPosition geopos = null;
// Envelope Coordinate Reference System.
CoordinateReferenceSystem crs = null;
// CRS in conventional (x,y) axis order.
CoordinateReferenceSystem normCRS = null;
// If failed to transform envelope.
Exception warning = null;
try {
if (envelope != null) {
normCRS = normalize(crs = envelope.getCoordinateReferenceSystem());
if (normCRS != crs) {
// Should only change order and sign.
envelope = Envelopes.transform(envelope, normCRS);
}
}
if (position != null) {
/*
* If only one of the envelope or the position objects specify a CRS, assume that the other object
* use the same CRS. If both the envelope and the position objects specify a CRS, the envelope CRS
* will have precedence and the "representative position" will be projected to that CRS.
*/
final CoordinateReferenceSystem posCRS = position.getCoordinateReferenceSystem();
if (normCRS == null) {
normCRS = normalize(crs = posCRS);
if (normCRS != crs) {
// Should only change order and sign.
envelope = Envelopes.transform(envelope, normCRS);
}
}
if (bbox != null) {
// Compute geographic position only if there is a geographic bounding box.
GeographicCRS geogCRS = ReferencingUtilities.toNormalizedGeographicCRS(posCRS);
if (geogCRS != null) {
geopos = transform(position, posCRS, geogCRS);
}
}
position = transform(position, posCRS, normCRS);
}
} catch (FactoryException | TransformException e) {
envelope = null;
position = null;
warning = e;
}
/*
* At this point we got the final geographic bounding box and/or envelope to write.
* Since we will write the projected and geographic coordinates side-by-side in the same cells,
* we need to format them in advance so we can compute their width for internal right-alignment.
* We do the alignment ourselves instead than using TableAppender.setCellAlignment(ALIGN_RIGHT)
* because we do not want (projected geographic) tuple to appear far on the right side if other
* cells have long texts.
*/
if (bbox != null || envelope != null) {
final CoordinateSystem cs = (crs != null) ? crs.getCoordinateSystem() : null;
String[] geographic = null;
String[] projected = null;
String[] unitSymbol = null;
AngleFormat geogFormat = null;
NumberFormat projFormat = null;
UnitFormat unitFormat = null;
int maxGeogLength = 0;
int maxProjLength = 0;
int maxUnitLength = 0;
boolean showProj = false;
if (bbox != null || geopos != null) {
geogFormat = (AngleFormat) getFormat(Angle.class);
geographic = new String[BOUND_KEY.length];
Arrays.fill(geographic, "");
}
if (envelope != null || position != null) {
projFormat = (NumberFormat) getFormat(Number.class);
unitFormat = (UnitFormat) getFormat(Unit.class);
projected = new String[BOUND_KEY.length];
unitSymbol = new String[BOUND_KEY.length];
Arrays.fill(projected, "");
Arrays.fill(unitSymbol, "");
}
for (int i = 0; i < BOUND_KEY.length; i++) {
RoundingMode rounding = RoundingMode.FLOOR;
double g = Double.NaN;
double p = Double.NaN;
int dimension = 0;
switch(i) {
case 0:
if (bbox != null)
g = bbox.getWestBoundLongitude();
if (envelope != null)
p = envelope.getMinimum(0);
break;
case 2:
if (bbox != null)
g = bbox.getEastBoundLongitude();
if (envelope != null)
p = envelope.getMaximum(0);
rounding = RoundingMode.CEILING;
break;
case 3:
if (bbox != null)
g = bbox.getSouthBoundLatitude();
if (envelope != null)
p = envelope.getMinimum(1);
dimension = 1;
break;
case 5:
if (bbox != null)
g = bbox.getNorthBoundLatitude();
if (envelope != null)
p = envelope.getMaximum(1);
rounding = RoundingMode.CEILING;
dimension = 1;
break;
// Fall through
case 4:
dimension = 1;
case 1:
if (geopos != null)
g = geopos.getOrdinate(dimension);
if (position != null)
p = position.getOrdinate(dimension);
rounding = RoundingMode.HALF_EVEN;
break;
}
if (!Double.isNaN(p)) {
showProj |= (g != p);
if (cs != null) {
final Unit<?> unit = cs.getAxis(dimension).getUnit();
if (unit != null) {
final int length = (unitSymbol[i] = unitFormat.format(unit)).length();
if (length > maxUnitLength) {
maxUnitLength = length;
}
}
}
try {
projFormat.setRoundingMode(rounding);
} catch (UnsupportedOperationException e) {
// Ignore.
}
final int length = (projected[i] = projFormat.format(p)).length();
if (length > maxProjLength) {
maxProjLength = length;
}
}
if (!Double.isNaN(g)) {
geogFormat.setRoundingMode(rounding);
final Angle angle = (dimension == 0) ? new Longitude(g) : new Latitude(g);
final int length = (geographic[i] = geogFormat.format(angle)).length();
if (length > maxGeogLength) {
maxGeogLength = length;
}
}
}
if (!showProj) {
// All projected coordinates are identical to geographic ones.
projected = null;
unitSymbol = null;
maxProjLength = 0;
maxUnitLength = 0;
} else if (maxProjLength != 0) {
if (maxUnitLength != 0) {
maxUnitLength++;
}
// Arbitrary space between projected and geographic coordinates.
maxGeogLength += 4;
}
/*
* At this point all coordinates have been formatted in advance.
*/
final String separator = (projected != null && geographic != null) ? " —" : "";
for (int i = 0; i < BOUND_KEY.length; i++) {
final String p = (projected != null) ? projected[i] : "";
final String u = (unitSymbol != null) ? unitSymbol[i] : "";
final String g = (geographic != null) ? geographic[i] : "";
if (!p.isEmpty() || !g.isEmpty()) {
vocabulary.appendLabel(BOUND_KEY[i], table);
nextColumn(table);
table.append(CharSequences.spaces(maxProjLength - p.length())).append(p);
table.append(CharSequences.spaces(maxUnitLength - u.length())).append(u).append(separator);
table.append(CharSequences.spaces(maxGeogLength - g.length())).append(g);
table.nextLine();
}
}
}
if (crs != null) {
append(table, vocabulary, Vocabulary.Keys.CoordinateRefSys, IdentifiedObjects.getName(crs, null));
}
/*
* Organization responsible for defining the characteristics of the location instance.
*/
final AbstractParty administrator = location.getAdministrator();
if (administrator != null) {
append(table, vocabulary, Vocabulary.Keys.Administrator, toString(administrator.getName(), locale));
}
table.appendHorizontalSeparator();
table.flush();
if (warning != null) {
vocabulary.appendLabel(Vocabulary.Keys.Warnings, toAppendTo);
toAppendTo.append(warning.toString()).append(lineSeparator);
}
}
Also used :
Locale(java.util.Locale)
Vocabulary(org.apache.sis.util.resources.Vocabulary)
DirectPosition(org.opengis.geometry.DirectPosition)
DefaultExtent(org.apache.sis.metadata.iso.extent.DefaultExtent)
Extent(org.opengis.metadata.extent.Extent)
FactoryException(org.opengis.util.FactoryException)
CoordinateSystem(org.opengis.referencing.cs.CoordinateSystem)
UnitFormat(org.apache.sis.measure.UnitFormat)
RoundingMode(java.math.RoundingMode)
TableAppender(org.apache.sis.io.TableAppender)
Latitude(org.apache.sis.measure.Latitude)
GeographicBoundingBox(org.opengis.metadata.extent.GeographicBoundingBox)
InternationalString(org.opengis.util.InternationalString)
AngleFormat(org.apache.sis.measure.AngleFormat)
Envelope(org.opengis.geometry.Envelope)
DefaultExtent(org.apache.sis.metadata.iso.extent.DefaultExtent)
CoordinateReferenceSystem(org.opengis.referencing.crs.CoordinateReferenceSystem)
GeographicCRS(org.opengis.referencing.crs.GeographicCRS)
AbstractParty(org.apache.sis.metadata.iso.citation.AbstractParty)
TransformException(org.opengis.referencing.operation.TransformException)
Longitude(org.apache.sis.measure.Longitude)
Date(java.util.Date)
ParseException(java.text.ParseException)
TransformException(org.opengis.referencing.operation.TransformException)
IOException(java.io.IOException)
FactoryException(org.opengis.util.FactoryException)
Angle(org.apache.sis.measure.Angle)
InternationalString(org.opengis.util.InternationalString)
NumberFormat(java.text.NumberFormat)
Aggregations
AbstractParty (org.apache.sis.metadata.iso.citation.AbstractParty)2
IOException (java.io.IOException)1
RoundingMode (java.math.RoundingMode)1
NumberFormat (java.text.NumberFormat)1
ParseException (java.text.ParseException)1
Date (java.util.Date)1
Locale (java.util.Locale)1
TableAppender (org.apache.sis.io.TableAppender)1
Angle (org.apache.sis.measure.Angle)1
AngleFormat (org.apache.sis.measure.AngleFormat)1
Latitude (org.apache.sis.measure.Latitude)1
Longitude (org.apache.sis.measure.Longitude)1
UnitFormat (org.apache.sis.measure.UnitFormat)1
DefaultAddress (org.apache.sis.metadata.iso.citation.DefaultAddress)1
DefaultCitation (org.apache.sis.metadata.iso.citation.DefaultCitation)1
DefaultContact (org.apache.sis.metadata.iso.citation.DefaultContact)1
DefaultIndividual (org.apache.sis.metadata.iso.citation.DefaultIndividual)1
DefaultOrganisation (org.apache.sis.metadata.iso.citation.DefaultOrganisation)1
DefaultResponsibleParty (org.apache.sis.metadata.iso.citation.DefaultResponsibleParty)1
DefaultExtent (org.apache.sis.metadata.iso.extent.DefaultExtent)1
