target stringlengths 20 113k | src_fm stringlengths 11 86.3k | src_fm_fc stringlengths 21 86.4k | src_fm_fc_co stringlengths 30 86.4k | src_fm_fc_ms stringlengths 42 86.8k | src_fm_fc_ms_ff stringlengths 43 86.8k |
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@Test public void setIdTest() { IsochronesRequest request = new IsochronesRequest(); request.setId("foo"); Assert.assertEquals("foo", request.getId()); } | public void setId(String id) { this.id = id; this.hasId = true; } | IsochronesRequest { public void setId(String id) { this.id = id; this.hasId = true; } } | IsochronesRequest { public void setId(String id) { this.id = id; this.hasId = true; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public void setId(String id) { this.id = id; this.hasId = true; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoothing(Doubl... | IsochronesRequest { public void setId(String id) { this.id = id; this.hasId = true; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoothing(Doubl... |
@Test public void TestOverlappingRegion() { String[] names = _builder.findBorderCrossing(new Coordinate[] { new Coordinate(101.5,101.5), new Coordinate(102.5,101.5) }); Assert.assertEquals(2, names.length); String[] names2 = _builder.findBorderCrossing(new Coordinate[] { new Coordinate(101.5,101.5), new Coordinate(101.... | public String[] findBorderCrossing(Coordinate[] coords) { ArrayList<CountryBordersPolygon> countries = new ArrayList<>(); boolean hasInternational = false; boolean overlap = false; int lsLen = coords.length; if(lsLen > 1) { for(int i=0; i<lsLen; i++) { Coordinate c = coords[i]; if(!Double.isNaN(c.x) && !Double.isNaN(c.... | BordersGraphStorageBuilder extends AbstractGraphStorageBuilder { public String[] findBorderCrossing(Coordinate[] coords) { ArrayList<CountryBordersPolygon> countries = new ArrayList<>(); boolean hasInternational = false; boolean overlap = false; int lsLen = coords.length; if(lsLen > 1) { for(int i=0; i<lsLen; i++) { Co... | BordersGraphStorageBuilder extends AbstractGraphStorageBuilder { public String[] findBorderCrossing(Coordinate[] coords) { ArrayList<CountryBordersPolygon> countries = new ArrayList<>(); boolean hasInternational = false; boolean overlap = false; int lsLen = coords.length; if(lsLen > 1) { for(int i=0; i<lsLen; i++) { Co... | BordersGraphStorageBuilder extends AbstractGraphStorageBuilder { public String[] findBorderCrossing(Coordinate[] coords) { ArrayList<CountryBordersPolygon> countries = new ArrayList<>(); boolean hasInternational = false; boolean overlap = false; int lsLen = coords.length; if(lsLen > 1) { for(int i=0; i<lsLen; i++) { Co... | BordersGraphStorageBuilder extends AbstractGraphStorageBuilder { public String[] findBorderCrossing(Coordinate[] coords) { ArrayList<CountryBordersPolygon> countries = new ArrayList<>(); boolean hasInternational = false; boolean overlap = false; int lsLen = coords.length; if(lsLen > 1) { for(int i=0; i<lsLen; i++) { Co... |
@Test public void hasIdTest() { IsochronesRequest request = new IsochronesRequest(); Assert.assertFalse(request.hasId()); request.setId("foo"); Assert.assertTrue(request.hasId()); } | public boolean hasId() { return hasId; } | IsochronesRequest { public boolean hasId() { return hasId; } } | IsochronesRequest { public boolean hasId() { return hasId; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public boolean hasId() { return hasId; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoothing(Double smoothing); boolean has... | IsochronesRequest { public boolean hasId() { return hasId; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoothing(Double smoothing); boolean has... |
@Test public void setAreaUnitTest() throws ParameterValueException { IsochronesRequest request = new IsochronesRequest(); request.setAreaUnit(APIEnums.Units.forValue("km")); Assert.assertEquals(APIEnums.Units.KILOMETRES, request.getAreaUnit()); } | public void setAreaUnit(APIEnums.Units areaUnit) { this.areaUnit = areaUnit; hasAreaUnits = true; } | IsochronesRequest { public void setAreaUnit(APIEnums.Units areaUnit) { this.areaUnit = areaUnit; hasAreaUnits = true; } } | IsochronesRequest { public void setAreaUnit(APIEnums.Units areaUnit) { this.areaUnit = areaUnit; hasAreaUnits = true; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public void setAreaUnit(APIEnums.Units areaUnit) { this.areaUnit = areaUnit; hasAreaUnits = true; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSm... | IsochronesRequest { public void setAreaUnit(APIEnums.Units areaUnit) { this.areaUnit = areaUnit; hasAreaUnits = true; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSm... |
@Test public void getSmoothingTest() { IsochronesRequest request = new IsochronesRequest(); Assert.assertNull(request.getSmoothing()); } | public Double getSmoothing() { return smoothing; } | IsochronesRequest { public Double getSmoothing() { return smoothing; } } | IsochronesRequest { public Double getSmoothing() { return smoothing; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public Double getSmoothing() { return smoothing; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoothing(Double smoothing); b... | IsochronesRequest { public Double getSmoothing() { return smoothing; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoothing(Double smoothing); b... |
@Test public void setSmoothingTest() { IsochronesRequest request = new IsochronesRequest(); request.setSmoothing(0.1); Assert.assertEquals(0.1, request.getSmoothing(), 0); } | public void setSmoothing(Double smoothing) { this.smoothing = smoothing; this.hasSmoothing = true; } | IsochronesRequest { public void setSmoothing(Double smoothing) { this.smoothing = smoothing; this.hasSmoothing = true; } } | IsochronesRequest { public void setSmoothing(Double smoothing) { this.smoothing = smoothing; this.hasSmoothing = true; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public void setSmoothing(Double smoothing) { this.smoothing = smoothing; this.hasSmoothing = true; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getS... | IsochronesRequest { public void setSmoothing(Double smoothing) { this.smoothing = smoothing; this.hasSmoothing = true; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getS... |
@Test public void hasSmoothingTest() { IsochronesRequest request = new IsochronesRequest(); Assert.assertFalse(request.hasSmoothing()); request.setSmoothing(0.1); Assert.assertTrue(request.hasSmoothing()); } | public boolean hasSmoothing() { return hasSmoothing; } | IsochronesRequest { public boolean hasSmoothing() { return hasSmoothing; } } | IsochronesRequest { public boolean hasSmoothing() { return hasSmoothing; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public boolean hasSmoothing() { return hasSmoothing; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoothing(Double smoothing... | IsochronesRequest { public boolean hasSmoothing() { return hasSmoothing; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoothing(Double smoothing... |
@Test public void getResponseTypeTest() { IsochronesRequest request = new IsochronesRequest(); Assert.assertEquals(APIEnums.RouteResponseType.GEOJSON, request.getResponseType()); } | public APIEnums.RouteResponseType getResponseType() { return responseType; } | IsochronesRequest { public APIEnums.RouteResponseType getResponseType() { return responseType; } } | IsochronesRequest { public APIEnums.RouteResponseType getResponseType() { return responseType; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public APIEnums.RouteResponseType getResponseType() { return responseType; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoo... | IsochronesRequest { public APIEnums.RouteResponseType getResponseType() { return responseType; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoo... |
@Test public void setResponseTypeTest() { IsochronesRequest request = new IsochronesRequest(); request.setResponseType(APIEnums.RouteResponseType.JSON); Assert.assertEquals(APIEnums.RouteResponseType.JSON, request.getResponseType()); } | public void setResponseType(APIEnums.RouteResponseType responseType) { this.responseType = responseType; } | IsochronesRequest { public void setResponseType(APIEnums.RouteResponseType responseType) { this.responseType = responseType; } } | IsochronesRequest { public void setResponseType(APIEnums.RouteResponseType responseType) { this.responseType = responseType; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public void setResponseType(APIEnums.RouteResponseType responseType) { this.responseType = responseType; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Doubl... | IsochronesRequest { public void setResponseType(APIEnums.RouteResponseType responseType) { this.responseType = responseType; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Doubl... |
@Test public void getAttributesTest() { IsochronesRequest request = new IsochronesRequest(); Assert.assertNull(request.getAttributes()); } | public IsochronesRequestEnums.Attributes[] getAttributes() { return attributes; } | IsochronesRequest { public IsochronesRequestEnums.Attributes[] getAttributes() { return attributes; } } | IsochronesRequest { public IsochronesRequestEnums.Attributes[] getAttributes() { return attributes; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public IsochronesRequestEnums.Attributes[] getAttributes() { return attributes; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void se... | IsochronesRequest { public IsochronesRequestEnums.Attributes[] getAttributes() { return attributes; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void se... |
@Test public void getLocationTest() { IsochronesRequest request = new IsochronesRequest(); Assert.assertEquals(Double[][].class, request.getLocations().getClass()); } | public Double[][] getLocations() { return locations; } | IsochronesRequest { public Double[][] getLocations() { return locations; } } | IsochronesRequest { public Double[][] getLocations() { return locations; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public Double[][] getLocations() { return locations; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoothing(Double smoothing... | IsochronesRequest { public Double[][] getLocations() { return locations; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoothing(Double smoothing... |
@Test public void setLocationTypeTest() { IsochronesRequest request = new IsochronesRequest(); request.setLocationType(IsochronesRequestEnums.LocationType.DESTINATION); Assert.assertEquals(IsochronesRequestEnums.LocationType.DESTINATION, request.getLocationType()); } | public void setLocationType(IsochronesRequestEnums.LocationType locationType) { this.locationType = locationType; hasLocationType = true; } | IsochronesRequest { public void setLocationType(IsochronesRequestEnums.LocationType locationType) { this.locationType = locationType; hasLocationType = true; } } | IsochronesRequest { public void setLocationType(IsochronesRequestEnums.LocationType locationType) { this.locationType = locationType; hasLocationType = true; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public void setLocationType(IsochronesRequestEnums.LocationType locationType) { this.locationType = locationType; hasLocationType = true; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUni... | IsochronesRequest { public void setLocationType(IsochronesRequestEnums.LocationType locationType) { this.locationType = locationType; hasLocationType = true; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUni... |
@Test public void TestInitiallyProcessedIfNoSidewalk() { WheelchairSidewalkWay way = new WheelchairSidewalkWay(new ReaderWay(1)); assertTrue(way.hasWayBeenFullyProcessed()); } | @Override public boolean hasWayBeenFullyProcessed() { if(side == OSMAttachedSidewalkProcessor.Side.BOTH && lastPrepared == OSMAttachedSidewalkProcessor.Side.RIGHT) { return true; } return side == lastPrepared; } | WheelchairSidewalkWay extends PedestrianWay { @Override public boolean hasWayBeenFullyProcessed() { if(side == OSMAttachedSidewalkProcessor.Side.BOTH && lastPrepared == OSMAttachedSidewalkProcessor.Side.RIGHT) { return true; } return side == lastPrepared; } } | WheelchairSidewalkWay extends PedestrianWay { @Override public boolean hasWayBeenFullyProcessed() { if(side == OSMAttachedSidewalkProcessor.Side.BOTH && lastPrepared == OSMAttachedSidewalkProcessor.Side.RIGHT) { return true; } return side == lastPrepared; } WheelchairSidewalkWay(ReaderWay way); } | WheelchairSidewalkWay extends PedestrianWay { @Override public boolean hasWayBeenFullyProcessed() { if(side == OSMAttachedSidewalkProcessor.Side.BOTH && lastPrepared == OSMAttachedSidewalkProcessor.Side.RIGHT) { return true; } return side == lastPrepared; } WheelchairSidewalkWay(ReaderWay way); @Override boolean hasWay... | WheelchairSidewalkWay extends PedestrianWay { @Override public boolean hasWayBeenFullyProcessed() { if(side == OSMAttachedSidewalkProcessor.Side.BOTH && lastPrepared == OSMAttachedSidewalkProcessor.Side.RIGHT) { return true; } return side == lastPrepared; } WheelchairSidewalkWay(ReaderWay way); @Override boolean hasWay... |
@Test public void getProfileTest() { IsochronesRequest request = new IsochronesRequest(); Assert.assertNull(request.getProfile()); } | public APIEnums.Profile getProfile() { return profile; } | IsochronesRequest { public APIEnums.Profile getProfile() { return profile; } } | IsochronesRequest { public APIEnums.Profile getProfile() { return profile; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public APIEnums.Profile getProfile() { return profile; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoothing(Double smoothi... | IsochronesRequest { public APIEnums.Profile getProfile() { return profile; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoothing(Double smoothi... |
@Test public void setProfileTest() { IsochronesRequest request = new IsochronesRequest(); request.setProfile(APIEnums.Profile.DRIVING_CAR); Assert.assertEquals(APIEnums.Profile.DRIVING_CAR, request.getProfile()); } | public void setProfile(APIEnums.Profile profile) { this.profile = profile; } | IsochronesRequest { public void setProfile(APIEnums.Profile profile) { this.profile = profile; } } | IsochronesRequest { public void setProfile(APIEnums.Profile profile) { this.profile = profile; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public void setProfile(APIEnums.Profile profile) { this.profile = profile; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoo... | IsochronesRequest { public void setProfile(APIEnums.Profile profile) { this.profile = profile; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoo... |
@Test public void getIsochronesOptionsTest() { IsochronesRequest request = new IsochronesRequest(); Assert.assertNull(request.getIsochronesOptions()); } | public RouteRequestOptions getIsochronesOptions() { return isochronesOptions; } | IsochronesRequest { public RouteRequestOptions getIsochronesOptions() { return isochronesOptions; } } | IsochronesRequest { public RouteRequestOptions getIsochronesOptions() { return isochronesOptions; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public RouteRequestOptions getIsochronesOptions() { return isochronesOptions; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setS... | IsochronesRequest { public RouteRequestOptions getIsochronesOptions() { return isochronesOptions; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setS... |
@Test public void setIsochronesOptionsTest() { IsochronesRequest request = new IsochronesRequest(); request.setIsochronesOptions(new RouteRequestOptions()); Assert.assertEquals(RouteRequestOptions.class, request.getIsochronesOptions().getClass()); } | public void setIsochronesOptions(RouteRequestOptions isochronesOptions) { this.isochronesOptions = isochronesOptions; this.hasOptions = true; } | IsochronesRequest { public void setIsochronesOptions(RouteRequestOptions isochronesOptions) { this.isochronesOptions = isochronesOptions; this.hasOptions = true; } } | IsochronesRequest { public void setIsochronesOptions(RouteRequestOptions isochronesOptions) { this.isochronesOptions = isochronesOptions; this.hasOptions = true; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public void setIsochronesOptions(RouteRequestOptions isochronesOptions) { this.isochronesOptions = isochronesOptions; this.hasOptions = true; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units are... | IsochronesRequest { public void setIsochronesOptions(RouteRequestOptions isochronesOptions) { this.isochronesOptions = isochronesOptions; this.hasOptions = true; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units are... |
@Test public void getRangeTest() { IsochronesRequest request = new IsochronesRequest(); Assert.assertNull(request.getRange()); } | public List<Double> getRange() { return range; } | IsochronesRequest { public List<Double> getRange() { return range; } } | IsochronesRequest { public List<Double> getRange() { return range; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public List<Double> getRange() { return range; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoothing(Double smoothing); boo... | IsochronesRequest { public List<Double> getRange() { return range; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoothing(Double smoothing); boo... |
@Test public void setRangeTest() { IsochronesRequest request = new IsochronesRequest(); request.setRange(new ArrayList<>()); Assert.assertNotNull(request.getRange()); } | public void setRange(List<Double> range) { this.range = range; hasRange = true; } | IsochronesRequest { public void setRange(List<Double> range) { this.range = range; hasRange = true; } } | IsochronesRequest { public void setRange(List<Double> range) { this.range = range; hasRange = true; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public void setRange(List<Double> range) { this.range = range; hasRange = true; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void se... | IsochronesRequest { public void setRange(List<Double> range) { this.range = range; hasRange = true; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void se... |
@Test public void setRangeTypeTest() { IsochronesRequest request = new IsochronesRequest(); request.setRangeType(IsochronesRequestEnums.RangeType.DISTANCE); Assert.assertEquals(IsochronesRequestEnums.RangeType.DISTANCE, request.getRangeType()); } | public void setRangeType(IsochronesRequestEnums.RangeType rangeType) { this.rangeType = rangeType; hasRangeType = true; } | IsochronesRequest { public void setRangeType(IsochronesRequestEnums.RangeType rangeType) { this.rangeType = rangeType; hasRangeType = true; } } | IsochronesRequest { public void setRangeType(IsochronesRequestEnums.RangeType rangeType) { this.rangeType = rangeType; hasRangeType = true; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public void setRangeType(IsochronesRequestEnums.RangeType rangeType) { this.rangeType = rangeType; hasRangeType = true; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAre... | IsochronesRequest { public void setRangeType(IsochronesRequestEnums.RangeType rangeType) { this.rangeType = rangeType; hasRangeType = true; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAre... |
@Test public void getIntervalTest() { IsochronesRequest request = new IsochronesRequest(); Assert.assertNull(request.getInterval()); } | public Double getInterval() { return interval; } | IsochronesRequest { public Double getInterval() { return interval; } } | IsochronesRequest { public Double getInterval() { return interval; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public Double getInterval() { return interval; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoothing(Double smoothing); boo... | IsochronesRequest { public Double getInterval() { return interval; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing(); void setSmoothing(Double smoothing); boo... |
@Test public void setIntervalTest() { IsochronesRequest request = new IsochronesRequest(); request.setInterval(new Double("0.0")); Assert.assertEquals(new Double("0.0"), request.getInterval()); } | public void setInterval(Double interval) { this.interval = interval; hasInterval = true; } | IsochronesRequest { public void setInterval(Double interval) { this.interval = interval; hasInterval = true; } } | IsochronesRequest { public void setInterval(Double interval) { this.interval = interval; hasInterval = true; } @JsonCreator IsochronesRequest(); } | IsochronesRequest { public void setInterval(Double interval) { this.interval = interval; hasInterval = true; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing()... | IsochronesRequest { public void setInterval(Double interval) { this.interval = interval; hasInterval = true; } @JsonCreator IsochronesRequest(); String getId(); void setId(String id); boolean hasId(); APIEnums.Units getAreaUnit(); void setAreaUnit(APIEnums.Units areaUnit); boolean hasAreaUnits(); Double getSmoothing()... |
@Test public void convertSmoothing() throws ParameterValueException { Float smoothing = handler.convertSmoothing(10.234); Assert.assertEquals(10.234, smoothing, 0.01); } | Float convertSmoothing(Double smoothingValue) throws ParameterValueException { float f = (float) smoothingValue.doubleValue(); if (smoothingValue < 0 || smoothingValue > 100) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_SMOOTHING, smoothingValue.toString()); re... | IsochronesRequestHandler extends GenericHandler { Float convertSmoothing(Double smoothingValue) throws ParameterValueException { float f = (float) smoothingValue.doubleValue(); if (smoothingValue < 0 || smoothingValue > 100) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesReque... | IsochronesRequestHandler extends GenericHandler { Float convertSmoothing(Double smoothingValue) throws ParameterValueException { float f = (float) smoothingValue.doubleValue(); if (smoothingValue < 0 || smoothingValue > 100) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesReque... | IsochronesRequestHandler extends GenericHandler { Float convertSmoothing(Double smoothingValue) throws ParameterValueException { float f = (float) smoothingValue.doubleValue(); if (smoothingValue < 0 || smoothingValue > 100) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesReque... | IsochronesRequestHandler extends GenericHandler { Float convertSmoothing(Double smoothingValue) throws ParameterValueException { float f = (float) smoothingValue.doubleValue(); if (smoothingValue < 0 || smoothingValue > 100) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesReque... |
@Test public void TestInitiallyNotProcessedIfSidewalk() { ReaderWay readerWay = new ReaderWay(1); readerWay.setTag("sidewalk", "left"); WheelchairSidewalkWay way = new WheelchairSidewalkWay(readerWay); assertFalse(way.hasWayBeenFullyProcessed()); } | @Override public boolean hasWayBeenFullyProcessed() { if(side == OSMAttachedSidewalkProcessor.Side.BOTH && lastPrepared == OSMAttachedSidewalkProcessor.Side.RIGHT) { return true; } return side == lastPrepared; } | WheelchairSidewalkWay extends PedestrianWay { @Override public boolean hasWayBeenFullyProcessed() { if(side == OSMAttachedSidewalkProcessor.Side.BOTH && lastPrepared == OSMAttachedSidewalkProcessor.Side.RIGHT) { return true; } return side == lastPrepared; } } | WheelchairSidewalkWay extends PedestrianWay { @Override public boolean hasWayBeenFullyProcessed() { if(side == OSMAttachedSidewalkProcessor.Side.BOTH && lastPrepared == OSMAttachedSidewalkProcessor.Side.RIGHT) { return true; } return side == lastPrepared; } WheelchairSidewalkWay(ReaderWay way); } | WheelchairSidewalkWay extends PedestrianWay { @Override public boolean hasWayBeenFullyProcessed() { if(side == OSMAttachedSidewalkProcessor.Side.BOTH && lastPrepared == OSMAttachedSidewalkProcessor.Side.RIGHT) { return true; } return side == lastPrepared; } WheelchairSidewalkWay(ReaderWay way); @Override boolean hasWay... | WheelchairSidewalkWay extends PedestrianWay { @Override public boolean hasWayBeenFullyProcessed() { if(side == OSMAttachedSidewalkProcessor.Side.BOTH && lastPrepared == OSMAttachedSidewalkProcessor.Side.RIGHT) { return true; } return side == lastPrepared; } WheelchairSidewalkWay(ReaderWay way); @Override boolean hasWay... |
@Test(expected = ParameterValueException.class) public void convertSmoothingFailWhenTooHigh() throws ParameterValueException { handler.convertSmoothing(105.0); } | Float convertSmoothing(Double smoothingValue) throws ParameterValueException { float f = (float) smoothingValue.doubleValue(); if (smoothingValue < 0 || smoothingValue > 100) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_SMOOTHING, smoothingValue.toString()); re... | IsochronesRequestHandler extends GenericHandler { Float convertSmoothing(Double smoothingValue) throws ParameterValueException { float f = (float) smoothingValue.doubleValue(); if (smoothingValue < 0 || smoothingValue > 100) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesReque... | IsochronesRequestHandler extends GenericHandler { Float convertSmoothing(Double smoothingValue) throws ParameterValueException { float f = (float) smoothingValue.doubleValue(); if (smoothingValue < 0 || smoothingValue > 100) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesReque... | IsochronesRequestHandler extends GenericHandler { Float convertSmoothing(Double smoothingValue) throws ParameterValueException { float f = (float) smoothingValue.doubleValue(); if (smoothingValue < 0 || smoothingValue > 100) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesReque... | IsochronesRequestHandler extends GenericHandler { Float convertSmoothing(Double smoothingValue) throws ParameterValueException { float f = (float) smoothingValue.doubleValue(); if (smoothingValue < 0 || smoothingValue > 100) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesReque... |
@Test(expected = ParameterValueException.class) public void convertSmoothingFailWhenTooLow() throws ParameterValueException { handler.convertSmoothing(-5.0); } | Float convertSmoothing(Double smoothingValue) throws ParameterValueException { float f = (float) smoothingValue.doubleValue(); if (smoothingValue < 0 || smoothingValue > 100) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_SMOOTHING, smoothingValue.toString()); re... | IsochronesRequestHandler extends GenericHandler { Float convertSmoothing(Double smoothingValue) throws ParameterValueException { float f = (float) smoothingValue.doubleValue(); if (smoothingValue < 0 || smoothingValue > 100) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesReque... | IsochronesRequestHandler extends GenericHandler { Float convertSmoothing(Double smoothingValue) throws ParameterValueException { float f = (float) smoothingValue.doubleValue(); if (smoothingValue < 0 || smoothingValue > 100) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesReque... | IsochronesRequestHandler extends GenericHandler { Float convertSmoothing(Double smoothingValue) throws ParameterValueException { float f = (float) smoothingValue.doubleValue(); if (smoothingValue < 0 || smoothingValue > 100) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesReque... | IsochronesRequestHandler extends GenericHandler { Float convertSmoothing(Double smoothingValue) throws ParameterValueException { float f = (float) smoothingValue.doubleValue(); if (smoothingValue < 0 || smoothingValue > 100) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesReque... |
@Test public void convertLocationType() throws ParameterValueException { String locationType = handler.convertLocationType(IsochronesRequestEnums.LocationType.DESTINATION); Assert.assertEquals("destination", locationType); locationType = handler.convertLocationType(IsochronesRequestEnums.LocationType.START); Assert.ass... | String convertLocationType(IsochronesRequestEnums.LocationType locationType) throws ParameterValueException { IsochronesRequestEnums.LocationType value; switch (locationType) { case DESTINATION: value = IsochronesRequestEnums.LocationType.DESTINATION; break; case START: value = IsochronesRequestEnums.LocationType.START... | IsochronesRequestHandler extends GenericHandler { String convertLocationType(IsochronesRequestEnums.LocationType locationType) throws ParameterValueException { IsochronesRequestEnums.LocationType value; switch (locationType) { case DESTINATION: value = IsochronesRequestEnums.LocationType.DESTINATION; break; case START:... | IsochronesRequestHandler extends GenericHandler { String convertLocationType(IsochronesRequestEnums.LocationType locationType) throws ParameterValueException { IsochronesRequestEnums.LocationType value; switch (locationType) { case DESTINATION: value = IsochronesRequestEnums.LocationType.DESTINATION; break; case START:... | IsochronesRequestHandler extends GenericHandler { String convertLocationType(IsochronesRequestEnums.LocationType locationType) throws ParameterValueException { IsochronesRequestEnums.LocationType value; switch (locationType) { case DESTINATION: value = IsochronesRequestEnums.LocationType.DESTINATION; break; case START:... | IsochronesRequestHandler extends GenericHandler { String convertLocationType(IsochronesRequestEnums.LocationType locationType) throws ParameterValueException { IsochronesRequestEnums.LocationType value; switch (locationType) { case DESTINATION: value = IsochronesRequestEnums.LocationType.DESTINATION; break; case START:... |
@Test public void convertRangeType() throws ParameterValueException { TravelRangeType rangeType = handler.convertRangeType(IsochronesRequestEnums.RangeType.DISTANCE); Assert.assertEquals(TravelRangeType.DISTANCE, rangeType); rangeType = handler.convertRangeType(IsochronesRequestEnums.RangeType.TIME); Assert.assertEqual... | TravelRangeType convertRangeType(IsochronesRequestEnums.RangeType rangeType) throws ParameterValueException { TravelRangeType travelRangeType; switch (rangeType) { case DISTANCE: travelRangeType = TravelRangeType.DISTANCE; break; case TIME: travelRangeType = TravelRangeType.TIME; break; default: throw new ParameterValu... | IsochronesRequestHandler extends GenericHandler { TravelRangeType convertRangeType(IsochronesRequestEnums.RangeType rangeType) throws ParameterValueException { TravelRangeType travelRangeType; switch (rangeType) { case DISTANCE: travelRangeType = TravelRangeType.DISTANCE; break; case TIME: travelRangeType = TravelRange... | IsochronesRequestHandler extends GenericHandler { TravelRangeType convertRangeType(IsochronesRequestEnums.RangeType rangeType) throws ParameterValueException { TravelRangeType travelRangeType; switch (rangeType) { case DISTANCE: travelRangeType = TravelRangeType.DISTANCE; break; case TIME: travelRangeType = TravelRange... | IsochronesRequestHandler extends GenericHandler { TravelRangeType convertRangeType(IsochronesRequestEnums.RangeType rangeType) throws ParameterValueException { TravelRangeType travelRangeType; switch (rangeType) { case DISTANCE: travelRangeType = TravelRangeType.DISTANCE; break; case TIME: travelRangeType = TravelRange... | IsochronesRequestHandler extends GenericHandler { TravelRangeType convertRangeType(IsochronesRequestEnums.RangeType rangeType) throws ParameterValueException { TravelRangeType travelRangeType; switch (rangeType) { case DISTANCE: travelRangeType = TravelRangeType.DISTANCE; break; case TIME: travelRangeType = TravelRange... |
@Test public void convertAreaUnit() throws ParameterValueException { String unit = handler.convertAreaUnit(APIEnums.Units.KILOMETRES); Assert.assertEquals("km", unit); unit = handler.convertAreaUnit(APIEnums.Units.METRES); Assert.assertEquals("m", unit); unit = handler.convertAreaUnit(APIEnums.Units.MILES); Assert.asse... | String convertAreaUnit(APIEnums.Units unitsIn) throws ParameterValueException { DistanceUnit areaUnit; try { areaUnit = DistanceUnitUtil.getFromString(unitsIn.toString(), DistanceUnit.UNKNOWN); if (areaUnit == DistanceUnit.UNKNOWN) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, Isochron... | IsochronesRequestHandler extends GenericHandler { String convertAreaUnit(APIEnums.Units unitsIn) throws ParameterValueException { DistanceUnit areaUnit; try { areaUnit = DistanceUnitUtil.getFromString(unitsIn.toString(), DistanceUnit.UNKNOWN); if (areaUnit == DistanceUnit.UNKNOWN) throw new ParameterValueException(Isoc... | IsochronesRequestHandler extends GenericHandler { String convertAreaUnit(APIEnums.Units unitsIn) throws ParameterValueException { DistanceUnit areaUnit; try { areaUnit = DistanceUnitUtil.getFromString(unitsIn.toString(), DistanceUnit.UNKNOWN); if (areaUnit == DistanceUnit.UNKNOWN) throw new ParameterValueException(Isoc... | IsochronesRequestHandler extends GenericHandler { String convertAreaUnit(APIEnums.Units unitsIn) throws ParameterValueException { DistanceUnit areaUnit; try { areaUnit = DistanceUnitUtil.getFromString(unitsIn.toString(), DistanceUnit.UNKNOWN); if (areaUnit == DistanceUnit.UNKNOWN) throw new ParameterValueException(Isoc... | IsochronesRequestHandler extends GenericHandler { String convertAreaUnit(APIEnums.Units unitsIn) throws ParameterValueException { DistanceUnit areaUnit; try { areaUnit = DistanceUnitUtil.getFromString(unitsIn.toString(), DistanceUnit.UNKNOWN); if (areaUnit == DistanceUnit.UNKNOWN) throw new ParameterValueException(Isoc... |
@Test public void convertRangeUnit() throws ParameterValueException { String unit = handler.convertRangeUnit(APIEnums.Units.KILOMETRES); Assert.assertEquals("km", unit); unit = handler.convertRangeUnit(APIEnums.Units.METRES); Assert.assertEquals("m", unit); unit = handler.convertRangeUnit(APIEnums.Units.MILES); Assert.... | String convertRangeUnit(APIEnums.Units unitsIn) throws ParameterValueException { DistanceUnit units; try { units = DistanceUnitUtil.getFromString(unitsIn.toString(), DistanceUnit.UNKNOWN); if (units == DistanceUnit.UNKNOWN) throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesReques... | IsochronesRequestHandler extends GenericHandler { String convertRangeUnit(APIEnums.Units unitsIn) throws ParameterValueException { DistanceUnit units; try { units = DistanceUnitUtil.getFromString(unitsIn.toString(), DistanceUnit.UNKNOWN); if (units == DistanceUnit.UNKNOWN) throw new ParameterValueException(IsochronesEr... | IsochronesRequestHandler extends GenericHandler { String convertRangeUnit(APIEnums.Units unitsIn) throws ParameterValueException { DistanceUnit units; try { units = DistanceUnitUtil.getFromString(unitsIn.toString(), DistanceUnit.UNKNOWN); if (units == DistanceUnit.UNKNOWN) throw new ParameterValueException(IsochronesEr... | IsochronesRequestHandler extends GenericHandler { String convertRangeUnit(APIEnums.Units unitsIn) throws ParameterValueException { DistanceUnit units; try { units = DistanceUnitUtil.getFromString(unitsIn.toString(), DistanceUnit.UNKNOWN); if (units == DistanceUnit.UNKNOWN) throw new ParameterValueException(IsochronesEr... | IsochronesRequestHandler extends GenericHandler { String convertRangeUnit(APIEnums.Units unitsIn) throws ParameterValueException { DistanceUnit units; try { units = DistanceUnitUtil.getFromString(unitsIn.toString(), DistanceUnit.UNKNOWN); if (units == DistanceUnit.UNKNOWN) throw new ParameterValueException(IsochronesEr... |
@Test public void convertSingleCoordinate() throws ParameterValueException { Coordinate coord = handler.convertSingleCoordinate(new Double[]{123.4, 321.0}); Assert.assertEquals(123.4, coord.x, 0.0001); Assert.assertEquals(321.0, coord.y, 0.0001); } | Coordinate convertSingleCoordinate(Double[] coordinate) throws ParameterValueException { Coordinate realCoordinate; if (coordinate.length != 2) { throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_LOCATIONS); } try { realCoordinate = new Coordinate(coordinate[0], coo... | IsochronesRequestHandler extends GenericHandler { Coordinate convertSingleCoordinate(Double[] coordinate) throws ParameterValueException { Coordinate realCoordinate; if (coordinate.length != 2) { throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_LOCATIONS); } try { ... | IsochronesRequestHandler extends GenericHandler { Coordinate convertSingleCoordinate(Double[] coordinate) throws ParameterValueException { Coordinate realCoordinate; if (coordinate.length != 2) { throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_LOCATIONS); } try { ... | IsochronesRequestHandler extends GenericHandler { Coordinate convertSingleCoordinate(Double[] coordinate) throws ParameterValueException { Coordinate realCoordinate; if (coordinate.length != 2) { throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_LOCATIONS); } try { ... | IsochronesRequestHandler extends GenericHandler { Coordinate convertSingleCoordinate(Double[] coordinate) throws ParameterValueException { Coordinate realCoordinate; if (coordinate.length != 2) { throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_LOCATIONS); } try { ... |
@Test(expected = ParameterValueException.class) public void convertSingleCoordinateInvalidLengthShort() throws ParameterValueException { handler.convertSingleCoordinate(new Double[]{123.4}); } | Coordinate convertSingleCoordinate(Double[] coordinate) throws ParameterValueException { Coordinate realCoordinate; if (coordinate.length != 2) { throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_LOCATIONS); } try { realCoordinate = new Coordinate(coordinate[0], coo... | IsochronesRequestHandler extends GenericHandler { Coordinate convertSingleCoordinate(Double[] coordinate) throws ParameterValueException { Coordinate realCoordinate; if (coordinate.length != 2) { throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_LOCATIONS); } try { ... | IsochronesRequestHandler extends GenericHandler { Coordinate convertSingleCoordinate(Double[] coordinate) throws ParameterValueException { Coordinate realCoordinate; if (coordinate.length != 2) { throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_LOCATIONS); } try { ... | IsochronesRequestHandler extends GenericHandler { Coordinate convertSingleCoordinate(Double[] coordinate) throws ParameterValueException { Coordinate realCoordinate; if (coordinate.length != 2) { throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_LOCATIONS); } try { ... | IsochronesRequestHandler extends GenericHandler { Coordinate convertSingleCoordinate(Double[] coordinate) throws ParameterValueException { Coordinate realCoordinate; if (coordinate.length != 2) { throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_LOCATIONS); } try { ... |
@Test(expected = ParameterValueException.class) public void convertSingleCoordinateInvalidLengthLong() throws ParameterValueException { handler.convertSingleCoordinate(new Double[]{123.4, 123.4, 123.4}); } | Coordinate convertSingleCoordinate(Double[] coordinate) throws ParameterValueException { Coordinate realCoordinate; if (coordinate.length != 2) { throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_LOCATIONS); } try { realCoordinate = new Coordinate(coordinate[0], coo... | IsochronesRequestHandler extends GenericHandler { Coordinate convertSingleCoordinate(Double[] coordinate) throws ParameterValueException { Coordinate realCoordinate; if (coordinate.length != 2) { throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_LOCATIONS); } try { ... | IsochronesRequestHandler extends GenericHandler { Coordinate convertSingleCoordinate(Double[] coordinate) throws ParameterValueException { Coordinate realCoordinate; if (coordinate.length != 2) { throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_LOCATIONS); } try { ... | IsochronesRequestHandler extends GenericHandler { Coordinate convertSingleCoordinate(Double[] coordinate) throws ParameterValueException { Coordinate realCoordinate; if (coordinate.length != 2) { throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_LOCATIONS); } try { ... | IsochronesRequestHandler extends GenericHandler { Coordinate convertSingleCoordinate(Double[] coordinate) throws ParameterValueException { Coordinate realCoordinate; if (coordinate.length != 2) { throw new ParameterValueException(IsochronesErrorCodes.INVALID_PARAMETER_VALUE, IsochronesRequest.PARAM_LOCATIONS); } try { ... |
@Test public void setRangeAndIntervals() throws ParameterValueException { TravellerInfo info = new TravellerInfo(); List<Double> rangeValues = new ArrayList<>(); rangeValues.add(20.0); double intervalValue = 10; handler.setRangeAndIntervals(info, rangeValues, intervalValue); Assert.assertEquals(10.0, info.getRanges()[0... | void setRangeAndIntervals(TravellerInfo travellerInfo, List<Double> rangeValues, Double intervalValue) throws ParameterValueException { double rangeValue = -1; if (rangeValues.size() == 1) { try { rangeValue = rangeValues.get(0); travellerInfo.setRanges(new double[]{rangeValue}); } catch (NumberFormatException ex) { th... | IsochronesRequestHandler extends GenericHandler { void setRangeAndIntervals(TravellerInfo travellerInfo, List<Double> rangeValues, Double intervalValue) throws ParameterValueException { double rangeValue = -1; if (rangeValues.size() == 1) { try { rangeValue = rangeValues.get(0); travellerInfo.setRanges(new double[]{ran... | IsochronesRequestHandler extends GenericHandler { void setRangeAndIntervals(TravellerInfo travellerInfo, List<Double> rangeValues, Double intervalValue) throws ParameterValueException { double rangeValue = -1; if (rangeValues.size() == 1) { try { rangeValue = rangeValues.get(0); travellerInfo.setRanges(new double[]{ran... | IsochronesRequestHandler extends GenericHandler { void setRangeAndIntervals(TravellerInfo travellerInfo, List<Double> rangeValues, Double intervalValue) throws ParameterValueException { double rangeValue = -1; if (rangeValues.size() == 1) { try { rangeValue = rangeValues.get(0); travellerInfo.setRanges(new double[]{ran... | IsochronesRequestHandler extends GenericHandler { void setRangeAndIntervals(TravellerInfo travellerInfo, List<Double> rangeValues, Double intervalValue) throws ParameterValueException { double rangeValue = -1; if (rangeValues.size() == 1) { try { rangeValue = rangeValues.get(0); travellerInfo.setRanges(new double[]{ran... |
@Test public void TestInitiallyNotProcessed() { assertFalse(way.hasWayBeenFullyProcessed()); } | @Override public boolean hasWayBeenFullyProcessed() { return hasBeenProcessed; } | WheelchairSeparateWay extends PedestrianWay { @Override public boolean hasWayBeenFullyProcessed() { return hasBeenProcessed; } } | WheelchairSeparateWay extends PedestrianWay { @Override public boolean hasWayBeenFullyProcessed() { return hasBeenProcessed; } WheelchairSeparateWay(ReaderWay way); } | WheelchairSeparateWay extends PedestrianWay { @Override public boolean hasWayBeenFullyProcessed() { return hasBeenProcessed; } WheelchairSeparateWay(ReaderWay way); @Override boolean hasWayBeenFullyProcessed(); @Override void prepare(); } | WheelchairSeparateWay extends PedestrianWay { @Override public boolean hasWayBeenFullyProcessed() { return hasBeenProcessed; } WheelchairSeparateWay(ReaderWay way); @Override boolean hasWayBeenFullyProcessed(); @Override void prepare(); } |
@Test public void TestDetectControlledBorder() { VirtualEdgeIteratorState ve1 = generateEdge(1); VirtualEdgeIteratorState ve2 = generateEdge(2); VirtualEdgeIteratorState ve3 = generateEdge(3); BordersExtractor be = new BordersExtractor(_graphstorage, new int[0]); assertEquals(true, be.isControlledBorder(1)); assertEqua... | public boolean isControlledBorder(int edgeId) { return storage.getEdgeValue(edgeId, BordersGraphStorage.Property.TYPE) == BordersGraphStorage.CONTROLLED_BORDER; } | BordersExtractor { public boolean isControlledBorder(int edgeId) { return storage.getEdgeValue(edgeId, BordersGraphStorage.Property.TYPE) == BordersGraphStorage.CONTROLLED_BORDER; } } | BordersExtractor { public boolean isControlledBorder(int edgeId) { return storage.getEdgeValue(edgeId, BordersGraphStorage.Property.TYPE) == BordersGraphStorage.CONTROLLED_BORDER; } BordersExtractor(BordersGraphStorage storage, int[] avoidCountries); } | BordersExtractor { public boolean isControlledBorder(int edgeId) { return storage.getEdgeValue(edgeId, BordersGraphStorage.Property.TYPE) == BordersGraphStorage.CONTROLLED_BORDER; } BordersExtractor(BordersGraphStorage storage, int[] avoidCountries); int getValue(int edgeId); boolean isBorder(int edgeId); boolean isCon... | BordersExtractor { public boolean isControlledBorder(int edgeId) { return storage.getEdgeValue(edgeId, BordersGraphStorage.Property.TYPE) == BordersGraphStorage.CONTROLLED_BORDER; } BordersExtractor(BordersGraphStorage storage, int[] avoidCountries); int getValue(int edgeId); boolean isBorder(int edgeId); boolean isCon... |
@Test public void convertAttributes() { IsochronesRequestEnums.Attributes[] atts = new IsochronesRequestEnums.Attributes[]{IsochronesRequestEnums.Attributes.AREA, IsochronesRequestEnums.Attributes.REACH_FACTOR, IsochronesRequestEnums.Attributes.TOTAL_POPULATION}; String[] attStr = handler.convertAttributes(atts); Asser... | String[] convertAttributes(IsochronesRequestEnums.Attributes[] attributes) { return convertAPIEnumListToStrings(attributes); } | IsochronesRequestHandler extends GenericHandler { String[] convertAttributes(IsochronesRequestEnums.Attributes[] attributes) { return convertAPIEnumListToStrings(attributes); } } | IsochronesRequestHandler extends GenericHandler { String[] convertAttributes(IsochronesRequestEnums.Attributes[] attributes) { return convertAPIEnumListToStrings(attributes); } IsochronesRequestHandler(); } | IsochronesRequestHandler extends GenericHandler { String[] convertAttributes(IsochronesRequestEnums.Attributes[] attributes) { return convertAPIEnumListToStrings(attributes); } IsochronesRequestHandler(); void generateIsochronesFromRequest(IsochronesRequest request); IsochroneMapCollection getIsoMaps(); IsochroneReques... | IsochronesRequestHandler extends GenericHandler { String[] convertAttributes(IsochronesRequestEnums.Attributes[] attributes) { return convertAPIEnumListToStrings(attributes); } IsochronesRequestHandler(); void generateIsochronesFromRequest(IsochronesRequest request); IsochroneMapCollection getIsoMaps(); IsochroneReques... |
@Test public void convertCalcMethod() throws ParameterValueException { String calcMethod = handler.convertCalcMethod(IsochronesRequestEnums.CalculationMethod.CONCAVE_BALLS); Assert.assertEquals("concaveballs", calcMethod); calcMethod = handler.convertCalcMethod(IsochronesRequestEnums.CalculationMethod.GRID); Assert.ass... | String convertCalcMethod(IsochronesRequestEnums.CalculationMethod bareCalcMethod) throws ParameterValueException { try { switch (bareCalcMethod) { case CONCAVE_BALLS: return "concaveballs"; case GRID: return "grid"; case FASTISOCHRONE: return "fastisochrone"; default: return "none"; } } catch (Exception ex) { throw new... | IsochronesRequestHandler extends GenericHandler { String convertCalcMethod(IsochronesRequestEnums.CalculationMethod bareCalcMethod) throws ParameterValueException { try { switch (bareCalcMethod) { case CONCAVE_BALLS: return "concaveballs"; case GRID: return "grid"; case FASTISOCHRONE: return "fastisochrone"; default: r... | IsochronesRequestHandler extends GenericHandler { String convertCalcMethod(IsochronesRequestEnums.CalculationMethod bareCalcMethod) throws ParameterValueException { try { switch (bareCalcMethod) { case CONCAVE_BALLS: return "concaveballs"; case GRID: return "grid"; case FASTISOCHRONE: return "fastisochrone"; default: r... | IsochronesRequestHandler extends GenericHandler { String convertCalcMethod(IsochronesRequestEnums.CalculationMethod bareCalcMethod) throws ParameterValueException { try { switch (bareCalcMethod) { case CONCAVE_BALLS: return "concaveballs"; case GRID: return "grid"; case FASTISOCHRONE: return "fastisochrone"; default: r... | IsochronesRequestHandler extends GenericHandler { String convertCalcMethod(IsochronesRequestEnums.CalculationMethod bareCalcMethod) throws ParameterValueException { try { switch (bareCalcMethod) { case CONCAVE_BALLS: return "concaveballs"; case GRID: return "grid"; case FASTISOCHRONE: return "fastisochrone"; default: r... |
@Test public void convertIsochroneRequest() throws Exception { IsochronesRequest request = new IsochronesRequest(); Double[][] locations = {{9.676034, 50.409675}, {9.676034, 50.409675}}; Coordinate coord0 = new Coordinate(); coord0.x = 9.676034; coord0.y = 50.409675; request.setLocations(locations); request.setProfile(... | IsochroneRequest convertIsochroneRequest(IsochronesRequest request) throws Exception { IsochroneRequest convertedIsochroneRequest = new IsochroneRequest(); Double[][] locations = request.getLocations(); for (int i = 0; i < request.getLocations().length; i++) { Double[] location = locations[i]; TravellerInfo travellerIn... | IsochronesRequestHandler extends GenericHandler { IsochroneRequest convertIsochroneRequest(IsochronesRequest request) throws Exception { IsochroneRequest convertedIsochroneRequest = new IsochroneRequest(); Double[][] locations = request.getLocations(); for (int i = 0; i < request.getLocations().length; i++) { Double[] ... | IsochronesRequestHandler extends GenericHandler { IsochroneRequest convertIsochroneRequest(IsochronesRequest request) throws Exception { IsochroneRequest convertedIsochroneRequest = new IsochroneRequest(); Double[][] locations = request.getLocations(); for (int i = 0; i < request.getLocations().length; i++) { Double[] ... | IsochronesRequestHandler extends GenericHandler { IsochroneRequest convertIsochroneRequest(IsochronesRequest request) throws Exception { IsochroneRequest convertedIsochroneRequest = new IsochroneRequest(); Double[][] locations = request.getLocations(); for (int i = 0; i < request.getLocations().length; i++) { Double[] ... | IsochronesRequestHandler extends GenericHandler { IsochroneRequest convertIsochroneRequest(IsochronesRequest request) throws Exception { IsochroneRequest convertedIsochroneRequest = new IsochroneRequest(); Double[][] locations = request.getLocations(); for (int i = 0; i < request.getLocations().length; i++) { Double[] ... |
@Test public void constructTravellerInfo() throws Exception { Double[][] coordinates = {{1.0, 3.0}, {1.0, 3.0}}; Double[] coordinate = {1.0, 3.0}; Coordinate realCoordinate = new Coordinate(); realCoordinate.x = 1.0; realCoordinate.y = 3.0; IsochronesRequest request = new IsochronesRequest(); request.setProfile(APIEnum... | TravellerInfo constructTravellerInfo(Double[] coordinate, IsochronesRequest request) throws Exception { TravellerInfo travellerInfo = new TravellerInfo(); RouteSearchParameters routeSearchParameters = constructRouteSearchParameters(request); travellerInfo.setRouteSearchParameters(routeSearchParameters); if (request.has... | IsochronesRequestHandler extends GenericHandler { TravellerInfo constructTravellerInfo(Double[] coordinate, IsochronesRequest request) throws Exception { TravellerInfo travellerInfo = new TravellerInfo(); RouteSearchParameters routeSearchParameters = constructRouteSearchParameters(request); travellerInfo.setRouteSearch... | IsochronesRequestHandler extends GenericHandler { TravellerInfo constructTravellerInfo(Double[] coordinate, IsochronesRequest request) throws Exception { TravellerInfo travellerInfo = new TravellerInfo(); RouteSearchParameters routeSearchParameters = constructRouteSearchParameters(request); travellerInfo.setRouteSearch... | IsochronesRequestHandler extends GenericHandler { TravellerInfo constructTravellerInfo(Double[] coordinate, IsochronesRequest request) throws Exception { TravellerInfo travellerInfo = new TravellerInfo(); RouteSearchParameters routeSearchParameters = constructRouteSearchParameters(request); travellerInfo.setRouteSearch... | IsochronesRequestHandler extends GenericHandler { TravellerInfo constructTravellerInfo(Double[] coordinate, IsochronesRequest request) throws Exception { TravellerInfo travellerInfo = new TravellerInfo(); RouteSearchParameters routeSearchParameters = constructRouteSearchParameters(request); travellerInfo.setRouteSearch... |
@Test public void constructRouteSearchParametersTest() throws Exception { Double[][] coordinates = {{1.0, 3.0}, {1.0, 3.0}}; IsochronesRequestHandler isochronesRequestHandler = new IsochronesRequestHandler(); IsochronesRequest request = new IsochronesRequest(); request.setProfile(APIEnums.Profile.DRIVING_CAR); request.... | RouteSearchParameters constructRouteSearchParameters(IsochronesRequest request) throws Exception { RouteSearchParameters routeSearchParameters = new RouteSearchParameters(); int profileType; try { profileType = convertToIsochronesProfileType(request.getProfile()); } catch (Exception e) { throw new ParameterValueExcepti... | IsochronesRequestHandler extends GenericHandler { RouteSearchParameters constructRouteSearchParameters(IsochronesRequest request) throws Exception { RouteSearchParameters routeSearchParameters = new RouteSearchParameters(); int profileType; try { profileType = convertToIsochronesProfileType(request.getProfile()); } cat... | IsochronesRequestHandler extends GenericHandler { RouteSearchParameters constructRouteSearchParameters(IsochronesRequest request) throws Exception { RouteSearchParameters routeSearchParameters = new RouteSearchParameters(); int profileType; try { profileType = convertToIsochronesProfileType(request.getProfile()); } cat... | IsochronesRequestHandler extends GenericHandler { RouteSearchParameters constructRouteSearchParameters(IsochronesRequest request) throws Exception { RouteSearchParameters routeSearchParameters = new RouteSearchParameters(); int profileType; try { profileType = convertToIsochronesProfileType(request.getProfile()); } cat... | IsochronesRequestHandler extends GenericHandler { RouteSearchParameters constructRouteSearchParameters(IsochronesRequest request) throws Exception { RouteSearchParameters routeSearchParameters = new RouteSearchParameters(); int profileType; try { profileType = convertToIsochronesProfileType(request.getProfile()); } cat... |
@Test public void processIsochronesRequestOptionsTest() throws Exception { IsochronesRequestHandler isochronesRequestHandler = new IsochronesRequestHandler(); RouteSearchParameters routeSearchParameters = isochronesRequestHandler.constructRouteSearchParameters(request); Assert.assertEquals(RoutingProfileType.DRIVING_CA... | RouteSearchParameters processIsochronesRequestOptions(IsochronesRequest request, RouteSearchParameters parameters) throws StatusCodeException { RouteRequestOptions options = request.getIsochronesOptions(); parameters = new RouteRequestHandler().processRequestOptions(options, parameters); if (options.hasProfileParams())... | IsochronesRequestHandler extends GenericHandler { RouteSearchParameters processIsochronesRequestOptions(IsochronesRequest request, RouteSearchParameters parameters) throws StatusCodeException { RouteRequestOptions options = request.getIsochronesOptions(); parameters = new RouteRequestHandler().processRequestOptions(opt... | IsochronesRequestHandler extends GenericHandler { RouteSearchParameters processIsochronesRequestOptions(IsochronesRequest request, RouteSearchParameters parameters) throws StatusCodeException { RouteRequestOptions options = request.getIsochronesOptions(); parameters = new RouteRequestHandler().processRequestOptions(opt... | IsochronesRequestHandler extends GenericHandler { RouteSearchParameters processIsochronesRequestOptions(IsochronesRequest request, RouteSearchParameters parameters) throws StatusCodeException { RouteRequestOptions options = request.getIsochronesOptions(); parameters = new RouteRequestHandler().processRequestOptions(opt... | IsochronesRequestHandler extends GenericHandler { RouteSearchParameters processIsochronesRequestOptions(IsochronesRequest request, RouteSearchParameters parameters) throws StatusCodeException { RouteRequestOptions options = request.getIsochronesOptions(); parameters = new RouteRequestHandler().processRequestOptions(opt... |
@Test public void getIsoMapsTest() { IsochronesRequestHandler isochronesRequestHandler = new IsochronesRequestHandler(); Assert.assertNull(isochronesRequestHandler.getIsoMaps()); } | public IsochroneMapCollection getIsoMaps() { return isoMaps; } | IsochronesRequestHandler extends GenericHandler { public IsochroneMapCollection getIsoMaps() { return isoMaps; } } | IsochronesRequestHandler extends GenericHandler { public IsochroneMapCollection getIsoMaps() { return isoMaps; } IsochronesRequestHandler(); } | IsochronesRequestHandler extends GenericHandler { public IsochroneMapCollection getIsoMaps() { return isoMaps; } IsochronesRequestHandler(); void generateIsochronesFromRequest(IsochronesRequest request); IsochroneMapCollection getIsoMaps(); IsochroneRequest getIsochroneRequest(); } | IsochronesRequestHandler extends GenericHandler { public IsochroneMapCollection getIsoMaps() { return isoMaps; } IsochronesRequestHandler(); void generateIsochronesFromRequest(IsochronesRequest request); IsochroneMapCollection getIsoMaps(); IsochroneRequest getIsochroneRequest(); } |
@Test public void getIsochroneRequestTest() { IsochronesRequestHandler isochronesRequestHandler = new IsochronesRequestHandler(); Assert.assertNull(isochronesRequestHandler.getIsochroneRequest()); } | public IsochroneRequest getIsochroneRequest() { return isochroneRequest; } | IsochronesRequestHandler extends GenericHandler { public IsochroneRequest getIsochroneRequest() { return isochroneRequest; } } | IsochronesRequestHandler extends GenericHandler { public IsochroneRequest getIsochroneRequest() { return isochroneRequest; } IsochronesRequestHandler(); } | IsochronesRequestHandler extends GenericHandler { public IsochroneRequest getIsochroneRequest() { return isochroneRequest; } IsochronesRequestHandler(); void generateIsochronesFromRequest(IsochronesRequest request); IsochroneMapCollection getIsoMaps(); IsochroneRequest getIsochroneRequest(); } | IsochronesRequestHandler extends GenericHandler { public IsochroneRequest getIsochroneRequest() { return isochroneRequest; } IsochronesRequestHandler(); void generateIsochronesFromRequest(IsochronesRequest request); IsochroneMapCollection getIsoMaps(); IsochroneRequest getIsochroneRequest(); } |
@Test public void convertAPIEnumListToStrings() { String[] strVals = handler.convertAPIEnumListToStrings(new APIEnums.ExtraInfo[] {APIEnums.ExtraInfo.STEEPNESS, APIEnums.ExtraInfo.SURFACE}); Assert.assertEquals(2, strVals.length); Assert.assertEquals("steepness", strVals[0]); Assert.assertEquals("surface", strVals[1]);... | protected String[] convertAPIEnumListToStrings(Enum[] valuesIn) { String[] attributes = new String[valuesIn.length]; for (int i = 0; i < valuesIn.length; i++) { attributes[i] = convertAPIEnum(valuesIn[i]); } return attributes; } | GenericHandler { protected String[] convertAPIEnumListToStrings(Enum[] valuesIn) { String[] attributes = new String[valuesIn.length]; for (int i = 0; i < valuesIn.length; i++) { attributes[i] = convertAPIEnum(valuesIn[i]); } return attributes; } } | GenericHandler { protected String[] convertAPIEnumListToStrings(Enum[] valuesIn) { String[] attributes = new String[valuesIn.length]; for (int i = 0; i < valuesIn.length; i++) { attributes[i] = convertAPIEnum(valuesIn[i]); } return attributes; } GenericHandler(); } | GenericHandler { protected String[] convertAPIEnumListToStrings(Enum[] valuesIn) { String[] attributes = new String[valuesIn.length]; for (int i = 0; i < valuesIn.length; i++) { attributes[i] = convertAPIEnum(valuesIn[i]); } return attributes; } GenericHandler(); } | GenericHandler { protected String[] convertAPIEnumListToStrings(Enum[] valuesIn) { String[] attributes = new String[valuesIn.length]; for (int i = 0; i < valuesIn.length; i++) { attributes[i] = convertAPIEnum(valuesIn[i]); } return attributes; } GenericHandler(); static final String KEY_PROFILE; } |
@Test public void convertAPIEnum() { String strVal = handler.convertAPIEnum(APIEnums.AvoidBorders.CONTROLLED); Assert.assertEquals("controlled", strVal); } | protected String convertAPIEnum(Enum valuesIn) { return valuesIn.toString(); } | GenericHandler { protected String convertAPIEnum(Enum valuesIn) { return valuesIn.toString(); } } | GenericHandler { protected String convertAPIEnum(Enum valuesIn) { return valuesIn.toString(); } GenericHandler(); } | GenericHandler { protected String convertAPIEnum(Enum valuesIn) { return valuesIn.toString(); } GenericHandler(); } | GenericHandler { protected String convertAPIEnum(Enum valuesIn) { return valuesIn.toString(); } GenericHandler(); static final String KEY_PROFILE; } |
@Test public void TestDetectSidewalkInfoFromTags() { ReaderWay way = new ReaderWay(1); way.setTag("sidewalk:left:surface", "asphalt"); assertTrue(processor.hasSidewalkInfo(way)); way = new ReaderWay(1); way.setTag("footway:right:width", "0.5"); assertTrue(processor.hasSidewalkInfo(way)); way = new ReaderWay(1); assertF... | protected boolean hasSidewalkInfo(ReaderWay way) { return identifySidesWhereSidewalkIsPresent(way) != Side.NONE; } | OSMAttachedSidewalkProcessor { protected boolean hasSidewalkInfo(ReaderWay way) { return identifySidesWhereSidewalkIsPresent(way) != Side.NONE; } } | OSMAttachedSidewalkProcessor { protected boolean hasSidewalkInfo(ReaderWay way) { return identifySidesWhereSidewalkIsPresent(way) != Side.NONE; } } | OSMAttachedSidewalkProcessor { protected boolean hasSidewalkInfo(ReaderWay way) { return identifySidesWhereSidewalkIsPresent(way) != Side.NONE; } ReaderWay attachSidewalkTag(ReaderWay way, Side side); Side getPreparedSide(ReaderWay way); } | OSMAttachedSidewalkProcessor { protected boolean hasSidewalkInfo(ReaderWay way) { return identifySidesWhereSidewalkIsPresent(way) != Side.NONE; } ReaderWay attachSidewalkTag(ReaderWay way, Side side); Side getPreparedSide(ReaderWay way); static final String KEY_ORS_SIDEWALK_SIDE; static final String VAL_RIGHT; static ... |
@Test public void convertVehicleType() throws IncompatibleParameterException { int type = handler.convertVehicleType(APIEnums.VehicleType.HGV, 2); Assert.assertEquals(2, type); } | protected int convertVehicleType(APIEnums.VehicleType vehicleTypeIn, int profileType) throws IncompatibleParameterException { if (!RoutingProfileType.isHeavyVehicle(profileType)) { throw new IncompatibleParameterException(getInvalidParameterValueErrorCode(), "vehicle_type", vehicleTypeIn.toString(), KEY_PROFILE, Routin... | GenericHandler { protected int convertVehicleType(APIEnums.VehicleType vehicleTypeIn, int profileType) throws IncompatibleParameterException { if (!RoutingProfileType.isHeavyVehicle(profileType)) { throw new IncompatibleParameterException(getInvalidParameterValueErrorCode(), "vehicle_type", vehicleTypeIn.toString(), KE... | GenericHandler { protected int convertVehicleType(APIEnums.VehicleType vehicleTypeIn, int profileType) throws IncompatibleParameterException { if (!RoutingProfileType.isHeavyVehicle(profileType)) { throw new IncompatibleParameterException(getInvalidParameterValueErrorCode(), "vehicle_type", vehicleTypeIn.toString(), KE... | GenericHandler { protected int convertVehicleType(APIEnums.VehicleType vehicleTypeIn, int profileType) throws IncompatibleParameterException { if (!RoutingProfileType.isHeavyVehicle(profileType)) { throw new IncompatibleParameterException(getInvalidParameterValueErrorCode(), "vehicle_type", vehicleTypeIn.toString(), KE... | GenericHandler { protected int convertVehicleType(APIEnums.VehicleType vehicleTypeIn, int profileType) throws IncompatibleParameterException { if (!RoutingProfileType.isHeavyVehicle(profileType)) { throw new IncompatibleParameterException(getInvalidParameterValueErrorCode(), "vehicle_type", vehicleTypeIn.toString(), KE... |
@Test(expected = IncompatibleParameterException.class) public void convertVehicleTypeError() throws IncompatibleParameterException { handler.convertVehicleType(APIEnums.VehicleType.HGV, 1); } | protected int convertVehicleType(APIEnums.VehicleType vehicleTypeIn, int profileType) throws IncompatibleParameterException { if (!RoutingProfileType.isHeavyVehicle(profileType)) { throw new IncompatibleParameterException(getInvalidParameterValueErrorCode(), "vehicle_type", vehicleTypeIn.toString(), KEY_PROFILE, Routin... | GenericHandler { protected int convertVehicleType(APIEnums.VehicleType vehicleTypeIn, int profileType) throws IncompatibleParameterException { if (!RoutingProfileType.isHeavyVehicle(profileType)) { throw new IncompatibleParameterException(getInvalidParameterValueErrorCode(), "vehicle_type", vehicleTypeIn.toString(), KE... | GenericHandler { protected int convertVehicleType(APIEnums.VehicleType vehicleTypeIn, int profileType) throws IncompatibleParameterException { if (!RoutingProfileType.isHeavyVehicle(profileType)) { throw new IncompatibleParameterException(getInvalidParameterValueErrorCode(), "vehicle_type", vehicleTypeIn.toString(), KE... | GenericHandler { protected int convertVehicleType(APIEnums.VehicleType vehicleTypeIn, int profileType) throws IncompatibleParameterException { if (!RoutingProfileType.isHeavyVehicle(profileType)) { throw new IncompatibleParameterException(getInvalidParameterValueErrorCode(), "vehicle_type", vehicleTypeIn.toString(), KE... | GenericHandler { protected int convertVehicleType(APIEnums.VehicleType vehicleTypeIn, int profileType) throws IncompatibleParameterException { if (!RoutingProfileType.isHeavyVehicle(profileType)) { throw new IncompatibleParameterException(getInvalidParameterValueErrorCode(), "vehicle_type", vehicleTypeIn.toString(), KE... |
@Test public void convertAvoidBorders() { BordersExtractor.Avoid avoid = handler.convertAvoidBorders(APIEnums.AvoidBorders.CONTROLLED); Assert.assertEquals(BordersExtractor.Avoid.CONTROLLED, avoid); avoid = handler.convertAvoidBorders(APIEnums.AvoidBorders.ALL); Assert.assertEquals(BordersExtractor.Avoid.ALL, avoid); a... | protected BordersExtractor.Avoid convertAvoidBorders(APIEnums.AvoidBorders avoidBorders) { if (avoidBorders != null) { switch (avoidBorders) { case ALL: return BordersExtractor.Avoid.ALL; case CONTROLLED: return BordersExtractor.Avoid.CONTROLLED; default: return BordersExtractor.Avoid.NONE; } } return null; } | GenericHandler { protected BordersExtractor.Avoid convertAvoidBorders(APIEnums.AvoidBorders avoidBorders) { if (avoidBorders != null) { switch (avoidBorders) { case ALL: return BordersExtractor.Avoid.ALL; case CONTROLLED: return BordersExtractor.Avoid.CONTROLLED; default: return BordersExtractor.Avoid.NONE; } } return ... | GenericHandler { protected BordersExtractor.Avoid convertAvoidBorders(APIEnums.AvoidBorders avoidBorders) { if (avoidBorders != null) { switch (avoidBorders) { case ALL: return BordersExtractor.Avoid.ALL; case CONTROLLED: return BordersExtractor.Avoid.CONTROLLED; default: return BordersExtractor.Avoid.NONE; } } return ... | GenericHandler { protected BordersExtractor.Avoid convertAvoidBorders(APIEnums.AvoidBorders avoidBorders) { if (avoidBorders != null) { switch (avoidBorders) { case ALL: return BordersExtractor.Avoid.ALL; case CONTROLLED: return BordersExtractor.Avoid.CONTROLLED; default: return BordersExtractor.Avoid.NONE; } } return ... | GenericHandler { protected BordersExtractor.Avoid convertAvoidBorders(APIEnums.AvoidBorders avoidBorders) { if (avoidBorders != null) { switch (avoidBorders) { case ALL: return BordersExtractor.Avoid.ALL; case CONTROLLED: return BordersExtractor.Avoid.CONTROLLED; default: return BordersExtractor.Avoid.NONE; } } return ... |
@Test public void convertRouteProfileType() { int type = handler.convertRouteProfileType(APIEnums.Profile.DRIVING_CAR); Assert.assertEquals(1, type); type = handler.convertRouteProfileType(APIEnums.Profile.FOOT_WALKING); Assert.assertEquals(20, type); } | protected int convertRouteProfileType(APIEnums.Profile profile) { return RoutingProfileType.getFromString(profile.toString()); } | GenericHandler { protected int convertRouteProfileType(APIEnums.Profile profile) { return RoutingProfileType.getFromString(profile.toString()); } } | GenericHandler { protected int convertRouteProfileType(APIEnums.Profile profile) { return RoutingProfileType.getFromString(profile.toString()); } GenericHandler(); } | GenericHandler { protected int convertRouteProfileType(APIEnums.Profile profile) { return RoutingProfileType.getFromString(profile.toString()); } GenericHandler(); } | GenericHandler { protected int convertRouteProfileType(APIEnums.Profile profile) { return RoutingProfileType.getFromString(profile.toString()); } GenericHandler(); static final String KEY_PROFILE; } |
@Test public void convertAvoidAreas() throws StatusCodeException { JSONObject geomJSON = new JSONObject(); geomJSON.put("type", "Polygon"); JSONArray poly = generateGeoJSONPolyCoords(); JSONArray coords = new JSONArray(); coords.add(0, poly); geomJSON.put("coordinates", coords); Polygon[] avoidAreas = handler.convertAv... | protected Polygon[] convertAvoidAreas(JSONObject geoJson, int profileType) throws StatusCodeException { org.json.JSONObject complexJson = new org.json.JSONObject(); complexJson.put("type", geoJson.get("type")); List<List<Double[]>> coordinates = (List<List<Double[]>>) geoJson.get("coordinates"); complexJson.put("coordi... | GenericHandler { protected Polygon[] convertAvoidAreas(JSONObject geoJson, int profileType) throws StatusCodeException { org.json.JSONObject complexJson = new org.json.JSONObject(); complexJson.put("type", geoJson.get("type")); List<List<Double[]>> coordinates = (List<List<Double[]>>) geoJson.get("coordinates"); comple... | GenericHandler { protected Polygon[] convertAvoidAreas(JSONObject geoJson, int profileType) throws StatusCodeException { org.json.JSONObject complexJson = new org.json.JSONObject(); complexJson.put("type", geoJson.get("type")); List<List<Double[]>> coordinates = (List<List<Double[]>>) geoJson.get("coordinates"); comple... | GenericHandler { protected Polygon[] convertAvoidAreas(JSONObject geoJson, int profileType) throws StatusCodeException { org.json.JSONObject complexJson = new org.json.JSONObject(); complexJson.put("type", geoJson.get("type")); List<List<Double[]>> coordinates = (List<List<Double[]>>) geoJson.get("coordinates"); comple... | GenericHandler { protected Polygon[] convertAvoidAreas(JSONObject geoJson, int profileType) throws StatusCodeException { org.json.JSONObject complexJson = new org.json.JSONObject(); complexJson.put("type", geoJson.get("type")); List<List<Double[]>> coordinates = (List<List<Double[]>>) geoJson.get("coordinates"); comple... |
@Test(expected = ParameterValueException.class) public void convertAvoidAreasInvalidType() throws StatusCodeException { JSONObject geomJSON = new JSONObject(); geomJSON.put("type", "LineString"); JSONArray poly = generateGeoJSONPolyCoords(); geomJSON.put("coordinates", poly); handler.convertAvoidAreas(geomJSON, 1); } | protected Polygon[] convertAvoidAreas(JSONObject geoJson, int profileType) throws StatusCodeException { org.json.JSONObject complexJson = new org.json.JSONObject(); complexJson.put("type", geoJson.get("type")); List<List<Double[]>> coordinates = (List<List<Double[]>>) geoJson.get("coordinates"); complexJson.put("coordi... | GenericHandler { protected Polygon[] convertAvoidAreas(JSONObject geoJson, int profileType) throws StatusCodeException { org.json.JSONObject complexJson = new org.json.JSONObject(); complexJson.put("type", geoJson.get("type")); List<List<Double[]>> coordinates = (List<List<Double[]>>) geoJson.get("coordinates"); comple... | GenericHandler { protected Polygon[] convertAvoidAreas(JSONObject geoJson, int profileType) throws StatusCodeException { org.json.JSONObject complexJson = new org.json.JSONObject(); complexJson.put("type", geoJson.get("type")); List<List<Double[]>> coordinates = (List<List<Double[]>>) geoJson.get("coordinates"); comple... | GenericHandler { protected Polygon[] convertAvoidAreas(JSONObject geoJson, int profileType) throws StatusCodeException { org.json.JSONObject complexJson = new org.json.JSONObject(); complexJson.put("type", geoJson.get("type")); List<List<Double[]>> coordinates = (List<List<Double[]>>) geoJson.get("coordinates"); comple... | GenericHandler { protected Polygon[] convertAvoidAreas(JSONObject geoJson, int profileType) throws StatusCodeException { org.json.JSONObject complexJson = new org.json.JSONObject(); complexJson.put("type", geoJson.get("type")); List<List<Double[]>> coordinates = (List<List<Double[]>>) geoJson.get("coordinates"); comple... |
@Test(expected = ParameterValueException.class) public void convertAvoidAreasInvalidFeature() throws StatusCodeException { JSONObject geomJSON = new JSONObject(); geomJSON.put("type", "Polygon"); JSONArray poly = generateGeoJSONPolyCoords(); geomJSON.put("coooooooooooordinates", poly); handler.convertAvoidAreas(geomJSO... | protected Polygon[] convertAvoidAreas(JSONObject geoJson, int profileType) throws StatusCodeException { org.json.JSONObject complexJson = new org.json.JSONObject(); complexJson.put("type", geoJson.get("type")); List<List<Double[]>> coordinates = (List<List<Double[]>>) geoJson.get("coordinates"); complexJson.put("coordi... | GenericHandler { protected Polygon[] convertAvoidAreas(JSONObject geoJson, int profileType) throws StatusCodeException { org.json.JSONObject complexJson = new org.json.JSONObject(); complexJson.put("type", geoJson.get("type")); List<List<Double[]>> coordinates = (List<List<Double[]>>) geoJson.get("coordinates"); comple... | GenericHandler { protected Polygon[] convertAvoidAreas(JSONObject geoJson, int profileType) throws StatusCodeException { org.json.JSONObject complexJson = new org.json.JSONObject(); complexJson.put("type", geoJson.get("type")); List<List<Double[]>> coordinates = (List<List<Double[]>>) geoJson.get("coordinates"); comple... | GenericHandler { protected Polygon[] convertAvoidAreas(JSONObject geoJson, int profileType) throws StatusCodeException { org.json.JSONObject complexJson = new org.json.JSONObject(); complexJson.put("type", geoJson.get("type")); List<List<Double[]>> coordinates = (List<List<Double[]>>) geoJson.get("coordinates"); comple... | GenericHandler { protected Polygon[] convertAvoidAreas(JSONObject geoJson, int profileType) throws StatusCodeException { org.json.JSONObject complexJson = new org.json.JSONObject(); complexJson.put("type", geoJson.get("type")); List<List<Double[]>> coordinates = (List<List<Double[]>>) geoJson.get("coordinates"); comple... |
@Test public void convertFeatureTypes() throws UnknownParameterValueException, IncompatibleParameterException { APIEnums.AvoidFeatures[] avoids = new APIEnums.AvoidFeatures[] { APIEnums.AvoidFeatures.FERRIES, APIEnums.AvoidFeatures.FORDS }; int converted = handler.convertFeatureTypes(avoids, 1); Assert.assertEquals(24,... | protected int convertFeatureTypes(APIEnums.AvoidFeatures[] avoidFeatures, int profileType) throws UnknownParameterValueException, IncompatibleParameterException { int flags = 0; for (APIEnums.AvoidFeatures avoid : avoidFeatures) { String avoidFeatureName = avoid.toString(); int flag = AvoidFeatureFlags.getFromString(av... | GenericHandler { protected int convertFeatureTypes(APIEnums.AvoidFeatures[] avoidFeatures, int profileType) throws UnknownParameterValueException, IncompatibleParameterException { int flags = 0; for (APIEnums.AvoidFeatures avoid : avoidFeatures) { String avoidFeatureName = avoid.toString(); int flag = AvoidFeatureFlags... | GenericHandler { protected int convertFeatureTypes(APIEnums.AvoidFeatures[] avoidFeatures, int profileType) throws UnknownParameterValueException, IncompatibleParameterException { int flags = 0; for (APIEnums.AvoidFeatures avoid : avoidFeatures) { String avoidFeatureName = avoid.toString(); int flag = AvoidFeatureFlags... | GenericHandler { protected int convertFeatureTypes(APIEnums.AvoidFeatures[] avoidFeatures, int profileType) throws UnknownParameterValueException, IncompatibleParameterException { int flags = 0; for (APIEnums.AvoidFeatures avoid : avoidFeatures) { String avoidFeatureName = avoid.toString(); int flag = AvoidFeatureFlags... | GenericHandler { protected int convertFeatureTypes(APIEnums.AvoidFeatures[] avoidFeatures, int profileType) throws UnknownParameterValueException, IncompatibleParameterException { int flags = 0; for (APIEnums.AvoidFeatures avoid : avoidFeatures) { String avoidFeatureName = avoid.toString(); int flag = AvoidFeatureFlags... |
@Test(expected = IncompatibleParameterException.class) public void convertFeatureTypesIncompatible() throws UnknownParameterValueException, IncompatibleParameterException { APIEnums.AvoidFeatures[] avoids = new APIEnums.AvoidFeatures[] { APIEnums.AvoidFeatures.STEPS}; handler.convertFeatureTypes(avoids, 1); } | protected int convertFeatureTypes(APIEnums.AvoidFeatures[] avoidFeatures, int profileType) throws UnknownParameterValueException, IncompatibleParameterException { int flags = 0; for (APIEnums.AvoidFeatures avoid : avoidFeatures) { String avoidFeatureName = avoid.toString(); int flag = AvoidFeatureFlags.getFromString(av... | GenericHandler { protected int convertFeatureTypes(APIEnums.AvoidFeatures[] avoidFeatures, int profileType) throws UnknownParameterValueException, IncompatibleParameterException { int flags = 0; for (APIEnums.AvoidFeatures avoid : avoidFeatures) { String avoidFeatureName = avoid.toString(); int flag = AvoidFeatureFlags... | GenericHandler { protected int convertFeatureTypes(APIEnums.AvoidFeatures[] avoidFeatures, int profileType) throws UnknownParameterValueException, IncompatibleParameterException { int flags = 0; for (APIEnums.AvoidFeatures avoid : avoidFeatures) { String avoidFeatureName = avoid.toString(); int flag = AvoidFeatureFlags... | GenericHandler { protected int convertFeatureTypes(APIEnums.AvoidFeatures[] avoidFeatures, int profileType) throws UnknownParameterValueException, IncompatibleParameterException { int flags = 0; for (APIEnums.AvoidFeatures avoid : avoidFeatures) { String avoidFeatureName = avoid.toString(); int flag = AvoidFeatureFlags... | GenericHandler { protected int convertFeatureTypes(APIEnums.AvoidFeatures[] avoidFeatures, int profileType) throws UnknownParameterValueException, IncompatibleParameterException { int flags = 0; for (APIEnums.AvoidFeatures avoid : avoidFeatures) { String avoidFeatureName = avoid.toString(); int flag = AvoidFeatureFlags... |
@Test public void convertParameters() throws StatusCodeException { RouteRequestOptions opts = new RouteRequestOptions(); RequestProfileParams params = new RequestProfileParams(); RequestProfileParamsRestrictions restrictions = new RequestProfileParamsRestrictions(); restrictions.setHeight(10.0f); params.setRestrictions... | protected ProfileParameters convertParameters(RouteRequestOptions options, int profileType) throws StatusCodeException { ProfileParameters params = new ProfileParameters(); if (options.getProfileParams().hasRestrictions()) { RequestProfileParamsRestrictions restrictions = options.getProfileParams().getRestrictions(); A... | GenericHandler { protected ProfileParameters convertParameters(RouteRequestOptions options, int profileType) throws StatusCodeException { ProfileParameters params = new ProfileParameters(); if (options.getProfileParams().hasRestrictions()) { RequestProfileParamsRestrictions restrictions = options.getProfileParams().get... | GenericHandler { protected ProfileParameters convertParameters(RouteRequestOptions options, int profileType) throws StatusCodeException { ProfileParameters params = new ProfileParameters(); if (options.getProfileParams().hasRestrictions()) { RequestProfileParamsRestrictions restrictions = options.getProfileParams().get... | GenericHandler { protected ProfileParameters convertParameters(RouteRequestOptions options, int profileType) throws StatusCodeException { ProfileParameters params = new ProfileParameters(); if (options.getProfileParams().hasRestrictions()) { RequestProfileParamsRestrictions restrictions = options.getProfileParams().get... | GenericHandler { protected ProfileParameters convertParameters(RouteRequestOptions options, int profileType) throws StatusCodeException { ProfileParameters params = new ProfileParameters(); if (options.getProfileParams().hasRestrictions()) { RequestProfileParamsRestrictions restrictions = options.getProfileParams().get... |
@Test public void TestIdentificationOfSidesWithSidewalkInfo() { ReaderWay way = new ReaderWay(1); way.setTag("sidewalk:left:surface", "asphalt"); assertEquals(OSMAttachedSidewalkProcessor.Side.LEFT, processor.identifySidesWhereSidewalkIsPresent(way)); way = new ReaderWay(1); way.setTag("sidewalk", "both"); assertEquals... | protected Side identifySidesWhereSidewalkIsPresent(ReaderWay osmWay) { boolean sidewalkOnLeftSide = false; boolean sidewalkOnRightSide = false; boolean sidewalkOnBothSides = false; if(osmWay.hasTag("sidewalk")) { String side = osmWay.getTag("sidewalk"); switch(side) { case VAL_LEFT: sidewalkOnLeftSide = true; break; ca... | OSMAttachedSidewalkProcessor { protected Side identifySidesWhereSidewalkIsPresent(ReaderWay osmWay) { boolean sidewalkOnLeftSide = false; boolean sidewalkOnRightSide = false; boolean sidewalkOnBothSides = false; if(osmWay.hasTag("sidewalk")) { String side = osmWay.getTag("sidewalk"); switch(side) { case VAL_LEFT: sidew... | OSMAttachedSidewalkProcessor { protected Side identifySidesWhereSidewalkIsPresent(ReaderWay osmWay) { boolean sidewalkOnLeftSide = false; boolean sidewalkOnRightSide = false; boolean sidewalkOnBothSides = false; if(osmWay.hasTag("sidewalk")) { String side = osmWay.getTag("sidewalk"); switch(side) { case VAL_LEFT: sidew... | OSMAttachedSidewalkProcessor { protected Side identifySidesWhereSidewalkIsPresent(ReaderWay osmWay) { boolean sidewalkOnLeftSide = false; boolean sidewalkOnRightSide = false; boolean sidewalkOnBothSides = false; if(osmWay.hasTag("sidewalk")) { String side = osmWay.getTag("sidewalk"); switch(side) { case VAL_LEFT: sidew... | OSMAttachedSidewalkProcessor { protected Side identifySidesWhereSidewalkIsPresent(ReaderWay osmWay) { boolean sidewalkOnLeftSide = false; boolean sidewalkOnRightSide = false; boolean sidewalkOnBothSides = false; if(osmWay.hasTag("sidewalk")) { String side = osmWay.getTag("sidewalk"); switch(side) { case VAL_LEFT: sidew... |
@Test public void convertSpecificProfileParameters() { RequestProfileParamsRestrictions restrictions = new RequestProfileParamsRestrictions(); restrictions.setHeight(10.0f); ProfileParameters params = handler.convertSpecificProfileParameters(2, restrictions, APIEnums.VehicleType.HGV); Assert.assertTrue(params instanceo... | protected ProfileParameters convertSpecificProfileParameters(int profileType, RequestProfileParamsRestrictions restrictions, APIEnums.VehicleType vehicleType) { ProfileParameters params = new ProfileParameters(); if (RoutingProfileType.isHeavyVehicle(profileType)) params = convertHeavyVehicleParameters(restrictions, ve... | GenericHandler { protected ProfileParameters convertSpecificProfileParameters(int profileType, RequestProfileParamsRestrictions restrictions, APIEnums.VehicleType vehicleType) { ProfileParameters params = new ProfileParameters(); if (RoutingProfileType.isHeavyVehicle(profileType)) params = convertHeavyVehicleParameters... | GenericHandler { protected ProfileParameters convertSpecificProfileParameters(int profileType, RequestProfileParamsRestrictions restrictions, APIEnums.VehicleType vehicleType) { ProfileParameters params = new ProfileParameters(); if (RoutingProfileType.isHeavyVehicle(profileType)) params = convertHeavyVehicleParameters... | GenericHandler { protected ProfileParameters convertSpecificProfileParameters(int profileType, RequestProfileParamsRestrictions restrictions, APIEnums.VehicleType vehicleType) { ProfileParameters params = new ProfileParameters(); if (RoutingProfileType.isHeavyVehicle(profileType)) params = convertHeavyVehicleParameters... | GenericHandler { protected ProfileParameters convertSpecificProfileParameters(int profileType, RequestProfileParamsRestrictions restrictions, APIEnums.VehicleType vehicleType) { ProfileParameters params = new ProfileParameters(); if (RoutingProfileType.isHeavyVehicle(profileType)) params = convertHeavyVehicleParameters... |
@Test public void testCalculateContour() { GraphHopperStorage graphHopperStorage = ToyGraphCreationUtil.createSimpleGraph(encodingManager); createMockStorages(graphHopperStorage); Contour contour = new Contour(graphHopperStorage, graphHopperStorage.getBaseGraph().getNodeAccess(), ins, cs); contour.calculateContour(); L... | public void calculateContour() { handleBaseCells(); cellStorage.flush(); IntObjectMap<IntHashSet> superCells = handleSuperCells(); cellStorage.storeContourPointerMap(); if (isSupercellsEnabled()) cellStorage.storeSuperCells(superCells); cellStorage.setContourPrepared(true); cellStorage.flush(); } | Contour { public void calculateContour() { handleBaseCells(); cellStorage.flush(); IntObjectMap<IntHashSet> superCells = handleSuperCells(); cellStorage.storeContourPointerMap(); if (isSupercellsEnabled()) cellStorage.storeSuperCells(superCells); cellStorage.setContourPrepared(true); cellStorage.flush(); } } | Contour { public void calculateContour() { handleBaseCells(); cellStorage.flush(); IntObjectMap<IntHashSet> superCells = handleSuperCells(); cellStorage.storeContourPointerMap(); if (isSupercellsEnabled()) cellStorage.storeSuperCells(superCells); cellStorage.setContourPrepared(true); cellStorage.flush(); } Contour(Grap... | Contour { public void calculateContour() { handleBaseCells(); cellStorage.flush(); IntObjectMap<IntHashSet> superCells = handleSuperCells(); cellStorage.storeContourPointerMap(); if (isSupercellsEnabled()) cellStorage.storeSuperCells(superCells); cellStorage.setContourPrepared(true); cellStorage.flush(); } Contour(Grap... | Contour { public void calculateContour() { handleBaseCells(); cellStorage.flush(); IntObjectMap<IntHashSet> superCells = handleSuperCells(); cellStorage.storeContourPointerMap(); if (isSupercellsEnabled()) cellStorage.storeSuperCells(superCells); cellStorage.setContourPrepared(true); cellStorage.flush(); } Contour(Grap... |
@Test public void testDistance() { double distance = Contour.distance(1, 1, 1, 2); assertEquals(111177.99068882648, distance, 1e-10); double distance2 = Contour.distance(1, 1, 0.5, -0.5); assertEquals(111177.99068882648, distance2, 1e-10); } | public static double distance(double lat1, double lat2, double lon1, double lon2) { final int R = 6371; double latDistance = Math.toRadians(lat2 - lat1); double lonDistance = Math.toRadians(lon2 - lon1); double a = Math.sin(latDistance / 2) * Math.sin(latDistance / 2) + Math.cos(Math.toRadians(lat1)) * Math.cos(Math.to... | Contour { public static double distance(double lat1, double lat2, double lon1, double lon2) { final int R = 6371; double latDistance = Math.toRadians(lat2 - lat1); double lonDistance = Math.toRadians(lon2 - lon1); double a = Math.sin(latDistance / 2) * Math.sin(latDistance / 2) + Math.cos(Math.toRadians(lat1)) * Math.c... | Contour { public static double distance(double lat1, double lat2, double lon1, double lon2) { final int R = 6371; double latDistance = Math.toRadians(lat2 - lat1); double lonDistance = Math.toRadians(lon2 - lon1); double a = Math.sin(latDistance / 2) * Math.sin(latDistance / 2) + Math.cos(Math.toRadians(lat1)) * Math.c... | Contour { public static double distance(double lat1, double lat2, double lon1, double lon2) { final int R = 6371; double latDistance = Math.toRadians(lat2 - lat1); double lonDistance = Math.toRadians(lon2 - lon1); double a = Math.sin(latDistance / 2) * Math.sin(latDistance / 2) + Math.cos(Math.toRadians(lat1)) * Math.c... | Contour { public static double distance(double lat1, double lat2, double lon1, double lon2) { final int R = 6371; double latDistance = Math.toRadians(lat2 - lat1); double lonDistance = Math.toRadians(lon2 - lon1); double a = Math.sin(latDistance / 2) * Math.sin(latDistance / 2) + Math.cos(Math.toRadians(lat1)) * Math.c... |
@Test public void testExactWeightActiveCell() { GraphHopperStorage graphHopperStorage = ToyGraphCreationUtil.createMediumGraphWithAdditionalEdge(encodingManager); Weighting shortestWeighting = new ShortestWeighting(carEncoder); createMockStorages(graphHopperStorage); Eccentricity ecc = new Eccentricity(graphHopperStora... | public Map<Integer, IntObjectMap<SPTEntry>> getActiveCellMaps() { return activeCellMaps; } | FastIsochroneAlgorithm extends AbstractIsochroneAlgorithm { public Map<Integer, IntObjectMap<SPTEntry>> getActiveCellMaps() { return activeCellMaps; } } | FastIsochroneAlgorithm extends AbstractIsochroneAlgorithm { public Map<Integer, IntObjectMap<SPTEntry>> getActiveCellMaps() { return activeCellMaps; } FastIsochroneAlgorithm(Graph graph,
Weighting weighting,
TraversalMode tMode,
... | FastIsochroneAlgorithm extends AbstractIsochroneAlgorithm { public Map<Integer, IntObjectMap<SPTEntry>> getActiveCellMaps() { return activeCellMaps; } FastIsochroneAlgorithm(Graph graph,
Weighting weighting,
TraversalMode tMode,
... | FastIsochroneAlgorithm extends AbstractIsochroneAlgorithm { public Map<Integer, IntObjectMap<SPTEntry>> getActiveCellMaps() { return activeCellMaps; } FastIsochroneAlgorithm(Graph graph,
Weighting weighting,
TraversalMode tMode,
... |
@Test public void testLimitInBetweenNodesActiveCell() { GraphHopperStorage graphHopperStorage = ToyGraphCreationUtil.createMediumGraphWithAdditionalEdge(encodingManager); Weighting shortestWeighting = new ShortestWeighting(carEncoder); createMockStorages(graphHopperStorage); Eccentricity ecc = new Eccentricity(graphHop... | public Map<Integer, IntObjectMap<SPTEntry>> getActiveCellMaps() { return activeCellMaps; } | FastIsochroneAlgorithm extends AbstractIsochroneAlgorithm { public Map<Integer, IntObjectMap<SPTEntry>> getActiveCellMaps() { return activeCellMaps; } } | FastIsochroneAlgorithm extends AbstractIsochroneAlgorithm { public Map<Integer, IntObjectMap<SPTEntry>> getActiveCellMaps() { return activeCellMaps; } FastIsochroneAlgorithm(Graph graph,
Weighting weighting,
TraversalMode tMode,
... | FastIsochroneAlgorithm extends AbstractIsochroneAlgorithm { public Map<Integer, IntObjectMap<SPTEntry>> getActiveCellMaps() { return activeCellMaps; } FastIsochroneAlgorithm(Graph graph,
Weighting weighting,
TraversalMode tMode,
... | FastIsochroneAlgorithm extends AbstractIsochroneAlgorithm { public Map<Integer, IntObjectMap<SPTEntry>> getActiveCellMaps() { return activeCellMaps; } FastIsochroneAlgorithm(Graph graph,
Weighting weighting,
TraversalMode tMode,
... |
@Test public void testStartCell() { GraphHopperStorage graphHopperStorage = ToyGraphCreationUtil.createMediumGraphWithAdditionalEdge(encodingManager); Weighting shortestWeighting = new ShortestWeighting(carEncoder); createMockStorages(graphHopperStorage); Eccentricity ecc = new Eccentricity(graphHopperStorage, null, in... | public IntObjectMap<SPTEntry> getStartCellMap() { return startCellMap; } | FastIsochroneAlgorithm extends AbstractIsochroneAlgorithm { public IntObjectMap<SPTEntry> getStartCellMap() { return startCellMap; } } | FastIsochroneAlgorithm extends AbstractIsochroneAlgorithm { public IntObjectMap<SPTEntry> getStartCellMap() { return startCellMap; } FastIsochroneAlgorithm(Graph graph,
Weighting weighting,
TraversalMode tMode,
CellSto... | FastIsochroneAlgorithm extends AbstractIsochroneAlgorithm { public IntObjectMap<SPTEntry> getStartCellMap() { return startCellMap; } FastIsochroneAlgorithm(Graph graph,
Weighting weighting,
TraversalMode tMode,
CellSto... | FastIsochroneAlgorithm extends AbstractIsochroneAlgorithm { public IntObjectMap<SPTEntry> getStartCellMap() { return startCellMap; } FastIsochroneAlgorithm(Graph graph,
Weighting weighting,
TraversalMode tMode,
CellSto... |
@Test public void testFullyReachableCells() { GraphHopperStorage graphHopperStorage = ToyGraphCreationUtil.createMediumGraphWithAdditionalEdge(encodingManager); Weighting shortestWeighting = new ShortestWeighting(carEncoder); createMockStorages(graphHopperStorage); Eccentricity ecc = new Eccentricity(graphHopperStorage... | public Set<Integer> getFullyReachableCells() { return fullyReachableCells; } | FastIsochroneAlgorithm extends AbstractIsochroneAlgorithm { public Set<Integer> getFullyReachableCells() { return fullyReachableCells; } } | FastIsochroneAlgorithm extends AbstractIsochroneAlgorithm { public Set<Integer> getFullyReachableCells() { return fullyReachableCells; } FastIsochroneAlgorithm(Graph graph,
Weighting weighting,
TraversalMode tMode,
Cel... | FastIsochroneAlgorithm extends AbstractIsochroneAlgorithm { public Set<Integer> getFullyReachableCells() { return fullyReachableCells; } FastIsochroneAlgorithm(Graph graph,
Weighting weighting,
TraversalMode tMode,
Cel... | FastIsochroneAlgorithm extends AbstractIsochroneAlgorithm { public Set<Integer> getFullyReachableCells() { return fullyReachableCells; } FastIsochroneAlgorithm(Graph graph,
Weighting weighting,
TraversalMode tMode,
Cel... |
@Test public void testAddInitialBorderNode() { GraphHopperStorage graphHopperStorage = ToyGraphCreationUtil.createMediumGraph(encodingManager); createMockStorages(graphHopperStorage); Weighting shortestWeighting = new ShortestWeighting(carEncoder); ActiveCellDijkstra activeCellDijkstra = new ActiveCellDijkstra(graphHop... | protected void addInitialBordernode(int nodeId, double weight) { SPTEntry entry = new SPTEntry(nodeId, weight); fromHeap.add(entry); fromMap.put(nodeId, entry); } | ActiveCellDijkstra extends AbstractIsochroneDijkstra { protected void addInitialBordernode(int nodeId, double weight) { SPTEntry entry = new SPTEntry(nodeId, weight); fromHeap.add(entry); fromMap.put(nodeId, entry); } } | ActiveCellDijkstra extends AbstractIsochroneDijkstra { protected void addInitialBordernode(int nodeId, double weight) { SPTEntry entry = new SPTEntry(nodeId, weight); fromHeap.add(entry); fromMap.put(nodeId, entry); } ActiveCellDijkstra(Graph graph, Weighting weighting, IsochroneNodeStorage isochroneNodeStorage, int ce... | ActiveCellDijkstra extends AbstractIsochroneDijkstra { protected void addInitialBordernode(int nodeId, double weight) { SPTEntry entry = new SPTEntry(nodeId, weight); fromHeap.add(entry); fromMap.put(nodeId, entry); } ActiveCellDijkstra(Graph graph, Weighting weighting, IsochroneNodeStorage isochroneNodeStorage, int ce... | ActiveCellDijkstra extends AbstractIsochroneDijkstra { protected void addInitialBordernode(int nodeId, double weight) { SPTEntry entry = new SPTEntry(nodeId, weight); fromHeap.add(entry); fromMap.put(nodeId, entry); } ActiveCellDijkstra(Graph graph, Weighting weighting, IsochroneNodeStorage isochroneNodeStorage, int ce... |
@Test public void testGetMaxWeight() { GraphHopperStorage graphHopperStorage = createSimpleGraph(); RangeDijkstra rangeDijkstra = new RangeDijkstra(graphHopperStorage.getBaseGraph(), new ShortestWeighting(carEncoder)); rangeDijkstra.setMaxVisitedNodes(getMaxCellNodesNumber() * 10); IntHashSet cellNodes = new IntHashSet... | private void getMaxWeight() { for (IntObjectCursor<SPTEntry> entry : fromMap) { if (USERELEVANTONLY && !relevantNodes.contains(entry.key)) continue; if (maximumWeight < entry.value.weight) maximumWeight = entry.value.weight; } } | RangeDijkstra extends AbstractIsochroneDijkstra { private void getMaxWeight() { for (IntObjectCursor<SPTEntry> entry : fromMap) { if (USERELEVANTONLY && !relevantNodes.contains(entry.key)) continue; if (maximumWeight < entry.value.weight) maximumWeight = entry.value.weight; } } } | RangeDijkstra extends AbstractIsochroneDijkstra { private void getMaxWeight() { for (IntObjectCursor<SPTEntry> entry : fromMap) { if (USERELEVANTONLY && !relevantNodes.contains(entry.key)) continue; if (maximumWeight < entry.value.weight) maximumWeight = entry.value.weight; } } RangeDijkstra(Graph graph, Weighting weig... | RangeDijkstra extends AbstractIsochroneDijkstra { private void getMaxWeight() { for (IntObjectCursor<SPTEntry> entry : fromMap) { if (USERELEVANTONLY && !relevantNodes.contains(entry.key)) continue; if (maximumWeight < entry.value.weight) maximumWeight = entry.value.weight; } } RangeDijkstra(Graph graph, Weighting weig... | RangeDijkstra extends AbstractIsochroneDijkstra { private void getMaxWeight() { for (IntObjectCursor<SPTEntry> entry : fromMap) { if (USERELEVANTONLY && !relevantNodes.contains(entry.key)) continue; if (maximumWeight < entry.value.weight) maximumWeight = entry.value.weight; } } RangeDijkstra(Graph graph, Weighting weig... |
@Test public void testPartitioningDataBuilder() { GraphHopperStorage ghStorage = ToyGraphCreationUtil.createMediumGraph(encodingManager); PartitioningData pData = new PartitioningData(); EdgeFilter edgeFilter = new EdgeFilterSequence(); PartitioningDataBuilder partitioningDataBuilder = new PartitioningDataBuilder(ghSto... | PartitioningDataBuilder(Graph graph, PartitioningData pData) { this.graph = graph; this.pData = pData; } | PartitioningDataBuilder { PartitioningDataBuilder(Graph graph, PartitioningData pData) { this.graph = graph; this.pData = pData; } } | PartitioningDataBuilder { PartitioningDataBuilder(Graph graph, PartitioningData pData) { this.graph = graph; this.pData = pData; } PartitioningDataBuilder(Graph graph, PartitioningData pData); } | PartitioningDataBuilder { PartitioningDataBuilder(Graph graph, PartitioningData pData) { this.graph = graph; this.pData = pData; } PartitioningDataBuilder(Graph graph, PartitioningData pData); void run(); } | PartitioningDataBuilder { PartitioningDataBuilder(Graph graph, PartitioningData pData) { this.graph = graph; this.pData = pData; } PartitioningDataBuilder(Graph graph, PartitioningData pData); void run(); } |
@Test public void TestAttachingORSSidewalkSideTagForWayWithSingleSide() { ReaderWay way = new ReaderWay(1); way = processor.attachSidewalkTag(way, OSMAttachedSidewalkProcessor.Side.LEFT); assertTrue(way.hasTag("ors-sidewalk-side")); String side = way.getTag("ors-sidewalk-side"); assertEquals("left", side); way = new Re... | public ReaderWay attachSidewalkTag(ReaderWay way, Side side) { switch(side) { case LEFT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_LEFT); break; case RIGHT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_RIGHT); break; case BOTH: if(way.hasTag(KEY_ORS_SIDEWALK_SIDE) && way.getTag(KEY_ORS_SIDEWALK_SIDE).equalsIgnoreCase(VAL_LEFT)) {... | OSMAttachedSidewalkProcessor { public ReaderWay attachSidewalkTag(ReaderWay way, Side side) { switch(side) { case LEFT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_LEFT); break; case RIGHT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_RIGHT); break; case BOTH: if(way.hasTag(KEY_ORS_SIDEWALK_SIDE) && way.getTag(KEY_ORS_SIDEWALK_SIDE... | OSMAttachedSidewalkProcessor { public ReaderWay attachSidewalkTag(ReaderWay way, Side side) { switch(side) { case LEFT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_LEFT); break; case RIGHT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_RIGHT); break; case BOTH: if(way.hasTag(KEY_ORS_SIDEWALK_SIDE) && way.getTag(KEY_ORS_SIDEWALK_SIDE... | OSMAttachedSidewalkProcessor { public ReaderWay attachSidewalkTag(ReaderWay way, Side side) { switch(side) { case LEFT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_LEFT); break; case RIGHT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_RIGHT); break; case BOTH: if(way.hasTag(KEY_ORS_SIDEWALK_SIDE) && way.getTag(KEY_ORS_SIDEWALK_SIDE... | OSMAttachedSidewalkProcessor { public ReaderWay attachSidewalkTag(ReaderWay way, Side side) { switch(side) { case LEFT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_LEFT); break; case RIGHT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_RIGHT); break; case BOTH: if(way.hasTag(KEY_ORS_SIDEWALK_SIDE) && way.getTag(KEY_ORS_SIDEWALK_SIDE... |
@Test public void testCalculateProjections() { Projector projector = new Projector(); projector.setGHStorage(ToyGraphCreationUtil.createMediumGraph2(encodingManager)); Map<Projector.Projection, IntArrayList> projections = projector.calculateProjections(); IntArrayList expected_m00 = new IntArrayList(); expected_m00.add... | protected Map<Projection, IntArrayList> calculateProjections() { EnumMap<Projection, IntArrayList> nodeListProjMap = new EnumMap<>(Projection.class); Integer[] ids = IntStream.rangeClosed(0, ghStorage.getNodes() - 1).boxed().toArray(Integer[]::new); Double[] values = new Double[ids.length]; Sort sort = new Sort(); for ... | Projector { protected Map<Projection, IntArrayList> calculateProjections() { EnumMap<Projection, IntArrayList> nodeListProjMap = new EnumMap<>(Projection.class); Integer[] ids = IntStream.rangeClosed(0, ghStorage.getNodes() - 1).boxed().toArray(Integer[]::new); Double[] values = new Double[ids.length]; Sort sort = new ... | Projector { protected Map<Projection, IntArrayList> calculateProjections() { EnumMap<Projection, IntArrayList> nodeListProjMap = new EnumMap<>(Projection.class); Integer[] ids = IntStream.rangeClosed(0, ghStorage.getNodes() - 1).boxed().toArray(Integer[]::new); Double[] values = new Double[ids.length]; Sort sort = new ... | Projector { protected Map<Projection, IntArrayList> calculateProjections() { EnumMap<Projection, IntArrayList> nodeListProjMap = new EnumMap<>(Projection.class); Integer[] ids = IntStream.rangeClosed(0, ghStorage.getNodes() - 1).boxed().toArray(Integer[]::new); Double[] values = new Double[ids.length]; Sort sort = new ... | Projector { protected Map<Projection, IntArrayList> calculateProjections() { EnumMap<Projection, IntArrayList> nodeListProjMap = new EnumMap<>(Projection.class); Integer[] ids = IntStream.rangeClosed(0, ghStorage.getNodes() - 1).boxed().toArray(Integer[]::new); Double[] values = new Double[ids.length]; Sort sort = new ... |
@Test public void testCalculateProjectionOrder() { double originalSplitValue = getSplitValue(); setSplitValue(0); Projector projector = new Projector(); projector.setGHStorage(ToyGraphCreationUtil.createMediumGraph2(encodingManager)); Map<Projector.Projection, IntArrayList> projections = projector.calculateProjections(... | protected List<Projection> calculateProjectionOrder(Map<Projection, IntArrayList> projections) { List<Projection> order; EnumMap<Projection, Double> squareRangeProjMap = new EnumMap<>(Projection.class); EnumMap<Projection, Double> orthogonalDiffProjMap = new EnumMap<>(Projection.class); for (Map.Entry<Projection, IntAr... | Projector { protected List<Projection> calculateProjectionOrder(Map<Projection, IntArrayList> projections) { List<Projection> order; EnumMap<Projection, Double> squareRangeProjMap = new EnumMap<>(Projection.class); EnumMap<Projection, Double> orthogonalDiffProjMap = new EnumMap<>(Projection.class); for (Map.Entry<Proje... | Projector { protected List<Projection> calculateProjectionOrder(Map<Projection, IntArrayList> projections) { List<Projection> order; EnumMap<Projection, Double> squareRangeProjMap = new EnumMap<>(Projection.class); EnumMap<Projection, Double> orthogonalDiffProjMap = new EnumMap<>(Projection.class); for (Map.Entry<Proje... | Projector { protected List<Projection> calculateProjectionOrder(Map<Projection, IntArrayList> projections) { List<Projection> order; EnumMap<Projection, Double> squareRangeProjMap = new EnumMap<>(Projection.class); EnumMap<Projection, Double> orthogonalDiffProjMap = new EnumMap<>(Projection.class); for (Map.Entry<Proje... | Projector { protected List<Projection> calculateProjectionOrder(Map<Projection, IntArrayList> projections) { List<Projection> order; EnumMap<Projection, Double> squareRangeProjMap = new EnumMap<>(Projection.class); EnumMap<Projection, Double> orthogonalDiffProjMap = new EnumMap<>(Projection.class); for (Map.Entry<Proje... |
@Test public void testReset() { GraphHopperStorage graphHopperStorage = ToyGraphCreationUtil.createMediumGraph(encodingManager); Graph graph = graphHopperStorage.getBaseGraph(); int[] flowEdgeBaseNode = new int[]{ 0, 1, 0, 2, 0, 3, 0, 8, 1, 2, 1, 8, 2, 3, 3, 4, 4, 5, 4, 6, 5, 7, 6, 7, 7, 8, -1, -1 }; boolean[] flow = n... | protected void reset() { resetAlgorithm(); resetData(); } | MaxFlowMinCut { protected void reset() { resetAlgorithm(); resetData(); } } | MaxFlowMinCut { protected void reset() { resetAlgorithm(); resetData(); } MaxFlowMinCut(Graph graph, PartitioningData pData, EdgeFilter edgeFilter); } | MaxFlowMinCut { protected void reset() { resetAlgorithm(); resetData(); } MaxFlowMinCut(Graph graph, PartitioningData pData, EdgeFilter edgeFilter); void setVisited(int node); boolean isVisited(int visited); void setUnvisitedAll(); abstract int getMaxFlow(); BiPartition calcNodePartition(); void setNodeOrder(); void se... | MaxFlowMinCut { protected void reset() { resetAlgorithm(); resetData(); } MaxFlowMinCut(Graph graph, PartitioningData pData, EdgeFilter edgeFilter); void setVisited(int node); boolean isVisited(int visited); void setUnvisitedAll(); abstract int getMaxFlow(); BiPartition calcNodePartition(); void setNodeOrder(); void se... |
@Test public void testInit() { FastIsochroneFactory fastIsochroneFactory = intitFastIsochroneFactory(); assertTrue(fastIsochroneFactory.isEnabled()); assertTrue(fastIsochroneFactory.isDisablingAllowed()); assertEquals("fastest", fastIsochroneFactory.getFastisochroneProfileStrings().iterator().next()); } | public void init(CmdArgs args) { setMaxThreadCount(args.getInt(FastIsochrone.PREPARE + "threads", getMaxThreadCount())); setMaxCellNodesNumber(args.getInt(FastIsochrone.PREPARE + "maxcellnodes", getMaxCellNodesNumber())); String weightingsStr = args.get(FastIsochrone.PREPARE + "weightings", ""); if ("no".equals(weighti... | FastIsochroneFactory { public void init(CmdArgs args) { setMaxThreadCount(args.getInt(FastIsochrone.PREPARE + "threads", getMaxThreadCount())); setMaxCellNodesNumber(args.getInt(FastIsochrone.PREPARE + "maxcellnodes", getMaxCellNodesNumber())); String weightingsStr = args.get(FastIsochrone.PREPARE + "weightings", ""); ... | FastIsochroneFactory { public void init(CmdArgs args) { setMaxThreadCount(args.getInt(FastIsochrone.PREPARE + "threads", getMaxThreadCount())); setMaxCellNodesNumber(args.getInt(FastIsochrone.PREPARE + "maxcellnodes", getMaxCellNodesNumber())); String weightingsStr = args.get(FastIsochrone.PREPARE + "weightings", ""); ... | FastIsochroneFactory { public void init(CmdArgs args) { setMaxThreadCount(args.getInt(FastIsochrone.PREPARE + "threads", getMaxThreadCount())); setMaxCellNodesNumber(args.getInt(FastIsochrone.PREPARE + "maxcellnodes", getMaxCellNodesNumber())); String weightingsStr = args.get(FastIsochrone.PREPARE + "weightings", ""); ... | FastIsochroneFactory { public void init(CmdArgs args) { setMaxThreadCount(args.getInt(FastIsochrone.PREPARE + "threads", getMaxThreadCount())); setMaxCellNodesNumber(args.getInt(FastIsochrone.PREPARE + "maxcellnodes", getMaxCellNodesNumber())); String weightingsStr = args.get(FastIsochrone.PREPARE + "weightings", ""); ... |
@Test public void testPrepare() { GraphHopperStorage gs = ToyGraphCreationUtil.createMediumGraph(encodingManager); FastIsochroneFactory fastIsochroneFactory = intitFastIsochroneFactory(); fastIsochroneFactory.createPreparation(gs, null); fastIsochroneFactory.prepare(gs.getProperties()); assertNotNull(fastIsochroneFacto... | public void prepare(final StorableProperties properties) { ExecutorService threadPool = Executors.newFixedThreadPool(1); ExecutorCompletionService<String> completionService = new ExecutorCompletionService<>(threadPool); final String name = "PreparePartition"; completionService.submit(() -> { Thread.currentThread().setN... | FastIsochroneFactory { public void prepare(final StorableProperties properties) { ExecutorService threadPool = Executors.newFixedThreadPool(1); ExecutorCompletionService<String> completionService = new ExecutorCompletionService<>(threadPool); final String name = "PreparePartition"; completionService.submit(() -> { Thre... | FastIsochroneFactory { public void prepare(final StorableProperties properties) { ExecutorService threadPool = Executors.newFixedThreadPool(1); ExecutorCompletionService<String> completionService = new ExecutorCompletionService<>(threadPool); final String name = "PreparePartition"; completionService.submit(() -> { Thre... | FastIsochroneFactory { public void prepare(final StorableProperties properties) { ExecutorService threadPool = Executors.newFixedThreadPool(1); ExecutorCompletionService<String> completionService = new ExecutorCompletionService<>(threadPool); final String name = "PreparePartition"; completionService.submit(() -> { Thre... | FastIsochroneFactory { public void prepare(final StorableProperties properties) { ExecutorService threadPool = Executors.newFixedThreadPool(1); ExecutorCompletionService<String> completionService = new ExecutorCompletionService<>(threadPool); final String name = "PreparePartition"; completionService.submit(() -> { Thre... |
@Test public void testBuild() throws JAXBException { XMLBuilder xMLBuilder = new XMLBuilder(); String result = xMLBuilder.build(gpx); Assert.assertEquals("<?xml version=\"1.0\" encoding=\"UTF-8\" standalone=\"yes\"?>\n" + "<gpx version=\"1.0\" xmlns=\"https: " <metadata>\n" + " <name></name>\n" + " <desc></desc>\n" + "... | public String build(Gpx gpx) throws JAXBException { JAXBContext context = JAXBContext.newInstance(Gpx.class); Marshaller m = context.createMarshaller(); m.setProperty(Marshaller.JAXB_FORMATTED_OUTPUT, Boolean.TRUE); StringWriter sw = new StringWriter(); m.marshal(gpx, sw); return sw.toString(); } | XMLBuilder { public String build(Gpx gpx) throws JAXBException { JAXBContext context = JAXBContext.newInstance(Gpx.class); Marshaller m = context.createMarshaller(); m.setProperty(Marshaller.JAXB_FORMATTED_OUTPUT, Boolean.TRUE); StringWriter sw = new StringWriter(); m.marshal(gpx, sw); return sw.toString(); } } | XMLBuilder { public String build(Gpx gpx) throws JAXBException { JAXBContext context = JAXBContext.newInstance(Gpx.class); Marshaller m = context.createMarshaller(); m.setProperty(Marshaller.JAXB_FORMATTED_OUTPUT, Boolean.TRUE); StringWriter sw = new StringWriter(); m.marshal(gpx, sw); return sw.toString(); } } | XMLBuilder { public String build(Gpx gpx) throws JAXBException { JAXBContext context = JAXBContext.newInstance(Gpx.class); Marshaller m = context.createMarshaller(); m.setProperty(Marshaller.JAXB_FORMATTED_OUTPUT, Boolean.TRUE); StringWriter sw = new StringWriter(); m.marshal(gpx, sw); return sw.toString(); } String b... | XMLBuilder { public String build(Gpx gpx) throws JAXBException { JAXBContext context = JAXBContext.newInstance(Gpx.class); Marshaller m = context.createMarshaller(); m.setProperty(Marshaller.JAXB_FORMATTED_OUTPUT, Boolean.TRUE); StringWriter sw = new StringWriter(); m.marshal(gpx, sw); return sw.toString(); } String b... |
@Test public void testAddProperties() throws Exception { JSONObject expectedJSON = new JSONObject("{\"geometry\":{\"coordinates\":[[1,1],[1,1],[1,1]],\"type\":\"LineString\"},\"id\":\"" + routingFeatureID + "\",\"type\":\"Feature\",\"properties\":{\"bbox\":[1,1,1,1],\"way_points\":[1,1],\"segments\":[1]}}"); JSONObject... | public static JSONObject addProperties(SimpleFeature simpleFeature, Map<String, Map<String, Object>> featurePropertiesMap) throws IOException { StringWriter stringWriter = new StringWriter(); fjson.writeFeature(simpleFeature, stringWriter); JSONObject featureAsJSON = new JSONObject(stringWriter.toString()); stringWrite... | GeoJsonResponseWriter { public static JSONObject addProperties(SimpleFeature simpleFeature, Map<String, Map<String, Object>> featurePropertiesMap) throws IOException { StringWriter stringWriter = new StringWriter(); fjson.writeFeature(simpleFeature, stringWriter); JSONObject featureAsJSON = new JSONObject(stringWriter.... | GeoJsonResponseWriter { public static JSONObject addProperties(SimpleFeature simpleFeature, Map<String, Map<String, Object>> featurePropertiesMap) throws IOException { StringWriter stringWriter = new StringWriter(); fjson.writeFeature(simpleFeature, stringWriter); JSONObject featureAsJSON = new JSONObject(stringWriter.... | GeoJsonResponseWriter { public static JSONObject addProperties(SimpleFeature simpleFeature, Map<String, Map<String, Object>> featurePropertiesMap) throws IOException { StringWriter stringWriter = new StringWriter(); fjson.writeFeature(simpleFeature, stringWriter); JSONObject featureAsJSON = new JSONObject(stringWriter.... | GeoJsonResponseWriter { public static JSONObject addProperties(SimpleFeature simpleFeature, Map<String, Map<String, Object>> featurePropertiesMap) throws IOException { StringWriter stringWriter = new StringWriter(); fjson.writeFeature(simpleFeature, stringWriter); JSONObject featureAsJSON = new JSONObject(stringWriter.... |
@Test public void testAddProperties1() throws Exception { JSONObject expectedJSON = new JSONObject("{\"features\":[{\"geometry\":{\"coordinates\":[[1,1],[1,1],[1,1]],\"type\":\"LineString\"},\"id\":\"" + routingFeatureID + "\",\"type\":\"Feature\",\"properties\":{\"bbox\":[1,1,1,1],\"way_points\":[1,1],\"segments\":[1]... | public static JSONObject addProperties(SimpleFeature simpleFeature, Map<String, Map<String, Object>> featurePropertiesMap) throws IOException { StringWriter stringWriter = new StringWriter(); fjson.writeFeature(simpleFeature, stringWriter); JSONObject featureAsJSON = new JSONObject(stringWriter.toString()); stringWrite... | GeoJsonResponseWriter { public static JSONObject addProperties(SimpleFeature simpleFeature, Map<String, Map<String, Object>> featurePropertiesMap) throws IOException { StringWriter stringWriter = new StringWriter(); fjson.writeFeature(simpleFeature, stringWriter); JSONObject featureAsJSON = new JSONObject(stringWriter.... | GeoJsonResponseWriter { public static JSONObject addProperties(SimpleFeature simpleFeature, Map<String, Map<String, Object>> featurePropertiesMap) throws IOException { StringWriter stringWriter = new StringWriter(); fjson.writeFeature(simpleFeature, stringWriter); JSONObject featureAsJSON = new JSONObject(stringWriter.... | GeoJsonResponseWriter { public static JSONObject addProperties(SimpleFeature simpleFeature, Map<String, Map<String, Object>> featurePropertiesMap) throws IOException { StringWriter stringWriter = new StringWriter(); fjson.writeFeature(simpleFeature, stringWriter); JSONObject featureAsJSON = new JSONObject(stringWriter.... | GeoJsonResponseWriter { public static JSONObject addProperties(SimpleFeature simpleFeature, Map<String, Map<String, Object>> featurePropertiesMap) throws IOException { StringWriter stringWriter = new StringWriter(); fjson.writeFeature(simpleFeature, stringWriter); JSONObject featureAsJSON = new JSONObject(stringWriter.... |
@Test public void TestAttchingNoSidewalkRemovesAnyAlreadyAttachedORSSidewalkTags() { ReaderWay way = new ReaderWay(1); way = processor.attachSidewalkTag(way, OSMAttachedSidewalkProcessor.Side.NONE); assertFalse(way.hasTag("ors-sidewalk-side")); way = new ReaderWay(1); way = processor.attachSidewalkTag(way, OSMAttachedS... | public ReaderWay attachSidewalkTag(ReaderWay way, Side side) { switch(side) { case LEFT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_LEFT); break; case RIGHT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_RIGHT); break; case BOTH: if(way.hasTag(KEY_ORS_SIDEWALK_SIDE) && way.getTag(KEY_ORS_SIDEWALK_SIDE).equalsIgnoreCase(VAL_LEFT)) {... | OSMAttachedSidewalkProcessor { public ReaderWay attachSidewalkTag(ReaderWay way, Side side) { switch(side) { case LEFT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_LEFT); break; case RIGHT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_RIGHT); break; case BOTH: if(way.hasTag(KEY_ORS_SIDEWALK_SIDE) && way.getTag(KEY_ORS_SIDEWALK_SIDE... | OSMAttachedSidewalkProcessor { public ReaderWay attachSidewalkTag(ReaderWay way, Side side) { switch(side) { case LEFT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_LEFT); break; case RIGHT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_RIGHT); break; case BOTH: if(way.hasTag(KEY_ORS_SIDEWALK_SIDE) && way.getTag(KEY_ORS_SIDEWALK_SIDE... | OSMAttachedSidewalkProcessor { public ReaderWay attachSidewalkTag(ReaderWay way, Side side) { switch(side) { case LEFT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_LEFT); break; case RIGHT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_RIGHT); break; case BOTH: if(way.hasTag(KEY_ORS_SIDEWALK_SIDE) && way.getTag(KEY_ORS_SIDEWALK_SIDE... | OSMAttachedSidewalkProcessor { public ReaderWay attachSidewalkTag(ReaderWay way, Side side) { switch(side) { case LEFT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_LEFT); break; case RIGHT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_RIGHT); break; case BOTH: if(way.hasTag(KEY_ORS_SIDEWALK_SIDE) && way.getTag(KEY_ORS_SIDEWALK_SIDE... |
@Test public void TestAttachingORSSidealkTagsWhenBothSidesHaveValues() { ReaderWay way = new ReaderWay(1); way = processor.attachSidewalkTag(way, OSMAttachedSidewalkProcessor.Side.BOTH); assertTrue(way.hasTag("ors-sidewalk-side")); String side = way.getTag("ors-sidewalk-side"); assertEquals("left", side); way = process... | public ReaderWay attachSidewalkTag(ReaderWay way, Side side) { switch(side) { case LEFT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_LEFT); break; case RIGHT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_RIGHT); break; case BOTH: if(way.hasTag(KEY_ORS_SIDEWALK_SIDE) && way.getTag(KEY_ORS_SIDEWALK_SIDE).equalsIgnoreCase(VAL_LEFT)) {... | OSMAttachedSidewalkProcessor { public ReaderWay attachSidewalkTag(ReaderWay way, Side side) { switch(side) { case LEFT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_LEFT); break; case RIGHT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_RIGHT); break; case BOTH: if(way.hasTag(KEY_ORS_SIDEWALK_SIDE) && way.getTag(KEY_ORS_SIDEWALK_SIDE... | OSMAttachedSidewalkProcessor { public ReaderWay attachSidewalkTag(ReaderWay way, Side side) { switch(side) { case LEFT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_LEFT); break; case RIGHT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_RIGHT); break; case BOTH: if(way.hasTag(KEY_ORS_SIDEWALK_SIDE) && way.getTag(KEY_ORS_SIDEWALK_SIDE... | OSMAttachedSidewalkProcessor { public ReaderWay attachSidewalkTag(ReaderWay way, Side side) { switch(side) { case LEFT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_LEFT); break; case RIGHT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_RIGHT); break; case BOTH: if(way.hasTag(KEY_ORS_SIDEWALK_SIDE) && way.getTag(KEY_ORS_SIDEWALK_SIDE... | OSMAttachedSidewalkProcessor { public ReaderWay attachSidewalkTag(ReaderWay way, Side side) { switch(side) { case LEFT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_LEFT); break; case RIGHT: way.setTag(KEY_ORS_SIDEWALK_SIDE, VAL_RIGHT); break; case BOTH: if(way.hasTag(KEY_ORS_SIDEWALK_SIDE) && way.getTag(KEY_ORS_SIDEWALK_SIDE... |
@Test public void TestName() { assertEquals("name", cbp.getName()); } | public String getName() { return this.name; } | CountryBordersPolygon { public String getName() { return this.name; } } | CountryBordersPolygon { public String getName() { return this.name; } CountryBordersPolygon(String name, Geometry boundary); } | CountryBordersPolygon { public String getName() { return this.name; } CountryBordersPolygon(String name, Geometry boundary); double[] getBBox(); boolean shares(MultiPolygon other); boolean crossesBoundary(LineString line); String getName(); MultiPolygon getBoundary(); boolean inBbox(Coordinate c); boolean inArea(Coordi... | CountryBordersPolygon { public String getName() { return this.name; } CountryBordersPolygon(String name, Geometry boundary); double[] getBBox(); boolean shares(MultiPolygon other); boolean crossesBoundary(LineString line); String getName(); MultiPolygon getBoundary(); boolean inBbox(Coordinate c); boolean inArea(Coordi... |
@Test public void TestBoundaryGeometry() { MultiPolygon boundary = cbp.getBoundary(); Coordinate[] cbpCoords = boundary.getCoordinates(); assertEquals(country1Geom.length, cbpCoords.length); assertEquals(country1Geom[0].x, cbpCoords[0].x, 0.0); assertEquals(country1Geom[3].y, cbpCoords[3].y,0.0); } | public MultiPolygon getBoundary() { return this.boundary; } | CountryBordersPolygon { public MultiPolygon getBoundary() { return this.boundary; } } | CountryBordersPolygon { public MultiPolygon getBoundary() { return this.boundary; } CountryBordersPolygon(String name, Geometry boundary); } | CountryBordersPolygon { public MultiPolygon getBoundary() { return this.boundary; } CountryBordersPolygon(String name, Geometry boundary); double[] getBBox(); boolean shares(MultiPolygon other); boolean crossesBoundary(LineString line); String getName(); MultiPolygon getBoundary(); boolean inBbox(Coordinate c); boolean... | CountryBordersPolygon { public MultiPolygon getBoundary() { return this.boundary; } CountryBordersPolygon(String name, Geometry boundary); double[] getBBox(); boolean shares(MultiPolygon other); boolean crossesBoundary(LineString line); String getName(); MultiPolygon getBoundary(); boolean inBbox(Coordinate c); boolean... |
@Test public void TestBBox() { double[] bbox = cbp.getBBox(); assertEquals(-1.0, bbox[0], 0.0); assertEquals(1.0, bbox[1], 0.0); assertEquals(-1.0, bbox[2], 0.0); assertEquals(2.0, bbox[3], 0.0); } | public double[] getBBox() { return new double[] {minLon, maxLon, minLat, maxLat}; } | CountryBordersPolygon { public double[] getBBox() { return new double[] {minLon, maxLon, minLat, maxLat}; } } | CountryBordersPolygon { public double[] getBBox() { return new double[] {minLon, maxLon, minLat, maxLat}; } CountryBordersPolygon(String name, Geometry boundary); } | CountryBordersPolygon { public double[] getBBox() { return new double[] {minLon, maxLon, minLat, maxLat}; } CountryBordersPolygon(String name, Geometry boundary); double[] getBBox(); boolean shares(MultiPolygon other); boolean crossesBoundary(LineString line); String getName(); MultiPolygon getBoundary(); boolean inBbo... | CountryBordersPolygon { public double[] getBBox() { return new double[] {minLon, maxLon, minLat, maxLat}; } CountryBordersPolygon(String name, Geometry boundary); double[] getBBox(); boolean shares(MultiPolygon other); boolean crossesBoundary(LineString line); String getName(); MultiPolygon getBoundary(); boolean inBbo... |
@Test public void TestIntersection() { LineString ls = gf.createLineString(new Coordinate[] { new Coordinate(0.5, 0.5), new Coordinate(-10.5, -10.5) }); assertTrue(cbp.crossesBoundary(ls)); ls = gf.createLineString(new Coordinate[] { new Coordinate(0.5, 0.5), new Coordinate(0.25, 0.25) }); assertFalse(cbp.crossesBounda... | public boolean crossesBoundary(LineString line) { return this.boundaryLine.intersects(line); } | CountryBordersPolygon { public boolean crossesBoundary(LineString line) { return this.boundaryLine.intersects(line); } } | CountryBordersPolygon { public boolean crossesBoundary(LineString line) { return this.boundaryLine.intersects(line); } CountryBordersPolygon(String name, Geometry boundary); } | CountryBordersPolygon { public boolean crossesBoundary(LineString line) { return this.boundaryLine.intersects(line); } CountryBordersPolygon(String name, Geometry boundary); double[] getBBox(); boolean shares(MultiPolygon other); boolean crossesBoundary(LineString line); String getName(); MultiPolygon getBoundary(); bo... | CountryBordersPolygon { public boolean crossesBoundary(LineString line) { return this.boundaryLine.intersects(line); } CountryBordersPolygon(String name, Geometry boundary); double[] getBBox(); boolean shares(MultiPolygon other); boolean crossesBoundary(LineString line); String getName(); MultiPolygon getBoundary(); bo... |
@Test public void TestBBoxContains() { assertTrue(cbp.inBbox(new Coordinate(0.5, 0.5))); assertFalse(cbp.inBbox(new Coordinate(10.0, 0.5))); } | public boolean inBbox(Coordinate c) { return !(c.x < minLon || c.x > maxLon || c.y < minLat || c.y > maxLat); } | CountryBordersPolygon { public boolean inBbox(Coordinate c) { return !(c.x < minLon || c.x > maxLon || c.y < minLat || c.y > maxLat); } } | CountryBordersPolygon { public boolean inBbox(Coordinate c) { return !(c.x < minLon || c.x > maxLon || c.y < minLat || c.y > maxLat); } CountryBordersPolygon(String name, Geometry boundary); } | CountryBordersPolygon { public boolean inBbox(Coordinate c) { return !(c.x < minLon || c.x > maxLon || c.y < minLat || c.y > maxLat); } CountryBordersPolygon(String name, Geometry boundary); double[] getBBox(); boolean shares(MultiPolygon other); boolean crossesBoundary(LineString line); String getName(); MultiPolygon ... | CountryBordersPolygon { public boolean inBbox(Coordinate c) { return !(c.x < minLon || c.x > maxLon || c.y < minLat || c.y > maxLat); } CountryBordersPolygon(String name, Geometry boundary); double[] getBBox(); boolean shares(MultiPolygon other); boolean crossesBoundary(LineString line); String getName(); MultiPolygon ... |
@Test public void TestDetectOpenBorder() { VirtualEdgeIteratorState ve1 = generateEdge(1); VirtualEdgeIteratorState ve2 = generateEdge(2); VirtualEdgeIteratorState ve3 = generateEdge(3); BordersExtractor be = new BordersExtractor(_graphstorage, new int[0]); assertEquals(false, be.isOpenBorder(1)); assertEquals(true, be... | public boolean isOpenBorder(int edgeId) { return storage.getEdgeValue(edgeId, BordersGraphStorage.Property.TYPE) == BordersGraphStorage.OPEN_BORDER; } | BordersExtractor { public boolean isOpenBorder(int edgeId) { return storage.getEdgeValue(edgeId, BordersGraphStorage.Property.TYPE) == BordersGraphStorage.OPEN_BORDER; } } | BordersExtractor { public boolean isOpenBorder(int edgeId) { return storage.getEdgeValue(edgeId, BordersGraphStorage.Property.TYPE) == BordersGraphStorage.OPEN_BORDER; } BordersExtractor(BordersGraphStorage storage, int[] avoidCountries); } | BordersExtractor { public boolean isOpenBorder(int edgeId) { return storage.getEdgeValue(edgeId, BordersGraphStorage.Property.TYPE) == BordersGraphStorage.OPEN_BORDER; } BordersExtractor(BordersGraphStorage storage, int[] avoidCountries); int getValue(int edgeId); boolean isBorder(int edgeId); boolean isControlledBorde... | BordersExtractor { public boolean isOpenBorder(int edgeId) { return storage.getEdgeValue(edgeId, BordersGraphStorage.Property.TYPE) == BordersGraphStorage.OPEN_BORDER; } BordersExtractor(BordersGraphStorage storage, int[] avoidCountries); int getValue(int edgeId); boolean isBorder(int edgeId); boolean isControlledBorde... |
@Test public void TestPolygonContains() { assertTrue(cbp.inArea(new Coordinate(0.5, 0.5))); assertFalse(cbp.inArea(new Coordinate(-0.5, -0.5))); } | public boolean inArea(Coordinate c) { if(!Double.isNaN(c.x) && !Double.isNaN(c.y) && inBbox(c)) { GeometryFactory gf = new GeometryFactory(); return boundary.contains(gf.createPoint(c)); } return false; } | CountryBordersPolygon { public boolean inArea(Coordinate c) { if(!Double.isNaN(c.x) && !Double.isNaN(c.y) && inBbox(c)) { GeometryFactory gf = new GeometryFactory(); return boundary.contains(gf.createPoint(c)); } return false; } } | CountryBordersPolygon { public boolean inArea(Coordinate c) { if(!Double.isNaN(c.x) && !Double.isNaN(c.y) && inBbox(c)) { GeometryFactory gf = new GeometryFactory(); return boundary.contains(gf.createPoint(c)); } return false; } CountryBordersPolygon(String name, Geometry boundary); } | CountryBordersPolygon { public boolean inArea(Coordinate c) { if(!Double.isNaN(c.x) && !Double.isNaN(c.y) && inBbox(c)) { GeometryFactory gf = new GeometryFactory(); return boundary.contains(gf.createPoint(c)); } return false; } CountryBordersPolygon(String name, Geometry boundary); double[] getBBox(); boolean shares(M... | CountryBordersPolygon { public boolean inArea(Coordinate c) { if(!Double.isNaN(c.x) && !Double.isNaN(c.y) && inBbox(c)) { GeometryFactory gf = new GeometryFactory(); return boundary.contains(gf.createPoint(c)); } return false; } CountryBordersPolygon(String name, Geometry boundary); double[] getBBox(); boolean shares(M... |
@Test public void TestGetCountry() { Coordinate c = new Coordinate(0.5, 0.5); CountryBordersPolygon[] polys = _reader.getCountry(c); assertEquals(1, polys.length); assertEquals("country1", polys[0].getName()); } | public CountryBordersPolygon[] getCountry(Coordinate c) { ArrayList<CountryBordersPolygon> countries = new ArrayList<>(); Iterator it = hierarchies.entrySet().iterator(); while(it.hasNext()) { Map.Entry<Long, CountryBordersHierarchy> pair = (Map.Entry)it.next(); CountryBordersHierarchy h = pair.getValue(); if(h.inBbox(... | CountryBordersReader { public CountryBordersPolygon[] getCountry(Coordinate c) { ArrayList<CountryBordersPolygon> countries = new ArrayList<>(); Iterator it = hierarchies.entrySet().iterator(); while(it.hasNext()) { Map.Entry<Long, CountryBordersHierarchy> pair = (Map.Entry)it.next(); CountryBordersHierarchy h = pair.g... | CountryBordersReader { public CountryBordersPolygon[] getCountry(Coordinate c) { ArrayList<CountryBordersPolygon> countries = new ArrayList<>(); Iterator it = hierarchies.entrySet().iterator(); while(it.hasNext()) { Map.Entry<Long, CountryBordersHierarchy> pair = (Map.Entry)it.next(); CountryBordersHierarchy h = pair.g... | CountryBordersReader { public CountryBordersPolygon[] getCountry(Coordinate c) { ArrayList<CountryBordersPolygon> countries = new ArrayList<>(); Iterator it = hierarchies.entrySet().iterator(); while(it.hasNext()) { Map.Entry<Long, CountryBordersHierarchy> pair = (Map.Entry)it.next(); CountryBordersHierarchy h = pair.g... | CountryBordersReader { public CountryBordersPolygon[] getCountry(Coordinate c) { ArrayList<CountryBordersPolygon> countries = new ArrayList<>(); Iterator it = hierarchies.entrySet().iterator(); while(it.hasNext()) { Map.Entry<Long, CountryBordersHierarchy> pair = (Map.Entry)it.next(); CountryBordersHierarchy h = pair.g... |
@Test public void TestGetCandidateCountry() { Coordinate c = new Coordinate(-0.25, -0.25); CountryBordersPolygon[] polys = _reader.getCandidateCountry(c); assertEquals(1, polys.length); assertEquals("country3", polys[0].getName()); } | public CountryBordersPolygon[] getCandidateCountry(Coordinate c) { ArrayList<CountryBordersPolygon> countries = new ArrayList<>(); Iterator it = hierarchies.entrySet().iterator(); while(it.hasNext()) { Map.Entry<Long, CountryBordersHierarchy> pair = (Map.Entry)it.next(); CountryBordersHierarchy h = pair.getValue(); if(... | CountryBordersReader { public CountryBordersPolygon[] getCandidateCountry(Coordinate c) { ArrayList<CountryBordersPolygon> countries = new ArrayList<>(); Iterator it = hierarchies.entrySet().iterator(); while(it.hasNext()) { Map.Entry<Long, CountryBordersHierarchy> pair = (Map.Entry)it.next(); CountryBordersHierarchy h... | CountryBordersReader { public CountryBordersPolygon[] getCandidateCountry(Coordinate c) { ArrayList<CountryBordersPolygon> countries = new ArrayList<>(); Iterator it = hierarchies.entrySet().iterator(); while(it.hasNext()) { Map.Entry<Long, CountryBordersHierarchy> pair = (Map.Entry)it.next(); CountryBordersHierarchy h... | CountryBordersReader { public CountryBordersPolygon[] getCandidateCountry(Coordinate c) { ArrayList<CountryBordersPolygon> countries = new ArrayList<>(); Iterator it = hierarchies.entrySet().iterator(); while(it.hasNext()) { Map.Entry<Long, CountryBordersHierarchy> pair = (Map.Entry)it.next(); CountryBordersHierarchy h... | CountryBordersReader { public CountryBordersPolygon[] getCandidateCountry(Coordinate c) { ArrayList<CountryBordersPolygon> countries = new ArrayList<>(); Iterator it = hierarchies.entrySet().iterator(); while(it.hasNext()) { Map.Entry<Long, CountryBordersHierarchy> pair = (Map.Entry)it.next(); CountryBordersHierarchy h... |
@Test public void TestGetCountryId() { assertEquals("1", _reader.getId("country1")); } | public String getId(String name) { if(name.equals(INTERNATIONAL_NAME)) return INTERNATIONAL_ID; if(ids.containsKey(name)) return ids.get(name).id; else return ""; } | CountryBordersReader { public String getId(String name) { if(name.equals(INTERNATIONAL_NAME)) return INTERNATIONAL_ID; if(ids.containsKey(name)) return ids.get(name).id; else return ""; } } | CountryBordersReader { public String getId(String name) { if(name.equals(INTERNATIONAL_NAME)) return INTERNATIONAL_ID; if(ids.containsKey(name)) return ids.get(name).id; else return ""; } CountryBordersReader(); CountryBordersReader(String filepath, String idsPath, String openPath); } | CountryBordersReader { public String getId(String name) { if(name.equals(INTERNATIONAL_NAME)) return INTERNATIONAL_ID; if(ids.containsKey(name)) return ids.get(name).id; else return ""; } CountryBordersReader(); CountryBordersReader(String filepath, String idsPath, String openPath); void addHierarchy(Long id, CountryB... | CountryBordersReader { public String getId(String name) { if(name.equals(INTERNATIONAL_NAME)) return INTERNATIONAL_ID; if(ids.containsKey(name)) return ids.get(name).id; else return ""; } CountryBordersReader(); CountryBordersReader(String filepath, String idsPath, String openPath); void addHierarchy(Long id, CountryB... |
@Test public void TestGetCountryEnglishName() { assertEquals("country1 English", _reader.getEngName("country1")); } | public String getEngName(String name) { if(name.equals(INTERNATIONAL_NAME)) return INTERNATIONAL_NAME; if(ids.containsKey(name)) return ids.get(name).nameEng; else return ""; } | CountryBordersReader { public String getEngName(String name) { if(name.equals(INTERNATIONAL_NAME)) return INTERNATIONAL_NAME; if(ids.containsKey(name)) return ids.get(name).nameEng; else return ""; } } | CountryBordersReader { public String getEngName(String name) { if(name.equals(INTERNATIONAL_NAME)) return INTERNATIONAL_NAME; if(ids.containsKey(name)) return ids.get(name).nameEng; else return ""; } CountryBordersReader(); CountryBordersReader(String filepath, String idsPath, String openPath); } | CountryBordersReader { public String getEngName(String name) { if(name.equals(INTERNATIONAL_NAME)) return INTERNATIONAL_NAME; if(ids.containsKey(name)) return ids.get(name).nameEng; else return ""; } CountryBordersReader(); CountryBordersReader(String filepath, String idsPath, String openPath); void addHierarchy(Long ... | CountryBordersReader { public String getEngName(String name) { if(name.equals(INTERNATIONAL_NAME)) return INTERNATIONAL_NAME; if(ids.containsKey(name)) return ids.get(name).nameEng; else return ""; } CountryBordersReader(); CountryBordersReader(String filepath, String idsPath, String openPath); void addHierarchy(Long ... |
@Test public void TestGetOpenBorder() { assertTrue(_reader.isOpen("country1", "country2")); assertFalse(_reader.isOpen("country1", "country3")); } | public boolean isOpen(String c1, String c2) { if(openBorders.containsKey(c1)) { return openBorders.get(c1).contains(c2); } else if(openBorders.containsKey(c2)) return openBorders.get(c2).contains(c1); return false; } | CountryBordersReader { public boolean isOpen(String c1, String c2) { if(openBorders.containsKey(c1)) { return openBorders.get(c1).contains(c2); } else if(openBorders.containsKey(c2)) return openBorders.get(c2).contains(c1); return false; } } | CountryBordersReader { public boolean isOpen(String c1, String c2) { if(openBorders.containsKey(c1)) { return openBorders.get(c1).contains(c2); } else if(openBorders.containsKey(c2)) return openBorders.get(c2).contains(c1); return false; } CountryBordersReader(); CountryBordersReader(String filepath, String idsPath, S... | CountryBordersReader { public boolean isOpen(String c1, String c2) { if(openBorders.containsKey(c1)) { return openBorders.get(c1).contains(c2); } else if(openBorders.containsKey(c2)) return openBorders.get(c2).contains(c1); return false; } CountryBordersReader(); CountryBordersReader(String filepath, String idsPath, S... | CountryBordersReader { public boolean isOpen(String c1, String c2) { if(openBorders.containsKey(c1)) { return openBorders.get(c1).contains(c2); } else if(openBorders.containsKey(c2)) return openBorders.get(c2).contains(c1); return false; } CountryBordersReader(); CountryBordersReader(String filepath, String idsPath, S... |
@Test public void TestGetCountryIdByISOCode() { assertEquals(1, CountryBordersReader.getCountryIdByISOCode("CT")); assertEquals(1, CountryBordersReader.getCountryIdByISOCode("CTR")); assertEquals(0, CountryBordersReader.getCountryIdByISOCode("FOO")); } | public static int getCountryIdByISOCode(String code) { return currentInstance != null ? currentInstance.isoCodes.getOrDefault(code.toUpperCase(), 0) : 0; } | CountryBordersReader { public static int getCountryIdByISOCode(String code) { return currentInstance != null ? currentInstance.isoCodes.getOrDefault(code.toUpperCase(), 0) : 0; } } | CountryBordersReader { public static int getCountryIdByISOCode(String code) { return currentInstance != null ? currentInstance.isoCodes.getOrDefault(code.toUpperCase(), 0) : 0; } CountryBordersReader(); CountryBordersReader(String filepath, String idsPath, String openPath); } | CountryBordersReader { public static int getCountryIdByISOCode(String code) { return currentInstance != null ? currentInstance.isoCodes.getOrDefault(code.toUpperCase(), 0) : 0; } CountryBordersReader(); CountryBordersReader(String filepath, String idsPath, String openPath); void addHierarchy(Long id, CountryBordersHie... | CountryBordersReader { public static int getCountryIdByISOCode(String code) { return currentInstance != null ? currentInstance.isoCodes.getOrDefault(code.toUpperCase(), 0) : 0; } CountryBordersReader(); CountryBordersReader(String filepath, String idsPath, String openPath); void addHierarchy(Long id, CountryBordersHie... |
@Test public void GetBBoxTest() { double[] bbox = cbh1.getBBox(); assertEquals(-1.0, bbox[0], 0.0); assertEquals(1.0, bbox[1], 0.0); assertEquals(-1.0, bbox[2], 0.0); assertEquals(1.0, bbox[3], 0.0); bbox = cbh2.getBBox(); assertEquals(5.0, bbox[0], 0.0); assertEquals(10.0, bbox[1], 0.0); assertEquals(5.0, bbox[2], 0.0... | public double[] getBBox() { return new double[] {minLon, maxLon, minLat, maxLat}; } | CountryBordersHierarchy { public double[] getBBox() { return new double[] {minLon, maxLon, minLat, maxLat}; } } | CountryBordersHierarchy { public double[] getBBox() { return new double[] {minLon, maxLon, minLat, maxLat}; } } | CountryBordersHierarchy { public double[] getBBox() { return new double[] {minLon, maxLon, minLat, maxLat}; } void add(CountryBordersPolygon cp); boolean inBbox(Coordinate c); double[] getBBox(); List<CountryBordersPolygon> getPolygons(); List<CountryBordersPolygon> getContainingPolygons(Coordinate c); } | CountryBordersHierarchy { public double[] getBBox() { return new double[] {minLon, maxLon, minLat, maxLat}; } void add(CountryBordersPolygon cp); boolean inBbox(Coordinate c); double[] getBBox(); List<CountryBordersPolygon> getPolygons(); List<CountryBordersPolygon> getContainingPolygons(Coordinate c); } |
@Test public void InBBoxTest() { assertTrue(cbh1.inBbox(new Coordinate(0.5, 0.5))); assertTrue(cbh1.inBbox(new Coordinate(-0.5, 0.5))); assertFalse(cbh1.inBbox(new Coordinate(7.5, 7.5))); assertFalse(cbh1.inBbox(new Coordinate(100, 100))); } | public boolean inBbox(Coordinate c) { return !(c.x <= minLon || c.x >= maxLon || c.y <= minLat || c.y >= maxLat); } | CountryBordersHierarchy { public boolean inBbox(Coordinate c) { return !(c.x <= minLon || c.x >= maxLon || c.y <= minLat || c.y >= maxLat); } } | CountryBordersHierarchy { public boolean inBbox(Coordinate c) { return !(c.x <= minLon || c.x >= maxLon || c.y <= minLat || c.y >= maxLat); } } | CountryBordersHierarchy { public boolean inBbox(Coordinate c) { return !(c.x <= minLon || c.x >= maxLon || c.y <= minLat || c.y >= maxLat); } void add(CountryBordersPolygon cp); boolean inBbox(Coordinate c); double[] getBBox(); List<CountryBordersPolygon> getPolygons(); List<CountryBordersPolygon> getContainingPolygon... | CountryBordersHierarchy { public boolean inBbox(Coordinate c) { return !(c.x <= minLon || c.x >= maxLon || c.y <= minLat || c.y >= maxLat); } void add(CountryBordersPolygon cp); boolean inBbox(Coordinate c); double[] getBBox(); List<CountryBordersPolygon> getPolygons(); List<CountryBordersPolygon> getContainingPolygon... |
@Test public void GetCountryTest() { List<CountryBordersPolygon> containing = cbh1.getContainingPolygons(new Coordinate(0.9, 0.9)); assertEquals(1, containing.size()); assertEquals("name1", containing.get(0).getName()); containing = cbh1.getContainingPolygons(new Coordinate(0.0, 0.0)); assertEquals(2, containing.size()... | public List<CountryBordersPolygon> getContainingPolygons(Coordinate c) { ArrayList<CountryBordersPolygon> containing = new ArrayList<>(); if(!Double.isNaN(c.x) && !Double.isNaN(c.y) && inBbox(c)) { for (CountryBordersPolygon cbp : polygons) { if (cbp.inBbox(c)) { containing.add(cbp); } } } return containing; } | CountryBordersHierarchy { public List<CountryBordersPolygon> getContainingPolygons(Coordinate c) { ArrayList<CountryBordersPolygon> containing = new ArrayList<>(); if(!Double.isNaN(c.x) && !Double.isNaN(c.y) && inBbox(c)) { for (CountryBordersPolygon cbp : polygons) { if (cbp.inBbox(c)) { containing.add(cbp); } } } ret... | CountryBordersHierarchy { public List<CountryBordersPolygon> getContainingPolygons(Coordinate c) { ArrayList<CountryBordersPolygon> containing = new ArrayList<>(); if(!Double.isNaN(c.x) && !Double.isNaN(c.y) && inBbox(c)) { for (CountryBordersPolygon cbp : polygons) { if (cbp.inBbox(c)) { containing.add(cbp); } } } ret... | CountryBordersHierarchy { public List<CountryBordersPolygon> getContainingPolygons(Coordinate c) { ArrayList<CountryBordersPolygon> containing = new ArrayList<>(); if(!Double.isNaN(c.x) && !Double.isNaN(c.y) && inBbox(c)) { for (CountryBordersPolygon cbp : polygons) { if (cbp.inBbox(c)) { containing.add(cbp); } } } ret... | CountryBordersHierarchy { public List<CountryBordersPolygon> getContainingPolygons(Coordinate c) { ArrayList<CountryBordersPolygon> containing = new ArrayList<>(); if(!Double.isNaN(c.x) && !Double.isNaN(c.y) && inBbox(c)) { for (CountryBordersPolygon cbp : polygons) { if (cbp.inBbox(c)) { containing.add(cbp); } } } ret... |
@Test public void TestAvoidCountry() { VirtualEdgeIteratorState ve1 = generateEdge(1); VirtualEdgeIteratorState ve2 = generateEdge(2); VirtualEdgeIteratorState ve3 = generateEdge(3); BordersExtractor be = new BordersExtractor(_graphstorage, new int[] {2, 4}); assertEquals(true, be.restrictedCountry(1)); assertEquals(tr... | public boolean restrictedCountry(int edgeId) { int startCountry = storage.getEdgeValue(edgeId, BordersGraphStorage.Property.START); int endCountry = storage.getEdgeValue(edgeId, BordersGraphStorage.Property.END); for(int i = 0; i< avoidCountries.length; i++) { if(startCountry == avoidCountries[i] || endCountry == avoid... | BordersExtractor { public boolean restrictedCountry(int edgeId) { int startCountry = storage.getEdgeValue(edgeId, BordersGraphStorage.Property.START); int endCountry = storage.getEdgeValue(edgeId, BordersGraphStorage.Property.END); for(int i = 0; i< avoidCountries.length; i++) { if(startCountry == avoidCountries[i] || ... | BordersExtractor { public boolean restrictedCountry(int edgeId) { int startCountry = storage.getEdgeValue(edgeId, BordersGraphStorage.Property.START); int endCountry = storage.getEdgeValue(edgeId, BordersGraphStorage.Property.END); for(int i = 0; i< avoidCountries.length; i++) { if(startCountry == avoidCountries[i] || ... | BordersExtractor { public boolean restrictedCountry(int edgeId) { int startCountry = storage.getEdgeValue(edgeId, BordersGraphStorage.Property.START); int endCountry = storage.getEdgeValue(edgeId, BordersGraphStorage.Property.END); for(int i = 0; i< avoidCountries.length; i++) { if(startCountry == avoidCountries[i] || ... | BordersExtractor { public boolean restrictedCountry(int edgeId) { int startCountry = storage.getEdgeValue(edgeId, BordersGraphStorage.Property.START); int endCountry = storage.getEdgeValue(edgeId, BordersGraphStorage.Property.END); for(int i = 0; i< avoidCountries.length; i++) { if(startCountry == avoidCountries[i] || ... |
@Test public void TestCreateMergedRouteResultFromBestPaths() throws Exception { List<GHResponse> responseList = new ArrayList<>(); RoutingRequest routingRequest = new RouteRequestHandler().convertRouteRequest(request1); List<RouteExtraInfo> extrasList = new ArrayList<>(); RouteResultBuilder builder = new RouteResultBui... | RouteResult createMergedRouteResultFromBestPaths(List<GHResponse> responses, RoutingRequest request, List<RouteExtraInfo>[] extras) throws Exception { RouteResult result = createInitialRouteResult(request, extras[0]); for (int ri = 0; ri < responses.size(); ++ri) { GHResponse response = responses.get(ri); if (response.... | RouteResultBuilder { RouteResult createMergedRouteResultFromBestPaths(List<GHResponse> responses, RoutingRequest request, List<RouteExtraInfo>[] extras) throws Exception { RouteResult result = createInitialRouteResult(request, extras[0]); for (int ri = 0; ri < responses.size(); ++ri) { GHResponse response = responses.g... | RouteResultBuilder { RouteResult createMergedRouteResultFromBestPaths(List<GHResponse> responses, RoutingRequest request, List<RouteExtraInfo>[] extras) throws Exception { RouteResult result = createInitialRouteResult(request, extras[0]); for (int ri = 0; ri < responses.size(); ++ri) { GHResponse response = responses.g... | RouteResultBuilder { RouteResult createMergedRouteResultFromBestPaths(List<GHResponse> responses, RoutingRequest request, List<RouteExtraInfo>[] extras) throws Exception { RouteResult result = createInitialRouteResult(request, extras[0]); for (int ri = 0; ri < responses.size(); ++ri) { GHResponse response = responses.g... | RouteResultBuilder { RouteResult createMergedRouteResultFromBestPaths(List<GHResponse> responses, RoutingRequest request, List<RouteExtraInfo>[] extras) throws Exception { RouteResult result = createInitialRouteResult(request, extras[0]); for (int ri = 0; ri < responses.size(); ++ri) { GHResponse response = responses.g... |
@Test public void getProfileType() { RouteSearchParameters routeSearchParameters = new RouteSearchParameters(); Assert.assertEquals(0, routeSearchParameters.getProfileType()); } | public int getProfileType() { return profileType; } | RouteSearchParameters { public int getProfileType() { return profileType; } } | RouteSearchParameters { public int getProfileType() { return profileType; } } | RouteSearchParameters { public int getProfileType() { return profileType; } int getProfileType(); void setProfileType(int profileType); int getWeightingMethod(); void setWeightingMethod(int weightingMethod); Polygon[] getAvoidAreas(); void setAvoidAreas(Polygon[] avoidAreas); boolean hasAvoidAreas(); int getAvoidFeatu... | RouteSearchParameters { public int getProfileType() { return profileType; } int getProfileType(); void setProfileType(int profileType); int getWeightingMethod(); void setWeightingMethod(int weightingMethod); Polygon[] getAvoidAreas(); void setAvoidAreas(Polygon[] avoidAreas); boolean hasAvoidAreas(); int getAvoidFeatu... |
@Test public void setProfileType() throws Exception { RouteSearchParameters routeSearchParameters = new RouteSearchParameters(); routeSearchParameters.setProfileType(2); Assert.assertEquals(2, routeSearchParameters.getProfileType()); } | public void setProfileType(int profileType) throws Exception { if (profileType == RoutingProfileType.UNKNOWN) throw new Exception("Routing profile is unknown."); this.profileType = profileType; } | RouteSearchParameters { public void setProfileType(int profileType) throws Exception { if (profileType == RoutingProfileType.UNKNOWN) throw new Exception("Routing profile is unknown."); this.profileType = profileType; } } | RouteSearchParameters { public void setProfileType(int profileType) throws Exception { if (profileType == RoutingProfileType.UNKNOWN) throw new Exception("Routing profile is unknown."); this.profileType = profileType; } } | RouteSearchParameters { public void setProfileType(int profileType) throws Exception { if (profileType == RoutingProfileType.UNKNOWN) throw new Exception("Routing profile is unknown."); this.profileType = profileType; } int getProfileType(); void setProfileType(int profileType); int getWeightingMethod(); void setWeigh... | RouteSearchParameters { public void setProfileType(int profileType) throws Exception { if (profileType == RoutingProfileType.UNKNOWN) throw new Exception("Routing profile is unknown."); this.profileType = profileType; } int getProfileType(); void setProfileType(int profileType); int getWeightingMethod(); void setWeigh... |
@Test public void getWeightingMethod() { RouteSearchParameters routeSearchParameters = new RouteSearchParameters(); Assert.assertEquals(WeightingMethod.FASTEST, routeSearchParameters.getWeightingMethod(), 0.0); } | public int getWeightingMethod() { return weightingMethod; } | RouteSearchParameters { public int getWeightingMethod() { return weightingMethod; } } | RouteSearchParameters { public int getWeightingMethod() { return weightingMethod; } } | RouteSearchParameters { public int getWeightingMethod() { return weightingMethod; } int getProfileType(); void setProfileType(int profileType); int getWeightingMethod(); void setWeightingMethod(int weightingMethod); Polygon[] getAvoidAreas(); void setAvoidAreas(Polygon[] avoidAreas); boolean hasAvoidAreas(); int getAv... | RouteSearchParameters { public int getWeightingMethod() { return weightingMethod; } int getProfileType(); void setProfileType(int profileType); int getWeightingMethod(); void setWeightingMethod(int weightingMethod); Polygon[] getAvoidAreas(); void setAvoidAreas(Polygon[] avoidAreas); boolean hasAvoidAreas(); int getAv... |
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