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| Code Block |
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| xml |
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| xml |
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| title | Extract of SpatialDisplay.xml |
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<gridPlotGroup id="Meteosat Images">
<gridPlot id="MeteoSat">
<timeSeriesSet>
<moduleInstanceId>ImportMeteosat</moduleInstanceId>
<valueType>grid</valueType>
<parameterId>image</parameterId>
<locationId>meteosat</locationId>
<timeSeriesType>external historical</timeSeriesType>
<timeStep unit="minute" multiplier="15"/>
<relativeViewPeriod unit="hour" start="-12" end="36"/>
<readWriteMode>read only</readWriteMode>
</timeSeriesSet>
<classBreaks>
<lowerColor>black</lowerColor>
<upperColor>white</upperColor>
<lowerValue>0</lowerValue>
<lowerValue>8</lowerValue>
<lowerValue>16</lowerValue>
<lowerValue>24</lowerValue>
<lowerValue>32</lowerValue>
<lowerValue>40</lowerValue>
<lowerValue>48</lowerValue>
<lowerValue>56</lowerValue>
<lowerValue>64</lowerValue>
<lowerValue>72</lowerValue>
<lowerValue>80</lowerValue>
<lowerValue>88</lowerValue>
<lowerValue>96</lowerValue>
<lowerValue>104</lowerValue>
<lowerValue>112</lowerValue>
<lowerValue>120</lowerValue>
<lowerValue>128</lowerValue>
<lowerValue>136</lowerValue>
<lowerValue>144</lowerValue>
<lowerValue>152</lowerValue>
<lowerValue>160</lowerValue>
<lowerValue>168</lowerValue>
<lowerValue>176</lowerValue>
<lowerValue>184</lowerValue>
<lowerValue>192</lowerValue>
<lowerValue>200</lowerValue>
<lowerValue>208</lowerValue>
<lowerValue>216</lowerValue>
<lowerValue>224</lowerValue>
<lowerValue>232</lowerValue>
<lowerColor>orange</lowerColor>
<upperColor>red</upperColor>
<lowerValue>240</lowerValue>
<lowerValue>248</lowerValue>
<lowerValue>255</lowerValue>
</classBreaks>
</gridPlot>
</gridPlotGroup>
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3D data display (example)
The following example shows how to configure 3D data originating from several computational domains in the Grid display.
| Code Block |
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| title | 3D data example for SpatialDisplay.xml |
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<gridPlot id="Arabian Gulf3D_data" name="###################3D data display">
<dataLayer>
<arrowColor>white</arrowColor>
<arrowSymbol>flow</arrowSymbol>
<multipleArrowsPerValue>false</multipleArrowsPerValue>
<uTimeSeriesSet>
<moduleInstanceId>AGM_DFlowFM <uTimeSeriesSet>
<moduleInstanceId>DFlowFM_FC</moduleInstanceId>
<valueType>grid</valueType>
<parameterId>C.simulated.u</parameterId>
<locationSetId>AG.DFlowFM/parameterId>
<locationSetId>DFlowFM_0_####</locationSetId>
<timeSeriesType>simulated forecasting</timeSeriesType>
<timeStep unit="nonequidistant"/>
<readWriteMode>read complete forecast</readWriteMode>
</uTimeSeriesSet>
<vTimeSeriesSet>
<moduleInstanceId>AGM_DFlowFM_FC</moduleInstanceId>
<valueType>grid</valueType>
<vTimeSeriesSet>
<moduleInstanceId>DFlowFM_FC</moduleInstanceId>
<valueType>grid</valueType>
<parameterId>C.simulated.v</parameterId>
<locationSetId>AG.DFlowFM <locationSetId>DFlowFM_0_####</locationSetId>
locationSetId>
<timeSeriesType>simulated forecasting</timeSeriesType>
<timeStep unit="nonequidistant"/>
<readWriteMode>read complete forecast</readWriteMode>
</vTimeSeriesSet>
</vTimeSeriesSet>
<uvAmplitudeParameterId>C.simulated.speed</uvAmplitudeParameterId>
<uvDirectionParameterId>C.simulated.dir</uvDirectionParameterId>
<sigmaScaleReferenceTimeSeriesSet>
<moduleInstanceId>AGM_DFlowFM_FC</moduleInstanceId>
<valueType>grid</valueType>
<sigmaScaleReferenceTimeSeriesSet>
<moduleInstanceId>DFlowFM_FC</moduleInstanceId>
<valueType>grid</valueType>
<parameterId>WD.simulated</parameterId>
<locationSetId>AG.DFlowFM. <locationSetId>DFlowFM.merged</locationSetId>
<timeSeriesType>simulated forecasting</timeSeriesType>
<timeStep unit="nonequidistant"/>
<readWriteMode>read complete forecast</readWriteMode>
</sigmaScaleReferenceTimeSeriesSet>
</dataLayer>
<barLegend>
<position>right</position>
<width>50</width>
<length>400</length>
<labelsInside>true</labelsInside>
</barLegend>
<classBreaksId>Class.Currents</classBreaksId>
<contourLinesColor>antique white</contourLinesColor>
</gridPlot>
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