IGenericObject Interface
Assembly: Qlik.Engine.dll
This class describes all the methods that apply at generic object level.
The handle
member in the JSON request for all methods listed in this section is the handle of the generic object.
Syntax
public interface IGenericObject : IPropertyContainer, IQixClassBase, IDisposable, IChangeNotifier
Properties
Name | Description |
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Layout | |
Properties |
Methods
Name | Description |
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AbortListObjectSearch(String) |
Aborts the results of a search in a list object. |
AbortListObjectSearchAsync(AsyncHandle, String) |
Aborts the results of a search in a list object. |
AbortListObjectSearchAsync(String) |
Aborts the results of a search in a list object. |
AcceptListObjectSearch(String, Boolean, Boolean) |
Accept the results of a search in a list object. The search results become selected in the field. |
AcceptListObjectSearchAsync(AsyncHandle, String, Boolean, Boolean) |
Accept the results of a search in a list object. The search results become selected in the field. |
AcceptListObjectSearchAsync(String, Boolean, Boolean) |
Accept the results of a search in a list object. The search results become selected in the field. |
ApplyPatches(IEnumerable<NxPatch>, Boolean) |
Applies a patch to the properties of an object. Allows an update to some of the properties. It is possible to apply a patch to the properties of a generic object, that is not persistent. Such a patch is called a soft patch. In that case, the result of the operation on the properties (add, remove or delete) is not shown when doing Properties that are not persistent are called soft properties. Once the engine session is over, soft properties are cleared. It should not be possible to patch "/qInfo/qId", and it will be forbidden in the near future. |
ApplyPatchesAsync(AsyncHandle, IEnumerable<NxPatch>, Boolean) |
Applies a patch to the properties of an object. Allows an update to some of the properties. It is possible to apply a patch to the properties of a generic object, that is not persistent. Such a patch is called a soft patch. In that case, the result of the operation on the properties (add, remove or delete) is not shown when doing Properties that are not persistent are called soft properties. Once the engine session is over, soft properties are cleared. It should not be possible to patch "/qInfo/qId", and it will be forbidden in the near future. |
ApplyPatchesAsync(IEnumerable<NxPatch>, Boolean) |
Applies a patch to the properties of an object. Allows an update to some of the properties. It is possible to apply a patch to the properties of a generic object, that is not persistent. Such a patch is called a soft patch. In that case, the result of the operation on the properties (add, remove or delete) is not shown when doing Properties that are not persistent are called soft properties. Once the engine session is over, soft properties are cleared. It should not be possible to patch "/qInfo/qId", and it will be forbidden in the near future. |
Approve() |
Adds the generic object to the list of approved objects |
ApproveAsync() |
Adds the generic object to the list of approved objects |
ApproveAsync(AsyncHandle) |
Adds the generic object to the list of approved objects |
BeginSelections(IEnumerable<String>) |
Begins the selection mode. The app enters the modal state. The specified object enters the selection mode and a modal window is opened. The selection mode can apply to only one object in an app at a time. When a visualization is in selection mode, selections can be made in this visualization. The visualization is not sorted until the selection mode is ended. Once the selection mode is ended and if the selections are accepted, the visualization is sorted according to the sort criteria. For more information about: * Ending the selection mode, see * The sort criteria, see ExampleA sheet contains a list object and a chart. If the list object is in selection mode then the chart cannot be in selection mode. No selection on the chart can be made until the list object exits the selection mode. |
BeginSelectionsAsync(AsyncHandle, IEnumerable<String>) |
Begins the selection mode. The app enters the modal state. The specified object enters the selection mode and a modal window is opened. The selection mode can apply to only one object in an app at a time. When a visualization is in selection mode, selections can be made in this visualization. The visualization is not sorted until the selection mode is ended. Once the selection mode is ended and if the selections are accepted, the visualization is sorted according to the sort criteria. For more information about: * Ending the selection mode, see * The sort criteria, see ExampleA sheet contains a list object and a chart. If the list object is in selection mode then the chart cannot be in selection mode. No selection on the chart can be made until the list object exits the selection mode. |
BeginSelectionsAsync(IEnumerable<String>) |
Begins the selection mode. The app enters the modal state. The specified object enters the selection mode and a modal window is opened. The selection mode can apply to only one object in an app at a time. When a visualization is in selection mode, selections can be made in this visualization. The visualization is not sorted until the selection mode is ended. Once the selection mode is ended and if the selections are accepted, the visualization is sorted according to the sort criteria. For more information about: * Ending the selection mode, see * The sort criteria, see ExampleA sheet contains a list object and a chart. If the list object is in selection mode then the chart cannot be in selection mode. No selection on the chart can be made until the list object exits the selection mode. |
ClearSelections(String, IEnumerable<Int32>) |
Clears the selections in a dimension of a visualization. |
ClearSelectionsAsync(AsyncHandle, String, IEnumerable<Int32>) |
Clears the selections in a dimension of a visualization. |
ClearSelectionsAsync(String, IEnumerable<Int32>) |
Clears the selections in a dimension of a visualization. |
ClearSoftPatches() |
Clears the soft properties of a generic object. For more information on how to add soft properties to a generic object, see |
ClearSoftPatchesAsync() |
Clears the soft properties of a generic object. For more information on how to add soft properties to a generic object, see |
ClearSoftPatchesAsync(AsyncHandle) |
Clears the soft properties of a generic object. For more information on how to add soft properties to a generic object, see |
CollapseLeft(String, Int32, Int32, Boolean) |
Collapses the left dimensions of a pivot table. This method applies only to pivot tables that are not always fully expanded. In the definition of the hypercube (in |
CollapseLeftAsync(AsyncHandle, String, Int32, Int32, Boolean) |
Collapses the left dimensions of a pivot table. This method applies only to pivot tables that are not always fully expanded. In the definition of the hypercube (in |
CollapseLeftAsync(String, Int32, Int32, Boolean) |
Collapses the left dimensions of a pivot table. This method applies only to pivot tables that are not always fully expanded. In the definition of the hypercube (in |
CollapseTop(String, Int32, Int32, Boolean) |
Collapses the top dimensions of a pivot table. This method applies only to pivot tables that are not always fully expanded. In the definition of the hypercube (in |
CollapseTopAsync(AsyncHandle, String, Int32, Int32, Boolean) |
Collapses the top dimensions of a pivot table. This method applies only to pivot tables that are not always fully expanded. In the definition of the hypercube (in |
CollapseTopAsync(String, Int32, Int32, Boolean) |
Collapses the top dimensions of a pivot table. This method applies only to pivot tables that are not always fully expanded. In the definition of the hypercube (in |
CopyFrom(String) |
Copies the properties of a generic object and its children. The source object is specified by the parameter |
CopyFromAsync(AsyncHandle, String) |
Copies the properties of a generic object and its children. The source object is specified by the parameter |
CopyFromAsync(String) |
Copies the properties of a generic object and its children. The source object is specified by the parameter |
CreateChild<T>(GenericObjectProperties, GenericObjectProperties) |
Creation of child generic object |
CreateChildAsync<T>(AsyncHandle, Func<Response, T>, GenericObjectProperties, GenericObjectProperties) |
Creation of child generic object |
CreateChildAsync<T>(GenericObjectProperties, GenericObjectProperties) |
Creation of child generic object |
DefCount() |
Retrieves the total number of HyperCube/ListObject definitions contained in this generic object |
DefCountAsync() |
Retrieves the total number of HyperCube/ListObject definitions contained in this generic object asynchronously |
DefPathAtIndex(Int32) |
Converts an existing index to its equivalent path value |
DefPathAtIndex(Int32[]) |
Converts existing index values to their equivalent path values |
DefPathAtIndexAsync(Int32) |
Converts an existing index to its equivalent path value asynchronously |
DefPathAtIndexAsync(Int32[]) |
Converts existing index values to their equivalent path values asynchronously |
DestroyAllChildren(GenericObjectProperties) |
Removes all children and all children to the children on an object. |
DestroyAllChildrenAsync(AsyncHandle, GenericObjectProperties) |
Removes all children and all children to the children on an object. |
DestroyAllChildrenAsync(GenericObjectProperties) |
Removes all children and all children to the children on an object. |
DestroyChild(String, GenericObjectProperties) |
Removes a child object. |
DestroyChildAsync(AsyncHandle, String, GenericObjectProperties) |
Removes a child object. |
DestroyChildAsync(String, GenericObjectProperties) |
Removes a child object. |
DestroyChildAsync<T>(AsyncHandle, Func<Response, T>, String, GenericObjectProperties) |
Removes a child object. |
DrillUp(String, Int32, Int32) |
You can use the drillUp method with any object that contains a drill-down group as a dimension. This method allows you to move between different levels of information (from a detailed level to a less detailed level of information). You can go back to previous visualizations up to the highest level of the hierarchy. If you try to drill up more steps than there are available levels, the first level of the hierarchy is displayed. |
DrillUpAsync(AsyncHandle, String, Int32, Int32) |
You can use the drillUp method with any object that contains a drill-down group as a dimension. This method allows you to move between different levels of information (from a detailed level to a less detailed level of information). You can go back to previous visualizations up to the highest level of the hierarchy. If you try to drill up more steps than there are available levels, the first level of the hierarchy is displayed. |
DrillUpAsync(String, Int32, Int32) |
You can use the drillUp method with any object that contains a drill-down group as a dimension. This method allows you to move between different levels of information (from a detailed level to a less detailed level of information). You can go back to previous visualizations up to the highest level of the hierarchy. If you try to drill up more steps than there are available levels, the first level of the hierarchy is displayed. |
EmbedSnapshotObject(String) |
Adds a snapshot to a generic object. |
EmbedSnapshotObjectAsync(AsyncHandle, String) |
Adds a snapshot to a generic object. |
EmbedSnapshotObjectAsync(String) |
Adds a snapshot to a generic object. |
EndSelections(Boolean) |
Ends the selection mode on a visualization. The selections are accepted or aborted when exiting the selection mode, depending on the |
EndSelectionsAsync(AsyncHandle, Boolean) |
Ends the selection mode on a visualization. The selections are accepted or aborted when exiting the selection mode, depending on the |
EndSelectionsAsync(Boolean) |
Ends the selection mode on a visualization. The selections are accepted or aborted when exiting the selection mode, depending on the |
ExpandLeft(String, Int32, Int32, Boolean) |
Expands the left dimensions of a pivot table. This method applies only to pivot tables that are not always fully expanded. In the definition of the hypercube (in |
ExpandLeftAsync(AsyncHandle, String, Int32, Int32, Boolean) |
Expands the left dimensions of a pivot table. This method applies only to pivot tables that are not always fully expanded. In the definition of the hypercube (in |
ExpandLeftAsync(String, Int32, Int32, Boolean) |
Expands the left dimensions of a pivot table. This method applies only to pivot tables that are not always fully expanded. In the definition of the hypercube (in |
ExpandTop(String, Int32, Int32, Boolean) |
Expands the top dimensions of a pivot table. This method applies only to pivot tables that are not always fully expanded. In the definition of the hypercube (in |
ExpandTopAsync(AsyncHandle, String, Int32, Int32, Boolean) |
Expands the top dimensions of a pivot table. This method applies only to pivot tables that are not always fully expanded. In the definition of the hypercube (in |
ExpandTopAsync(String, Int32, Int32, Boolean) |
Expands the top dimensions of a pivot table. This method applies only to pivot tables that are not always fully expanded. In the definition of the hypercube (in |
ExportData(NxExportFileType, String, String, NxExportState, Boolean) |
Exports the data of any generic object to an Excel file or a open XML file. If the object contains excluded values, those excluded values are not exported. This API has limited functionality and will not support CSV export from all types of objects. Consider using Excel export instead. Treemap and bar chart are not supported. Default limitations in number of rows and columnsThe default maximum number of rows and columns in the Excel export file is: * 1048566 rows per sheet. For pivot tables: 1048566 column dimensions. 10 rows can be added after the export. * 16384 columns per sheet. If the number of columns exceeds the limit, the exported file is truncated and a warning message is sent. Default limitation in number of columnsThe default maximum number of columns in the export file is: * 1000 to export to a CSV file The exported file is truncated if the number of cells exceeds the limit. A warning message with code 1000 is sent. Default limitation in sizeIf the exported file is larger than the maximum value, then an out-of-memory error with code 13000 is returned. |
ExportDataAsync(AsyncHandle, NxExportFileType, String, String, NxExportState, Boolean) |
Exports the data of any generic object to an Excel file or a open XML file. If the object contains excluded values, those excluded values are not exported. This API has limited functionality and will not support CSV export from all types of objects. Consider using Excel export instead. Treemap and bar chart are not supported. Default limitations in number of rows and columnsThe default maximum number of rows and columns in the Excel export file is: * 1048566 rows per sheet. For pivot tables: 1048566 column dimensions. 10 rows can be added after the export. * 16384 columns per sheet. If the number of columns exceeds the limit, the exported file is truncated and a warning message is sent. Default limitation in number of columnsThe default maximum number of columns in the export file is: * 1000 to export to a CSV file The exported file is truncated if the number of cells exceeds the limit. A warning message with code 1000 is sent. Default limitation in sizeIf the exported file is larger than the maximum value, then an out-of-memory error with code 13000 is returned. |
ExportDataAsync(NxExportFileType, String, String, NxExportState, Boolean) |
Exports the data of any generic object to an Excel file or a open XML file. If the object contains excluded values, those excluded values are not exported. This API has limited functionality and will not support CSV export from all types of objects. Consider using Excel export instead. Treemap and bar chart are not supported. Default limitations in number of rows and columnsThe default maximum number of rows and columns in the Excel export file is: * 1048566 rows per sheet. For pivot tables: 1048566 column dimensions. 10 rows can be added after the export. * 16384 columns per sheet. If the number of columns exceeds the limit, the exported file is truncated and a warning message is sent. Default limitation in number of columnsThe default maximum number of columns in the export file is: * 1000 to export to a CSV file The exported file is truncated if the number of cells exceeds the limit. A warning message with code 1000 is sent. Default limitation in sizeIf the exported file is larger than the maximum value, then an out-of-memory error with code 13000 is returned. |
ExportDataAsync<T>(AsyncHandle, Func<Response, T>, NxExportFileType, String, String, NxExportState, Boolean) |
Exports the data of any generic object to an Excel file or a open XML file. If the object contains excluded values, those excluded values are not exported. This API has limited functionality and will not support CSV export from all types of objects. Consider using Excel export instead. Treemap and bar chart are not supported. Default limitations in number of rows and columnsThe default maximum number of rows and columns in the Excel export file is: * 1048566 rows per sheet. For pivot tables: 1048566 column dimensions. 10 rows can be added after the export. * 16384 columns per sheet. If the number of columns exceeds the limit, the exported file is truncated and a warning message is sent. Default limitation in number of columnsThe default maximum number of columns in the export file is: * 1000 to export to a CSV file The exported file is truncated if the number of cells exceeds the limit. A warning message with code 1000 is sent. Default limitation in sizeIf the exported file is larger than the maximum value, then an out-of-memory error with code 13000 is returned. |
GetAllHyperCubePagers() |
Get hypercube paging interfaces for all hypercubes in the object. |
GetAllListObjectPagers() |
Get list object paging interfaces for all list objects in the object. |
GetChild(String) |
Returns the type of the object and the corresponding handle. |
GetChildAsync(AsyncHandle, String) |
Returns the type of the object and the corresponding handle. |
GetChildAsync(String) |
Returns the type of the object and the corresponding handle. |
GetChildAsync<T>(AsyncHandle, Func<Response, T>, String) |
Returns the type of the object and the corresponding handle. |
GetChildInfos() |
Returns the identifier and the type for each child in an app object. If the child contains extra properties in Full dynamic properties are optional and are returned if they exist in the definition of the object. |
GetChildInfosAsync() |
Returns the identifier and the type for each child in an app object. If the child contains extra properties in Full dynamic properties are optional and are returned if they exist in the definition of the object. |
GetChildInfosAsync(AsyncHandle) |
Returns the identifier and the type for each child in an app object. If the child contains extra properties in Full dynamic properties are optional and are returned if they exist in the definition of the object. |
GetChildInfosAsync<T>(AsyncHandle, Func<Response, T>) |
Returns the identifier and the type for each child in an app object. If the child contains extra properties in Full dynamic properties are optional and are returned if they exist in the definition of the object. |
GetEffectiveProperties() |
Returns the identifier, the type and the properties of the object. If the object contains some soft properties, the soft properties are returned. If the object is linked to another object, the properties of the linking object are returned. |
GetEffectivePropertiesAsync() |
Returns the identifier, the type and the properties of the object. If the object contains some soft properties, the soft properties are returned. If the object is linked to another object, the properties of the linking object are returned. |
GetEffectivePropertiesAsync(AsyncHandle) |
Returns the identifier, the type and the properties of the object. If the object contains some soft properties, the soft properties are returned. If the object is linked to another object, the properties of the linking object are returned. |
GetEffectivePropertiesAsync<T>(AsyncHandle, Func<Response, T>) |
Returns the identifier, the type and the properties of the object. If the object contains some soft properties, the soft properties are returned. If the object is linked to another object, the properties of the linking object are returned. |
GetFullPropertyTree() |
Gets the properties of: * A generic object. * The children of the generic object. * The bookmarks/embedded snapshots of the generic object. |
GetFullPropertyTreeAsync() |
Gets the properties of: * A generic object. * The children of the generic object. * The bookmarks/embedded snapshots of the generic object. |
GetFullPropertyTreeAsync(AsyncHandle) |
Gets the properties of: * A generic object. * The children of the generic object. * The bookmarks/embedded snapshots of the generic object. |
GetFullPropertyTreeAsync<T>(AsyncHandle, Func<Response, T>) |
Gets the properties of: * A generic object. * The children of the generic object. * The bookmarks/embedded snapshots of the generic object. |
GetHyperCubeBinnedData(String, IEnumerable<NxPage>, NxViewPort, IEnumerable<NxDataAreaPage>, Int32, Int32, Int32) |
This method supports data binning. When a generic object with two or three measures and one dimension contains a lot of data, groups of points (for example, cells) can be rendered instead of points. A zone of interest can be refined (for zooming in) up to a maximum refinement level (set in the The grid of cells is adaptive (not static), meaning that it adapts to different length scales. The The number of points in a cell and the coordinates (expressed in the measure range) of each cell are returned. Dimension values and measure values are rendered at point level (highest detailed level). Adaptive GridMore details about the properties of the adaptive grid are given in this paragraph. When the refinement is not the highest (cells are rendered), information about the adaptive grid is returned through several arrays. The first array contains the following properties: Please refer to Engine API reference for table definition. The next arrays give the coordinates of each cell in the page. Each array contains the following properties: Please refer to Engine API reference for table definition. Dimension values and measures valuesMore details about the properties, when dimension and measure values are returned, are given in this paragraph. When the refinement is high, points are rendered (not cells) and dimension and measure values for each cell are returned. The first array is empty because no information on the adaptive grid is needed. The next arrays bring information about the dimension and the measure values. Please refer to Engine API reference for table definition. |
GetHyperCubeBinnedDataAsync(AsyncHandle, String, IEnumerable<NxPage>, NxViewPort, IEnumerable<NxDataAreaPage>, Int32, Int32, Int32) |
This method supports data binning. When a generic object with two or three measures and one dimension contains a lot of data, groups of points (for example, cells) can be rendered instead of points. A zone of interest can be refined (for zooming in) up to a maximum refinement level (set in the The grid of cells is adaptive (not static), meaning that it adapts to different length scales. The The number of points in a cell and the coordinates (expressed in the measure range) of each cell are returned. Dimension values and measure values are rendered at point level (highest detailed level). Adaptive GridMore details about the properties of the adaptive grid are given in this paragraph. When the refinement is not the highest (cells are rendered), information about the adaptive grid is returned through several arrays. The first array contains the following properties: Please refer to Engine API reference for table definition. The next arrays give the coordinates of each cell in the page. Each array contains the following properties: Please refer to Engine API reference for table definition. Dimension values and measures valuesMore details about the properties, when dimension and measure values are returned, are given in this paragraph. When the refinement is high, points are rendered (not cells) and dimension and measure values for each cell are returned. The first array is empty because no information on the adaptive grid is needed. The next arrays bring information about the dimension and the measure values. Please refer to Engine API reference for table definition. |
GetHyperCubeBinnedDataAsync(String, IEnumerable<NxPage>, NxViewPort, IEnumerable<NxDataAreaPage>, Int32, Int32, Int32) |
This method supports data binning. When a generic object with two or three measures and one dimension contains a lot of data, groups of points (for example, cells) can be rendered instead of points. A zone of interest can be refined (for zooming in) up to a maximum refinement level (set in the The grid of cells is adaptive (not static), meaning that it adapts to different length scales. The The number of points in a cell and the coordinates (expressed in the measure range) of each cell are returned. Dimension values and measure values are rendered at point level (highest detailed level). Adaptive GridMore details about the properties of the adaptive grid are given in this paragraph. When the refinement is not the highest (cells are rendered), information about the adaptive grid is returned through several arrays. The first array contains the following properties: Please refer to Engine API reference for table definition. The next arrays give the coordinates of each cell in the page. Each array contains the following properties: Please refer to Engine API reference for table definition. Dimension values and measures valuesMore details about the properties, when dimension and measure values are returned, are given in this paragraph. When the refinement is high, points are rendered (not cells) and dimension and measure values for each cell are returned. The first array is empty because no information on the adaptive grid is needed. The next arrays bring information about the dimension and the measure values. Please refer to Engine API reference for table definition. |
GetHyperCubeBinnedDataAsync<T>(AsyncHandle, Func<Response, T>, String, IEnumerable<NxPage>, NxViewPort, IEnumerable<NxDataAreaPage>, Int32, Int32, Int32) |
This method supports data binning. When a generic object with two or three measures and one dimension contains a lot of data, groups of points (for example, cells) can be rendered instead of points. A zone of interest can be refined (for zooming in) up to a maximum refinement level (set in the The grid of cells is adaptive (not static), meaning that it adapts to different length scales. The The number of points in a cell and the coordinates (expressed in the measure range) of each cell are returned. Dimension values and measure values are rendered at point level (highest detailed level). Adaptive GridMore details about the properties of the adaptive grid are given in this paragraph. When the refinement is not the highest (cells are rendered), information about the adaptive grid is returned through several arrays. The first array contains the following properties: Please refer to Engine API reference for table definition. The next arrays give the coordinates of each cell in the page. Each array contains the following properties: Please refer to Engine API reference for table definition. Dimension values and measures valuesMore details about the properties, when dimension and measure values are returned, are given in this paragraph. When the refinement is high, points are rendered (not cells) and dimension and measure values for each cell are returned. The first array is empty because no information on the adaptive grid is needed. The next arrays bring information about the dimension and the measure values. Please refer to Engine API reference for table definition. |
GetHyperCubeContinuousData(String, NxContinuousDataOptions, Boolean) |
Retrieves and packs compressed hypercube and axis data. It is possible to retrieve specific pages of data. |
GetHyperCubeContinuousDataAsync(AsyncHandle, String, NxContinuousDataOptions, Boolean) |
Retrieves and packs compressed hypercube and axis data. It is possible to retrieve specific pages of data. |
GetHyperCubeContinuousDataAsync(String, NxContinuousDataOptions, Boolean) |
Retrieves and packs compressed hypercube and axis data. It is possible to retrieve specific pages of data. |
GetHyperCubeContinuousDataAsync<T>(AsyncHandle, Func<Response, T>, String, NxContinuousDataOptions, Boolean) |
Retrieves and packs compressed hypercube and axis data. It is possible to retrieve specific pages of data. |
GetHyperCubeData(String, IEnumerable<NxPage>) |
Retrieves the calculated data for a chart, a table, or a scatter plot. It is possible to retrieve specific pages of data. A data set is returned. |
GetHyperCubeDataAsync(AsyncHandle, String, IEnumerable<NxPage>) |
Retrieves the calculated data for a chart, a table, or a scatter plot. It is possible to retrieve specific pages of data. A data set is returned. |
GetHyperCubeDataAsync(String, IEnumerable<NxPage>) |
Retrieves the calculated data for a chart, a table, or a scatter plot. It is possible to retrieve specific pages of data. A data set is returned. |
GetHyperCubeDataAsync<T>(AsyncHandle, Func<Response, T>, String, IEnumerable<NxPage>) |
Retrieves the calculated data for a chart, a table, or a scatter plot. It is possible to retrieve specific pages of data. A data set is returned. |
GetHyperCubePager(String) |
Get a hypercube paging interface for a hypercube at the specified path. |
GetHyperCubePivotData(String, IEnumerable<NxPage>) |
Retrieves the values of a pivot table. It is possible to retrieve specific pages of data. |
GetHyperCubePivotDataAsync(AsyncHandle, String, IEnumerable<NxPage>) |
Retrieves the values of a pivot table. It is possible to retrieve specific pages of data. |
GetHyperCubePivotDataAsync(String, IEnumerable<NxPage>) |
Retrieves the values of a pivot table. It is possible to retrieve specific pages of data. |
GetHyperCubePivotDataAsync<T>(AsyncHandle, Func<Response, T>, String, IEnumerable<NxPage>) |
Retrieves the values of a pivot table. It is possible to retrieve specific pages of data. |
GetHyperCubeReducedData(String, IEnumerable<NxPage>, Int32, NxDataReductionMode) |
Reduces the data of a bar chart, a line chart or a scatter plot chart and retrieves them. The reduction is dependent on the zoom factor (parameter Bar chart or line chart data reductionFor the data reduction to happen, the following conditions must be fulfilled: * The values cannot fit in the defined page (parameter * The zoom factor is not 0 (parameter * The reduction mode must be set to D1. The reduction algorithm keeps the shape of the visualizations and works whatever the number of dimensions in the chart. The global profile of the chart is reduced, and not only a specific dimension. A visualization that has been reduced contains fewer values but its shape is the same. Data of all types can be reduced. Therefore it is hard to relate the values before and after a reduction especially when reducing string values. ExampleIf you have a chart with 1 million data, and you have set the zoom factor to 5, the Scatter plot chart data reductionThe reduction mode must be set to C. This reduction mechanism follows the 2D K-Means algorithm. Data are reduced into a number of clusters. Each data is assigned to a specific centroid. The number of centroids can be defined in the parameter Scatter plot chart resolution reductionThe reduction mode must be set to S. The resolution is reduced according to the zoom factor (parameter ExampleIf you have a scatter plot chart and the zoom factor is set to 2, the scatter plot chart resolution is reduced by 4. |
GetHyperCubeReducedDataAsync(AsyncHandle, String, IEnumerable<NxPage>, Int32, NxDataReductionMode) |
Reduces the data of a bar chart, a line chart or a scatter plot chart and retrieves them. The reduction is dependent on the zoom factor (parameter Bar chart or line chart data reductionFor the data reduction to happen, the following conditions must be fulfilled: * The values cannot fit in the defined page (parameter * The zoom factor is not 0 (parameter * The reduction mode must be set to D1. The reduction algorithm keeps the shape of the visualizations and works whatever the number of dimensions in the chart. The global profile of the chart is reduced, and not only a specific dimension. A visualization that has been reduced contains fewer values but its shape is the same. Data of all types can be reduced. Therefore it is hard to relate the values before and after a reduction especially when reducing string values. ExampleIf you have a chart with 1 million data, and you have set the zoom factor to 5, the Scatter plot chart data reductionThe reduction mode must be set to C. This reduction mechanism follows the 2D K-Means algorithm. Data are reduced into a number of clusters. Each data is assigned to a specific centroid. The number of centroids can be defined in the parameter Scatter plot chart resolution reductionThe reduction mode must be set to S. The resolution is reduced according to the zoom factor (parameter ExampleIf you have a scatter plot chart and the zoom factor is set to 2, the scatter plot chart resolution is reduced by 4. |
GetHyperCubeReducedDataAsync(String, IEnumerable<NxPage>, Int32, NxDataReductionMode) |
Reduces the data of a bar chart, a line chart or a scatter plot chart and retrieves them. The reduction is dependent on the zoom factor (parameter Bar chart or line chart data reductionFor the data reduction to happen, the following conditions must be fulfilled: * The values cannot fit in the defined page (parameter * The zoom factor is not 0 (parameter * The reduction mode must be set to D1. The reduction algorithm keeps the shape of the visualizations and works whatever the number of dimensions in the chart. The global profile of the chart is reduced, and not only a specific dimension. A visualization that has been reduced contains fewer values but its shape is the same. Data of all types can be reduced. Therefore it is hard to relate the values before and after a reduction especially when reducing string values. ExampleIf you have a chart with 1 million data, and you have set the zoom factor to 5, the Scatter plot chart data reductionThe reduction mode must be set to C. This reduction mechanism follows the 2D K-Means algorithm. Data are reduced into a number of clusters. Each data is assigned to a specific centroid. The number of centroids can be defined in the parameter Scatter plot chart resolution reductionThe reduction mode must be set to S. The resolution is reduced according to the zoom factor (parameter ExampleIf you have a scatter plot chart and the zoom factor is set to 2, the scatter plot chart resolution is reduced by 4. |
GetHyperCubeReducedDataAsync<T>(AsyncHandle, Func<Response, T>, String, IEnumerable<NxPage>, Int32, NxDataReductionMode) |
Reduces the data of a bar chart, a line chart or a scatter plot chart and retrieves them. The reduction is dependent on the zoom factor (parameter Bar chart or line chart data reductionFor the data reduction to happen, the following conditions must be fulfilled: * The values cannot fit in the defined page (parameter * The zoom factor is not 0 (parameter * The reduction mode must be set to D1. The reduction algorithm keeps the shape of the visualizations and works whatever the number of dimensions in the chart. The global profile of the chart is reduced, and not only a specific dimension. A visualization that has been reduced contains fewer values but its shape is the same. Data of all types can be reduced. Therefore it is hard to relate the values before and after a reduction especially when reducing string values. ExampleIf you have a chart with 1 million data, and you have set the zoom factor to 5, the Scatter plot chart data reductionThe reduction mode must be set to C. This reduction mechanism follows the 2D K-Means algorithm. Data are reduced into a number of clusters. Each data is assigned to a specific centroid. The number of centroids can be defined in the parameter Scatter plot chart resolution reductionThe reduction mode must be set to S. The resolution is reduced according to the zoom factor (parameter ExampleIf you have a scatter plot chart and the zoom factor is set to 2, the scatter plot chart resolution is reduced by 4. |
GetHyperCubeStackData(String, IEnumerable<NxPage>, Int32) |
Retrieves the values of a stacked pivot table. It is possible to retrieve specific pages of data. |
GetHyperCubeStackDataAsync(AsyncHandle, String, IEnumerable<NxPage>, Int32) |
Retrieves the values of a stacked pivot table. It is possible to retrieve specific pages of data. |
GetHyperCubeStackDataAsync(String, IEnumerable<NxPage>, Int32) |
Retrieves the values of a stacked pivot table. It is possible to retrieve specific pages of data. |
GetHyperCubeStackDataAsync<T>(AsyncHandle, Func<Response, T>, String, IEnumerable<NxPage>, Int32) |
Retrieves the values of a stacked pivot table. It is possible to retrieve specific pages of data. |
GetHyperCubeTreeData(String, NxTreeDataOption) |
Retrieves data for nodes in a tree structure. It is possible to retrieve specific pages of data. |
GetHyperCubeTreeDataAsync(AsyncHandle, String, NxTreeDataOption) |
Retrieves data for nodes in a tree structure. It is possible to retrieve specific pages of data. |
GetHyperCubeTreeDataAsync(String, NxTreeDataOption) |
Retrieves data for nodes in a tree structure. It is possible to retrieve specific pages of data. |
GetHyperCubeTreeDataAsync<T>(AsyncHandle, Func<Response, T>, String, NxTreeDataOption) |
Retrieves data for nodes in a tree structure. It is possible to retrieve specific pages of data. |
GetInfo() |
Returns the type and identifier of the object. |
GetInfoAsync() |
Returns the type and identifier of the object. |
GetInfoAsync(AsyncHandle) |
Returns the type and identifier of the object. |
GetInfoAsync<T>(AsyncHandle, Func<Response, T>) |
Returns the type and identifier of the object. |
GetLayout() |
Evaluates an object and displays its properties including the dynamic properties. If the member Example:
Please refer to Engine API reference for illustrations. A A A |
GetLayoutAsync() |
Evaluates an object and displays its properties including the dynamic properties. If the member Example:
Please refer to Engine API reference for illustrations. A A A |
GetLayoutAsync(AsyncHandle) |
Evaluates an object and displays its properties including the dynamic properties. If the member Example:
Please refer to Engine API reference for illustrations. A A A |
GetLinkedObjects() |
Lists the linked objects to a generic object, a dimension or a measure. |
GetLinkedObjectsAsync() |
Lists the linked objects to a generic object, a dimension or a measure. |
GetLinkedObjectsAsync(AsyncHandle) |
Lists the linked objects to a generic object, a dimension or a measure. |
GetLinkedObjectsAsync<T>(AsyncHandle, Func<Response, T>) |
Lists the linked objects to a generic object, a dimension or a measure. |
GetListObjectData(String, IEnumerable<NxPage>) |
Retrieves the values of a list object. A data set is returned. |
GetListObjectDataAsync(AsyncHandle, String, IEnumerable<NxPage>) |
Retrieves the values of a list object. A data set is returned. |
GetListObjectDataAsync(String, IEnumerable<NxPage>) |
Retrieves the values of a list object. A data set is returned. |
GetListObjectDataAsync<T>(AsyncHandle, Func<Response, T>, String, IEnumerable<NxPage>) |
Retrieves the values of a list object. A data set is returned. |
GetListObjectPager(String) |
Get a list object paging interface for a list box at the specified path. |
GetParent() |
Returns the type of the object and the corresponding handle to the parent object in the hiearchy. |
GetParentAsync() |
Returns the type of the object and the corresponding handle to the parent object in the hiearchy. |
GetParentAsync(AsyncHandle) |
Returns the type of the object and the corresponding handle to the parent object in the hiearchy. |
GetParentAsync<T>(AsyncHandle, Func<Response, T>) |
Returns the type of the object and the corresponding handle to the parent object in the hiearchy. |
GetProperties() |
Returns the identifier, the type and the properties of the object. Because it is not mandatory to set all properties when you define an object, the If the object contains some soft properties, the soft properties are not returned by the If the object is linked to another object, the properties of the linking object are not returned by the |
GetPropertiesAsync() |
Returns the identifier, the type and the properties of the object. Because it is not mandatory to set all properties when you define an object, the If the object contains some soft properties, the soft properties are not returned by the If the object is linked to another object, the properties of the linking object are not returned by the |
GetPropertiesAsync(AsyncHandle) |
Returns the identifier, the type and the properties of the object. Because it is not mandatory to set all properties when you define an object, the If the object contains some soft properties, the soft properties are not returned by the If the object is linked to another object, the properties of the linking object are not returned by the |
GetSnapshotObject() |
Returns the type of the object and the corresponding handle. |
GetSnapshotObjectAsync() |
Returns the type of the object and the corresponding handle. |
GetSnapshotObjectAsync(AsyncHandle) |
Returns the type of the object and the corresponding handle. |
GetSnapshotObjectAsync<T>(AsyncHandle, Func<Response, T>) |
Returns the type of the object and the corresponding handle. |
IndexOfDefPath(String) |
Converts an existing path to its equivalent index value |
IndexOfDefPath(String[]) |
Converts existing paths to their equivalent index values |
IndexOfDefPathAsync(String) |
Converts an existing path to its equivalent index value asynchronously |
IndexOfDefPathAsync(String[]) |
Converts existing paths to their equivalent index values asynchronously |
Lock(String, IEnumerable<Int32>) |
Locks the selected values of a generic object. |
LockAsync(AsyncHandle, String, IEnumerable<Int32>) |
Locks the selected values of a generic object. |
LockAsync(String, IEnumerable<Int32>) |
Locks the selected values of a generic object. |
MultiRangeSelectHyperCubeValues(String, IEnumerable<NxMultiRangeSelectInfo>, Boolean, Boolean) |
Makes multiple range selections in measures. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
MultiRangeSelectHyperCubeValuesAsync(AsyncHandle, String, IEnumerable<NxMultiRangeSelectInfo>, Boolean, Boolean) |
Makes multiple range selections in measures. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
MultiRangeSelectHyperCubeValuesAsync(String, IEnumerable<NxMultiRangeSelectInfo>, Boolean, Boolean) |
Makes multiple range selections in measures. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
MultiRangeSelectHyperCubeValuesAsync<T>(AsyncHandle, Func<Response, T>, String, IEnumerable<NxMultiRangeSelectInfo>, Boolean, Boolean) |
Makes multiple range selections in measures. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
MultiRangeSelectTreeDataValues(String, IEnumerable<NxTreeMultiRangeSelectInfo>, Boolean, Boolean) | |
MultiRangeSelectTreeDataValuesAsync(AsyncHandle, String, IEnumerable<NxTreeMultiRangeSelectInfo>, Boolean, Boolean) | |
MultiRangeSelectTreeDataValuesAsync(String, IEnumerable<NxTreeMultiRangeSelectInfo>, Boolean, Boolean) | |
MultiRangeSelectTreeDataValuesAsync<T>(AsyncHandle, Func<Response, T>, String, IEnumerable<NxTreeMultiRangeSelectInfo>, Boolean, Boolean) | |
Publish() |
Publishes a generic object. |
PublishAsync() |
Publishes a generic object. |
PublishAsync(AsyncHandle) |
Publishes a generic object. |
RangeSelectHyperCubeValues(String, IEnumerable<NxRangeSelectInfo>, IEnumerable<Int32>, Boolean, Boolean) |
Makes range selections in measures. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
RangeSelectHyperCubeValuesAsync(AsyncHandle, String, IEnumerable<NxRangeSelectInfo>, IEnumerable<Int32>, Boolean, Boolean) |
Makes range selections in measures. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
RangeSelectHyperCubeValuesAsync(String, IEnumerable<NxRangeSelectInfo>, IEnumerable<Int32>, Boolean, Boolean) |
Makes range selections in measures. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
RangeSelectHyperCubeValuesAsync<T>(AsyncHandle, Func<Response, T>, String, IEnumerable<NxRangeSelectInfo>, IEnumerable<Int32>, Boolean, Boolean) |
Makes range selections in measures. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
ResetMadeSelections() |
Resets all selections made in selection mode. |
ResetMadeSelectionsAsync() |
Resets all selections made in selection mode. |
ResetMadeSelectionsAsync(AsyncHandle) |
Resets all selections made in selection mode. |
SearchListObjectFor(String, String) |
Searches for a string in a list object. |
SearchListObjectForAsync(AsyncHandle, String, String) |
Searches for a string in a list object. |
SearchListObjectForAsync(String, String) |
Searches for a string in a list object. |
SearchListObjectForAsync<T>(AsyncHandle, Func<Response, T>, String, String) |
Searches for a string in a list object. |
SelectHyperCubeCells(String, IEnumerable<Int32>, IEnumerable<Int32>, Boolean, Boolean) |
Makes selections in multiple dimensions and measures. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectHyperCubeCellsAsync(AsyncHandle, String, IEnumerable<Int32>, IEnumerable<Int32>, Boolean, Boolean) |
Makes selections in multiple dimensions and measures. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectHyperCubeCellsAsync(String, IEnumerable<Int32>, IEnumerable<Int32>, Boolean, Boolean) |
Makes selections in multiple dimensions and measures. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectHyperCubeCellsAsync<T>(AsyncHandle, Func<Response, T>, String, IEnumerable<Int32>, IEnumerable<Int32>, Boolean, Boolean) |
Makes selections in multiple dimensions and measures. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectHyperCubeContinuousRange(String, IEnumerable<NxContinuousRangeSelectInfo>, Boolean) |
The following is returned in the output: |
SelectHyperCubeContinuousRangeAsync(AsyncHandle, String, IEnumerable<NxContinuousRangeSelectInfo>, Boolean) |
The following is returned in the output: |
SelectHyperCubeContinuousRangeAsync(String, IEnumerable<NxContinuousRangeSelectInfo>, Boolean) |
The following is returned in the output: |
SelectHyperCubeContinuousRangeAsync<T>(AsyncHandle, Func<Response, T>, String, IEnumerable<NxContinuousRangeSelectInfo>, Boolean) |
The following is returned in the output: |
SelectHyperCubeValues(String, Int32, IEnumerable<Int32>, Boolean) |
Selects some values in one dimension. The values are identified by their element numbers. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectHyperCubeValuesAsync(AsyncHandle, String, Int32, IEnumerable<Int32>, Boolean) |
Selects some values in one dimension. The values are identified by their element numbers. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectHyperCubeValuesAsync(String, Int32, IEnumerable<Int32>, Boolean) |
Selects some values in one dimension. The values are identified by their element numbers. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectHyperCubeValuesAsync<T>(AsyncHandle, Func<Response, T>, String, Int32, IEnumerable<Int32>, Boolean) |
Selects some values in one dimension. The values are identified by their element numbers. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectAll(String, Boolean) |
Selects all values of a field. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectAllAsync(AsyncHandle, String, Boolean) |
Selects all values of a field. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectAllAsync(String, Boolean) |
Selects all values of a field. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectAllAsync<T>(AsyncHandle, Func<Response, T>, String, Boolean) |
Selects all values of a field. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectAlternative(String, Boolean) |
Selects all alternative values in a specific field. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectAlternativeAsync(AsyncHandle, String, Boolean) |
Selects all alternative values in a specific field. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectAlternativeAsync(String, Boolean) |
Selects all alternative values in a specific field. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectAlternativeAsync<T>(AsyncHandle, Func<Response, T>, String, Boolean) |
Selects all alternative values in a specific field. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectContinuousRange(String, IEnumerable<Range>, Boolean) |
The following is returned in the output: |
SelectListObjectContinuousRangeAsync(AsyncHandle, String, IEnumerable<Range>, Boolean) |
The following is returned in the output: |
SelectListObjectContinuousRangeAsync(String, IEnumerable<Range>, Boolean) |
The following is returned in the output: |
SelectListObjectContinuousRangeAsync<T>(AsyncHandle, Func<Response, T>, String, IEnumerable<Range>, Boolean) |
The following is returned in the output: |
SelectListObjectExcluded(String, Boolean) |
Inverts the current selections in a specific field. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectExcludedAsync(AsyncHandle, String, Boolean) |
Inverts the current selections in a specific field. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectExcludedAsync(String, Boolean) |
Inverts the current selections in a specific field. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectExcludedAsync<T>(AsyncHandle, Func<Response, T>, String, Boolean) |
Inverts the current selections in a specific field. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectPossible(String, Boolean) |
Selects all possible values of a list object. The member Change returns the handles of the objects that are updated following the selections.
* The object contains invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectPossibleAsync(AsyncHandle, String, Boolean) |
Selects all possible values of a list object. The member Change returns the handles of the objects that are updated following the selections.
* The object contains invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectPossibleAsync(String, Boolean) |
Selects all possible values of a list object. The member Change returns the handles of the objects that are updated following the selections.
* The object contains invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectPossibleAsync<T>(AsyncHandle, Func<Response, T>, String, Boolean) |
Selects all possible values of a list object. The member Change returns the handles of the objects that are updated following the selections.
* The object contains invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectValues(String, IEnumerable<Int32>, Boolean, Boolean) |
Makes single selections in dimensions. The member Change returns the handles of the objects that are updated following the selections.
* The object contains invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectValuesAsync(AsyncHandle, String, IEnumerable<Int32>, Boolean, Boolean) |
Makes single selections in dimensions. The member Change returns the handles of the objects that are updated following the selections.
* The object contains invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectValuesAsync(String, IEnumerable<Int32>, Boolean, Boolean) |
Makes single selections in dimensions. The member Change returns the handles of the objects that are updated following the selections.
* The object contains invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectListObjectValuesAsync<T>(AsyncHandle, Func<Response, T>, String, IEnumerable<Int32>, Boolean, Boolean) |
Makes single selections in dimensions. The member Change returns the handles of the objects that are updated following the selections.
* The object contains invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectPivotCells(String, IEnumerable<NxSelectionCell>, Boolean, Boolean) |
Pivot tableMakes selections in the top or left dimension cells of a pivot table or in the data matrix. Only expanded dimensions can be selected. Stacked tableMakes selections in the left dimension cells of a stacked table or in the data matrix. Example of a pivot tablePlease refer to Engine API reference for illustrations. In the representation above: Please refer to Engine API reference for table definition. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectPivotCellsAsync(AsyncHandle, String, IEnumerable<NxSelectionCell>, Boolean, Boolean) |
Pivot tableMakes selections in the top or left dimension cells of a pivot table or in the data matrix. Only expanded dimensions can be selected. Stacked tableMakes selections in the left dimension cells of a stacked table or in the data matrix. Example of a pivot tablePlease refer to Engine API reference for illustrations. In the representation above: Please refer to Engine API reference for table definition. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectPivotCellsAsync(String, IEnumerable<NxSelectionCell>, Boolean, Boolean) |
Pivot tableMakes selections in the top or left dimension cells of a pivot table or in the data matrix. Only expanded dimensions can be selected. Stacked tableMakes selections in the left dimension cells of a stacked table or in the data matrix. Example of a pivot tablePlease refer to Engine API reference for illustrations. In the representation above: Please refer to Engine API reference for table definition. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SelectPivotCellsAsync<T>(AsyncHandle, Func<Response, T>, String, IEnumerable<NxSelectionCell>, Boolean, Boolean) |
Pivot tableMakes selections in the top or left dimension cells of a pivot table or in the data matrix. Only expanded dimensions can be selected. Stacked tableMakes selections in the left dimension cells of a stacked table or in the data matrix. Example of a pivot tablePlease refer to Engine API reference for illustrations. In the representation above: Please refer to Engine API reference for table definition. The member Change returns the handles of the objects that are updated following the selections.
* The object contains some invalid fields (fields that are not in the data model). * The selection applies to a locked field. * A range selection is performed and the parameter |
SetChildArrayOrder(IEnumerable<String>) |
Sets the order of the children in a generic object. |
SetChildArrayOrderAsync(AsyncHandle, IEnumerable<String>) |
Sets the order of the children in a generic object. |
SetChildArrayOrderAsync(IEnumerable<String>) |
Sets the order of the children in a generic object. |
SetFullPropertyTree(GenericObjectEntry) |
Sets the properties of: * A generic object. * The children of the generic object. * The bookmarks/embedded snapshots of the generic object. |
SetFullPropertyTreeAsync(AsyncHandle, GenericObjectEntry) |
Sets the properties of: * A generic object. * The children of the generic object. * The bookmarks/embedded snapshots of the generic object. |
SetFullPropertyTreeAsync(GenericObjectEntry) |
Sets the properties of: * A generic object. * The children of the generic object. * The bookmarks/embedded snapshots of the generic object. |
SetProperties(GenericObjectProperties) |
Sets some properties for a generic object. |
SetPropertiesAsync(AsyncHandle, GenericObjectProperties) |
Sets some properties for a generic object. |
SetPropertiesAsync(GenericObjectProperties) |
Sets some properties for a generic object. |
UnApprove() |
Removes the generic object from the list of approved objects |
UnApproveAsync() |
Removes the generic object from the list of approved objects |
UnApproveAsync(AsyncHandle) |
Removes the generic object from the list of approved objects |
Unlock(String, IEnumerable<Int32>) |
Unlocks the selected values of a generic object if the target (or handle ) is a generic object |
UnlockAsync(AsyncHandle, String, IEnumerable<Int32>) |
Unlocks the selected values of a generic object if the target (or handle ) is a generic object |
UnlockAsync(String, IEnumerable<Int32>) |
Unlocks the selected values of a generic object if the target (or handle ) is a generic object |
UnPublish() |
Unpublishes a generic object. |
UnPublishAsync() |
Unpublishes a generic object. |
UnPublishAsync(AsyncHandle) |
Unpublishes a generic object. |
Extension Methods
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