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Packages that use ExecutionContext | |
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org.knime.base.collection.list.create | Implementation of the collection create node. |
org.knime.base.collection.list.split | Implementation of the collection split node. |
org.knime.base.data.sort | |
org.knime.base.data.statistics | This package holds the StatisticsTable. |
org.knime.base.node.flowvariable.appendvariabletotable | |
org.knime.base.node.flowvariable.extractvariables | |
org.knime.base.node.flowvariable.injectvariables | |
org.knime.base.node.flowvariable.tablerowtovariable | |
org.knime.base.node.flowvariable.variableloophead | |
org.knime.base.node.flowvariable.variabletotablerow | |
org.knime.base.node.io.arffreader | Contains the implementation of a node which reads ARFF files. |
org.knime.base.node.io.arffwriter | Contains the implementation of a node which writes the content of a data table into an ARFF file. |
org.knime.base.node.io.csvwriter | Node implementation that writes a DataTable to a file in
CSV (comma separated value) format (or with any other selectable separator). |
org.knime.base.node.io.database | Contains nodes to access data via a database connection. |
org.knime.base.node.io.def | (Obsolete) Node that produces predefined DataTables. |
org.knime.base.node.io.filereader | Contains a node implementation that reads in data from an ASCII file. |
org.knime.base.node.io.pmml.read | |
org.knime.base.node.io.pmml.write | |
org.knime.base.node.io.portobject | Contains node implementations for a prediction model reader and writer. |
org.knime.base.node.io.table.read | Node that reads data from a file as written by the Write table node. |
org.knime.base.node.io.table.write | Node that writes a datatable to a file. |
org.knime.base.node.meta.feature.backwardelim | |
org.knime.base.node.meta.looper | The looper package contains all classes for building for loops. |
org.knime.base.node.meta.looper.condition | Contains two nodes with which a loop can be built. |
org.knime.base.node.meta.xvalidation | The xvalidation package contains all classes for a cross validation flow. |
org.knime.base.node.mine.bayes.naivebayes.datamodel | This package implements the naive bayes algorithm for numerical and nominal attributes. |
org.knime.base.node.mine.bayes.naivebayes.learner | This package contains the classes of the learner node. |
org.knime.base.node.mine.bayes.naivebayes.predictor | This package contains the classes of the predictor node. |
org.knime.base.node.mine.bfn | Contains abstract and util classes to train and perform prediction to rule models, also called BasisFunction models. |
org.knime.base.node.mine.bfn.fuzzy | Contains the learner and predictor to train fuzzy rules and apply them to unknown data. |
org.knime.base.node.mine.cluster.assign | This package contains the classes for the Cluster Assigner Node. |
org.knime.base.node.mine.cluster.fuzzycmeans | The fuzzycmeans package contains all classes for the Fuzzy c-means node. |
org.knime.base.node.mine.cluster.hierarchical | Contains the implementation of a node performing hierarchical clustering. |
org.knime.base.node.mine.cluster.kmeans | This package contains the classes needed from the KMeans Node. |
org.knime.base.node.mine.decisiontree2.learner | |
org.knime.base.node.mine.decisiontree2.predictor | This package contains code for a decision tree model and predictor. |
org.knime.base.node.mine.knn | |
org.knime.base.node.mine.mds | A node that applies multi dimensional scaling (MDS) on high dimensional data. |
org.knime.base.node.mine.mds.mdsprojection | A node that applies multi dimensional scaling (MDS) projection on high dimensional data. |
org.knime.base.node.mine.neural.mlp | This package contains the classes for the MultiLayerPerceptron Predictor node. |
org.knime.base.node.mine.neural.rprop | This package contains all classes for the RProp Node. |
org.knime.base.node.mine.pca | This package contains all classes for the PCA (principal component analysis) Node. |
org.knime.base.node.mine.regression.linear.learn | Node implementation performing linear regression. |
org.knime.base.node.mine.regression.polynomial.learner | The polyreg's predictor package contains just the two classes that make up the predictor node: the model and its factory. |
org.knime.base.node.mine.regression.predict | Node implementation performing regression prediction. |
org.knime.base.node.mine.scorer.accuracy | Similar to the default scorer. |
org.knime.base.node.mine.scorer.entrop | Node that performs an entropy calculation and compares two clustering results. |
org.knime.base.node.mine.smote | Node that oversample patterns in an input table. |
org.knime.base.node.mine.sota | Contains the Sota node, which can be used for clustering hirarchically numerical and fuzzy data and visualize the resulting cluster tree. |
org.knime.base.node.mine.sota.predictor | Contains the Sotapredictor node, which can be used for class prediction of incoming data. |
org.knime.base.node.mine.subgroupminer | This package contains everything necessary for normal subgroup mining. |
org.knime.base.node.mine.svm.learner | This subpackage contains all classes for the SVM Learner Node. |
org.knime.base.node.mine.svm.predictor | This subpackage contains all classes for the SVM Predictor Node. |
org.knime.base.node.parallel | This subpackage contains some classes that can be used to implemet nodes that process their data in parallel. |
org.knime.base.node.parallel.appender | |
org.knime.base.node.parallel.builder | |
org.knime.base.node.preproc.append.row | |
org.knime.base.node.preproc.binner | Contains a node to bin/group a number of numeric columns into a string column by predefined intervals. |
org.knime.base.node.preproc.caseconvert | Node to convert alphanumeric characters to lowercase or uppercase. |
org.knime.base.node.preproc.cellsplit | Contains the implementation of a node that splits (and replaces) a values in a column into multiple new ones. |
org.knime.base.node.preproc.cellsplitbypos | |
org.knime.base.node.preproc.colcombine | Node to combine the content of a set of columns into a single column (to be appended). |
org.knime.base.node.preproc.colcompare | Node to combine the content of a set of columns into a single column (to be appended). |
org.knime.base.node.preproc.colconvert | Node to convert String columns to Double columns or the other way around. |
org.knime.base.node.preproc.colconvert.numbertostring | Node to convert DoubleValue columns to StringValue columns. |
org.knime.base.node.preproc.colconvert.stringtonumber | Node to convert StringValue columns to NumberValue columns. |
org.knime.base.node.preproc.colsort | This package contains all classes for the Column Resorter node. |
org.knime.base.node.preproc.columnTrans | This package contains the classes of the Many2One and One2Many column transformation nodes. |
org.knime.base.node.preproc.correlation.pmcc | |
org.knime.base.node.preproc.discretization.caim2.modelapply | Contains the classes implementing a node that applies a discretization (binning) model to new data. |
org.knime.base.node.preproc.discretization.caim2.modelcreator | Contains the classes implementing a node that learns a class supervised discretization (binning) model. |
org.knime.base.node.preproc.domain | Contains a node to determine the DataTableSpec of the input data. |
org.knime.base.node.preproc.double2int | |
org.knime.base.node.preproc.filter.column | Contains the filter column node which can be used the extract certain columns from the input data table. |
org.knime.base.node.preproc.filter.columnref | Contains a Reference Column Filter node that allows columns to be included or excluded from the first table while the second one is used as reference table. |
org.knime.base.node.preproc.filter.hilite | Node to seperate hilited and not hilited rows of given DataTable. |
org.knime.base.node.preproc.filter.hilite.collector | Contains the HiLite Collector node with can be used to apply annotations to a set of hilit rows. |
org.knime.base.node.preproc.filter.nominal | This package implements a possible value row filter. |
org.knime.base.node.preproc.filter.row | Contains a node filtering out rows from an input data table, including only those rows into the output/result table that match a certain criteria. |
org.knime.base.node.preproc.filter.rowref | Contains a Reference Row Filter node that allows rows to be included or excluded from the first table while the second one is used as reference table. |
org.knime.base.node.preproc.groupby | Contains a node to perform a group by operation on an input table. |
org.knime.base.node.preproc.joiner | This package contains classes for a node that joins two data tables. |
org.knime.base.node.preproc.lowvarfilter | Node implementation that allows the user to filter out numeric columns, which have a low or no variance. |
org.knime.base.node.preproc.missingval | Implemenation of the node that treats missing values. |
org.knime.base.node.preproc.normalize | This package contains all classes for the Normalizer Node. |
org.knime.base.node.preproc.partition | Node that partitions the data into train- and test set. |
org.knime.base.node.preproc.pivot | Contains a node to perform a pivoting on one column against another group column. |
org.knime.base.node.preproc.regexsplit | Node that splits an input string (column) into multiple groups according to a regular expression (realized by java.util.regex.Pattern). |
org.knime.base.node.preproc.rename | Node that allows to rename column names or change the type. |
org.knime.base.node.preproc.rowkey | This package contains all classes of the RowKey node which provides the following function: Replacing of the current rowkey with the values of a column Creating a column with the row key values |
org.knime.base.node.preproc.rowsplit | Node splits a data table according to a numeric filter criterion. |
org.knime.base.node.preproc.sample | Node that samples rows from an input table. |
org.knime.base.node.preproc.setoperator | Contains a node to perform a set operation on two columns from two input tables. |
org.knime.base.node.preproc.shuffle | Implementation of the Fisher Yates shuffle, that guarantees that all n! possible outcomes are possible and equally likely. |
org.knime.base.node.preproc.sorter | Contains the Sorter Node which can be used to sort columns from the input data table. |
org.knime.base.node.preproc.split | Node that splits an input table into two output table. |
org.knime.base.node.preproc.stringreplacer | This package contains a node that can be used to replace strings in a column based on wildcard matches. |
org.knime.base.node.preproc.stringreplacer.dict | Node that replaces the content of a selected column by dictionary entries. |
org.knime.base.node.preproc.transpose | Contains a node to transpose a table by swaping rows and columns. |
org.knime.base.node.preproc.unpivot | |
org.knime.base.node.preproc.valcount | |
org.knime.base.node.rules | |
org.knime.base.node.util.cache | Contains node that allows caching of data for fast access. |
org.knime.base.node.util.exttool | Provides functionality for nodes that want to launch external programs. The CommandExecution
can be used to run the external program. |
org.knime.base.node.util.sampledata | |
org.knime.base.node.viz.condbox | Contains all classes that realize a conditional box plot. |
org.knime.base.node.viz.enrichment | The enrichment plotter node allows you to plot enrichment curves. |
org.knime.base.node.viz.histogram.node | Contains classes for KNIME nodes which uses the classes of the histogram package to display a histogram view. |
org.knime.base.node.viz.liftchart | The liftchart package contains all classes for building a lift chart node. |
org.knime.base.node.viz.pie.node | This package contains the KNIME node classes for the fixed and interactive pie chart. |
org.knime.base.node.viz.pie.node.fixed | This package contains the KNIME node classes for the fixed pie chart. |
org.knime.base.node.viz.pie.node.interactive | This package contains the KNIME node classes for the interactive pie chart. |
org.knime.base.node.viz.plotter.box | Contains all classes that realize a box plot. |
org.knime.base.node.viz.plotter.node | This package contains a default node implementation which can be used if a simple plotter is implemented, which displays data from one inport and also wants to display only a restricted number of rows. |
org.knime.base.node.viz.property.color | Contains the Color Manager and Color Appender node to set colors for a nominal or bounded (numeric) column. |
org.knime.base.node.viz.property.shape | Contains the Shape Manager and Shape Appender node to set shapes for a nominal column. |
org.knime.base.node.viz.property.size | Contains the Size Manager and Size Appender node to set sizes for a bounded (numeric) column. |
org.knime.base.node.viz.roc | The ROC node allows you to plot ROC curves. |
org.knime.base.node.viz.statistics | Contains the Statistics Node which can be used to compute statistics based on the input data table. |
org.knime.base.node.viz.table | Node implementation of the interactive table view. |
org.knime.core.data.container |
Implementation of a DataContainer . |
org.knime.core.node | Contains all classes needed to implement a new node in the workflow. |
org.knime.core.node.interrupt | This package contains the necessary classes for an interruptible framework. |
org.knime.core.node.port.database | |
org.knime.core.node.util | Contains a set of utility classes that may be used in different (so far visual) contexts. |
org.knime.core.node.workflow | Contains wrapper classes which control the communication between Node and GUI Workflow. |
Uses of ExecutionContext in org.knime.base.collection.list.create |
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Methods in org.knime.base.collection.list.create with parameters of type ExecutionContext | |
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protected BufferedDataTable[] |
CollectionCreateNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.collection.list.split |
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Methods in org.knime.base.collection.list.split with parameters of type ExecutionContext | |
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protected BufferedDataTable[] |
CollectionSplitNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.data.sort |
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Constructors in org.knime.base.data.sort with parameters of type ExecutionContext | |
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SortedTable(BufferedDataTable dataTable,
Comparator<DataRow> rowComparator,
boolean sortInMemory,
ExecutionContext exec)
Creates a new sorted table. |
|
SortedTable(BufferedDataTable dataTable,
List<String> inclList,
boolean[] sortAscending,
boolean sortInMemory,
ExecutionContext exec)
Creates a sorted table from the given table and the sorting parameters. |
|
SortedTable(BufferedDataTable dataTable,
List<String> inclList,
boolean[] sortAscending,
ExecutionContext exec)
Creates a sorted table from the given table and the sorting parameters. |
Uses of ExecutionContext in org.knime.base.data.statistics |
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Constructors in org.knime.base.data.statistics with parameters of type ExecutionContext | |
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Statistics2Table(BufferedDataTable table,
boolean computeMedian,
int numNomValuesOutput,
List<String> nominalValueColumns,
ExecutionContext exec)
Create new statistic table from an existing one. |
Uses of ExecutionContext in org.knime.base.node.flowvariable.appendvariabletotable |
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Methods in org.knime.base.node.flowvariable.appendvariabletotable with parameters of type ExecutionContext | |
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protected PortObject[] |
AppendVariableToTableNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.flowvariable.extractvariables |
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Methods in org.knime.base.node.flowvariable.extractvariables with parameters of type ExecutionContext | |
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protected PortObject[] |
ExtractVariablesNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.flowvariable.injectvariables |
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Methods in org.knime.base.node.flowvariable.injectvariables with parameters of type ExecutionContext | |
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protected PortObject[] |
InjectVariablesNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.flowvariable.tablerowtovariable |
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Methods in org.knime.base.node.flowvariable.tablerowtovariable with parameters of type ExecutionContext | |
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protected PortObject[] |
TableToVariableNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.flowvariable.variableloophead |
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Methods in org.knime.base.node.flowvariable.variableloophead with parameters of type ExecutionContext | |
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protected PortObject[] |
LoopStartVariableNodeModel.execute(PortObject[] inPOs,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.flowvariable.variabletotablerow |
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Methods in org.knime.base.node.flowvariable.variabletotablerow with parameters of type ExecutionContext | |
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protected PortObject[] |
VariableToTableNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.io.arffreader |
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Methods in org.knime.base.node.io.arffreader with parameters of type ExecutionContext | |
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protected BufferedDataTable[] |
ARFFReaderNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.io.arffwriter |
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Methods in org.knime.base.node.io.arffwriter with parameters of type ExecutionContext | |
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protected BufferedDataTable[] |
ARFFWriterNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.io.csvwriter |
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Methods in org.knime.base.node.io.csvwriter with parameters of type ExecutionContext | |
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protected BufferedDataTable[] |
CSVWriterNodeModel.execute(BufferedDataTable[] data,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.io.database |
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Methods in org.knime.base.node.io.database with parameters of type ExecutionContext | |
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protected BufferedDataTable[] |
DBReaderNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
protected BufferedDataTable[] |
DBWriterNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
protected BufferedDataTable[] |
DatabaseLoopingNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
protected PortObject[] |
DBRowFilterNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
protected PortObject[] |
DBConnectionNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
protected PortObject[] |
DBColumnFilterNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
protected PortObject[] |
DBQueryNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
protected PortObject[] |
DBReaderConnectionNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
protected PortObject[] |
DBConnectionWriterNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.io.def |
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Methods in org.knime.base.node.io.def with parameters of type ExecutionContext | |
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protected BufferedDataTable[] |
DefaultTableNodeModel.execute(BufferedDataTable[] data,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.io.filereader |
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Methods in org.knime.base.node.io.filereader with parameters of type ExecutionContext | |
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protected BufferedDataTable[] |
FileReaderNodeModel.execute(BufferedDataTable[] data,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
protected PortObject[] |
VariableFileReaderNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Constructors in org.knime.base.node.io.filereader with parameters of type ExecutionContext | |
---|---|
FileReaderPreviewTable(DataTableSpec tableSpec,
FileReaderNodeSettings settings,
ExecutionContext exec)
Creates a new table, its like the "normal" FileTable , just not
failing on invalid data files. |
|
FileRowIterator(FileReaderSettings frSettings,
DataTableSpec tableSpec,
boolean[] skipColumns,
ExecutionContext exec)
The RowIterator for the FileTable. |
|
FileTable(DataTableSpec tableSpec,
FileReaderSettings frSettings,
boolean[] skipColumns,
ExecutionContext exec)
Creates a new file table with the structure defined in tableSpec and using the settings in frSettings when the file is read. |
|
FileTable(DataTableSpec tableSpec,
FileReaderSettings frSettings,
ExecutionContext exec)
Creates a new file table with the structure defined in tableSpec and using the settings in frSettings when the file is read. |
Uses of ExecutionContext in org.knime.base.node.io.pmml.read |
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Methods in org.knime.base.node.io.pmml.read with parameters of type ExecutionContext | |
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protected PortObject[] |
PMMLReaderNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.io.pmml.write |
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Methods in org.knime.base.node.io.pmml.write with parameters of type ExecutionContext | |
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protected PortObject[] |
PMMLWriterNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.io.portobject |
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Methods in org.knime.base.node.io.portobject with parameters of type ExecutionContext | |
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protected PortObject[] |
PortObjectWriterNodeModel.execute(PortObject[] portObject,
ExecutionContext exec)
Writes model as ModelContent to file. |
protected PortObject[] |
PortObjectReaderNodeModel.execute(PortObject[] data,
ExecutionContext exec)
Execute does nothing - the reading of the file and writing to the NodeSettings object has already happened during savePredictorParams. |
Uses of ExecutionContext in org.knime.base.node.io.table.read |
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Methods in org.knime.base.node.io.table.read with parameters of type ExecutionContext | |
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protected BufferedDataTable[] |
ReadTableNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.io.table.write |
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Methods in org.knime.base.node.io.table.write with parameters of type ExecutionContext | |
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protected BufferedDataTable[] |
WriteTableNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.meta.feature.backwardelim |
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Methods in org.knime.base.node.meta.feature.backwardelim with parameters of type ExecutionContext | |
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protected BufferedDataTable[] |
BWElimLoopStartNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
protected PortObject[] |
BWElimFilterNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
protected PortObject[] |
BWElimLoopEndNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.meta.looper |
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Methods in org.knime.base.node.meta.looper with parameters of type ExecutionContext | |
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protected BufferedDataTable[] |
LoopEndNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
protected PortObject[] |
LoopStartIntervalNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
protected PortObject[] |
LoopStartCountNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.meta.looper.condition |
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Methods in org.knime.base.node.meta.looper.condition with parameters of type ExecutionContext | |
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protected BufferedDataTable[] |
LoopStartGenericNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
protected BufferedDataTable[] |
LoopEndConditionNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.meta.xvalidation |
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Methods in org.knime.base.node.meta.xvalidation with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
XValidatePartitionModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
protected BufferedDataTable[] |
AggregateOutputNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.mine.bayes.naivebayes.datamodel |
---|
Constructors in org.knime.base.node.mine.bayes.naivebayes.datamodel with parameters of type ExecutionContext | |
---|---|
NaiveBayesModel(BufferedDataTable data,
String classColName,
ExecutionContext exec,
int maxNoOfNominalVals,
boolean skipMissingVals)
Constructor which iterates through the DataTable to
calculate the needed Bayes variables. |
Uses of ExecutionContext in org.knime.base.node.mine.bayes.naivebayes.learner |
---|
Methods in org.knime.base.node.mine.bayes.naivebayes.learner with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
NaiveBayesLearnerNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.mine.bayes.naivebayes.predictor |
---|
Methods in org.knime.base.node.mine.bayes.naivebayes.predictor with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
NaiveBayesPredictorNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.mine.bfn |
---|
Methods in org.knime.base.node.mine.bfn with parameters of type ExecutionContext | |
---|---|
PortObject[] |
BasisFunctionLearnerNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Starts the learning algorithm in the learner. |
BufferedDataTable[] |
BasisFunctionPredictorNodeModel.execute(PortObject[] portObj,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.mine.bfn.fuzzy |
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Methods in org.knime.base.node.mine.bfn.fuzzy with parameters of type ExecutionContext | |
---|---|
PortObject[] |
FuzzyBasisFunctionLearnerNodeModel.execute(PortObject[] data,
ExecutionContext exec)
Starts the learning algorithm in the learner. |
Uses of ExecutionContext in org.knime.base.node.mine.cluster.assign |
---|
Methods in org.knime.base.node.mine.cluster.assign with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
ClusterAssignerNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.mine.cluster.fuzzycmeans |
---|
Methods in org.knime.base.node.mine.cluster.fuzzycmeans with parameters of type ExecutionContext | |
---|---|
double |
FCMAlgorithmMemory.doOneIteration(ExecutionContext exec)
Does one iteration in the Fuzzy c-means algorithm. |
double |
FCMAlgorithm.doOneIteration(ExecutionContext exec)
Does one iteration in the Fuzzy c-means algorithm. |
protected PortObject[] |
FuzzyClusterNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Generate new clustering based on InputDataTable and specified number of clusters. |
Uses of ExecutionContext in org.knime.base.node.mine.cluster.hierarchical |
---|
Methods in org.knime.base.node.mine.cluster.hierarchical with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
HierarchicalClusterNodeModel.execute(BufferedDataTable[] data,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.mine.cluster.kmeans |
---|
Methods in org.knime.base.node.mine.cluster.kmeans with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
ClusterNodeModel.execute(PortObject[] data,
ExecutionContext exec)
Generate new clustering based on InputDataTable and specified number of clusters. |
Uses of ExecutionContext in org.knime.base.node.mine.decisiontree2.learner |
---|
Methods in org.knime.base.node.mine.decisiontree2.learner with parameters of type ExecutionContext | |
---|---|
InMemoryTable |
InMemoryTableCreator.createInMemoryTable(ExecutionContext exec)
Creates the InMemoryTable . |
protected PortObject[] |
DecisionTreeLearnerNodeModel.execute(PortObject[] data,
ExecutionContext exec)
Start of decision tree induction. |
Uses of ExecutionContext in org.knime.base.node.mine.decisiontree2.predictor |
---|
Methods in org.knime.base.node.mine.decisiontree2.predictor with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
DecTreePredictorNodeModel.execute(PortObject[] inPorts,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.mine.knn |
---|
Methods in org.knime.base.node.mine.knn with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
KnnNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.mine.mds |
---|
Methods in org.knime.base.node.mine.mds with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
MDSNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Constructors in org.knime.base.node.mine.mds with parameters of type ExecutionContext | |
---|---|
MDSManager(int dimension,
String distance,
boolean fuzzy,
BufferedDataTable inData,
ExecutionContext exec)
Creates a new instance of MDSManager with the given
dimension, distance metric, fuzzy flag and in data to use. |
Uses of ExecutionContext in org.knime.base.node.mine.mds.mdsprojection |
---|
Fields in org.knime.base.node.mine.mds.mdsprojection declared as ExecutionContext | |
---|---|
protected ExecutionContext |
MDSProjectionManager.m_exec
The execution context to show progress information an enable cancel. |
Methods in org.knime.base.node.mine.mds.mdsprojection with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
MDSProjectionNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Constructors in org.knime.base.node.mine.mds.mdsprojection with parameters of type ExecutionContext | |
---|---|
MDSProjectionManager(int dimension,
String distance,
boolean fuzzy,
BufferedDataTable inData,
BufferedDataTable fixedDataPoints,
int[] fixedDataMdsIndices,
ExecutionContext exec)
Creates a new instance of MDSProjectionManager with the
given dimension, distance metric, fuzzy flag, in data and fixed data to
use. |
Uses of ExecutionContext in org.knime.base.node.mine.neural.mlp |
---|
Methods in org.knime.base.node.mine.neural.mlp with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
MLPPredictorNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.mine.neural.rprop |
---|
Methods in org.knime.base.node.mine.neural.rprop with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
RPropNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
The execution consists of three steps: A neural network is build with the inputs and outputs according to the input datatable, number of hidden layers as specified. Input DataTables are converted into double-arrays so they can be attached to the neural net. The neural net is trained. Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.mine.pca |
---|
Methods in org.knime.base.node.mine.pca with parameters of type ExecutionContext | |
---|---|
static BufferedDataTable |
PCANodeModel.createCovarianceTable(ExecutionContext exec,
double[][] m,
String[] inputColumnNames)
create data table from covariance matrix. |
static BufferedDataTable |
PCANodeModel.createDecompositionOutputTable(ExecutionContext exec,
double[] evs,
Jama.Matrix eigenvectors)
create a table containing the given spectral decomposition. |
protected PortObject[] |
PCAApplyNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Performs the PCA. |
protected PortObject[] |
PCAReverseNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Performs the PCA. |
protected PortObject[] |
PCAComputeNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
protected PortObject[] |
PCANodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Performs the PCA. |
(package private) static int |
PCANodeModel.getCovarianceMatrix(ExecutionContext exec,
BufferedDataTable dataTable,
int[] numericIndices,
double[] means,
double[][] dataMatrix)
Converts a DataTable to the 2D-double array representing its
covariance matrix. |
(package private) static double[] |
PCANodeModel.getMeanVector(DataTable dataTable,
int[] numericIndices,
boolean failOnMissingValues,
ExecutionContext exec)
calculate means of all columns. |
Uses of ExecutionContext in org.knime.base.node.mine.regression.linear.learn |
---|
Methods in org.knime.base.node.mine.regression.linear.learn with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
LinRegLearnerNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.mine.regression.polynomial.learner |
---|
Methods in org.knime.base.node.mine.regression.polynomial.learner with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
PolyRegLearnerNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.mine.regression.predict |
---|
Methods in org.knime.base.node.mine.regression.predict with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
RegressionPredictorNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.mine.scorer.accuracy |
---|
Methods in org.knime.base.node.mine.scorer.accuracy with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
AccuracyScorerNodeModel.execute(BufferedDataTable[] data,
ExecutionContext exec)
Starts the scoring in the scorer. |
Uses of ExecutionContext in org.knime.base.node.mine.scorer.entrop |
---|
Methods in org.knime.base.node.mine.scorer.entrop with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
EntropyNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.mine.smote |
---|
Methods in org.knime.base.node.mine.smote with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
SmoteNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Constructors in org.knime.base.node.mine.smote with parameters of type ExecutionContext | |
---|---|
Smoter(BufferedDataTable in,
String colName,
ExecutionContext exec,
Random rand)
Creates a new instance given the input table in and the
target column colName . |
Uses of ExecutionContext in org.knime.base.node.mine.sota |
---|
Methods in org.knime.base.node.mine.sota with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
SotaNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.mine.sota.predictor |
---|
Methods in org.knime.base.node.mine.sota.predictor with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
SotaPredictorNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.mine.subgroupminer |
---|
Methods in org.knime.base.node.mine.subgroupminer with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
BitVectorGeneratorNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
protected BufferedDataTable[] |
SubgroupMinerModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.mine.svm.learner |
---|
Methods in org.knime.base.node.mine.svm.learner with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
SVMLearnerNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.mine.svm.predictor |
---|
Methods in org.knime.base.node.mine.svm.predictor with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
SVMPredictorNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.parallel |
---|
Methods in org.knime.base.node.parallel with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
AbstractParallelNodeModel.execute(BufferedDataTable[] data,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.parallel.appender |
---|
Methods in org.knime.base.node.parallel.appender with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
ThreadedColAppenderNodeModel.execute(BufferedDataTable[] data,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
protected BufferedDataTable[] |
ThreadedColAppenderNodeModel.postExecute(BufferedDataTable[] res,
ExecutionContext exec)
This method is called after all rows have been processed and combined into the final result tables. |
Uses of ExecutionContext in org.knime.base.node.parallel.builder |
---|
Methods in org.knime.base.node.parallel.builder with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
ThreadedTableBuilderNodeModel.execute(BufferedDataTable[] data,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.append.row |
---|
Methods in org.knime.base.node.preproc.append.row with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
AppendedRowsNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.binner |
---|
Methods in org.knime.base.node.preproc.binner with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
BinnerNodeModel.execute(BufferedDataTable[] data,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.caseconvert |
---|
Methods in org.knime.base.node.preproc.caseconvert with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
CaseConvertNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.cellsplit |
---|
Methods in org.knime.base.node.preproc.cellsplit with parameters of type ExecutionContext | |
---|---|
(package private) static CellSplitterSettings |
CellSplitterCellFactory.createNewColumnTypes(BufferedDataTable table,
CellSplitterUserSettings userSettings,
ExecutionContext exec)
Analyzes the values in the user selected column and tries to figure out how many columns are needed to hold the splitted values and of which type the new resulting column have to be. |
protected BufferedDataTable[] |
CellSplitterNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.cellsplitbypos |
---|
Methods in org.knime.base.node.preproc.cellsplitbypos with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
CellSplitterByPosNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.colcombine |
---|
Methods in org.knime.base.node.preproc.colcombine with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
ColCombineNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.colcompare |
---|
Methods in org.knime.base.node.preproc.colcompare with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
ColumnComparatorNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.colconvert |
---|
Methods in org.knime.base.node.preproc.colconvert with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
ColConvertNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.colconvert.numbertostring |
---|
Methods in org.knime.base.node.preproc.colconvert.numbertostring with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
NumberToStringNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.colconvert.stringtonumber |
---|
Methods in org.knime.base.node.preproc.colconvert.stringtonumber with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
StringToNumberNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.colsort |
---|
Methods in org.knime.base.node.preproc.colsort with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
ColumnResorterNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.columnTrans |
---|
Methods in org.knime.base.node.preproc.columnTrans with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
One2ManyColNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
protected BufferedDataTable[] |
Many2OneColNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.correlation.pmcc |
---|
Methods in org.knime.base.node.preproc.correlation.pmcc with parameters of type ExecutionContext | |
---|---|
(package private) BufferedDataTable |
PMCCPortObjectAndSpec.createCorrelationMatrix(ExecutionContext con)
Creates the correlation table, used in the view and as output table. |
protected PortObject[] |
PMCCFilterNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
protected PortObject[] |
PMCCNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.preproc.discretization.caim2.modelapply |
---|
Methods in org.knime.base.node.preproc.discretization.caim2.modelapply with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
DiscretizationApplyNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.preproc.discretization.caim2.modelcreator |
---|
Methods in org.knime.base.node.preproc.discretization.caim2.modelcreator with parameters of type ExecutionContext | |
---|---|
static BufferedDataTable |
CAIMDiscretizationNodeModel.createResultTable(ExecutionContext exec,
BufferedDataTable table,
DiscretizationModel discretizationModel)
Creates BufferedDataTable from a given input table and an
appropriate DiscretizationScheme . |
protected PortObject[] |
CAIMDiscretizationNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.preproc.domain |
---|
Methods in org.knime.base.node.preproc.domain with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
DomainNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.double2int |
---|
Methods in org.knime.base.node.preproc.double2int with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
DoubleToIntNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.filter.column |
---|
Methods in org.knime.base.node.preproc.filter.column with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
FilterColumnNodeModel.execute(BufferedDataTable[] data,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.filter.columnref |
---|
Methods in org.knime.base.node.preproc.filter.columnref with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
ColumnFilterRefNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.filter.hilite |
---|
Methods in org.knime.base.node.preproc.filter.hilite with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
HiliteFilterNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.filter.hilite.collector |
---|
Methods in org.knime.base.node.preproc.filter.hilite.collector with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
HiLiteCollectorNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.preproc.filter.nominal |
---|
Methods in org.knime.base.node.preproc.filter.nominal with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
NominalValueRowFilterNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.filter.row |
---|
Methods in org.knime.base.node.preproc.filter.row with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
RowFilterNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
protected BufferedDataTable[] |
RowFilter2PortNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.filter.rowref |
---|
Methods in org.knime.base.node.preproc.filter.rowref with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
RowFilterRefNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.groupby |
---|
Methods in org.knime.base.node.preproc.groupby with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
GroupByNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Constructors in org.knime.base.node.preproc.groupby with parameters of type ExecutionContext | |
---|---|
GroupByTable(ExecutionContext exec,
BufferedDataTable inDataTable,
List<String> groupByCols,
ColumnAggregator[] colAggregators,
int maxUniqueValues,
boolean sortInMemory,
boolean enableHilite,
ColumnNamePolicy colNamePolicy)
Constructor for class GroupByTable. |
|
GroupByTable(ExecutionContext exec,
BufferedDataTable inDataTable,
List<String> groupByCols,
ColumnAggregator[] colAggregators,
int maxUniqueValues,
boolean sortInMemory,
boolean enableHilite,
ColumnNamePolicy colNamePolicy,
boolean retainOrder)
Constructor for class GroupByTable. |
Uses of ExecutionContext in org.knime.base.node.preproc.joiner |
---|
Methods in org.knime.base.node.preproc.joiner with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
NewJoinerNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.lowvarfilter |
---|
Methods in org.knime.base.node.preproc.lowvarfilter with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
LowVarFilterNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.missingval |
---|
Methods in org.knime.base.node.preproc.missingval with parameters of type ExecutionContext | |
---|---|
static BufferedDataTable |
MissingValueHandlingTable.createMissingValueHandlingTable(DataTable table,
ColSetting[] colSettings,
ExecutionContext exec,
StringBuffer warningBuffer)
Does missing value handling to the argument table given the col settings in an array and also reports progress. |
protected BufferedDataTable[] |
MissingValueHandlingNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.normalize |
---|
Methods in org.knime.base.node.preproc.normalize with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
NormalizerApplyNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
protected PortObject[] |
NormalizerNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
New normalized DataTable is created depending
on the mode. |
Uses of ExecutionContext in org.knime.base.node.preproc.partition |
---|
Methods in org.knime.base.node.preproc.partition with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
PartitionNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.pivot |
---|
Methods in org.knime.base.node.preproc.pivot with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
PivotNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.regexsplit |
---|
Methods in org.knime.base.node.preproc.regexsplit with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
RegexSplitNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.rename |
---|
Methods in org.knime.base.node.preproc.rename with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
RenameNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.rowkey |
---|
Methods in org.knime.base.node.preproc.rowkey with parameters of type ExecutionContext | |
---|---|
BufferedDataTable |
RowKeyUtil.changeRowKey(BufferedDataTable inData,
ExecutionContext exec,
String selRowKeyColName,
boolean appendColumn,
DataColumnSpec newColSpec,
boolean ensureUniqueness,
boolean replaceMissingVals,
boolean removeRowKeyCol,
boolean hiliteMap)
Replaces the row key by the values of the column with the given name and appends a new column with the old key values if the newColName variable is a non empty String . |
protected BufferedDataTable[] |
RowKeyNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.rowsplit |
---|
Methods in org.knime.base.node.preproc.rowsplit with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
NumericRowSplitterNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.sample |
---|
Methods in org.knime.base.node.preproc.sample with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
SamplingNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.setoperator |
---|
Methods in org.knime.base.node.preproc.setoperator with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
SetOperatorNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Constructors in org.knime.base.node.preproc.setoperator with parameters of type ExecutionContext | |
---|---|
SetOperationTable(ExecutionContext exec,
boolean useRowID1,
String col1,
BufferedDataTable table1,
boolean useRowID2,
String col2,
BufferedDataTable table2,
SetOperation op,
boolean enableHilite,
boolean skipMissing,
boolean sortInMemory)
Constructor for class SetOperationTable. |
Uses of ExecutionContext in org.knime.base.node.preproc.shuffle |
---|
Methods in org.knime.base.node.preproc.shuffle with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
ShuffleNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.sorter |
---|
Methods in org.knime.base.node.preproc.sorter with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
SorterNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
When the model gets executed, the DataTable
is split in several DataContainer s. |
Uses of ExecutionContext in org.knime.base.node.preproc.split |
---|
Methods in org.knime.base.node.preproc.split with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
SplitNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.stringreplacer |
---|
Methods in org.knime.base.node.preproc.stringreplacer with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
StringReplacerNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.stringreplacer.dict |
---|
Methods in org.knime.base.node.preproc.stringreplacer.dict with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
SearchReplaceDictNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.transpose |
---|
Methods in org.knime.base.node.preproc.transpose with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
TransposeTableNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.unpivot |
---|
Methods in org.knime.base.node.preproc.unpivot with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
UnpivotNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.preproc.valcount |
---|
Methods in org.knime.base.node.preproc.valcount with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
ValueCounterNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.rules |
---|
Methods in org.knime.base.node.rules with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
RuleEngineNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.util.cache |
---|
Methods in org.knime.base.node.util.cache with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
CacheNodeModel.execute(BufferedDataTable[] data,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.util.exttool |
---|
Methods in org.knime.base.node.util.exttool with parameters of type ExecutionContext | |
---|---|
int |
CommandExecution.execute(ExecutionContext exec)
Executes the commands via the Runtime and streams the stdout as well as the stderr to the logger and notifies the registered observer if a msg occurs. |
Uses of ExecutionContext in org.knime.base.node.util.sampledata |
---|
Methods in org.knime.base.node.util.sampledata with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
SampleDataNodeModel.execute(BufferedDataTable[] data,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.viz.condbox |
---|
Methods in org.knime.base.node.viz.condbox with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
ConditionalBoxPlotNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.viz.enrichment |
---|
Methods in org.knime.base.node.viz.enrichment with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
EnrichmentPlotterModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.viz.histogram.node |
---|
Methods in org.knime.base.node.viz.histogram.node with parameters of type ExecutionContext | |
---|---|
protected void |
FixedColumnHistogramNodeModel.createHistogramModel(ExecutionContext exec,
int noOfRows,
BufferedDataTable table)
This method should use the given information to create the internal histogram data model. |
protected void |
HistogramNodeModel.createHistogramModel(ExecutionContext exec,
int noOfRows,
BufferedDataTable data)
This method should use the given information to create the internal histogram data model. |
protected abstract void |
AbstractHistogramNodeModel.createHistogramModel(ExecutionContext exec,
int noOfRows,
BufferedDataTable table)
This method should use the given information to create the internal histogram data model. |
protected PortObject[] |
AbstractHistogramNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.viz.liftchart |
---|
Methods in org.knime.base.node.viz.liftchart with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
LiftChartNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.viz.pie.node |
---|
Methods in org.knime.base.node.viz.pie.node with parameters of type ExecutionContext | |
---|---|
protected abstract void |
PieNodeModel.createModel(ExecutionContext exec,
DataColumnSpec pieColSpec,
DataColumnSpec aggrColSpec,
BufferedDataTable dataTable,
int noOfRows,
boolean containsColorHandler)
Called prior #addDataRow(...) method to allow the
implementing class the specific model creation. |
protected BufferedDataTable[] |
PieNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.viz.pie.node.fixed |
---|
Methods in org.knime.base.node.viz.pie.node.fixed with parameters of type ExecutionContext | |
---|---|
protected void |
FixedPieNodeModel.createModel(ExecutionContext exec,
DataColumnSpec pieColSpec,
DataColumnSpec aggrColSpec,
BufferedDataTable dataTable,
int noOfRows,
boolean containsColorHandler)
Called prior #addDataRow(...) method to allow the
implementing class the specific model creation. |
Uses of ExecutionContext in org.knime.base.node.viz.pie.node.interactive |
---|
Methods in org.knime.base.node.viz.pie.node.interactive with parameters of type ExecutionContext | |
---|---|
protected void |
InteractivePieNodeModel.createModel(ExecutionContext exec,
DataColumnSpec pieColSpec,
DataColumnSpec aggrColSpec,
BufferedDataTable dataTable,
int noOfRows,
boolean containsColorHandler)
Called prior #addDataRow(...) method to allow the
implementing class the specific model creation. |
Uses of ExecutionContext in org.knime.base.node.viz.plotter.box |
---|
Methods in org.knime.base.node.viz.plotter.box with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
BoxPlotNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.viz.plotter.node |
---|
Methods in org.knime.base.node.viz.plotter.node with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
DefaultVisualizationNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
Converts the input data at inport 0 into a DataArray with maximum number of rows as
defined in the DefaultVisualizationNodeDialog . |
Uses of ExecutionContext in org.knime.base.node.viz.property.color |
---|
Methods in org.knime.base.node.viz.property.color with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
ColorAppender2NodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
protected PortObject[] |
ColorManager2NodeModel.execute(PortObject[] data,
ExecutionContext exec)
Is invoked during the node's execution to make the color settings. |
Uses of ExecutionContext in org.knime.base.node.viz.property.shape |
---|
Methods in org.knime.base.node.viz.property.shape with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
ShapeManagerNodeModel.execute(PortObject[] data,
ExecutionContext exec)
Is invoked during the node's execution to make the shape settings. |
protected PortObject[] |
ShapeAppenderNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
Uses of ExecutionContext in org.knime.base.node.viz.property.size |
---|
Methods in org.knime.base.node.viz.property.size with parameters of type ExecutionContext | |
---|---|
protected PortObject[] |
SizeAppenderNodeModel.execute(PortObject[] inData,
ExecutionContext exec)
Execute method for general port types. |
protected PortObject[] |
SizeManager2NodeModel.execute(PortObject[] data,
ExecutionContext exec)
Is invoked during the node's execution to make the size settings. |
Uses of ExecutionContext in org.knime.base.node.viz.roc |
---|
Methods in org.knime.base.node.viz.roc with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
ROCNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
Uses of ExecutionContext in org.knime.base.node.viz.statistics |
---|
Methods in org.knime.base.node.viz.statistics with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
Statistics2NodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
Computes the statistics for the DataTable at the in-port. |
Uses of ExecutionContext in org.knime.base.node.viz.table |
---|
Methods in org.knime.base.node.viz.table with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
TableNodeModel.execute(BufferedDataTable[] data,
ExecutionContext exec)
Called when new data is available. |
Uses of ExecutionContext in org.knime.core.data.container |
---|
Methods in org.knime.core.data.container with parameters of type ExecutionContext | |
---|---|
static RearrangeColumnsTable |
RearrangeColumnsTable.create(ColumnRearranger rearranger,
BufferedDataTable table,
ExecutionMonitor subProgress,
ExecutionContext context)
This factory method is intended to be used immediately before the BufferedDataTable is created. |
Uses of ExecutionContext in org.knime.core.node |
---|
Methods in org.knime.core.node that return ExecutionContext | |
---|---|
ExecutionContext |
ExecutionContext.createSilentSubExecutionContext(double maxProg)
Creates a new execution context with a different max progress value and swallowing any report messages. |
ExecutionContext |
ExecutionContext.createSubExecutionContext(double maxProg)
Creates a new execution context with a different max progress value. |
Methods in org.knime.core.node with parameters of type ExecutionContext | |
---|---|
protected BufferedDataTable[] |
NodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
This function is invoked by the Node#executeNode() method
of the node (through the
#executeModel(BufferedDataTable[],ExecutionMonitor)
method)only after all predecessor nodes have been successfully executed
and all data is therefore available at the input ports. |
boolean |
Node.execute(PortObject[] data,
ExecutionContext exec)
Starts executing this node. |
protected PortObject[] |
NodeModel.execute(PortObject[] inObjects,
ExecutionContext exec)
Execute method for general port types. |
protected PortObject[] |
NodeModel.executeModel(PortObject[] data,
ExecutionContext exec)
Invokes the abstract #execute() method of this model. |
static HashMap<Integer,ContainerTable> |
Node.getLocalTableRepositoryFromContext(ExecutionContext c)
Delegate method to allow access to the (package scope) method getLocalTableRepository() . |
Uses of ExecutionContext in org.knime.core.node.interrupt |
---|
Methods in org.knime.core.node.interrupt with parameters of type ExecutionContext | |
---|---|
BufferedDataTable[] |
InterruptibleNodeModel.execute(BufferedDataTable[] inData,
ExecutionContext exec)
Initialises the NodeModel, starts the execution, pauses it, resumes it and finishes it. |
abstract void |
InterruptibleNodeModel.executeOneIteration(ExecutionContext exec)
This method is assumed to implement one iteration of an interruptible algorithm. |
abstract BufferedDataTable[] |
InterruptibleNodeModel.getOutput(ExecutionContext exec)
Is called at the end of the execute method when it is finished and the data should be available. |
abstract void |
InterruptibleNodeModel.init(BufferedDataTable[] inData,
ExecutionContext exec)
Do here the initialisation of the model. |
Uses of ExecutionContext in org.knime.core.node.port.database |
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Methods in org.knime.core.node.port.database with parameters of type ExecutionContext | |
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BufferedDataTable |
DatabaseReaderConnection.createTable(ExecutionContext exec)
Read data from database. |
Uses of ExecutionContext in org.knime.core.node.util |
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Methods in org.knime.core.node.util with parameters of type ExecutionContext | |
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PortObject[] |
KNIMEJob.run(PortObject[] input,
NodeSettingsRO settings,
ExecutionContext exec)
Runs the job somewhere. |
Uses of ExecutionContext in org.knime.core.node.workflow |
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Methods in org.knime.core.node.workflow that return ExecutionContext | |
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ExecutionContext |
SingleNodeContainer.createExecutionContext()
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