MaxVolume, MaxSurface, MaxLine, MinVolume, MinSurface, MinLine
Find extremal values (maximum or minimum).
Syntax
model.result().numerical().create(<ftag>,"MaxVolume");
model.result().numerical().create(<ftag>,"MinVolume");
model.result().numerical().create(<ftag>,"MaxSurface");
model.result().numerical().create(<ftag>,"MinSurface");
model.result().numerical().create(<ftag>,"MaxLine");
model.result().numerical().create(<ftag>,"MinLine");
model.result().numerical(<ftag>).selection(...);
model.result().numerical(<ftag>).set(property, <value>);
model.result().numerical(<ftag>).getReal();
model.result().numerical(<ftag>).getReal(<columnwise>);
model.result().numerical(<ftag>).getReal(<outersolnum>);
model.result().numerical(<ftag>).getReal(<columnwise>,<outersolnum>);
model.result().numerical(<ftag>).getImag();
model.result().numerical(<ftag>).getImag(<allocate>, <columnwise>);
model.result().numerical(<ftag>).getImag(<outersolnum>);
model.result().numerical(<ftag>).getImag(<allocate>, <columnwise>,<outersolnum>);
model.result().numerical(<ftag>).isComplex();
model.result().numerical(<ftag>).isComplex(<outersolnum>);
model.result().numerical(<ftag>).computeResult();
model.result().numerical(<ftag>).setResult();
model.result().numerical(<ftag>).appendResult();
 
When added to an evaluation group, replace numerical(<ftag>) with evaluationGroup(<ftag>).
Description
model.result().numerical().create(<ftag>,"MaxVolume") creates a volume maximum feature with the name <ftag>, and similarly for "MinVolume".
model.result().numerical().create(<ftag>,"MaxSurface") creates a surface maximum feature with the name <ftag>, and similarly for "MinSurface".
model.result().numerical().create(<ftag>,"MaxLine") creates a line maximum feature with the name <ftag>, and similarly for "MinLine".
model.result().numerical(<ftag>).getReal() returns the real result, recomputing the feature if necessary. Data is ordered such that one row contains data for all solution numbers. This is identical to (columnwise) when columnwise is false. If columnwise is true, the ordering is the opposite: each column contains the values for all solution numbers.
model.result().numerical(<ftag>).getImag(allocate, columnwise) returns the imaginary part of complex result, recomputing the feature if necessary. If allocate is true, a zero-valued matrix is allocated even when the result is real. getImag() uses allocate true and columnwise false.
model.result().numerical(<ftag>).isComplex() returns true if the result is complex. The resulting value is a scalar, which true if any of the expressions in an array is complex-valued.
model.result().numerical(<ftag>).isComplex(<outersolnum>) returns true if the result is complex for the given outer solution. <outersolnum> is applicable only for parametric sweep solutions and is the index of each outer parametric solution.
model.result().numerical(<ftag>).computeResult() returns the matrix of data that the setResult method adds to a table. The matrix includes data only, not the parameter columns, and it does not use any table-specific settings.
model.result().numerical(<ftag>).setResult() and model.result().numerical(<ftag>).appendResult() evaluates the feature and set or append the result in the table indicated by the table property.
The following properties are available:
none | dataset name
average | integral | maximum | minimum | none | rms | stddev | variance
auto | integration | summation
The descriptions of the expressions in expr. Is used in the automatic title.
on | off
linpoint | harmonic | lintotal | lintotalavg | lintotalrms | lintotalpeak
all | first | last | manual | manualindices | interp
How to input the solution to use. manual indicates that solnum is used. manualindices indicates that solnumindices is used. interp indicates that t is used.
The times to use, for transient levels. Available when data is not parent and the underlying data is transient.
The integration order to use when points is set to integration.
The local z-coordinates, when locdef is set to physical.
The local relative z-coordinates, when locdef is set to relative.
reference | physical | relative
The location definition, if locinput is set to manual: a reference surface, physical z-coordinate, or a relative z-coordinate. Only available when using a Layered Material dataset. Not available for MaxVolume and MinVolume.
fromdataset | manual
The location input: from the dataset or manual. Only available when using a Layered Material dataset. Not available for MaxVolume and MinVolume.
All solutions on all levels
An alternative way to specify the solutions to use, allowing you to enter, for example, range(1,1,20). Applicable when looplevelinput is manualindices on a level.
String array with all | first | last | manual | manualindices | interp on each level
all on all levels
How to input the solution to use, per level. manual on a level indicates that looplevel is used on that level. manualindices on a level indicates that looplevelindices is used on that level. interp on a level indicates that interp is used on that level.
abs | real
all | first | last | manual | manualindices
How to input the outer solutions to use. Applicable only for parametric sweep models. manual indicates that outersolnum is used. manualindices indicates that outersolnumindices is used.
lagrange | node | integration
The Lagrange order (number of refinements) to use when points is set to lagrange. Bear in mind that this is the refinement used for the base dataset, so the number of elements in the model can increase radically if the plot uses, for example, a revolve dataset.
An alternative way to specify the solutions to use, allowing you to enter, for example, range(1,1,20). Applicable when innerinput is manualindices.
solnum | solutioninfo
new | table name
The table to use when calling setResult() or appendResult(). new indicates that a new table is created.
inner | outer | data | level1
Whether to use inner or outer solutions as columns in the table when calling setResult() or appendResult(). Applicable only for parametric sweep models. The level values (level1, level2, and so on) are the levels in the parametric sweep.
on | off
on if t is used to determine time steps, off if solnum is used.
The units to use for the expressions in expr. If the old unit is not valid when the expression changes, the unit property is reset to default.
See Also
IntVolume, IntSurface, IntLine