Class SoDataMeasureCustom
- java.lang.Object
-
- com.openinventor.inventor.Inventor
-
- com.openinventor.inventor.misc.SoBase
-
- com.openinventor.inventor.fields.SoFieldContainer
-
- com.openinventor.imageviz.nodes.measures.SoDataMeasure
-
- com.openinventor.imageviz.nodes.measures.SoDataMeasureCustom
-
- All Implemented Interfaces:
SafeDisposable
public class SoDataMeasureCustom extends SoDataMeasure
class to define a custom measure. A custom measure is defined by a string formula that can use other custom or predefined measure. It must have a unique name.// Example of code to define a custom measure using two predefined measure and // defined as the ratio of the Volume/Area. SoDataMeasureCustom* myMeasure1 = new SoDataMeasureCustom(); myMeasure1->measureName = "myMeasure1"; myMeasure1->formula = SoDataMeasurePredefined.getName(SoDataMeasurePredefined.VOLUME) + "/" + SoDataMeasurePredefined.getName(SoDataMeasurePredefined.AREA); // myMeasure1 can in turn be used to define an other custom measure, define as 2*myMeasure1 SoDataMeasureCustom* myMeasure2 = new SoDataMeasureCustom(); myMeasure2->measureName = "myMeasure2"; myMeasure2->formula = myMeasure1.getMeasureName() + "*2"; Custom formula syntax Custom formula syntax is checked before acceptation by ImageViz. Custom measure formula and custom filter formula follow the same basic rules and can use the same set of predefined functions. Custom measure formula must be a numerical value whereas custom filter formula must be a logical value to be accepted. Formula can be composed of constants, operators, functions and variables (native measures and custom measures).
Remarks :- The following (unless specified) constants, operators, functions and variables are unsensitive to case and can be used both with custom measures and custom filters.
- The following (unless specified) operators and functions are unsensitive to spaces. Constants and variables must not be directely attached to alpha numerical symbols.
The following syntax can be used to define a formula :Basic operators () : brackets allowing to group elements and to modify operators precedence
example : (2 + 3)*4+ : unary arithmetic operator [plus]
example : + a- : unary arithmetic operator [minus]
example : - b+ : binary arithmetic operator [plus]
example : a + b- : binary arithmetic operator [minus]
example : a - b* : binary arithmetic operator [multiply]
example : a * b/ : binary arithmetic operator [divide]
example : a / b
remark : a division by 0 returns the value 0 in order to avoid exceptions.** : binary arithmetic operator [pow]
example : a ** b! : unary logical operator [not]
example : !(a>b)&& : or And : binary logical operator [and]
example : (a>b) && (a<c)
example : (a>c) And (a<c)
remark : And : operator must not be directely attached to alpha numerical symbols.|| : or Or : binary logical operator [or]
example : (a>b) || (a<c)
example : (a>b) Or (a<c)
remark : Or : operator must not be directely attached to alpha numerical symbols.== : comparison operator (logical and arithmetic) [equal]
example : a==b
example : true==true!= : comparison operator (logical and arithmetic) [different]
example : a != b
example : true != false< : arithmetic comparison operator [strictly inferior]
example : a < b<= : arithmetic comparison operator [less]
example : a<= b> : arithmetic comparison operator [strictly superior]
example : a > b>= : arithmetic comparison operator [superior]
example : a >= bConstant values Pi : , the pi constant
example : 3 * PiE : , the Euler's constant
example : 2 * ETrue : the true boolean value
example : (3<Pi)==TrueFalse : the false boolean value
example : (3>Pi)==FalseNbFeret : distribution size for feret measures
example : 3*NbFeretgx : , gy : and gz : image X, Y and Z size associated to measure
example : 3*gx
remark : not available for custom filterscx : , cy : and cz : stand for pixel real size according to calibration
example : 3*cx
remark : not available for custom filtersFunctions Abs : absolute value of a numerical value
example : abs(a)Sqrt : square root value of a numerical value
example : sqrt(a)
remark : a must be positive or nullExp : exponential value of a numerical value
example : exp(a)Log : natural logarithm value of a numerical value
example : log(a)
remark : a must be strictly positiveCos : cosine value of a numerical value
example : cos(a)Sin : sine value of a numerical value
example : sin(a)Tan : tangent value of a numerical value
example : tan(a)ACos : arccosine value of a numerical value
example : acos(a)
remark : a must within range [-1, 1]ASin : sine arcvalue of a numerical value
example : asin(a)
remark : a must within range [-1, 1]ATan : arctangent value of a numerical value
example : atan(a)ATan2 : arctangent value of a 2d point
example : atan(y, x)CosH : hyperbolic cosine value of a numerical value
example : cosh(a)SinH : hyperbolic sine value of a numerical value
example : sinh(a)TanH : hyperbolic tangent value of a numerical value
example : tanh(a)Min : retrieve minimum value of a variable sized set of numerical values
example : min(a, b, c, d)Max : retrieve maximum value of a variable sized set of numerical values
example : max(a, b, c, d, e)Avg : retrieve mean value of a variable sized set of numerical values
example : avg(a, b, c)Median : retrieve median value of a variable sized set of numerical values
example : median(a, b, c, d)Sum : compute the sum of a variable sized set of numerical values
example : sum(a, b, c)Sum : compute the product of a variable sized set of numerical values
example : product(a, b, c, d, e)If : : conditional evaluation of an expression
example : if(predicat, value_true, value_false)
remark : Each member of a conditional expression is systematically evaluated even if it is not supposed to be reached by the condition. Thus an instruction can raise an error even if the condition is supposed to prevent invalid evaluations.
example: if(I1<=0, 0, log(I1)) will raise an error if a voxel value is lower or equal to 0 since the log expression will be evaluated before the if statement.
-
-
Nested Class Summary
-
Nested classes/interfaces inherited from class com.openinventor.imageviz.nodes.measures.SoDataMeasure
SoDataMeasure.ResultFormats, SoDataMeasure.UnitDimensions
-
Nested classes/interfaces inherited from class com.openinventor.inventor.Inventor
Inventor.ConstructorCommand
-
-
Field Summary
Fields Modifier and Type Field Description SoSFString
formula
Formula describing the custom measure.SoSFString
measureName
Measure name that can be used in custom measure combination formula.-
Fields inherited from class com.openinventor.inventor.Inventor
VERBOSE_LEVEL, ZeroHandle
-
-
Constructor Summary
Constructors Constructor Description SoDataMeasureCustom()
Default constructor.
-
Method Summary
-
Methods inherited from class com.openinventor.imageviz.nodes.measures.SoDataMeasure
getFormat, getMeasureName, getUnitDimension
-
Methods inherited from class com.openinventor.inventor.fields.SoFieldContainer
copyFieldValues, copyFieldValues, enableNotify, fieldsAreEqual, get, getAllFields, getEventIn, getEventOut, getField, getFieldName, hasDefaultValues, isNotifyEnabled, set, setToDefaults
-
Methods inherited from class com.openinventor.inventor.misc.SoBase
dispose, getName, isDisposable, isSynchronizable, setName, setSynchronizable, touch
-
Methods inherited from class com.openinventor.inventor.Inventor
getNativeResourceHandle
-
-
-
-
Field Detail
-
measureName
public final SoSFString measureName
Measure name that can be used in custom measure combination formula.
-
formula
public final SoSFString formula
Formula describing the custom measure.
-
-