'\"! tbl | mmdoc '\"macro stdmacro .ie n \{\ . ds Cr \fB . ds Cb \fB .\} .el \{\ . ds Cr \f7 . ds Cb \f8 .\} .TH SoMField(3IV) .SH NAME SoMField \(em base class for all multiple-valued fields .SH INHERITS FROM SoField > SoMField .SH SYNOPSIS .ps -1 \*(Cr#include .sp .in 1i \f1Methods from class SoMField: .in 0.5i .sp .ta 20m .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crint .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbgetNum\*(Cr() const .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crvoid .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbsetNum\*(Cr(int num) .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crvirtual void .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbdeleteValues\*(Cr(int start, int num = -1) .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crvirtual void .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbinsertSpace\*(Cr(int start, int num) .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(CrSbBool .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(Cbset1\*(Cr(int index, const char *valueString) .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crvoid .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(Cbget1\*(Cr(int index, SbString &valueString) .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crstatic SoType .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbgetClassTypeId\*(Cr() .sp .in 1i \f1Methods from class SoField: .in 0.5i .sp .ta 20m .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crvoid .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbsetIgnored\*(Cr(SbBool ignore) .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(CrSbBool .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbisIgnored\*(Cr() const .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(CrSbBool .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbisDefault\*(Cr() const .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crvirtual SoType .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbgetTypeId\*(Cr() const .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crvirtual SbBool .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbisOfType\*(Cr(SoType type) const .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(CrSbBool .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(Cbset\*(Cr(const char *valueString) .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crvoid .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(Cbget\*(Cr(SbString &valueString) .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crint .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(Cboperator ==\*(Cr(const SoField &f) const .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crint .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(Cboperator !=\*(Cr(const SoField &f) const .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crvoid .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(Cbtouch\*(Cr() .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(CrSbBool .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbconnectFrom\*(Cr(SoField *fromField) .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(CrSbBool .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbconnectFrom\*(Cr(SoEngineOutput *fromEngine) .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crvoid .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(Cbdisconnect\*(Cr() .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(CrSbBool .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbisConnected\*(Cr() const .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(CrSbBool .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbisConnectedFromField\*(Cr() const .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(CrSbBool .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbgetConnectedField\*(Cr(SoField *&writingField) const .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(CrSbBool .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbisConnectedFromEngine\*(Cr() const .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(CrSbBool .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbgetConnectedEngine\*(Cr(SoEngineOutput *&engineOutput) const .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crvoid .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbenableConnection\*(Cr(SbBool flag) .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(CrSbBool .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbisConnectionEnabled\*(Cr() const .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crint .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbgetForwardConnections\*(Cr(SoFieldList &list) const .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(CrSoFieldContainer * .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbgetContainer\*(Cr() const .sp .SH DESCRIPTION Each class derived from \*(CbSoMField\f1 begins with an \*(CbSoMF\f1 prefix and contains a dynamic array of values of a particular type. Each has a \*(CbsetValues()\f1 method that is passed a pointer to a const array of values of the correct type; \&these values are copied into the array in the field, making extra room in the array if necessary. The start and num parameters to this method indicate the starting array index to copy into and the number \&of values to copy. .sp The \*(CbgetValues()\f1 method for a multiple-value field returns a const pointer to the array of values in the field. (Because this pointer is const, it cannot be used to change values in this array.) .sp In addition, the indexing operator "[]" is overloaded to return the \*(Cri\f1'th value in the array; because it returns a const reference, it can be used only to get values, not to set them. .sp Methods \&are provided for getting the number of values in the field, inserting space for new values in the middle, and deleting values. .sp There are other methods that allow you to set only one value of several in \&the field and to set the field to contain one and only one value. .sp Two other methods can be used to make several changes to a multiple-value field without the overhead of copying values into and out of \&the fields. The \*(CbstartEditing()\f1 method returns a non-const pointer to the array of values in the field; this pointer can then be used to change (but not add or remove) any values in the array. The \*(CbfinishEditing()\f1 method indicates that \&the editing is done and notifies any sensors or engines that may be connected to the field. .sp \*(CbSoMFields\f1 are written to file as a series of values separated by commas, all enclosed in square brackets. If the field \&has no values (\*(CbgetNum()\f1 returns zero), then only the square brackets ("[]") are written. The last value may optionally be followed by a comma. Each field subtype defines how the values are written; for example, \&a field whose values are integers might be written as: .nf .in 1i [ 1, 2, 3, 4 ] or: [ 1, 2, 3, 4, ] .fi .in 0.5i .SH METHODS .ta 20m .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crint .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbgetNum\*(Cr() const .br .in 1i \f1Returns the number of values currently in the field. .sp .in 0.5i .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crvoid .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbsetNum\*(Cr(int num) .br .in 1i \f1Forces this field to have exactly num values, inserting or deleting values as necessary. .sp .in 0.5i .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crvirtual void .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbdeleteValues\*(Cr(int start, int num = -1) .br .in 1i \f1Deletes \*(Crnum\f1 values beginning at index \*(Crstart\f1 (index \*(Crstart\f1 through \*(Crstart\f1+\*(Crnum\f1-1 will be deleted, and any leftover values will be moved down to fill in the gap created). A \*(Crnum\f1 of -1 means delete all values from \*(Crstart\f1 to the last value \&in the field; \*(CbgetNum()\f1 will return \*(Crstart\f1 as the number of values in the field after this operation (\*(CbdeleteValues(0, -1) empties the field). .sp .in 0.5i .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crvirtual void .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbinsertSpace\*(Cr(int start, int num) .br .in 1i \f1Inserts space for \*(Crnum\f1 values at index \*(Crstart\f1. Index \*(Crstart\f1 through \*(Crstart\f1+\*(Crnum\f1-1 will be moved up to make room. For example, to make room for 7 new values at the beginning of the field call \*(CbinsertSpace(0, 10)\f1. .sp .in 0.5i .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(CrSbBool .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(Cbset1\*(Cr(int index, const char *valueString) .br .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crvoid .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(Cbget1\*(Cr(int index, SbString &valueString) .br .in 1i \f1These are equivalent to the \*(Cbset()\f1 and \*(Cbget()\f1 methods of \*(CbSoField\f1, but they operate on only one value. See the \*(CbSoField\f1 methods for details. .sp .in 0.5i .in 1i+20n .ti 0.5i .ta 20m .ds Pt \*(Crstatic SoType .ie \w'\*(Pt'>=20n \{\ .ne 3 \*(Pt .ti 0.5i \c\ \} .el\{\ .ne 2 \*(Pt \c\ \} \*(CbgetClassTypeId\*(Cr() .br .in 1i \f1Return the type identifier for this field class. .sp .in 0.5i .SH SEE ALSO \*(CbSoNode, SoEngine