Coin  4.0.3
Coin3D core library
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SoFieldData Class Reference

The SoFieldData class is a container for a prototype set of fields. More...

#include <Inventor/fields/SoFieldData.h>

Public Member Functions

 SoFieldData (const SoFieldData &fd)
 
 SoFieldData (const SoFieldData *fd)
 
 SoFieldData (int numfields)
 
 SoFieldData (void)
 
 ~SoFieldData ()
 
void addEnumValue (const char *enumname, const char *valuename, int value)
 
void addField (SoFieldContainer *base, const char *name, const SoField *field)
 
void copy (const SoFieldData *src)
 
void getEnumData (const char *enumname, int &num, const int *&values, const SbName *&names)
 
SoFieldgetField (const SoFieldContainer *object, int index) const
 
const SbNamegetFieldName (int index) const
 
int getIndex (const SoFieldContainer *fc, const SoField *field) const
 
int getNumFields (void) const
 
SbBool isSame (const SoFieldContainer *c1, const SoFieldContainer *c2) const
 
void overlay (SoFieldContainer *to, const SoFieldContainer *from, SbBool copyconnections) const
 
SbBool read (SoInput *input, SoFieldContainer *object, const SbName &fieldname, SbBool &foundname) const
 
SbBool read (SoInput *input, SoFieldContainer *object, SbBool erroronunknownfield, SbBool &notbuiltin) const
 
SbBool readFieldDescriptions (SoInput *input, SoFieldContainer *object, int numdescriptionsexpected, const SbBool readfieldvalues=TRUE) const
 
void write (SoOutput *out, const SoFieldContainer *object) const
 
void writeFieldDescriptions (SoOutput *out, const SoFieldContainer *object) const
 

Detailed Description

The SoFieldData class is a container for a prototype set of fields.

This class is instantiated once for each class of objects which use fields, and which need to be able to import and export them.

Each field of a class is stored with the name it has been given within its "owner" class and a pointer offset to the dynamic instance of the field itself.

Enumeration sets are stored with (name, value) pairs, to make it possible to address, read and save enum type fields by name.

It is unlikely that application programmers should need to use any of the methods of this class directly.

See also
SoField, SoFieldContainer

Constructor & Destructor Documentation

◆ SoFieldData() [1/4]

SoFieldData::SoFieldData ( void )

Default constructor.

◆ SoFieldData() [2/4]

SoFieldData::SoFieldData ( const SoFieldData & fd)

Copy constructor.

◆ SoFieldData() [3/4]

SoFieldData::SoFieldData ( const SoFieldData * fd)

Copy constructor taking a pointer value as an argument. Handles NULL pointers by behaving like the default constructor.

◆ SoFieldData() [4/4]

SoFieldData::SoFieldData ( int numfields)

Constructor. Takes an indication on the number of fields which should be stored, to make sure the memory handling is efficient.

◆ ~SoFieldData()

SoFieldData::~SoFieldData ( )

Destructor.

Member Function Documentation

◆ addEnumValue()

void SoFieldData::addEnumValue ( const char * enumname,
const char * valuename,
int value )

Either adds a new enum set (with an initial member), or adds a new value member to an existing enum set.

◆ addField()

void SoFieldData::addField ( SoFieldContainer * base,
const char * name,
const SoField * field )

Add a new field to our internal list.

The name will be stored along with an pointer offset between base and field, which will be valid for all instances of the class type of base.

◆ copy()

void SoFieldData::copy ( const SoFieldData * src)

Copy contents of src into this instance.

If there was any data set up in this instance before the method was called, the old data is removed first.

Note that this only copies the field set template specification from src, not actual field contents. For copying field contents, see the SoFieldData::overlay() method.

◆ getEnumData()

void SoFieldData::getEnumData ( const char * enumname,
int & num,
const int *& values,
const SbName *& names )

Returns the names and values of enumeration entry with the enumname. The number of (name, value) pairs available in the enumeration is returned in num.

◆ getField()

SoField * SoFieldData::getField ( const SoFieldContainer * object,
int index ) const

Returns a pointer to the field at index within the object instance.

◆ getFieldName()

const SbName & SoFieldData::getFieldName ( int index) const

Returns the name of the field at index.

◆ getIndex()

int SoFieldData::getIndex ( const SoFieldContainer * fc,
const SoField * field ) const

Returns the internal index value of field in fc. If field is not part of fc, returns -1.

◆ getNumFields()

int SoFieldData::getNumFields ( void ) const

Returns number of fields contained within this instance.

◆ isSame()

SbBool SoFieldData::isSame ( const SoFieldContainer * c1,
const SoFieldContainer * c2 ) const

Compares c1 and c2 to see if they have the same field data set and if the fields of c1 have the same values as the fields of c2.

Field connections are not considered (i.e. we will return TRUE if the values of the fields of c1 are equal to the fields of c2, even if they differ in how they have made connections to other fields).

If you think the method signature is a bit strange, you're correct. This should really have been a static method (the owner this instance of the method isn't used at all, due to how the internal representations of field template lists are stored), but for unknown reasons this is a dynamic method in Open Inventor. So also in Coin, to keep compatibility.

◆ overlay()

void SoFieldData::overlay ( SoFieldContainer * to,
const SoFieldContainer * from,
SbBool copyconnections ) const

Copy fields from container from to container to. If copyconnections is TRUE, we'll also copy the connections field from has made.

If you think the method signature is a bit strange, you're correct. This should really have been a static method (the owner this instance of the method isn't used at all, due to how the internal representation of field template list are stored), but for unknown reasons this is a dynamic method in Open Inventor. So also in Coin, to keep compatibility.

◆ read() [1/2]

SbBool SoFieldData::read ( SoInput * in,
SoFieldContainer * object,
const SbName & fieldname,
SbBool & foundname ) const

Find field fieldname in object, and if it is available, set foundname to TRUE and try to read the field specification from in. If foundname is set to TRUE, the return value says whether or not the field specification could be read without any problems.

If fieldname is not part of object, returns FALSE with foundname also set to FALSE.

◆ read() [2/2]

SbBool SoFieldData::read ( SoInput * in,
SoFieldContainer * object,
SbBool erroronunknownfield,
SbBool & notbuiltin ) const

Read field data from the in stream for fields belonging to object. Returns TRUE if everything went OK, or FALSE if any error conditions occurs.

erroronunknownfield decides whether or not FALSE should be returned if a name identifier not recognized as a field name of object is encountered. Note that erroronunknownfield should be FALSE if object is a container with child objects, otherwise the code will fail upon the first child name specification.

If notbuiltin is TRUE on return, object is an unknown node or engine type. Unknown nodes are recognized by the fields keyword first in their file format definition, and unknown engines by the inputs keyword.

◆ readFieldDescriptions()

SbBool SoFieldData::readFieldDescriptions ( SoInput * in,
SoFieldContainer * object,
int numdescriptionsexpected,
const SbBool readfieldvalues = TRUE ) const

Reads a set of field specifications from in for an unknown node class type, in the form "[ FIELDCLASS FIELDNAME, FIELDCLASS FIELDNAME, ... ]".

numdescriptionsexpected is used for binary format import to know how many descriptions should be parsed.

If readfieldvalues is TRUE (the default), the field initial value is expected after the field name in the SoInput stream.

◆ write()

void SoFieldData::write ( SoOutput * out,
const SoFieldContainer * object ) const

Write to out field names and field values for the fields of object.

◆ writeFieldDescriptions()

void SoFieldData::writeFieldDescriptions ( SoOutput * out,
const SoFieldContainer * object ) const

Write a set of field specifications to out for an unknown node class type, in the form "[ FIELDCLASS FIELDNAME, FIELDCLASS FIELDNAME, ... ]".


The documentation for this class was generated from the following files: