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QGIS/python/core/qgsfield.sip
Matthias Kuhn 7318c73012 Convert values to target field format 
For the field calculator and virtual fields.

Fix #11000
Fix #10995
Fix #10993
2014-10-06 10:18:02 +02:00

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/**
\class QgsField
\brief Class to encapsulate a field in an attribute table or data source.
QgsField stores metadata about an attribute field, including name, type
length, and if applicable, precision.
*/
class QgsField
{
%TypeHeaderCode
#include <qgsfield.h>
%End
public:
/** Constructor. Constructs a new QgsField object.
* @param name Field name
* @param type Field variant type, currently supported: String / Int / Double
* @param typeName Field type (eg. char, varchar, text, int, serial, double).
Field types are usually unique to the source and are stored exactly
as returned from the data store.
* @param len Field length
* @param prec Field precision. Usually decimal places but may also be
* used in conjunction with other fields types (eg. variable character fields)
* @param comment Comment for the field
*/
QgsField( QString name = QString(),
QVariant::Type type = QVariant::Invalid,
QString typeName = QString(),
int len = 0,
int prec = 0,
QString comment = QString() );
//! Destructor
~QgsField();
bool operator==( const QgsField& other ) const;
bool operator!=( const QgsField& other ) const;
//! Gets the name of the field
const QString & name() const;
//! Gets variant type of the field as it will be retrieved from data source
QVariant::Type type() const;
/**
Gets the field type. Field types vary depending on the data source. Examples
are char, int, double, blob, geometry, etc. The type is stored exactly as
the data store reports it, with no attenpt to standardize the value.
@return QString containing the field type
*/
const QString & typeName() const;
/**
Gets the length of the field.
@return int containing the length of the field
*/
int length() const;
/**
Gets the precision of the field. Not all field types have a related precision.
@return int containing the precision or zero if not applicable to the field type.
*/
int precision() const;
/**
Returns the field comment
*/
const QString & comment() const;
/**
Set the field name.
@param nam Name of the field
*/
void setName( const QString & nam );
/**
Set variant type.
*/
void setType( QVariant::Type type );
/**
Set the field type.
@param typ Field type
*/
void setTypeName( const QString & typ );
/**
Set the field length.
@param len Length of the field
*/
void setLength( int len );
/**
Set the field precision.
@param prec Precision of the field
*/
void setPrecision( int prec );
/**
Set the field comment
*/
void setComment( const QString & comment );
/**Formats string for display*/
QString displayString( const QVariant& v ) const;
/**
* Converts the provided variant to a compatible format
*
* @param v The value to convert
*
* @return True if the conversion was successful
*/
QVariant convertCompatible( QVariant& v ) const;
%MethodCode
PyObject *sipParseErr = NULL;
{
QVariant * a0;
int a0State = 0;
const QgsField *sipCpp;
if (sipParseArgs(&sipParseErr, sipArgs, "BJ1", &sipSelf, sipType_QgsField, &sipCpp, sipType_QVariant,&a0, &a0State))
{
bool sipRes;
Py_BEGIN_ALLOW_THREADS
try
{
QgsDebugMsg( a0->toString() );
sipRes = sipCpp->convertCompatible(*a0);
QgsDebugMsg( a0->toString() );
}
catch (...)
{
Py_BLOCK_THREADS
sipReleaseType(a0,sipType_QVariant,a0State);
sipRaiseUnknownException();
return NULL;
}
Py_END_ALLOW_THREADS
PyObject* res = sipConvertFromType( a0, sipType_QVariant, NULL );
sipReleaseType(a0,sipType_QVariant,a0State);
if ( !sipRes )
{
PyErr_SetString(PyExc_ValueError,
QString( "Value %1 (%2) could not be converted to field type %3." ).arg( a0->toString() ).arg ( a0->typeName() ).arg( sipCpp->type() ).toUtf8().constData() );
sipError = sipErrorFail;
}
return res;
}
}
/* Raise an exception if the arguments couldn't be parsed. */
sipNoMethod(sipParseErr, sipName_QgsField, sipName_convertCompatible, doc_QgsField_convertCompatible);
return NULL;
%End
}; // class QgsField
class QgsFields
{
%TypeHeaderCode
#include <qgsfield.h>
%End
public:
enum FieldOrigin
{
OriginUnknown, //!< it has not been specified where the field comes from
OriginProvider, //!< field comes from the underlying data provider of the vector layer (originIndex = index in provider's fields)
OriginJoin, //!< field comes from a joined layer (originIndex / 1000 = index of the join, originIndex % 1000 = index within the join)
OriginEdit //!< field has been temporarily added in editing mode (originIndex = index in the list of added attributes)
};
//! Remove all fields
void clear();
//! Append a field. The field must have unique name, otherwise it is rejected (returns false)
bool append( const QgsField& field, FieldOrigin origin = OriginProvider, int originIndex = -1 );
//! Remove a field with the given index
void remove( int fieldIdx );
//! Extend with fields from another QgsFields container
void extend( const QgsFields& other );
//! Check whether the container is empty
bool isEmpty() const;
//! Return number of items
int count() const;
// __len__ annotation since sip 4.10.3
//int count() const /__len__/;
int __len__() const;
%MethodCode
sipRes = sipCpp->count();
%End
//! Return number of items
int size() const;
//! Return if a field index is valid
//! @param i Index of the field which needs to be checked
//! @return True if the field exists
bool exists( int i ) const;
//! Get field at particular index (must be in range 0..N-1)
// inline const QgsField& operator[]( int i ) const;
QgsField& operator[](int i) /Factory/;
%MethodCode
SIP_SSIZE_T idx = sipConvertFromSequenceIndex(a0, sipCpp->count());
if (idx < 0)
sipIsErr = 1;
else
sipRes = new QgsField(sipCpp->operator[](idx));
%End
//! Get field at particular index (must be in range 0..N-1)
const QgsField& at( int i ) const;
//! Get field at particular index (must be in range 0..N-1)
const QgsField& field( int fieldIdx ) const;
//! Get field at particular index (must be in range 0..N-1)
const QgsField& field( const QString& name ) const;
//! Get field's origin (value from an enumeration)
FieldOrigin fieldOrigin( int fieldIdx ) const;
//! Get field's origin index (its meaning is specific to each type of origin)
int fieldOriginIndex( int fieldIdx ) const;
//! Look up field's index from name. Returns -1 on error
int indexFromName( const QString& name ) const;
//! Look up field's index from name - case insensitive
//! TODO: sort out case sensitive (indexFromName()) vs insensitive (fieldNameIndex()) calls
//! @note added in 2.4
int fieldNameIndex( const QString& fieldName ) const;
//! Utility function to get list of attribute indexes
//! @note added in 2.4
QgsAttributeList allAttributesList() const;
//! Utility function to return a list of QgsField instances
QList<QgsField> toList() const;
//! @note added in 2.6
bool operator==( const QgsFields& other ) const;
//! @note added in 2.6
bool operator!=( const QgsFields& other ) const;
/* SIP_PYOBJECT __getitem__(int key);
%MethodCode
if (a0 = sipConvertFromSequenceIndex(a0, sipCpp->count()) < 0)
sipIsErr = 1;
else
{
qDebug("__getitem__ %d", a0);
QgsField* fld = new QgsField(sipCpp->at(a0));
sipRes = sipConvertFromType(fld, sipType_QgsField, Py_None);
}
%End*/
void __setitem__(int key, const QgsField& field);
%MethodCode
int idx = (int)sipConvertFromSequenceIndex(a0, sipCpp->count());
if (idx < 0)
sipIsErr = 1;
else
(*sipCpp)[idx] = *a1;
%End
};
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