resqml2::AbstractTechnicalFeature Class Reference

An abstract technical feature. These are objects that exist by the action of humans. More...

#include <AbstractTechnicalFeature.h>

Inheritance diagram for resqml2::AbstractTechnicalFeature:

Public Member Functions
virtual	~AbstractTechnicalFeature ()=default
Public Member Functions inherited from resqml2::AbstractFeature
virtual	~AbstractFeature ()=default
std::vector< AbstractFeatureInterpretation * >	getInterpretationSet () const
unsigned int	getInterpretationCount () const
AbstractFeatureInterpretation *	getInterpretation (unsigned int index) const
virtual void	loadTargetRelationships ()
Public Member Functions inherited from common::AbstractObject
bool	isPartial () const
virtual bool	isTopLevelElement () const
std::string	getUuid () const
std::string	getTitle () const
std::string	getEditor () const
time_t	getCreation () const
tm	getCreationAsTimeStructure () const
std::string	getOriginator () const
std::string	getDescription () const
time_t	getLastUpdate () const
tm	getLastUpdateAsTimeStructure () const
std::string	getFormat () const
std::string	getDescriptiveKeywords () const
std::string	getVersion () const
void	setTitle (const std::string &title)
void	setEditor (const std::string &editor)
void	setCreation (time_t creation)
void	setCreation (const tm &creation)
void	setOriginator (const std::string &originator)
void	setDescription (const std::string &description)
void	setLastUpdate (time_t lastUpdate)
void	setLastUpdate (const tm &lastUpdate)
void	setDescriptiveKeywords (const std::string &descriptiveKeywords)
void	setVersion (const std::string &version)
void	setMetadata (const std::string &title, const std::string &editor, time_t creation, const std::string &originator, const std::string &description, time_t lastUpdate, const std::string &descriptiveKeywords)
void	serializeIntoStream (std::ostream *stream)
void	setGsoapProxy (gsoap_resqml2_0_1::eml20__AbstractCitedDataObject *gsoapProxy)
void	setGsoapProxy (gsoap_eml2_1::eml21__AbstractObject *gsoapProxy)
gsoap_resqml2_0_1::eml20__AbstractCitedDataObject *	getEml20GsoapProxy () const
gsoap_eml2_1::eml21__AbstractObject *	getEml21GsoapProxy () const
gsoap_eml2_2::eml22__AbstractObject *	getEml22GsoapProxy () const
void	setGsoapProxy (gsoap_eml2_2::eml22__AbstractObject *gsoapProxy)
gsoap_eml2_3::eml23__AbstractObject *	getEml23GsoapProxy () const
void	setGsoapProxy (gsoap_eml2_3::eml23__AbstractObject *gsoapProxy)
soap *	getGsoapContext () const
int	getGsoapType () const
gsoap_resqml2_0_1::eml20__DataObjectReference *	newResqmlReference () const
gsoap_eml2_1::eml21__DataObjectReference *	newEmlReference () const
gsoap_eml2_2::eml22__DataObjectReference *	newEml22Reference () const
gsoap_eml2_3::eml23__DataObjectReference *	newEml23Reference () const
gsoap_resqml2_0_1::resqml20__ContactElementReference *	newContactElementReference2_0_1 () const
gsoap_eml2_3::resqml22__ContactElement *	newContactElementReference2_2 () const
common::DataObjectRepository *	getRepository () const
virtual std::string	getXmlNamespace () const =0
virtual std::string	getXmlTag () const =0
virtual std::string	getXmlNamespaceVersion () const
virtual std::string	getContentType () const
virtual std::string	getQualifiedType () const
virtual std::string	getPartNameInEpcDocument () const
std::string	serializeIntoString ()
void	addAlias (const std::string &authority, const std::string &title)
unsigned int	getAliasCount () const
std::string	getAliasAuthorityAtIndex (unsigned int index) const
std::string	getAliasTitleAtIndex (unsigned int index) const
std::vector< eml2::Activity * >	getActivitySet () const
unsigned int	getActivityCount () const
eml2::Activity *	getActivity (unsigned int index) const
void	pushBackExtraMetadata (const std::string &key, const std::string &value)
std::unordered_map< std::string, std::string >	getExtraMetadataSet () const
std::vector< std::string >	getExtraMetadata (const std::string &key) const
unsigned int	getExtraMetadataCount () const
std::string	getExtraMetadataKeyAtIndex (unsigned int index) const
std::string	getExtraMetadataStringValueAtIndex (unsigned int index) const

Additional Inherited Members
Public Types inherited from common::AbstractObject
enum	hdfDatatypeEnum {   UNKNOWN = 0 , DOUBLE = 1 , FLOAT = 2 , LONG_64 = 3 ,   ULONG_64 = 4 , INT = 5 , UINT = 6 , SHORT = 7 ,   USHORT = 8 , CHAR = 9 , UCHAR = 10 }
Static Public Member Functions inherited from common::AbstractObject
static void	setFormat (const std::string &vendor, const std::string &applicationName, const std::string &applicationVersionNumber)

Detailed Description

An abstract technical feature. These are objects that exist by the action of humans.

        Examples include: wells and all they may contain, seismic surveys (surface, permanent
        water bottom), or injected fluid volumes. Because the decision to deploy such
        equipment is the result of studies or decisions by humans, technical features are
        usually not subject to the same kind of large changes in interpretation as geologic
        features. However, they are still subject to measurement error and other sources of
        uncertainty, and so still can be considered as subject to "interpretation". RESQML
        has these types of features: geologic and technical.

Constructor & Destructor Documentation

~AbstractTechnicalFeature()

virtual resqml2::AbstractTechnicalFeature::~AbstractTechnicalFeature ( )

virtualdefault

Destructor does nothing since the memory is managed by the gSOAP context.

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

• C:/Users/philippe/dev/fesapiEnv/fesapi-2.0.0.0/src/resqml2/AbstractTechnicalFeature.h