26 #ifndef __TERRALIB_TERRALIB4_INTERNAL_DATASOURCETRANSACTOR_H
27 #define __TERRALIB_TERRALIB4_INTERNAL_DATASOURCETRANSACTOR_H
30 #include "../dataaccess/datasource/DataSourceTransactor.h"
40 class TeAbstractTheme;
45 namespace dt {
class Property; }
46 namespace gm {
class Envelope;
class Geometry; }
75 bool isInTransaction()
const;
77 std::auto_ptr<te::da::DataSet> getDataSet(
const std::string& name,
79 bool connected =
false,
82 std::auto_ptr<te::da::DataSet> getDataSet(
const std::string& name,
83 const std::string& propertyName,
87 bool connected =
false,
90 std::auto_ptr<te::da::DataSet> getDataSet(
const std::string& name,
91 const std::string& propertyName,
95 bool connected =
false,
98 std::auto_ptr<te::da::DataSet> getDataSet(
const std::string& name,
99 const ObjectIdSet* oids,
101 bool connected =
false,
106 bool connected =
false,
109 std::auto_ptr<te::da::DataSet> query(
const std::string& query,
111 bool connected =
false,
116 void execute(
const std::string& command);
118 std::auto_ptr<te::da::PreparedQuery> getPrepared(
const std::string& qName = std::string(
""));
120 std::auto_ptr<te::da::BatchExecutor> getBatchExecutor();
124 boost::int64_t getLastGeneratedId();
126 std::string escape(
const std::string& value);
128 bool isDataSetNameValid(
const std::string& datasetName);
130 bool isPropertyNameValid(
const std::string& propertyName);
132 std::vector<std::string> getDataSetNames();
134 std::size_t getNumberOfDataSets();
136 std::auto_ptr<te::da::DataSetType> getDataSetType(
const std::string& name);
138 boost::ptr_vector<te::dt::Property> getProperties(
const std::string& datasetName);
140 std::auto_ptr<te::dt::Property> getProperty(
const std::string& datasetName,
const std::string& name);
142 std::auto_ptr<te::dt::Property> getProperty(
const std::string& datasetName, std::size_t propertyPos);
144 std::vector<std::string> getPropertyNames(
const std::string& datasetName);
146 std::size_t getNumberOfProperties(
const std::string& datasetName);
148 bool propertyExists(
const std::string& datasetName,
const std::string& name);
152 void dropProperty(
const std::string& datasetName,
const std::string& name);
154 void renameProperty(
const std::string& datasetName,
155 const std::string& propertyName,
156 const std::string& newPropertyName);
158 std::auto_ptr<te::da::PrimaryKey> getPrimaryKey(
const std::string& datasetName);
160 bool primaryKeyExists(
const std::string& datasetName,
const std::string& name);
164 void dropPrimaryKey(
const std::string& datasetName);
166 std::auto_ptr<te::da::ForeignKey> getForeignKey(
const std::string& datasetName,
const std::string& name);
168 std::vector<std::string> getForeignKeyNames(
const std::string& datasetName);
170 bool foreignKeyExists(
const std::string& datasetName,
const std::string& name);
174 void dropForeignKey(
const std::string& datasetName,
const std::string& fkName);
176 std::auto_ptr<te::da::UniqueKey> getUniqueKey(
const std::string& datasetName,
const std::string& name);
178 std::vector<std::string> getUniqueKeyNames(
const std::string& datasetName);
180 bool uniqueKeyExists(
const std::string& datasetName,
const std::string& name);
184 void dropUniqueKey(
const std::string& datasetName,
const std::string& name);
186 std::auto_ptr<te::da::CheckConstraint> getCheckConstraint(
const std::string& datasetName,
const std::string& name);
188 std::vector<std::string> getCheckConstraintNames(
const std::string& datasetName);
190 bool checkConstraintExists(
const std::string& datasetName,
const std::string& name);
194 void dropCheckConstraint(
const std::string& datasetName,
const std::string& name);
196 std::auto_ptr<te::da::Index> getIndex(
const std::string& datasetName,
const std::string& name);
198 std::vector<std::string> getIndexNames(
const std::string& datasetName);
200 bool indexExists(
const std::string& datasetName,
const std::string& name);
202 void addIndex(
const std::string& datasetName,
te::da::Index* idx,
203 const std::map<std::string, std::string>& options);
205 void dropIndex(
const std::string& datasetName,
const std::string& idxName);
207 std::auto_ptr<te::da::Sequence> getSequence(
const std::string& name);
209 std::vector<std::string> getSequenceNames();
211 bool sequenceExists(
const std::string& name);
215 void dropSequence(
const std::string& name);
217 std::auto_ptr<te::gm::Envelope> getExtent(
const std::string& datasetName,
218 const std::string& propertyName);
220 std::auto_ptr<te::gm::Envelope> getExtent(
const std::string& datasetName,
221 std::size_t propertyPos);
223 std::size_t getNumberOfItems(
const std::string& datasetName);
227 bool dataSetExists(
const std::string& name);
229 void createDataSet(
te::da::DataSetType* dt,
const std::map<std::string, std::string>& options);
231 void cloneDataSet(
const std::string& name,
232 const std::string& cloneName,
233 const std::map<std::string, std::string>& options);
235 void dropDataSet(
const std::string& name);
237 void renameDataSet(
const std::string& name,
const std::string& newName);
239 void add(
const std::string& datasetName,
241 const std::map<std::string, std::string>& options,
242 std::size_t limit = 0);
246 void update(
const std::string& datasetName,
248 const std::vector<std::size_t>& properties,
250 const std::map<std::string, std::string>& options,
251 std::size_t limit = 0);
253 void optimize(
const std::map<std::string, std::string>& opInfo);
257 std::vector<std::string> getTL4Layers();
259 std::vector<std::string> getTL4Tables();
261 std::vector<std::string> getTL4Rasters();
263 std::vector<::terralib4::ThemeInfo> getTL4Themes();
265 TeTheme* getTL4Theme(const ::terralib4::ThemeInfo& theme);
267 int getLayerSRID(
const std::string & layerName);
283 #endif // __TERRALIB_TERRALIB4_INTERNAL_DATASOURCETRANSACTOR_H
CharEncoding
Supported charsets (character encoding).
std::map< int, TeLayer * > & m_layerMap
std::map< int, TeView * > & m_viewMap
A class that models the description of a dataset.
Implements the DataSource class for the TerraLib 4.x Data Access Driver.
SpatialRelation
Spatial relations between geometric objects.
It describes a sequence (a number generator).
A class that describes a check constraint.
An abstract class for data providers like a DBMS, Web Services or a regular file. ...
Configuration flags for the TerraLib 4 driver.
It models a property definition.
AccessPolicy
Supported data access policies (can be used as bitfield).
TraverseType
A dataset can be traversed in two ways:
An Envelope defines a 2D rectangular region.
This class represents a set of unique ids created in the same context. i.e. from the same data set...
It models a foreign key constraint for a DataSetType.
It describes a unique key (uk) constraint.
A DataSourceTransactor can be viewed as a connection to the data source for reading/writing things in...
Geometry is the root class of the geometries hierarchy, it follows OGC and ISO standards.
A Select models a query to be used when retrieving data from a DataSource.
A dataset is the unit of information manipulated by the data access module of TerraLib.
#define TETERRALIB4EXPORT
You can use this macro in order to export/import classes and functions from this module.
It describes a primary key (pk) constraint.
std::map< int, TeAbstractTheme * > & m_themeMap
A Query is independent from the data source language/dialect.
It describes an index associated to a DataSetType.