Transactor.h
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1 /* Copyright (C) 2008 National Institute For Space Research (INPE) - Brazil.
2 
3  This file is part of the TerraLib - a Framework for building GIS enabled applications.
4 
5  TerraLib is free software: you can redistribute it and/or modify
6  it under the terms of the GNU Lesser General Public License as published by
7  the Free Software Foundation, either version 3 of the License,
8  or (at your option) any later version.
9 
10  TerraLib is distributed in the hope that it will be useful,
11  but WITHOUT ANY WARRANTY; without even the implied warranty of
12  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13  GNU Lesser General Public License for more details.
14 
15  You should have received a copy of the GNU Lesser General Public License
16  along with TerraLib. See COPYING. If not, write to
17  TerraLib Team at <terralib-team@terralib.org>.
18  */
19 
20 /*!
21  \file terralib/wfs/Transactor.h
22 
23  \brief Implementation of the transactor for the WFS driver.
24 */
25 
26 #ifndef __TERRALIB_WFS_INTERNAL_TRANSACTOR_H
27 #define __TERRALIB_WFS_INTERNAL_TRANSACTOR_H
28 
29 // TerraLib
30 #include "../dataaccess/datasource/DataSourceTransactor.h"
31 #include "Config.h"
32 
33 // STL
34 #include <map>
35 #include <memory>
36 #include <string>
37 
38 namespace te
39 {
40  namespace wfs
41  {
42 // Forward declaration
43  class DataSource;
44 
45  /*!
46  \class Transactor
47 
48  \brief Implementation of the transactor for the WFS driver.
49  */
50  class TEWFSEXPORT Transactor : public te::da::DataSourceTransactor
51  {
52  public:
53 
54  Transactor(DataSource* ds);
55 
56  ~Transactor();
57 
58  te::da::DataSource* getDataSource() const;
59 
60  void begin();
61 
62  void commit();
63 
64  void rollBack();
65 
66  bool isInTransaction() const;
67 
68  std::auto_ptr<te::da::DataSet> getDataSet(const std::string& name,
69  te::common::TraverseType travType = te::common::FORWARDONLY,
70  bool connected = false,
71  const te::common::AccessPolicy accessPolicy = te::common::RAccess);
72 
73  std::auto_ptr<te::da::DataSet> getDataSet(const std::string& name,
74  const std::string& propertyName,
75  const te::gm::Envelope* e,
76  te::gm::SpatialRelation r,
77  te::common::TraverseType travType = te::common::FORWARDONLY,
78  bool connected = false,
79  const te::common::AccessPolicy accessPolicy = te::common::RAccess);
80 
81  std::auto_ptr<te::da::DataSet> getDataSet(const std::string& name,
82  const std::string& propertyName,
83  const te::gm::Geometry* g,
84  te::gm::SpatialRelation r,
85  te::common::TraverseType travType = te::common::FORWARDONLY,
86  bool connected = false,
87  const te::common::AccessPolicy accessPolicy = te::common::RAccess);
88 
89  std::auto_ptr<te::da::DataSet> query(const te::da::Select& q,
90  te::common::TraverseType travType = te::common::FORWARDONLY,
91  bool connected = false,
92  const te::common::AccessPolicy accessPolicy = te::common::RAccess);
93 
94  std::auto_ptr<te::da::DataSet> query(const std::string& query,
95  te::common::TraverseType travType = te::common::FORWARDONLY,
96  bool connected = false,
97  const te::common::AccessPolicy accessPolicy = te::common::RAccess);
98 
99  void execute(const te::da::Query& command);
100 
101  void execute(const std::string& command);
102 
103  std::auto_ptr<te::da::PreparedQuery> getPrepared(const std::string& qName = std::string(""));
104 
105  std::auto_ptr<te::da::BatchExecutor> getBatchExecutor();
106 
107  void cancel();
108 
109  boost::int64_t getLastGeneratedId();
110 
111  std::string escape(const std::string& value);
112 
113  bool isDataSetNameValid(const std::string& datasetName);
114 
115  bool isPropertyNameValid(const std::string& propertyName);
116 
117  std::vector<std::string> getDataSetNames();
118 
119  std::size_t getNumberOfDataSets();
120 
121  std::auto_ptr<te::da::DataSetType> getDataSetType(const std::string& name);
122 
123  boost::ptr_vector<te::dt::Property> getProperties(const std::string& datasetName);
124 
125  std::auto_ptr<te::dt::Property> getProperty(const std::string& datasetName, const std::string& name);
126 
127  std::auto_ptr<te::dt::Property> getProperty(const std::string& datasetName, std::size_t propertyPos);
128 
129  std::vector<std::string> getPropertyNames(const std::string& datasetName);
130 
131  std::size_t getNumberOfProperties(const std::string& datasetName);
132 
133  bool propertyExists(const std::string& datasetName, const std::string& name);
134 
135  void addProperty(const std::string& datasetName , te::dt::Property* p);
136 
137  void dropProperty(const std::string& datasetName, const std::string& name);
138 
139  void renameProperty(const std::string& datasetName , const std::string& propertyName, const std::string& newPropertyName);
140 
141  std::auto_ptr<te::da::PrimaryKey> getPrimaryKey(const std::string& datasetName);
142 
143  bool primaryKeyExists(const std::string& datasetName, const std::string& name);
144 
145  void addPrimaryKey(const std::string& datasetName, te::da::PrimaryKey* pk);
146 
147  void dropPrimaryKey(const std::string& datasetName);
148 
149  std::auto_ptr<te::da::ForeignKey> getForeignKey(const std::string& datasetName, const std::string& name);
150 
151  std::vector<std::string> getForeignKeyNames(const std::string& datasetName);
152 
153  bool foreignKeyExists(const std::string& datasetName , const std::string& name);
154 
155  void addForeignKey(const std::string& datasetName, te::da::ForeignKey* fk);
156 
157  void dropForeignKey(const std::string& datasetName , const std::string& fkName);
158 
159  std::auto_ptr<te::da::UniqueKey> getUniqueKey(const std::string& datasetName, const std::string& name);
160 
161  std::vector<std::string> getUniqueKeyNames(const std::string& datasetName);
162 
163  bool uniqueKeyExists(const std::string& datasetName, const std::string& name);
164 
165  void addUniqueKey(const std::string& datasetName, te::da::UniqueKey* uk);
166 
167  void dropUniqueKey(const std::string& datasetName, const std::string& name);
168 
169  std::auto_ptr<te::da::CheckConstraint> getCheckConstraint(const std::string& datasetName, const std::string& name);
170 
171  std::vector<std::string> getCheckConstraintNames(const std::string& datasetName);
172 
173  bool checkConstraintExists(const std::string& datasetName, const std::string& name);
174 
175  void addCheckConstraint(const std::string& datasetName, te::da::CheckConstraint* cc);
176 
177  void dropCheckConstraint(const std::string& datasetName, const std::string& name);
178 
179  std::auto_ptr<te::da::Index> getIndex(const std::string& datasetName, const std::string& name);
180 
181  std::vector<std::string> getIndexNames(const std::string& datasetName);
182 
183  bool indexExists(const std::string& datasetName, const std::string& name);
184 
185  void addIndex(const std::string& datasetName, te::da::Index* idx, const std::map<std::string, std::string>& options);
186 
187  void dropIndex(const std::string& datasetName, const std::string& idxName);
188 
189  std::auto_ptr<te::da::Sequence> getSequence(const std::string& name);
190 
191  std::vector<std::string> getSequenceNames();
192 
193  bool sequenceExists(const std::string& name);
194 
195  void addSequence(te::da::Sequence* sequence);
196 
197  void dropSequence(const std::string& name);
198 
199  std::auto_ptr<te::gm::Envelope> getExtent(const std::string& datasetName,
200  const std::string& propertyName);
201 
202  std::auto_ptr<te::gm::Envelope> getExtent(const std::string& datasetName,
203  std::size_t propertyPos);
204 
205  std::size_t getNumberOfItems(const std::string& datasetName);
206 
207  bool hasDataSets();
208 
209  bool dataSetExists(const std::string& name);
210 
211  void createDataSet(te::da::DataSetType* dt,
212  const std::map<std::string, std::string>& options);
213 
214  void cloneDataSet(const std::string& name,
215  const std::string& cloneName,
216  const std::map<std::string, std::string>& options);
217 
218  void dropDataSet(const std::string& name);
219 
220  void renameDataSet(const std::string& name,
221  const std::string& newName);
222 
223  void add(const std::string& datasetName,
224  te::da::DataSet* d,
225  const std::map<std::string, std::string>& options,
226  std::size_t limit = 0);
227 
228  void remove(const std::string& datasetName, const te::da::ObjectIdSet* oids = 0);
229 
230  void update(const std::string& datasetName,
231  te::da::DataSet* dataset,
232  const std::vector<std::size_t>& properties,
233  const te::da::ObjectIdSet* oids,
234  const std::map<std::string, std::string>& options,
235  std::size_t limit = 0);
236 
237  void optimize(const std::map<std::string, std::string>& opInfo);
238 
239  te::common::CharEncoding getEncoding();
240 
241  private:
242 
243  DataSource* m_ds;
244  };
245 
246  } // end namespace wfs
247 } // end namespace te
248 
249 #endif // __TERRALIB_WFS_INTERNAL_TRANSACTOR_H
te::wfs::Transactor
Implementation of the transactor for the WFS driver.
Definition: Transactor.h:50
te::common::CharEncoding
CharEncoding
Supported charsets (character encoding).
Definition: CharEncodingConv.h:45
te::da::DataSetType
A class that models the description of a dataset.
Definition: DataSetType.h:72
te::gm::SpatialRelation
SpatialRelation
Spatial relations between geometric objects.
Definition: Enums.h:127
te::da::Sequence
It describes a sequence (a number generator).
Definition: Sequence.h:56
te::da::CheckConstraint
A class that describes a check constraint.
Definition: CheckConstraint.h:46
te::da::DataSource
An abstract class for data providers like a DBMS, Web Services or a regular file. ...
Definition: DataSource.h:118
te::dt::Property
It models a property definition.
Definition: Property.h:59
TEWFSEXPORT
#define TEWFSEXPORT
You can use this macro in order to export/import classes and functions from this module.
Definition: Config.h:104
te::wfs::DataSource
Implementation of the data source for the WFS driver.
Definition: DataSource.h:53
te::common::AccessPolicy
AccessPolicy
Supported data access policies (can be used as bitfield).
Definition: Enums.h:40
te::common::TraverseType
TraverseType
A dataset can be traversed in two ways:
Definition: Enums.h:53
te::gm::Envelope
An Envelope defines a 2D rectangular region.
Definition: Envelope.h:51
te::da::ObjectIdSet
This class represents a set of unique ids created in the same context. i.e. from the same data set...
Definition: ObjectIdSet.h:55
te
URI C++ Library.
Definition: AddressGeocodingOp.h:51
te::da::ForeignKey
It models a foreign key constraint for a DataSetType.
Definition: ForeignKey.h:50
te::da::UniqueKey
It describes a unique key (uk) constraint.
Definition: UniqueKey.h:53
te::da::DataSourceTransactor
A DataSourceTransactor can be viewed as a connection to the data source for reading/writing things in...
Definition: DataSourceTransactor.h:88
Config.h
Configuration flags for the TerraLib WFS module.
te::gm::Geometry
Geometry is the root class of the geometries hierarchy, it follows OGC and ISO standards.
Definition: Geometry.h:73
te::da::Select
A Select models a query to be used when retrieving data from a DataSource.
Definition: Select.h:65
te::da::DataSet
A dataset is the unit of information manipulated by the data access module of TerraLib.
Definition: DataSet.h:112
te::da::PrimaryKey
It describes a primary key (pk) constraint.
Definition: PrimaryKey.h:52
te::da::Query
A Query is independent from the data source language/dialect.
Definition: Query.h:46
te::da::Index
It describes an index associated to a DataSetType.
Definition: Index.h:54
te::wfs::Transactor::m_ds
DataSource * m_ds
Definition: Transactor.h:243