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1 | \section{Database classes overview}\label{odbcoverview} | |
2 | ||
3 | \normalboxd{The more sophisticated wxODBC classes (wxDb/wxDbTable) are the | |
4 | recommended classes for doing database/ODBC work with wxWindows. These new | |
5 | classes replace the wxWindows v1.6x classes wxDatabase. Documentation for the | |
6 | old wxDatabase class and its associated classes is still | |
7 | included in the class documentation and in this overview section, but support | |
8 | for these old classes has been phased out, and all future development work | |
9 | is being done solely on the new wxDb/wxDbTable classes.} | |
10 | ||
11 | \subsection{Different ODBC Class Libraries in wxWindows} | |
12 | ||
13 | Following is a detailed overview of how to use the wxWindows ODBC classes - \helpref{wxDb}{wxdb} | |
14 | and \helpref{wxDbTable}{wxdbtable} and their associated functions. These are | |
15 | the ODBC classes donated by Remstar International, and are collectively | |
16 | referred to herein as the wxODBC classes. Since their initial inclusion with | |
17 | wxWindows v2.x, they have become the recommended wxWindows classes for database | |
18 | access. | |
19 | ||
20 | An older version of some classes ported over from wxWindows v1.68 still exist | |
21 | (see \helpref{wxDatabase}{wxdatabase} in odbc.cpp), but are now deprecated in favor of the more | |
22 | robust and comprehensive wxDb/wxDbTable classes. All current and future | |
23 | feature development, as well as active debugging, are only being done on | |
24 | the wxODBC classes. Documentation for the older classes is still provided | |
25 | in this manual. The \helpref{wxDatabase overview}{wxdatabaseoverview} of the | |
26 | older classes follows the overview of the new classes. | |
27 | ||
28 | \subsection{wxDb/wxDbTable wxODBC Overview}\label{wxodbcoverview} | |
29 | ||
30 | Classes: \helpref{wxDb}{wxdb}, \helpref{wxDbTable}{wxdbtable} | |
31 | ||
32 | The wxODBC classes were designed for database independence. Although SQL and | |
33 | ODBC both have standards which define the minimum requirements they must | |
34 | support to be in compliance with specifications, different database vendors | |
35 | may implement things slightly differently. One example of this is that Oracle | |
36 | requires all user names for the datasources to be supplied in uppercase | |
37 | characters. In situations like this, the wxODBC classes have been written | |
38 | to make this transparent to the programmer when using functions that require | |
39 | database-specific syntax. | |
40 | ||
41 | Currently several major databases, along with other widely used databases, | |
42 | have been tested and supported through the wxODBC classes. The list of | |
43 | supported databases is certain to grow as more users start implementing | |
44 | software with these classes, but at the time of the writing of this document, | |
45 | users have successfully used the classes with the following datasources: | |
46 | ||
47 | \begin{itemize}\itemsep=0pt | |
48 | \item Oracle (v7, v8, v8i) | |
49 | \item Sybase (ASA and ASE) | |
50 | \item MS SQL Server (v7 - minimal testing) | |
51 | \item MS Access (97 and 2000) | |
52 | \item MySQL | |
53 | \item DBase (IV, V)** | |
54 | \item PostgreSQL | |
55 | \item INFORMIX | |
56 | \item VIRTUOSO | |
57 | \item DB2 | |
58 | \item Interbase | |
59 | \item Pervasive SQL | |
60 | \end{itemize} | |
61 | ||
62 | An up-to-date list can be obtained by looking in the comments of the function | |
63 | \helpref{wxDb::Dbms}{wxdbdbms} in db.cpp, or in the enumerated type | |
64 | \helpref{wxDBMS}{wxdbenumeratedtypes} in db.h. | |
65 | ||
66 | **dBase is not truly an ODBC datasource, but there are drivers which can | |
67 | emulate much of the functionality of an ODBC connection to a dBase table. | |
68 | See the \helpref{wxODBC Known Issues}{wxodbcknownissues} section of this | |
69 | overview for details. | |
70 | ||
71 | ||
72 | \subsection{wxODBC Where To Start}\label{wxodbcwheretostart} | |
73 | ||
74 | First, if you are not familiar with SQL and ODBC, go to your local bookstore | |
75 | and pick up a good book on each. This documentation is not meant to teach | |
76 | you many details about SQL or ODBC, though you may learn some just from | |
77 | immersion in the subject. | |
78 | ||
79 | If you have worked with non-SQL/ODBC datasources before, there are some | |
80 | things you will need to un-learn. First some terminology as these phrases will | |
81 | be used heavily in this section of the manual. | |
82 | ||
83 | \begin{twocollist}\itemsep=0pt | |
84 | \twocolitem{Datasource}{(usually a database) that contains the data that will be | |
85 | accessed by the wxODBC classes.} | |
86 | \twocolitem{Data table}{The section of the datasource that contains the rows and | |
87 | columns of data.} | |
88 | \twocolitem{ODBC driver}{The middle-ware software that interprets the ODBC | |
89 | commands sent by your application and converts them to the SQL format expected | |
90 | by the target datasource.} | |
91 | \twocolitem{Datasource connection}{An open pipe between your application and | |
92 | the ODBC driver which in turn has a connection to the target datasource. | |
93 | Datasource connections can have a virtually unlimited number of wxDbTable | |
94 | instances using the same connect (dependent on the ODBC driver). A separate | |
95 | connection is not needed for each table (the exception is for isolating | |
96 | commits/rollbacks on different tables from affecting more than the desired | |
97 | table. See the class documentation on | |
98 | \helpref{wxDb::CommitTrans}{wxdbcommittrans} and | |
99 | \helpref{wxDb::RollbackTrans}{wxdbrollbacktrans}.)} | |
100 | \twocolitem{Rows}{Similar to records in old relational databases, a row is a | |
101 | collection of one instance of each column of the data table that are all | |
102 | associated with each other.} | |
103 | \twocolitem{Columns}{Individual fields associated with each row of a data | |
104 | table.} | |
105 | \twocolitem{Query}{Request from the client to the datasource asking for | |
106 | the data that matches the requirements specified in the users request. When | |
107 | a query is performed, the datasource performs the lookup of the rows with | |
108 | satisfy the query, and creates a result set.} | |
109 | \twocolitem{Result set}{The data which matches the requirements specified | |
110 | in a query sent to the datasource. Dependent on drivers, a result set | |
111 | typically remains at the datasource (no data is transmitted to the ODBC driver) | |
112 | until the client actually instructs the ODBC driver to retrieve it.} | |
113 | \twocolitem{Cursor}{A logical pointer into the result set that a query | |
114 | generates, indicating the next record that will be returned to the client | |
115 | when a request for the next record is made.} | |
116 | \twocolitem{Scrolling cursors}{Scrolling refers to the movement of cursors | |
117 | through the result set. Cursors can always scroll forward sequentially in | |
118 | the result set (FORWARD ONLY scrolling cursors). With Forward only scrolling | |
119 | cursors, once a row in the result set has been returned to the ODBC driver | |
120 | and on to the client, there is no way to have the cursor move backward in | |
121 | the result set to look at the row that is previous to the current row in | |
122 | the result set. If BACKWARD scrolling cursors are supported by both the | |
123 | ODBC driver and the datasource that are being used, then backward | |
124 | scrolling cursor functions may be used ( | |
125 | \helpref{wxDbTable::GetPrev}{wxdbtablegetprev}, | |
126 | \helpref{wxDbTable::GetFirst}{wxdbtablegetfirst}, and | |
127 | \helpref{wxDbTable::GetLast}{wxdbtablegetlast}). If the datasource or the | |
128 | ODBC driver only support forward scrolling cursors, your program and logic | |
129 | must take this in to account.} | |
130 | \twocolitem{Commit/Rollback}{Commit will physically save | |
131 | insertions/deletions/updates, while rollback basically does an undo of | |
132 | everything done against the datasource connection that has not been | |
133 | previously committed. Note that Commit and Rollbacks are done on a | |
134 | connection, not on individual tables. All tables which use a shared | |
135 | connection to the datasource are all committed/rolled back at the same | |
136 | time when a call to | |
137 | \helpref{wxDb::CommitTrans}{wxdbcommittrans} or | |
138 | \helpref{wxDb::RollbackTrans}{wxdbrollbacktrans} is made.} | |
139 | \twocolitem{Index}{Indexes are datasource-maintained lookup structures | |
140 | that allow the datasource to quickly locate data rows based on the values | |
141 | of certain columns. Without indexes, the datasource would need to do a | |
142 | sequential search of a table every time a query request is made. Proper | |
143 | unique key index construction can make datasource queries nearly instantaneous.} | |
144 | \end{twocollist} | |
145 | ||
146 | Before you are able to read data from a data table in a datasource, you must | |
147 | have a connection to the datasource. Each datasource connection may be used | |
148 | to open multiple tables all on the same connection (number of tables open are | |
149 | dependent on the driver, datasource configuration and the amount of memory on | |
150 | the client workstation). Multiple connections can be opened to the same | |
151 | datasource by the same client (number of concurrent connections is dependent | |
152 | on the driver and datasource configuration). | |
153 | ||
154 | When a query is performed, the client passes the query to the ODBC driver, | |
155 | and the driver then translates it and passes it along to the datasource. The | |
156 | database engine (in most cases - exceptions are text and dBase files) running | |
157 | on the machine hosting the database does all the work of performing the search | |
158 | for the requested data. The client simply waits for a status to come back | |
159 | through the ODBC driver from the datasource. | |
160 | ||
161 | Depending on the ODBC driver, the result set either remains "queued" on the | |
162 | database server side, or is transferred to the machine that the driver is | |
163 | queued on. The client does not receive this data. The client must request | |
164 | some or all of the result set to be returned before any data rows are | |
165 | returned to the client application. | |
166 | ||
167 | Result sets do not need to include all columns of every row matching the | |
168 | query. In fact, result sets can actually be joinings of columns from two | |
169 | or more data tables, may have derived column values, or calculated values | |
170 | returned. | |
171 | ||
172 | For each result set, a cursor is maintained (typically by the database) | |
173 | which keeps track of where in the result set the user currently is. | |
174 | Depending on the database, ODBC driver, and how you configured the | |
175 | wxWindows ODBC settings in setup.h (see \helpref{wxODBC - Compiling}{wxodbccompiling}), cursors can be | |
176 | either forward or backward scrolling. At a minimum, cursors must scroll | |
177 | forward. For example, if a query resulted in a result set with 100 rows, | |
178 | as the data is read by the client application, it will read row 1, then 2, | |
179 | then 3, etc. With forward only cursors, once the cursor has moved to | |
180 | the next row, the previous row cannot be accessed again without re-querying | |
181 | the datasource for the result set over again. Backward scrolling cursors | |
182 | allow you to request the previous row from the result set, actually | |
183 | scrolling the cursor backward. | |
184 | ||
185 | Backward scrolling cursors are not supported on all database/driver | |
186 | combinations. For this reason, forward-only cursors are the default in | |
187 | the wxODBC classes. If your datasource does support backward scrolling | |
188 | cursors and you wish to use them, make the appropriate changes in setup.h | |
189 | to enable them (see \helpref{wxODBC - Compiling}{wxodbccompiling}). For greatest portability between | |
190 | datasources, writing your program in such a way that it only requires | |
191 | forward scrolling cursors is your best bet. On the other hand, if you are | |
192 | focusing on using only datasources that support backward scrolling cursors, | |
193 | potentially large performance benefits can be gained from using them. | |
194 | ||
195 | There is a limit to the number of cursors that can be open on each connection | |
196 | to the datasource, and usually a maximum number of cursors for the datasource | |
197 | itself. This is all dependent on the database. Each connection that is | |
198 | opened (each instance of a wxDb) opens a minimum of 5 cursors on creation | |
199 | that are required for things such as updates/deletions/rollbacks/queries. | |
200 | Cursors are a limited resource, so use care in creating large numbers of | |
201 | cursors. | |
202 | ||
203 | Additional cursors can be created if necessary with the | |
204 | \helpref{wxDbTable::GetNewCursor}{wxdbtablegetnewcursor} function. One example | |
205 | use for additional cursors is to track multiple scroll points in result | |
206 | sets. By creating a new cursor, a program could request a second result set | |
207 | from the datasource while still maintaining the original cursor position in | |
208 | the first result set. | |
209 | ||
210 | Different than non-SQL/ODBC datasources, when a program performs an | |
211 | insertion, deletion, or update (or other SQL functions like altering | |
212 | tables, etc) through ODBC, the program must issue a "commit" to the | |
213 | datasource to tell the datasource that the action(s) it has been told to | |
214 | perform are to be recorded as permanent. Until a commit is performed, | |
215 | any other programs that query the datasource will not see the changes that | |
216 | have been made (although there are databases that can be configured to | |
217 | auto-commit). NOTE: With most datasources, until the commit is | |
218 | performed, any cursor that is open on that same datasource connection | |
219 | will be able to see the changes that are uncommitted. Check your | |
220 | database's documentation/configuration to verify this before relying on it | |
221 | though. | |
222 | ||
223 | A rollback is basically an UNDO command on the datasource connection. When | |
224 | a rollback is issued, the datasource will flush all commands it has been told | |
225 | to do since the last commit that was performed. | |
226 | ||
227 | NOTE: Commits/Rollbacks are done on datasource connections (wxDb instances) | |
228 | not on the wxDbTable instances. This means that if more than one table | |
229 | shares the same connection, and a commit or rollback is done on that | |
230 | connection, all pending changes for ALL tables using that connection are | |
231 | committed/rolled back. | |
232 | ||
233 | \subsection{wxODBC - Configuring your system for ODBC use}\label{wxodbcconfiguringyoursystem} | |
234 | ||
235 | Before you are able to access a datasource, you must have installed and | |
236 | configured an ODBC driver. Doing this is system specific, so it will not be | |
237 | covered in detail here. But here are a few details to get you started. | |
238 | ||
239 | Most database vendors provide at least a minimal ODBC driver with their | |
240 | database product. In practice, many of these drivers have proven to be slow | |
241 | and/or incomplete. Rumour has it that this is because the vendors do not want | |
242 | you using the ODBC interface to their products; they want you to use their | |
243 | applications to access the data. | |
244 | ||
245 | Whatever the reason, for database-intensive applications, you may want to | |
246 | consider using a third-party ODBC driver for your needs. One example of a | |
247 | third-party set of ODBC drivers that has been heavily tested and used is | |
248 | Rogue Wave's drivers. Rogue Wave has drivers available for many different | |
249 | platforms and databases. | |
250 | ||
251 | Under Microsoft Windows, install the ODBC driver you are planning to use. You | |
252 | will then use the ODBC Administrator in the Control Panel to configure an | |
253 | instance of the driver for your intended datasource. Note that with all | |
254 | flavors of NT, this configuration can be set up as a System or User DSN | |
255 | (datasource name). Configuring it as a system resource will make it | |
256 | available to all users (if you are logged in as 'administrator'), otherwise | |
257 | the datasource will only be available to the user who configured the DSN. | |
258 | ||
259 | Under Unix, iODBC is used for implementation of the ODBC API. To compile the | |
260 | wxODBC classes, you must first obtain iODBC from \urlref{http://www.iodbc.org}{www.iodbc.org} and install it. | |
261 | (Note: wxWindows currently includes a version of iODBC.) Then you must create the file "~/.odbc.ini" (or optionally create | |
262 | "/etc/odbc.ini" for access for all users on the system). This file contains | |
263 | the settings for your system/datasource. Below is an example section of a | |
264 | odbc.ini file for use with the "samples/db" sample program using MySQL: | |
265 | ||
266 | \begin{verbatim} | |
267 | [contacts] | |
268 | Trace = Off | |
269 | TraceFile= stderr | |
270 | Driver = /usr/local/lib/libmyodbc.so | |
271 | DSN = contacts | |
272 | SERVER = 192.168.1.13 | |
273 | USER = qet | |
274 | PASSWORD = | |
275 | PORT = 3306 | |
276 | \end{verbatim} | |
277 | ||
278 | \subsection{wxODBC - Compiling}\label{wxodbccompiling} | |
279 | ||
280 | The wxWindows setup.h file has several settings in it pertaining to compiling | |
281 | the wxODBC classes. | |
282 | ||
283 | \begin{twocollist}\itemsep=0pt | |
284 | \twocolitem{wxUSE\_ODBC}{This must be set to 1 in order for the compiler to | |
285 | compile the wxODBC classes. Without setting this to 1, there will be no | |
286 | access to any of the wxODBC classes. The default is 0.} | |
287 | \twocolitem{wxODBC\_FWD\_ONLY\_CURSORS}{When a new database connection is | |
288 | requested, this setting controls the default of whether the connection allows | |
289 | only forward scrolling cursors, or forward and backward scrolling cursors | |
290 | (see the section in "WHERE TO START" on cursors for more information on | |
291 | cursors). This default can be overridden by passing a second parameter to | |
292 | either the \helpref{wxDbGetConnection}{wxdbfunctions} or | |
293 | \helpref{wxDb constructor}{wxdbconstr}. The default is 1.} | |
294 | \twocolitem{wxODBC\_BACKWARD\_COMPATABILITY}{Between v2.0 and 2.2, massive | |
295 | renaming efforts were done to the ODBC classes to get naming conventions | |
296 | similar to those used throughout wxWindows, as well as to preface all wxODBC | |
297 | classes names and functions with a wxDb preface. Because this renaming would | |
298 | affect applications written using the v2.0 names, this compile-time directive | |
299 | was added to allow those programs written for v2.0 to still compile using the | |
300 | old naming conventions. These deprecated names are all {\tt\#}define'd to their | |
301 | corresponding new function names at the end of the db.cpp/dbtable.cpp source | |
302 | files. These deprecated class/function names should not be used in future | |
303 | development, as at some point in the future they will be removed. The default | |
304 | is 0.} | |
305 | \end{twocollist} | |
306 | ||
307 | {\it Under MS Windows} | |
308 | ||
309 | You are required to include the "odbc32.lib" provided by your compiler vendor | |
310 | in the list of external libraries to be linked in. If using the makefiles | |
311 | supplied with wxWindows, this library should already be included for use with | |
312 | makefile.b32, makefile.vc, and makefile.g95. | |
313 | ||
314 | You cannot compile the wxODBC classes under Win16 - sorry. | |
315 | ||
316 | \normalbox{MORE TO COME} | |
317 | ||
318 | {\it Under Unix} | |
319 | --with-iodbc flag for configure | |
320 | ||
321 | \normalbox{MORE TO COME} | |
322 | ||
323 | \subsection{wxODBC - Basic Step-By-Step Guide}\label{wxodbcstepbystep} | |
324 | ||
325 | To use the classes in an application, there are eight basic steps: | |
326 | ||
327 | \begin{itemize}\itemsep=0pt | |
328 | \item Define datasource connection information | |
329 | \item Get a datasource connection | |
330 | \item Create table definition | |
331 | \item Open the table | |
332 | \item Use the table | |
333 | \item Close the table | |
334 | \item Close the datasource connection | |
335 | \item Release the ODBC environment handle | |
336 | \end{itemize} | |
337 | ||
338 | Following each of these steps is detailed to explain the step, and to | |
339 | hopefully mention as many of the pitfalls that beginning users fall in | |
340 | to when first starting to use the classes. Throughout the steps, small | |
341 | snippets of code are provided to show the syntax of performing the step. A | |
342 | complete code snippet is provided at the end of this overview that shows a | |
343 | complete working flow of all these steps (see | |
344 | \helpref{wxODBC - Sample Code {\tt\#}1}{wxodbcsamplecode1}). | |
345 | ||
346 | {\bf Define datasource connection information} | |
347 | ||
348 | To be able to connect to a datasource through the ODBC driver, a program must | |
349 | supply a minimum of three pieces of information: Datasource name, User ID, and | |
350 | Authorization string (password). A fourth piece of information, a default | |
351 | directory indicating where the data file is stored, is required for Text and | |
352 | dBase drivers for ODBC. | |
353 | ||
354 | The wxWindows data class wxDbConnectInf exists for holding all of these | |
355 | values, plus some others that may be desired. | |
356 | ||
357 | The 'Henv' member is the environment handle used to access memory for use by the | |
358 | ODBC driver. Use of this member is described below in the "Getting a Connection | |
359 | to the Datasource" section. | |
360 | ||
361 | The 'Dsn' must exactly match the datasource name used to configure the ODBC | |
362 | datasource (in the ODBC Administrator (MSW only) or in the .odbc.ini file). | |
363 | ||
364 | The 'Uid' is the User ID that is to be used to log in to the datasource. This | |
365 | User ID must already have been created and assigned rights within the | |
366 | datasource to which you are connecting. The user that the connection is | |
367 | establish by will determine what rights and privileges the datasource | |
368 | connection will allow the program to have when using the connection that | |
369 | this connection information was used to establish. Some datasources are | |
370 | case sensitive for User IDs, and though the wxODBC classes attempt to hide | |
371 | this from you by manipulating whatever data you pass in to match the | |
372 | datasource's needs, it is always best to pass the 'Uid' in the case that | |
373 | the datasource requires. | |
374 | ||
375 | The 'AuthStr' is the password for the User ID specified in the 'Uid' member. | |
376 | As with the 'Uid', some datasources are case sensitive (in fact most are). | |
377 | The wxODBC classes do NOT try to manage the case of the 'AuthStr' at all. | |
378 | It is passed verbatim to the datasource, so you must use the case that the | |
379 | datasource is expecting. | |
380 | ||
381 | The 'defaultDir' member is used with file based datasources (i.e. dBase, | |
382 | FoxPro, text files). It contains a full path to the location where the | |
383 | data table or file is located. When setting this value, use forward | |
384 | slashes '/' rather than backslashes '\' to avoid compatibility differences | |
385 | between ODBC drivers. | |
386 | ||
387 | The other fields are currently unused. The intent of these fields are that | |
388 | they will be used to write our own ODBC Administrator type program that will | |
389 | work on both MSW and Un*x systems, regardless of the datasource. Very little | |
390 | work has been done on this to date. | |
391 | ||
392 | {\bf Get a Datasource Connection} | |
393 | ||
394 | There are two methods of establishing a connection to a datasource. You | |
395 | may either manually create your own wxDb instance and open the connection, | |
396 | or you may use the caching functions provided with the wxODBC classes to | |
397 | create/maintain/delete the connections. | |
398 | ||
399 | Regardless of which method you use, you must first have a fully populated | |
400 | wxDbConnectInf object. In the wxDbConnectInf instance, provide a valid | |
401 | Dns, Uid, and AuthStr (along with a 'defaultDir' if necessary). Before | |
402 | using this though, you must allocate an environment handle to the 'Henv' | |
403 | member. | |
404 | ||
405 | \begin{verbatim} | |
406 | wxDbConnectInf DbConnectInf; | |
407 | DbConnectInf.SetDsn,"MyDSN"); | |
408 | DbConnectInf.SetUserID,"MyUserName"); | |
409 | DbConnectInf.SetPassword("MyPassword"); | |
410 | DbConnectInf.SetDefaultDir(""); | |
411 | \end{verbatim} | |
412 | ||
413 | To allocate an environment handle for the ODBC connection to use, the | |
414 | wxDbConnectInf class has a datasource independent method for creating | |
415 | the necessary handle: | |
416 | ||
417 | \begin{verbatim} | |
418 | if (DbConnectInf.AllocHenv()) | |
419 | { | |
420 | wxMessageBox("Unable to allocate an ODBC environment handle", | |
421 | "DB CONNECTION ERROR", wxOK | wxICON_EXCLAMATION); | |
422 | return; | |
423 | } | |
424 | \end{verbatim} | |
425 | ||
426 | When the wxDbConnectInf::AllocHenv() function is called successfully, a | |
427 | value of TRUE will be returned. A value of FALSE means allocation failed, | |
428 | and the handle will be undefined. | |
429 | ||
430 | A shorter form of doing the above steps is encapsulated into the | |
431 | long form of the constructor for wxDbConnectInf. | |
432 | ||
433 | \begin{verbatim} | |
434 | wxDbConnectInf *DbConnectInf; | |
435 | ||
436 | DbConnectInf = new wxDbConnectInf(NULL, "MyDSN", "MyUserName", | |
437 | "MyPassword", ""); | |
438 | \end{verbatim} | |
439 | ||
440 | This shorthand form of initializing the constructor passes a NULL for the SQL | |
441 | environment handle, telling the constructor to allocate a handle during | |
442 | construction. This handle is also managed for the life of wxDbConnectInf | |
443 | instance, and is freed automatically upon destruction of the instance. | |
444 | ||
445 | Once the wxDbConnectInf instance is initialized, you are ready to | |
446 | connect to the datasource. | |
447 | ||
448 | To manually create datasource connections, you must create a wxDb | |
449 | instance, and then open it. | |
450 | ||
451 | \begin{verbatim} | |
452 | wxDb *db = new wxDb(DbConnectInf->GetHenv()); | |
453 | ||
454 | opened = db->Open(DbConnectInf); | |
455 | \end{verbatim} | |
456 | ||
457 | The first line does the house keeping needed to initialize all | |
458 | the members of the wxDb class. The second line actually sends the request | |
459 | to the ODBC driver to open a connection to its associated datasource using | |
460 | the parameters supplied in the call to \helpref{wxDb::Open}{wxdbopen}. | |
461 | ||
462 | A more advanced form of opening a connection is to use the connection | |
463 | caching functions that are included with the wxODBC classes. The caching | |
464 | mechanisms perform the same functions as the manual approach to opening a | |
465 | connection, but they also manage each connection they have created, | |
466 | re-using them and cleaning them up when they are closed, without you | |
467 | needing to do the coding. | |
468 | ||
469 | To use the caching function \helpref{wxDbGetConnection}{wxdbfunctions} to get | |
470 | a connection to a datasource, simply call it with a single parameter of the | |
471 | type wxDbConnectInf: | |
472 | ||
473 | \begin{verbatim} | |
474 | db = wxDbGetConnection(DbConnectInf); | |
475 | \end{verbatim} | |
476 | ||
477 | The wxDb pointer that is returned is both initialized and opened. If | |
478 | something failed in creating or opening the connection, the return value | |
479 | from \helpref{wxDbGetConnection}{wxdbfunctions} will be NULL. | |
480 | ||
481 | The connection that is returned is either a new connection, or it is a | |
482 | "free" connection from the cache of connections that the class maintains | |
483 | that was no longer in use. Any wxDb instance created with a call to | |
484 | \helpref{wxDbGetConnection}{wxdbfunctions} is recorded in a linked list of established | |
485 | connections. When a program is finished with a connection, a call to | |
486 | \helpref{wxDbFreeConnection}{wxdbfunctions} is made, and the datasource | |
487 | connection will then be tagged as FREE, making it available for the next | |
488 | call to \helpref{wxDbGetConnection}{wxdbfunctions} that needs a connection | |
489 | using the same connection information (Dsn, Uid, AuthStr). The cached | |
490 | connections remain cached until a call to \helpref{wxDbCloseConnections}{wxdbfunctions} is made, | |
491 | at which time all cached connections are closed and deleted. | |
492 | ||
493 | Besides the obvious advantage of using the single command caching routine to | |
494 | obtain a datasource connection, using cached connections can be quite a | |
495 | performance boost as well. Each time that a new connection is created | |
496 | (not retrieved from the cache of free connections), the wxODBC classes | |
497 | perform many queries against the datasource to determine the datasource's | |
498 | datatypes and other fundamental behaviours. Depending on the hardware, | |
499 | network bandwidth, and datasource speed, this can in some cases take a | |
500 | few seconds to establish the new connection (with well-balanced systems, | |
501 | it should only be a fraction of a second). Re-using already established | |
502 | datasource connections rather than creating/deleting, creating/deleting | |
503 | connections can be quite a time-saver. | |
504 | ||
505 | Another time-saver is the "copy connection" features of both | |
506 | \helpref{wxDb::Open}{wxdbopen} and \helpref{wxDbGetConnection}{wxdbfunctions}. | |
507 | If manually creating a wxDb instance and opening it, you must pass an existing | |
508 | connection to the \helpref{wxDb::Open}{wxdbopen} function yourself to gain the performance | |
509 | benefit of copying existing connection settings. The | |
510 | \helpref{wxDbGetConnection}{wxdbfunctions} function automatically does this | |
511 | for you, checking the Dsn, Uid, and AuthStr parameters when you request | |
512 | a connection for any existing connections that use those same settings. | |
513 | If one is found, \helpref{wxDbGetConnection}{wxdbfunctions} copies the datasource settings for | |
514 | datatypes and other datasource specific information that was previously | |
515 | queried, rather than re-querying the datasource for all those same settings. | |
516 | ||
517 | One final note on creating a connection. When a connection is created, it | |
518 | will default to only allowing cursor scrolling to be either forward only, | |
519 | or both backward and forward scrolling. The default behavior is | |
520 | determined by the setting {\tt wxODBC\_FWD\_ONLY\_CURSORS} in setup.h when you | |
521 | compile the wxWindows library. The library default is to only support | |
522 | forward scrolling cursors only, though this can be overridden by parameters | |
523 | for wxDb() constructor or the \helpref{wxDbGetConnection}{wxdbfunctions} | |
524 | function. All datasources and ODBC drivers must support forward scrolling | |
525 | cursors. Many datasources support backward scrolling cursors, and many | |
526 | ODBC drivers support backward scrolling cursors. Before planning on using | |
527 | backward scrolling cursors, you must be certain that both your datasource | |
528 | and ODBC driver fully support backward scrolling cursors. See the small | |
529 | blurb about "Scrolling cursors" in the definitions at the beginning of | |
530 | this overview, or other details of setting the cursor behavior in the wxDb | |
531 | class documentation. | |
532 | ||
533 | {\bf Create Table Definition} | |
534 | ||
535 | Data can be accessed in a datasource's tables directly through various | |
536 | functions of the wxDb class (see \helpref{wxDb::GetData}{wxdbgetdata}). But to make life much | |
537 | simpler, the wxDbTable class encapsulates all of the SQL specific API calls | |
538 | that would be necessary to do this, wrapping it in an intuitive class of APIs. | |
539 | ||
540 | The first step in accessing data in a datasource's tables via the wxDbTable | |
541 | class is to create a wxDbTable instance. | |
542 | ||
543 | \begin{verbatim} | |
544 | table = new wxDbTable(db, tableName, numTableColumns, "", | |
545 | !wxDB_QUERY_ONLY, ""); | |
546 | \end{verbatim} | |
547 | ||
548 | When you create the instance, you indicate the previously established | |
549 | datasource connection to be used to access the table, the name of the | |
550 | primary table that is to be accessed with the datasource's tables, how many | |
551 | columns of each row are going to be returned, the name of the view of the | |
552 | table that will actually be used to query against (works with Oracle only | |
553 | at this time), whether the data returned is for query purposes only, and | |
554 | finally the path to the table, if different than the path specified when | |
555 | connecting to the datasource. | |
556 | ||
557 | Each of the above parameters are described in detail in the wxDbTable | |
558 | class' description, but one special note here about the fifth | |
559 | parameter - the queryOnly setting. If a wxDbTable instance is created as | |
560 | {\tt wxDB\_QUERY\_ONLY}, then no inserts/deletes/updates can be performed | |
561 | using this instance of the wxDbTable. Any calls to \helpref{wxDb::CommitTrans}{wxdbcommittrans} | |
562 | or \helpref{wxDb::RollbackTrans}{wxdbrollbacktrans} against the datasource | |
563 | connection used by this wxDbTable instance are ignored by this instance. If | |
564 | the wxDbTable instance is created with {\tt !wxDB\_QUERY\_ONLY} as shown above, | |
565 | then all the cursors and other overhead associated with being able to | |
566 | insert/update/delete data in the table are created, and thereby those | |
567 | operations can then be performed against the associated table with this | |
568 | wxDbTable instance. | |
569 | ||
570 | If a table is to be accessed via a wxDbTable instance, and the table will | |
571 | only be read from, not written to, there is a performance benefit (not as | |
572 | many cursors need to be maintained/updated, hence speeding up access times), | |
573 | as well as a resource savings due to fewer cursors being created for the | |
574 | wxDbTable instance. Also, with some datasources, the number of | |
575 | simultaneous cursors is limited. | |
576 | ||
577 | When defining the columns to be retrievable by the wxDbTable instance, you | |
578 | can specify anywhere from one column up to all columns in the table. | |
579 | ||
580 | \begin{verbatim} | |
581 | table->SetColDefs(0, "FIRST_NAME", DB_DATA_TYPE_VARCHAR, FirstName, | |
582 | SQL_C_CHAR, sizeof(name), TRUE, TRUE); | |
583 | table->SetColDefs(1, "LAST_NAME", DB_DATA_TYPE_VARCHAR, LastName, | |
584 | SQL_C_CHAR, sizeof(LastName), TRUE, TRUE); | |
585 | \end{verbatim} | |
586 | ||
587 | Notice that column definitions start at index 0 and go up to one less than | |
588 | the number of columns specified when the wxDbTable instance was created | |
589 | (in this example, two columns - one with index 0, one with index 1). | |
590 | ||
591 | The above lines of code "bind" the datasource columns specified to the | |
592 | memory variables in the client application. So when the application | |
593 | makes a call to \helpref{wxDbTable::GetNext}{wxdbtablegetnext} (or any other function that retrieves | |
594 | data from the result set), the variables that are bound to the columns will | |
595 | have the column value stored into them. See the | |
596 | \helpref{wxDbTable::SetColDefs}{wxdbtablesetcoldefs} | |
597 | class documentation for more details on all the parameters for this function. | |
598 | ||
599 | The bound memory variables have undefined data in them until a call to a | |
600 | function that retrieves data from a result set is made | |
601 | (e.g. \helpref{wxDbTable::GetNext}{wxdbtablegetnext}, | |
602 | \helpref{wxDbTable::GetPrev}{wxdbtablegetprev}, etc). The variables are not | |
603 | initialized to any data by the wxODBC classes, and they still contain | |
604 | undefined data after a call to \helpref{wxDbTable::Query}{wxdbtablequery}. Only | |
605 | after a successful call to one of the ::GetXxxx() functions is made do the | |
606 | variables contain valid data. | |
607 | ||
608 | It is not necessary to define column definitions for columns whose data is | |
609 | not going to be returned to the client. For example, if you want to query | |
610 | the datasource for all users with a first name of 'GEORGE', but you only want | |
611 | the list of last names associated with those rows (why return the FIRST\_NAME | |
612 | column every time when you already know it is 'GEORGE'), you would only have | |
613 | needed to define one column above. | |
614 | ||
615 | You may have as many wxDbTable instances accessing the same table using the | |
616 | same wxDb instance as you desire. There is no limit imposed by the classes | |
617 | on this. All datasources supported (so far) also have no limitations on this. | |
618 | ||
619 | {\bf Open the table} | |
620 | ||
621 | Opening the table is not technically doing anything with the datasource | |
622 | itself. Calling \helpref{wxDbTable::Open}{wxdbtableopen} simply does all the | |
623 | housekeeping of checking that the specified table exists, that the current | |
624 | connected user has at least SELECT privileges for accessing the table, | |
625 | setting up the requisite cursors, binding columns and cursors, and | |
626 | constructing the default INSERT statement that is used when a new row is | |
627 | inserted into the table (non-wxDB\_QUERY\_ONLY tables only). | |
628 | ||
629 | \begin{verbatim} | |
630 | if (!table->Open()) | |
631 | { | |
632 | // An error occurred opening (setting up) the table | |
633 | } | |
634 | \end{verbatim} | |
635 | ||
636 | The only reason that a call to \helpref{wxDbTable::Open}{wxdbtableopen} is likely to fail is if the | |
637 | user has insufficient privileges to even SELECT the table. Other problems | |
638 | could occur, such as being unable to bind columns, but these other reason | |
639 | point to some lack of resource (like memory). Any errors generated | |
640 | internally in the \helpref{wxDbTable::Open}{wxdbtableopen} function are logged to the error log | |
641 | if SQL logging is turned on for the classes. | |
642 | ||
643 | {\bf Use the table} | |
644 | ||
645 | To use the table and the definitions that are now set up, we must first | |
646 | define what data we want the datasource to collect in to a result set, tell | |
647 | it where to get the data from, and in what sequence we want the data returned. | |
648 | ||
649 | \begin{verbatim} | |
650 | // the WHERE clause limits/specifies which rows in the table | |
651 | // are to be returned in the result set | |
652 | table->SetWhereClause("FIRST_NAME = 'GEORGE'"); | |
653 | ||
654 | // Result set will be sorted in ascending alphabetical | |
655 | // order on the data in the 'LAST_NAME' column of each row | |
656 | // If the same last name is in the table for two rows, | |
657 | // sub-sort on the 'AGE' column | |
658 | table->SetOrderByClause("LAST_NAME, AGE"); | |
659 | ||
660 | // No other tables (joins) are used for this query | |
661 | table->SetFromClause(""); | |
662 | \end{verbatim} | |
663 | ||
664 | The above lines will be used to tell the datasource to return in the result | |
665 | all the rows in the table whose column "FIRST\_NAME" contains the name | |
666 | 'GEORGE' (note the required use of the single quote around the string | |
667 | literal) and that the result set will return the rows sorted by ascending | |
668 | last names (ascending is the default, and can be overridden with the | |
669 | "DESC" keyword for datasources that support it - "LAST\_NAME DESC"). | |
670 | ||
671 | Specifying a blank WHERE clause will result in the result set containing | |
672 | all rows in the datasource. | |
673 | ||
674 | Specifying a blank ORDERBY clause means that the datasource will return | |
675 | the result set in whatever sequence it encounters rows which match the | |
676 | selection criteria. What this sequence is can be hard to determine. | |
677 | Typically it depends on the index that the datasource used to find the | |
678 | rows which match the WHERE criteria. BEWARE - relying on the datasource | |
679 | to return data in a certain sequence when you have not provided an ORDERBY | |
680 | clause will eventually cause a problem for your program. Databases can be | |
681 | tuned to be COST-based, SPEED-based, or some other basis for how it gets | |
682 | your result set. In short, if you need your result set returned in a | |
683 | specific sequence, ask for it that way by providing an ORDERBY clause. | |
684 | ||
685 | Using an ORDERBY clause can be a performance hit, as the database must | |
686 | sort the items before making the result set available to the client. | |
687 | Creating efficient indexes that cause the data to be "found" in the correct | |
688 | ORDERBY sequence can be a big performance benefit. Also, in the large | |
689 | majority of cases, the database will be able to sort the records faster | |
690 | than your application can read all the records in (unsorted) and then sort | |
691 | them. Let the database do the work for you! | |
692 | ||
693 | Notice in the example above, a column that is not included in the bound | |
694 | data columns ('AGE') will be used to sub-sort the result set. | |
695 | ||
696 | The FROM clause in this example is blanked, as we are not going to be | |
697 | performing any table joins with this simple query. When the FROM clause | |
698 | is blank, it is assumed that all columns referenced are coming from | |
699 | the default table for the wxDbTable instance. | |
700 | ||
701 | After the selection criteria have been specified, the program can now | |
702 | ask the datasource to perform the search and create a result set that | |
703 | can be retrieved: | |
704 | ||
705 | \begin{verbatim} | |
706 | // Instruct the datasource to perform a query based on the | |
707 | // criteria specified above in the where/orderBy/from clauses. | |
708 | if (!table->Query()) | |
709 | { | |
710 | // An error occurred performing the query | |
711 | } | |
712 | \end{verbatim} | |
713 | ||
714 | Typically, when an error occurs when calling \helpref{wxDbTable::Query}{wxdbtablequery}, it is a | |
715 | syntax problem in the WHERE clause that was specified. The exact SQL | |
716 | (datasource-specific) reason for what caused the failure of \helpref{wxDbTable::Query}{wxdbtablequery} | |
717 | (and all other operations against the datasource can be found by | |
718 | parsing the table's database connection's "errorList[]" array member for | |
719 | the stored text of the error. | |
720 | ||
721 | When the \helpref{wxDbTable::Query}{wxdbtablequery} returns TRUE, the | |
722 | database was able to successfully complete the requested query using the | |
723 | provided criteria. This does not mean that there are any rows in the | |
724 | result set, it just mean that the query was successful. | |
725 | ||
726 | \normalbox{IMPORTANT: The result created by the call to | |
727 | \helpref{wxDbTable::Query}{wxdbtablequery} can take one of two forms. It is | |
728 | either a snapshot of the data at the exact moment that the database | |
729 | determined the record matched the search criteria, or it is a pointer to | |
730 | the row that matched the selection criteria. Which form of behavior is | |
731 | datasource dependent. If it is a snapshot, the data may have changed | |
732 | since the result set was constructed, so beware if your datasource | |
733 | uses snapshots and call \helpref{wxDbTable::Refresh}{wxdbtablerefresh}. Most larger brand databases | |
734 | do not use snapshots, but it is important to mention so that your application | |
735 | can handle it properly if your datasource does.} | |
736 | ||
737 | To retrieve the data, one of the data fetching routines must be used to | |
738 | request a row from the result set, and to store the data from the result | |
739 | set into the bound memory variables. After \helpref{wxDbTable::Query}{wxdbtablequery} | |
740 | has completed successfully, the default/current cursor is placed so it | |
741 | is pointing just before the first record in the result set. If the | |
742 | result set is empty (no rows matched the criteria), then any calls to | |
743 | retrieve data from the result set will return FALSE. | |
744 | ||
745 | \begin{verbatim} | |
746 | wxString msg; | |
747 | ||
748 | while (table->GetNext()) | |
749 | { | |
750 | msg.Printf("Row #%lu -- First Name : %s Last Name is %s", | |
751 | table->GetRowNum(), FirstName, LastName); | |
752 | wxMessageBox(msg, "Data", wxOK | wxICON_INFORMATION, NULL); | |
753 | } | |
754 | \end{verbatim} | |
755 | ||
756 | The sample code above will read the next record in the result set repeatedly | |
757 | until the end of the result set has been reached. The first time that | |
758 | \helpref{wxDbTable::GetNext}{wxdbtablegetnext} is called right after the successful | |
759 | call to \helpref{wxDbTable::Query}{wxdbtablequery}, it actually returns the first record | |
760 | in the result set. | |
761 | ||
762 | When \helpref{wxDbTable::GetNext}{wxdbtablegetnext} is called and there are | |
763 | no rows remaining in the result set after the current cursor position, | |
764 | \helpref{wxDbTable::GetNext}{wxdbtablegetnext} (as well as all the other | |
765 | wxDbTable::GetXxxxx() functions) will return FALSE. | |
766 | ||
767 | {\bf Close the table} | |
768 | ||
769 | When the program is done using a wxDbTable instance, it is as simple as | |
770 | deleting the table pointer (or if declared statically, letting the | |
771 | variable go out of scope). Typically the default destructor will take | |
772 | care of all that is required for cleaning up the wxDbTable instance. | |
773 | ||
774 | \begin{verbatim} | |
775 | if (table) | |
776 | { | |
777 | delete table; | |
778 | table = NULL; | |
779 | } | |
780 | \end{verbatim} | |
781 | ||
782 | Deleting a wxDbTable instance releases all of its cursors, deletes the | |
783 | column definitions and frees the SQL environment handles used by the | |
784 | table (but not the environment handle used by the datasource connection | |
785 | that the wxDbTable instance was using). | |
786 | ||
787 | {\bf Close the datasource connection} | |
788 | ||
789 | After all tables that have been using a datasource connection have been | |
790 | closed (this can be verified by calling \helpref{wxDb::GetTableCount}{wxdbgettablecount} | |
791 | and checking that it returns 0), then you may close the datasource | |
792 | connection. The method of doing this is dependent on whether the | |
793 | non-caching or caching method was used to obtain the datasource connection. | |
794 | ||
795 | If the datasource connection was created manually (non-cached), closing the | |
796 | connection is done like this: | |
797 | ||
798 | \begin{verbatim} | |
799 | if (db) | |
800 | { | |
801 | db->Close(); | |
802 | delete db; | |
803 | db = NULL; | |
804 | } | |
805 | \end{verbatim} | |
806 | ||
807 | If the program used the \helpref{wxDbGetConnection}{wxdbfunctions} function to get a datasource | |
808 | connection, the following is the code that should be used to free the | |
809 | connection(s): | |
810 | ||
811 | \begin{verbatim} | |
812 | if (db) | |
813 | { | |
814 | wxDbFreeConnection(db); | |
815 | db = NULL; | |
816 | } | |
817 | \end{verbatim} | |
818 | ||
819 | Note that the above code just frees the connection so that it can be | |
820 | re-used on the next call the \helpref{wxDbGetConnection}{wxdbfunctions}. To actually dispose | |
821 | of the connection, releasing all of its resources (other than the | |
822 | environment handle), do the following: | |
823 | ||
824 | \begin{verbatim} | |
825 | wxDbCloseConnections(); | |
826 | \end{verbatim} | |
827 | ||
828 | {\bf Release the ODBC environment handle} | |
829 | ||
830 | Once all of the connections that used the ODBC environment handle (in | |
831 | this example it was stored in "DbConnectInf.Henv") have been closed, then | |
832 | it is safe to release the environment handle: | |
833 | ||
834 | \begin{verbatim} | |
835 | DbConnectInf->FreeHenv()); | |
836 | \end{verbatim} | |
837 | ||
838 | Or, if the long form of the constructor was used and the constructor was allowed | |
839 | to allocate its own SQL environment handle, leaving scope or destruction of the | |
840 | wxDbConnectInf will free the handle automatically. | |
841 | ||
842 | \begin{verbatim} | |
843 | delete DbConnectInf; | |
844 | \end{verbatim} | |
845 | ||
846 | \normalbox{Remember to never release this environment handle if there are any | |
847 | connections still using the handle.} | |
848 | ||
849 | \subsection{wxODBC - Known Issues}\label{wxodbcknownissues} | |
850 | ||
851 | As with creating wxWindows, writing the wxODBC classes was not the simple | |
852 | task of writing an application to run on a single type of computer system. | |
853 | The classes need to be cross-platform for different operating systems, and | |
854 | they also needed to take in to account different database manufacturers and | |
855 | different ODBC driver manufacturers. Because of all the possible combinations | |
856 | of OS/database/drivers, it is impossible to say that these classes will work | |
857 | perfectly with datasource ABC, ODBC driver XYZ, on platform LMN. You may run | |
858 | in to some incompatibilities or unsupported features when moving your | |
859 | application from one environment to another. But that is what makes | |
860 | cross-platform programming fun. It is also pinpoints one of the great | |
861 | things about open source software. It can evolve! | |
862 | ||
863 | The most common difference between different database/ODBC driver | |
864 | manufacturers in regards to these wxODBC classes is the lack of | |
865 | standard error codes being returned to the calling program. Sometimes | |
866 | manufacturers have even changed the error codes between versions of | |
867 | their databases/drivers. | |
868 | ||
869 | In all the tested databases, every effort has been made to determine | |
870 | the correct error codes and handle them in the class members that need | |
871 | to check for specific error codes (such as TABLE DOES NOT EXIST when | |
872 | you try to open a table that has not been created yet). Adding support | |
873 | for additional databases in the future requires adding an entry for the | |
874 | database in the \helpref{wxDb::Dbms}{wxdbdbms} function, and then handling any error codes | |
875 | returned by the datasource that do not match the expected values. | |
876 | ||
877 | {\bf Databases} | |
878 | ||
879 | Following is a list of known issues and incompatibilities that the | |
880 | wxODBC classes have between different datasources. An up to date | |
881 | listing of known issues can be seen in the comments of the source | |
882 | for \helpref{wxDb::Dbms}{wxdbdbms}. | |
883 | ||
884 | {\it ORACLE} | |
885 | \begin{itemize}\itemsep=0pt | |
886 | \item Currently the only database supported by the wxODBC classes to support VIEWS | |
887 | \end{itemize} | |
888 | ||
889 | {\it DBASE} | |
890 | ||
891 | NOTE: dBase is not a true ODBC datasource. You only have access to as much | |
892 | functionality as the driver can emulate. | |
893 | ||
894 | \begin{itemize}\itemsep=0pt | |
895 | \item Does not support the SQL\_TIMESTAMP structure | |
896 | \item Supports only one cursor and one connect (apparently? with Microsoft driver only?) | |
897 | \item Does not automatically create the primary index if the 'keyField' param of SetColDef is TRUE. The user must create ALL indexes from their program with calls to \helpref{wxDbTable::CreateIndex}{wxdbtablecreateindex} | |
898 | \item Table names can only be 8 characters long | |
899 | \item Column names can only be 10 characters long | |
900 | \item Currently cannot CREATE a dBase table - bug or limitation of the drivers used?? | |
901 | \item Currently cannot insert rows that have integer columns - bug?? | |
902 | \end{itemize} | |
903 | ||
904 | {\it SYBASE (all)} | |
905 | \begin{itemize}\itemsep=0pt | |
906 | \item To lock a record during QUERY functions, the reserved word 'HOLDLOCK' must be added after every table name involved in the query/join if that table's matching record(s) are to be locked | |
907 | \item Ignores the keywords 'FOR UPDATE'. Use the HOLDLOCK functionality described above | |
908 | \end{itemize} | |
909 | ||
910 | {\it SYBASE (Enterprise)} | |
911 | \begin{itemize}\itemsep=0pt | |
912 | \item If a column is part of the Primary Key, the column cannot be NULL | |
913 | \item Maximum row size is somewhere in the neighborhood of 1920 bytes | |
914 | \end{itemize} | |
915 | ||
916 | {\it mySQL} | |
917 | \begin{itemize}\itemsep=0pt | |
918 | \item If a column is part of the Primary Key, the column cannot be NULL. | |
919 | \item Cannot support selecting for update [\helpref{wxDbTable::CanSelectForUpdate}{wxdbtablecanselectforupdate}]. Always returns FALSE. | |
920 | \item Columns that are part of primary or secondary keys must be defined as being NOT NULL when they are created. Some code is added in \helpref{wxDbTable::CreateIndex}{wxdbtablecreateindex} to try to adjust the column definition if it is not defined correctly, but it is experimental (as of wxWindows v2.2.1) | |
921 | \item Does not support sub-queries in SQL statements | |
922 | \end{itemize} | |
923 | ||
924 | {\it POSTGRES} | |
925 | \begin{itemize}\itemsep=0pt | |
926 | \item Does not support the keywords 'ASC' or 'DESC' as of release v6.5.0 | |
927 | \item Does not support sub-queries in SQL statements | |
928 | \end{itemize} | |
929 | ||
930 | {\it DB2} | |
931 | \begin{itemize}\itemsep=0pt | |
932 | \item Columns which are part of a primary key must be declared as NOT NULL | |
933 | \end{itemize} | |
934 | ||
935 | {\bf UNICODE with wxODBC classes} | |
936 | ||
937 | The ODBC classes support for Unicode is yet in early experimental stage and | |
938 | hasn't been tested extensively. It might work for you or it might not: please | |
939 | report the bugs/problems you have encountered in the latter case. | |
940 | ||
941 | \subsection{wxODBC - Sample Code {\tt\#}1}\label{wxodbcsamplecode1} | |
942 | ||
943 | Simplest example of establishing/opening a connection to an ODBC datasource, | |
944 | binding variables to the columns for read/write usage, opening an | |
945 | existing table in the datasource, setting the query parameters | |
946 | (where/orderBy/from), querying the datasource, reading each row of the | |
947 | result set, then cleaning up. | |
948 | ||
949 | NOTE: Not all error trapping is shown here, to reduce the size of the | |
950 | code and to make it more easily readable. | |
951 | ||
952 | \begin{verbatim} | |
953 | wxDbConnectInf *DbConnectInf = NULL; | |
954 | ||
955 | wxDb *db = NULL; // The database connection | |
956 | wxDbTable *table = NULL; // The data table to access | |
957 | ||
958 | wxChar FirstName[50+1]; // buffer for data from column "FIRST_NAME" | |
959 | wxChar LastName[50+1]; // buffer for data from column "LAST_NAME" | |
960 | ||
961 | bool errorOccured = FALSE; | |
962 | ||
963 | const wxChar tableName[] = "CONTACTS"; | |
964 | const UWORD numTableColumns = 2; // Number of bound columns | |
965 | ||
966 | FirstName[0] = 0; | |
967 | LastName[0] = 0; | |
968 | ||
969 | DbConnectInf = new wxDbConnectInf(NULL,"MyDSN","MyUserName", "MyPassword"); | |
970 | ||
971 | if (!DbConnectInf || !DbConnectInf->GetHenv()) | |
972 | { | |
973 | wxMessageBox("Unable to allocate an ODBC environment handle", | |
974 | "DB CONNECTION ERROR", wxOK | wxICON_EXCLAMATION); | |
975 | return; | |
976 | } | |
977 | ||
978 | // Get a database connection from the cached connections | |
979 | db = wxDbGetConnection(DbConnectInf); | |
980 | ||
981 | // Create the table connection | |
982 | table = new wxDbTable(db, tableName, numTableColumns, "", | |
983 | !wxDB_QUERY_ONLY, ""); | |
984 | ||
985 | // | |
986 | // Bind the columns that you wish to retrieve. Note that there must be | |
987 | // 'numTableColumns' calls to SetColDefs(), to match the wxDbTable definition | |
988 | // | |
989 | // Not all columns need to be bound, only columns whose values are to be | |
990 | // returned back to the client. | |
991 | // | |
992 | table->SetColDefs(0, "FIRST_NAME", DB_DATA_TYPE_VARCHAR, FirstName, | |
993 | SQL_C_CHAR, sizeof(name), TRUE, TRUE); | |
994 | table->SetColDefs(1, "LAST_NAME", DB_DATA_TYPE_VARCHAR, LastName, | |
995 | SQL_C_CHAR, sizeof(LastName), TRUE, TRUE); | |
996 | ||
997 | // Open the table for access | |
998 | table->Open(); | |
999 | ||
1000 | // Set the WHERE clause to limit the result set to only | |
1001 | // return all rows that have a value of 'GEORGE' in the | |
1002 | // FIRST_NAME column of the table. | |
1003 | table->SetWhereClause("FIRST_NAME = 'GEORGE'"); | |
1004 | ||
1005 | // Result set will be sorted in ascending alphabetical | |
1006 | // order on the data in the 'LAST_NAME' column of each row | |
1007 | table->SetOrderByClause("LAST_NAME"); | |
1008 | ||
1009 | // No other tables (joins) are used for this query | |
1010 | table->SetFromClause(""); | |
1011 | ||
1012 | // Instruct the datasource to perform a query based on the | |
1013 | // criteria specified above in the where/orderBy/from clauses. | |
1014 | if (!table->Query()) | |
1015 | { | |
1016 | wxMessageBox("Error on Query()","ERROR!", | |
1017 | wxOK | wxICON_EXCLAMATION); | |
1018 | errorOccured = TRUE; | |
1019 | } | |
1020 | ||
1021 | wxString msg; | |
1022 | ||
1023 | // Start and continue reading every record in the table | |
1024 | // displaying info about each record read. | |
1025 | while (table->GetNext()) | |
1026 | { | |
1027 | msg.Printf("Row #%lu -- First Name : %s Last Name is %s", | |
1028 | table->GetRowNum(), FirstName, LastName); | |
1029 | wxMessageBox(msg, "Data", wxOK | wxICON_INFORMATION, NULL); | |
1030 | } | |
1031 | ||
1032 | // If the wxDbTable instance was successfully created | |
1033 | // then delete it as I am done with it now. | |
1034 | if (table) | |
1035 | { | |
1036 | delete table; | |
1037 | table = NULL; | |
1038 | } | |
1039 | ||
1040 | // If we have a valid wxDb instance, then free the connection | |
1041 | // (meaning release it back in to the cache of datasource | |
1042 | // connections) for the next time a call to wxDbGetConnection() | |
1043 | // is made. | |
1044 | if (db) | |
1045 | { | |
1046 | wxDbFreeConnection(db); | |
1047 | db = NULL; | |
1048 | } | |
1049 | ||
1050 | // The program is now ending, so we need to close | |
1051 | // any cached connections that are still being | |
1052 | // maintained. | |
1053 | wxDbCloseConnections(); | |
1054 | ||
1055 | // Release the environment handle that was created | |
1056 | // for use with the ODBC datasource connections | |
1057 | delete DbConnectInf; | |
1058 | ||
1059 | \end{verbatim} | |
1060 | ||
1061 | \subsection{wxDatabase ODBC class overview [DEPRECATED]}\label{oldwxodbcoverview} | |
1062 | ||
1063 | Classes: \helpref{wxDatabase}{wxdatabase}, \helpref{wxRecordSet}{wxrecordset}, \helpref{wxQueryCol}{wxquerycol}, | |
1064 | \rtfsp\helpref{wxQueryField}{wxqueryfield} | |
1065 | ||
1066 | \normalboxd{The more sophisticated wxODBC classes (wxDb/wxDbTable) are the | |
1067 | recommended classes for doing database/ODBC work with wxWindows. These new | |
1068 | classes replace the wxWindows v1.6x classes wxDatabase. | |
1069 | ||
1070 | Documentation for the old wxDatabase class and its associated classes is still | |
1071 | included in the class documentation and in this overview section, but support | |
1072 | for these old classes has been phased out, and all future development work | |
1073 | is being done solely on the new wxDb/wxDbTable classes.} | |
1074 | ||
1075 | wxWindows provides a set of classes for accessing a subset of Microsoft's ODBC (Open Database Connectivity) | |
1076 | product. Currently, this wrapper is available under MS Windows only, although | |
1077 | ODBC may appear on other platforms, and a generic or product-specific SQL emulator for the ODBC | |
1078 | classes may be provided in wxWindows at a later date. | |
1079 | ||
1080 | ODBC presents a unified API (Application Programmer's Interface) to a | |
1081 | wide variety of databases, by interfacing indirectly to each database or | |
1082 | file via an ODBC driver. The language for most of the database | |
1083 | operations is SQL, so you need to learn a small amount of SQL as well as | |
1084 | the wxWindows ODBC wrapper API. Even though the databases may not be | |
1085 | SQL-based, the ODBC drivers translate SQL into appropriate operations | |
1086 | for the database or file: even text files have rudimentary ODBC support, | |
1087 | along with dBASE, Access, Excel and other file formats. | |
1088 | ||
1089 | The run-time files for ODBC are bundled with many existing database | |
1090 | packages, including MS Office. The required header files, sql.h and | |
1091 | sqlext.h, are bundled with several compilers including MS VC++ and | |
1092 | Watcom C++. The only other way to obtain these header files is from the | |
1093 | ODBC SDK, which is only available with the MS Developer Network CD-ROMs | |
1094 | -- at great expense. If you have odbc.dll, you can make the required | |
1095 | import library odbc.lib using the tool `implib'. You need to have odbc.lib | |
1096 | in your compiler library path. | |
1097 | ||
1098 | The minimum you need to distribute with your application is odbc.dll, which must | |
1099 | go in the Windows system directory. For the application to function correctly, | |
1100 | ODBC drivers must be installed on the user's machine. If you do not use the database | |
1101 | classes, odbc.dll will be loaded but not called (so ODBC does not need to be | |
1102 | setup fully if no ODBC calls will be made). | |
1103 | ||
1104 | A sample is distributed with wxWindows in {\tt samples/odbc}. You will need to install | |
1105 | the sample dbf file as a data source using the ODBC setup utility, available from | |
1106 | the control panel if ODBC has been fully installed. | |
1107 | ||
1108 | \subsection{Procedures for writing an ODBC application using wxDatabase [DEPRECATED]} | |
1109 | ||
1110 | You first need to create a wxDatabase object. If you want to get information | |
1111 | from the ODBC manager instead of from a particular database (for example | |
1112 | using \helpref{wxRecordSet::GetDataSources}{wxrecordsetgetdatasources}), then you | |
1113 | do not need to call \helpref{wxDatabase::Open}{wxdatabaseopen}. | |
1114 | If you do wish to connect to a datasource, then call wxDatabase::Open. | |
1115 | You can reuse your wxDatabase object, calling wxDatabase::Close and wxDatabase::Open | |
1116 | multiple times. | |
1117 | ||
1118 | Then, create a wxRecordSet object for retrieving or sending information. | |
1119 | For ODBC manager information retrieval, you can create it as a dynaset (retrieve the | |
1120 | information as needed) or a snapshot (get all the data at once). | |
1121 | If you are going to call \helpref{wxRecordSet::ExecuteSQL}{wxrecordsetexecutesql}, you need to create it as a snapshot. | |
1122 | Dynaset mode is not yet implemented for user data. | |
1123 | ||
1124 | Having called a function such as wxRecordSet::ExecuteSQL or | |
1125 | wxRecordSet::GetDataSources, you may have a number of records | |
1126 | associated with the recordset, if appropriate to the operation. You can | |
1127 | now retrieve information such as the number of records retrieved and the | |
1128 | actual data itself. Use \helpref{wxRecordSet::GetFieldData}{wxrecordsetgetfielddata} or | |
1129 | \helpref{wxRecordSet::GetFieldDataPtr}{wxrecordsetgetfielddataptr} to get the data or a pointer to it, passing | |
1130 | a column index or name. The data returned will be for the current | |
1131 | record. To move around the records, use \helpref{wxRecordSet::MoveNext}{wxrecordsetmovenext}, | |
1132 | \rtfsp\helpref{wxRecordSet::MovePrev}{wxrecordsetmoveprev} and associated functions. | |
1133 | ||
1134 | You can use the same recordset for multiple operations, or delete | |
1135 | the recordset and create a new one. | |
1136 | ||
1137 | Note that when you delete a wxDatabase, any associated recordsets | |
1138 | also get deleted, so beware of holding onto invalid pointers. | |
1139 | ||
1140 | \subsection{wxDatabase class overview [DEPRECATED]}\label{wxdatabaseoverview} | |
1141 | ||
1142 | Class: \helpref{wxDatabase}{wxdatabase} | |
1143 | ||
1144 | \wxheading{DEPRECATED} | |
1145 | ||
1146 | Use \helpref{wxDb}{wxdb} and \helpref{wxDbTable}{wxdbtable} instead. | |
1147 | ||
1148 | Every database object represents an ODBC connection. To do anything useful | |
1149 | with a database object you need to bind a wxRecordSet object to it. All you | |
1150 | can do with wxDatabase is opening/closing connections and getting some info | |
1151 | about it (users, passwords, and so on). | |
1152 | ||
1153 | \wxheading{See also} | |
1154 | ||
1155 | \helpref{Database classes overview}{odbcoverview} | |
1156 | ||
1157 | \subsection{wxQueryCol class overview [DEPRECATED]}\label{wxquerycoloverview} | |
1158 | ||
1159 | Class: \helpref{wxQueryCol}{wxquerycol} | |
1160 | ||
1161 | \wxheading{DEPRECATED} | |
1162 | ||
1163 | Use \helpref{wxDb}{wxdb} and \helpref{wxDbTable}{wxdbtable} instead. | |
1164 | ||
1165 | Every data column is represented by an instance of this class. | |
1166 | It contains the name and type of a column and a list of wxQueryFields where | |
1167 | the real data is stored. The links to user-defined variables are stored | |
1168 | here, as well. | |
1169 | ||
1170 | \wxheading{See also} | |
1171 | ||
1172 | \helpref{Database classes overview}{odbcoverview} | |
1173 | ||
1174 | \subsection{wxQueryField class overview [DEPRECATED]}\label{wxqueryfieldoverview} | |
1175 | ||
1176 | Class: \helpref{wxQueryField}{wxqueryfield} | |
1177 | ||
1178 | \wxheading{DEPRECATED} | |
1179 | ||
1180 | Use \helpref{wxDb}{wxdb} and \helpref{wxDbTable}{wxdbtable} instead. | |
1181 | ||
1182 | As every data column is represented by an instance of the class wxQueryCol, | |
1183 | every data item of a specific column is represented by an instance of | |
1184 | wxQueryField. Each column contains a list of wxQueryFields. If wxRecordSet is | |
1185 | of the type wxOPEN\_TYPE\_DYNASET, there will be only one field for each column, | |
1186 | which will be updated every time you call functions like wxRecordSet::Move | |
1187 | or wxRecordSet::GoTo. If wxRecordSet is of the type wxOPEN\_TYPE\_SNAPSHOT, | |
1188 | all data returned by an ODBC function will be loaded at once and the number | |
1189 | of wxQueryField instances for each column will depend on the number of records. | |
1190 | ||
1191 | \wxheading{See also} | |
1192 | ||
1193 | \helpref{Database classes overview}{odbcoverview} | |
1194 | ||
1195 | \subsection{wxRecordSet overview [DEPRECATED]}\label{wxrecordsetoverview} | |
1196 | ||
1197 | Class: \helpref{wxRecordSet}{wxrecordset} | |
1198 | ||
1199 | \wxheading{DEPRECATED} | |
1200 | ||
1201 | Use \helpref{wxDb}{wxdb} and \helpref{wxDbTable}{wxdbtable} instead. | |
1202 | ||
1203 | Each wxRecordSet represents a database query. You can make multiple queries | |
1204 | at a time by using multiple wxRecordSets with a wxDatabase or you can make | |
1205 | your queries in sequential order using the same wxRecordSet. | |
1206 | ||
1207 | \wxheading{See also} | |
1208 | ||
1209 | \helpref{Database classes overview}{odbcoverview} | |
1210 | ||
1211 | \subsection{ODBC SQL data types [DEPRECATED]}\label{sqltypes} | |
1212 | ||
1213 | These are the data types supported in ODBC SQL. Note that there are other, extended level conformance | |
1214 | types, not currently supported in wxWindows. | |
1215 | ||
1216 | \begin{twocollist}\itemsep=0pt | |
1217 | \twocolitem{CHAR(n)}{A character string of fixed length {\it n}.} | |
1218 | \twocolitem{VARCHAR(n)}{A varying length character string of maximum length {\it n}.} | |
1219 | \twocolitem{LONG VARCHAR(n)}{A varying length character string: equivalent to VARCHAR for the purposes | |
1220 | of ODBC.} | |
1221 | \twocolitem{DECIMAL(p, s)}{An exact numeric of precision {\it p} and scale {\it s}.} | |
1222 | \twocolitem{NUMERIC(p, s)}{Same as DECIMAL.} | |
1223 | \twocolitem{SMALLINT}{A 2 byte integer.} | |
1224 | \twocolitem{INTEGER}{A 4 byte integer.} | |
1225 | \twocolitem{REAL}{A 4 byte floating point number.} | |
1226 | \twocolitem{FLOAT}{An 8 byte floating point number.} | |
1227 | \twocolitem{DOUBLE PRECISION}{Same as FLOAT.} | |
1228 | \end{twocollist} | |
1229 | ||
1230 | These data types correspond to the following ODBC identifiers: | |
1231 | ||
1232 | \begin{twocollist}\itemsep=0pt | |
1233 | \twocolitem{SQL\_CHAR}{A character string of fixed length.} | |
1234 | \twocolitem{SQL\_VARCHAR}{A varying length character string.} | |
1235 | \twocolitem{SQL\_DECIMAL}{An exact numeric.} | |
1236 | \twocolitem{SQL\_NUMERIC}{Same as SQL\_DECIMAL.} | |
1237 | \twocolitem{SQL\_SMALLINT}{A 2 byte integer.} | |
1238 | \twocolitem{SQL\_INTEGER}{A 4 byte integer.} | |
1239 | \twocolitem{SQL\_REAL}{A 4 byte floating point number.} | |
1240 | \twocolitem{SQL\_FLOAT}{An 8 byte floating point number.} | |
1241 | \twocolitem{SQL\_DOUBLE}{Same as SQL\_FLOAT.} | |
1242 | \end{twocollist} | |
1243 | ||
1244 | \wxheading{See also} | |
1245 | ||
1246 | \helpref{Database classes overview}{odbcoverview} | |
1247 | ||
1248 | \subsection{A selection of SQL commands [DEPRECATED]}\label{sqlcommands} | |
1249 | ||
1250 | The following is a very brief description of some common SQL commands, with | |
1251 | examples. | |
1252 | ||
1253 | \wxheading{See also} | |
1254 | ||
1255 | \helpref{Database classes overview}{odbcoverview} | |
1256 | ||
1257 | \subsubsection{Create} | |
1258 | ||
1259 | Creates a table. | |
1260 | ||
1261 | Example: | |
1262 | ||
1263 | \begin{verbatim} | |
1264 | CREATE TABLE Book | |
1265 | (BookNumber INTEGER PRIMARY KEY | |
1266 | , CategoryCode CHAR(2) DEFAULT 'RO' NOT NULL | |
1267 | , Title VARCHAR(100) UNIQUE | |
1268 | , NumberOfPages SMALLINT | |
1269 | , RetailPriceAmount NUMERIC(5,2) | |
1270 | ) | |
1271 | \end{verbatim} | |
1272 | ||
1273 | \subsubsection{Insert} | |
1274 | ||
1275 | Inserts records into a table. | |
1276 | ||
1277 | Example: | |
1278 | ||
1279 | \begin{verbatim} | |
1280 | INSERT INTO Book | |
1281 | (BookNumber, CategoryCode, Title) | |
1282 | VALUES(5, 'HR', 'The Lark Ascending') | |
1283 | \end{verbatim} | |
1284 | ||
1285 | \subsubsection{Select} | |
1286 | ||
1287 | The Select operation retrieves rows and columns from a table. The criteria | |
1288 | for selection and the columns returned may be specified. | |
1289 | ||
1290 | Examples: | |
1291 | ||
1292 | {\tt SELECT * FROM Book} | |
1293 | ||
1294 | Selects all rows and columns from table Book. | |
1295 | ||
1296 | {\tt SELECT Title, RetailPriceAmount FROM Book WHERE RetailPriceAmount > 20.0} | |
1297 | ||
1298 | Selects columns Title and RetailPriceAmount from table Book, returning only | |
1299 | the rows that match the WHERE clause. | |
1300 | ||
1301 | {\tt SELECT * FROM Book WHERE CatCode = 'LL' OR CatCode = 'RR'} | |
1302 | ||
1303 | Selects all columns from table Book, returning only | |
1304 | the rows that match the WHERE clause. | |
1305 | ||
1306 | {\tt SELECT * FROM Book WHERE CatCode IS NULL} | |
1307 | ||
1308 | Selects all columns from table Book, returning only rows where the CatCode column | |
1309 | is NULL. | |
1310 | ||
1311 | {\tt SELECT * FROM Book ORDER BY Title} | |
1312 | ||
1313 | Selects all columns from table Book, ordering by Title, in ascending order. To specify | |
1314 | descending order, add DESC after the ORDER BY Title clause. | |
1315 | ||
1316 | {\tt SELECT Title FROM Book WHERE RetailPriceAmount >= 20.0 AND RetailPriceAmount <= 35.0} | |
1317 | ||
1318 | Selects records where RetailPriceAmount conforms to the WHERE expression. | |
1319 | ||
1320 | \subsubsection{Update} | |
1321 | ||
1322 | Updates records in a table. | |
1323 | ||
1324 | Example: | |
1325 | ||
1326 | {\tt UPDATE Incident SET X = 123 WHERE ASSET = 'BD34'} | |
1327 | ||
1328 | This example sets a field in column `X' to the number 123, for the record | |
1329 | where the column ASSET has the value `BD34'. | |
1330 |